JP2012029601A - Root vegetable harvester - Google Patents

Abstract

【Task】
Provided is a root vegetable harvesting machine that can lower a storage bag in a direction away from the machine body when it is lowered to a field.
[Solution]
A pulling and conveying device 24 for pulling and harvesting crops is provided on the left and right sides of the machine body, and a sorting and conveying device 87 that takes over the crops from the drawing and conveying device 24 and conveys them from the left and right sides to the other side. In the root crop harvesting machine provided with a storage member 97 for storing crops, and provided with a rotatable mounting member 117 for supporting the storage member 97 and moving it to the field below the terminal side of the sorting and conveying device 87. The mounting member 117 is provided in an inclined posture in which the rotating member 112 is positioned on the other side on the left and right sides, and the base of the support member 115 that supports the housing member 97 on the rotating member 112 is substantially horizontal in the field. When the support member 115 is rotated downward with the rotation member 112 as a rotation fulcrum, the end of the support member 115 moves to the left and right other side away from the machine body.
[Selection] FIG.

Description

  The present invention relates to a root crop harvesting machine that extracts and harvests crops from a field.

  As a conventional root crop harvesting machine, there is a technique in which a selected crop is collected in a storage bag, and a mounting table that supports the storage bag is tilted to be lowered from the machine body. (Patent Document 1)

Japanese Patent No. 4247578

  However, in the root crop harvesting machine described in Patent Document 1, the mounting table is disposed away from the machine body frame so that the mounting table and the storage bag do not come into contact with the maneuvering unit on which the operator is boarded. The distance between the center of gravity of the mounting table on which the bag is placed and the central part in the left-right direction of the aircraft is farther, the weight balance of the aircraft is biased toward the mounting table, the moving direction of the aircraft is shifted to the right, and harvesting crops after turning There is a problem that the start position is shifted.

  In addition, since the mounting table is provided in a substantially parallel posture with the control unit, the storage bag comes into contact with the control unit even when the mounting table is spaced apart when the storage bag is inflated by the crop stored. Therefore, there is a problem that the crop falls from the storage bag due to the impact of contact or damage to the storage bag, and the crop is damaged by the impact of the fall, resulting in a reduction in the commercial value.

  Furthermore, since the storage bag that has fallen into the field is located in front of the mounting table, in order to resume the crop harvesting operation, it is necessary to return to the strip where the harvesting operation is performed avoiding the storage bag, and the harvest start position is shifted. Crops are not pulled out of the field, and workers need to harvest them manually, which increases the labor they spend, and comes into contact with unharvested crops when they move. There is a problem that the amount decreases.

  The present invention seeks to solve this problem.

  According to the first aspect of the present invention, there is provided a pulling / conveying device (24) for pulling out a crop from the field and transporting it upward on the left and right sides of the machine body, and taking over the crop from the pulling / conveying device (24). A sorting and conveying device (87) that conveys to the left and right other sides is provided, and a storage member (97) that accommodates crops is provided on the conveying termination side of the sorting and conveying device (87), and the conveying termination side of the sorting and conveying device (87) In the root crop harvesting machine provided with a rotatable mounting member (117) for supporting the receiving member (97) and moving it to the field below the receiving member (97) placed on the placing member (117) described above ) Was configured to be movable in the direction away from the machine body.

  According to a second aspect of the present invention, the mounting member (117) is provided with an inclined posture in which the rotating member (112) is positioned on the left and right other side of the fuselage, and the rotating member (112). The base of the support member (115) that supports the bottom of the housing member (97) is provided in a substantially horizontal posture with respect to the field scene, and the support member (115) is configured with the rotation member (112) as a rotation fulcrum. The root vegetable harvesting machine according to claim 1, characterized in that the end of the support member (115) moves toward the left and right other sides away from the machine body when the is rotated downward.

  The invention according to claim 3 is characterized in that the base of the rotating member (112) is provided at the same height as the frame (1) of the fuselage or below the frame (1). Root vegetable harvester.

  The invention described in claim 4 is provided with a control part (B) at the front part on the other side of the left and right sides of the fuselage, the mounting member (117) is configured to be rotatable in the left-right direction, and the mounting member (117) is provided. A first elastic member (125) that is rotated or held in a stopped state is provided, and a first operation member (124) that operates the first elastic member (125) is provided on the side of the control unit (B). The root vegetable harvester according to any one of claims 1 to 3, wherein the root vegetable harvester is provided.

  The invention described in claim 5 is provided with a control part (B) at the left and right front part of the airframe, and the mounting member (117) is configured to be slidable in the left-right direction, and the mounting member (117) is provided. A second elastic member (127) that is slid or held in a stopped state is provided, and a second operating member (128) that operates the second elastic member (127) is provided in the control section (B). It was set as the root vegetable harvester of any one of Claim 1 to 3 characterized by the above-mentioned.

  According to the first aspect of the present invention, since the housing member (97) placed on the placement member (117) can be moved away from the machine body, the housing member (97) to be moved to the field is the machine body. It is possible to prevent the crop from falling from the housing member (97) due to the impact of the contact and being damaged, so that the commercial value of the crop is improved.

Moreover, since it can prevent that a housing member (97) breaks in the case of a contact, a housing member (97) can be used for a long time.
When the housing member (97) moves to a position away from the machine body, the machine body is moved to avoid the housing member (97) when returning to the crop harvesting operation after lowering the housing member (97). Since the distance can be shortened, the work efficiency is improved.

Furthermore, since the aircraft can be prevented from coming into contact with unharvested crops during movement, the crops are prevented from being damaged, and the commercial value of the crops is improved.
According to the invention described in claim 2, in addition to the effect of the invention described in claim 1, the rotating member (112) is inclined so as to be located upward on the left and right sides, and the rotating member (112) is provided with an accommodating member. By providing the base of the support member (115) supporting the bottom of (97) in a substantially horizontal posture with respect to the field scene, the support member (115) is rotated downward with the rotation member (112) as a rotation fulcrum. If it does so, since the edge part of a support member (115) will move to the right-and-left other side spaced apart from an airframe, operation of the moving direction of a storage member (97) will become easy and work efficiency will improve.

  In addition, since the storage member (97) can be lowered from the support member (115) to the field without contacting the airframe, the crop is prevented from falling from the storage member (97) and being damaged by the impact of the contact, Increases the commercial value of crops.

Moreover, since it can prevent that a housing member (97) breaks in the case of a contact, a housing member (97) can be used for a long time.
In order to avoid the accommodating member (97) when the accommodating member (97) is moved to a position spaced apart from the machine body to the left and right sides to return to the crop harvesting operation after the accommodating member (97) is lowered. This reduces the distance traveled by the aircraft, which improves work efficiency and prevents the aircraft from coming into contact with unharvested crops during movement, thus preventing damage to the crops and Product value is improved.

  According to the invention described in claim 3, in addition to the effect of the invention described in claim 1 or 2, the base of the rotating member (112) is located at the same height as the frame (1) of the fuselage or the frame (1). By providing the lower part, the support member (115) can be moved closer to the frame (1) when the support member (115) is rotated upward, or on the left and right sides of the left and right other side ends of the frame (1). Since the center of gravity of the mounting member (117) on which the housing member (97) is mounted approaches the center of the left and right direction of the body, the balance of the left and right of the body is stable, and the straightness and turning of the body are improved. This improves the crop harvesting accuracy and work efficiency.

  According to invention of Claim 4, in addition to the effect of invention of any one of Claim 1 to 3, 1st expansion-contraction which rotates mounting member (117) or hold | maintains in a stop state. By providing the member (125), it is possible to prevent the mounting member (117) from rotating freely when the crop is stored in the storage member (97) or when the machine body is traveling. The crop of the housed member (97) is disturbed to prevent the housed crop from falling and being damaged, and the commercial value of the crop is improved.

  In addition, it is possible to prevent the left-right balance of the machine from being lost and disturbing the traveling direction and turning trajectory, so that it is possible to prevent the crop from being missed by the pulling / conveying device (24), and the operator manually harvests the remaining crop. There is no need to do this, so that the work efficiency is improved and the labor of the worker is reduced.

  Then, by providing the first operation member (124) on the side of the control unit (B), the operator can operate the first telescopic member (125) without moving from the control unit (B). Therefore, the work efficiency is improved and the labor of the worker is reduced.

  Further, when the support member (115) is lowered after the mounting member (117) is rotated to the left and right other side away from the machine body, the housing member (97) can be moved to a position far away from the machine body. Therefore, it is prevented that the crop is dropped and damaged by the impact of the accommodation member (97) coming into contact with the airframe, and the commercial value of the crop is improved.

  Moreover, since the moving distance for avoiding the accommodating member (97) moved to the field can be further shortened, it is possible to immediately return to the pulling-out harvesting work of the crop, improving the work efficiency and improving the unharvested crop. This prevents the aircraft from coming into contact with and being damaged, and increases the commercial value of the crop.

  According to the invention described in claim 5, in addition to the effect of the invention described in any one of claims 1 to 3, the second expansion / contraction that slides the holding member (117) or holds it in a stopped state. By providing the member (127), it is possible to prevent the mounting member (117) from sliding freely when the crop is stored in the storage member (97) or when the aircraft is traveling. The crop of the housed member (97) is disturbed to prevent the housed crop from falling and being damaged, and the commercial value of the crop is improved.

  In addition, it is possible to prevent the left-right balance of the machine from being lost and disturbing the traveling direction and turning trajectory, so that it is possible to prevent the crop from being missed by the pulling / conveying device (24), and the operator manually harvests the remaining crop. There is no need to do this, so that the work efficiency is improved and the labor of the worker is reduced.

  Since the second operating member (128) is provided in the control section (B), the operator can operate the second telescopic member (127) without moving from the control section (B). The efficiency is improved and the labor of the worker is reduced.

  Further, when the support member (115) is lowered after the mounting member (117) is slid to the left and right other sides away from the machine body, the housing member (97) can be moved to a position far away from the machine body. Therefore, it is prevented that the crop is dropped and damaged by the impact of the accommodation member (97) coming into contact with the airframe, and the commercial value of the crop is improved.

  Moreover, since the moving distance for avoiding the accommodating member (97) moved to the field can be further shortened, it is possible to immediately return to the pulling-out harvesting work of the crop, improving the work efficiency and improving the unharvested crop. This prevents the aircraft from coming into contact with and being damaged, and increases the commercial value of the crop.

