CN213355791U - Flaky food overturning and conveying device - Google Patents

Flaky food overturning and conveying device Download PDF

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Publication number
CN213355791U
CN213355791U CN202022203339.5U CN202022203339U CN213355791U CN 213355791 U CN213355791 U CN 213355791U CN 202022203339 U CN202022203339 U CN 202022203339U CN 213355791 U CN213355791 U CN 213355791U
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China
Prior art keywords
conveying
annular
conveying mechanism
belt
plate belt
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CN202022203339.5U
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Chinese (zh)
Inventor
庄瀚中
林仰芝
许燕波
丁向宁
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Guangdong Baijin Lisheng Biotechnology Co ltd
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Guangdong Baijin Lisheng Biotechnology Co ltd
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Abstract

A flaky food overturning and conveying device comprises a rack, a front conveying mechanism, a rear conveying mechanism and an overturning and conveying mechanism, wherein the overturning and conveying mechanism is arranged between the front conveying mechanism and the rear conveying mechanism; the turnover conveying mechanism comprises an annular conveying plate belt, a conveying motor capable of driving the annular conveying plate belt to run, a plurality of support rod groups, two guardrails and at least one lower supporting strip, the annular conveying plate belt comprises a plurality of conveying plates, and the annular conveying plate belt is provided with a forward section moving from the front end to the rear end of the annular conveying plate belt; the supporting rod group consists of a plurality of supporting rods arranged from left to right, and the inner ends of the supporting rods are connected with the corresponding conveying plates; the two guardrails are positioned at the left side and the right side of the forward section of the annular conveying plate belt, and the lower supporting strip is positioned at the upper side of the forward section of the annular conveying plate belt; the forward section, the two guardrails and the lower supporting strip of the annular conveying plate strip are all in an arch shape. The utility model discloses can carry out the positive and negative upset to it when carrying the slice food to can ensure that the state after each slice food upset is unified.

