Vegetable chicken slice cutting device
By adopting a feeding plate and top plate limiting design in the vegetarian chicken slice cutting device, combined with a drive mechanism and eccentric pin transmission, saw-like cutting is achieved, solving the problems of splashing and deformation, and optimizing the cutting effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI HANKANG LEGUMINOUS FOOD CO LTD
- Filing Date
- 2025-07-08
- Publication Date
- 2026-06-19
Smart Images

Figure CN224374178U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of food processing technology, and in particular to a vegetarian chicken slice cutting device. Background Technology
[0002] The production of vegetarian chicken slices uses tofu skin (thousand-layer tofu) as the main ingredient. After softening with alkaline water, the thin tofu skin is torn into pieces and soaked in warm water containing pure alkali. After softening, it is flattened, wrapped in cloth and tied tightly. It is then pressed into a coagulated block shape by a press, cut into long strips, and wrapped and tied into cylinders with a diameter of about 8 cm. After steaming and shaping, the strips are untied and sliced. The slices are then poached in oil at a temperature controlled at about 140℃ to form a skin. Finally, they are cooked in a braising liquid made with spices such as cinnamon and fennel to infuse flavor, resulting in a finished vegetarian chicken slice that is evenly thick, sweet and fragrant, and has a meat-like texture.
[0003] For example, the food cutting device with patent number CN217242454U has the following shortcomings in actual use:
[0004] The aforementioned device includes a frame and a conveyor. The conveyor is equipped with a flower-cutting device and a strip-cutting device, which are fixedly installed thereon. This food cutting equipment uses a central dividing line on the conveyor belt to place the food on the central dividing line and symmetrically on both sides. Flower-cutting devices and strip-cutting devices are respectively provided on both sides of the food. However, in the cutting of vegetarian chicken slices, the cutting of the rotating blade will produce flying fragments that are difficult to collect, and the cutting of the pressing blade will deform the vegetarian chicken slices, affecting the product quality and making it difficult to achieve a good cutting effect. Summary of the Invention
[0005] To address the technical problem of unsatisfactory cutting results in vegetarian chicken slices, this application provides a vegetarian chicken slice cutting device.
[0006] The vegetarian chicken slice cutting device provided in this application adopts the following technical solution:
[0007] A vegetarian chicken slice cutting device includes two side plates, with an inclined feed plate and a feed plate arranged between the side plates, the feed plate and the feed plate being parallel to each other. The upper end of the feed plate has a plurality of first cutting grooves, and a top plate parallel to the feed plate is arranged above the feed plate. The lower end of the top plate has a plurality of second cutting grooves. A tool holder is slidably arranged between the two side plates, and a plurality of cutting blades are fixed between the tool holders. The cutting blades pass through the first cutting grooves and second cutting grooves at corresponding positions. A driving mechanism is provided between the side plates for driving the tool holders to slide back and forth.
[0008] By adopting the above technical solution, the material is limited by the feeding plate and the top plate, and the cutting blade is driven to move up and down reciprocally by the drive structure. The material moves down on the feeding plate by gravity and is cut into slices by the reciprocating sawing action of multiple cutting blades, realizing sawing cutting. Compared with rotating blade cutting, it will not produce flying debris. Compared with downward cutting, it will not generate large pressure in one direction, and will not cause the chicken slices to deform, thus optimizing the cutting effect.
[0009] Preferably, the driving mechanism includes a horizontal plate fixed between the side plates, the horizontal plate being located above the feed plate, a double-headed motor being installed above the horizontal plate, both ends of the double-headed motor being connected to a turntable, an eccentric pin being provided on the turntable, an extension rod being fixed to the side of the tool holder, and an elongated slot being provided on the extension rod, the eccentric pin being slidably disposed in the elongated slot.
[0010] By adopting the above technical solution, the dual-head motor can drive the turntables on both sides to rotate synchronously. When the turntables rotate, the eccentric pin will rotate accordingly. The displacement in the direction parallel to the tool holder can drive the tool holder to move back and forth, thereby driving the cutting blade to move. The displacement in the direction perpendicular to the tool holder will cause the eccentric pin to move back and forth in the long slot, without affecting the movement of the tool holder.