Side view of root crop harvester Top view of root crop harvesting machine Rear view of sorting and conveying section Plan view of sorting and conveying section Rear view of main parts of sorting and conveying conveyor Rear view of sorting and conveying section Side view of the foliage cutting part Top view of the foliage cutting part Plan view of the main part of the shoulder alignment device for the foliage cutting part (A) The top view of the conveyance body of a shoulder alignment device, (b) The side view of the conveyance body of a shoulder alignment device, (c) The front view of the conveyance body of a shoulder alignment device Side cross-sectional view of shoulder alignment device Plan view of the loading / unloading section Side view of the loading / unloading section Rear view of the loading / unloading section Top view of root crop harvesting machine of another embodiment Rear view of root vegetable harvester of another embodiment Top view of root crop harvesting machine of another embodiment Rear view of root vegetable harvester of another embodiment

Embodiments of the present invention will be described.
As shown in FIGS. 1 to 14, a carrot harvester, which is a kind of root vegetable harvester shown as one of the embodiments, includes a traveling unit A that travels the aircraft, a control unit B on which the pilot rides, and the aircraft A harvesting section C that pulls out the carrot from the field on the left and right sides and conveys it to the upper rear side of the machine, a foliage cutting part D that cuts the foliage while taking the carrot from the harvesting part C and transporting it back to the machine, and a foliage cutting part Carrying ginseng falling from D and processing the leaves and leaves remaining in the carrot, taking over the carrot from the remaining leaf processing part E and transporting the carrot from the left and right sides of the machine to the left and right An auxiliary worker sorts out the carrots inside, a storage part G in which a storage member for carrots discharged from the sorting and transporting part F is placed, and a bottom part of the storage member are placed and discharged to the field. It is comprised from the mounting discharge part H.

  In this case, in the plan view, the left side with respect to the traveling direction of the aircraft is referred to as the left and right sides of the aircraft, and the right side with respect to the traveling direction of the aircraft is referred to as the other sides of the aircraft. Details of each part will be specifically described below.

First, the configuration of the traveling unit A will be described.
As shown in FIG. 1 and FIG. 2, the left and right drive sprockets 2 and 2 on the front side of the fuselage, the left and right driven wheels 3 and 3 on the rear side of the fuselage, and the left and right drive sprockets 2 and 2 Left and right belts 5, 5 are wound around a plurality of wheels 4, 4... Attached between the moving wheels 3, 3 to constitute left and right crawlers 6 </ b> L, 6 </ b> R. The left and right drive sprockets 2 and 2 of the left and right crawlers 6L and 6R are attached to left and right drive shafts 9 and 9 extending from the transmission case 8 where the power of the engine 7 is transmitted to the left and right sides. The left and right crawlers 6L and 6R are attached to the fuselage frame 1.

Next, the configuration of the control unit B will be described.
As shown in FIGS. 1 and 2, a control unit frame 10 is attached to the upper right side of the body frame 1, a control seat 11 is attached to the control unit frame 10, and a control panel 12 is attached to the front side of the body. Then, a shift operation lever 13 for switching the forward / backward movement and traveling speed of the aircraft is attached to the control panel 12, and an elevation operation lever 14 for operating the left / right turning operation of the aircraft and the working height of the harvesting section C is attached.

  Further, by attaching a radiator cover 10a that protects a radiator (not shown) for cooling the engine 7 to the left and right other sides (right side of the body) of the control unit frame 10 and that takes in cooling air. The control unit B is configured.

  With the above-described configuration, by providing a control member that can perform a plurality of operations by one, such as the speed change operation lever 13 and the lifting operation lever 14, the operation of the airframe is facilitated, so that the operator's work can be reduced. .

Next, the configuration of the harvesting unit C will be described.
As shown in FIGS. 1 and 2, left and right driven pulleys 16 and 16 are rotatably mounted on the front side of the left and right pull-out frames 15 and 15, and left and right drive pulleys 17 and 17 are mounted on the rear side of the body. Between the pulleys 16, 16 and the left and right drive pulleys 17, 17, the left and right nipping and conveying belts 18, 18 for pulling out the carrots and conveying them to the rear part of the machine body are wound. 18 is tensioned so that the side surfaces of the left and right nipping and conveying belts 18 and 18 are pressed against each other to form a carrot pulling and conveying path R. A rotating frame 20 that can be rotated in the vertical direction is attached to the upper side of the body frame 1 with the left and right horizontal shaft 21 as a rotation fulcrum, and is attached to the left and right drive pulleys 17 and 17 at the rear end of the rotating frame 20. A transmission case 22 for transmitting the driving force is attached so as to be rotatable up and down around the rotation fulcrum X. Further, the body frame 1 and the rotating frame 20 are connected by an elevating cylinder 23, and the elevating cylinder 23 is operably attached by a control part B to constitute a pulling and conveying device 24.

  Also, a vertical elevating device 25 that causes ginseng foliage in front of the drawing and conveying device 24, a horizontal elevating device 26 that scoops up the foliage raised by the vertical elevating device 25, and the horizontal elevating device 26. , A rotating gage wheel 31 that prevents the pulling / conveying device 24 from going down too much at the lower end of the telescopic rod 30 that expands and contracts vertically when the handle 29 is turned, and the driving force of the engine 7 Left and right vibration solitaries 34 and 34 for solving the left and right soils of the carrot attached to the vibration frame 33 that vibrates by the rotation of the shaft 32 rotating by the vibration are provided.

Then, a tail-cutting device 35 for cutting the carrot root of the carrot being transported by the pulling / conveying device 24 is attached below the pulling / conveying passage R to constitute the harvesting section C.
With the above configuration, by providing the horizontal elevating device 26 having the weed pod 27 and the vertical elevating device 25 on the front side of the machine body, the harvesting operation can be performed while picking up the ginseng stems and leaves that have fallen on the field. Since the visibility is improved, the extraction position can be easily adjusted, and the work efficiency is improved because the crop residue is reduced.

Further, since the left and right vibrating soilers 34, 34 and the like can be prevented from being damaged by the carrot, the product value of the carrot is improved.
Then, by providing the gauge ring 31 at the lower end of the telescopic rod 30 that expands and contracts up and down when the handle 29 is turned, if the gauge ring 31 is brought into contact with the field scene, the pulling and conveying device 24 will not be lowered any further. It is possible to prevent the lower end portion of the pulling / conveying device 24 from coming into contact with the field scene and being damaged due to an erroneous operation or unexpected ground irregularities.

  Then, the body frame 9 and the pivot frame 20 that is pivotable in the vertical direction are connected by a lift cylinder 23 with the left and right horizontal shaft 21 as a pivot, and the lift cylinder 23 is operated by the lift control lever 14 of the control unit B. With this configuration, the vertical height of the entire harvesting section C can be adjusted by operating the lifting operation lever 14, so that the position of the pulling and conveying start end of the harvesting section C is adjusted in the vertical direction. At the same time, the position of the pulling conveyance start end portion can be adjusted in accordance with the appropriate pulling height of the carrots vegetated on the field, and the leftover of the carrot is prevented, so that the work efficiency is improved.

Further, if the harvesting section C is raised during turning, the lower end of the harvesting section C is less likely to come into contact with the field, so that the turning operation is performed smoothly and the work efficiency is improved.
Next, the foliage cutting part D will be described.

  As shown in FIG. 1 and FIGS. 7 to 11, left and right transmission shafts 36, 36 that transmit driving force are attached to the transmission case 22, and left and right transmission cases 37, 37 are mounted on the left and right transmission shafts 36, 36. At the same time, left and right first gear units 38, 38 configured by engaging a plurality of gears in the left and right transmission cases 37, 37 are attached toward the front of the machine body. Further, left and right second gear units 39 and 39 are attached to the left and right transmission shafts 36 and 36 inside the transmission case 22 toward the rear side of the machine body, and left and right second gear units 39 and 39 are attached to the rear end portions of the left and right second gear units 39 and 39, respectively. The first output shafts 40 and 40 are attached to the upper side of the machine body.

  The left and right second output shafts 41 and 41 are attached to the front ends of the left and right first gear units 38 and 38 toward the lower side of the fuselage, and the left and right second output shafts 41 and 41 are aligned to the left and right. Drive sprockets 42 and 42 are attached to the shaft. Further, left and right alignment frames 43 and 43 having an L-shape in side view are attached to the front and lower portions of the left and right transmission cases 37 and 37, and holes 44 and 44 in the lateral direction of the machine body are formed in the alignment frames 43 and 43. The left and right rotation shafts 46 and 46 are attached to the holes 44 and 44, with the left and right alignment driven sprockets 45 and 45 being pivotally attached thereto. Further, the left and right alignment tension sprockets 47, 47 are rotatable between the front and rear of the alignment driven sprockets 45, 45 and the alignment drive sprockets 42, 42, and at the inner side of the body relative to the alignment drive sprockets 42, 42. Install. Further, left and right alignment chains 48, 48 are wound endlessly around the alignment tension sprockets 47, 47, the alignment drive sprockets 42, 42, and the alignment driven sprockets 45, 45.

The alignment drive sprockets 42, 42 may have a smaller diameter than the alignment driven sprockets 45, 45 and the alignment tension sprockets 47, 47.
Then, left and right receiving plates 49, 49 are attached to the transmission cases 37, 37 so that their positions can be adjusted in the front-rear direction, and the alignment driven sprocket 45 is interposed between the receiving plates 49, 49 and the alignment frames 43, 43. , 45 are attached to the right and left tension springs 50, 50 to absorb slack generated in the alignment chains 48, 48. The tension pressure springs 50, 50 can change the tension pressure applied to the alignment driven sprockets 47, 47 by moving the receiving plates 49, 49 back and forth. By changing according to the average thickness, it is possible to cope with various work conditions.

  The left and right alignment frames 43, 43 are formed with holes 44, 44 in the left-right direction of the fuselage, and the rotation shafts 46, 46 of the alignment driven sprockets 45, 45 are provided through the holes 44, 44. As a result, it is possible to adjust the position by moving the aligned sprockets 45, 45 in the left-right direction. Therefore, when not working and when the foliage is not passing or when the foliage with a small diameter passes, the alignment is performed. The driven sprockets 47, 47 are pressed by the tension springs 50, 50 to the front side and toward the inner side of the machine body, and when the large diameter foliage passes, the aligned sprockets 47, 47 are moved to the outer side of the machine body. Therefore, it is possible to prevent the large-diameter foliage portion from being bitten, and it is not necessary to remove the bitten foliage portion, thereby improving work efficiency.

