High-efficient and convenient hollow capsule demoulding device

By combining capsule templates, mold rods, venting channels, and air pressure differences, the problems of damage and low efficiency in existing hollow capsule demolding devices are solved, achieving efficient and convenient capsule demolding.

CN224476434UActive 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

Existing empty capsule demolding devices are prone to damaging capsules and have low demolding efficiency, affecting subsequent processing and ease of operation.

Method used

It adopts a combination structure of capsule template, capsule mold rod, exhaust channel, compressed air source, electric lifting plate and capsule demolding ring groove, and uses air pressure difference to make the capsule demold quickly, and combined with electric lifting device to achieve convenient operation.

Benefits of technology

It enables efficient and convenient demolding of hollow capsules, reduces capsule damage, and improves demolding efficiency.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224476434U_ABST
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Abstract

The utility model discloses a high -efficient convenient hollow capsule stripping device, including capsule template, capsule mould pole, exhaust passage, compressed gas source, electric lifting plate, electric lifter and capsule stripping ring groove, can push and shove hollow capsule from the upper portion of capsule mould pole through the capsule stripping ring groove set up in the electric lifting plate corresponding capsule mould pole, and strip off simultaneously, and through the exhaust port cooperation compressed gas source of capsule mould pole bottom end injects the compressed gas to hollow capsule, makes hollow capsule under the action of barometric pressure difference fast stripping, and the operation is convenient, and hollow capsule stripping efficiency is high.
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Description

Technical Field

[0001] This utility model relates to the technical field of hollow capsule production equipment, and in particular to the technical field of efficient and convenient hollow capsule demolding device. Background Technology

[0002] In the production of hollow capsules, it is necessary to demold the formed hollow capsules. Existing capsule demolding devices use a clamping mechanism to fix the capsules and then pull them upwards to detach them from the mold. However, this method can easily damage the capsules, making it difficult for operators to process and use them later. In addition, some capsule demolding devices rely solely on gravity to make the capsules fall, resulting in low capsule detachment efficiency and affecting the overall demolding efficiency. Summary of the Invention

[0003] The purpose of this invention is to solve the problems in the existing technology and propose an efficient and convenient hollow capsule demolding device that can push and demold the hollow capsule, and at the same time make the hollow capsule demold quickly under the action of air pressure difference. It is easy to operate and has high demolding efficiency.

[0004] To achieve the above objectives, this utility model proposes an efficient and convenient hollow capsule demolding device, including a capsule template, capsule mold rods, an exhaust channel, a compressed air source, an electric lifting plate, an electric lifter, and a capsule demolding ring groove. Several capsule mold rods are evenly and vertically arranged at the bottom of the capsule template. An exhaust channel is axially penetrating the interior of each capsule mold rod. A compressed air source is connected to the top of the exhaust channel, and an exhaust port is provided at the bottom of the exhaust channel. An electric lifting plate is arranged parallel to the bottom of the capsule template, with both ends connected to the bottom surface of the capsule template via several electric lifters. A capsule demolding ring groove is vertically penetrating the electric lifting plate corresponding to the position of the capsule mold rods. The capsule demolding ring groove is fitted onto the capsule mold rods, and the inner surface of the capsule demolding ring groove contacts the outer surface of the capsule mold rods.

[0005] Preferably, the capsule template is provided with a connecting bracket at its top, and an electric slider is provided at the top of the connecting bracket. The electric slider is mounted on a travel guide rail, which is horizontally positioned above the connecting bracket.

[0006] Preferably, a capsule collecting groove is provided directly below the capsule template, and the capsule collecting groove is a hollow mesh groove.

[0007] Preferably, an elastic inner ring sleeve is fixedly clamped on the inner side of the capsule demolding ring groove, and the elastic inner ring sleeve abuts against the outer side of the capsule mold rod, wherein the outer side of the capsule mold rod is a smooth surface.

[0008] Preferably, the capsule mold rod is a cylindrical rod, and the lower diameter of the capsule mold rod is larger than the upper diameter.

[0009] The beneficial effects of this utility model are as follows: This utility model combines a capsule template, a capsule mold rod, an exhaust channel, a compressed air source, an electric lifting plate, an electric lifter, and a capsule demolding ring groove. Through experimental optimization, it can push the hollow capsule out of the capsule mold rod from the top of the capsule mold rod through the capsule demolding ring groove set in the electric lifting plate. At the same time, compressed gas is injected into the hollow capsule through the exhaust port at the bottom of the capsule mold rod in conjunction with the compressed air source, so that the hollow capsule can be quickly demolded under the action of air pressure difference. The operation is convenient and the demolding efficiency of hollow capsules is high.

[0010] The features and advantages of this utility model will be described in detail through embodiments and accompanying drawings. Attached Figure Description

[0011] Figure 1 This is a schematic diagram of the structure of the efficient and convenient hollow capsule demolding device of this utility model.

