A slicing machine for meat processing

By fixing meat products with components such as brackets and electric telescopic rods, the problem of meat products sliding due to the conveyor belt is solved, achieving uniform slicing thickness and rapid blade replacement, thus improving the processing quality of the meat product slicer.

CN224461013UActive Publication Date: 2026-07-07JIANGXI ZHUMENG TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGXI ZHUMENG TECHNOLOGY CO LTD
Filing Date
2025-06-19
Publication Date
2026-07-07

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    Figure CN224461013U_ABST
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Abstract

The utility model discloses a slicing machine for meat product processing, including frame, the outside of frame is provided with first conveyer belt, the surface of frame is firmly connected with the casing, the inside of casing is provided with cutter, the inside of casing is provided with fixed establishment, the fixed establishment includes support, electric telescopic handle, connecting plate, support column, second conveyer belt and first motor. The utility model relates to meat product processing technical field, and this slicing machine for meat product processing is through the cooperation between support, electric telescopic handle, connecting plate, support column, first convey roller and second conveyer belt, realizes the fixed of the meat product in moving, has solved the problem that the meat product processing is not fixed in the process that the conveyer belt drives the meat product processing movement, in the conveyer belt operation process, the inertia effect when starting and stopping is received, and it is extremely easy to produce the sliding, and the cutter cannot cut according to the set thickness, and the influence meat product slicing quality problem.
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Description

Technical Field

[0001] This utility model relates to the field of meat processing technology, specifically a meat slicer for meat processing. Background Technology

[0002] Meat products refer to cooked or semi-finished meat products made primarily from livestock and poultry meat and seasoned with spices. Meat product processing requires slicing using a slicer.

[0003] When the slicer is in use, the staff places the meat products on the conveyor belt, and the conveyor belt moves the position of the cutting blade, which moves up and down to slice the meat products.

[0004] However, during the process of moving meat products along the conveyor belt, the meat products are not fixed in place. Due to the soft texture and irregular shape of the meat products, they are prone to slipping due to the inertia of starting and stopping the conveyor belt. As a result, the cutter cannot cut according to the set thickness, resulting in uneven thickness of the sliced ​​meat and affecting the quality of the sliced ​​meat products. Utility Model Content

[0005] To address the shortcomings of existing technologies, this utility model provides a meat slicer, which solves the problem that when meat products are moved by a conveyor belt, the lack of fixation during processing makes the meat products prone to slippage due to inertia during start-up and stop, preventing the cutter from cutting to the set thickness and affecting the quality of the sliced ​​meat products.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a meat slicer for processing meat products, comprising a frame, a first conveyor belt externally mounted on the frame, a housing fixedly mounted on the surface of the frame, a cutter internally mounted on the housing, and a fixing mechanism internally mounted on the housing; the fixing mechanism comprises a bracket, an electric telescopic rod, a connecting plate, a support column, a first conveyor roller, a second conveyor belt, and a first motor; the bracket is fixedly mounted on the top of the inner wall of the housing, the bottom of the bracket is fixedly connected to the electric telescopic rod by bolts, the bottom output end of the electric telescopic rod is fixedly connected to the connecting plate by bolts, the bottom of the connecting plate is fixedly connected to the support column, the inner wall of the support column is rotatably connected to the first conveyor roller via bearings, the number of first conveyor rollers is two, the outer walls of both first conveyor rollers are rotatably connected to the second conveyor belt, the outer wall of the support column is fixedly connected to the first motor by bolts, and the output shaft of the first motor is fixedly mounted to the end of one of the first conveyor rollers.

[0007] Preferably, the inner wall of the frame is rotatably connected to a second conveyor roller via a bearing, and there are two second conveyor rollers. The outer walls of the two second conveyor rollers are rotatably connected to the outer wall of the first conveyor belt. A second motor is fixed to one side of the front of the frame by bolts, and the output shaft of the second motor is fixed to the end of one of the second conveyor rollers.

[0008] Preferably, a feed frame and a discharge frame are fixedly connected to both sides of the housing.

[0009] Preferably, a first baffle is fixedly connected to the front of the housing, and a second baffle is fixedly connected to the side of the housing near the cutter.