  In addition, the left-right distance from the conveyance start end side to the conveyance end side of the alignment devices 54L and 54R becomes substantially linear only when a large diameter foliage part passes through and is loaded, so in other cases Is configured to widen the left-right distance of the alignment device from the conveyance start end side toward the conveyance end side, and can prevent the ginseng passing through the left-right interval of the alignment devices 54L, 54R from fluctuating in the left-right direction. Cutting position alignment is performed properly.

  Furthermore, the large diameter foliage part cannot pass between the right and left of the alignment devices 54L and 54R, the cutting position of the carrot foliage part can be prevented from rising too much, and the foliage part can be prevented from remaining in the root part. The work efficiency is improved, the work efficiency is improved, the ginseng is lifted too much, and the root part can be prevented from being cut by the foliage cutting device 61, which will be described later. improves.

  Further, a U-shaped guide cover 51 in a front view covering the contact surfaces of the upper and lower portions of the alignment chains 48 and 48 and the foliage is attached to the plurality of links 48a constituting the alignment chains 48 and 48. The alignment guide body 52 is configured.

  10 (a) to 10 (c), the guide cover 51 is formed with a convex R portion 51a on one side in the front and rear sides and a concave R portion 51b on the other side in the front and rear sides in plan view. And the protrusion part 51c which protrudes toward the convex-shaped R part 51a of the front and back one side of the subsequent guide cover 51 is formed in the front and back other side on the contact surface with the foliage part. In the straight portion, the convex R portion 51a of the following guide cover 51 enters the concave R portion 51b of the front guide cover 51, and the front protruding portion 51c covers the subsequent convex R portion, thereby guiding the guide. Since the space | interval part of covers 51 can be covered, it is prevented that the foliage part of a carrot is bitten by the space | interval part of guide covers 51, and it is not necessary to stop the body and remove the foliage part bitten. , Work efficiency is improved.

  Further, the guide cover 51 has a convex R portion 51a and a concave R portion 51b, and is attached to the links 48a one by one so that the guide covers 51 do not interfere with each other and the alignment chain 48. , 48 can follow the movement of the positioning devices 54L, 54R, and the working efficiency is improved.

  In addition, when the alignment chains 48 and 48 move along the circular arc locus, since the projecting portion 51c is provided, a large interval portion does not occur between the guide covers 51, and thus the ginseng foliage bites into the interval portion. Therefore, it is not necessary to remove the stalks and leaves that have been bitten by stopping the airframe, thereby improving work efficiency.

The alignment guide body 52 may be a U-shaped cross-sectional shape that covers the contact surfaces of the upper surface, the lower surface, and the foliage of the alignment chain 48 instead of the plurality of guide covers 51.
Then, the alignment chains 48, 48 are placed in the winding area of the alignment chains 48, 48 and between the alignment driven sprockets 45, 45 and the alignment tension sprockets 47, 47 from the winding area to the foliage contact surface. Left and right tension plates 53L and 53R are attached to the left and right sides of the machine body so that the positions of the left and right tension plates 53L and 53R can be adjusted. .

  The tension plates 53L and 53R are formed with elongated holes in the transmission cases 37 and 37, and the mounting shafts 53a and 53a are attached to the position adjustment by detachable members such as bolts, and a plate is attached to the ends of the mounting shafts 53a and 53a. The bodies 53b and 53b are welded.

  The tension plates 53L and 53R may be provided in a position substantially parallel to the left and right alignment devices 54L and 54R. However, when the tension plate 52R is provided on the front side of the alignment device 53R outside the machine body, the alignment is performed inside the machine body. When the tension plate 52L of the device 53L is provided on the rear side of the machine body with respect to the tension plate 52R of the alignment device 53R, the tension plate 52L or the tension plate when the large diameter foliage passes between the left and right of the alignment devices 54L and 54R. Since the alignment chain 48 and the alignment guide body 52 move to the side without the 52R, even if the diameter of the carrot foliage is large, it can be prevented from being bitten by the alignment devices 54L and 54R, and the aircraft is stopped. It is not necessary to remove the bitten foliage and work efficiency is improved.

  In addition, if the tension of the tension plates 53L, 53R is set to be weaker than the tension of the tension springs 50, 50, the alignment chains 48, 48 will be in an appropriate position when the large-diameter foliage passes and a load is applied. Can be bent and retracted, and can be prevented from being bitten by 54L and 54R, and it is not necessary to stop the body and remove the bitten foliage, thereby improving work efficiency.

  Then, elongated holes are formed in the transmission cases 37, 37 in the vicinity of the alignment drive sprockets 42, 42 and outside the alignment guide bodies 52, 52, and the surfaces of the alignment guide bodies 52, 52 are formed in the elongated holes. The left and right scrapers 55 and 55 for removing pieces and mud of the foliage adhering to the head are attached along the locus of the alignment guide bodies 52 and 52 at the time of position adjustment.

In addition, the scrapers 55 and 55 are arranged in a rearward downward inclined posture, so that it becomes easy to drop the cut ends of the foliage and mud downward.
Then, left and right cutting blade rotation shafts 56 and 56 are attached to the rear positions of the alignment devices 54L and 54R of the left and right first gear units 38 and 38, and left and right bearings 57 and 56 are mounted on the cutting blade rotation shafts 56 and 56, respectively. 57 is attached rotatably. Then, left and right support plates 59, 59 are attached to the left and right bearings 57, 57, and left and right foliage cutting blades 60, 60 are attached to the support plates 59, 59 to constitute a foliage cutting device 61.

  Further, left and right foliage conveyance drive pulleys 62 and 62 are attached to the left and right first output shafts 40 and 40, and the left and right foliage conveyance drive pulleys 62 and 62 are attached to the front side of the machine body above the left and right first gear units 38 and 38 and above the alignment devices 54L and 54R. The foliage driven pulleys 63 and 63 are rotatably attached. Then, the left and right foliage conveying belts 64, 64 are wound around the left and right foliage conveying drive pulleys 62, 62 and the left and right foliage conveying driven pulleys 63, 63 to endlessly form the carrot foliage from the pulling and conveying device 24. Is disposed below the left and right transmission cases 37 and 37 and below the end of conveyance of the pulling and conveying device 24.

  Further, left and right remaining leaf conveyance drive pulleys 66 and 66 are pivotally attached to the upper ends of the left and right first output shafts 40 and 40, and the left and right remaining leaf conveyance driven pulleys 67 and 67 are rotatable above the transmission cases 37 and 37. A plurality of left and right remaining leaf conveyance tension pulleys 68, 68 are attached between the left and right remaining leaf conveyance driving pulleys 66, 66 and the left and right remaining leaf conveyance driven pulleys 67, 67. Then, left and right residual leaf conveyance belts 69, 69 are wound endlessly around the left and right residual leaf conveyance driving pulleys 66, 66, left and right residual leaf conveyance driven pulleys 67, 67, and left and right residual leaf conveyance tension pulleys 68, 68. Thus, the remaining leaf conveyance device 70 that sandwiches the upper part of the foliage and conveys it to the rear of the machine body is configured above the defoliation conveyance device 65.

A foliage shooter 71 for discharging the foliage cut by the foliage cutting device 61 from the end portions of the above-mentioned foliage conveyance device 65 and the remaining leaf conveyance device 70 to the field is provided to constitute the foliage cutting portion D.
With the above configuration, the left and right alignment drive sprockets 42 and 42 are arranged at positions separated from the left and right spacing portions of the alignment devices 54L and 54R through which the foliage passes, so that the alignment drive sprockets 42 and 42 Since it is possible to prevent the stems and leaves from being entangled with the two output shafts 41 and 41 to stop the alignment devices 54L and 54R, the harvesting operation is not interrupted and the work efficiency is improved.

  In addition, since the alignment drive sprockets 42, 42 have a smaller diameter than the alignment driven sprockets 45, 45 and the alignment tension sprockets 47, 47, the alignment drive sprockets 42, 42 are further left and right of the alignment devices 54L, 54R. Since it leaves | separates from a space | interval part, it can further prevent that a foliage part gets entangled with the alignment drive sprockets 42 and 42 and the 2nd output shafts 41 and 41, and working efficiency further improves.

  The left and right tension springs 50 and 50 for tensioning the alignment driven sprockets 45 and 45 are provided, so that the left and right alignment chains 48 and 48 are generated when the foliage comes into contact with the alignment devices 54L and 54R. Since the slack can be absorbed and the alignment chains 48 and 48 immediately return to the tensioned state, the alignment devices 54L and 54R ensure that the ginseng foliage even when the foliage portions having different diameters pass continuously. The cutting position of the carrot foliage is properly aligned and the foliage is cut appropriately, and there is no need to remove the foliage in a later process, improving the work efficiency.

  Further, the tension of the tension springs 50, 50 is adjusted by moving the left and right receiving plates 49, 49 in the front-rear direction, so that the growth status of the carrots, the difference in the diameter of the foliage depending on the variety, or the weather and soil quality The tension can be changed appropriately according to the working conditions at the work place, etc., so that the stems and leaves remaining in the carrots are removed in the subsequent process by properly aligning the carrot foliage cutting position and cutting the foliage parts reliably. This eliminates the need for work efficiency.

  Further, the left and right alignment frames 43, 43 are formed with holes 44, 44 in the left-right direction of the machine body, and the rotation shafts 46, 46 having the alignment driven sprockets 45, 45 attached to the holes 44, 44 are movable. In the state where no load is applied, the alignment driven sprockets 45, 45 tensioned by the tension springs 50, 50 move toward the conveyance path of the foliage portion, so that the small diameter foliage portion passes through. Thus, the alignment devices 54L and 54R can receive the foliage portion to properly align the cutting position of the ginseng foliage portion, eliminating the need to remove the foliage portion remaining in the ginseng in a later process, and improving the work efficiency.

  Further, when a large load is applied to the left and right alignment devices 54L and 54R when the large diameter foliage part passes, the alignment driven sprockets 45 and 45 are separated from the movement path of the foliage part along the holes 44 and 44. Since the left and right intervals on the front side of the alignment devices 54L and 54R are widened, the foliage can be prevented from being caught in the interval portions of the alignment devices 54L and 54R, and the aircraft is stopped and bitten. There is no need to remove the foliage and the work efficiency is improved.

