Self-leveling sealant flow guide groove structure

By designing a self-leveling sealant channel structure, the channel plate can be quickly disassembled and assembled, and excess sealant can be collected. This solves the compatibility and flexibility problems caused by the fixed design of existing channel channels, and improves the sealing effect and resource utilization efficiency.

CN224475254UActive Publication Date: 2026-07-10HANGZHOU WONENG NEW MATERIAL TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HANGZHOU WONENG NEW MATERIAL TECH CO LTD
Filing Date
2025-08-07
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

The existing guide channel has an integrated fixed design, which makes it incompatible with the requirements of sealant use, affecting the sealing effect and resulting in poor flexibility.

Method used

A self-leveling sealant channel structure is designed. Through the combination of sliding plates and locking blocks, the channel plate can be quickly disassembled and fixed, and a recycling structure is provided to collect the overflowing sealant.

Benefits of technology

It improves the flexibility of the flow channel and the efficiency of sealant collection, saves materials, and meets the needs of rapid adjustment and effective resource utilization for different requirements.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the technical field of guide channel structures, and discloses a self-leveling sealant guide channel structure, including a guide plate. A V-shaped groove plate is movably connected inside the guide plate. A disassembly and assembly structure is provided between the guide plate and the V-shaped groove plate. Recycling structures are provided on both sides of the guide plate. The disassembly and assembly structure includes four mounting plates, each fixed to the V-shaped groove plate. An insert block is fixedly connected to the center of the lower end of each mounting plate. In this utility model, the insert block can be pulled out upwards after being pushed into the groove by a sliding plate, thus separating the groove plate from the guide plate. The insert block pops out after the insert block is inserted into the plate body and can engage the mounting plate, thereby fixing the groove plate. The quick disassembly and assembly of the groove plate facilitates replacement as needed, improving usability. An overflowing sealant can be scraped to one side by a scraper inside the recycling groove and collected after flowing out through a flow channel, saving materials.
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Description

Technical Field

[0001] This utility model relates to the technical field of guide channel structure, and in particular to a self-leveling sealant guide channel structure. Background Technology

[0002] Sealants are paste-like, liquid-like, or tape-like materials made from polymer materials as the base material and with added plasticizers, fillers, curing agents, and other components. Their core characteristic is that through chemical reaction or physical drying, they ultimately form an elastic and adhesive layer to achieve a sealing function. Self-leveling sealants have fluidity, and if used directly, they are prone to uncontrolled flow. Therefore, a guide channel is needed to guide the sealant to flow along a preset trajectory to avoid random diffusion.

[0003] Due to differences in sealant viscosity and other factors, V-shaped or U-shaped guide channels may be required during use. However, some existing guide channels have an integrated fixed design, which may affect the sealing effect and reduce the flexibility of use if they are not well adapted to the usage requirements.

[0004] Therefore, those skilled in the art have provided a self-leveling sealant channel structure to solve the problems mentioned in the background art. Utility Model Content

[0005] The purpose of this utility model is to overcome the shortcomings of the existing technology and provide a self-leveling sealant guide channel structure. After the sliding plate moves and squeezes the clamping block into the channel, the insert can be pulled out upwards, thereby separating the channel plate and the guide plate. The clamping block pops out after the insert is inserted into the plate and can lock the mounting plate, thereby fixing the channel plate. The channel plate can be quickly disassembled and installed for easy replacement as needed, improving the flexibility of use. The overflowing sealant can be scraped to one side by a scraper moving inside the recycling tank and collected after flowing out through the flow channel, which is convenient and saves materials.

[0006] To achieve the above objectives, this utility model provides the following technical solution:

[0007] A self-leveling sealant guide channel structure includes a guide plate, a V-shaped groove plate movably connected inside the guide plate, a disassembly structure between the guide plate and the V-shaped groove plate, and a recycling structure on both sides of the guide plate;

[0008] The disassembly and assembly structure includes four mounting plates, all of which are fixed to a V-groove plate. A plug is fixedly connected to the center of the lower end of the mounting plate. The plug slides within the guide plate. A first groove is opened on the side of the plug away from the center of the guide plate. A locking block is slidably connected inside the first groove. Locking slots are opened at the front and rear ends of both sides of the upper end of the guide plate.