[0010] Preferably, a hydraulic cylinder is bolted to the top of the inner wall of the housing on the side away from the support. A connecting seat is bolted to the bottom output end of the hydraulic cylinder. The inner wall of the connecting seat is inserted into the upper part of the outer wall of the cutter. A replacement mechanism is provided inside the connecting seat. The replacement mechanism includes a screw, a crossbar, a plug, and a socket. The end of the screw is rotatably connected to the outer wall of the connecting seat through a bearing. A crossbar is threaded to the outer wall of the screw. A plug is fixedly connected to the side wall of the crossbar. A socket is provided on the upper part of the outer wall of the cutter. The outer wall of the plug penetrates the connecting seat and is movably connected to the connecting seat. The outer wall of the plug is inserted into the inner wall of the socket.

[0011] Preferably, the inner wall of the frame is rotatably connected to a first support roller via bearings, the first support roller is located between two second conveying rollers, and a column is fixedly connected to the bottom of the connecting plate, with a second support roller rotatably connected to the inside of the column via bearings.

[0012] Beneficial effects

[0013] This utility model provides a meat slicer for processing meat products. It has the following advantages: This meat slicer, through the cooperation of a bracket, an electric telescopic rod, a connecting plate, a support column, a first conveyor roller, and a second conveyor belt, achieves the fixation of moving meat products. This solves the problem that when meat products are moved by the conveyor belt during processing, without fixation, the inertia during start-up and stopping of the conveyor belt easily causes slippage, preventing the cutter from cutting to the set thickness and affecting the quality of the sliced ​​meat.

[0014] By utilizing the connection between the screw, crossbar, insert, and socket, the cutter can be quickly replaced. This solves the problem that replacing a sharp cutter usually requires workers to use a wrench to remove multiple bolts from the cutter one by one, replace it with a new one, and then rotate the bolts back onto the new cutter, resulting in a long replacement time and making it impossible to replace the cutter quickly. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the structure of this utility model;

[0016] Figure 2 for Figure 1 An exterior schematic diagram;

[0017] Figure 3 for Figure 1 A structural schematic diagram of the electric telescopic pole, the second conveyor belt, and the support column;

[0018] Figure 4 for Figure 1 A schematic diagram of the structure of the connecting seat, screw and cutter.

[0019] In the diagram: 1. Frame; 2. Housing; 3. First conveyor belt; 4. Feed frame; 5. Discharge frame; 6. Cutter; 7. Support; 8. Electric telescopic rod; 9. Connecting plate; 10. Support column; 11. First conveyor roller; 12. Second conveyor belt; 13. First motor; 14. Hydraulic cylinder; 15. Connecting seat; 16. Screw; 17. Horizontal column; 18. Insertion column; 19. Insertion hole; 20. First baffle; 21. Second baffle; 22. Second conveyor roller; 23. Second motor; 24. First support roller; 25. Column; 26. Second support roller. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0021] During the process of moving meat products along the conveyor belt, the meat products are not fixed in place. Due to the inertia of starting and stopping the conveyor belt, it is very easy for the products to slip. As a result, the cutter cannot cut according to the set thickness, which affects the quality of the meat slices.

[0022] In view of this, the present invention provides a meat product slicing machine. Through the cooperation of the bracket, electric telescopic rod, connecting plate, support column, first conveyor roller and second conveyor belt, the moving meat products are fixed. This solves the problem that when the conveyor belt moves the meat products during processing, without fixing the meat products, the inertia caused by the start and stop of the conveyor belt can easily cause slippage, and the cutter cannot cut according to the set thickness, affecting the quality of the meat slices.

[0023] Those skilled in the art will connect the electrical components and their compatible power supplies in this case using wires. Appropriate controllers and encoders should be selected according to the actual situation to meet control requirements. The specific connection and control sequence should refer to the working principle below, where the electrical components are connected in the order of operation. The detailed connection methods are well-known in the art. The following mainly introduces the working principle and process, without further explanation of electrical control.