[0011] Preferably, a sliding assembly is provided between the feeding plate and the side plate. Two sliding rails are fixed on the inner side of the side plate. The sliding rails are distributed on both sides of the bottom of the tool holder. A connecting plate is fixed at one end of the extension rod near the tool holder. The connecting plate is provided with several threaded holes. The tool holder is provided with a connecting hole aligned with the threaded holes. A fixing bolt is provided in the connecting hole. The fixing bolt is threadedly connected to the threaded hole.
[0012] By adopting the above technical solution, the feed plate can slide upward through the sliding component and leave a gap between it and the feed plate. Then, the fixing bolts can be removed, and the bottom of the tool holder can be twisted out from the top of the feed plate and the bottom of the top plate to achieve the disassembly of the tool holder and the cutting blade. Similarly, it can also be quickly installed to achieve the replacement effect. The replacement operation is simple when the cutting blade is worn.
[0013] Preferably, the sliding assembly includes a support rail fixed to the inside of the side plate, and the feeding plate is placed above the support rail.
[0014] By adopting the above technical solution, the feeding plate can be moved upward along the support track to achieve a sliding effect. Disassembly is simple and can be quickly handled when the vegetarian chicken slices are stuck.
[0015] Preferably, a plurality of second magnetic blocks are fixed on the horizontal plate, a crossbar is fixed between the two side plates, the crossbar is located above the dual-head motor, and a plurality of first magnetic blocks are embedded on the upper surface of the crossbar. The outer side of the dual-head motor is wrapped with an arc-shaped cover plate, and the inner side of the arc-shaped cover plate is attracted to the first and second magnetic blocks.
[0016] By adopting the above technical solution, the dual-head motor is covered inside by an arc-shaped cover plate, which can prevent the operator's fingers from being squeezed. Moreover, the arc-shaped cover plate is fixed by magnetic adsorption, and can be directly removed when inspecting internal components, making operation convenient.
[0017] Preferably, the feeding plate has a plurality of screen holes distributed at equal intervals, and a collection trough is provided below the screen holes.
[0018] By adopting the above technical solution, when cutting vegetarian chicken slices, a small amount of debris will slide down the feed plate and fall into the collection tank below. Operators can collect and remove the debris from the back of the equipment and process it, reducing waste.
[0019] Preferably, the side end of the feed plate is provided with a dividing opening, so that the upper part of the feed plate is separated from the side plate, and a corrugated plate is fixed on the side wall of the tool holder near the feed plate, the corrugated plate abutting against the upper end of the feed plate.
[0020] By adopting the above technical solution, when the tool holder moves up and down, the protrusions on the corrugated plate will frequently touch the upper edge of the feed plate. At this time, the upper part of the feed plate will vibrate frequently, promoting the falling of debris and vegetarian chicken slices and preventing material jamming.
[0021] Preferably, two symmetrically distributed thickened plates are fixed on both sides of the feeding plate, and the inner side of the thickened plates is flush with the inner wall of the tool holder.
[0022] By adopting the above technical solution, the thickened plates on both sides restrict the material from deviating to both sides, thereby preventing one end of the material from hitting the tool holder and causing jamming.
[0023] In summary, this application includes at least one of the following beneficial technical effects:
[0024] 1. By restricting the vertical position of the material through the feeding plate and top plate, the material moves downward under the action of gravity, and then the cutting blade moves up and down to cut the material, realizing sawing cutting. Compared with rotating blade cutting, it does not produce flying debris, and compared with downward cutting, it does not generate a large pressure in one direction, which will not cause the vegetarian chicken slices to deform, thus optimizing the cutting effect. Attached Figure Description
[0025] Figure 1 This is a schematic diagram of the overall isometric structure of this application;
[0026] Figure 2 This is a schematic diagram of the internal three-dimensional structure of this application;
[0027] Figure 3 This is a schematic diagram of the extension rod in this application;
[0028] Figure 4 This is a structural schematic diagram of the top plate in this application;
[0029] Figure 5 This is a schematic diagram of the internal side view structure of this application;
[0030] Figure 6 This is a schematic diagram of the tool holder structure in this application.
