CN111037616A - An outdoor food processing equipment - Google Patents

Abstract

The invention discloses outdoor food material processing equipment which structurally comprises a box body, wherein an inner cavity penetrating through the box body from top to bottom is formed in the box body, a plurality of supporting rods are fixedly arranged on the lower end face of the box body, symmetrical cutting and sliding devices for processing food materials in a cutting mode are arranged in the inner cavity, a power transmission output device for driving the cutting and sliding devices to turn over so as to adjust the distance between the cutting and sliding devices is fixedly arranged on one side end face of the box body, and the equipment adopts the design of the cutting and sliding devices and the power transmission output device, so that the equipment can efficiently process the food materials in a cutting mode under the action of not using people to pull the food materials, on one hand, the danger coefficient of using the equipment by people is reduced, and on the other hand, the food material.

Description

Outdoor food material processing equipment

Technical Field

The invention belongs to the technical field of food material processing, and particularly relates to outdoor food material processing equipment.

Background

The defects of the prior art are that in the process of processing some meat food materials, people are easy to cause danger when the meat is placed in equipment to be processed, the physical health of the people is threatened, and the danger degree of the people using the equipment is greatly increased. For this reason, long-term research has been conducted and various solutions have been proposed.

For example, chinese patent document discloses a food material processing machine [ application No.: 201820364866.4], comprising a base, a working table arranged on the base and a vertical frame arranged beside the working table, wherein the working table is round and driven by an electric mechanism arranged on the base to rotate, the vertical frame is provided with two stack knives which can reciprocate up and down, and the side of the working table is also provided with a baffle plate which is used for shoveling and placing the crushed products on the surface of the baffle plate; the storage hopper is arranged above the working table, the material guide pipe with an opening and closing control valve is arranged below the storage hopper, the discharge port capable of being opened and closed is arranged on the working table, and the material containing barrel is arranged below the discharge port. The utility model discloses eat the cooperation of material processing machine through constantly rotatory workstation and striker plate, make the edible material on it can get into the buttress garrulous district of marking knife below repeatedly, through the upper and lower reciprocating motion messenger of buttress sword and eat the material and can meticulously chop, the utility model discloses eat material processing machine simple structure, reasonable in design, be favorable to reducing the amount of manual labor and improve and chop efficiency. .

Above-mentioned scheme, not yet realize adopting the mode of multilayer crosscut to carry out high-efficient processing to meat product, and can not effectively avoid personnel's injury, reduced work efficiency.

Disclosure of Invention

The invention aims to solve the problems and provides equipment which has the advantages of realizing efficient processing of food materials in a multi-layer transverse cutting mode, effectively avoiding personnel injury and the like.

The invention is realized by the following technical scheme: the outdoor food material processing equipment comprises a box body, wherein an inner cavity penetrating through the box body is formed in the box body, a plurality of support rods are fixedly arranged on the lower end face of the box body, symmetrical cutting and sliding devices for processing food materials in a cutting mode are arranged in the inner cavity, and a power transmission output device for driving the cutting and sliding devices to turn over to adjust the distance between the cutting and sliding devices is fixedly arranged on one side end face of the box body, so that the meat products are efficiently cut by the equipment.

The cutting and sliding device comprises a frame, a through matching hole is arranged in the frame, a through installation inner cavity is arranged in the frame, a plurality of symmetrical round holes are communicated and arranged in the end wall of the installation inner cavity, a sliding cutting assembly for processing food materials in a sliding cutting mode is arranged between the round holes, a motor installation side plate is fixedly arranged on one side end surface of the frame, a driving motor is fixedly arranged on one side end surface of the motor installation side plate, a rotating matching threaded rod is arranged in the driving motor in a power connection mode, the rotating matching threaded rod is connected with the frame in a rotating matching mode, an inner threaded plate is arranged on the outer surface of the rotating matching threaded rod in a threaded matching connection mode, the inner threaded plate is connected with the frame in a sliding matching mode, an extending round rod is fixedly arranged on the lower end surface of the inner threaded plate, and the extending round rod, thereby utilizing the sliding cutting assembly to process the food material.

According to a further technical scheme, the sliding cutting assembly comprises an installation box, symmetrical protruding top shafts are fixedly arranged on the end face of the installation box, an open inner sliding hole is formed in each protruding top shaft and is connected with an extending round rod in a sliding fit mode, symmetrical matching protruding shafts are fixedly arranged on the end faces of the two sides of the installation box and are connected with the round holes in a rotating fit mode, an open top installation cavity is formed in the installation box, a sliding inner cavity which is located in the installation box and is open is formed in the lower side of the top installation cavity, a shielding plate is fixedly arranged on the upper end wall of the top installation cavity, a sliding cutting assembly which cuts food materials in a sliding mode is arranged in the sliding inner cavity, a power transmission assembly which drives the sliding cutting assembly to work is arranged in the top installation cavity, an adjusting pushing and blocking assembly which is located in the top installation cavity and can push and block the cut food materials is arranged on one side of the power transmission assembly, thereby utilize above-mentioned subassembly to realize that equipment high efficiency cutting eats material and avoided personnel to be injured.