  If it is known before harvesting that the carrot foliage has a large diameter, move the alignment driven sprockets 45, 45 away from the left and right of the left and right alignment devices 54L, 54R. If the left and right distances on the upper side in the conveying direction of the alignment devices 54L and 54R are widened, the alignment devices 54L and 54R can be prevented from biting the foliage, and it is necessary to remove the bitten foliage. No work efficiency is improved.

  And, by attaching the guide cover 51 to each of the plurality of links 48a constituting the alignment chains 48, 48 and configuring the alignment guide body 52, the guide cover 51 at an arbitrary location can be freely attached and detached. Even if some of the guide covers 51 are damaged, the proper alignment performance is maintained by simply replacing the guide covers 51 with new ones, and the foliage is appropriately cut, so that the work efficiency is improved.

Moreover, since it is not necessary to replace the entire alignment guide body 52, the cost can be reduced.
Furthermore, since the guide cover 51 can be attached and detached manually without the need for a tool, the replacement work can be easily performed.

  Since the guide cover 51 has a U-shape in front view covering the contact surfaces of the upper and lower surfaces of the alignment chain 48 and the foliage, a space portion is generated between the guide cover 51 and the alignment chain 48. As a result, the foliage is sandwiched between the guide cover 51 and the alignment chain 48, so that ginseng is not aligned at the proper cutting position and the foliage is left uncut, and the foliage is removed in a later process. The work efficiency is improved, the carrot root is prevented from being cut, and the product value of the carrot is improved.

  Further, a convex R portion 51 a and a concave R portion 51 b are formed on the guide cover 51, and the convex R portion 51 a of the subsequent guide cover 51 is brought close to the concave R portion 51 b of the front guide cover 51. By attaching to the alignment chain 48, when the alignment chain 48 moves around the alignment driven sprocket 45 or the like in an arc orbit, the guide cover 51 can move following, so that the alignment devices 54L and 54R Since it operates at a constant peripheral speed, it is possible to properly align the cutting positions of the carrot foliage by receiving the foliage, eliminating the need for removing the foliage remaining in the carrot in a later step, and improving the work efficiency.

  Furthermore, by providing a protruding portion 51c that protrudes toward the convex R portion 51a, when the alignment chain 48 moves around the alignment driven sprocket 45 or the like in an arc orbit, the guide covers 51 ... Since this protrusion 51c covers the space formed between the front and rear, the foliage is sandwiched between the space between the front and back of the guide covers 51, so that the ginseng is not aligned at an appropriate cutting position and the foliage is left uncut. This eliminates the need to remove the foliage in the subsequent process, improves the work efficiency, prevents the carrot root from being cut, and improves the product value of the carrot.

  When the right and left tension plates 53L and 53R are provided in the winding region of the alignment chains 48 and 48, the alignment chains 48 and 48 are pressed from within the winding region. Since the alignment chains 48 and 48 of the portion where the tension plate 53L or the tension plate 53R is not pressed can be retracted in the direction of the alignment drive sprockets 42 and 42, the foliage is bitten between the right and left of the alignment devices 54L and 54R. There is no need to remove the foliage that has been bitten by stopping the airframe, and the work efficiency is improved.

  Further, by providing left and right scrapers 55 and 55 for scrubbing debris and dirt such as mud adhering to the alignment guide bodies 52 and 52 moving on the outer periphery of the alignment drive sprockets 42 and 42, Since it is possible to remove the foreign matter adhering to the alignment guide bodies 52 and 52 at a position away from the moving path of the parts, the foliage fragments are prevented from getting entangled with each part of the alignment devices 54L and 54R. It is not necessary to remove the entangled stem and leaf fragments, and the work efficiency is improved, and the mud mass is prevented from damaging the root of the carrot, thereby improving the product value of the carrot.

  Furthermore, since the attachment positions of the scrapers 55 and 55 can be changed along the elongated holes, the scrapers 55 and 55 are set at optimum positions in accordance with the average diameter of the ginseng stalks and leaves of the field where the harvesting operation is performed. The above-described effect is further improved by reliably removing the debris of the foliage and dirt such as mud from the alignment guide bodies 52 and 52.

  And the leaf shooter 71 which discharges the leaf leaves cut from the carrot by the stem-and-leaf cutting device 61 (the cut stem and leaf portion) to the field seems to discharge the leaves and leaves to the already dug side (the side where the carrot has been harvested). Is provided in a downwardly inclined position, the discharged stems and leaves fall on the carrots on the undigged side (the side where the carrots are not harvested), and the drainage leaves the left and right nipping and conveying belts 19 and 19 and the left and right driven Since it is possible to prevent the harvesting section C from being stopped by being entangled with the pulleys 17, 17, etc., it is possible to prevent the harvesting operation from being disturbed. Can be prevented.

Next, the remaining leaf processing unit E will be described.
As shown in FIGS. 1 and 7, front and rear remaining leaf processing frames 72 and 72 are provided below the foliage cutting device 61, and the first remaining leaves are disposed between the left and right sides of the left and right sides of the body of the remaining leaf processing frames 72 and 72. A processing roller 73a is rotatably attached. A second remaining leaf processing roller 73b is rotatably mounted between the left and right sides of the left and right sides of the remaining leaf processing frames 72, 72 and below the first remaining leaf processing roller 73a. Then, a remaining leaf processing belt 74 made of an elastic material such as rubber or urethane is wound around the first remaining leaf processing roller 73a and the second remaining leaf processing roller 73b in an endless manner. Further, a remaining leaf processing roller 75 is attached to the upper portion of the remaining leaf processing belt 74 so that the remaining leaves remaining at the root of the carrot are sandwiched together with the remaining leaf processing belt 74 and rotated to be excised. The remaining leaf processing section E is configured by configuring the remaining leaf processing conveyor 76 that transports the remaining leaves from the outside of the machine body to the left and right inside directions while processing the remaining leaves.

The remaining leaf processing conveyor 76 is inclined about 2 to 5 degrees from the left and right sides of the machine body to the other side.
Thereby, since the carrot which fell is moved by the drive and inclination movement of the remaining leaf processing belt 74, the movement of the carrot does not stop on the remaining leaf processing conveyor 76, and it is necessary to move the carrot stopped manually. No work efficiency is improved. Further, since the residual leaf processing conveyor 76 is slightly inclined (about 2 to 5 degrees), the residual leaf processing conveyor 76 is inclined with respect to the ground even if the aircraft is inclined to the left and right sides depending on the state of the field. Since the carrot remains in a substantially horizontal state, the carrot does not stagnate on the remaining leaf processing conveyor 76 and does not move in the direction opposite to the conveying direction of the remaining leaf processing conveyor 76. There is no need to return it and work efficiency is improved.

  With the above configuration, since the remaining leaf processing roller 75 constituting the remaining leaf processing conveyor 76 cuts off the remaining leaves of carrots cut by the stem and leaf cutting device 61, the operation of manually cutting the remaining leaves after the harvesting operation is omitted. Work efficiency can be improved.

  In addition, the remaining leaf processing belt 74 constituting the remaining leaf processing conveyor 76 is made of an elastic body such as rubber or urethane, so that the remaining leaf processing belt is removed even if carrots fall after the leaves are cut off by the foliage cutting device 61. Since 74 reduces the impact of the drop, the carrot is prevented from being damaged by the impact of the drop, and the quality of the carrot is improved.

Next, the sorting and conveying unit F will be described.
As shown in FIGS. 2 to 6, front and rear first transport frames 77, 77 are arranged at a predetermined interval in the front-rear direction on the front side of the machine body and at a lower position than the remaining leaf processing conveyor 76. The frame 77, 77 has an inner end (the other end on the left and right sides of the body) and an outer front and rear second transport frames 78, 78 that are spaced apart in the front-rear direction and arranged at the transport end so that they can be pivoted up and down. To do. The front and rear drive sprockets 79 and 79 are rotatably attached to the left and right side ends of the first transport frames 77 and 77, respectively, and the front and rear relays are connected to the left and right end portions of the first transport frames 77 and 77, respectively. The sprockets 80, 80 are rotatably mounted at positions below the drive sprockets 79, 79, and the front and rear driven sprockets 81, 81 are respectively rotatable at the left and right other ends of the second transport frames 78, 78. Install.

  Further, the front and rear transmission chains 82, 82 are wound around the drive sprockets 79, 79, the relay sprockets 80, 80 and the driven sprockets 81, 81, respectively, and the transmission chain 82, Tension sprockets (not shown) before and after tensioning 82 are attached to the first transport frames 77 and 77 at positions where they contact the transmission chains 82 and 82.

Further, a plurality of transport bars 84 made of synthetic resin such as plastic or rubber for transporting carrots on the transmission chains 82, 82 are rotatably attached.
Then, a support plate 86 is attached between the left and right of the second transport frames 78 and 78, and a lifting cylinder 88 that moves the transport terminal end side of the sorting transport conveyor 87 up and down between the support plate 86 and the machine frame 1 is expanded and contracted. A sorting and conveying conveyor 87 that freely attaches and conveys carrots from the left and right sides of the machine body to the left and right sides is configured. Further, a discharge shooter 89 made of a soft member such as a rubber plate or a vinyl chloride plate that slides and moves the carrot discharged from the transfer terminal portion of the sorting and conveying conveyor 87 to the lower portion of the transfer terminal portion of the sorting and conveying conveyor 87. Attach so that the end hangs downward.

The lifting cylinder 88 may be electric, hydraulic or pneumatic, and may be manually extended and retracted.
Then, on the rear side of the machine body frame 1 on the left and right sides of the machine body and on the rear side of the machine body from the sorting and conveying conveyor 87, the auxiliary work for sorting the carrots being transported by the sorting and conveying conveyor 87 and the operation of the sorting and conveying conveyor 87. A boarding step 90 on which a person rides is arranged, and an auxiliary work seat 91 is attached on the boarding step 90 and at a position near the relay sprockets 80 and 80 of the sorting and conveying conveyor 88.

  Further, an ascending / depressing pedal 92 a and a descending step pedal 92 b that move the lifting and lowering cylinder 88 up and down to move the conveying terminal end side of the sorting and conveying conveyor 87 up and down are arranged below the conveying path of the sorting and conveying conveyor 87.

