A storage device for a curing agent

By combining vibration and discharge mechanisms, the problem of residual curing agent on the inner wall of the storage tank is solved, ensuring that the discharge pipe is not blocked and improving the effectiveness of the curing agent.

CN224492242UActive Publication Date: 2026-07-14CHANGZHOU KERIM FUNCTIONAL COATING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHANGZHOU KERIM FUNCTIONAL COATING CO LTD
Filing Date
2025-06-17
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

When there is a small amount of curing agent material inside the storage tank, the curing agent remaining on the inner wall is not easy to be discharged, and the curing agent remaining inside the discharge pipe is prone to solidification, leading to blockage.

Method used

The design employs a combination of a vibration mechanism and a discharge mechanism. The vibration mechanism drives the storage tank to vibrate via a motor to expel residual curing agent from the inner wall. The discharge mechanism controls the opening and closing of the discharge pipe and the rotation of the scraper through the screw motion and guide block to reduce residue and prevent solidification.

Benefits of technology

This allows for the complete discharge of the curing agent from the storage tank, preventing blockage of the discharge pipe and improving efficiency and reliability.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to the field of storage equipment, concretely relates to a storage equipment of curing agent, including storage box, the inside of storage box is connected with end cover through screw thread, the lower end fixedly connected with the supporting leg of storage box, the surface fixedly connected with support plate of supporting leg, be provided with vibrating mechanism on support plate, the inside fixedly connected with outer tube of storage box, be provided with discharge mechanism on outer tube. The utility model through the screw thread movement of rotating screw ring and outer tube, further make the guide pin drive discharge pipe lift, further make the opening of discharge pipe wall can lift, further make the discharge speed and open and close convenient control, at the same time, make the support shaft rotate through the cooperation of guide block and guide groove, further make the scraping strip rotate, scratch inside discharge pipe, reduce the curing agent residue inside discharge pipe, avoid the solidification of curing agent in the inside of discharge pipe when the device is too much to cause the blockage of discharge pipe.
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Description

Technical Field

[0001] This utility model relates to the field of storage device technology, specifically to a storage device for a curing agent. Background Technology

[0002] Utility model patent CN220786683U discloses a curing agent storage device, including a base, a detachable barrel on the base, a discharge pipe on one side of the barrel, a valve on the discharge pipe, and a detachable cap at the end of the discharge pipe. This application achieves curing agent access and sealing by setting a discharge pipe on the side of the barrel and controlling the flow of curing agent in the discharge pipe through the valve, without removing the barrel's sealing plate. This avoids large-area contact between the curing agent and air when not in use, thus protecting the curing agent and improving its performance. The cap seals the discharge pipe end, reducing air entry into the discharge pipe and preventing large-area deterioration and hardening of any remaining curing agent, which could affect its future use.

[0003] However, the device has some shortcomings. When there is a small amount of curing agent material inside the storage tank, the curing agent remaining on the inner wall of the storage tank is not easy to be discharged. At the same time, the curing agent remaining inside the discharge pipe solidifies, which can cause blockage of the discharge pipe. Utility Model Content

[0004] The purpose of this invention is to provide a storage device for curing agents, which solves the problems of the curing agent remaining on the inner wall of the storage box being difficult to discharge when the amount of curing agent raw material inside the storage box is small, and the curing agent remaining inside the discharge pipe solidifying and causing blockage of the discharge pipe.

[0005] To achieve the above objectives, the present invention provides the following technical solution: a storage device for a curing agent, comprising a storage box, an end cap connected to the inside of the storage box by threads, a support foot fixedly connected to the lower end of the storage box, a support plate fixedly connected to the surface of the support foot, a vibration mechanism provided on the support plate, an outer cylinder fixedly connected to the inside of the storage box, and a discharge mechanism provided on the outer cylinder.