Further technical scheme, the slip cutting subassembly include with the cutting board that the inner chamber sliding fit that slides is connected, inner chamber a side end face that slides has set firmly and has removed the cooperation pole, remove the gliding running through of cooperation pole the install bin, it is connected with the power transmission subassembly cooperation to remove the cooperation pole and is connected in order to realize with the power transmission subassembly cooperation the removal cutting function of cutting board.

In a further technical scheme, the power transmission assembly comprises a driven meshing gear which is rotatably arranged on the lower end wall of the top mounting cavity, two sides of the driven meshing gear are provided with connecting belt wheels which are in running fit connection with the top mounting cavity, the outer surface of the connecting belt wheel is wound with a transmission belt which connects the connecting belt wheel in a power way, the upper end surface of the connecting belt wheel is fixedly provided with an engaging gear which is engaged with the driven engaging gear, the engaging gear is of a half-tooth structure, a power motor is arranged on the upper side of one of the meshing gears, the power motor drives the meshing gear opposite to the power motor to rotate, a connecting structure is arranged between the driven meshing gear and the movable matching round rod, so that the rotation of the driven engagement gear is converted into the sliding of the movement fitting circular rod by the connecting structure. A

Further technical scheme, connection structure include with remove the fixed rear side rectangular plate of cooperation round bar, rear side rectangular plate side end face has set firmly and has removed circular axle, it runs through to remove the gliding installation box of circular axle and stretch into in the top installation cavity, it has set firmly the dress card round bar to remove the circular epaxial up end, driven meshing gear up end has set firmly the cantilever, be provided with the recess that runs through from top to bottom in the cantilever, the recess with cantilever counterbalance dress card cooperation is connected, thereby utilizes driven meshing gear and cantilever make remove the periodic slip of circular axle.

A further technical scheme, adjust push away keep off the subassembly include with the external screw thread slide bar that top installation cavity end wall sliding fit connects, external screw thread slide bar side end face has set firmly and has pushed away the baffle, push away the baffle with the cutting board up end offsets, external screw thread slide bar one side is provided with and is located in the top installation cavity just can be adjusted the flexible extending structure of external screw thread slide bar to utilize extending structure to adjust the external screw thread slide bar with push away the position of baffle.

A further technical scheme, extending structure include with rotating cooperation dish that top installation cavity end wall normal running fit is connected, rotating cooperation dish symmetry sets up, be provided with the through-hole that runs through in the rotating cooperation dish, the circular connecting axle of a plurality of annular arrays has set firmly in the through-hole, circular connecting axle side end face has set firmly the side dish, keeps away from the side dish circular connecting axle end face has set firmly the internal thread dish, the internal thread dish is located in the top installation cavity, the external screw thread slide bar passes the internal thread dish and with internal thread dish screw-thread fit connects, thereby utilizes the rotation of internal thread dish makes the external screw thread slide bar is in slide in the top installation cavity in order to change push away the position of baffle.

According to the technical scheme, the power transmission output device comprises convex plates which are fixedly arranged on the front end face of the box body and are symmetrical, a round shaft is arranged between the convex plates in a rotating mode, symmetrical rotating bevel gears are fixedly arranged on the end faces of the two sides of the round shaft, a side connecting plate which is fixed with the box body is arranged on one side of each rotating bevel gear, a rotating shaft is arranged in the side connecting plate in a rotating mode, the rotating shaft is in power connection with the cutting sliding device and is fixed with the matching holes, middle meshing bevel gears which are meshed with the rotating bevel gears are fixedly arranged on the outer surfaces of the rotating shafts, and side driving components which drive the middle meshing bevel gears to rotate are arranged on the side connecting plates on one side of the rotating shafts, so that the middle meshing bevel gears on one side.

According to a further technical scheme, the side driving assembly comprises a motor mounting plate fixed with the side connecting plate, an output motor is fixedly arranged on the end face of one side of the motor mounting plate, a driving bevel gear is arranged on one side of the output motor in a power connection mode, and the driving bevel gear is meshed with the adjacent middle meshing bevel gear, so that the output motor is utilized to indirectly drive the driving bevel gear to rotate, and the rotating shaft drives the cutting sliding device to rotate.