[0009] The above technical solution allows for easy mounting of the slot plate inside the guide plate, enabling quick installation or removal of the V-shaped or U-shaped slot plate. This facilitates adjustment and replacement according to different needs. The locking block allows the insert to pop out after being inserted into the slot of the plate body, thus locking it inside the plate body and securing the slot plate.

[0010] Furthermore, the recycling structure includes a recycling tank, which is opened on both sides of the upper end of the guide plate. Both sides of the V-shaped groove plate are provided with overflow grooves. A scraper is slidably connected inside the recycling tank. A sliding block is fixedly connected to the lower end of the scraper. Both sides of the guide plate are provided with flow grooves.

[0011] The above technical solution facilitates the recovery of overflowing sealant by setting up a recovery tank, and allows excess sealant between the tank plates to flow into the recovery tank. The scraper facilitates the scraping of sealant in the tank to one side as it moves, so that the sealant flows out of the plate through the flow channel and is collected.

[0012] Furthermore, a connecting spring is fixedly connected to one side of the first chute near the center of the guide plate, and one side of the connecting spring is fixedly connected to the locking block.

[0013] The above technical solution allows the connecting spring to facilitate the reverse movement of the locking block after being squeezed, thus locking it into the groove.

[0014] Furthermore, a sliding plate is slidably connected inside the slot, a fixed plate is fixedly connected to the front end of the sliding plate, and a limit slider is fixedly connected to the rear end of the sliding plate.

[0015] The above technical solution allows the sliding plate to be used to squeeze the card block after it moves, so that the card block can be pulled out upwards after being squeezed into the groove.

[0016] Furthermore, the guide plate has two sliding grooves on both sides of its front and rear ends, and the fixing plate slides inside the two sliding grooves.

[0017] The above technical solution facilitates the movement of the fixed plate within the groove by setting the second sliding groove, thereby driving the sliding plate to move.

[0018] Furthermore, multiple connecting grooves are provided on both sides of the guide plate, and the connecting grooves are connected to the overflow groove.

[0019] The above technical solution allows excess sealant in the trough to flow into the recycling tank on one side through the connection groove.

[0020] Furthermore, a sliding groove is provided at the bottom of the recycling tank, and the sliding block slides inside the sliding groove;

[0021] The above technical solution allows the sliding block to slide inside the sliding groove, improving the stability of the scraper's movement.

[0022] Furthermore, the flow channel and the recovery channel are connected in a continuous manner, and connecting pipes are fixedly connected to both sides of the guide plate;

[0023] The above technical solution allows the sealant to flow out of the board through the recycling tank, making it easy to collect.

[0024] This utility model has the following beneficial effects:

[0025] 1. The present invention proposes a self-leveling sealant guide channel structure, which facilitates quick assembly and disassembly of the channel plate through the setting of insert blocks and locking blocks. The fixed plate drives the sliding plate to move and squeezes the locking block into the first sliding groove. The V-shaped channel plate is pulled upward to separate it from the plate body. When installing the channel plate, the insert block is inserted into the guide plate, and the connecting spring drives the locking block to move in the opposite direction and lock into the groove, thus completing the installation of the channel plate. This facilitates quick assembly and disassembly of different channel plates, allowing for adjustments according to different needs.

[0026] 2. The self-leveling sealant guide channel structure proposed in this utility model facilitates the recovery of overflowing sealant through the setting of the recovery channel. The excess sealant can flow into the recovery channel through the overflow channel and the flow channel. By moving the scraper, it can slide inside the recovery channel and scrape the sealant in the channel to one side until the glue flows out through the flow channel, which facilitates the recovery and collection of the overflowing glue, so that it can be used after treatment and save resources. Attached Figure Description

[0027] Figure 1 This is an isometric view of a self-leveling sealant guide groove structure proposed in this utility model;

[0028] Figure 2 This is a schematic diagram of the mounting plate of the self-leveling sealant guide groove structure proposed in this utility model;

[0029] Figure 3 This is an exploded structural diagram of the insert block with a self-leveling sealant guide groove structure proposed in this utility model.

[0030] Figure 4 This is a schematic diagram of the structure of a recycling tank with a self-leveling sealant guide channel structure proposed in this utility model;

[0031] Figure 5 This is a schematic diagram of the scraper structure of a self-leveling sealant guide groove structure proposed in this utility model.