And the sorting conveyance part F is comprised by arrange | positioning on the boarding step 90 and the position which the auxiliary worker who seated on the auxiliary | assistant work seat 91 can step on and operate.
According to the above configuration, since the relay sprockets 80 and 80 are arranged below the drive sprockets 79 and 79, the section of the sorting and conveying conveyor 87 where the relay sprockets 80 and 80 are arranged from the drive sprockets 79 and 79 is the machine body. By tilting about 2 to 5 degrees inward (toward the left and right sides of the machine) and taking a posture that is substantially parallel to the remaining leaf processing conveyor 76, no matter where the carrot falls from the remaining leaf processing conveyor 76, the remaining leaf processing Since the drop between the conveyor 76 and the transfer start end of the sorting transfer conveyor 87 is substantially the same, carrots can be prevented from being damaged by the impact of the drop, and the commercial value is improved.

  In addition, the auxiliary operator is seated on the auxiliary work seat 91 by providing the ascending pedal 92a and the lowering pedal 92b for operating the elevating cylinder 88 at positions where the feet of the auxiliary worker sitting on the auxiliary work seat 91 can reach. It is possible to move the transfer terminal end side of the sorting and conveying conveyor 87 up and down, and the work efficiency is improved and the labor of the operator is reduced.

  Further, by providing the ascending step pedal 92a and the descending step pedal 92b, the auxiliary worker can operate the vertical movement of the sorting / conveying conveyor 87 with his / her feet, and concentrate his hand on the sorting operation of the carrots being conveyed. Therefore, the sorting accuracy is improved, and it is possible to prevent the hand from being pinched or cut by the constituent members of the sorting and conveying conveyor 87, and the safety of the work is improved.

Next, the structure of the accommodating part G is demonstrated.
As shown in FIGS. 2 to 6, the rotation shaft 93 is attached to the lower side (left and right other side) in the transport direction of the second transport frames 78 and 78 before and after the sorting transport conveyor 87 by penetrating in the longitudinal direction of the machine body. The friction resistors 94 and 94 are pivotally attached to both the front and rear ends of the rotating shaft 93 and outside the second transport frames 78 and 78, respectively.

The friction resistors 94, 94 may be any member as long as it has a strong frictional resistance, such as a disc spring, a spring washer, or a rubber ring.
In addition, the base sides of the front and rear hanger arms 95 and 95 are provided at the front and rear ends of the rotating shaft 93 on the outer side in the front and rear direction with respect to the friction resistors 94 and 94, and the second transport frames 78 and 78 and the hanger arms 95 and 95 are provided. The hanger arms 95, 95 are configured to be movable upward or downward only when a moving force greater than the resistance force is applied upward or downward due to the frictional resistance of the frictional resistors 94, 94 sandwiched therebetween.

  A hanger frame 96 that protrudes in the front-rear direction from the front-rear end of the body of the sorting and conveying conveyor 87 is attached to the ends of the hanger arms 95, 95 in the front-rear direction. A pair of front and rear hanging hangers 98 and 98 for hanging and supporting a storage bag (flexible container bag) 97 for holding the front and rear and left and right are attached to the storage bag (flexible container bag) 97 so as to be rotatable in the left and right direction. Further, upside-down inverted U-shaped (saddle-shaped) outer suspension bodies 99a, 99a are welded to the outer end portions of the hanging hangers 98, 98, respectively, and the inner end portions of the aircraft body are downwardly U-shaped. The inner suspension bodies 99b and 99b of the mold are welded, and the suspension hooks 99f, 99f, 99f, and 99f that suspend the containing bag 97 on the outer suspension bodies 99a and 99a and the inner suspension bodies 99b and 99b are movable up and down. Attach to.

  Instead of welding the outer suspension bodies 99a, 99a and the inner suspension bodies 99b, 99b, the outer ends of the hanging hangers 98, 98 are bent into an inverted U shape (saddle shape), and the inner ends of the aircraft It is good also as a structure which can be attached to the hanging hooks 99f, 99f, 99f, and 99f movably up and down by bending a U-shape.

  The hanging hangers 98, 98 have four corners of the housing bag 97 at the front and rear outer suspension bodies 99a, 99a and the front and rear so that the upper opening of the housing bag 97 to be suspended has a substantially rectangular shape in plan view. The inner suspension bodies 99b and 99b are used for suspension.

  And lower limit regulation which receives hanger arms 95 and 95 before and behind the conveyance termination part of the 2nd conveyance frames 78 and 78, and the front and back hanger arms 95 and 95 from the attachment position of rotation shaft 93, and regulates downward rotation. The protrusions 100 and 100 are attached. Further, an upper limit regulation that receives the hanger arm 95 on the front side of the machine body and restricts the upper turn at a position outside the second conveyance frame 78 on the front side of the machine body and above the lower limit regulation protrusion 100 on the front side of the machine body and close to the rotation shaft 93. The protrusion 101 is attached.

  Further, a hole (not shown) in which a female screw is engraved is formed on the rear side or both front and rear sides of the rotating shaft 93, and an adjustment knob 102 in which a male screw (not shown) to be screwed into the hole is engraved. By inserting and rotating the adjustment knob 102 to change the front-rear distance between the second selection frames 78 and 78 and the hanger arms 95 and 95 sandwiching the friction resistors 94 and 94, the frictional resistance is changed. The configuration is as follows.

  If the adjustment knob 102 is provided at the rear end portion of the rotating shaft 93, the auxiliary operator who is on the auxiliary work seat 91 can easily operate. If the adjusting knob 102 is provided at the front end portion of the rotating shaft 93, the control seat 11 is mounted. This makes it easy for the operator to operate and makes it easy to adjust the frictional resistance of the frictional resistors 94 and 94.

  Further, a slide shaft 103 that is slidable in the front-rear direction is provided below the second transport frame 78 on the transport end side of the sorting transport conveyor 87 and on the rear side of the machine body with respect to the rotating shaft 93. A spring 104 for applying tension pressure in the front direction of the machine body is attached to the shaft. Further, an auxiliary hook 105 is provided at the front end of the machine body on the front side of the spring 104 so as to prevent the slack by hanging the front and rear intermediate parts inside the machine bag 97 that enter the lower part of the sorting and conveying conveyor 87, and the rear side of the slide shaft 103. A slide knob 106 is attached at the end and on the outside of the second frame 78 so that the auxiliary operator grasps it by hand and slides the slide shaft 103 back and forth.

  If the slide shaft 103 is provided from the rear end portion of the machine body of the sorting / conveying conveyor 87 to the same position as the front / rear intermediate portion or slightly to the front side of the machine body when not operated, the position of the auxiliary hook 105 can be easily adjusted. Further, the slide shaft 103 may be provided from the front side to the rear side of the machine body. In this case, an operator who is on the control seat 11 can operate the slide shaft 103.

  Then, as shown in FIG. 6, a hanging band hook 107 that hooks a hanging band 97 i inside the body of the storage bag 97 below the sorting and conveying conveyor 87 and on the upper side in the conveying direction of the sorting and conveying conveyor 87 than the rotating shaft 93. Is attached to the upper part of the hanger frame 96 and the hanging band pin 108 for hooking the hanging band 97o on the outer side of the machine body is arranged facing the upper side of the machine body, whereby the accommodation bag hanging device 85 is configured.

The suspension bands 97i and 97o on the outside of the machine body are members for hanging the accommodation bag 97 containing carrots on a forklift or hoist.
The accommodation bag G is constituted by the accommodation bag suspending device 85 and the collection stand 118.

Next, operation | movement of the said accommodating part G is demonstrated.
At the start of the carrot harvesting operation, the sorting / conveying conveyor 87 is lowered to the lowest position in order to minimize the falling distance of the carrot from the conveying terminal end of the sorting / conveying conveyor 87 to the containing bag 97. Further, the four corners of the storage bag 97 are hooked on the suspension hooks 99f, 99f, 99f, 99f provided on the outer suspension bodies 99a, 99a and the inner suspension bodies 99b, 99b of the front and rear suspension hangers 98, 98, respectively. The opening has a substantially rectangular shape in plan view.

  Then, the front and rear hanger arms 95 and 95 are rotated upward until they contact the upper limit restricting protrusion 101, and the front and rear hanging hangers 98 and 98 are inclined upward from the body inner end toward the body outer end. To do. As the hanging hangers 98 and 98 are inclined upward toward the outer side of the machine body, the suspended storage bag 97 is also inclined upward from the inner edge of the machine body toward the outer edge of the machine body. Become posture.

  At this time, among the suspended storage bags 97, the inner side of the machine body from which the carrot is discharged from the transfer terminal end side of the sorting and conveying conveyor 87 is slackened so that the vertical length is shortened, and the outer side of the machine body is hardly slackened so Length increases.

In addition, the accommodation bag 97 shall be comprised flexibly with cloth material, a synthetic fiber, etc.
Further, the outer end of the machine body of the discharge shooter 89 is inserted into the inner end of the storage bag 97, and the inner end of the storage bag 97 is inserted under the transfer end side of the sorting and conveying conveyor 87. Auxiliary hook 105 is hooked in a suspension hole (not shown) formed at a substantially central portion in the front-rear direction. Further, the suspension band 97 i on the inner side of the body of the container bag B is hooked on the suspension band hook 107, and the suspension band 97 o on the outer side of the body is hooked on the suspension band pin 108 on the hanger frame 96.

  The hanger arms 95 and 95 are held in an inclined posture set by the operator due to the frictional resistance of the frictional resistors 94 and 94. However, if the hanger arms 95 and 95 are left unattended, the adjustment knob 102 is rotated. Thus, the frictional resistance force of the frictional resistance bodies 94 and 94 disposed between the second transport frames 78 and 78 and the hanger arms 95 and 95 is adjusted. When the adjustment knob 102 is rotated in the tightening direction, the contact area and the contact pressure of the friction resistors 94 and 94 are increased, the friction resistance is increased, and the hanger arms 95 and 95 are prevented from moving freely. In addition, if it rotates in the loosening direction, the contact area and the contact pressure of the frictional resistance bodies 94 and 94 will decrease, and a frictional resistance force will become weak.

  Further, when the harvesting operation proceeds and the amount of carrots stored in the storage bag 97 exceeds a certain amount, the auxiliary operator steps on the ascending pedal 92a and extends the elevating cylinder 88 to extend the conveying terminal portion of the sorting conveying conveyor 87. Raise the side.