The invention has the beneficial effects that: this equipment has adopted cutting displacement device and power transmission output device's design makes equipment can adopt the mode of cutting to carry out high-efficient processing to eating the material under the effect that the personnel pulled the edible material, has reduced the danger coefficient that personnel used equipment on the one hand, and on the other hand has also improved the effect that equipment was processed to eating the material.

The above advantages are embodied in that the design of the circular shaft, the convex plate, the rotating bevel gear, the rotating shaft, the driving bevel gear, the motor mounting plate, the output motor, the side connecting plate and the middle meshing bevel gear is utilized to enable the cutting sliding devices on both sides to rotate simultaneously so as to adjust the distance between the cutting sliding devices on the left side and the right side and improve the cutting effect of the equipment on food materials, the design advantages of the frame, the driving motor, the motor mounting side plate, the rotating matching threaded rod, the internal threaded plate, the extending circular rod, the top convex shaft and the internal sliding hole are that the mounting box and other structures are further subjected to angle change adjustment to improve the processing efficiency of the food materials, the cutting of the food materials is more efficient so as to avoid the operation of the equipment by personnel after the shutdown, and the cutting plate, the moving matching circular rod, the rear rectangular plate, the moving circular shaft, the clamping circular rod, the groove, The design advantages of the cantilever, the driven meshing gear, the power motor, the meshing gear, the transmission belt, the connecting belt wheel and the top mounting cavity are that the semi-tooth structure of the meshing gear is utilized to enable the power motor to drive the meshing gear to rotate, then the driven meshing gear has a periodic reciprocating rotation function under the action of the connecting belt wheel and the transmission belt, the cantilever can indirectly drive the movable matching round rod and the cutting plate to perform periodic reciprocating movement, so that the cutting is efficient, the cutting positions of the cutting plates on different layers are different, the cutting of food materials is facilitated, meanwhile, the direct falling of the food materials is facilitated, the design advantage of the push baffle is that the food materials can be blocked when the cutting plates move in a return stroke, the equipment is prevented from being jammed and stopped, and the position of the push baffle can be adjusted according to actual needs, put at equipment central point with improving edible material to improve equipment's processing effect, just the design advantage of external screw thread slide bar, internal thread dish, circular connecting axle, side dish, through-hole and rotating cooperation dish lies in, rotates can make behind the side dish external screw thread slide bar reciprocating motion, the structural design advantage of through-hole and circular connecting axle lies in, makes the external screw thread slide bar can obtain stable protection, and is convenient for make the external screw thread slide bar with through-hole sliding fit connects, because personnel do not directly contact with equipment, obtains the guarantee promptly to personnel's safety.

Drawings

FIG. 1 is a schematic diagram of the apparatus of the present invention;

FIG. 2 is an enlarged view of the case of FIG. 1 in the direction A;

FIG. 3 is an enlarged view of the case of FIG. 1 in the direction B;

FIG. 4 is a schematic bottom view of the apparatus of FIG. 1 according to the present invention;

FIG. 5 is a schematic view of the cutting skid of FIG. 1 according to the present invention;

FIG. 6 is a schematic view of the support pole of FIG. 5 in the direction of C according to the present invention;

FIG. 7 is a schematic view of the cutting assembly of FIG. 5 of the present invention;

FIG. 8 is a cut-away schematic view of the cutting assembly of FIG. 7 of the present invention;

FIG. 9 is a schematic view of the top mounting cavity of FIG. 8 taken in the direction D of the present invention;

FIG. 10 is a schematic view of the top mounting cavity of FIG. 8 taken in the direction E in accordance with the present invention;

FIG. 11 is a schematic view of the invention in the direction F of the moving circular shaft of FIG. 8;

FIG. 12 is a rear three-dimensional view of the cutting assembly of FIG. 8 of the present invention;

FIG. 13 is a schematic view of the mounting box of FIG. 12 in the direction G of the present invention;

in the figure, a box body 101, a support rod 102, an inner cavity 103, a round shaft 201, a convex plate 202, a rotating bevel gear 203, a rotating shaft 204, a drive bevel gear 205, a motor mounting plate 206, an output motor 207, a side connecting plate 208, a middle meshing bevel gear 209, a round hole 301, a matching hole 302, a frame 303, a mounting inner cavity 304, an extending round rod 305, a mounting box 306, a rotating matching threaded rod 307, a driving motor 401, an internal thread plate 402, a motor mounting side plate 403, a shielding plate 501, a top mounting cavity 502, a moving round shaft 503, a rear rectangular plate 504, a sliding inner cavity 505, a matching convex shaft 506, a pushing baffle 507, a cutting plate 508, a connecting belt wheel 601, a driving belt 602, a meshing gear 603, a groove 604, a cantilever 605, a power motor 606, a driven meshing gear 607, a through hole 701, a side disc 702, a round connecting shaft 703, a top convex shaft 704, an internal sliding hole 705, an internal thread disc 706, A clamping round rod 801, a movable matching round rod 802, a cutting sliding device 950 and a power transmission output device 951.

