Frameless shower room glass partition

By combining the design of pre-embedded shafts and positioning shafts with sealing plates and water-blocking frames, the problem of sealing aging of glass partitions in high temperature and high humidity environments is solved, achieving the stability and easy maintenance of glass partitions.

CN224412879UActive Publication Date: 2026-06-26许磊

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
许磊
Filing Date
2025-07-22
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing glass partitions suffer from aging, yellowing, and cracking of sealant in high temperature and humidity environments, leading to waterproofing failure, difficulty in cleaning, and a risk of slipping.

Method used

The design combines a pre-embedded shaft and a positioning shaft, along with a sealing plate, a water-blocking frame, and a limiting suction cup, to achieve precise positioning and sealing of the glass plate. The modular design facilitates the replacement of aging parts, and the use of rubber materials and snap-fit ​​structures enhances sealing performance and stability.

Benefits of technology

It improves the verticality and stability of glass partitions, reduces installation errors and maintenance costs, extends service life, and reduces the risk of slipping.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224412879U_ABST
    Figure CN224412879U_ABST
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Abstract

The utility model discloses a kind of frameless shower room glass partition, including, a group of embedded shaft, it is respectively set in shower room top end and ground, embedded shaft top is provided with adjusting groove, and the inside movable card of adjusting groove is equipped with locating shaft, tempered glass plate is set between locating shaft, top embedded shaft and tempered glass plate connecting place is equipped with sealing plate, sealing plate is rubber material, bottom embedded shaft and tempered glass plate connecting place is equipped with water screen, water screen bottom is equipped with a group of buffer pressing plate that abut against embedded shaft top end, buffer pressing plate is used for blocking water flow to enter, water screen is used for sticking in the clearance top between adjusting groove and locating shaft;Compared with prior art, the utility model is matched by embedded shaft and locating shaft, can be accurately positioned to tempered glass plate during installation process, even if embedded shaft position appears to deviate, also can be corrected by adjusting the position of locating shaft, ensure the perpendicularity and stability of tempered glass plate, reduce installation error.
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Description

Technical Field

[0001] This utility model relates to the field of interior design technology, specifically to a frameless shower room glass partition. Background Technology

[0002] Glass partitions are a common construction project in the decoration industry, especially in bathrooms, where they are needed to separate wet and dry areas. While glass partitions can enhance the sense of openness and aesthetics in the bathroom, they can also contribute to the overall ambiance.

[0003] Glass partitions present challenges in practical use, including limescale buildup and cleaning / maintenance. Minerals in tap water evaporate on the glass surface, forming white limescale, which is particularly noticeable and difficult to remove completely, especially around the shower area's water-blocking strip. Furthermore, most frameless glass partitions are sealed with adhesive, which is prone to aging. In high-temperature and high-humidity environments, the silicone sealant used to fix the glass and seal the gaps is susceptible to aging, yellowing, cracking, or mold growth, leading to waterproofing failure. Additionally, the wet and slippery bathroom surface, especially when not thoroughly cleaned and soap scum remains, can cause users to slip and bump into the glass partition, potentially damaging the bottom. Therefore, we propose a frameless shower enclosure glass partition to address these issues. Utility Model Content

[0004] The purpose of this utility model is to provide a frameless shower room glass partition to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a frameless shower room glass partition, comprising,

[0006] A set of pre-embedded shafts are respectively set in the top of the shower room and in the ground. The top of the pre-embedded shaft is provided with an adjustment groove, and a positioning shaft is movably locked inside the adjustment groove. A tempered glass plate is set between the positioning shafts. A sealing plate is provided at the connection between the pre-embedded shaft at the top and the tempered glass plate. The sealing plate is made of rubber. A water-proof frame is provided at the connection between the pre-embedded shaft at the bottom and the tempered glass plate.

[0007] The bottom of the water-blocking frame is equipped with a set of buffer plates that abut against the top of the pre-embedded shaft. The buffer plates are used to prevent water from entering. The water-blocking frame is used to fit the top of the gap between the adjusting groove and the positioning shaft to protect the bottom of the tempered glass panel. When the glass partition needs to be installed, the pre-embedded shaft can be installed on the ground and the ceiling. Under the limiting action of the positioning shaft, the tempered glass panel can be positioned. If the position of the pre-embedded shaft deviates, the position of the positioning shaft can be adjusted to calibrate the subsequent installation position. In conjunction with the water-blocking frame and the sealing plate, the connection between the tempered glass panel and the pre-embedded shaft can be sealed, and the bottom of the tempered glass panel can also be protected to reduce damage.

