Efficient capsule automatic cutting device

By designing an automatic cutting device, the automatic positioning and rotation cutting of capsules and waste collection are realized, solving the problems of unstable quality and low efficiency of manual cutting, and improving cutting efficiency and quality.

CN224476235UActive Publication Date: 2026-07-10ZHEJIANG HUILI CAPSULES

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG HUILI CAPSULES
Filing Date
2025-06-06
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

In existing technologies, capsule cutting relies on manual operation, which leads to unstable cutting quality, low efficiency, and difficulty in collecting waste residue.

Method used

A highly efficient automatic capsule cutting device was designed, comprising a frame, a limiting top plate, a limiting groove, a rotating positioning groove, an electric telescopic bracket, positioning and cutting shears, a lifting base plate, a rotating limiting top rod, a rotating gear, a motor, a vacuum cleaner, and other components, to achieve automatic positioning, rotating cutting of capsules and collection of waste residue.

Benefits of technology

It improves the efficiency, quality, and stability of capsule cutting, and facilitates the centralized collection of waste residue, thus enhancing operational convenience.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a highly efficient automatic capsule cutting device, including a frame, a capsule limiting top plate, a capsule limiting groove, a rotary positioning groove, a horizontal electric telescopic support, a side positioning cutter, a capsule lifting base plate, a rotary limiting top rod, a driven rotary gear, a driven rotary gear, a rotary motor, an electric lifting platform, a side dust suction hood, and a vacuum cleaner. It can perform circumferential contact cutting of rotating capsules from the side, with high capsule positioning cutting efficiency and stable cutting quality. The capsule waste generated during cutting is centrally adsorbed and collected, and the operation is convenient, which helps to improve capsule cutting efficiency and cutting quality.
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Description

Technical Field

[0001] This utility model relates to the technical field of capsule production equipment, and in particular to the technical field of efficient automatic capsule cutting devices. Background Technology

[0002] Hollow capsules are composed of capsule shells. After the hollow capsules are manufactured, their specifications need to be inspected, and those that do not meet the length requirements are screened out. The excess parts of the hollow shells of the screened capsules are then manually trimmed off. However, this manual trimming method has several drawbacks. First, it requires extensive cutting experience, and because the cutting experience of different operators varies, the cutting quality also varies, resulting in most of the cuts being substandard. Second, the cutting efficiency is slow, and the labor intensity of the operators is high. Third, it is not easy to collect the excess parts after they are trimmed off. Summary of the Invention

[0003] The purpose of this invention is to solve the problems in the existing technology and propose an efficient automatic capsule cutting device that can perform circumferential contact cutting of rotating capsules from the side. It has high capsule positioning and cutting efficiency, stable cutting quality, and can centrally adsorb and collect the capsule waste generated during cutting. It is easy to operate and helps to improve capsule cutting efficiency and cutting quality.

[0004] To achieve the above objectives, this utility model proposes a highly efficient automatic capsule cutting device, comprising a frame, a capsule limiting top plate, a capsule limiting groove, a rotary positioning groove, a horizontal electric telescopic support, a side positioning cutter, a capsule lifting base plate, a rotary limiting top rod, a driven rotary gear, a driven rotary gear, a rotary motor, an electric lifting platform, a side dust collection hood, and a vacuum cleaner. The top of the frame is provided with a capsule limiting top plate, and the bottom of the capsule limiting top plate is provided with several capsule limiting grooves with bottom openings. The top of each capsule limiting groove is connected to the rotary positioning groove. A horizontal electric telescopic support is arranged parallel to the lower side of the capsule limiting top plate, and a side positioning cutter is positioned at the front end of the horizontal electric telescopic support corresponding to the opening of the capsule limiting groove. A capsule lifting base plate is arranged parallel to the capsule limiting top plate directly below it. Several rotating limiting top rods are vertically arranged on the top of the capsule lifting base plate corresponding to the rotating positioning groove. The bottom ends of the rotating limiting top rods are installed on the top of the capsule lifting base plate through driven rotating gears. The teeth of adjacent driven rotating gears are in contact and meshing. An active rotating gear is arranged on the top side of the capsule lifting base plate. The active rotating gear is mounted on a rotary motor. The teeth of the active rotating gear and the adjacent driven rotating gear are in contact and meshing. An electric lifting platform is arranged at the bottom of the capsule lifting base plate. The electric lifting platform is fixedly arranged at the lower part of the frame. A side dust suction hood is arranged on the left side of the frame. A vacuum cleaner is connected inside the side dust suction hood.

[0005] Preferably, the bottom opening of the capsule limiting groove is provided with a flared groove, and the capsule limiting groove and the rotation positioning groove are separate structures.