Description

Flaky food overturning and conveying device
Technical Field
The utility model relates to a food processing machinery, concretely relates to slice food upset conveyor.
Background
During the production and processing of the sheet food, the sheet food is usually required to be turned over to ensure that the food enters the subsequent processing procedure in a correct state. For example, in a sandwich wafer production line, it is necessary to turn over the formed wafer shell half (which has a plurality of grooves with groove openings facing downwards) so that each groove opening of the wafer shell half faces upwards, in order to fill each groove of the wafer shell half with a sandwich material (such as chocolate sauce).
The utility model discloses a chinese utility model patent application No. 201620644367.1 discloses a turn-over device of food, its characterized in that includes the mounting bracket, first conveyer belt and the second conveyer belt of setting on the mounting bracket, the discharge end of first conveyer belt is located the top of the feed end of second conveyer belt, the butt joint department of first conveyer belt and second conveyer belt is provided with the turn-over wheel, be provided with drive turn-over wheel pivoted actuating mechanism on the mounting bracket, the one side of the first conveyer belt of food contact is attached and is overturned the back along with the turn-over wheel on the wheel face of turn-over wheel together, the another side falls on the second conveyer belt. When the food turning device works, the first conveying belt conveys food to the turning wheel, and the food is attached to the wheel surface of the turning wheel; when the turnover wheel rotates to a certain angle, the food automatically falls onto the second conveyor belt from the other side under the action of the gravity of the food, so that the turnover action is realized. Although the food can be turned over by the turning-over device while being conveyed, the states of the foods (such as a waffle half shell) on the first conveying belt after being turned over by the turning-over wheel cannot be unified, and the phenomena of position inclination and position deviation of partial foods are easy to occur, so that the subsequent smooth processing of the foods (such as filling of sandwich layer materials) is influenced.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that a slice food upset conveyor is provided, this kind of slice food upset conveyor can carry out the positive and negative upset to slice food when carrying slice food to can ensure that the state after each slice food upset is unified. The technical scheme is as follows:
the utility model provides a slice food upset conveyor, includes frame, preceding conveying mechanism and back conveying mechanism, and preceding conveying mechanism all installs in the frame with back conveying mechanism, and back conveying mechanism is in preceding conveying mechanism's rear, its characterized in that: the sheet food overturning and conveying device also comprises an overturning and conveying mechanism which is arranged between the front conveying mechanism and the rear conveying mechanism; the turnover conveying mechanism comprises an annular conveying plate belt, a conveying motor capable of driving the annular conveying plate belt to run, a plurality of support rod groups, two guardrails and at least one lower supporting strip, the conveying motor, the lower supporting strip and the two guardrails are all installed on the rack, the annular conveying plate belt comprises a plurality of conveying plates, the conveying plates are sequentially arranged along the running direction of the annular conveying plate belt, the annular conveying plate belt is provided with a front-going section moving from the front end to the rear end of the annular conveying plate belt and a return section below the annular conveying plate belt, the front end of the front-going section of the annular conveying plate belt corresponds to the position of the rear end of the front conveying mechanism, and the rear end of the front-going section of the annular conveying plate belt corresponds to the position of the front end; the supporting rod groups are in one-to-one correspondence with the conveying plates in the same number, each supporting rod group is composed of a plurality of supporting rods arranged from left to right, and the inner ends of the supporting rods are connected with the corresponding conveying plates; the two guardrails are positioned at the left side and the right side of the forward section of the annular conveyor belt, and the lower supporting strip is positioned at the upper side of the forward section of the annular conveyor belt and between the two guardrails; the annular conveying plate belt forward section, the two guardrails and the lower supporting strip are all in an arch shape.
In the turnover conveying mechanism, a space defined by a support rod group, a lower supporting strip and two guardrails on two adjacent conveying plates in the forward section of the annular conveying plate belt together forms a material storage cavity of the turnover conveying mechanism; the material storage cavities of the turnover conveying mechanism are sequentially arranged along the running direction of the forward section of the annular conveying plate belt; when the device works, the conveying motor drives the annular conveying plate belt to move, and each material storage cavity is driven to move along the moving direction of the forward section of the annular conveying plate belt.