Detailed Description

As shown in fig. 1 to 13, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the following up-down, left-right, front-back direction is consistent with the up-down, left-right, front-back direction of the projection relation of the box body 1, the outdoor food processing equipment comprises a box body 101, an inner cavity 103 which penetrates through the box body 101 from top to bottom is arranged in the box body 101, the depth of the inner cavity 103 is at least 50cm, a plurality of support rods 102 are fixedly arranged on the lower end face of the box body 101, the number of the support rods 102 is four, symmetrical cutting sliding devices 950 which process food materials in a cutting mode are arranged in the inner cavity 103, and a power transmission output device 951 which drives the cutting sliding devices 950 to turn over to adjust the distance between the two is fixedly arranged on one side end face of the box body 101, so that the meat.

Beneficially, the cutting and sliding device 950 includes a frame 303, a through fitting hole 302 is provided in the frame 303, the length of the frame 303 is smaller than the length of the inner cavity 103, a through mounting inner cavity 304 is provided in the frame 303, a plurality of symmetrical round holes 301 are provided in an end wall of the mounting inner cavity 304, the number of the round holes 301 is at least 6, a sliding cutting assembly for processing food materials in a sliding cutting manner is provided between the round holes 301, a motor mounting side plate 403 is fixedly provided on an end surface of one side of the frame 303, a driving motor 401 is fixedly provided on an end surface of one side of the motor mounting side plate 403, a rotating fitting threaded rod 307 is provided in the driving motor 401, the rotating fitting threaded rod 307 is rotatably fitted and connected with the frame 303, an inner threaded plate 402 is provided on an outer surface of the rotating fitting threaded rod 307, the inner threaded plate 402 is slidably fitted and connected with the frame 303, the extended round bar 305 is connected with the sliding cutting assembly in a matching manner, so that the sliding cutting assembly is utilized to process food materials.

Beneficially, the sliding cutting assembly comprises an installation box 306, symmetrical protruding shafts 704 are fixedly arranged on the end face of the installation box 306, an inner sliding hole 705 with an opening is formed in the protruding shaft 704, the inner sliding hole 705 is connected with an extending round rod 305 in a sliding fit mode, symmetrical matching protruding shafts 506 are fixedly arranged on the end faces of two sides of the installation box 306, the matching protruding shafts 506 are connected with the round holes 301 in a rotating fit mode, the length of the installation box 306 is at least 30cm, an open top installation cavity 502 is formed in the installation box 306, a sliding inner cavity 505 which is located in the installation box 306 and is open is arranged on the lower side of the top installation cavity 502, a shielding plate 501 is fixedly arranged on the upper end wall of the top installation cavity 502, a sliding cutting assembly which cuts food materials in a sliding mode is arranged in the sliding inner cavity 505, a power transmission assembly which drives the sliding cutting assembly to work is arranged in the top installation cavity 502, an adjusting pushing assembly which is located in the top installation cavity 502 and can push and block, thereby utilize above-mentioned subassembly to realize that equipment high efficiency cutting eats material and avoided personnel to be injured.

Beneficially, the sliding cutting assembly comprises a cutting board 508 connected with the sliding inner cavity 505 in a sliding fit mode, the cutting board 508 is the same as the sliding inner cavity 505 in size, a movable fit round rod 802 is fixedly arranged on one side end face of the sliding inner cavity 505, the movable fit round rod 802 penetrates through the installation box 306 in a sliding mode, the movable fit round rod 802 is connected with the power transmission assembly in a matched mode, and therefore the movable fit round rod 802 is connected with the power transmission assembly in a matched mode to achieve the movable cutting function of the cutting board 508.