  While the sorting and conveying conveyor 87 is moving up, the hanger arms 95 and 95 are lowered because the force that the hanger arms 95 and 95 try to move down exceeds the friction resistance of the friction resistors 96 and 96. The lowering of the hanger arms 95, 95 occurs only while the sorting / conveying conveyor 87 is raised so as to secure a carrot storage space in the storage bag 97.

  When the hanger arms 95 and 95 are rotated downward, the hanging hangers 98 and 98 are rotated with the hanger frame 96 as a fulcrum, the outside of the body of the hanging hanger 98.98 is rotated downward, and the inside of the body is Rotate upward. Since the outer side of the machine body of the storage bag 97 is positioned upward at the stage of installation, there is almost no change in the position, but the inner side of the machine body is pulled upward by the movement of the hanging hangers 98 and 98. Thereby, the slack which had arisen inside the machine body of the accommodation bag 97 is eliminated according to the rising amount.

  It should be noted that there is almost no change in the drop between the transfer terminal portion of the sorting and conveying conveyor 87 and the storage bag 97 due to this operation, and the end portion of the discharge shooter 89 hangs down into the storage bag 97, so that the storage bag It does not protrude from 97.

  Further, every time the harvesting operation proceeds and the amount of carrots stored in the storage bag 97 exceeds a certain amount, the transfer terminal end of the sorting transfer conveyor 87 is raised, the hanger arms 95 and 95 are rotated downward, and the storage bag 97 is also rotated. The inside of the fuselage is pulled upward to secure a space for storing carrots in the storage bag 97, and the carrot piles biased toward the inside of the fuselage are destroyed.

  Then, when the sorting and conveying conveyor 87 is rotated upward and the hanging hangers 98 and 98 are in a substantially horizontal posture, the slack on the inside of the machine body of the storage bag 97 is eliminated, and the vertical heights on the inside and outside of the machine body are substantially the same. Become. In this state, since approximately 200 kg of carrots are stored in the storage bag 97, the operator stops traveling of the machine body and lowers the storage bag 97 outside the machine.

At this time, the hanger arms 95 and 95 are configured to contact the lower limit restricting protrusions 100 and 100.
However, if it takes more time to replace the storage bag 97, such as when all the carrots in the field can be harvested in a few meters, the lid that closes the upper opening of the storage bag 97 is suspended. If it is hooked on the outer suspension bodies 99a and 99a and the vertical height from the outside of the body of the storage bag 97 to the vicinity of the central portion in the left-right direction is increased, it can be accommodated if it is several meters (several kg) of carrots. The labor for replacing the bag 97 is saved, and the work efficiency is improved.

Even in this state, there is almost no change in the drop between the transfer terminal portion of the sorting transfer conveyor 87 and the storage bag 97.
When the storage capacity of the storage bag 97 is full, the machine body, the pulling and transporting device 24, the sorting and transporting conveyor 87, etc. are stopped, and the storage bag 97 is removed from the hanging hooks 99f, 99f, 99f, and 99f, and the slide knob 106 is removed. The auxiliary hook 105 is removed from the storage bag 97 by pulling backward from the machine body. When the hand is released from the slide knob 106 due to the tension of the spring 104, the auxiliary hook 105 automatically returns to the sorting / conveying conveyor 87 and the substantially central portion in the front-rear direction of the storage bag 97 when the auxiliary hook 105 is attached.

  Further, by operating the operation handle 116 to lower the mounting table 112 forward or backward, the storage bag 97 in which carrots are stored slides down the mounting table 112 by its own weight, so the storage bag 97 is lowered to the front side of the machine body. At that time, the machine body is retracted, and when the storage bag 97 is lowered to the rear side of the machine body, the machine body is moved forward so that the storage bag 97 containing about 200 kg of carrots is lowered from the storage part G and installed in the field.

When the harvesting operation is completed, the hanger arms 95 and 95 are again brought into contact with the upper limit restricting protrusion 101, and the sorting and conveying conveyor 87 is rotated upward to the uppermost position.
With the above-described configuration and operation, there is almost no slack on the outer side of the body of the storage bag 97 from the start of the work to the time of replacement, so it is prevented that carrots enter the slack and reduce the storage capacity of the storage bag 97. The replacement frequency of the bag 97 is reduced, the work efficiency is exchanged, and the labor of the operator is reduced.

  With the conventional method of attaching the storage bag, slack is generated on both sides of the aircraft, so ginseng enters the slack, and even if the storage bag is lifted, the slack cannot be removed. The frequency was high.

  In addition, it was possible to eliminate the slack in the storage bag by moving the sorting transport conveyor up and down, and to secure the storage space, but every time the slack was removed, the operator had to operate the sorting transport conveyor, The efficiency was reduced. In particular, in the case of an auxiliary worker who performs sorting, the sorting accuracy during operation has been reduced.

  And since the drop between the transfer terminal end of the sorting conveyor 87 and the left and right sides of the housing bag 97 is almost constant, the carrot can be prevented from being damaged by the impact of the drop, and the product value of the carrot is improved. To do.

  Further, normally, the rotation of the hanger arms 95 and 95 is regulated by the frictional resistors 96 and 96, and the hanger arms 95 and 95 are configured to rotate downward only while the sorting and conveying conveyor 87 is raised. When the sorting and conveying conveyor 87 is operated in accordance with the change in the amount of ginseng stored in the storage bag 97, the inner sides of the hanging hangers 98 and 98 can be moved upward, so the storage amount of the storage bag 97 is automatically set. Since the slack inside the machine body of the storage bag 97 is automatically eliminated, it is not necessary to move the sorting and conveying conveyor 87 up and down to remove the slack, and the work efficiency is greatly improved.

  In addition, by providing an upper limit restricting projection 101 that determines the upper inclination posture limit of the hanger arms 95, 95 on the second transport frame 78 on the front side of the machine body, the operator can easily understand the position where the hanger arms 98, 98 are set, The positions of the hanger arms 95, 95 can be determined so that the containing bag 97 is full.

  In addition, since the upper limit restricting protrusion 101 is provided only on the second transport frame 78 on the front side of the machine body, the upper limit restricting protrusion 101 is within the working range of an auxiliary worker who sorts the carrots being transported by the sorting transport conveyor 87. Since it does not exist, it is possible to prevent the auxiliary worker from colliding or getting caught on clothes, and the burden on the worker is reduced.

  The lower limit regulating members 100 and 100 are also provided on the second transport frame 78 on the rear side of the machine body. However, the lower limit regulating members 100 and 100 are located at the inner end portions of the machine bodies of the hanging hangers 98 and 98, and the normal sorting operation is finished. Since there is no interference with the operation of the auxiliary worker, there is no problem.

  In addition, in order to prevent the operator from forgetting to bring the hanger arms 95, 95 into contact with the upper-stage restricting protrusion 101, forgetting to set can be prevented by writing a note on the second transport frame 78 on the rear side.

  The outer suspension bodies 99a and 99a are provided upward at the outer end portions of the hanger 98 and 98, and the inner suspension bodies 99b and 99b are provided at the inner end portions of the suspension hangers 98 and 98. Since the lowering hooks 99f and 99f are positioned below the hanging hooks 99f and 99f on the outer side of the machine body, when the storage bag 97 is installed, the difference in height between the outer side and the inner side of the body of the storage bag 97 becomes large. Further, ginseng is more difficult to spill from the outside of the body of the containing bag 97.

  Further, when the left and right end portions of the hanging hanger 98 are bent to form the outer suspended body 99a and the inner suspended body 99b, it is possible to reduce the cost because it can be constituted by a single bar.

  Then, the suspension belt 97i provided on the inner side of the container bag 97 is hooked on the suspension belt hook 107 below the sorting and conveying conveyor 87, and the suspension belt 97o provided on the outer side of the housing body is hooked on the suspension belt pin 108 on the hanger frame 96. Thus, the suspension bag 97i, 97o pulls the storage bag 97, so that slack in the storage bag 97 can be reduced.

  Further, by hooking the auxiliary hook 105 into the hole at the substantially central portion in the front-rear direction of the storage bag 97, the slack generated at the substantially central portion in the front-rear direction inside the body of the storage bag 97 can be reduced. It is hard to get into the slack of the room, and sufficient storage space can be secured.

  When the slide knob 106 is pulled to the rear of the machine body, the slide shaft 103 slides to the rear of the machine body and the auxiliary hook 105 is detached from the storage bag 97, so that the storage bag 97 filled with carrots and the sorting and conveying conveyor 87 are transported. Since the auxiliary hook 105 can be removed without entering the narrow space between the lower end portion and the end portion, the work efficiency is improved and the labor of the operator is reduced.

  Further, when the hanger arms 95 and 95 are brought into contact with the upper limit restricting protrusion 101 and the sorting and conveying conveyor 87 is rotated to the uppermost position, the hanging hangers 98 and 98 are rotated and the outer sides of the hanging hangers 98 and 98 are outside the body. Since the end portion is located inside the end portion of the body frame 1, the hanging hangers 98 and 98 that protrude from the body frame 1 do not collide with a wall or the like, and damage to the body is prevented.

  Further, since the end portion of the discharge chute 89 is hung inside the storage bag 97, there is no space where the carrot between the discharge chute 89 and the storage bag 97 can be dropped. Carrots can be prevented from falling and the product value of the carrots is improved.

If the width of the discharge shooter 89 in the longitudinal direction of the machine body is substantially the same as the width of the sorting and conveying conveyor 87 in the longitudinal direction of the machine body, the effect of preventing the carrot from falling is further improved.
Next, the configuration of the placement discharge unit H will be described.

  As shown in FIGS. 2 and 12 to 14, a folding support frame 109 is provided at the rear side of the left and right sides of the body frame 1 through the folding rotation shaft 109 a in the longitudinal direction of the body, and the folding support is supported. The mounting frame 110 is attached to the frame 109 on the rear end side of the frame 109 so as to be rotatable in the left-right direction of the body with the folding rotation shaft 110a as a rotation fulcrum. Further, a rotation support joint 111 is rotatably provided through the folding rotation shaft 109a on the front side of the machine body from the mounting frame 110, and the rotation support joint 111 passes through the folding rotation shaft 109a. A cavity is formed below.