When the flaky food overturning and conveying device works, the front conveying mechanism conveys flaky foods towards the overturning and conveying mechanism (at the moment, the front sides of the flaky foods face downwards), and the flaky foods are conveyed into the storage cavities corresponding to the front ends of the forward sections of the annular conveying plate belts one by one; then, the flaky food in the storage cavity is driven by the annular conveying plate belt to move from the front end of the forward section of the annular conveying plate belt to the middle of the forward section of the annular conveying plate belt, the flaky food in the storage cavity is turned over under the action of the corresponding support rod group in the process (at the moment, the included angle between the flaky food and the horizontal plane is gradually increased from 0 degree to 90 degrees), and then the flaky food in the storage cavity is moved from the middle of the forward section of the annular conveying plate belt to the rear end of the forward section of the annular conveying plate belt, the flaky food in the storage cavity is continuously turned over under the action of the corresponding support rod group in the process, and the included angle between the flaky food and the horizontal plane is gradually reduced from 90 degrees to 0 degree (at the moment, the front side of the flaky food faces upwards) until the flaky food; then the flaky food is separated from the storage cavity under the drive of the rear conveying mechanism and is conveyed to the subsequent process by the rear conveying mechanism. Above-mentioned flaky food upset conveyor sets up upset transport mechanism through in the front between transport mechanism and the back transport mechanism, can carry out the positive and negative upset to flaky food when carrying flaky food, and upset transport mechanism is carrying out the in-process that overturns flaky food, each bracing piece group, hold in the palm the strip down, two guardrails can carry out spacingly to flaky food in the corresponding storage cavity jointly, make the position of flaky food remain stable, can ensure like this that the state after each flaky food overturns is unified, thereby guarantee follow-up going on smoothly to food processing.
In a preferred scheme, the annular conveying plate belt further comprises two annular chains which are arranged side by side left and right, and the left end and the right end of each conveying plate are respectively connected with the two annular chains; upset transport mechanism still includes the drive sprocket axle, driven sprocket axle, two drive sprocket and two driven sprocket, the drive sprocket axle, driven sprocket axle all can rotate and install in the frame, two equal fixed mounting of drive sprocket are controlled and are arranged side by side on the drive sprocket axle, two equal fixed mounting of driven sprocket are controlled and are arranged side by side on the driven sprocket axle, left drive sprocket passes through left endless chain transmission with left driven sprocket and is connected, the drive sprocket on right side is connected through the endless chain transmission on right side with the driven sprocket on right side, the power output shaft and the drive sprocket axle transmission of conveying motor are connected. In order to enable the advancing section of the annular conveying plate belt to move according to an arch-shaped track, two arch-shaped chain rails which are arranged side by side at the left and the right can be arranged on the rack and respectively guide the advancing sections of the two annular chains; the frame can also be provided with two guide wheel sets which are arranged side by side at the left and right and respectively guide the advancing sections of the two annular chains (the guide wheel sets comprise a plurality of guide wheels which are sequentially arranged from front to back according to an arch-shaped track, and each guide wheel is contacted with the lower side of the advancing section of the annular chain). When the conveying device works, the conveying motor drives the driving chain wheel shaft and the two driving chain wheels on the driving chain wheel shaft to rotate, and the two endless chains drive the conveying plates to move along the running direction of the endless conveying plate belt.
In another preferred scheme, the annular conveying plate belt further comprises two annular belts which are arranged side by side left and right, and the left end and the right end of each conveying plate are respectively connected with the two annular belts; the overturning and conveying mechanism further comprises a driving pulley shaft, a driven pulley shaft, two driving pulleys and two driven pulleys, wherein the driving pulley shaft and the driven pulley shaft can be rotatably installed on the rack, the two driving pulleys are fixedly installed on the driving pulley shaft and are arranged on the left and right side by side, the two driven pulleys are fixedly installed on the driven pulley shaft and are arranged on the left and right side by side, the left driving pulley and the left driven pulley are in transmission connection through a left annular belt, the driving pulley on the right side and the driven pulley on the right side are in transmission connection through a right annular belt, and a power output shaft of the conveying motor is in transmission connection with the driving pulley shaft. In order to enable the advancing section of the annular conveying plate belt to move along an arched track, two guide wheel sets which are arranged side by side at the left and the right are arranged on the rack and respectively guide the advancing sections of the two annular belts (each guide wheel set comprises a plurality of guide wheels which are sequentially arranged from front to back along the arched track, and each guide wheel is in contact with the lower side of the advancing section of the annular belt). When the conveying device works, the conveying motor drives the driving belt wheel shaft and the two driving belt wheels on the driving belt wheel shaft to rotate, and the two endless belts drive the conveying plates to move along the running direction of the endless conveying belt.