[0006] Preferably, the capsule limiting top plate is provided with a rotating inner cavity corresponding to the rotating positioning groove, and the top center of the rotating positioning groove is installed inside the rotating inner cavity through a rotating bearing.

[0007] Preferably, the connection between the horizontal electric telescopic bracket and the side positioning cutter is detachable.

[0008] Preferably, a side fan is provided on the right side of the frame, and the airflow of the side fan is directed towards the opening of the side dust hood.

[0009] Preferably, an elastic anti-slip sleeve is fixedly provided at the top end of the rotating limiting rod.

[0010] The beneficial effects of this utility model are as follows: This utility model combines a frame, a capsule limiting top plate, a capsule limiting groove, a rotary positioning groove, a horizontal electric telescopic bracket, a side positioning cutter, a capsule lifting base plate, a rotary limiting top rod, a driven rotary gear, a driven rotary gear, a rotary motor, an electric lifting platform, a side dust collection hood, and a vacuum cleaner. Through experimental optimization, it can position the capsule around its axis by the actively rotating rotary limiting top rod in conjunction with the driven rotating rotary positioning groove. Then, the side positioning cutter, in conjunction with the horizontal electric telescopic bracket, performs circumferential contact cutting on the rotating capsule from the side. The capsule positioning and cutting efficiency is high, and the cutting quality is stable. At the same time, the lower side fan, in conjunction with the side dust collection hood, can centrally absorb and collect the capsule waste generated during cutting. The operation is convenient and helps to improve the capsule cutting efficiency and cutting quality.

[0011] The features and advantages of this utility model will be described in detail through embodiments and accompanying drawings. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the structure of the efficient capsule automatic cutting device of this utility model.

[0013] In the diagram: 1-Frame, 2-Capsule limiting top plate, 3-Capsule limiting groove, 4-Rotary positioning groove, 5-Horizontal electric telescopic bracket, 6-Side positioning cutter, 7-Capsule lifting base plate, 8-Rotary limiting top rod, 9-Driven rotating gear, 10-Driven rotating gear, 11-Rotary motor, 12-Electric lifting platform, 13-Side dust suction hood, 14-Vacuum cleaner. Detailed Implementation

[0014] See Figure 1This utility model discloses a high-efficiency automatic capsule cutting device, comprising a frame 1, a capsule limiting top plate 2, a capsule limiting groove 3, a rotary positioning groove 4, a horizontal electric telescopic bracket 5, a side positioning cutter 6, a capsule lifting base plate 7, a rotary limiting top rod 8, a driven rotary gear 9, a driving rotary gear 10, a rotary motor 11, an electric lifting platform 12, a side dust suction cover 13, and a vacuum cleaner 14. The top of the frame 1 is provided with the capsule limiting top plate 2, and the bottom of the capsule limiting top plate 2 is provided with several capsule limiting grooves 3 with bottom openings. A rotating positioning groove 4 is provided in the connected part. A horizontal electric telescopic bracket 5 is arranged parallel to the lower side of the capsule limiting top plate 2. A side positioning cutter 6 is provided at the front end of the horizontal electric telescopic bracket 5 corresponding to the opening of the capsule limiting groove 3. A capsule lifting base plate 7 is arranged parallel to the lower part of the capsule limiting top plate 2. Several rotating limiting top rods 8 are vertically arranged at the top of the capsule lifting base plate 7 corresponding to the position of the rotating positioning groove 4. The bottom end of the rotating limiting top rod 8 is installed on the top of the capsule lifting base plate 7 through a driven rotating gear 9. Adjacent driven rotating gears 9 are connected to the top of the capsule lifting base plate 7. The teeth of the rotating gear 9 engage in contact. A driving rotating gear 10 is provided on the top side of the capsule lifting base plate 7. The driving rotating gear 10 is mounted on a rotating motor 11. The teeth of the driving rotating gear 10 and the adjacent driven rotating gear 9 engage in contact. An electric lifting platform 12 is provided at the bottom of the capsule lifting base plate 7. The electric lifting platform 12 is fixedly installed at the lower part of the frame 1. A side dust suction hood 13 is provided on the left side of the frame 1. A vacuum cleaner 14 is connected inside the side dust suction hood 13. The bottom opening of the capsule limiting groove 3... The position is provided with a flared groove. The capsule limiting groove 3 and the rotating positioning groove 4 are separate structures. The capsule limiting top plate 2 is provided with a rotating inner cavity corresponding to the rotating positioning groove 4. The top center of the rotating positioning groove 4 is installed inside the rotating inner cavity through a rotating bearing. The connection between the horizontal electric telescopic bracket 5 and the side positioning cutter 6 is detachable. A side fan is provided on the right side of the frame 1. The airflow of the side fan is directly facing the opening of the side dust suction hood 13. An elastic anti-slip sleeve is fixedly provided at the top of the rotating limiting top rod 8.