[0008] Preferably, the top end of the pre-embedded shaft is provided with several symmetrically arranged sliding grooves, which are located at both ends of the adjustment groove. The two ends of the positioning shaft are connected to limit tubes, which are movably locked inside the sliding grooves and can limit the position of the positioning shaft by means of locking bolts. This can correct any deviation in the embedded position of the pre-embedded shaft. Even if the position of the pre-embedded shaft is deviated, it can be corrected by adjusting the position of the positioning shaft, ensuring the verticality and stability of the tempered glass plate and reducing installation errors.

[0009] Preferably, a set of symmetrically arranged extension plates are fixedly connected to the top of the positioning shaft, and a snap-fit ​​plate is connected to the outside of the extension plate. A sealing strip is provided between the snap-fit ​​plate and the tempered glass plate for limiting the two ends of the tempered glass. The outside of the snap-fit ​​plate is connected to the water-proof frame to ensure the stability of the installation.

[0010] Preferably, the water-separating frame has several snap-fit ​​grooves inside, and a sealing block is snapped into each snap-fit ​​groove. A limiting suction cup is provided on the outer side of the sealing block close to the snap-fit ​​plate. An expansion tube is connected to the side of the sealing block away from the snap-fit ​​plate and rests against the inside of the snap-fit ​​groove. A rubber tube is provided inside the sealing block that runs through the limiting suction cup and the expansion tube. The double sealing design of the sealing plate and the bottom water-separating frame effectively prevents water from entering the connection and prevents water leakage. At the same time, the sealing strip and the limiting suction cup further enhance the sealing performance and extend the service life of the shower room.

[0011] Preferably, the top of the sealing block is connected to a tension band for pulling the sealing block outward, and the top of the sealing block is provided with an exhaust pipe. The exhaust pipe is provided with a puncturable sealing membrane plate. The exhaust pipe is used to be inserted into the rubber tube during subsequent disassembly to change the air pressure to disassemble the limiting suction cup and to disassemble the water separator.

[0012] Preferably, the bottom of the pre-embedded shaft is provided with a pair of fixing plates, and several hollow tubes for positioning are provided between the fixing plates. The pre-embedded depth can be adjusted according to the tempered glass plate of different sizes. With the fixing of the limiting tube and the locking bolt, the overall structure’s resistance to displacement and durability are significantly improved.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] 1. This utility model, through the coordinated design of the pre-embedded shaft and the positioning shaft, can accurately position the tempered glass plate during installation. Even if the position of the pre-embedded shaft is offset, it can be corrected by adjusting the position of the positioning shaft, ensuring the verticality and stability of the tempered glass plate and reducing installation errors.

[0015] 2. This utility model adopts a modular design for the water-blocking frame, and the sealing block can be quickly disassembled through the vent pipe and tension belt, which facilitates the replacement of aging parts, avoids the problem of glass partition loosening due to unstable bottom support, and reduces maintenance costs;

[0016] 3. This utility model, through the design of a fixed plate and hollow tube at the bottom of the pre-embedded shaft, allows for adjustment of the pre-embedded depth according to tempered glass plates of different sizes. Combined with the fixing of the limiting tube and locking bolts, it significantly improves the overall structure's resistance to displacement and durability. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0018] Figure 2 This is a schematic diagram of the bottom structure of the embedded shaft of this utility model;

[0019] Figure 3 This utility model Figure 2 Enlarged view of a portion of point A in the middle;

[0020] Figure 4 This is a schematic diagram of the water-blocking frame structure of this utility model;

[0021] Figure 5 This is a schematic diagram of the sealing block structure of this utility model;

[0022] In the diagram: 1. Embedded shaft; 2. Tempered glass plate; 3. Waterproof bracket; 4. Sealing plate; 11. Positioning shaft; 12. Sliding groove; 13. Limiting tube; 14. Sealing strip; 15. Snap-fit ​​plate; 31. Buffer pressure plate; 32. Snap-fit ​​groove; 33. Sealing block; 34. Limiting suction cup; 35. Tension band; 36. Exhaust pipe; 361. Sealing membrane plate; 37. Expansion pressure tube. Detailed Implementation

[0023] 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.

[0024] Please see Figures 1-5 This utility model provides a technical solution: a frameless shower room glass partition, comprising,

[0025] A set of pre-embedded shafts 1 are respectively set in the top of the shower room and in the ground. The top of the pre-embedded shaft 1 is provided with an adjustment groove, and the positioning shaft 11 is movably locked inside the adjustment groove. The tempered glass plate 2 is set between the positioning shafts 11. A sealing plate 4 is provided at the connection between the top pre-embedded shaft 1 and the tempered glass plate 2. The sealing plate 4 is made of rubber. A water-proof bracket 3 is provided at the connection between the bottom pre-embedded shaft 1 and the tempered glass plate 2.