[0024] Example 1, by Figure 1-4 As can be seen, the meat processing slicer in this case includes a frame 1, a first conveyor belt 3 is provided on the outside of the frame 1, a housing 2 is fixedly connected to the surface of the frame 1, a cutter 6 is provided inside the housing 2, and a fixing mechanism is provided inside the housing 2; the fixing mechanism includes a bracket 7, an electric telescopic rod 8, a connecting plate 9, a support column 10, a first conveyor roller 11, a second conveyor belt 12, and a first motor 13; the bracket 7 is fixedly connected to the top of the inner wall of the housing 2, the bottom of the bracket 7 is fixedly connected to the electric telescopic rod 8 by bolts, the bottom output end of the electric telescopic rod 8 is fixedly connected to the connecting plate 9 by bolts, the bottom of the connecting plate 9 is fixedly connected to the support column 10, the inner wall of the support column 10 is rotatably connected to the first conveyor roller 11 through bearings, there are two first conveyor rollers 11, the outer walls of the two first conveyor rollers 11 are rotatably connected to the second conveyor belt 12, the outer wall of the support column 10 is fixedly connected to the first motor 13 by bolts, and the output shaft of the first motor 13 is fixedly connected to the end of one of the first conveyor rollers 11;

[0025] In the specific implementation process, it is worth noting that the staff regularly cleans the surfaces of the first conveyor belt 3 and the second conveyor belt 12, removing any remaining meat scraps from the surface of the first conveyor belt 3. A food-grade silicone coating is then sprayed onto the surfaces of the first conveyor belt 3 and the second conveyor belt 12 to prevent meat products from sticking to their surfaces. The frame 1 supports the overall structure of the slicer. When the slicer is working, the staff first activates the electric telescopic rod 8. A synchronizer is installed between the two electric telescopic rods 8, allowing them to work simultaneously. The electric telescopic rod 8 is model JEA-120-150-300. The connection between the electric telescopic rod 8 and the external controller uses an RS-485 bus with shielded twisted-pair cable for signal transmission. The electric telescopic rod 8 has a built-in communication module with two differential signal line interfaces, A and B, which are connected to the corresponding RS-485 communication ports of the controller. The positive and negative power terminals are connected to the power output terminals of the controller via independent cables to ensure stable power supply. (First motor 13) The model is M2BAX100LA4-B35. The first motor 13 is connected to the controller through a combination of frequency converter and controller to achieve drive and control. The electric telescopic rod 8 drives the connecting plate 9 to move, the connecting plate 9 drives the support column 10 to move, and the support column 10 drives the first conveyor roller 11 to move. The two first conveyor rollers 11 drive the second conveyor belt 12 to move, thereby adjusting the distance between the first conveyor belt 3 and the second conveyor belt 12 so that this distance is the same as the thickness of the sliced ​​meat product, thus fixing the meat product. After completion, the worker stops the electric telescopic rod 8 through the controller. Then, the worker starts the first motor 13 through the controller. The first motor 13 drives the left first conveyor roller 11 to rotate, thereby driving the second conveyor belt 12 to rotate. The surface of the first conveyor roller 11 is covered with wear-resistant rubber (such as nitrile rubber or neoprene rubber). The elasticity and rough surface of the rubber can increase the contact pressure and friction between the first conveyor roller 11 and the second conveyor belt 12, preventing slippage and fixing the moving meat product.

[0026] Workers place the meat products to be sliced ​​on the left side of the first conveyor belt 3. The first conveyor belt 3 moves the meat products, and when the meat products reach the position of the cutter 6, the cutter 6 slices them. The sliced ​​meat products fall into an external collection box on the right side of the first conveyor belt 3 for collection. The collection box is located at the bottom right side of the first conveyor belt 3.

[0027] Furthermore, the inner wall of the frame 1 is rotatably connected to a second conveyor roller 22 via a bearing. There are two second conveyor rollers 22. The outer walls of the two second conveyor rollers 22 are rotatably connected to the outer wall of the first conveyor belt 3. A second motor 23 is fixed to one side of the front of the frame 1 via bolts. The output shaft of the second motor 23 is fixed to the end of one of the second conveyor rollers 22.

