CN218055819U - Gap adjusting mechanism suitable for automatic tray loading of various-specification rice food forming - Google Patents

Abstract

The utility model discloses a clearance adjusting mechanism which is suitable for the automatic loading of the molding of flour rice food with various specifications in the technical field of food processing, comprising a portal frame crossing a conveyer belt, wherein the bottom of the portal frame is provided with a plurality of guide mechanisms which are arranged in a straight line; the guide mechanism comprises a belt wound on the fixed guide wheel, the movable guide wheel and the side guide wheels to form an annular loop, and is provided with an adjusting structure for driving the two groups of side guide wheels to approach or separate from each other; the utility model has the advantages that the molded flour-rice food can move forward under the conveying of the conveyer belt, and the relative position of the flour-rice food can be adjusted by the guide mechanism in the moving forward process, so that the flour-rice food can be conveyed into the corresponding packing boxes under the conveying of the conveyer belt; the shape and the distance between every two guiding mechanisms can be adjusted to meet the requirements of different rice foods and different packaging boxes.

Description

Gap adjusting mechanism suitable for automatic tray loading of various-specification rice food forming

Technical Field

The utility model relates to a food processing technology field specifically is an adapt to automatic clearance adjustment mechanism of sabot of millet food shaping of many specifications.

Background

With the development of national economy and the improvement of the living standard of people, people put forward higher requirements on the food industry.

The flour and rice food is made of water and flour (including flour or rice flour), such as moon cakes and the like, and the flour and rice food in the existing equipment needs to be conveyed into a corresponding packaging box after being molded and then is heated; different types of the flour and rice food are different in shapes, corresponding packaging boxes are different, and the adjacent distances between every two packaging boxes are different, so that a guiding mechanism which can adapt to various types is needed in the process of conveying the flour and rice food to the corresponding packaging boxes.

Based on this, the utility model designs an adapt to the automatic clearance adjustment mechanism who sabots of the millet food shaping of many specifications to solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an adapt to the automatic clearance adjustment mechanism who sabots of the automatic sabot of flour rice food shaping of many specifications to the adaptation polytypic that proposes in solving above-mentioned background art carries the problem in the corresponding packing carton with flour rice food.

In order to achieve the above purpose, the utility model provides a following technical scheme: a clearance adjusting mechanism suitable for automatic tray loading of multi-specification rice food forming comprises a portal frame crossing a conveying belt, wherein a plurality of guide mechanisms which are arranged in a straight line are arranged at the bottom of the portal frame;

the guide mechanism comprises a top plate, a fixed guide wheel, a movable guide wheel, side guide wheels and a belt, wherein the fixed guide wheel, the movable guide wheel, the side guide wheels and the belt are installed below the top plate, the belt is wound on the fixed guide wheel, the movable guide wheel and the side guide wheels to form an annular loop, and an adjusting structure for driving two groups of side guide wheels to mutually approach or keep away is arranged.

Preferably, the adjusting structure comprises a group of first sliding grooves and two groups of second sliding grooves, the first sliding grooves are formed in the top plate, the movable guide wheels slide on the first sliding grooves through first sliding seats, the side guide wheels slide on the second sliding grooves in one-to-one correspondence through second sliding seats, first adjusting screw rods connected with the first sliding seats are arranged on the top plate, and elastic pieces connected with the second sliding seats are arranged in the second sliding grooves.

Preferably, the guide mechanisms are installed on the installation bases in one-to-one correspondence, and the installation bases slide on the portal frame and are fixedly used for adjusting the distance between every two adjacent installation bases.

Preferably, the portal frame is provided with a telescopic fork frame, and the mounting seat is connected with a hinge shaft of the telescopic fork frame.

Preferably, a second adjusting screw connected with the telescopic fork frame is installed on the portal frame, and a third sliding groove for the installation seat to slide is formed in the portal frame.

Preferably, the hinge shaft of the telescopic fork frame is a hollow cylinder, and the fixing screw penetrates through the hollow cylinder to be detachably connected with the mounting seat through threads.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages that the molded flour-rice food can move forward under the conveying of the conveyer belt, and the relative position of the flour-rice food can be adjusted by the guide mechanism in the moving forward process, so that the flour-rice food can be conveyed into the corresponding packing boxes under the conveying of the conveyer belt; the shape of the guide mechanism and the distance between every two guide mechanisms can be adjusted to meet the requirements of different kinds of rice foods and different packing boxes.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the guiding mechanism of the present invention arranged in a line;

FIG. 3 is a schematic view of a set of guide mechanisms of FIG. 2;

FIG. 4 is a schematic view of the inverted structure of FIG. 3;

fig. 5 is the schematic view of the matching structure of the upper part of the portal frame.