[0031] Reference numerals: 1. Side plate; 2. Feeding plate; 3. Discharging plate; 4. First cutting groove; 5. Top plate; 6. Second cutting groove; 7. Tool holder; 8. Cutting blade; 9. Sliding rail; 10. Horizontal plate; 11. Dual-head motor; 12. Turntable; 13. Extension rod; 14. Long slot; 15. Eccentric pin; 16. Connecting plate; 17. Threaded hole; 18. Support rail; 19. Arc-shaped cover plate; 20. Crossbar; 21. First magnetic block; 22. Second magnetic block; 23. Screening hole; 24. Collection trough; 25. Dividing opening; 26. Corrugated plate; 27. Thickened plate. Detailed Implementation
[0032] The following is in conjunction with the appendix Figure 1-6 This application will be described in further detail.
[0033] This application discloses a vegetarian chicken slice cutting device.
[0034] Example 1:
[0035] Reference Figure 1 , Figure 2 and Figure 3A vegetarian chicken slice cutting device includes two side plates 1, which form the main frame. A feed plate 3 and a feed plate 2 are inclined and parallel between them. The upper surfaces of the feed plate 3 and the feed plate 2 are coplanar to facilitate material sliding. The upper end of the feed plate 3 has several first cutting grooves 4. Above the feed plate 2 is a parallel top plate 5, and the lower end of the top plate 5 has several second cutting grooves 6. A tool holder 7 is slidably installed between the two side plates 1, and several cutting blades 8 fixed on it can pass through the corresponding first and second cutting grooves 4. The tool slot 6 has a drive mechanism between the two side plates 1 for driving the tool holder 7 to slide back and forth. Specifically, a horizontal plate 10 is fixed between the side plates 1 above the feed plate 3, and a double-headed motor 11 is installed on it. The turntables 12 at both ends of the motor are fixed with eccentric pins 15. The extension rod 13 on the side of the tool holder 7 has a long slot 14. The eccentric pin 15 is slidably arranged in the long slot 14. Moreover, two symmetrically distributed thickened plates 27 are fixed on both sides of the feed plate 2, and the inner side of the thickened plate 27 is flush with the inner wall of the tool holder 7.
[0036] With the above settings, when the material is put in (the material before cutting the vegetarian chicken slices is cylindrical), the thickened plates 27 on both sides restrict the material from deviating to the sides, ensuring that the material contacts the cutting blade 8. The material slides down the feeding plate 2 and contacts the cutting blade 8. At the same time, the dual-head motor 11 drives the eccentric pin 15 to rotate through the turntables 12 on both sides. The displacement in the direction parallel to the tool holder 7 can drive the tool holder 7 to move back and forth, thereby driving the cutting blade 8 to move. The displacement in the direction perpendicular to the tool holder 7 will cause the eccentric pin 15 to move back and forth in the long slot 14, without affecting the movement of the tool holder 7. The material moves down on the feeding plate 2 by gravity and is cut into slices by the reciprocating sawing action of multiple cutting blades 8, realizing sawing cutting. Compared with rotating blade cutting, it will not produce flying debris. Compared with downward cutting, it will not generate large pressure in one direction, and will not cause the vegetarian chicken slices to deform, thus optimizing the cutting effect.
[0037] Reference Figure 3 , Figure 4 and Figure 5 A sliding assembly is provided between the feed plate 2 and the side plate 1, specifically a support rail 18 fixed on the inner side of the side plate 1. The feed plate 2 is placed above the support rail 18. Two sliding rails 9 are fixed on the inner side of the side plate 1. The sliding rails 9 are distributed on both sides of the bottom of the tool holder 7, and the upper end of the sliding rail 9 is flared to facilitate insertion into the tool holder 7. The extension rod 13 and the tool holder 7 are separate structures. A connecting plate 16 is fixed to one end of the extension rod 13 near the tool holder 7. The connecting plate 16 is provided with several threaded holes 17. The tool holder 7 is provided with connecting holes aligned with the threaded holes 17. The tool holder 7 and the connecting plate 16 are connected by fixing bolts.