[0032] Explanation of reference numerals in the attached figures:

[0033] 1. Guide plate; 2. V-groove plate; 3. Disassembly and assembly structure; 301. Insert block; 302. No. 1 slide groove; 303. Locking block; 304. Locking groove; 305. Sliding plate; 306. Fixing plate; 307. No. 2 slide groove; 308. Mounting plate; 309. Connecting spring; 310. Limiting slider; 4. Recycling structure; 401. Overflow groove; 402. Connecting groove; 403. Recycling groove; 404. Scraper; 405. Sliding block; 406. Sliding groove; 407. Flow groove; 408. Connecting pipe. Detailed Implementation

[0034] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of specific embodiments. Obviously, the described specific embodiments are only a part of the specific embodiments of the present invention, and not all of them. Based on the specific embodiments of the present invention, all other specific embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0035] Reference Figure 1-3 This utility model provides a specific implementation method:

[0036] A self-leveling sealant guide channel structure includes a guide plate 1, a V-shaped groove plate 2 movably connected inside the guide plate 1, a disassembly structure 3 between the guide plate 1 and the V-shaped groove plate 2, and a recycling structure 4 on both sides of the guide plate 1.

[0037] The disassembly / assembly structure 3 includes four mounting plates 308, all of which are fixed to the V-shaped groove plate 2. A plug 301 is fixedly connected to the center of the lower end of each mounting plate 308. The plug 301 slides within the guide plate 1, limiting its movement. The mounting plates 308 facilitate the insertion of the groove plate into the guide plate 1, allowing for quick installation or removal of the V-shaped or U-shaped groove plate, and convenient adjustment and replacement according to different needs. A first groove 302 is formed on the side of the plug 301 furthest from the center of the guide plate 1. A locking block 303 is slidably connected inside the first groove 302. A connecting spring 309 is fixedly connected to the side of the first groove 302 closest to the center of the guide plate 1. One side of the connecting spring 309 is fixedly connected to the locking block 303. The connecting spring 309 facilitates the reverse movement of the locking block 303 after being compressed, allowing... The guide plate 1 has slots 304 on both the front and rear ends of its upper side. The slot 303 allows the insert 301 to pop out after being inserted into the slot 304 of the plate body, thus locking it inside the plate body and fixing the slot plate. A sliding plate 305 is slidably connected inside the slot 304. A fixed plate 306 is fixedly connected to the front end of the sliding plate 305, and a limit slider 310 is fixedly connected to the rear end of the sliding plate 305. The sliding plate 305 allows the slot 303 to be squeezed after it moves, so that the insert 301 can be pulled out after being squeezed into the slot. The guide plate 1 has a second sliding groove 307 on both the front and rear ends of its upper side. The fixed plate 306 slides inside the second sliding groove 307. The second sliding groove 307 allows the fixed plate 306 to be moved in the groove, thereby moving the sliding plate 305.

[0038] Reference Figure 1 , Figure 4 and Figure 5The recycling structure 4 includes a recycling tank 403, which is located on both sides of the upper end of the guide plate 1. Both sides of the V-shaped groove plate 2 have overflow grooves 401. The recycling tank 403 facilitates the recycling of overflowing sealant. The overflow grooves 401 allow excess sealant between the groove plates to flow into the recycling tank 403. Multiple connecting grooves 402 are located on both sides of the guide plate 1, and these connecting grooves 402 are connected to the overflow grooves 401. The connecting grooves 402 allow excess sealant in the groove plates to flow into the recycling tank 403 on one side. A scraper 404 is slidably connected inside the recycling tank 403, and a sliding block 405 is fixedly connected to the lower end of the scraper 404. A sliding groove 406 is provided at the bottom, and a sliding block 405 slides inside the sliding groove 406. The sliding groove 406 facilitates the sliding of the sliding block 405 inside, improving the stability of the scraper 404's movement. Flow grooves 407 are provided inside both sides of the guide plate 1. The scraper 404 facilitates the scraping of the sealant in the groove to one side during its movement, allowing the sealant to flow out of the plate body through the flow groove 407 for collection. The flow groove 407 is connected to the recovery groove 403. Connecting pipes 408 are fixedly connected to both sides of the guide plate 1. The connecting pipes 408 facilitate the flow of sealant out of the plate body through the recovery groove 403 for convenient collection.