In a preferred scheme, the front conveying mechanism comprises a plurality of front conveying belts which are sequentially arranged from left to right, and the rear end of each front conveying belt is positioned below the front end of the front section of the annular conveying belt; the rear conveying mechanism comprises a plurality of rear conveying belts which are sequentially arranged from left to right, and the front end of each rear conveying belt is located below the rear end of the front section of the annular conveying plate belt. When the supporting rod group moves to the position corresponding to the rear end of the front conveying mechanism, all supporting rods of the supporting rod group pass through the gaps between the front conveying belts, and the transfer of the flaky food is smoothly realized. When the supporting rod group moves to the position corresponding to the front end of the rear conveying mechanism, all supporting rods of the supporting rod group pass through the gaps between the rear conveying belts, and the transfer of the flaky food is smoothly realized.
In a preferable scheme, the sheet food turnover conveying device further comprises two front guide plates, and the two front guide plates are arranged above the rear end of the front conveying mechanism and correspond to the front ends of the two guardrails respectively. The two front guide plates are used for smoothly guiding the flaky food on the front conveying mechanism into the corresponding storage cavity at the front end of the front section of the annular conveying plate belt, so that smooth production is ensured.
In a preferable scheme, the sheet food turnover conveying device further comprises two rear guide plates, and the two rear guide plates are arranged above the front end of the rear conveying mechanism and correspond to the rear ends of the two guardrails respectively. Two back guide plates can play the guide effect to the slice food that reachs the conveying mechanism front end behind, and the position emergence skew when avoiding it to break away from the storage cavity at upset transport mechanism is favorable to guaranteeing going on smoothly of production.
The utility model discloses a slice food upset conveyor sets up upset transport mechanism through in the front between transport mechanism and the back transport mechanism, can carry out the positive and negative upset to slice food when carrying slice food, and upset transport mechanism is carrying out the in-process that overturns slice food, each bracing piece group, hold in the palm the strip down, two guardrails can carry out spacingly to the slice food in the corresponding storage cavity jointly, the position that makes slice food remains stable, can ensure like this that the state after each slice food overturns is unified, thereby guarantee follow-up going on smoothly to food processing.
Drawings
Fig. 1 is a schematic structural view of a sheet food turnover conveying device according to a preferred embodiment of the present invention.
Fig. 2 is a schematic structural view of the reversing and conveying mechanism in the sheet food reversing and conveying device shown in fig. 1.
Fig. 3 is a schematic view of the reversing and conveying mechanism cooperating with the front conveying mechanism in the sheet food reversing and conveying device shown in fig. 1.
Fig. 4 is a schematic view of the reversing and conveying mechanism and the rear conveying mechanism of the turnover conveying device for the sheet food shown in fig. 1.
Detailed Description
As shown in fig. 1 and 2, the sheet food turnover conveying device includes a frame 1, a front conveying mechanism 2, a rear conveying mechanism 3 and a turnover conveying mechanism 4, wherein the front conveying mechanism 2 and the rear conveying mechanism 3 are both mounted on the frame 1, the rear conveying mechanism 3 is located behind the front conveying mechanism 2, and the turnover conveying mechanism 4 is arranged between the front conveying mechanism 2 and the rear conveying mechanism 3; the turnover conveying mechanism 4 comprises an annular conveying plate belt 41, a conveying motor 42 capable of driving the annular conveying plate belt 41 to run, a plurality of support rod groups 43, two guardrails 44 and two lower supporting strips 45, wherein the conveying motor 42, the two guardrails 44 and the two lower supporting strips 45 are all installed on the frame 1, the annular conveying plate belt 41 comprises a plurality of conveying plates 411, the plurality of conveying plates 411 are sequentially arranged along the running direction of the annular conveying plate belt 41, the annular conveying plate belt 41 is provided with a front-line section 4101 moving from the front end to the rear end of the annular conveying plate belt 41 and a return-line section 4102 positioned below the annular conveying plate belt, the front end of the front-line section 4101 of the annular conveying plate belt corresponds to the rear end of the front conveying mechanism 2, and the rear end of the front-line section 4101 of the annular conveying plate belt corresponds to the front end; the number of the supporting rod groups 43 is the same as that of the conveying plates 411, the supporting rod groups 43 correspond to the conveying plates 411 one by one, each supporting rod group 43 is composed of a plurality of supporting rods 431 arranged from left to right, and the inner end of each supporting rod 431 is connected with the corresponding conveying plate 411; the two guardrails 44 are positioned at the left side and the right side of the annular conveyor belt advancing section 4101, and the two lower supporting strips 45 are positioned at the upper side of the annular conveyor belt advancing section 4101 and positioned between the two guardrails 44; the annular conveying plate belt advancing section 4101, the two guardrails 44 and the two lower supporting strips 45 are all in an arch shape.
