A manual mushroom slicing device
By combining a fungal transport device and a manual slicing mechanism, the problems of low efficiency and high cost in fungal slicing are solved, achieving efficient and low-cost integrated slicing and transport, which is suitable for small and medium-sized enterprises.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SICHUAN SHANGYUAN AGRI DEV CO LTD
- Filing Date
- 2025-07-16
- Publication Date
- 2026-07-07
AI Technical Summary
Existing methods for slicing fungi are inefficient, produce uneven slices, and have high costs for automated equipment, making them difficult to meet the needs of small and medium-sized enterprises.
Design a manual slicing device for fungi. Combined with a fungi conveying device, it adopts a manual slicing mechanism. Through a stainless steel welded slicing fixing seat and a manual slicing mechanism, it achieves seamless connection between slicing and conveying. The stainless steel material and spring structure improve stability and ease of operation.
It improves slicing efficiency and consistency of slice thickness, reduces operational complexity and cost, is suitable for small and medium-sized enterprises, and reduces manual handling and labor intensity.
Smart Images

Figure CN224464789U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of manual slicing equipment for fungi, specifically to a manual slicing device for fungi. Background Technology
[0002] In the mushroom processing industry, mushroom slicing is a crucial preliminary step in subsequent deep processing, such as drying, pickling, and making mushroom products. Currently, traditional mushroom slicing methods mainly fall into two categories: one is entirely manual slicing with hand-held knives, which is not only inefficient but also makes it difficult to maintain uniform slice thickness, significantly impacting the quality and taste of subsequent processed products; the other is using automated slicing equipment, which can improve slicing efficiency and slice thickness uniformity, but automated equipment is often expensive, requires a large area, is complex to operate, and requires regular professional maintenance. For small and medium-sized mushroom processing enterprises or family workshops, the purchase and use costs are too high to bear. Therefore, developing a manual mushroom slicing device that is easy to operate, low-cost, and guarantees slicing efficiency has become an urgent problem to be solved in the mushroom processing field. Utility Model Content
[0003] Therefore, in order to overcome the above-mentioned shortcomings, this utility model provides a manual fungal slicing device, which is easy to operate, has low operating costs, can ensure slicing efficiency (i.e., achieve rapid slicing), and is convenient for post-slicing transport.
[0004] This invention is implemented as follows: a manual slicing device for fungi is constructed. The device includes a fungi conveying device and a manual slicing mechanism disposed on the fungi conveying device. The manual slicing mechanism slices the fungi, and the sliced fungi pieces fall directly onto the conveyor belt of the fungi conveying device, which then transports the sliced fungi pieces out.
[0005] According to the present application, a manual slicing device for fungi is provided, wherein multiple slicing fixing seats are fixed on the frame along the edges at both ends of the fungi conveying device. The slicing fixing seats are used to position the manual slicing mechanism, that is, the manual slicing mechanism is placed in the slicing fixing seats.
[0006] According to the present application, a manual slicing device for fungi is provided, wherein the slicing fixture is a frame welded from stainless steel, and each slicing fixture has two cavities on the left and right for positioning the manual slicing mechanism, so that each slicing fixture can contain two sets of symmetrically arranged manual slicing mechanisms, and a column frame is welded in the middle of the slicing fixture.
[0007] According to the present application, a manual slicing device for fungi comprises a lower body seat and an upper body frame that is movably connected to the lower body seat via a rotating shaft. The end of the upper body frame is a fixed slicing operating rod, which can press down and lift the upper body frame. Multiple evenly arranged upper cutting blades are fixed in the upper body frame, and multiple evenly arranged lower cutting blades are fixed in the lower body seat. When the fungi to be sliced are placed on the lower body seat, the contact and cooperation between the upper and lower cutting blades during the downward movement of the upper cutting blades achieves slicing of the fungi. The sliced fungi fall directly onto the conveyor belt of the fungi conveying device.
[0008] According to the manual slicing device for fungi described in this application, both the lower body seat and the upper body frame are made of stainless steel.
[0009] According to the manual slicing device for fungi described in this application, the upper frame and the column frame are connected by a spring. When the upper frame is pressed down to slice, the spring can provide a return force to the upper frame.
