CN220925686U - Konjak embryo unloading sabot device - Google Patents

Abstract

The utility model discloses a konjak embryo blanking tray loading device which comprises a material distribution frame, a first material conveying mechanism, a material distribution mechanism, two second material conveying mechanisms and a lifting translation mechanism, wherein the material distribution frame is provided with the first material conveying mechanism and the material distribution mechanism, a material feeding opening of the material distribution mechanism is arranged below a material discharging opening of the first material conveying mechanism, the two second material conveying mechanisms are arranged side by side, a material feeding opening of the second material conveying mechanism close to the material distribution frame is arranged below a material discharging opening of the material distribution mechanism, the lifting translation mechanism is provided with two lifting translation mechanisms which are respectively arranged at the material feeding opening of the second material conveying mechanism, the lifting translation mechanism close to the second material conveying mechanism of the material distribution frame is used for jacking and horizontally moving a material receiving tray which is not loaded with materials to the other lifting translation mechanism, and the lifting translation mechanism far away from the second material conveying mechanism of the material distribution frame is used for reducing the height of the material receiving tray which is loaded with materials to be placed on the second material conveying mechanism. The automatic tray separating device can automatically separate cut konjak materials and convey the konjak materials to the discharging operation opening, and improves production efficiency.

Description

Konjak embryo unloading sabot device

Technical Field

The utility model relates to the technical field of food processing equipment, in particular to a konjak embryo blanking and dishing device.

Background

Konjak is a rhizome plant, also called as glucomannan, and has wide planting area in China, a plurality of annual Araceae herbal plants, and the raw konjak has little toxicity and very wide application.

In order to prepare certain foods from konjak, the konjak is firstly cut into filaments, the konjak which is cleaned is generally cut into uniform filaments by a shredding device at present, then the filaments are contained in a container, and finally the filaments are manually transported in a tray separation mode. The mode is time-consuming and labor-consuming, low in operation efficiency, easy to drop some konjak materials due to manual sub-packaging and transportation, poor in environment of an operation site due to long-time operation, and unfavorable for controlling the quality of konjak materials.

Disclosure of utility model

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the konjak embryo blanking and dishing device provided by the utility model can automatically divide the cut konjak materials into dishes and convey the dishes to the discharging operation opening, so that the production efficiency is improved, and the manual treatment cost is reduced.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

A konjak embryo blanking and dishing device, comprising: the device comprises a material distribution frame, a first material conveying mechanism, a material distribution mechanism, two second material conveying mechanisms and a lifting translation mechanism, wherein the first material conveying mechanism is arranged on the material distribution frame, the material distribution mechanism is arranged on the material distribution frame, a material loading opening of the material distribution mechanism is positioned below a material unloading opening of the first material conveying mechanism, and the two second material conveying mechanisms are arranged on the same side of the material distribution frame side by side; the second material conveying mechanism is used for conveying the material to the material receiving tray, and is used for conveying the material to the material receiving tray; the lifting translation mechanism is provided with two lifting translation mechanisms and is respectively arranged at the feed inlet of the second feed mechanism, the lifting translation mechanism on the second feed mechanism close to the material distribution frame is used for lifting the material receiving tray without the loaded material and horizontally moving to the other lifting translation mechanism, and the lifting translation mechanism on the second feed mechanism far away from the material distribution frame is used for reducing the height of the material receiving tray with the loaded material so that the material receiving tray is placed on the second feed mechanism.

Further, the first material conveying mechanism is a belt wheel mechanism.

Further, the material distributing mechanism comprises a first hopper, a second hopper and a first driving mechanism which are sequentially arranged up and down, the first hopper is used for receiving materials conveyed from the first material conveying mechanism, the second hopper is driven by the first driving mechanism to horizontally reciprocate, the second hopper is used for receiving the materials conveyed from the first hopper when moving to an initial position, and the materials are uniformly paved in a receiving tray below the receiving tray when reciprocating.