In this embodiment, the endless conveyor belt 41 further includes two endless chains 412 arranged side by side left and right, and the left end and the right end of each conveyor plate 411 are respectively connected to the two endless chains 412; upset transport mechanism 4 still includes the drive sprocket axle (not drawn in the figure), driven sprocket axle (not drawn in the figure), two drive sprockets (not drawn in the figure) and two driven sprocket (not drawn in the figure), the drive sprocket axle, driven sprocket axle all can rotate and install in frame 1, two equal fixed mounting of drive sprocket are on the drive sprocket axle and control side by side, two equal fixed mounting of driven sprocket are on the driven sprocket axle and control side by side, left drive sprocket passes through left endless chain 412 transmission with left driven sprocket and is connected, the drive sprocket on right side and the driven sprocket on right side pass through the endless chain 412 transmission on right side and are connected, the power take off shaft and the drive sprocket axle transmission of conveying motor 42 are connected. In order to make the forward section of the endless conveyor belt 41 travel along an arch-shaped track, two arch-shaped chain rails (not shown) are provided on the frame 1 side by side to guide the forward sections of the two endless chains 412, respectively (the arch-shaped chain rails are in rolling engagement with the short cylindrical rollers of the forward sections of the endless chains 412). In operation, the conveying motor 42 drives the driving sprocket shaft and the two driving sprockets thereon to rotate, and the two endless chains 412 drive the conveying plates 411 to move along the running direction of the endless conveying plate belt 41.
Referring to fig. 3 and 4, in the present embodiment, the front conveying mechanism 2 includes a plurality of front conveyor belts 21 arranged in sequence from left to right, and a rear end of each front conveyor belt 21 is located below a front end of the forward section 4101 of the endless conveyor belt; the rear conveying mechanism 3 includes a plurality of rear conveying belts 31 arranged in sequence from left to right, and the front end of each rear conveying belt 31 is located below the rear end of the forward section 4101 of the endless conveying belt. When the support rod group 43 moves to a position corresponding to the rear end of the front conveying mechanism 2, the support rods 431 pass through the gap between the front conveyor belts 21, and the sheet-like food is smoothly transferred. When the support rod group 43 moves to a position corresponding to the front end of the rear conveyor mechanism 3, the support rods 431 pass through the gap between the rear conveyors 31, and the sheet-like food is smoothly transferred.
The sheet food turnover conveying device of the embodiment further comprises two front guide plates 5 and two rear guide plates 6, wherein the two front guide plates 5 are arranged above the rear end of the front conveying mechanism 2 and respectively correspond to the front ends of the two guardrails 44; the two rear guide plates 6 are provided above the front end of the rear conveying mechanism 3 and correspond to the positions of the rear ends of the two guard rails 44, respectively.
The working principle of the flaky food overturning and conveying device is briefly described as follows:
in the turnover conveying mechanism 4, a space enclosed by the support rod group 43 on two adjacent conveying plates 411 in the forward section 4101 of the annular conveying plate belt, two lower supporting strips 45 and two guardrails 44 forms a material storage cavity 432 of the turnover conveying mechanism 4; the storage chambers 432 of the turnover conveying mechanism 4 are arranged in sequence along the running direction of the forward section 4101 of the endless conveyor belt.
When the device works, the conveying motor 42 drives the annular conveying plate belt 41 to run, and drives each material storage cavity 432 to move along the running direction of the forward section 4101 of the annular conveying plate belt; the front conveying mechanism 2 conveys the sheet-shaped food towards the turnover conveying mechanism 4 (at the moment, the front side of the sheet-shaped food faces downwards), and the sheet-shaped food is conveyed into the material storage cavities 432 corresponding to the front ends of the front sections 4101 of the annular conveying plate belts one by one; then, the sheet-shaped food in the storage cavity 432 is driven by the annular conveyor belt 41 to move from the front end of the forward section 4101 of the annular conveyor belt to the middle of the forward section 4101 of the annular conveyor belt, in the process, the sheet-shaped food in the storage cavity 432 is turned over under the action of the corresponding support rod group 43 (at this time, the included angle between the sheet-shaped food and the horizontal plane is gradually increased from 0 degree to 90 degrees), and then the sheet-shaped food in the storage cavity 432 is moved from the middle of the forward section 4101 of the annular conveyor belt to the rear end of the forward section 4101 of the annular conveyor belt, in the process, the sheet-shaped food in the storage cavity 432 is continuously turned over under the action of the corresponding support rod group 43, and the included angle between the sheet-shaped food and the horizontal plane is gradually reduced from 90 degrees to 0 degree (at this time, the front side of the; then, the sheet-shaped food is separated from the storage cavity 432 under the driving of the rear conveying mechanism 3, and then is conveyed to the subsequent process by the rear conveying mechanism 3.
In addition, it should be noted that the names of the parts and the like of the embodiments described in the present specification may be different, and all the equivalent or simple changes made according to the structure, the features and the principle of the present invention are included in the protection scope of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (6)