[0010] This utility model has the following advantages:
[0011] High-efficiency integrated slicing and conveying: This device combines a manual slicing mechanism with a fungal conveying system. Sliced fungi can fall directly onto the conveyor belt of the fungal conveying system, achieving a seamless connection between slicing and conveying. Compared to the traditional method of manually slicing and then transferring, this greatly improves work efficiency, reduces manual handling, and lowers labor intensity. It also facilitates convenient transport after slicing.
[0012] Precise positioning and symmetrical design: By setting multiple stainless steel welded slicing fixing seats on the frame at both ends of the fungus conveying device, the manual slicing mechanism can be precisely positioned, ensuring the stability and accuracy of the slicing operation; each slicing fixing seat contains two sets of symmetrically arranged manual slicing mechanisms, which can simultaneously slice multiple fungi, further improving slicing efficiency, and the symmetrical structural design ensures that the device is subjected to balanced forces, extending the service life of the equipment.
[0013] Flexible and convenient slicing operation: The manual slicing mechanism adopts a design in which the lower body base and the upper body frame are movably connected by a rotating shaft. The upper body frame can be easily pressed down and raised through the slicing operation lever. With the contact and cooperation of the upper and lower cutting blades, the slicing of fungi can be realized. The operation is simple and easy to understand, and no complicated training is required to get started. At the same time, the spring connecting the upper body frame and the column frame can provide a return pull after the upper body frame is pressed down to slice, making the slicing operation easier and less strenuous, and effectively reducing the fatigue of the operator.
[0014] High-quality materials and structural stability: Both the lower body and the upper frame are welded from stainless steel, which has good corrosion resistance and strength, and can adapt to the humid environment in the fungal processing process, ensuring the long-term stable operation of the equipment; the stainless steel welded frame structure of the slice fixing seat also enhances the stability of the entire device, reduces shaking and displacement during the slicing process, and ensures the consistency of slice quality. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall implementation of this application;
[0016] Figures 2-3 This is a schematic diagram of the manual slicing mechanism in this application;
[0017] Figure 4 This is a schematic diagram of the lower body seat in the manual slicing mechanism of this application. Detailed Implementation
[0018] The following will be combined with the appendix Figures 1-4 This utility model will be described in detail, and the technical solutions in the embodiments of this utility model will be clearly and completely described. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of this utility model.
[0019] This utility model provides a manual slicing device for fungi, such as... Figures 1-3 As shown, it can be implemented in the following manner: The device consists of a fungus conveying device 1 and a manual slicing mechanism 2 installed on the fungus conveying device 1. The fungus is sliced by the manual slicing mechanism 2, and the sliced fungus pieces fall directly onto the conveyor belt of the fungus conveying device 1. The sliced fungus pieces are then conveyed out by the fungus conveying device 1.
[0020] In the implementation of the manual slicing device for fungi described in this application, multiple slicing fixing seats 3 are fixed on the frame 1-1 along both ends of the fungi conveying device 1. The slicing fixing seats 3 are used to position the manual slicing mechanism 2, that is, the manual slicing mechanism 2 is placed in the slicing fixing seat 3. The slicing fixing seat 3 is a frame made of stainless steel welded together. Each slicing fixing seat 3 has two cavities 3-1 on the left and right for positioning the manual slicing mechanism 2, so that each slicing fixing seat 3 can contain two sets of symmetrically arranged manual slicing mechanisms 2, and a column frame 3-2 is welded to the middle of the slicing fixing seat 3.
[0021] In the implementation of the manual slicing device for fungi described in this application, the manual slicing mechanism 2 comprises a lower body 2-1 and an upper body frame 2-2 connected to the lower body 2-1 by a rotating shaft. The end of the upper body frame 2-2 is a fixed slicing operating rod 2-3. The slicing operating rod 2-3 can press down and lift the upper body frame 2-2. Multiple evenly arranged upper cutting blades 2-4 are fixed in the upper body frame 2-2, and multiple evenly arranged lower cutting blades 2-5 are fixed in the lower body 2-1. The fungi to be sliced are placed on the lower body 2-1. As the upper cutting blades 2-4 press down, the contact and cooperation between the upper cutting blades 2-4 and the lower cutting blades 2-5 slices the fungi. The sliced fungi fall directly onto the conveyor belt of the fungi conveying device 1. Nuts can be installed on the lower body to adjust the tension of the slicing blades, thereby adjusting the slice thickness.
[0022] In the implementation of the manual slicing device for fungi described in this application, both the lower body seat 2-1 and the upper body frame 2-2 are made of stainless steel.
