A rotary conveying mechanism for persimmon processing
By designing a rotating material conveying mechanism, and utilizing a combination of sliding blocks, buffer springs, and arc-shaped support claws, the problem of persimmons shaking and falling off during transportation was solved, achieving efficient, low-cost transportation of persimmons and ensuring high quality.
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
- 2026-06-30
AI Technical Summary
The material conveying mechanism of existing persimmon processing equipment lacks a buffer protection structure, which makes the persimmons easy to shake or fall off during transportation, increasing the difficulty of operation and the damage rate, and affecting the quality of the persimmons.
A rotary material conveying mechanism is designed, which uses the sliding cooperation of sliding blocks and mounting strips and the tensioning effect of buffer springs, combined with arc-shaped and arc-shaped transition surface support claws to form a placement groove to provide buffer protection. The clearance groove is used to avoid persimmons hanging on branches. The turntable is driven by a servo motor to rotate and transport persimmons.
It effectively reduces the damage rate of persimmons during transportation, ensures the quality of persimmons, improves processing efficiency, and has a simple structure and low cost.
Smart Images

Figure CN224429298U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of persimmon processing equipment, and in particular to a rotary material conveying mechanism for persimmon processing. Background Technology
[0002] In the fruit processing industry, persimmon peeling is a crucial step. Traditional manual peeling methods are not only inefficient, requiring significant manpower and time, but also pose hygiene risks. Furthermore, individual differences in peeling techniques can lead to uneven peeling results, affecting the quality of the dried persimmons. Currently, while some persimmon peeling machines exist on the market, many have shortcomings in their persimmon conveying mechanism design. For example, some machines have complex conveying mechanisms that are difficult to maintain, resulting in high operating costs and inconvenience. Other machines have limited positioning accuracy, failing to precisely transport the persimmons to the designated peeling position, thus impacting the peeling effect and the yield of finished 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 up and down and rotate during the feeding process. During this movement, the cutting and peeling mechanism completes the peeling. While the rotary conveying mechanism accurately positions and transports the persimmons to the corresponding station of the lifting and feeding mechanism, its support bowl design lacks a cushioning protection structure, which may cause the persimmons to shake or fall during transport, resulting in collisions and damage. This increases the difficulty of operation and the damage rate of the persimmons, further affecting their quality. Utility Model Content
[0004] The purpose of this invention is to solve the technical problem that the bowl support design in the material conveying mechanism of existing persimmon processing equipment lacks a buffer protection structure, which leads to persimmons easily shaking or falling off during transportation, increasing the difficulty of operation and the damage rate of persimmons. The invention provides a rotary material conveying mechanism for persimmon processing. Under the sliding cooperation of the sliding block and the mounting strip and the tensioning action of the buffer spring, it can play a good buffering role for the persimmons. At the same time, the supporting claw has an arc-shaped surface and its upper end surface has an arc-shaped transition surface, which can greatly reduce the breakage rate of persimmons during transportation, thereby ensuring the quality of persimmons.
[0005] The technical solution adopted by this utility model to achieve the above-mentioned objective is as follows: a rotary material conveying mechanism for persimmon processing, including a turntable and a turntable driving device that drives and connects the turntable. Multiple support components are arranged at intervals along the circumferential direction on the upper end of the turntable. Each support component includes an mounting strip, a connecting block, and a support claw. The mounting strip is mounted on the turntable, and the connecting block is mounted in the middle of the mounting strip. A first connecting post is provided on the connecting block. Support claws are respectively mounted on both ends of the mounting strip. A second connecting post is provided at the end of the support claw near the connecting block. A buffer spring is connected between the first connecting post and the second connecting post. The two support claws together form a placement groove for placing persimmons. A clearance groove is correspondingly provided at the lower end of the placement groove. The clearance groove is provided on the turntable.
[0006] Furthermore, each of the two supporting claws has a concave arc-shaped surface on its opposite side, and an arc-shaped transition surface is provided between the concave arc-shaped surface and the upper end surface of the supporting claw.