1. The utility model provides a slice food upset conveyor, includes frame, preceding conveying mechanism and back conveying mechanism, and preceding conveying mechanism all installs in the frame with back conveying mechanism, and back conveying mechanism is in preceding conveying mechanism's rear, its characterized in that: the sheet food overturning and conveying device also comprises an overturning and conveying mechanism which is arranged between the front conveying mechanism and the rear conveying mechanism; the turnover conveying mechanism comprises an annular conveying plate belt, a conveying motor capable of driving the annular conveying plate belt to run, a plurality of support rod groups, two guardrails and at least one lower supporting strip, the conveying motor, the lower supporting strip and the two guardrails are all installed on the rack, the annular conveying plate belt comprises a plurality of conveying plates, the conveying plates are sequentially arranged along the running direction of the annular conveying plate belt, the annular conveying plate belt is provided with a front section moving from the front end to the rear end of the annular conveying plate belt and a return section below the annular conveying plate belt, the front end of the front section of the annular conveying plate belt corresponds to the rear end of the front conveying mechanism, and the rear end of the front section of the annular conveying plate belt corresponds to the front end of the rear conveying mechanism; the supporting rod groups are in one-to-one correspondence with the conveying plates in the same number, each supporting rod group is composed of a plurality of supporting rods arranged from left to right, and the inner ends of the supporting rods are connected with the corresponding conveying plates; the two guardrails are positioned at the left side and the right side of the forward section of the annular conveyor belt, and the lower supporting strip is positioned at the upper side of the forward section of the annular conveyor belt and between the two guardrails; the annular conveying plate belt forward section, the two guardrails and the lower supporting strip are all in an arch shape.
2. The inverting conveyor of claim 1, wherein: the annular conveying plate belt further comprises two annular chains which are arranged side by side left and right, and the left end and the right end of each conveying plate are respectively connected with the two annular chains; upset transport mechanism still includes the drive sprocket axle, driven sprocket axle, two drive sprocket and two driven sprocket, the drive sprocket axle, driven sprocket axle all can rotate and install in the frame, two equal fixed mounting of drive sprocket are controlled and are arranged side by side on the drive sprocket axle, two equal fixed mounting of driven sprocket are controlled and are arranged side by side on the driven sprocket axle, left drive sprocket passes through left endless chain transmission with left driven sprocket and is connected, the drive sprocket on right side is connected through the endless chain transmission on right side with the driven sprocket on right side, the power output shaft and the drive sprocket axle transmission of conveying motor are connected.
3. The inverting conveyor of claim 1, wherein: the annular conveying plate belt also comprises two annular belts which are arranged side by side left and right, and the left end and the right end of each conveying plate are respectively connected with the two annular belts; the overturning and conveying mechanism further comprises a driving pulley shaft, a driven pulley shaft, two driving pulleys and two driven pulleys, wherein the driving pulley shaft and the driven pulley shaft can be rotatably installed on the rack, the two driving pulleys are fixedly installed on the driving pulley shaft and are arranged on the left and right side by side, the two driven pulleys are fixedly installed on the driven pulley shaft and are arranged on the left and right side by side, the left driving pulley and the left driven pulley are in transmission connection through a left annular belt, the driving pulley on the right side and the driven pulley on the right side are in transmission connection through a right annular belt, and a power output shaft of the conveying motor is in transmission connection with the driving pulley shaft.
4. The inverting conveyor of claim 1, wherein: the front conveying mechanism comprises a plurality of front conveying belts which are sequentially arranged from left to right, and the rear end of each front conveying belt is positioned below the front end of the front section of the annular conveying belt; the rear conveying mechanism comprises a plurality of rear conveying belts which are sequentially arranged from left to right, and the front end of each rear conveying belt is located below the rear end of the front section of the annular conveying plate belt.
5. The conveying apparatus for turning over a flaky food according to any one of claims 1 to 4, wherein: the flaky food overturning and conveying device further comprises two front guide plates, wherein the two front guide plates are arranged above the rear end of the front conveying mechanism and correspond to the front ends of the two guardrails respectively.
6. The conveying apparatus for turning over a flaky food according to any one of claims 1 to 4, wherein: the sheet food turnover conveying device further comprises two rear guide plates, and the two rear guide plates are arranged above the front end of the rear conveying mechanism and correspond to the rear ends of the two guardrails respectively.
CN202022203339.5U 2020-09-30 2020-09-30 Flaky food overturning and conveying device Active CN213355791U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022203339.5U CN213355791U (en) 2020-09-30 2020-09-30 Flaky food overturning and conveying device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022203339.5U CN213355791U (en) 2020-09-30 2020-09-30 Flaky food overturning and conveying device

Publications (1)

Publication Number Publication Date
CN213355791U true CN213355791U (en) 2021-06-04

Family

ID=76157048

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022203339.5U Active CN213355791U (en) 2020-09-30 2020-09-30 Flaky food overturning and conveying device

Country Status (1)

Country Link
CN (1) CN213355791U (en)

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