Advantageously, the power transmission assembly comprises a driven engaging gear 607 rotatably arranged on the lower end wall of the top mounting cavity 502, connecting belt wheels 601 connected with the top mounting cavity 502 in a rotating fit manner are arranged on two sides of the driven engaging gear 607, a transmission belt 602 is wound on the outer surfaces of the connecting belt wheels 601, the transmission belt 602 connects the connecting belt wheels 601 in a power connection manner, the diameter of the connecting belt wheel 601 is larger than that of the driven engaging gear 607, an engaging gear 603 is fixedly arranged on the upper end surface of the connecting belt wheel 601, the engaging gear 603 is engaged with the driven engaging gear 607, the engaging gear 603 is of a half-tooth structure, a power motor 606 is arranged on the upper side of one of the meshing gears 603, the power motor 606 drives the meshing gear 603 opposite to the power motor 606 to rotate, a connecting structure is arranged between the driven meshing gear 607 and the movable matching round rod 802, so that the rotation of the driven engagement gear 607 is converted into the sliding movement of the movement fitting circular rod 802 by the coupling structure. A

Advantageously, the connecting structure comprises a rear rectangular plate 504 fixed with a movable matching round rod 802, a movable circular shaft 503 is fixedly arranged on one side end face of the rear rectangular plate 504, the length of the movable circular shaft 503 is the same as that of the movable matching round rod 802, the movable circular shaft 503 slidably penetrates through the mounting box 306 and extends into the top mounting cavity 502, a clamping round rod 801 is fixedly arranged on the upper end face of the movable circular shaft 503, a cantilever 605 is fixedly arranged on the upper end face of the driven meshing gear 607, a vertically penetrating groove 604 is arranged in the cantilever 605, the groove 604 is connected with the cantilever 605 in an abutting clamping and matching mode, and therefore the driven meshing gear 607 and the cantilever 605 are used for enabling the movable circular shaft 503 to periodically slide.

Beneficially, wherein, adjust and push away the fender subassembly and include the external screw thread slide bar 707 with top installation cavity 502 end wall sliding fit connection, external screw thread slide bar 707 one side end has set firmly and pushes away baffle 507, pushes away baffle 507 and offsets with cutting board 508 up end, and external screw thread slide bar 707 one side is provided with and is located top installation cavity 502 and can adjust the flexible extending structure of external screw thread slide bar 707 to utilize extending structure to adjust external screw thread slide bar 707 and push away the position of baffle 507.

Advantageously, the telescopic structure comprises a rotating matching disc 708 connected with the end wall of the top mounting cavity 502 in a rotating matching mode, the rotating matching disc 708 is symmetrically arranged, a through hole 701 is formed in the rotating matching disc 708, a plurality of circular connecting shafts 703 in an annular array are fixedly arranged in the through hole 701, a side disc 702 is fixedly arranged on one side end face of each circular connecting shaft 703, the diameter of each side disc 702 is larger than that of the rotating matching disc 708, an internal thread disc 706 is fixedly arranged on the end face of each circular connecting shaft 703 far away from the corresponding side disc 702, the internal thread disc 706 is located in the top mounting cavity 502, an external thread sliding rod 707 penetrates through the internal thread disc 706 and is in threaded matching connection with the internal thread disc 706, the diameter of the external thread sliding rod 707 is the same as that of the through hole 701, and therefore the external thread sliding rod 707 slides in the top.

Advantageously, the power transmission output device 951 comprises symmetrical convex plates 202 fixedly arranged on the front end surface of the box body 101, circular shafts 201 are rotatably arranged between the convex plates 202, the length of each circular shaft 201 is greater than that of the box body 101, symmetrical rotating bevel gears 203 are fixedly arranged on the end surfaces of two sides of each circular shaft 201, side connecting plates 208 fixedly connected with the box body 101 are arranged on one sides of the rotating bevel gears 203, rotating shafts 204 are rotatably arranged on the side connecting plates 208, the rotating shafts 204 are in power connection with the cutting sliding devices 950, the rotating shafts 204 are fixedly arranged with the matching holes 302, middle meshing bevel gears 209 meshed with the rotating bevel gears 203 are fixedly arranged on the outer surfaces of the rotating shafts 204, side driving assemblies for driving the middle meshing bevel gears 209 to rotate are arranged on the side connecting plates 208 on one side, and therefore the middle meshing bevel gears 209 on.

Advantageously, the side driving assembly includes a motor mounting plate 206 fixed to the side connection plate 208, an output motor 207 is fixed to an end surface of one side of the motor mounting plate 206, a drive bevel gear 205 is disposed on one side of the output motor 207 in a power connection manner, and the drive bevel gear 205 is engaged with an adjacent intermediate engaging bevel gear 209, so that the drive bevel gear 205 is indirectly driven to rotate by the output motor 207 to rotate the rotating shaft 204 to drive the cutting skid 950 to rotate.

When the food material cutting device is in an initial state, the device, the components and the structure are in a stop working state, before the device works, the food material mobile phone vessel needs to be placed below the box body 101, firstly, the distance between the cutting sliding devices 950 needs to be adjusted in advance by the device, so that people can conveniently place food materials between the cutting sliding devices 950, and the people can directly place the food materials between the cutting sliding devices 950, so that the people can not directly contact with the cutting sliding devices 950, and related structures are also used for driving the food materials to move downwards when the food materials fall, and the people can complete the cutting processing of the food materials without contacting the device.