[0012] In the diagram: 1-Capsule template, 2-Capsule mold rod, 3-Exhaust channel, 4-Compressed air source, 5-Electric lifting plate, 6-Electric lifting device, 7-Capsule demolding ring groove, 8-Capsule collection groove, 9-Elastic inner ring sleeve. Detailed Implementation

[0013] See Figure 1This utility model discloses a high-efficiency and convenient hollow capsule demolding device, comprising a capsule template 1, capsule mold rods 2, an exhaust channel 3, a compressed air source 4, an electric lifting plate 5, an electric lifting device 6, and a capsule demolding ring groove 7. Several capsule mold rods 2 are evenly and vertically arranged at the bottom of the capsule template 1. An exhaust channel 3 is axially penetrating the interior of each capsule mold rod 2. A compressed air source 4 is connected to the top of the exhaust channel 3, and an exhaust port is provided at the bottom of the exhaust channel 3. An electric lifting plate 5 is arranged parallel to the bottom of the capsule template 1, and both ends of the electric lifting plate 5 are connected to the bottom surface of the capsule template 1 via several electric lifting devices 6. A capsule demolding ring groove 7 is vertically penetrating the electric lifting plate 5 corresponding to the positions of the capsule mold rods 2. The capsule demolding ring groove 7 is fitted onto the capsule mold rod 2. The inner side of the capsule demolding ring groove 7 is in contact with the outer side of the capsule mold rod 2. A connecting bracket is provided at the top of the capsule template 1. An electric slider is provided at the top of the connecting bracket. The electric slider is mounted on a travel guide rail, which is horizontally positioned above the connecting bracket. A capsule collecting groove 8 is provided directly below the capsule template 1. The capsule collecting groove 8 is a hollow mesh groove. An elastic inner ring sleeve 9 is fixedly clamped on the inner side of the capsule demolding ring groove 7. The elastic inner ring sleeve 9 abuts against the outer side of the capsule mold rod 2. The outer side of the capsule mold rod 2 is a smooth surface. The capsule mold rod 2 is a cylindrical rod, and the lower diameter of the capsule mold rod 2 is larger than the upper diameter.

[0014] This invention combines a capsule template 1, a capsule mold rod 2, an exhaust channel 3, a compressed air source 4, an electric lifting plate 5, an electric lifter 6, and a capsule demolding ring groove 7. Through experimental optimization, it can push and demold the hollow capsule from the top of the capsule mold rod 2 through the capsule demolding ring groove 7 set in the electric lifting plate 5 corresponding to the capsule mold rod 2. At the same time, compressed gas is injected into the hollow capsule through the exhaust port at the bottom of the capsule mold rod 2 in conjunction with the compressed air source 4, so that the hollow capsule can be quickly demolded under the action of air pressure difference. The operation is convenient and the demolding efficiency of hollow capsules is high.

[0015] 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 high-efficiency and convenient hollow capsule demolding device, characterized in that: The capsule template (1), capsule rods (2), exhaust channels (3), compressed air sources (4), electric lifting plates (5), electric lifters (6), and capsule demolding ring grooves (7) are included. Several capsule rods (2) are evenly and vertically arranged at the bottom of the capsule template (1). An exhaust channel (3) is axially arranged inside the capsule rods (2). A compressed air source (4) is connected to the top of the exhaust channel (3). An exhaust port is provided at the bottom of the exhaust channel (3). An electric lifting plate (5) is arranged parallel to the bottom of the capsule template (1). Both ends of the electric lifting plate (5) are connected to the bottom surface of the capsule template (1) through several electric lifters (6). A capsule demolding ring groove (7) is vertically arranged through the electric lifting plate (5) corresponding to the position of the capsule rods (2). The capsule demolding ring groove (7) is sleeved on the capsule rods (2). The inner side of the capsule demolding ring groove (7) is in contact with the outer side of the capsule rods (2).

2. The efficient and convenient hollow capsule demolding device as described in claim 1, characterized in that: The capsule template (1) is provided with a connecting bracket at its top, and an electric slider is provided at the top of the connecting bracket. The electric slider is installed on a travel guide rail, which is horizontally positioned above the connecting bracket.

3. The efficient and convenient hollow capsule demolding device as described in claim 1, characterized in that: A capsule collection groove (8) is provided directly below the capsule template (1), and the capsule collection groove (8) is a hollow mesh groove.

4. The efficient and convenient hollow capsule demolding device as described in claim 1, characterized in that: The inner side of the capsule demolding ring groove (7) is fixedly clamped with an elastic inner ring sleeve (9), the elastic inner ring sleeve (9) and the outer side of the capsule mold rod (2) are in contact, and the outer side of the capsule mold rod (2) is a smooth surface.

5. The efficient and convenient hollow capsule demolding device as described in claim 1, characterized in that: The capsule mold rod (2) is a cylindrical rod, and the lower diameter of the capsule mold rod (2) is larger than the upper diameter.