A peeling mechanism for persimmon peeling machine
By tilting the peeling motor and the blade tensioning cylinder, the problem of complex structure and incomplete peeling in existing persimmon peeling machines is solved, achieving efficient and convenient persimmon peeling, and improving processing quality and efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 陈嵬刚
- Filing Date
- 2025-07-11
- Publication Date
- 2026-06-05
AI Technical Summary
The existing persimmon peeling machine has a complex cutting and peeling mechanism, and the multi-part collaborative operation makes it difficult to ensure peeling accuracy. The skin near the persimmon stem is difficult to remove completely, which affects the quality and efficiency of persimmon processing.
The peeling motor output shaft is tilted to drive the tilted peeling blade. Combined with the blade tensioning cylinder, the blade is kept in contact with the persimmon surface. The non-circular mounting hole prevents the blade from rotating, enabling multi-station collaborative operation.
It improves the comprehensiveness and thoroughness of peeling, reduces manual processing, enhances the quality and overall appearance of persimmon peeling, simplifies equipment maintenance, and increases processing efficiency.
Smart Images

Figure CN224320180U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of persimmon processing equipment, and in particular to a peeling mechanism for a persimmon peeling machine. Background Technology
[0002] In the persimmon processing industry, peeling is a crucial step that directly impacts the quality and efficiency of subsequent processing. However, existing peeling tools struggle to adapt to the irregular shape and hardness of the persimmon stem during peeling, resulting in incomplete peeling, especially near the stem. Traditional solutions often involve increasing manual intervention to improve peeling, but these methods not only increase labor intensity and costs but also fail to achieve ideal peeling results, thus affecting the overall appearance and processing quality of the persimmons.
[0003] Chinese patent application number 201710588584.2 discloses a multi-station persimmon peeling machine, including a frame, a rotary conveying mechanism, a lifting and feeding mechanism, and a cutting and peeling mechanism. All three mechanisms are fixedly mounted on the frame. The rotary conveying mechanism accurately positions and transports the persimmons to the corresponding station of the lifting and feeding mechanism. The lifting and feeding mechanism works in conjunction with the rotary conveying mechanism, driving the persimmons to move vertically and rotate during the feeding process. During this movement, the cutting and peeling mechanism completes the peeling. This device enables safe, hygienic, and efficient persimmon peeling and is worthy of widespread promotion and application.
[0004] However, the following technical problems still exist in its application:
[0005] 1. The peeling mechanism includes a geared motor, a motor output shaft, a swivel coupling, a rotating shaft, a connecting turntable, a tool holder, and a cutting blade. The motor output shaft is connected to the rotating shaft via the swivel coupling. The rotating shaft drives the connecting turntable to rotate, and the cutting tool follows the rotation of the connecting turntable. The guide head moves on the cam groove trajectory of the guide cam plate, and the cutting tool completes the peeling work. However, its structure is complex, requiring multiple parts to work together, resulting in high maintenance costs. It may also be insufficient in peeling accuracy and the removal effect near the persimmon stem, making it difficult to completely remove the skin around the persimmon stem, thus affecting the overall appearance and processing quality of the persimmon. It is also inconvenient for equipment maintenance and upkeep.
[0006] 2. Under the action of the guide head, the tool holder moves on the cam groove track of the guide cam disk, and the cutting tool completes a semi-circular rotation to complete the peeling work. During this process, it cannot be guaranteed that the tool holder will always be in contact with the surface of the persimmon during the peeling process, which will affect the peeling quality of the persimmon and cannot guarantee that the persimmon peel is cut cleanly.
[0007] 3. The cutting blade is detachable, which improves the flexibility and applicability of the equipment to some extent. However, the blade may rotate during the peeling process, which may affect the peeling quality. Utility Model Content
[0008] The purpose of this invention is to solve the technical problems of existing persimmon peeling mechanisms, such as complex structure, difficulty in ensuring peeling accuracy due to multi-part collaborative operation, high maintenance costs, and difficulty in completely removing the peel near the stem, which affects the processing quality and subsequent processing efficiency of persimmons. This invention provides a peeling mechanism for a persimmon peeling machine, in which the peeling motor output shaft drives the peeling blade to be tilted, which can better remove the persimmon peel around the stem, thus ensuring comprehensive and thorough peeling, greatly improving the peeling quality and overall aesthetics of the persimmons, and reducing the need for secondary manual processing.
[0009] The technical solution adopted by this utility model to achieve the above-mentioned objective is: a peeling mechanism for a persimmon peeling machine, including a mounting frame, with peeling devices installed at both ends of the mounting frame, the peeling device including a peeling motor, the peeling motor being installed at the outer end of the mounting frame, the output shaft of the peeling motor passing through the mounting frame at a downward angle and connected to a peeling assembly, the peeling assembly being provided with a peeling blade that is set at a downward angle, and the front end of the peeling blade being provided with a peeling blade.