[0038] With the above settings, the upper plate 2 can be moved upward along the support rail 18 to leave a gap between the upper plate 2 and the lower plate 3. After the fixing bolts are removed, the bottom of the tool holder 7 can be bypassed from the upper end of the lower plate 3 and the lower end of the top plate 5 and taken out, so as to achieve quick disassembly of the tool holder 7 and the cutting blade 8, and quick replacement when the cutting blade 8 is worn.
[0039] Reference Figure 1 and Figure 2 The device has an arc-shaped cover plate 19 covering the drive mechanism at the front end, and a crossbar 20 at the top. Several first magnetic blocks 21 are embedded on the upper surface of the crossbar 20, and several second magnetic blocks 22 are fixed on the cross plate 10. The inner side of the arc-shaped cover plate 19 is attracted to the first magnetic blocks 21 and the second magnetic blocks 22.
[0040] With the above-mentioned setup, the arc-shaped cover 19 encloses the drive mechanism inside the equipment, reducing the operational risks of the equipment. Moreover, the arc-shaped cover 19 is fixed by magnetic adsorption, making disassembly simple and convenient for maintenance.
[0041] The implementation principle of this embodiment is as follows:
[0042] Driven by the dual-head motor 11, the eccentric pin 15 rotates, and through the transmission of the extension rod 13, the tool holder 7 and the cutting blade 8 move up and down reciprocally. The material moves down on the feeding plate 2 under the action of gravity and is divided into slices by the reciprocating sawing action of multiple cutting blades 8, realizing sawing cutting. Compared with rotating blade cutting, it will not produce flying debris. Compared with downward cutting, it will not generate a large pressure in one direction, and will not cause the chicken slices to deform, thus optimizing the cutting effect.
[0043] Furthermore, by removing the arc-shaped cover plate 19 and disassembling the fixing bolts, the extension rod 13 can be separated from the tool holder 7. Then, the upper plate 2 can be slid upwards a certain distance to leave a gap between the upper plate 2 and the lower plate 3. The bottom of the tool holder 7 can be bypassed from the upper end of the lower plate 3 and the lower end of the top plate 5 and removed. Similarly, it can be installed to achieve the effect of quickly changing the cutting blade 8.
[0044] Example 2:
[0045] refer to Figure 2 The feeding plate 3 has several screen holes 23 that are evenly distributed, and a collection trough 24 is provided below the screen holes 23. The front end of the collection trough 24 is an inclined bottom surface.
[0046] With the above setup, when cutting vegetarian chicken slices, a small amount of debris will slide down the feed plate 3 and fall into the collection trough 24 below. Operators can collect and remove the debris from the back of the equipment and process it, reducing waste.
[0047] refer to Figure 4and Figure 6 The material feed plate 3 has a dividing opening 25 on both sides, so that the upper part of the material feed plate 3 is separated from the side plate 1, and a corrugated plate 26 is fixed on the side wall of the tool holder 7 near the material feed plate 3, and the corrugated plate 26 abuts against the upper end of the material feed plate 3.
[0048] With the above settings, when the tool holder 7 moves up and down, the protrusions on the corrugated plate 26 will frequently touch the upper edge of the feed plate 3. At this time, the part of the feed plate 3 that is separated from the side plate 1 will vibrate frequently, promoting the falling of scraps and vegetarian chicken pieces and preventing material jamming.
[0049] The implementation principle of this embodiment is as follows:
[0050] The up-and-down movement of the cutter holder 7, in conjunction with the corrugated plate 26, causes the upper part of the feeding plate 3 to vibrate. At this time, the scraps fall from the screen hole 23 into the collection trough 24, while simultaneously causing the vegetarian chicken slices to slide down the feeding plate 3, thereby collecting and recycling the scraps and preventing the feeding from getting stuck.