[0006] Preferably, the vibration mechanism includes a motor. The motor is fixedly mounted on the surface of the support plate. The motor's shaft passes through the support plate and is rotatably connected to it. A slide block is fixedly connected to the right end of the motor's shaft. A top block is slidably connected inside the slide block. A slider is fixedly connected to the surface of the top block. The slider and the slide block are slidably connected. A spring is provided inside the slide block. The motor drives the slide block to rotate, thereby changing the position of the top block, causing the top block to collide with the storage box, which in turn causes the storage box to vibrate. This allows the curing agent adhering to the inner wall of the storage box to flow out from the inner wall, thus ensuring more complete discharge of the curing agent from the storage box.

[0007] Preferably, one end of the spring is fixedly connected to the top block, and the other end of the spring is fixedly connected to the slide. By providing the spring, the top block can extend and retract within the slide.

[0008] Preferably, the discharge mechanism includes a discharge pipe, which is slidably connected to the inside of the outer cylinder. A guide pin is fixedly connected to the surface of the discharge pipe, and the guide pin is slidably connected to the outer cylinder. A support rod is slidably connected to the inside of the storage box, and a support plate is fixedly connected to the end of the support rod. A support shaft is mounted inside the support plate via a bearing, and the support shaft is movably connected to the discharge pipe. A guide block is fixedly connected to the surface of the discharge pipe, and a slip ring is slidably connected to the outside of the support shaft. The slip ring contacts the discharge pipe, and a scraper is fixedly connected to the surface of the slip ring, and the scraper is slidably connected to the discharge pipe. By rotating the screw ring and the outer cylinder to make threaded movements, the guide pin drives the discharge pipe to rise and fall, thereby allowing the opening of the discharge pipe wall to rise and fall, making the discharge speed and opening and closing easy to control. At the same time, the cooperation of the guide block and the guide groove causes the support shaft to rotate, which in turn causes the scraper to rotate, scraping against the inside of the discharge pipe, reducing the residue of the curing agent inside the discharge pipe, and preventing excessive curing agent residue inside the discharge pipe from solidifying and causing blockage during discharge.

[0009] Preferably, a threaded ring is connected to the outer side of the outer cylinder, and the threaded ring and the guide pin are slidably connected. The raising and lowering of the guide pin is controlled by the threaded ring.

[0010] Preferably, the support shaft has a guide groove inside, and the guide groove and the guide block are slidably connected. By providing the guide groove and the guide block, the support shaft can be easily rotated.

[0011] Preferably, a limiting block is fixedly connected to the surface of the slip ring, and the limiting block is slidably connected to the support shaft. By setting the limiting block, relative rotation between the slip ring and the support shaft is prevented.

[0012] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0013] 1. This utility model uses a motor to drive the slide to rotate, thereby changing the position of the top block, causing the top block to collide with the storage box, which in turn causes the storage box to vibrate, allowing the curing agent adhering to the inner wall of the storage box to flow out from the inner wall of the storage box, thus making the curing agent in the storage box more completely discharged.

[0014] 2. This utility model uses the rotating screw ring and outer cylinder to make threaded movement, which in turn causes the guide pin to drive the discharge pipe to rise and fall, thereby allowing the opening of the discharge pipe wall to rise and fall, making the discharge speed and opening and closing easy to control. At the same time, the guide block and guide groove cooperate to make the support shaft rotate, which in turn makes the scraper rotate, scraping the inside of the discharge pipe, reducing the residue of curing agent inside the discharge pipe, and avoiding excessive curing agent residue inside the discharge pipe during discharge, which could cause blockage of the discharge pipe. Attached Figure Description

[0015] Figure 1 This is a perspective view of the overall structure of this utility model;

[0016] Figure 2 This utility model Figure 1 Cross-sectional view of the storage box;

[0017] Figure 3 This utility model Figure 1 A three-dimensional diagram of the vibration mechanism;

[0018] Figure 4 This utility model Figure 2 A cross-sectional view of the discharge pipe.