100. A rice food; 1. a conveyor belt; 2. a gantry; 3. a guide mechanism; 31. a top plate; 311. a first chute; 312. a second chute; 32. a first slider; 33. a second slide; 34. an elastic member; 35. a first adjusting screw; 36. fixing the guide wheel; 37. a movable guide wheel; 38. a side guide wheel; 39. a belt; 4. a telescopic fork; 41. a hollow cylinder; 5. a second adjusting screw; 6. a mounting seat; 7. and fixing the screw rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

A clearance adjusting mechanism suitable for automatic tray loading of multi-specification rice food forming comprises a portal frame 2 crossing a conveying belt 1, wherein a plurality of guide mechanisms 3 which are arranged in a straight line are arranged at the bottom of the portal frame 2;

the guide mechanism 3 comprises a top plate 31, and a fixed guide wheel 36, a movable guide wheel 37, a side guide wheel 38 and a belt 39 which are arranged below the top plate 31, wherein the belt 39 is wound on the fixed guide wheel 36, the movable guide wheel 37 and the side guide wheel 38 to form an annular loop, and an adjusting structure for driving the two groups of side guide wheels 38 to approach or depart from each other is arranged.

Further, the adjusting structure comprises a set of first sliding grooves 311 and two sets of second sliding grooves 312 formed in the top plate 31, the movable guide wheel 37 slides on the first sliding grooves 311 through the first sliding base 32, the side guide wheels 38 slide on the one-to-one corresponding second sliding grooves 312 through the second sliding base 33, a first adjusting screw 35 connected with the first sliding base 32 is arranged on the top plate 31, and an elastic piece 34 connected with the second sliding base 33 is arranged in the second sliding grooves 312.

Further, the guide mechanisms 3 are installed on the installation bases 6 which correspond to one another, and the installation bases 6 slide on the portal frame 2 and are fixed for adjusting the distance between every two adjacent installation bases 6.

Furthermore, a telescopic fork frame 4 is arranged on the portal frame 2, and a mounting seat 6 is connected with a hinge shaft of the telescopic fork frame 4.

Furthermore, a second adjusting screw 5 connected with the telescopic fork frame 4 is installed on the portal frame 2, and a third sliding groove for the installation seat 6 to slide is formed in the portal frame 2.

Further, the hinge shaft of the telescopic fork 4 adopts a hollow cylinder 41, and the fixing screw 7 penetrates through the hollow cylinder 41 to be detachably connected with the mounting seat 6 through threads.

The utility model discloses an embodiment:

the rice food 100 is formed under the manufacturing of the forming device and dropped on the top of the conveyer belt 1, and the rice food 100 with different structures can be produced by changing the mold. The arrow in fig. 1 indicates the direction of travel of the rice food 100 on the conveyor belt 1; fig. 2 shows the direction of advance of the rice food 100 through the guide mechanism 3.

Portal frame 2 strides conveyer belt 1, and a plurality of guiding mechanism 3 are arranged in a single line and are installed in portal frame 2 bottom, and the relative position on conveyer belt 1 is adjusted through guiding mechanism 3 to the time of the transport of flour rice food 100 on conveyer belt 1, is favorable to carrying to the settlement position of packing carton.

As shown in fig. 3-4, the guiding mechanism 3 includes a top plate 31, a belt 39 is wound on a fixed guide wheel 36, a movable guide wheel 37 and two sets of side guide wheels 38 to form an annular loop, the fixed guide wheel 36 is rotatably connected to one end of the bottom of the top plate 31 closest to the forming equipment, the movable guide wheel 37 is rotatably connected to a first slide carriage 32, the side guide wheels 38 are rotatably connected to a second slide carriage 33, a first adjusting screw 35 is rotated to drive the movable guide wheel 37 on the first slide carriage 32 to approach or depart from the fixed guide wheel 36, in the process, the belt 39 with a fixed length drives the second slide carriage 33 to linearly slide in a second sliding chute 312 and compress an elastic member 34, the distance between the two sets of side guide wheels 38 is adjusted, the included angle between the outer side of the belt 39 and the conveying direction of the conveying belt 1 is adjusted, the belt 39 is always in a tensioned state through the elastic force of the elastic member 34, and a triangular angle formed by the fixed guide wheel 36 and the two sets of side guide wheels 38 is realized; the distance between two adjacent groups of belts 39 in two adjacent groups of guide mechanisms 3 is linearly reduced along the conveying direction of the conveying belt 1;

the rice food 100 is guided to a set position by the outer belt 39 while being advanced under the conveyance of the conveyor belt 1.