[0010] Furthermore, the peeling assembly includes a knife connector, a knife holder, and a knife tensioning cylinder. The knife connector is connected to the output shaft of the peeling motor. The knife holder and the knife tensioning cylinder are installed on the front side of the knife connector. The rear end of the peeling knife is rotatably connected to the knife holder. The position of the peeling knife near the rear end is connected to the telescopic rod of the knife tensioning cylinder. A blade holder is provided at the front end of the peeling knife, and a peeling blade is installed on the blade holder.
[0011] Furthermore, the blade holder is provided with blade mounting holes at its upper and lower ends respectively. The blade mounting hole at one end of the blade holder is a circular mounting hole, and the blade mounting hole at the other end of the blade holder is a non-circular mounting hole. The peeling blade is mounted on the blade holder through the two blade mounting holes.
[0012] Furthermore, the angle between the output shaft of the peeling motor and the horizontal plane is 10±1°.
[0013] Furthermore, the peeling motor is mounted on the outer end of the mounting bracket via a motor mount, and the output shaft of the peeling motor is inclined downwards through the motor mount and the mounting bracket to connect to the peeling assembly.
[0014] Furthermore, mounting holes are provided at both ends of the lower part of the mounting bracket.
[0015] Furthermore, the peeling device is symmetrically installed at both ends of the mounting frame.
[0016] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0017] (1) The present invention provides a peeling mechanism for a persimmon peeling machine. The output shaft of the peeling motor is inclined at an angle of 10±1° with the horizontal plane, and drives the cutting blade to be inclined so that the cutting blade can cut to the bottom of the persimmon, especially the skin near the stem, thereby ensuring the comprehensiveness and thoroughness of peeling, reducing the need for secondary manual processing, and greatly improving the peeling quality and overall aesthetics of the persimmon. In addition, peeling mechanisms are set at both ends of the mounting frame, which can realize multi-station collaborative operation, thereby improving processing efficiency.
[0018] (2) The present invention provides a peeling mechanism for a persimmon peeling machine. The peeling motor drives the peeling blade to rotate through the blade connector. The peeling blade is tightened by the blade tensioning cylinder. During the peeling process, the peeling blade can always be in contact with the surface of the persimmon, thereby ensuring the quality of persimmon peeling. Its overall structure is simple, easy to manufacture, convenient to use, and easy to maintain.
[0019] (3) The present invention provides a peeling mechanism for a persimmon peeling machine. The design of the front end of the peeling blade has a circular mounting hole on one side and a non-circular mounting hole on the other side, which can effectively hold the cutting blade, prevent the blade from rotating during the peeling process, improve the peeling accuracy and stability, and ensure the consistency of peeling quality. Attached Figure Description
[0020] Figure 1 This is a structural diagram of a peeling mechanism for a persimmon peeling machine according to the present invention.
[0021] Figure 2 This is a structural diagram of a peeling mechanism for a persimmon peeling machine according to the present invention.
[0022] Figure 3 This is a structural diagram of the blade holder of a persimmon peeling machine according to the present invention.
[0023] In the diagram: 1. Mounting bracket, 2. Peeling motor, 3. Motor base, 4. Tool connector, 5. Tool holder, 6. Tool tensioning cylinder, 7. Peeling tool, 8. Blade holder, 81. Circular mounting hole, 82. Non-circular mounting hole, 9. Peeling blade, 10. Mounting hole. Detailed Implementation
[0024] The present invention will now be described in detail with reference to the accompanying drawings and embodiments, but the present invention is not limited to the specific embodiments.
[0025] like Figure 1The persimmon peeling machine shown includes a peeling mechanism, which includes a mounting frame 1. Peeling devices are symmetrically mounted at both ends of the mounting frame 1. Each peeling device includes a peeling motor 2, which is mounted on the outer end of the mounting frame 1 via a motor base 3. The output shaft of the peeling motor 2 is inclined downwards and passes through the motor base 3 and the mounting frame 1 to connect to a peeling assembly. The peeling assembly is provided with a peeling blade 7 that is inclined downwards, and a peeling blade 9 is provided at the front end of the peeling blade 7.
[0026] Preferably, the angle between the output shaft of the peeling motor 2 and the horizontal plane is 10±1°. This angle setting can precisely control the blade to peel the persimmon, ensuring thorough peeling.
[0027] Preferably, such as Figure 2 As shown, the peeling assembly includes a knife connector 4, a knife holder 5, and a knife tensioning cylinder 6. The knife connector 4 is connected to the output shaft of the peeling motor 2. The knife holder 5 and the knife tensioning cylinder 6 are installed on the front side of the knife connector 4. The rear end of the peeling knife 7 is rotatably connected to the knife holder 5. The position of the peeling knife 7 near the rear end is connected to the telescopic rod of the knife tensioning cylinder 6. The front end of the peeling knife 7 is provided with a blade holder 8, and the peeling blade 9 is installed on the blade holder 8.