When the equipment works, firstly, the output motor 207 works to drive the driving bevel gear 205 to rotate, the driving bevel gear 205 drives the middle meshing bevel gear 209 meshed with the driving bevel gear 205 to rotate, the rotating shaft 204 rotates to drive the frame 303 fixed with the rotating shaft 204 to rotate, and then the distance between the cutting sliding devices 950 can be adjusted, at the moment, the meshing between the rotating bevel gear 203 and the middle meshing bevel gear 209 and the rotation of the round shaft 201 are rotated, so that the cutting sliding devices 950 on two sides can simultaneously swing, when the equipment performs cutting processing, firstly, the power motor 606 works to drive the connecting belt wheel 601 to rotate, under the action of the transmission belt 602, the connecting belt wheels 601 on two sides rotate to enable the meshing gear 603 and the driven meshing gear 607 to rotate, at the moment, due to the half-tooth structure of the meshing gear 603, the driven meshing gear 607 can perform periodic reciprocating rotation, after the cantilever 605 swings, the groove 604 is clamped and matched with the clamping circular rod 801 to drive the movable circular shaft 503 to reciprocate periodically, and under the action of the rear side rectangular plate 504 and the movable matching circular rod 802, the cutting plate 508 reciprocates periodically in the sliding inner cavity 505, at this time, when people put food materials on the cutting plate 508, the cutting of the cutting plate 508 to the food materials can be realized, the positions of the cutting plates 508 in different cutting and sliding devices 950 are different at the same time, so that the food materials are prevented from directly falling after being cut, when the cutting plate 508 extends into the sliding inner cavity 505, the food materials are pushed to the central position by the pushing baffle plate 507 to be convenient for falling into the cutting plate 508 of the next layer to be cut, at this time, the distance between the pushing baffle plate 507 and the installation box 306 can be adjusted, when the equipment is stopped, the people rotate the side disc 702 to drive the internal thread disc 706 through the circular connecting shaft 703 after rotating the side disc 702, the external thread sliding rod 707 can drive the pushing baffle 507 to move, the angle of the sliding cutting assembly can still be adjusted when the device performs cutting, at the moment, the driving motor 401 drives the rotating matching threaded rod 307 to rotate after working, so that the rotating matching threaded rod 307 drives the internal thread plate 402 and the extending round rod 305 to move under the action of the internal sliding hole 705, and the installation box 306 can swing by a certain angle to further change the angle of the sliding cutting assembly.

The invention has the beneficial effects that: this equipment has adopted the design of cutting displacement 950 and power transmission output device 951, makes equipment can adopt the mode of cutting to carry out high-efficient processing to eating the material under the effect that personnel pull the edible material, has reduced the danger coefficient that personnel used equipment on the one hand, and on the other hand has also improved the effect that equipment was processed to eating the material.