[0028] In the specific implementation process, it is worth noting that the model of the second motor 23 is 1LE0003-1DA23-3AA4. The connection between the second motor 23 and the controller adopts a collaborative control scheme of PLC controller + frequency converter. The connection method is divided into two parts: main circuit connection and control signal connection. Similarly, the surface of the second conveyor roller 22 is wrapped with wear-resistant rubber (such as nitrile rubber or neoprene rubber). The elasticity and rough surface of the rubber can increase the contact pressure and friction between the second conveyor roller 22 and the first conveyor belt 3, preventing slippage. The operator starts the second motor 23 through the controller. The second motor 23 drives the left second conveyor roller 22 to rotate, thereby driving the first conveyor belt 3 to rotate, thus moving the meat products. The operator uses the controller to make the speed of the first motor 13 and the second motor 23 the same, so that the meat products can move normally and drive the first conveyor belt 3 to rotate.

[0029] Furthermore, a feed frame 4 and a discharge frame 5 are fixedly connected to both sides of the housing 2, respectively;

[0030] In the specific implementation process, it is worth noting that the staff cleans the surface of the second conveyor belt 12 by using the feeding frame 4 or by removing the first baffle 20. The first conveyor belt 3 carries the meat products to be sliced ​​into the machine casing 2 through the feeding frame 4 to slice the meat products. The sliced ​​meat products are then removed from the machine casing 2 through the discharge frame 5.

[0031] Furthermore, a first baffle 20 is fixedly connected to the front of the housing 2, and a second baffle 21 is fixedly connected to the side of the housing 2 near the cutter 6.

[0032] In the specific implementation process, it is worth noting that the first baffle 20 and the second baffle 21 can be connected to the front and right sides of the housing 2 by bolts. The staff can disassemble and assemble the first baffle 20 and the second baffle 21 by rotating the bolts, so as to inspect, repair or replace the parts inside the housing 2.

[0033] Example 2, by Figure 1 and 4It is known that a hydraulic cylinder 14 is fixedly connected to the top of the inner wall of the housing 2 away from the bracket 7 by bolts. The bottom output end of the hydraulic cylinder 14 is fixedly connected to a connecting seat 15 by bolts. The inner wall of the connecting seat 15 is inserted into the upper part of the outer wall of the cutter 6. A replacement mechanism is provided inside the connecting seat 15. The replacement mechanism includes a screw 16, a horizontal column 17, a plug 18, and a socket 19. The end of the screw 16 is rotatably connected to the outer wall of the connecting seat 15 by a bearing. The outer wall of the screw 16 is threadedly connected to the horizontal column 17. The side wall of the horizontal column 17 is fixedly connected to the plug 18. A socket 19 is opened on the upper part of the outer wall of the cutter 6. The outer wall of the plug 18 passes through the connecting seat 15 and is movably connected to the connecting seat 15. The outer wall of the plug 18 is inserted into the inner wall of the socket 19.

[0034] In the specific implementation process, it is worth noting that the hydraulic cylinder 14 is model HSGK-80 / 45-200-LA. The connection between the hydraulic cylinder 14 and the controller adopts a control scheme of PLC controller + electro-hydraulic proportional valve + hydraulic pump station. The connection method is divided into two parts: hydraulic pipeline connection and electrical signal connection. When slicing meat products, the worker starts the hydraulic cylinder 14 through the controller. The hydraulic cylinder 14 drives the connecting seat 15 to move, thereby driving the cutter 6 to move up and down reciprocally, thus slicing the meat products. After slicing is completed, the worker stops the hydraulic cylinder 14 through the controller. When it is necessary to replace the cutter 6, firstly, the worker... The operator removes the second baffle 21, then rotates the handle at the beginning of the screw 16, causing the screw 16 to rotate. The screw 16 drives the horizontal column 17 to move, and the horizontal column 17 drives the insertion post 18 to move in the connecting seat 15, causing the insertion post 18 to move out of the insertion hole 19. However, the insertion post 18 is not completely moved out of the connecting seat 15. The cutter 6 is then released from its fixation and removed. The operator inserts the top of the new cutter 6 into the connecting seat 15. After that, the operator rotates the handle at the beginning of the screw 16 in the opposite direction, causing the insertion post 18 to be inserted into the corresponding insertion hole 19, thus fixing the new cutter 6 in place. This completes the replacement of the cutter 6, enabling quick replacement of the cutter 6.