[0039] Working principle: In use, the fixed plate 306 is moved inward, causing the sliding plate 305 to move inside the plate body and press against the locking block 303 until the sliding plate 305 contacts one side of the insert block 301 and the locking block 303 is pressed into the first slide groove 302. Because the limit slider 310 has little room to move inside the plate body, it will not move easily after the sliding plate 305 moves to one side. Similarly, the other fixed plates 306 are operated to pull the V-shaped groove plate 2 upward, causing the mounting plate 308 to move the insert block 301 away from the locking groove 304, thereby separating the groove plate from the plate body. When installing the groove plate, the locking block 301 is first moved. 3. Squeeze the sealant into the insert block 301 and then insert it into the guide plate 1. The compressed connecting spring 309 drives the locking block 303 to move in the opposite direction and lock into the groove, thus completing the installation of the groove plate. This facilitates quick and easy installation and removal of different groove plates, allowing for adjustments according to different needs. When in use, the overflowing sealant can flow into the recycling tank 403 through the overflow groove 401 and the flow groove 407. Move the scraper 404 to slide it inside the recycling tank 403 and scrape the sealant in the groove to one side until the glue flows out through the flow groove 407. This facilitates the recycling and collection of the overflowing glue, allowing for reuse after treatment and saving resources.

[0040] The following points should be noted in this article:

[0041] 1. The accompanying drawings of the embodiments disclosed herein only relate to the structures involved in the embodiments disclosed herein; other structures can be referred to in a general design.

[0042] 2. Where there is no conflict, the embodiments of this disclosure and the features in the embodiments can be combined with each other to obtain new embodiments.

[0043] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing specific embodiments, those skilled in the art can still modify the technical solutions described in the foregoing specific embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A self-leveling sealant guide channel structure, comprising a guide plate (1), characterized in that: The guide plate (1) is movably connected to a V-shaped groove plate (2), and a disassembly structure (3) is provided between the guide plate (1) and the V-shaped groove plate (2). A recycling structure (4) is provided on both sides of the guide plate (1). The disassembly and assembly structure (3) includes four mounting plates (308), and all of the mounting plates (308) are fixed to the V-groove plate (2). A plug (301) is fixedly connected to the center of the lower end of the mounting plate (308). The plug (301) slides within the guide plate (1) with a limit. A first groove (302) is opened on the side of the plug (301) away from the center of the guide plate (1). A locking block (303) is slidably connected inside the first groove (302). The front and rear ends of both sides of the upper end of the guide plate (1) are provided with locking grooves (304).

2. The self-leveling sealant channel structure according to claim 1, characterized in that: The recycling structure (4) includes a recycling tank (403), which is located on both sides of the upper end of the guide plate (1). Both sides of the V-shaped groove plate (2) are provided with overflow grooves (401). A scraper (404) is slidably connected inside the recycling tank (403). A sliding block (405) is fixedly connected to the lower end of the scraper (404). Both sides of the guide plate (1) are provided with flow grooves (407).

3. The self-leveling sealant channel structure according to claim 1, characterized in that: A connecting spring (309) is fixedly connected to one side of the first chute (302) near the center of the guide plate (1), and one side of the connecting spring (309) is fixedly connected to the locking block (303).

4. The self-leveling sealant channel structure according to claim 1, characterized in that: The card slot (304) is slidably connected to a sliding plate (305), the front end of the sliding plate (305) is fixedly connected to a fixing plate (306), and the rear end of the sliding plate (305) is fixedly connected to a limit slider (310).

5. The self-leveling sealant channel structure according to claim 4, characterized in that: The guide plate (1) has two sliding grooves (307) on both the front and rear ends, and the fixing plate (306) slides inside the sliding grooves (307).

6. The self-leveling sealant channel structure according to claim 2, characterized in that: The guide plate (1) has multiple connecting grooves (402) on both sides, and the connecting grooves (402) are connected to the overflow groove (401).

7. The self-leveling sealant channel structure according to claim 2, characterized in that: The bottom of the recycling tank (403) is provided with a sliding groove (406), and the sliding block (405) slides inside the sliding groove (406).

8. The self-leveling sealant channel structure according to claim 2, characterized in that: The flow channel (407) is connected to the recovery channel (403), and the guide plate (1) is fixedly connected to both sides by connecting pipes (408).