The top plates 31 in the guide mechanisms 3 are relatively fixed at the bottoms of the mounting seats 6 which correspond one by one, a third chute is formed in the portal frame 2, the mounting seats 6 relatively slide linearly in the third chute along the direction vertical to the conveying direction of the conveying belt 1, the telescopic fork frame 4 can adopt an X-shaped scissor fork frame, a hinge shaft at the center of the telescopic fork frame 4 is relatively and rotatably connected to the center of the portal frame 2, the hinge shaft of the telescopic fork frame 4 adopts a hollow cylinder 41, a fixing screw 7 penetrates through the hollow cylinder 41 to be detachably and threadedly connected with the mounting seats 6, one end of a second adjusting screw 5 in threaded connection with the right part of the portal frame 2 is connected with the right end of the telescopic fork frame 4, and therefore the second adjusting screw 5 is rotated to drive the telescopic fork frame 4 to stretch, and the distance between every two adjacent mounting seats 6 is adjusted;

since the distance between every two adjacent hinge shafts/hollow cylinders 41 of the telescopic fork 4 is the same, it is advantageous to ensure the same distance between every two adjacent mounts 6 when the telescopic fork 4 is telescopic.

Rotatory clamping screw 7 breaks away from mount pad 6, hollow section of thick bamboo 41, at this moment, can freely drive mount pad 6 and slide in the third spout, and clamping screw 7 directly passes third spout and 6 threaded connection of mount pad to it is fixed to realize mount pad 6 relative portal frame 2.

The utility model discloses well electrical equipment passes through external control switch and is connected with external power source.

In the description of the present specification, reference to the description of "one embodiment," "an example," "a specific example," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides an automatic clearance adjustment mechanism who sabots of noodle rice food shaping of many specifications, includes portal frame (2) that span conveyer belt (1), its characterized in that: the bottom of the portal frame (2) is provided with a plurality of guide mechanisms (3) which are arranged in a straight line;

the guide mechanism (3) comprises a top plate (31), a fixed guide wheel (36), a movable guide wheel (37), side guide wheels (38) and a belt (39), wherein the fixed guide wheel (36), the movable guide wheel (37), the side guide wheels (38) and the belt (39) are installed below the top plate (31), the belt (39) is wound on the fixed guide wheel (36), the movable guide wheel (37) and the side guide wheels (38) to form an annular loop, and an adjusting structure for driving the two groups of side guide wheels (38) to be close to or far away from each other is arranged.

2. The gap adjusting mechanism for the automatic dishing of the rice food shaping with multiple specifications as claimed in claim 1, is characterized in that: the adjusting structure comprises a group of first sliding grooves (311) and two groups of second sliding grooves (312) which are formed in a top plate (31), a movable guide wheel (37) slides on the first sliding grooves (311) through a first sliding seat (32), side guide wheels (38) slide on the second sliding grooves (312) in one-to-one correspondence through second sliding seats (33), a first adjusting screw (35) connected with the first sliding seat (32) is arranged on the top plate (31), and an elastic piece (34) connected with the second sliding seat (33) is arranged in the second sliding grooves (312).

3. The gap adjusting mechanism for the automatic dishing of the rice food molding with multiple specifications as claimed in claim 2, characterized in that: the guide mechanisms (3) are installed on the installation seats (6) in one-to-one correspondence, and the installation seats (6) slide on the portal frame (2) and are fixedly used for adjusting the distance between every two adjacent installation seats (6).

4. The gap adjusting mechanism for the automatic dishing of the rice food molding with multiple specifications as claimed in claim 3, characterized in that: the gantry frame (2) is provided with a telescopic fork frame (4), and the mounting seat (6) is connected with a hinge shaft of the telescopic fork frame (4).

5. The gap adjusting mechanism for the automatic dishing of the rice food shaping with multiple specifications as claimed in claim 4, characterized in that: a second adjusting screw rod (5) connected with the telescopic fork frame (4) is installed on the portal frame (2), and a third sliding groove for the installation seat (6) to slide is formed in the portal frame (2).

6. The gap adjusting mechanism for the automatic dishing of the rice food shaping with multiple specifications as claimed in claim 5, is characterized in that: a hinge shaft of the telescopic fork frame (4) adopts a hollow cylinder (41), and a fixing screw rod (7) penetrates through the hollow cylinder (41) to be detachably connected with the mounting seat (6) through threads.

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