  A bearing 112a having a diameter in close contact with the inner surface of the hollow support joint 111 is provided to be inclined toward the body frame 1, and the discharge rotation shaft 112 is provided on the bearing 112a on the left and right sides of the body. It is attached in an upwardly inclined posture located on the upper side (the side away from the body frame 1). Further, the left and right mountings that hold the left and right sides of the storage bag 97 on the base side (one side of the machine body on the left and right sides) and the end part side (the other side of the machine body on the left and right sides) of the discharge rotation shaft 112 in the upward inclined posture and prevent the fall. Side walls 113 and 113 are provided so as to be pivotable in the vertical direction, and the rear portion of the storage bag 97 is hung on the hanging hangers 98 and 98 between the left and right sides of the left and right mounting side walls 113 and 113. A post-mounting wall 114 that holds The mounting rear wall 114 and the left and right mounting side walls 113 and 113 may be welded and connected, or a metal plate may be integrally formed to form a U-shaped mounting wall in plan view.

  Further, a flat plate-shaped receiving plate 115 that receives the bottom portion of the storage bag 97 is provided between the left and right of the mounting side walls 113, 113 and on the front side of the mounting rear wall 114. And the reinforcement bar 116,116,116 which reinforces the receiving plate 115 is each provided in the front-and-rear end part of this receiving plate 115, and the bottom face of the front-back direction substantially center part, and the bottom part of the accommodation bag 97 which accommodates ginseng is supported. At the same time, a mounting bucket 117 is configured to rotate downward with the discharge rotation shaft 112 as a rotation fulcrum and to slide the storage bag 97 down to the field.

  If the left and right width of the receiving plate 115 is longer than the left and right widths of the hanger arms 95 and 95, even if the receiving bag 97 is inflated by carrots stored therein, it fits within the left and right width of the receiving plate 115, and Since the storage bag 97 can be prevented from protruding from the mounting side walls 113, 113, the storage bag 97 that protrudes from the receiving table 115 is prevented from coming into contact with the radiator cover 10 a and the like of the control unit B and is prevented from being damaged. In addition, the carrot falls from the damaged part and is damaged, and the commercial value is prevented from deteriorating.

  Further, an operation support plate 118 in a posture inclined upward toward the rear of the machine body is fixed to the left and right other ends of the mounting frame 110 in the above-described manner in a posture perpendicular to the discharge rotation shaft 112, and the discharge rotation shaft The lower end portion of the rotation plate 119 is pivotally attached to the left and right other end portions of the body 112 so that the discharge rotation shaft 112 can be rotated in the longitudinal direction of the body. On the upper side of the rotating plate 119, a long hole 119a is formed in the front-rear direction.

  Then, between the hole 119a formed in the rotating plate 119 and the upper part of the operation support plate 118, a screw groove is cut on the surface of one bar, and a screw groove is formed on the inner surface of the other hollow bar. A mounting / discharging unit is provided by providing a screw rod 120 that is formed by knitting and aligning the screw grooves of each rod, and attaching an operation motor 121 that rotates and expands and contracts the screw rod 120 to the rear end of the screw rod 120. H is configured.

  When the operation member 121a such as a switch or a lever for operating the operation motor 121 is provided on the operation panel 12, it is easy for the operator to operate according to the instruction of the auxiliary operator. It becomes easy for a person to operate while lowering the storage bag 97, and the work efficiency is improved.

Further, the screw rod 120 may be replaced with a telescopic member such as an electric cylinder or a hydraulic cylinder.
The placement bucket 117 is arranged in an upward inclined posture in which the discharge turning shaft 112 serving as a turning fulcrum of the placement bucket 117 is positioned upward on the left and right sides of the body, and the placement bucket 117 is rotated upward as much as possible. In this case, the posture becomes substantially parallel with respect to the farm scene, and when the loading bucket 117 is rotated downward, the front end of the loading bucket 117 is lowered from the body frame 1 to the left and right sides of the body as the lower side. It is set as the structure which leaves | separates.

  With the above configuration, during the harvesting operation, the mounting bucket 117 can be rotated to the left and right sides of the machine body to support the bottom of the storage bag 97, and after the work is completed, the mounting bucket 117 is rotated to the left and right sides of the machine body. Since it can be folded by moving it, the left and right width of the aircraft is compact, the aircraft can be easily placed on transport means such as a light truck, and it can be accommodated in a storage location such as a warehouse without taking up too much space it can.

  Further, since the discharge rotation shaft 112 is folded and disposed below the rotation shaft 109a, the upper end portion of the rotation support joint 111 can be disposed at substantially the same position as the upper end portion of the body frame 1 and the boarding step 90. Therefore, the rotation support joint 111 does not prevent the auxiliary worker from getting on and off the body frame 1 and the boarding step 90, and the work efficiency is improved, and the auxiliary worker hits his / her foot to cause injury or roll. Safety is improved.

  Further, the discharge turning shaft 112 is arranged in an upward inclined posture that is positioned upward on the left and right other sides of the machine body, and when the mounting bucket 117 is turned upward as much as possible, the posture becomes a substantially parallel posture with respect to the field scene. When the loading bucket 117 is rotated downward, the housing bag 97 is separated from the fuselage by being separated from the fuselage frame 1 to the left and right sides of the fuselage as the front end of the loading bucket 117 is lowered. Can be lowered in a direction away from the radiator cover 10a projecting outward from the left and right sides of the control unit B, so that the storage bag 97 lowered on the farm field is prevented from coming into contact with the radiator cover 10a and the like. An operator picks up the carrot without the impact of the bag 97 contacting the radiator cover 10a or the carrot stored by the container bag 97 being broken due to the contact. That it is no longer necessary.

  In particular, when the storage bag 97 is damaged, an alternative storage bag 97, a container or the like must be prepared, and the carrots stored in the damaged storage bag 97 must be transferred. Labor must be expended, and there is a risk that the spare storage bag 97 will be insufficient and the ginseng harvesting work in the field may not be completed. However, this configuration can solve this problem. .

Further, if the ginseng is prevented from falling from the containing bag 97, it can be prevented that the ginseng is damaged by the impact of the drop, so that the commercial value of the ginseng is improved.
Furthermore, since the storage bag 97 lowered to the field is located further to the left and right sides of the machine than the outer end of the mounting bucket 117, the storage bag 97 is placed on the field when returning to the carrot pulling and harvesting operation. Since the distance for separating the airframe can be shortened in order to avoid the storage bag 97, the work efficiency is improved, and it is prevented that the unharvested carrots planted on the adjacent strips are crushed, Ginseng yield and commercial value are improved.

  When the storage bag 97 is lowered toward the front side of the machine body and returned to the pulling and harvesting operation, the machine body is first moved backward to securely separate the storage bag 97 from the mounting bucket 117 and then the machine body is advanced. When the placement bucket 117 located at the end of the left and right sides of the machine body is retracted to a position where it does not come in contact and moves forward and there is no possibility of coming into contact with the storage bag 97, an operation of returning to the carrot harvesting strip is performed.

  Since the interval between the machine body frame 1 and the mounting bucket 117 is increased as the mounting bucket 117 is rotated downward, the storage bag 97 while the operator manually operates the speed change operation lever 13 in the reverse direction. When lowering the machine, it is possible to work with one body to one foot entering this space, so it is difficult for the operator to move away from the reverse machine and the container 97 can be safely lowered onto the field. it can.

  In addition, in the case of the interval enough to put in one body, the operator can operate the machine body without leaving the control unit B until the storage bag 97 gets down to the field, so that the safety is further improved.

  Further, since the storage bag 97 can be discharged in a direction away from the machine body, the storage bag 97 that is lowered to the farm field even when the length of the mounting frame 110 protruding to the left and right sides of the machine body is shortened is the control part B. Since it is configured not to contact the radiator cover 10a and the like, and the center of gravity of the mounting / discharging part H can be brought close to the center part in the left-right direction of the aircraft, the weight balance of the aircraft is stable, and the straightness and maneuverability are improved. The drawing efficiency is improved and the work efficiency is improved.

  In addition, since the left and right widths of the airframe are shortened, the airframe can be configured compactly, so that the airframe can be easily stored, and the mounting / discharging portion H is less likely to come into contact with a bag or a wall during turning. Efficiency is improved.

  The left and right mounting side walls 113, 113 and the mounting rear wall 114 are provided on the left and right sides of the receiving plate 115 and the upper outer edge on the rear side, thereby causing a carrot deviation and a swinging of the airframe in the housing bag 97. Since the storage bag 97 can be prevented from falling from the mounting bucket 117, the carrot is prevented from being damaged by the impact of the drop, and the product value of the carrot is maintained, and the receiving plate 115 is disposed below the storage bag 97. It is possible to prevent the enormous weight of the storage bag 97 that has been reduced by supporting the hanger 98 and 98, the hanger arms 95 and 95, and the like from being damaged, thereby improving durability.

  Further, since the operator operates the operation member 121a to drive the operation motor 121 to expand and contract the screw rod 120 that rotates the mounting bucket 117 up and down, the operator can move the mounting bucket 117. Since it is not necessary to spend a force on the vertical rotation, the work efficiency is improved and the labor of the operator is reduced.

  Further, by providing the operation support plate 118 to which the screw rod 120 is attached at a right angle with respect to the discharge rotation shaft 112, the mounting bucket 117 can be rotated at a constant speed in accordance with the expansion and contraction of the screw rod 120. As a result, the rotating operation of the loading bucket 117 is not wasted, the work efficiency is improved, and the discharge rotating shaft 112 is hardly overloaded, and the durability is improved.

Hereinafter, another embodiment of the ginseng harvester will be described.
As shown in FIG. 15 and FIG. 16, the folding rotation shaft 109 a in the longitudinal direction of the machine body constituting the mounting bucket 117 and the folding support frame 109 and the machine frame 1 are arranged in the longitudinal direction with respect to the folding support frame 109. A long rotating frame 122 is provided, and a vertical space portion in which the rotating frame 122 and the folding support frame 109 can enter is formed between the body frame 1 and the left crawler 6L.