Further, the first driving mechanism comprises at least two first rotating shafts, first chain wheels, first chains and a first motor which are arranged in parallel, the first rotating shafts are arranged on the material distributing frame in a rotating mode, two ends of each first rotating shaft are connected with the first chain wheels in a transmission mode, the first chain wheels are connected with the first rotating shafts in a transmission mode, the first chains are connected with the first chain wheels in a transmission mode, the first motor is connected with at least one first rotating shaft in a transmission mode, and two ends of the second hopper are limited in sliding grooves on the material distributing frame and are connected with the first chains in a transmission mode.

Further, the second material conveying mechanism comprises a conveying rack, at least two second rotating shafts which are arranged in parallel, a second chain wheel, a second chain and a second driving mechanism, wherein the second rotating shafts are arranged on the conveying rack in a rotating mode, two ends of each second rotating shaft are in transmission connection with the second chain wheel, the second chain is in transmission connection with the second chain wheel, and the second driving mechanism is in transmission connection with at least one second rotating shaft.

Further, each second material conveying mechanism comprises a horizontal conveying section and a lifting conveying section, each horizontal conveying section and each lifting conveying section comprise a conveying rack, at least two second rotating shafts which are arranged in parallel, a second sprocket, a second chain and a second driving mechanism, the second rotating shafts are arranged on the conveying racks in a rotating mode, two ends of each second rotating shaft are connected with the second sprocket in a transmission mode, the second sprocket is connected with the second rotating shafts in a transmission mode, the second chain is connected with the second sprocket in a transmission mode, and the second driving mechanism is at least connected with one of the second rotating shafts in a transmission mode.

Further, the lifting translation mechanism comprises a lifting table, at least two third rotating shafts which are arranged in parallel, a third chain wheel, a third chain and a third driving mechanism, wherein the third rotating shafts are rotatably arranged on the lifting table, two ends of each third rotating shaft are in transmission connection with the third chain wheel, the third chain is in transmission connection with the third chain wheel, the third driving mechanism is at least in transmission connection with one of the third rotating shafts, the lifting table is used for enabling the upper end surface of the third chain to support the receiving tray when the lifting table is lifted, and enabling the upper end surface of the third chain to be lower than the upper end surface of the second chain when the lifting table is lowered.

Further, the elevating platform includes the railway carriage or compartment body, mounting panel, flexible electric jar, and the mounting panel rigid coupling is on the delivery rack and be located the below of railway carriage or compartment body, and flexible electric jar is fixed on the mounting panel and its output shaft rigid coupling is in the bottom of railway carriage or compartment body, and the third pivot setting is inside the railway carriage or compartment body and rotate the curb plate that sets up in railway carriage or compartment body both sides.

Further, the third driving mechanism comprises a second motor and a belt, the second motor is fixedly connected to the inner bottom plate of the carriage body, and an output shaft of the second motor is in transmission connection with a belt wheel arranged on the third rotating shaft through the belt.

Further, a plurality of linear bearings are arranged between the carriage body and the mounting plate.

The utility model has the following beneficial effects: through the mutual coordination of the material separating frame, the first material conveying mechanism, the material separating mechanism, the second material conveying mechanism and the lifting translation mechanism, the purpose of automatically separating and conveying konjak materials is realized, the human intervention is reduced, and the production cost is reduced; simultaneously through setting up two second transport mechanisms and the lift translation mechanism that set up side by side, need not the manual handling and incline the discharge opening department to feed divider of receiving tray after unloading konjaku material, can reduce the work load of carrying out the reloading to the receiving tray after unloading konjaku material, need not to prepare a large amount of receiving trays simultaneously, improved the utilization efficiency of receiving tray.

In addition to the objects, features and advantages described above, the present utility model has other objects, features and advantages. The present utility model will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

FIG. 1 is a schematic view of a first view of the present utility model;

FIG. 2 is a schematic diagram of the structure of a second view angle of the present utility model;

FIG. 3 is an enlarged view at A in FIG. 2;

FIG. 4 is a schematic view of a structure of a lifting platform according to an embodiment of the present utility model;

Fig. 5 is a schematic structural view of a first driving mechanism in an embodiment of the present utility model.