[0007] Furthermore, the two ends of the mounting strip are respectively mounted with supporting claws via sliding blocks, and sliding strips are provided on both sides of the sliding blocks. The mounting strip is provided with sliding grooves that match the sliding strips.
[0008] Furthermore, the clearance groove includes a strip groove, a circular groove, and an open groove connected in sequence.
[0009] Furthermore, the mounting strip is mounted on the turntable by bolts.
[0010] Furthermore, the turntable drive device includes a servo motor and a hollow shaft rotary platform. The power output end of the servo motor is connected to the motor connection port of the hollow shaft rotary platform. The hollow shaft rotary platform is mounted on a mounting plate, and the turntable is mounted on the rotary platform of the hollow shaft rotary platform.
[0011] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0012] (1) This utility model provides a rotary conveying mechanism for persimmon processing. The rotary conveying mechanism can conveniently and quickly transport persimmons to the designated location. The turntable is equipped with multiple support components for placing persimmons, which can improve processing efficiency. During the persimmon transfer process, if vibration occurs, the sliding cooperation between the sliding block and the mounting strip, as well as the tensioning action of the buffer spring, can keep the persimmons in a fixed position during rotation, thereby reducing the breakage rate of persimmons during transfer and ensuring the quality of persimmons.
[0013] (2) The present invention provides a rotary material conveying mechanism for persimmon processing, wherein the supporting claw has an arc-shaped surface and its upper end has an arc-shaped transition surface, which further ensures that the persimmons are not damaged during the transfer process.
[0014] (3) The present invention provides a rotary material conveying mechanism for persimmon processing. The clearance groove can provide clearance for persimmon processing. The circular groove is used to avoid persimmons hanging on branches and to drive persimmons to rotate. It has the characteristics of simple structure, easy manufacturing and low cost. Attached Figure Description
[0015] Figure 1 This is a structural diagram of a rotary material conveying mechanism for persimmon processing according to the present invention.
[0016] Figure 2 This is a structural diagram of a rotating material conveying mechanism support component for persimmon processing according to the present invention.
[0017] Figure 3 This is a structural diagram of a rotary material conveying mechanism with a clearance groove for persimmon processing according to this utility model.
[0018] In the diagram: 1. Mounting plate, 2. Servo motor, 3. Hollow shaft rotating platform, 4. Turntable, 5. Mounting strip, 51. Sliding groove, 6. Connecting block, 7. First connecting post, 8. Sliding block, 81. Sliding strip, 9. Support claw, 91. Arc-shaped surface, 92. Arc-shaped transition surface, 10. Second connecting post, 11. Buffer spring, 12. Clearance groove, 121. Strip groove, 122. Circular groove, 123. Opening groove, 13. Persimmon, 14. Persimmon hanging branch. Detailed Implementation
[0019] 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.
[0020] like Figure 1 The rotary material handling mechanism for persimmon processing shown includes a turntable 4 and a turntable drive device that drives and connects to the turntable. The turntable drive device includes a servo motor 2 and a hollow shaft rotary platform 3. The power output end of the servo motor 2 is connected to the motor connection port of the hollow shaft rotary platform 3. The hollow shaft rotary platform 3 is mounted on a mounting plate 1, and the turntable 4 is mounted on the rotary platform of the hollow shaft rotary platform 3.