[0019] In the diagram: 1. Storage box; 2. End cap; 3. Support leg; 4. Support plate; 5. Vibration mechanism; 6. Outer cylinder; 7. Discharge mechanism; 51. Motor; 52. Slide block; 53. Top block; 54. Slider; 55. Spring; 71. Discharge pipe; 72. Guide pin; 73. Threaded ring; 74. Support rod; 75. Support plate; 76. Support shaft; 77. Guide block; 78. Guide groove; 79. Slip ring; 710. Scraper. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0021] Please see Figure 1 A storage device for a curing agent includes a storage tank 1, an end cap 2 connected to the inside of the storage tank 1 by threads, a support leg 3 fixedly connected to the lower end of the storage tank 1, a support plate 4 fixedly connected to the surface of the support leg 3, a vibration mechanism 5 provided on the support plate 4, an outer cylinder 6 fixedly connected to the inside of the storage tank 1, and a discharge mechanism 7 provided on the outer cylinder 6.

[0022] Please see Figure 1 , Figure 3The vibration mechanism 5 includes a motor 51. The motor 51 is fixedly mounted on the surface of the support plate 4. The rotating shaft of the motor 51 passes through the support plate 4 and is rotatably connected to the support plate 4. The right end of the rotating shaft of the motor 51 is fixedly connected to a slide block 52. A top block 53 is slidably connected inside the slide block 52. A slider 54 is fixedly connected to the surface of the top block 53. The slider 54 and the slide block 52 are slidably connected. A spring 55 is provided inside the slide block 52. One end of the spring 55 is fixedly connected to the top block 53, and the other end of the spring 55 is fixedly connected to the slide block 52. By setting the spring 55, the top block 53 can extend and retract inside the slide block 52. The motor 51 drives the slide block 52 to rotate, thereby changing the position of the top block 53, causing the top block 53 to collide with the storage box 1, thereby causing the storage box 1 to vibrate. This allows the curing agent adhering to the inner wall of the storage box 1 to flow from the inner wall of the storage box 1, thereby making the curing agent in the storage box 1 more completely discharged.

[0023] Please see Figure 1 , Figure 2 , Figure 4 The discharge mechanism 7 includes a discharge pipe 71, which is slidably connected to the inside of the outer cylinder 6. A guide pin 72 is fixedly connected to the surface of the discharge pipe 71, and the guide pin 72 is slidably connected to the outer cylinder 6. A threaded ring 73 is threadedly connected to the outside of the outer cylinder 6, and the threaded ring 73 is slidably connected to the guide pin 72. The guide pin 72 is raised and lowered by the threaded ring 73. A support rod 74 is slidably connected to the inside of the storage box 1, and a support plate 75 is fixedly connected to the end of the support rod 74. A support shaft 76 is mounted inside the support plate 75 through a bearing. The support shaft 76 is movably connected to the discharge pipe 71. A guide block 77 is fixedly connected to the surface of the discharge pipe 71. A guide groove 78 is opened inside the support shaft 76, and the guide groove 78 is slidably connected to the guide block 77. The cooperation between the guide groove 78 and the guide block 77 facilitates the rotation of the support shaft 76. A threaded ring 73 is slidably connected to the outside of the support shaft 76. A slip ring 79 is in contact with the discharge pipe 71. A limit block is fixedly connected to the surface of the slip ring 79, and the limit block is slidably connected to the support shaft 76. By setting the limit block, relative rotation between the slip ring 79 and the support shaft 76 is prevented. A scraper 710 is fixedly connected to the surface of the slip ring 79, and the scraper 710 is slidably connected to the discharge pipe 71. By rotating the screw ring 73 and the outer cylinder 6 to make threaded movement, the guide pin 72 drives the discharge pipe 71 to rise and fall, thereby allowing the opening of the discharge pipe 71 to rise and fall, making the discharge speed and opening and closing easier to control. At the same time, the support shaft 76 is rotated by the cooperation of the guide block 77 and the guide groove 78, which in turn causes the scraper 710 to rotate, scraping the inside of the discharge pipe 71, reducing the residue of the curing agent inside the discharge pipe 71, and preventing excessive curing agent residue inside the discharge pipe 71 from solidifying and causing blockage of the discharge pipe 71 when it exits the device.