Legend description:

The material distributing frame 100, the sliding groove 110, the first material conveying mechanism 200 and the material receiving disc 600;

The device comprises a material distributing mechanism 300, a first hopper 310, a second hopper 320, a first driving mechanism 330, a first rotating shaft 331, a first sprocket 332, a first chain 333 and a first motor 334;

a second feeding mechanism 400, a conveying rack 410, a second rotating shaft 420, a second sprocket 430, a second chain 440, and a second driving mechanism 450;

The lifting and translating mechanism 500, the lifting platform 510, the carriage 511, the mounting plate 512, the telescopic electric cylinder 513, the linear bearing 514, the third rotating shaft 520, the third sprocket 530, the third chain 540, the third driving mechanism 550, the second motor 551 and the belt 552.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

Referring to fig. 1 to 5, a konjak blank blanking and dishing device according to an embodiment of the utility model includes: the device comprises a material distributing frame 100, a first material conveying mechanism 200, a material distributing mechanism 300, two second material conveying mechanisms 400 and a lifting and translating mechanism 500. The first material conveying mechanism 200 is arranged above the material distributing frame 100, preferably, the first material conveying mechanism is a belt wheel mechanism, konjak materials cut into strips are conveyed to a discharge opening of the first material conveying mechanism 200 through the belt wheel mechanism, the material distributing mechanism 300 is arranged on the material distributing frame, a material loading opening of the material distributing mechanism is arranged below the discharge opening of the first material conveying mechanism 200, and konjak materials enter the material distributing mechanism 300 from the discharge opening of the first material conveying mechanism 200 during operation. Two second material conveying mechanisms 400 are arranged side by side on one side of the material distributing mechanism 300, and a material loading opening of each second material conveying mechanism 400 is positioned in a lower area of a material unloading opening of the corresponding material distributing mechanism 300. The feeding opening of the second feeding mechanism 400 on the inner side is located right below the discharging opening of the distributing mechanism 300, the receiving tray 600 of the konjak material dumped on the second feeding mechanism 400 on the outer side can be moved to the feeding opening during operation, and the receiving tray 600 of the konjak material loaded on the second feeding mechanism 400 on the outer side can be moved to the discharging opening during operation. The lifting and translating mechanism 500 is provided with two lifting and translating mechanisms which are respectively arranged at the feed inlets of the two second feed mechanisms 400, the second feed mechanism 400 on the inner side moves the receiving tray 600 with the discharge opening not loaded with konjak materials to the feed inlet, the receiving tray 600 is opposite to the discharge opening of the distributing mechanism 300, and meanwhile the lifting and translating mechanism 500 on the second feed mechanism 400 on the inner side lifts the receiving tray 600 to a preset height, and the discharge opening of the distributing mechanism 300 is opened at the moment. After the tray 600 is filled, the lifting and translating mechanism 500 on the second material conveying mechanism 400 on the inner side horizontally moves the tray 600 to the lifting and translating mechanism 500 on the second material conveying mechanism 400 on the outer side, then the lifting and translating mechanism 500 on the second material conveying mechanism 400 on the outer side lowers the height of the tray 600, and finally the bottom of the tray 600 is placed on the second material conveying mechanism 400, and the second material conveying mechanism 400 is started at this time to convey the tray 600 to the discharge opening thereof. After the konjak material in the receiving tray 600 is dumped manually or by a machine, the receiving tray 600 without the konjak material is placed on the second feeding mechanism 400 on the inner side, and finally transferred to a position right below the discharge opening of the distributing mechanism 300, and the subsequent operation flow repeats the above-mentioned process.

In some embodiments, the material distributing mechanism 300 includes a first hopper 310, a second hopper 320 and a first driving mechanism 330, which are sequentially arranged from top to bottom, the first hopper 310 receives konjak material discharged from a discharge opening of the first material conveying mechanism 200, and the second hopper 320 is driven by the first driving mechanism 330 to horizontally reciprocate, and the direction is parallel to the length direction of a receiving tray 600 placed below the second hopper 320. When the second hopper 320 is at the initial movement position, that is, the discharge opening of the second hopper 320 is opposite to the edge of the receiving tray 600, the first hopper 310 is opened to discharge the material, the first hopper 310 is closed after the second hopper 320 is full, the second hopper 320 starts to reciprocate along the length direction of the receiving tray 600 and simultaneously opens the discharge opening to discharge the material, after one or more reciprocation periods are completed, the receiving tray 600 is full, the second hopper 320 returns to the initial movement position, and the two lifting and translating mechanisms 500 start to act.