[0023] In the implementation of the manual slicing device for fungi described in this application, the upper frame 2-2 and the column frame 3-2 are connected by a spring 4. When the upper frame 2-2 presses down to slice, the spring 4 can provide a return force to the upper frame 2-2.
[0024] The following describes the implementation process of a manual slicing device for fungi according to this application;
[0025] I. Equipment Preparation
[0026] Preparation of the fungal transport device: Select a fungal transport device 1 that meets the design specifications, check the operation of its conveyor belt to ensure that the surface of the conveyor belt is flat and undamaged, and that the power system can operate normally. At the same time, check the frame 1-1 along both ends of the conveyor device 1 to ensure that the frame structure is stable and free from deformation or loosening.
[0027] Slice holder installation: Multiple slice holders 3, welded from stainless steel, are fixed to the frame 1-1 along both ends of the fungal transport device 1 according to design requirements. Each slice holder 3 includes two cavities 3-1 on the left and right for positioning the manual slicing mechanism 2, and a column frame 3-2 is welded in the middle. During fixing, it is necessary to ensure that the slice holder 3 is installed firmly and accurately, and that its cavity 3-1 can be well adapted to the subsequently installed manual slicing mechanism 2.
[0028] Manual slicing mechanism assembly: The manual slicing mechanism 2 consists of a lower body base 2-1, an upper body frame 2-2, a slicing operation rod 2-3, upper cutting blades 2-4, and lower cutting blades 2-5. Both the lower body base 2-1 and the upper body frame 2-2 are welded from stainless steel. The upper body frame 2-2 and the lower body base 2-1 are movably connected via a pivot, ensuring that the upper body frame 2-2 can rotate freely. After the slicing operation rod 2-3 is fixed to the end of the upper body frame 2-2, multiple upper cutting blades 2-4 are evenly arranged and fixed in the upper body frame 2-2, and multiple lower cutting blades 2-5 are evenly arranged and fixed in the lower body base 2-1, ensuring that the blades are firmly installed and the cutting edges are sharp and without nicks.
[0029] Spring installation: Install spring 4 between upper frame 2-2 and column frame 3-2, ensuring that both ends of spring 4 are reliably connected to upper frame 2-2 and column frame 3-2 respectively, and that the elastic coefficient of spring 4 meets the design requirements, providing sufficient tension for the return of upper frame 2-2 after pressing down the slice.
[0030] II. Equipment Commissioning
[0031] Conveyor belt debugging: Start the transmission power system of the fungus conveyor device 1, observe whether the running speed of the conveyor belt is stable and whether the running direction is correct, check whether the conveyor belt runs off track or slips during operation, and adjust it in time if there are any problems.
[0032] Manual slicing mechanism debugging: Place the assembled manual slicing mechanism 2 into the cavity 3-1 of the slicing fixing seat 3, ensuring that the manual slicing mechanism 2 is accurately positioned and securely installed. By operating the slicing operation lever 2-3, repeatedly press down and raise the upper frame 2-2 to check whether the rotation between the upper frame 2-2 and the lower seat 2-1 is flexible and smooth, whether the position of the upper cutting blade 2-4 and the lower cutting blade 2-5 is accurate when in contact, and whether the slicing action can be completed smoothly. At the same time, observe the working status of the spring 4 during the operation of the manual slicing mechanism 2 to ensure that the spring 4 can provide normal return force.
[0033] Overall linkage debugging: After completing the individual debugging of the conveyor belt and manual slicing mechanism, perform overall linkage debugging of the equipment. Place a small amount of fungi to be sliced on the lower seat 2-1 of the manual slicing mechanism 2, and perform slicing operation by operating the slicing operation lever 2-3. Observe whether the sliced fungi flakes can fall smoothly onto the conveyor belt of the fungi conveying device 1, and whether the conveyor belt can stably transport the sliced fungi flakes out. Check whether there are any interference or jamming problems between the various components during the entire slicing and conveying process. If any problems are found, troubleshoot and resolve them in a timely manner.
[0034] III. Slicing Operation
[0035] Feeding: Place the fungi to be cut neatly and evenly on the lower seat 2-1 of the manual slicing mechanism 2. The number of fungi placed each time should be reasonably determined according to the actual slicing needs and the equipment's load-bearing capacity to avoid poor slicing results or equipment damage due to excessive feeding.