The above advantages are embodied in that the design of the circular shaft 201, the convex plate 202, the rotating bevel gear 203, the rotating shaft 204, the drive bevel gear 205, the motor mounting plate 206, the output motor 207, the side connecting plate 208 and the middle engaging bevel gear 209 is utilized to enable the cutting sliding devices 950 on both sides to rotate simultaneously so as to adjust the distance between the cutting sliding devices 950 on the left side and the right side to improve the cutting effect of the equipment on food materials, the design advantages of the frame 303, the driving motor 401, the motor mounting side plate 403, the rotating matching threaded rod 307, the internal threaded plate 402, the extending circular rod 305, the top convex shaft 704 and the inner sliding hole 705 are that the structures of the mounting box 306 and the like are further subjected to angle change adjustment to improve the food material processing efficiency, the food material cutting is more efficient so as to avoid the operation of the equipment by personnel after the shutdown, and the cutting plate 508, the moving matching circular rod 802, the rear rectangular plate 504 and the moving, The design advantages of the clamping circular rod 801, the groove 604, the cantilever 605, the driven meshing gear 607, the power motor 606, the meshing gear 603, the transmission belt 602, the connecting belt wheel 601 and the top mounting cavity 502 are that the semi-tooth structure of the meshing gear 603 is utilized to enable the power motor 606 to drive the meshing gear 603 to rotate, then the driven meshing gear 607 has a periodic reciprocating rotation function under the action of the connecting belt wheel 601 and the transmission belt 602, the cantilever 605 can indirectly drive the movable matching circular rod 802 and the cutting plate 508 to perform periodic reciprocating movement, so that the cutting efficiency is high, the cutting positions of the cutting plates 508 at different layers are different, the cutting of food materials is facilitated, meanwhile, the food materials are prevented from directly falling off, and the pushing baffle 507 has the design advantages that the food materials can be blocked, the equipment is prevented from being clamped and stopped when the cutting plates 508 return move, and the position of the pushing baffle 507 can be adjusted according to actual requirements, with the improvement eat material and put at equipment central point, with the result of improving equipment, and external screw thread slide bar 707, internal thread dish 706, circular connecting axle 703, side dish 702, through-hole 701 and rotating cooperation dish 708's design advantage lies in, can make external screw thread slide bar 707 reciprocating motion after rotating side dish 702, the structural design advantage of through-hole 701 and circular connecting axle 703 lies in, make external screw thread slide bar 707 can obtain stable protection, and be convenient for make external screw thread slide bar 707 be connected with through-hole 701 sliding fit, because personnel do not directly contact with equipment, the safety to personnel is ensured promptly.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the case 101, the support rod 102, the inner cavity 103, the circular shaft 201, the convex plate 202, the rotating bevel gear 203, the rotating shaft 204, the drive bevel gear 205, the motor mounting plate 206, the output motor 207, the side connecting plate 208, the middle engaging bevel gear 209, the circular hole 301, the fitting hole 302, the frame 303, the mounting inner cavity 304, the extending circular rod 305, the mounting box 306, the rotating fitting threaded rod 307, the driving motor 401, the internal threaded plate 402, the motor mounting side plate 403, the shielding plate 501, the top mounting cavity 502, the moving circular shaft 503, the rear rectangular plate 504, the sliding inner cavity 505, the fitting convex shaft 506, the pushing shielding plate 507, the cutting plate 508, the connecting pulley 601, the driving belt 602, the engaging gear 603, the concave groove 604, the cantilever 605, the power motor 606, the driven engaging gear 607, the through hole 701, the side disc 702, the circular connecting shaft 703, the top convex shaft 704, the internal sliding hole 705, the internal threaded disc 706, rotating mating disc 708, chucking round bar 801, moving mating round bar 802, cutting slide 950, power transmission output 951, etc., without excluding the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.

Claims (10)