In some embodiments, the first driving mechanism 330 includes two first rotating shafts 331, a first sprocket 332, a first chain 333 and a first motor 334, where the first rotating shafts 331 are rotatably disposed on the material separating frame 100, and two ends of the first rotating shafts 331 are in driving connection with the first sprocket 332, the first sprocket 332 is in driving connection with the first rotating shafts 331, the first chain 333 is in driving connection with the first sprocket 332, the first motor 334 is in driving connection with one of the first rotating shafts 331, and two ends of the second hopper 320 are limited in the sliding groove 110 on the material separating frame 100 and are in driving connection with the first chain 333. During operation, the first motor 334 drives the first rotating shaft 331 to rotate positively and negatively, and then drives the first sprocket 332 and the first chain 333 to rotate positively and negatively in sequence, so as to realize the horizontal reciprocating movement of the two ends of the second hopper 320 along the sliding groove 110 under the driving of the first chain 333.

In some embodiments, the second feeding mechanism 400 includes a conveying rack 410, two second rotating shafts 420 disposed in parallel, a second sprocket 430, a second chain 440, and a second driving mechanism 450, where the second rotating shafts 420 are rotatably disposed on the conveying rack 410, and two ends of the second rotating shafts 420 are in driving connection with the second sprocket 430, the second chain 440 is in driving connection with the second sprocket 430, and the second driving mechanism 450 is in driving connection with one of the second rotating shafts 420. During operation, the second driving mechanism 450 drives the second rotating shaft 420 to rotate, and then drives the second sprocket 430 and the second chain 440 to rotate in turn, the second material conveying mechanism 400 on the inner side moves the material receiving tray 600 loaded thereon and not loaded with konjak material to the material loading opening thereof during operation, and the second material conveying mechanism 400 on the outer side moves the material receiving tray 600 loaded with konjak material to the material unloading opening thereof.

In some embodiments, to facilitate manual taking and placing of the tray 600, each of the second feeding mechanisms 400 is composed of a horizontal conveying section and a lifting conveying section, and each of the horizontal conveying section and the lifting conveying section includes a conveying rack 410, two second rotating shafts 420 arranged in parallel, a second sprocket 430, a second chain 440 and a second driving mechanism 450, the second rotating shafts 420 are rotatably arranged on the conveying rack 410, two ends of the second rotating shafts 420 are in transmission connection with the second sprocket 430, the second chain 440 is in transmission connection with the second sprocket 430, and the second driving mechanism 450 is in transmission connection with one of the second rotating shafts 420.

In some embodiments, the lifting and translating mechanism 500 includes a lifting platform 510, two third rotating shafts 520 arranged in parallel, a third sprocket 530, a third chain 540 and a third driving mechanism 550, wherein the third rotating shafts 520 are rotatably arranged on the lifting platform 510, two ends of the third rotating shafts 520 are in transmission connection with the third sprocket 530, the third chain 540 is in transmission connection with the third sprocket 530, and the third driving mechanism 550 is in transmission connection with the third rotating shafts 520 thereof. When the second feeding mechanism 400 on the inner side moves the tray 600 loaded thereon with the non-konjak material to the feed opening thereof, the height of the upper end surface of the third chain 540 is lower than the height of the upper end surface of the second chain 440, and the bottom of the tray 600 is supported on the upper end surface of the second chain 440. When the inner lifting platform 510 is lifted to a height higher than the upper end surface of the second chain 440, the bottom of the receiving tray 600 is supported on the upper end surface of the third chain 540, and after the lifting platform is continuously lifted to a designated height, the third driving mechanism 550 drives the third rotating shaft 520 to rotate, and further drives the third sprocket 530 and the third chain 540 to rotate in turn, and naturally, the outer lifting platform 510 is lifted to the same height as the inner lifting platform 510 according to the same operation. Since the bottom of the tray 600 is supported on the upper end surface of the third chain 540 at this time, the tray 600 moves to the outside of the elevating table 510. Finally, the outer lifting table 510 descends, and finally, when the height of the upper end surface of the third chain 540 is lower than that of the upper end surface of the second chain 440, the bottom of the receiving tray 600 is supported on the upper end surface of the second chain 440, and at this time, the second feeding mechanism 400 is started again, so that the receiving tray 600 can be moved to the discharge opening of the second feeding mechanism 400.