  A rotation support shaft 123 that is a rotation fulcrum when the rotation frame 122 rotates in the left-right direction is provided at a substantially intermediate position in the front-rear direction of the rotation frame 122, and the rotation support shaft 123 is disposed in the space. Place in the department. Further, the front end portion of the rotating frame 122 is disposed on the left and right sides of the body of the control unit B from the radiator cover 10 a and on the side of the control seat 11, and an operator can turn the rotating frame 122 to the front end portion of the rotating frame 122. An operation handle 124 for rotating the 122 in the left-right direction is attached. Further, the rear end portion of the rotation frame 122 is connected to the mounting frame 110, and a rotation cylinder 125 that extends and contracts in the left-right direction of the body is provided in the boarding step 90. The rotation frame 122 is provided at one end of the rotation cylinder 125. Are connected.

  The rotating cylinder 125 expands and contracts when the operator manually operates the operation handle 124. When the operation handle 124 is not operated, the rotation cylinder 125 is a gas cylinder that restricts the rotation operation of the rotation frame 122, or is attached to the operation handle 124. A switch or a button is attached, and an electric cylinder or a hydraulic cylinder that rotates the rotating frame 122 by extending and contracting by operating the switch or button is used.

  As a result, it is possible to switch between a configuration in which the fuselage frame 1 and the loading bucket 117 are in a parallel posture and a configuration in which the front end of the loading bucket 117, that is, the discharge port of the containing bag 97 is separated from the fuselage in the left and right directions of the fuselage. A simple mounting / discharging unit I is configured.

  With the above configuration, when the storage bag 97 is lowered from the placement bucket 117, the operation handle 124 is operated to extend the cylinder 125, and the rotation frame 122 is rotated in the left and right directions of the machine body. Since the position at which 97 is lowered to the field can be set to a position far away from the machine body, the storage bag 97 is further prevented from coming into contact with the machine body, and the carrot falls due to the impact of the contact or damage of the storage bag 97 due to contact. In addition, the labor value of the carrot is reduced by improving the product value of the carrot and omitting the work of picking up the carrot that has fallen.

  In addition, since the distance between the storage bag 97 lowered to the farm field and the machine body is greatly increased, the distance traveled by the track separating the machine body from the storage bag 97 in order to avoid the storage bag 97 lowered to the farm field is further shortened. As a result, the work efficiency is improved, and it is prevented that the unharvested ginseng planted on the adjacent strips is crushed, so that the yield and product value of the carrots are improved.

  Then, by providing the pivot support shaft 123 serving as the pivot point of the pivot frame 122 between the upper and lower sides of the fuselage frame 1 and the crawler 6L, the fuselage frame 1 and the mounting bucket 117 are in a parallel posture. Since the center of gravity of the loading and unloading part I can be brought closer to the center part in the left and right direction of the aircraft, the balance of the body is stabilized, the straightness and maneuverability are improved, the accuracy of carrot extraction is improved, and the work efficiency is improved. improves.

  Moreover, since the left and right widths of the airframe are shortened, the airframe can be configured compactly, so that the airframe can be easily stored and the loading / discharging portion I is less likely to come into contact with a bag or a wall during turning. Efficiency is improved.

  Furthermore, by arranging the operation handle 124 on the front end side of the rotating frame 122 and on the side of the control seat 11, the operator can operate the rotating frame 122 without getting off the control seat 11. The labor of the worker is reduced.

  In addition, by switching the rotation operation and the stop state of the rotation frame 122 with the cylinder 125, the operator can rotate the rotation frame 122 with a light force, thereby reducing the labor of the operator. Since the rotating frame 122 can be prevented from rotating freely even if the aircraft tilts in the left-right direction, the balance of the aircraft does not change abruptly, and the straightness and extraction accuracy of the aircraft are stabilized.

  Alternatively, as shown in FIGS. 17 and 18, the folding support frame 109 is slidably disposed in the horizontal direction between the upper and lower sides of the aircraft frame 1 and the left crawler 6 </ b> L, and on the aircraft frame 1 in the horizontal direction of the aircraft. The fixed side (cylinder case side) of the slide cylinder 127 that expands and contracts is disposed, and the extendable side of the slide cylinder 127 is connected to the folding support frame 109. Then, an extended control panel 128 is provided on the left and right sides of the control panel 12 of the control unit B, and a slide switch 129 for extending and retracting the slide cylinder 127 on the extended control panel 128 and a mounting bucket 117 are rotated up and down. A rotation switch 130 for operating the operation motor 121 is attached, and the folding support frame 109 is inserted between the upper and lower sides of the body frame 1 and the crawler 6L, and the folding support frame 109 is from the left and right other side ends of the body frame 1. Also, a mounting discharge portion J that can be switched to a form located outside is configured.

  Further, the extension control panel 128 is provided with a reset switch 131 for placing the placing bucket 117 in a horizontal posture and moving the folding support frame 109 between the machine frame 1 and the crawler 6L, and the folding support frame 109 on the machine frame 1. You may provide the setup switch 132 which moves the mounting bucket 117 downward while moving outside the body left-right other end part.

  When the reset switch 131 is operated when the mounting bucket 117 is in a horizontal posture, the operation motor 121 is not operated and only the slide cylinder 127 is contracted and the mounting bucket 117 is folded. Even if the body frame 1 is rotated along the moving shaft 109a, the folding support frame 109 is slid by contracting the slide cylinder 127.

  On the other hand, when the setup switch 132 is operated when the slide cylinder 127 is in the extended state, the operation motor 121 is operated to lower the placement bucket 117.

  With the above configuration, when the harvested carrots are stored in the storage bag 97, the slide cylinder 127 is contracted so that the folding support frame 109 is inserted between the upper and lower sides of the body frame 1 and the crawler 6L, and the center of gravity position of the mounting bucket 117 is set. Since it can be close to the center in the left-right direction of the fuselage, the weight balance of the fuselage is stabilized, the straightness and maneuverability are improved, the accuracy of carrot extraction is improved, and the work efficiency is improved.

  In addition, since the carrot discharged from the sorting and transporting conveyor 87 falls to the front and rear of the storage bag 97 and the substantially central position in the left-right direction, the carrots stored in the storage bag 97 can be stacked in a mountain shape. The transport end of the conveyor 87 can be moved up and down, or the slide cylinder 127 can be expanded and contracted to move the loading bucket 117 in the left-right direction to evenly collapse the carrot stack. Is housed.

  When the storage bag 97 is lowered, the slide cylinder 127 is extended, the machine body and the placement bucket 117 are separated from each other, and then the placement bucket 117 is lowered, so that the position where the storage bag 97 is lowered to the field is greatly separated from the machine body. Therefore, the storage bag 97 is further prevented from coming into contact with the fuselage, the carrot is not dropped due to the impact of the contact or the damage of the storage bag 97 due to the contact, and the product value of the carrot is improved. The labor of the worker is reduced by omitting the work of picking up the carrots.

  In addition, since the distance between the storage bag 97 lowered to the farm field and the machine body is greatly increased, the distance traveled by the track separating the machine body from the storage bag 97 in order to avoid the storage bag 97 lowered to the farm field is further shortened. As a result, the work efficiency is improved, and it is prevented that the unharvested ginseng planted on the adjacent strips is crushed, so that the yield and product value of the carrots are improved.

  Furthermore, by switching the sliding movement of the folding support frame 109 in the left-right direction by expanding and contracting the slide cylinder 127, the operator can slide the folding support frame 109 with a light force, thereby reducing the labor of the operator. In addition, since the folding support frame 109 can be prevented from sliding freely even if the aircraft tilts in the left-right direction, the balance of the aircraft does not change abruptly, and the straightness and the extraction accuracy of the aircraft are stabilized.

  Then, by attaching an extension control panel 128 provided with a slide switch 129 and a rotation switch 130 for operating the slide cylinder 127 and the operation motor 121 to the control panel 12, the operator can place the loading / discharging unit while operating the aircraft. Since the operation of J can be performed, work efficiency is improved.

  Further, by providing the set switch 131 and the set-up switch 132 that integrate the operations of the slide switch 129 and the rotation switch 130, the work procedure is simplified, and the work efficiency is further improved.

  The configurations of the placement discharge section I shown in FIGS. 15 and 16 and the placement discharge section J shown in FIGS. 17 and 18 can be added to the placement discharge section H of this embodiment.

1 Airframe frame 24 Pulling and conveying device 87 Sorting and conveying conveyor (sorting and conveying device)
112 Discharge turning shaft (turning member)
115 cradle (support member)
117 Placement bucket (placement member)
124 Operation handle (first operation member)
125 Rotating cylinder (first telescopic member)
127 Slide cylinder (second elastic member)
128 Extension control panel (second operation member)

Claims (5)

A pulling / conveying device (24) for pulling out the crop from the field and transporting it upward on the left and right sides of the machine body is provided, and the sorting transport for taking the crop from the pulling / conveying device (24) and transporting it from the left and right sides to the left and right sides. An apparatus (87) is provided, an accommodating member (97) for accommodating the crop is provided on the conveying terminal side of the sorting and conveying apparatus (87), and an accommodating member (97) is provided below the conveying terminal side of the sorting and conveying apparatus (87). In a root crop harvesting machine provided with a rotatable mounting member (117) that supports and moves to the field,
A root crop harvesting machine characterized in that the accommodation member (97) placed on the placement member (117) is configured to be movable in a direction away from the machine body.   The mounting member (117) is provided with a rotating member (112) on the other side of the airframe in an inclined posture that is positioned upward on the other side of the left and right sides, and the bottom of the housing member (97) is provided on the rotating member (112). The base of the support member (115) that supports the base is provided in a substantially horizontal posture with respect to the field scene, and the support member (115) is pivoted downward with the pivot member (112) as a pivot point. The root vegetable harvesting machine according to claim 1, wherein the end of the member (115) is configured to move toward the left and right sides separated from the machine body.   The root vegetable harvesting machine according to claim 1 or 2, wherein a base portion of the rotating member (112) is provided at the same height as the frame (1) of the machine body or below the frame (1).   A steering part (B) is provided on the left and right other front part of the airframe, the mounting member (117) is configured to be rotatable in the left-right direction, and the mounting member (117) is rotated or in a stopped state. The first elastic member (125) to be held is provided, and the first operation member (124) for operating the first elastic member (125) is provided on a side of the control portion (B). The root vegetable harvester according to any one of 1 to 3.   A steering part (B) is provided on the left and right other front part of the airframe, the mounting member (117) is configured to be slidable in the left-right direction, and the mounting member (117) is slid or in a stopped state. The second elastic member (127) to be held is provided, and the second operating member (128) for operating the second elastic member (127) is provided in the control section (B). The root vegetable harvester according to any one of the above.

Images