1. An outdoor food processing equipment, characterized in that it comprises a box body (101), an inner cavity (103) penetrating up and down is arranged in the box body (101), and a lower end surface of the box body (101) is fixedly arranged There are several support rods (102), a symmetrical cutting and sliding device (950) for processing food materials by cutting is arranged in the inner cavity (103), and a drive is fixed on one end face of the box body (101). The cutting slides (950) are turned over to adjust the power transmission output device (951) of the distance between each other. 2 . The outdoor food processing equipment according to claim 1 , wherein the cutting and sliding device ( 950 ) comprises a frame ( 303 ), and the frame ( 303 ) is provided with a penetrating matching hole ( 302 ). 3 . ), the frame (303) is provided with a through installation cavity (304), the end wall of the installation cavity (304) is communicated with a number of symmetrical circular holes (301), the circular holes (301) A sliding cutting assembly for processing the food material by means of sliding cutting is arranged therebetween, a motor mounting side plate (403) is fixed on one end face of the frame (303), and one end face of the motor mounting side plate (403) is fixed on one side. A driving motor (401) is fixedly provided, and a rotationally fitting threaded rod (307) is provided in the internal power connection of the driving motor (401), and the rotationally fitting threaded rod (307) is rotationally fitted and connected with the frame (303). , an inner thread plate (402) is provided on the outer surface of the screw-fitted threaded rod (307), the inner thread plate (402) is slidably connected with the frame (303), and the inner thread plate (402) 402) An extended round rod (305) is fixed on the lower end surface, and the extended round rod (305) is matched and connected with the sliding cutting assembly. 3. The outdoor food processing equipment according to claim 2, wherein the sliding cutting assembly comprises an installation box (306), and a symmetrical top convex shaft (704) is fixed on the end surface of the installation box (306), The top convex shaft (704) is provided with an open inner sliding hole (705), and the inner sliding hole (705) is slidably connected with the extending round rod (305), and both sides of the installation box (306) A symmetrical mating protruding shaft (506) is fixed on the end surface, and the mating protruding shaft (506) is rotatably connected with the circular hole (301), and an open top mounting cavity (502) is arranged in the mounting box (306). ), the lower side of the top installation cavity (502) is provided with a sliding inner cavity (505) that is located in the installation box (306) and is open, and the upper end wall of the top installation cavity (502) is fixed with a blocking plate ( 501), the sliding inner cavity (505) is provided with a sliding cutting assembly that cuts the food material by sliding, and the top installation cavity (502) is provided with a power transmission assembly that drives the sliding cutting assembly to work, One side of the power transmission assembly is provided with an adjustment pusher assembly located in the top installation cavity (502) and capable of pushing the cut food material. 4. The outdoor food processing equipment according to claim 2, wherein the sliding cutting assembly comprises a cutting plate (508) that is slidably connected to the sliding inner cavity (505), and the sliding inner cavity (505) (505) A movable matching round rod (802) is fixed on one end face, the movable matching round rod (802) slides through the installation box (306), and the movable matching round rod (802) is connected with the power transmission assembly Mate connection. 5. The outdoor food processing equipment according to claim 2, characterized in that: the power transmission assembly comprises a driven meshing gear (607) that is rotatably disposed on the lower end wall of the top installation cavity (502), and the driven meshing gear (607) is rotated. Both sides of the movable meshing gear (607) are provided with connecting pulleys (601) that are rotatably connected to the top mounting cavity (502). A transmission belt (602) powers the connecting pulley (601), an upper end surface of the connecting pulley (601) is fixed with a meshing gear (603), and the meshing gear (603) is connected to the driven meshing gear (603). 607) meshing, the meshing gear (603) is a half-toothed structure, and a power motor (606) is arranged on the upper side of one of the meshing gears (603), and the power motor (606) drives the power motor (606). 606) the opposite meshing gear (603) rotates, and a connection structure is provided between the driven meshing gear (607) and the moving matching round rod (802). 6 . The outdoor food processing equipment according to claim 5 , wherein the connection structure comprises a rear rectangular plate ( 504 ) fixed with the movable matching round rod ( 802 ), and the rear rectangular plate ( 504) A moving circular shaft (503) is fixed on one end face, and the moving circular shaft (503) slides through the installation box (306) and extends into the top installation cavity (502), so A clamping rod (801) is fixed on the upper end surface of the moving circular shaft (503), and a cantilever (605) is fixed on the upper end surface of the driven meshing gear (607). The groove (604) penetrates through, the groove (604) is abutted against the cantilever (605) and connected with the cantilever (605). 7 . The outdoor food processing equipment according to claim 2 , wherein the adjusting push block assembly comprises an externally threaded sliding rod ( 707 ) that is slidably connected to the end wall of the top installation cavity ( 502 ). A push baffle plate (507) is fixed on one end face of the externally threaded sliding rod (707), the pushing baffle plate (507) is in contact with the upper end face of the cutting plate (508), and the externally threaded sliding rod (707) is one The side is provided with a telescopic structure located in the top installation cavity (502) and capable of adjusting the expansion and contraction of the externally threaded sliding rod (707). 8 . The outdoor food processing equipment according to claim 7 , wherein the telescopic structure comprises a rotating mating plate ( 708 ) that is rotatably connected to the end wall of the top installation cavity ( 502 ), and the rotating The mating discs (708) are symmetrically arranged, and the rotating mating discs (708) are provided with through-holes (701) therethrough, and a plurality of circular connecting shafts (703) in an annular array are fixed in the through-holes (701). , a side disc (702) is fixed on one end face of the circular connecting shaft (703), and an inner thread disc (706) is fixed on the end face of the circular connecting shaft (703) away from the side disc (702). , the internally threaded disk (706) is located in the top mounting cavity (502), and the externally threaded sliding rod (707) passes through the internally threaded disk (706) and is threaded with the internally threaded disk (706) Mate connection. 9 . The outdoor food processing equipment according to claim 1 , wherein the power transmission output device ( 951 ) comprises a symmetrical convex plate ( 202 ) fixed on the front end surface of the box body ( 101 ). 10 . , a circular shaft (201) is arranged to rotate between the convex plates (202), and symmetrical rotating bevel gears (203) are fixed on the end faces on both sides of the circular shaft (201). 203) A side connecting plate (208) fixed to the box body (101) is provided on one side, and a rotating shaft (204) is arranged to rotate in the side connecting plate (208), and the rotating shaft (204) is connected to the side connecting plate (208). The cutting and sliding device (950) is dynamically connected, the rotating shaft (204) is fixed with the matching hole (302), and the outer surface of the rotating shaft (204) is fixed with the rotating bevel gear (203). ) meshing intermediate meshing bevel gear (209), wherein the side connecting plate (208) on one side is provided with a side drive assembly which drives the intermediate meshing bevel gear (209) to rotate. 10. The outdoor food processing equipment according to claim 9, wherein the side drive assembly comprises a motor mounting plate (206) fixed to the side connecting plate (208), and the motor mounting plate (206) ) one side end face is fixed with an output motor (207), one side of the output motor (207) is powered with a drive bevel gear (205), the drive bevel gear (205) meshes with the adjacent intermediate bevel Gear (209) meshes.

Images