[0015] This utility model combines a frame 1, a capsule limiting top plate 2, a capsule limiting groove 3, a rotating positioning groove 4, a horizontal electric telescopic bracket 5, a side positioning cutter 6, a capsule lifting base plate 7, a rotating limiting top rod 8, a driven rotating gear 9, a driven rotating gear 10, a rotary motor 11, an electric lifting platform 12, a side dust suction hood 13, and a vacuum cleaner 14. After experimental optimization, it can position the capsule around its axis by the actively rotating rotating limiting top rod 8 in conjunction with the driven rotating rotating positioning groove 4. Then, the side positioning cutter 6, in conjunction with the horizontal electric telescopic bracket 5, performs circumferential contact cutting on the rotating capsule from the side. The capsule positioning and cutting efficiency is high, and the cutting quality is stable. At the same time, the lower side fan, in conjunction with the side dust suction hood 13, can centrally absorb and collect the capsule waste generated during cutting. The operation is convenient and helps to improve the capsule cutting efficiency and cutting quality.

[0016] The above embodiments are illustrative of the present invention and are not intended to limit the present invention. Any simple modifications to the present invention are within the protection scope of the present invention.

Claims

1. A highly efficient automatic capsule cutting device, characterized in that: The system includes a frame (1), a capsule limiting top plate (2), a capsule limiting groove (3), a rotary positioning groove (4), a horizontal electric telescopic bracket (5), a side positioning cutter (6), a capsule lifting base plate (7), a rotary limiting top rod (8), a driven rotary gear (9), a driven rotary gear (10), a rotary motor (11), an electric lifting platform (12), a side dust suction hood (13), and a vacuum cleaner (14). The top of the frame (1) is provided with a capsule limiting top plate (2), and the bottom of the capsule limiting top plate (2) is provided with several capsule limiting grooves (3) with bottom openings. The top of the capsule limiting grooves (3) is connected to the rotary positioning groove (4). The lower side of the capsule limiting top plate (2) is provided with a horizontal electric telescopic bracket (5) parallel to the side. The front end of the horizontal electric telescopic bracket (5) is provided with a side positioning cutter (6) corresponding to the opening position of the capsule limiting groove (3). The capsule limiting top plate (2) is provided with a horizontal electric telescopic bracket (5). A capsule lifting base plate (7) is arranged parallel to the bottom. Several rotating limit rods (8) are vertically arranged on the top of the capsule lifting base plate (7) corresponding to the position of the rotating positioning groove (4). The bottom end of the rotating limit rod (8) is installed on the top of the capsule lifting base plate (7) through the driven rotating gear (9). The teeth of the adjacent driven rotating gears (9) are in contact and mesh. An active rotating gear (10) is arranged on the top side of the capsule lifting base plate (7). The active rotating gear (10) is installed on the rotating motor (11). The teeth of the active rotating gear (10) and the adjacent driven rotating gear (9) are in contact and mesh. An electric lifting platform (12) is arranged at the bottom of the capsule lifting base plate (7). The electric lifting platform (12) is fixedly arranged at the lower part of the frame (1). A side dust suction hood (13) is arranged on the left side of the frame (1). A vacuum cleaner (14) is connected inside the side dust suction hood (13).

2. The efficient capsule automatic cutting device as described in claim 1, characterized in that: The bottom opening of the capsule limiting groove (3) is provided with an flared groove, and the capsule limiting groove (3) and the rotation positioning groove (4) are separate structures.

3. The efficient automatic capsule cutting device as described in claim 1, characterized in that: The capsule limiting top plate (2) is provided with a rotating inner cavity corresponding to the rotating positioning groove (4), and the top center of the rotating positioning groove (4) is installed inside the rotating inner cavity through a rotating bearing.

4. The efficient capsule automatic cutting device as described in claim 1, characterized in that: The connection between the horizontal electric telescopic bracket (5) and the side positioning cutter (6) is detachable.

5. The efficient automatic capsule cutting device as described in claim 1, characterized in that: A side fan is provided on the right side of the frame (1), and the airflow of the side fan is directed towards the opening of the side dust hood (13).

6. The efficient capsule automatic cutting device as described in claim 1, characterized in that: The top end of the rotating limiting rod (8) is fixedly provided with an elastic anti-slip sleeve.