[0021] Multiple support components are spaced apart along the circumference at the upper end of turntable 4, such as... Figure 2As shown, multiple support components each include a mounting strip 5, a connecting block 6, and a support claw 9. The mounting strip 5 is bolted to the turntable 4. The connecting block 6 is mounted in the middle of the mounting strip 5, and a first connecting post 7 is provided on the connecting block 6. Support claws 9 are mounted on both ends of the mounting strip 5 via sliding blocks 8. Sliding strips 81 are provided on both sides of the sliding blocks 8. The mounting strip 5 is provided with sliding grooves 51 that match the sliding strips 81. A second connecting post 10 is provided at the end of the support claw 9 near the connecting block 6. A buffer spring 11 connects the first connecting post 7 and the second connecting post 10. Each of the two support claws 9 has a concave arc-shaped surface 91 on its opposite side. An arc-shaped transition surface 92 is provided between the concave arc-shaped surface 91 and the upper end surface of the support claw 9. The two support claws 9 together form a placement groove for placing persimmons. A clearance groove 12 is provided at the lower end of the placement groove. The clearance groove 12 is provided on the turntable 4. Figure 3 As shown, the clearance groove 12 includes a strip groove 121, a circular groove 122 and an open groove 123 connected in sequence. The clearance groove 12 can provide clearance for persimmon processing, wherein the circular groove 122 is used to avoid the persimmon hanging branch 14 and the equipment that can drive the persimmon 13 to rotate.
[0022] This utility model discloses a rotary conveying mechanism for persimmon processing. In use, the persimmon 13 is placed with its stem facing down on a placement groove formed by two supporting claws 9. The equipment is started, and the motor drives the turntable 4 to rotate. The turntable 4 rotates the persimmon 13 to the corresponding processing position. During transport, if vibration occurs, the sliding cooperation between the sliding block and the mounting strip, along with the tensioning effect of the buffer spring, ensures the persimmon remains in a fixed position during rotation, thereby reducing the breakage rate and guaranteeing the quality of the persimmon. The supporting claws have an arc-shaped surface and an arc-shaped transition surface on their upper end, further ensuring that the persimmon is not damaged during transport, thus greatly reducing the breakage rate and guaranteeing the quality of the persimmon, meeting the needs of persimmon processing.
[0023] This utility model discloses a rotary material conveying mechanism for persimmon processing, which can conveniently and quickly transport persimmons to the designated location. The turntable is equipped with multiple support components for placing persimmons, which can improve processing efficiency. It features simple structure, easy manufacturing, and low cost.
[0024] 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 rotary conveying mechanism for persimmon processing, characterized in that: The device includes a turntable and a drive mechanism for connecting the turntable. Multiple support components are spaced at intervals along the circumference of the upper end of the turntable. Each support component includes a mounting strip, a connecting block, and support claws. The mounting strip is mounted on the turntable, and a connecting block is mounted in the middle of the mounting strip. A first connecting post is provided on the connecting block. Support claws are mounted at both ends of the mounting strip, and a second connecting post is provided at the end of the support claw near the connecting block. A buffer spring connects the first and second connecting posts. The two support claws together form a placement groove for placing persimmons. A clearance groove is correspondingly provided at the lower end of the placement groove, and the clearance groove is provided on the turntable.
2. The rotary conveying mechanism for persimmon processing according to claim 1, characterized in that: Each of the two supporting claws has a concave arc-shaped surface on its opposite side, and an arc-shaped transition surface is provided between the concave arc-shaped surface and the upper end surface of the supporting claw.
3. The rotary conveying mechanism for persimmon processing according to claim 1, characterized in that: The mounting strip has support claws mounted on both ends via sliding blocks. Sliding strips are provided on both sides of the sliding blocks, and sliding grooves that match the sliding strips are provided on the mounting strip.
4. The rotary conveying mechanism for persimmon processing according to claim 1, characterized in that: The clearance groove includes a strip groove, a circular groove, and an open groove connected in sequence.
5. The rotary conveying mechanism for persimmon processing according to claim 1, characterized in that: The mounting strip is installed on the turntable by bolts.
6. A rotary conveying mechanism for persimmon processing according to any one of claims 1 to 5, characterized in that: The turntable drive device includes a servo motor and a hollow shaft rotary platform. The power output end of the servo motor is connected to the motor connection port of the hollow shaft rotary platform. The hollow shaft rotary platform is mounted on a mounting plate, and the turntable is mounted on the rotary platform of the hollow shaft rotary platform.