[0051] In summary, this device achieves sawing cuts by moving the cutting blade 8 back and forth, preventing debris from flying while avoiding continuous high pressure on the material in the same direction, thus ensuring the shape of the vegetarian chicken slices and improving the cutting effect.
[0052] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.
Claims
1. A chicken slice cutting device comprising two side plates (1), characterized in that: The side plates (1) are provided with an inclined lower plate (3) and an upper plate (2), and the upper plate (2) and the lower plate (3) are parallel to each other. The upper end of the lower plate (3) is provided with a number of first knife grooves (4). The upper plate (2) is provided with a top plate (5) parallel to the upper plate (2). The lower end of the top plate (5) is provided with a number of second knife grooves (6). A tool holder (7) is slidably provided between the two side plates (1). A number of cutting blades (8) are fixed between the tool holders (7). The cutting blades (8) pass through the first knife grooves (4) and the second knife grooves (6) at the corresponding positions. A driving mechanism is provided between the side plates (1) to drive the tool holders (7) to slide back and forth.
2. The chicken slice cutting apparatus according to claim 1, wherein: The driving mechanism includes a horizontal plate (10) fixed between the side plates (1). The horizontal plate (10) is located above the feed plate (3). A double-head motor (11) is installed above the horizontal plate (10). Both ends of the double-head motor (11) are connected to a turntable (12). An eccentric pin (15) is provided on the turntable (12). An extension rod (13) is fixed on the side of the tool holder (7). A long slot (14) is opened on the extension rod (13). The eccentric pin (15) is slidably arranged in the long slot (14).
3. The chicken slice cutting apparatus according to claim 2, wherein: A sliding assembly is provided between the feeding plate (2) and the side plate (1). Two sliding rails (9) are fixed on the inner side of the side plate (1). The sliding rails (9) are distributed on both sides of the bottom of the tool holder (7). A connecting plate (16) is fixed at one end of the extension rod (13) near the tool holder (7). Several threaded holes (17) are provided on the connecting plate (16). A connecting hole aligned with the threaded hole (17) is provided on the tool holder (7). A fixing bolt is provided in the connecting hole. The fixing bolt is threadedly connected to the threaded hole (17).
4. The vegetarian chicken slice cutting device according to claim 3, characterized in that: The sliding assembly includes a support rail (18) fixed inside the side plate (1), and a feeding plate (2) is placed above the support rail (18).
5. The vegetarian chicken slice cutting device according to claim 2, characterized in that: Several second magnetic blocks (22) are fixed on the horizontal plate (10), and a horizontal bar (20) is fixed between the two side plates (1). The horizontal bar (20) is located above the double-headed motor (11), and several first magnetic blocks (21) are embedded on the upper surface of the horizontal bar (20). The outer side of the double-headed motor (11) is wrapped with an arc-shaped cover plate (19), and the inner side of the arc-shaped cover plate (19) is attracted to the first magnetic blocks (21) and the second magnetic blocks (22).
6. The vegetarian chicken slice cutting device according to claim 1, characterized in that: The feeding plate (3) has several screen holes (23) distributed at equal intervals, and a collection trough (24) is provided below the screen holes (23).
7. A vegetarian chicken slice cutting device according to claim 1 or 6, characterized in that: The side end of the feed plate (3) is provided with a dividing opening (25) so that the upper part of the feed plate (3) is separated from the side plate (1), and a corrugated plate (26) is fixed on the side wall of the tool holder (7) near the feed plate (3), and the corrugated plate (26) abuts against the upper end of the feed plate (3).
8. The vegetarian chicken slice cutting device according to claim 1, characterized in that: The feeding plate (2) has two symmetrically distributed thickened plates (27) fixed on both sides, and the inner side of the thickened plate (27) is flush with the inner wall of the tool holder (7).