[0026] The bottom of the water-blocking frame 3 is provided with a set of buffer plates 31 that abut against the top of the pre-embedded shaft 1. The buffer plates 31 are used to block water flow. The water-blocking frame 3 is used to fit the top of the gap between the adjusting groove and the positioning shaft 11 to protect the bottom of the tempered glass panel 2. When the glass partition needs to be installed, the pre-embedded shaft 1 can be installed on the ground and the ceiling. Under the limiting action of the positioning shaft 11, the tempered glass panel 2 can be positioned. When the position of the pre-embedded shaft 1 is offset, the position of the positioning shaft 11 can be adjusted to calibrate the subsequent installation position. In conjunction with the water-blocking frame 3 and the sealing plate 4, the connection between the tempered glass panel 2 and the pre-embedded shaft 1 can be sealed, and the bottom of the tempered glass panel 2 can also be protected to reduce damage.

[0027] like Figure 2 and Figure 3 As shown, to ensure installation stability, the top of the pre-embedded shaft 1 is provided with several symmetrically arranged sliding grooves 12. The sliding grooves 12 are located at both ends of the adjustment groove. The two ends of the positioning shaft 11 are connected to limit tubes 13. The limit tubes 13 are movably locked inside the sliding grooves 12 and can limit the position of the positioning shaft 11 with the help of locking bolts. This can correct any deviation in the embedded position of the pre-embedded shaft 1. During the calibration of the tempered glass plate 2, the position of the positioning shaft 11 can be adjusted. The locking bolts are inserted into the limit tubes 13 for positioning, which can keep the tempered glass plate 2 vertical. This can reduce the occurrence of unexpected deviations during installation and can adjust the verticality of the tempered glass plate 2 within a certain error range, reducing tilting and deviation.

[0028] like Figure 3 As shown, a set of symmetrically arranged extension plates are fixedly connected to the top of the positioning shaft 11, and a snap-fit ​​plate 15 is connected to the outside of the extension plate. A sealing strip 14 is provided between the snap-fit ​​plate 15 and the tempered glass plate 2 for limiting the two ends of the tempered glass. The outside of the snap-fit ​​plate 15 is connected to the water-proof frame 3. The snap-fit ​​plate 15 is used for auxiliary limiting and, together with the sealing strip 14, it is attached to the tempered glass plate 2 to play a role in sealing and protection.

[0029] like Figure 4 and Figure 5As shown, the water-blocking frame 3 has several snap-fit ​​grooves 32 inside, and a sealing block 33 is snapped inside the snap-fit ​​groove 32. The sealing block 33 is provided with a limiting suction cup 34 on the outer side close to the snap-fit ​​plate 15. The side of the sealing block 33 away from the snap-fit ​​plate 15 is connected to an expansion pressure tube 37 that abuts against the inside of the snap-fit ​​groove 32. The sealing block 33 is provided with a rubber tube that passes through the limiting suction cup 34 and the expansion pressure tube 37. During the limiting process, one end of the water-blocking frame 3 can be snapped into the inside of the wall, and the water-blocking frame 3 can be pressed against the bottom of the tempered glass plate 2. With the help of the limiting suction cup 34, it can adhere to the tempered glass plate 2, which can play a role in water prevention, reduce water stains and other residues on the surface of the tempered glass plate 2, and play a role in auxiliary support for the tempered glass plate 2.

[0030] like Figure 4 and Figure 5 As shown, a tension band 35 is connected to the top of the sealing block 33 for pulling the sealing block 33 outward. An exhaust pipe 36 is inserted into the top of the sealing block 33. The exhaust pipe 36 has a pierceable sealing membrane plate 361 inside. The exhaust pipe 36 is used to insert into the rubber tube during subsequent disassembly to change the air pressure and disassemble the limiting suction cup 34. It is used to disassemble the water separator 3. In the case of aging of the water separator 3 after long-term use, the operator can insert the exhaust pipe 36 downward, penetrating the rubber tube and the rear expansion tube 37, which can reduce the suction force of the limiting suction cup 34 on the surface of the tempered glass plate 2. The sealing block 33 can be pulled out with the help of the tension band 35, which facilitates the disassembly of the water separator 3 and the replacement of the bottom water separator 3, reducing the instability of the glass partition caused by the unstable bottom support.

[0031] like Figure 2 As shown, the bottom of the pre-embedded shaft 1 is provided with a pair of fixing plates, and there are several hollow tubes between the fixing plates for positioning. Accessories can be connected in the hollow tubes to increase the pre-embedded depth. Adjustments can be made according to the different sizes of tempered glass plates 2 to ensure the stability of the installation.