[0028] Preferably, such as Figure 3 As shown, the blade holder 8 has blade mounting holes at its upper and lower ends. The blade mounting hole at one end of the blade holder is a circular mounting hole 81, and the blade mounting hole at the other end of the blade holder is a non-circular mounting hole 82. The peeling blade 9 is mounted on the blade holder 8 through the two blade mounting holes.
[0029] The design of the peeling tool, with a circular mounting hole on one side and a non-circular mounting hole on the other, effectively holds the cutting blade in place, preventing it from rotating during the peeling process. This improves the precision and stability of the peeling process and ensures consistent peeling quality.
[0030] Preferably, mounting holes 10 are provided at both ends of the lower part of the mounting bracket 1.
[0031] The working principle of the peeling mechanism of this utility model persimmon peeling machine is as follows: The peeling machine transports the persimmon with the stem facing down to the peeling station. The peeling motor 2 starts working and drives the blade connector 4 to rotate through the motor shaft. The blade connector 4 drives the peeling blade 7 to rotate up and down. The peeling blade 9 peels the rotating persimmon from top to bottom. Since the peeling motor 2 drives the peeling blade 7 to be tilted downward, it can better remove the persimmon peel around the stem at the bottom of the persimmon, thus ensuring the comprehensiveness and thoroughness of the peeling. During the peeling process, the blade tensioning cylinder 6 can keep the peeling blade in contact with the persimmon at all times, thus ensuring the peeling quality of the persimmon.
[0032] This utility model discloses a peeling mechanism for a persimmon peeling machine. The peeling motor drives the peeling blade to rotate through the blade connector, and the blade tensioning cylinder tightens the peeling blade. During the peeling process, the peeling blade is kept in contact with the surface of the persimmon, ensuring the quality of the peeling. Its overall structure is simple, easy to manufacture, convenient to use, and easy to maintain. The output shaft of the peeling motor is inclined at an angle of 10±1° with the horizontal plane, which drives the cutting blade to be inclined, so that the cutting blade can cut to the bottom of the persimmon, especially the skin near the stem, thus ensuring the comprehensiveness and thoroughness of the peeling, reducing the need for secondary manual processing, and greatly improving the peeling quality and overall appearance of the persimmon. In addition, peeling mechanisms are set at both ends of the mounting frame, which can realize multi-station collaborative operation, thereby improving processing efficiency.
[0033] The above description, in conjunction with preferred technical solutions, provides a further detailed explanation of this utility model. It should not be construed that the specific implementation of the utility model is limited to these descriptions. For those skilled in the art, simple deductions and substitutions can be made without departing from the concept of this utility model, and all such modifications and substitutions should be considered within the scope of protection of this utility model.
Claims
1. A peeling mechanism for a persimmon peeling machine, characterized in that: The device includes a mounting frame, with peeling devices mounted at both ends. Each peeling device includes a peeling motor mounted on the outer end of the mounting frame. The output shaft of the peeling motor is inclined downwards, passes through the mounting frame, and is connected to a peeling assembly. The peeling assembly is equipped with a peeling blade that is inclined downwards, and a peeling blade is provided at the front end of the peeling blade.
2. The peeling mechanism for a persimmon peeling machine according to claim 1, characterized in that: The peeling assembly includes a knife connector, a knife holder, and a knife tensioning cylinder. The knife connector is connected to the output shaft of the peeling motor. The knife holder and the knife tensioning cylinder are installed on the front side of the knife connector. The rear end of the peeling knife is rotatably connected to the knife holder. The position of the peeling knife near the rear end is connected to the telescopic rod of the knife tensioning cylinder. A blade holder is provided at the front end of the peeling knife, and peeling blades are installed on the blade holder.
3. The peeling mechanism for a persimmon peeling machine according to claim 2, characterized in that: The blade holder has blade mounting holes at its upper and lower ends. The blade mounting hole at one end of the blade holder is a circular mounting hole, while the blade mounting hole at the other end of the blade holder is a non-circular mounting hole. The peeling blade is mounted on the blade holder through the two blade mounting holes.
4. The peeling mechanism for a persimmon peeling machine according to claim 1, characterized in that: The angle between the output shaft of the peeling motor and the horizontal plane is 10±1°.
5. The peeling mechanism for a persimmon peeling machine according to claim 1, characterized in that: The peeling motor is mounted on the outer end of the mounting bracket via a motor base, and the output shaft of the peeling motor is inclined downwards through the motor base and the mounting bracket to connect to the peeling assembly.
6. The peeling mechanism for a persimmon peeling machine according to claim 1, characterized in that: Mounting holes are provided at both ends of the lower part of the mounting bracket.
7. A peeling mechanism for a persimmon peeling machine according to any one of claims 1 to 6, characterized in that: The peeling devices are symmetrically installed at both ends of the mounting frame.