[0036] Slicing: The operator holds the slicing lever 2-3 and applies even pressure downwards to the upper frame 2-2, causing the upper cutting blade 2-4 to move downwards and engage with the lower cutting blade 2-5, completing the slicing operation for fungi. During the slicing process, the operator should maintain a stable operating force and speed to ensure uniform slice thickness. After slicing, release the slicing lever 2-3; under the pull of spring 4, the upper frame 2-2 will automatically return to its original position, ready for the next slicing operation.
[0037] Conveying: The sliced, flaky fungi fall directly onto the conveyor belt of the fungi conveying device 1. As the conveyor belt moves, it transports the sliced, flaky fungi to a designated location for collection or further processing. During the conveying process, operators need to periodically check whether the flaky fungi on the conveyor belt are being transported smoothly and whether there is any accumulation or blockage. If any problems are found, they should be dealt with promptly.
[0038] IV. Equipment Cleaning and Maintenance
[0039] Cleaning: After completing the slicing work, promptly turn off the power to the fungal conveyor device 1 and stop the equipment operation. Clean the surface of the equipment and the conveyor belt of any remaining fungal debris. Use cleaning tools to carefully clean the lower body seat 2-1, upper body frame 2-2, upper cutting blade 2-4, and lower cutting blade 2-5, removing fungal residue and stains adhering to the blades and component surfaces to ensure the equipment is clean.
[0040] Maintenance: Regularly inspect the connections of all components of the manual slicing mechanism 2, checking for looseness, wear, or other issues such as loosening of the shaft and blade fixing points. Tighten or replace any faulty components promptly. Simultaneously, check the elasticity of the spring 4; replace it with a new spring if its elasticity is weakened or damaged. Furthermore, regularly maintain the conveyor belt and power system of the mushroom conveying device 1, adding lubricating oil and checking the wear of transmission components to ensure the equipment is always in good operating condition.
[0041] The above description of the disclosed embodiments enables those skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the present invention. Therefore, the present invention is not to be limited to the embodiments shown herein, but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims
1. A manual slicing device for fungi, characterized in that; The device consists of a fungus conveying device (1) and a manual slicing mechanism (2) installed on the fungus conveying device (1). The fungus is sliced by the manual slicing mechanism (2), and the sliced fungus pieces fall directly onto the conveyor belt of the fungus conveying device (1). The sliced fungus pieces are then conveyed out by the fungus conveying device (1). Multiple slice fixing seats (3) are fixed on the frame (1-1) along the edges at both ends of the fungal transport device (1). The slice fixing seats (3) are used to position the manual slicing mechanism (2), that is, the manual slicing mechanism (2) is placed in the slice fixing seats (3). The manual slicing mechanism (2) consists of a lower body seat (2-1) and an upper body frame (2-2) that is movably connected to the lower body seat (2-1) by a rotating shaft. The end of the upper body frame (2-2) is a fixed slicing operation rod (2-3). The upper body frame (2-2) can be pressed down and raised by the slicing operation rod (2-3). Multiple uniformly arranged upper cutting blades (2-4) are fixed in the upper body frame (2-2), and multiple uniformly arranged lower cutting blades (2-5) are fixed in the lower body seat (2-1). The fungus to be sliced is placed on the lower body seat (2-1). As the upper cutting blades (2-4) move downward, the contact between the upper cutting blades (2-4) and the lower cutting blades (2-5) achieves the slicing of the fungus. The sliced fungus falls directly onto the conveyor belt of the fungus conveying device (1).
2. The manual slicing device for fungi according to claim 1, characterized in that; The slice fixing seat (3) is a frame made of stainless steel. Each slice fixing seat (3) has two cavities (3-1) on the left and right for positioning the manual slicing mechanism (2), so that each slice fixing seat (3) can contain two sets of symmetrically arranged manual slicing mechanisms (2), and a column frame (3-2) is welded in the middle of the slice fixing seat (3).
3. The manual slicing device for fungi according to claim 1, characterized in that; Both the lower body base (2-1) and the upper body frame (2-2) are made of stainless steel.
4. The manual slicing device for fungi according to claim 1, characterized in that; The upper frame (2-2) and the column frame (3-2) are connected by a spring (4). After the upper frame (2-2) is pressed down to cut the slice, the spring (4) can provide a return force to the upper frame (2-2).