[0035] Furthermore, the inner wall of the frame 1 is rotatably connected to the first support roller 24 via bearings. The first support roller 24 is located between the two second conveying rollers 22. The bottom of the connecting plate 9 is fixedly connected to the column 25. The inside of the column 25 is rotatably connected to the second support roller 26 via bearings.

[0036] In the specific implementation process, it is worth noting that the first support roller 24 and the second support roller 26 support the first conveyor belt 3 and the second conveyor belt 12 respectively to prevent deformation of the first conveyor belt 3 and the second conveyor belt 12 when conveying or cutting meat products.

[0037] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A meat slicer for processing meat products, comprising a frame (1), characterized in that: The frame (1) is provided with a first conveyor belt (3) on its outside, and a housing (2) is fixed to the surface of the frame (1). A cutter (6) is provided inside the housing (2), and a fixing mechanism is provided inside the housing (2). The fixing mechanism includes a bracket (7), an electric telescopic rod (8), a connecting plate (9), a support column (10), a first conveyor roller (11), a second conveyor belt (12), and a first motor (13); The bracket (7) is fixed to the top of the inner wall of the housing (2). The bottom of the bracket (7) is fixedly connected to an electric telescopic rod (8) by bolts. The bottom output end of the electric telescopic rod (8) is fixedly connected to a connecting plate (9) by bolts. The bottom of the connecting plate (9) is fixedly connected to a support column (10). The inner wall of the support column (10) is rotatably connected to a first conveyor roller (11) by bearings. There are two first conveyor rollers (11). The outer walls of the two first conveyor rollers (11) are rotatably connected to a second conveyor belt (12). The outer wall of the support column (10) is fixedly connected to a first motor (13) by bolts. The output shaft of the first motor (13) is fixedly connected to the end of one of the first conveyor rollers (11).

2. The meat slicer for processing according to claim 1, characterized in that: The inner wall of the frame (1) is rotatably connected to a second conveyor roller (22) via a bearing. There are two second conveyor rollers (22). The outer walls of the two second conveyor rollers (22) are rotatably connected to the outer wall of the first conveyor belt (3). A second motor (23) is fixed to one side of the front of the frame (1) by bolts. The output shaft of the second motor (23) is fixed to the end of one of the second conveyor rollers (22).

3. A meat slicer for processing according to claim 1, characterized in that: The feed frame (4) and the discharge frame (5) are fixedly connected to both sides of the housing (2).

4. A meat slicer for processing meat products according to claim 1, characterized in that: A first baffle (20) is fixedly connected to the front of the housing (2), and a second baffle (21) is fixedly connected to the side of the housing (2) near the cutter (6).

5. A meat slicer for processing according to claim 1, characterized in that: A hydraulic cylinder (14) is fixedly connected to the top of the inner wall of the housing (2) away from the bracket (7) by bolts. A connecting seat (15) is fixedly connected to the bottom output end of the hydraulic cylinder (14) by bolts. The inner wall of the connecting seat (15) is inserted into the upper part of the outer wall of the cutter (6). A replacement mechanism is provided inside the connecting seat (15). The replacement mechanism includes a screw (16), a crossbar (17), a plug (18), and a socket (19); The end of the screw (16) is rotatably connected to the outer wall of the connecting seat (15) via a bearing. A horizontal column (17) is threadedly connected to the outer wall of the screw (16). An insert (18) is fixedly connected to the side wall of the horizontal column (17). An insertion hole (19) is provided on the upper part of the outer wall of the cutter (6). The outer wall of the insert (18) penetrates the connecting seat (15) and is movably connected to the connecting seat (15). The outer wall of the insert (18) is inserted into the inner wall of the insertion hole (19).

6. A meat slicer for processing meat products according to claim 1, characterized in that: The inner wall of the frame (1) is rotatably connected to a first support roller (24) via bearings. The first support roller (24) is located between two second conveying rollers (22). The bottom of the connecting plate (9) is fixedly connected to a column (25). The inside of the column (25) is rotatably connected to a second support roller (26) via bearings.