[0024] The specific implementation process of this utility model is as follows: During discharge, the screw ring 73 is manually rotated, and the screw ring 73 rotates and the outer cylinder 6 makes a threaded movement, thereby causing the screw ring 73 to move upward. The screw ring 73 drives the guide pin 72 to move, and the guide pin 72 drives the discharge pipe 71 to rise and fall, thereby causing the opening of the discharge pipe 71 to rise and connect with the storage box 1, thus making the discharge speed and opening and closing easier to control. At the same time, the rising and falling of the discharge pipe 71 drives the guide block 77 to rise and fall, thereby causing the guide block 77 and the guide groove 78 to cooperate to make the support shaft 76 rotate. The support shaft 76 drives the slip ring 79 to rotate, and the slip ring 79 drives the scraper 71. The rotation of the scraper 710 causes the scraper to scrape against the inside of the discharge pipe 71, reducing the residue of curing agent inside the discharge pipe 71 and preventing excessive curing agent residue from solidifying and causing blockage of the discharge pipe 71 when it exits the device. When there is less curing agent in the storage tank 1, the motor 51 is started. The motor 51 drives the slide 52 to rotate, which in turn causes the position of the top block 53 to change, causing the top block 53 to collide with the storage tank 1, which in turn causes the storage tank 1 to vibrate. This allows the curing agent adhering to the inner wall of the storage tank 1 to flow from the inner wall of the storage tank 1, thus making the curing agent in the storage tank 1 more completely discharged.

[0025] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A storage device for a curing agent, comprising a storage tank (1), characterized in that: The storage box (1) is connected to an end cap (2) by a thread. The lower end of the storage box (1) is fixedly connected to a support leg (3). The surface of the support leg (3) is fixedly connected to a support plate (4). A vibration mechanism (5) is provided on the support plate (4). The storage box (1) is fixedly connected to an outer cylinder (6). A discharge mechanism (7) is provided on the outer cylinder (6).

2. The storage device for a curing agent according to claim 1, characterized in that: The vibration mechanism (5) includes a motor (51). The motor (51) is fixedly mounted on the surface of the support plate (4). The rotating shaft of the motor (51) passes through the support plate (4) and is rotatably connected to the support plate (4). A slide block (52) is fixedly connected to the right end of the rotating shaft of the motor (51). A top block (53) is slidably connected inside the slide block (52). A slider (54) is fixedly connected to the surface of the top block (53). The slider (54) and the slide block (52) are slidably connected. A spring (55) is provided inside the slide block (52).

3. The storage device for a curing agent according to claim 2, characterized in that: One end of the spring (55) is fixedly connected to the top block (53), and the other end of the spring (55) is fixedly connected to the slide (52).

4. The storage device for a curing agent according to claim 1, characterized in that: The discharge mechanism (7) includes a discharge pipe (71), which is slidably connected to the inside of the outer cylinder (6). A guide pin (72) is fixedly connected to the surface of the discharge pipe (71), and the guide pin (72) is slidably connected to the outer cylinder (6). A support rod (74) is slidably connected to the inside of the storage box (1), and a support plate (75) is fixedly connected to the end of the support rod (74). A support shaft (76) is installed inside the support plate (75) through a bearing. The support shaft (76) is movably connected to the discharge pipe (71). A guide block (77) is fixedly connected to the surface of the discharge pipe (71). A slip ring (79) is slidably connected to the outside of the support shaft (76), and the slip ring (79) is in contact with the discharge pipe (71). A scraper (710) is fixedly connected to the surface of the slip ring (79), and the scraper (710) is slidably connected to the discharge pipe (71).

5. The storage device for a curing agent according to claim 4, characterized in that: The outer cylinder (6) is connected to a threaded ring (73) on its outer side, and the threaded ring (73) and the guide pin (72) are slidably connected.

6. The storage device for a curing agent according to claim 4, characterized in that: The support shaft (76) has a guide groove (78) inside, and the guide groove (78) and the guide block (77) are slidably connected.

7. The storage device for a curing agent according to claim 4, characterized in that: The surface of the slip ring (79) is fixedly connected to a limiting block, and the limiting block and the support shaft (76) are slidably connected.