In some embodiments, the lifting platform 510 includes a carriage 511, a mounting plate 512, and a telescopic electric cylinder 513, the mounting plate 512 is fixedly connected to the conveying rack 410 and is located below the carriage 511, the telescopic electric cylinder 513 is fixed on the mounting plate 512, and an output shaft of the telescopic electric cylinder 513 is fixedly connected to the bottom of the carriage 511, a third rotating shaft 520 is disposed inside the carriage 511, and two ends of the third rotating shaft 520 are respectively rotatably disposed on side plates on two sides of the carriage 511. By the forward and backward rotation of the telescopic cylinder 513, the carriage 511 can be lifted and lowered in the vertical direction, thereby realizing the lifting and lowering operation of the docking tray 600.

In some embodiments, the third driving mechanism 550 includes a second motor 551 and a belt 552, the second motor 551 is fixedly connected to the inner bottom plate of the carriage 511, and an output shaft of the second motor 551 is in transmission connection with a pulley 521 provided on the third rotating shaft 520 through the belt 552. The second motor 551 drives the belt wheel 521 to rotate, and then drives the third rotating shaft 520, the third sprocket 530 and the third chain 540 to rotate in turn, so as to realize horizontal translation operation on the docking tray 600.

In some embodiments, to ensure that the carriage 511 is stably raised and lowered relative to the mounting plate 512, a plurality of linear bearings 514 are also provided between the carriage 511 and the mounting plate 512.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. Konjak embryo unloading sabot device, characterized in that includes:

A material distributing frame (100);

the first material conveying mechanism (200) is arranged on the material distributing frame (100);

The material distribution mechanism (300) is arranged on the material distribution frame (100) and the material loading opening of the material distribution mechanism is positioned below the material unloading opening of the first material conveying mechanism (200);

The two second material conveying mechanisms (400) are arranged on the same side of the material distributing frame (100) side by side, and a material inlet of each second material conveying mechanism (400) close to the material distributing frame (100) is positioned below a material discharging opening of each material distributing mechanism (300) and is used for moving a material receiving disc (600) of the other second material conveying mechanism (400) with the materials dumped to the material inlet; the second material conveying mechanism (400) far away from the material separating frame (100) is used for moving the material receiving tray (600) for loading materials to a discharge opening of the material receiving tray;

Lifting translation mechanism (500), be equipped with two and set up respectively in the feed inlet department of second feeding mechanism (400), be close to on second feeding mechanism (400) of dividing work or material rest (100) lifting translation mechanism (500) are used for carrying out jacking material receiving and horizontal migration to another with receiving tray (600) of unloaded material on lifting translation mechanism (500), keep away from on second feeding mechanism (400) of dividing work or material rest (100) lifting translation mechanism (500) are used for reducing the height of receiving tray (600) of loaded material, so that receiving tray (600) are placed in on second feeding mechanism (400).

2. The konjak embryo blanking and dishing device of claim 1, wherein the first feeding mechanism (200) is a pulley mechanism.

3. The konjak embryo blanking and dishing device according to claim 1, wherein the distributing mechanism (300) comprises a first hopper (310), a second hopper (320) and a first driving mechanism (330) which are arranged in sequence, the first hopper (310) is used for receiving materials conveyed from the first conveying mechanism (200); the second hopper (320) is driven by the first driving mechanism (330) to horizontally reciprocate, and is used for receiving the materials conveyed from the first hopper (310) when in an initial movement position and uniformly layering the materials in the receiving tray (600) below the first hopper when in reciprocation.

4. A konjak embryo blanking and dishing device according to claim 3, characterized in that the first driving mechanism (330) comprises at least two first rotating shafts (331), a first sprocket (332), a first chain (333) and a first motor (334) which are arranged in parallel, the first rotating shafts (331) are rotatably arranged on the material dividing frame (100) and both ends of the first rotating shafts are in transmission connection with the first sprocket (332), the first sprocket (332) is in transmission connection with the first rotating shafts (331), the first chain (333) is in transmission connection with the first sprocket (332), the first motor (334) is at least in transmission connection with one of the first rotating shafts (331), and both ends of the second hopper (320) are limited in a sliding groove (110) on the material dividing frame (100) and are in transmission connection with the first chain (333).

5. The konjak embryo blanking and dishing device according to claim 1, wherein the second feeding mechanism (400) comprises a conveying rack (410), at least two second rotating shafts (420) which are arranged in parallel, a second sprocket (430), a second chain (440) and a second driving mechanism (450), the second rotating shafts (420) are rotatably arranged on the conveying rack (410) and both ends of the second rotating shafts are in transmission connection with the second sprocket (430), the second sprocket (430) is in transmission connection with the second rotating shafts (420), the second chain (440) is in transmission connection with the second sprocket (430), and the second driving mechanism (450) is in transmission connection with at least one of the second rotating shafts (420).

6. The konjak embryo blanking and dishing device according to claim 1, wherein each second feeding mechanism (400) is composed of a horizontal conveying section and a lifting conveying section, each horizontal conveying section and lifting conveying section comprises a conveying rack (410), at least two second rotating shafts (420) which are arranged in parallel, a second sprocket (430), a second chain (440) and a second driving mechanism (450), the second rotating shafts (420) are rotatably arranged on the conveying racks (410) and both ends of the second rotating shafts are in transmission connection with the second sprocket (430), the second chain (440) is in transmission connection with the second sprocket (430), and the second driving mechanism (450) is in transmission connection with at least one of the second rotating shafts (420).

7. The konjak embryo blanking and dishing device according to claim 5 or 6, characterized in that the lifting and translating mechanism (500) comprises a lifting table (510), at least two third rotating shafts (520) which are arranged in parallel, a third sprocket (530), a third chain (540) and a third driving mechanism (550), wherein the third rotating shafts (520) are rotatably arranged on the lifting table (510) and both ends of the third rotating shafts are in transmission connection with the third sprocket (530), the third chain (540) is in transmission connection with the third sprocket (530), the third driving mechanism (550) is in transmission connection with at least one of the third rotating shafts (520), the lifting table (510) is used for enabling the upper end surface of the third chain (540) to support the material receiving tray (600) when the lifting table is lifted, and enabling the upper end surface of the third chain (540) to be lower than the upper end surface of the second chain (440) when the lifting table is lowered.

8. The konjak embryo blanking and dishing device according to claim 7, wherein the lifting platform (510) comprises a carriage body (511), a mounting plate (512) and telescopic electric cylinders (513), the mounting plate (512) is fixedly connected to the conveying rack (410) and located below the carriage body (511), the telescopic electric cylinders (513) are fixed to the mounting plate (512) and have output shafts fixedly connected to the bottom of the carriage body (511), and the third rotating shaft (520) is arranged inside the carriage body (511) and is rotatably arranged on side plates on two sides of the carriage body (511).

9. The konjak embryo blanking and dishing device according to claim 8, wherein the third driving mechanism (550) comprises a second motor (551) and a belt (552), the second motor (551) is fixedly connected to the inner bottom plate of the carriage body (511), and an output shaft of the second motor (551) is in transmission connection with a belt wheel (521) arranged on the third rotating shaft (520) through the belt (552).

10. The konjak embryo blanking and dishing device according to claim 8, characterized in that a plurality of linear bearings (514) are further provided between the carriage body (511) and the mounting plate (512).