[0032] Working principle: First, when installing a glass partition, the pre-embedded shaft 1 can be installed on the ground and the ceiling. Under the limiting action of the positioning shaft 11, the tempered glass panel 2 can be positioned. If the position of the pre-embedded shaft 1 deviates, the position of the positioning shaft 11 can be adjusted to calibrate the subsequent installation position. With the help of the water-proof bracket 3 and the sealing plate 4, the connection between the tempered glass panel 2 and the pre-embedded shaft 1 can be sealed, and the bottom of the tempered glass panel 2 can be protected to reduce damage. During the installation process, the pre-embedded shaft 1 can be embedded and limited, and the tempered glass panel 2 can be locked in the gap of the positioning shaft 11. With the help of the sealing strip 14, it can play a sealing protection role. With the help of the water-proof bracket 3, it can be locked on the side near the ground to protect the bottom of the tempered glass panel 2, which can reduce the impact of bumps and heavy objects falling on the bottom of the tempered glass panel 2.

[0033] Then, during the calibration of the tempered glass plate 2, the position of the positioning shaft 11 can be adjusted, and the positioning can be achieved by inserting the locking bolt into the limiting tube 13. This can maintain the tempered glass plate 2 in a vertical position and reduce the possibility of unexpected displacement during installation.

[0034] Finally, if the water-blocking frame 3 ages after long-term use, the operator can insert the vent pipe 36 downwards, passing through the rubber tube and the rear expansion tube 37, which can reduce the suction force of the limiting suction cup 34 on the surface of the tempered glass plate 2. The sealing block 33 can be pulled out with the help of the tension band 35, making it easy to disassemble the water-blocking frame 3 and replace the bottom water-blocking frame 3, reducing the instability of the glass partition caused by the unstable bottom support.

[0035] 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 frameless shower room glass partition, characterized in that: include, A set of pre-embedded shafts (1) are respectively set at the top of the shower room and in the ground. The top of the pre-embedded shaft (1) is provided with an adjustment groove, and a positioning shaft (11) is movably locked inside the adjustment groove. The tempered glass plate (2) is set between the positioning shafts (11). A sealing plate (4) is provided at the connection between the pre-embedded shaft (1) at the top and the tempered glass plate (2). The sealing plate (4) is made of rubber. A water-blocking frame (3) is provided at the connection between the pre-embedded shaft (1) at the bottom and the tempered glass plate (2). The bottom of the water-blocking frame (3) is provided with a set of buffer plates (31) that abut against the top of the pre-embedded shaft (1). The buffer plates (31) are used to block water flow. The water-blocking frame (3) is used to fit the top of the gap between the adjustment groove and the positioning shaft (11) to protect the bottom of the tempered glass plate (2).

2. The frameless shower room glass partition according to claim 1, characterized in that: The pre-embedded shaft (1) has several symmetrically arranged sliding grooves (12) at its top end. The sliding grooves (12) are located at both ends of the adjustment groove. The positioning shaft (11) is connected to the two ends of the limiting tube (13). The limiting tube (13) is movably locked inside the sliding groove (12) and can limit the position of the positioning shaft (11) by means of locking bolts. It can correct the position of the pre-embedded shaft (1) after it is offset.

3. The frameless shower room glass partition according to claim 1, characterized in that: The top of the positioning shaft (11) is fixedly connected to a set of symmetrically arranged extension plates, and the outer side of the extension plates is connected to a snap-fit ​​plate (15). A sealing strip (14) is provided between the snap-fit ​​plate (15) and the tempered glass plate (2) for limiting the two ends of the tempered glass. The outer side of the snap-fit ​​plate (15) is connected to the water-proof frame (3) and abuts against it.

4. The frameless shower room glass partition according to claim 1, characterized in that: The water-blocking frame (3) has several snap-fit ​​grooves (32) inside. A sealing block (33) is snapped inside the snap-fit ​​groove (32). A limiting suction cup (34) is provided on the outer side of the sealing block (33) close to the snap-fit ​​plate (15). An expansion pressure tube (37) is connected to the side of the sealing block (33) away from the snap-fit ​​plate (15) and abuts against the inside of the snap-fit ​​groove (32). A rubber tube is provided inside the sealing block (33) that passes through the limiting suction cup (34) and the expansion pressure tube (37).

5. A frameless shower room glass partition according to claim 4, characterized in that: The top of the sealing block (33) is connected to a tension band (35) for pulling the sealing block (33) outward. The top of the sealing block (33) is provided with an exhaust pipe (36). The exhaust pipe (36) is provided with a puncturable sealing membrane plate (361). The exhaust pipe (36) is used to be inserted into the rubber tube during subsequent disassembly to change the air pressure to disassemble the limiting suction cup (34) and to disassemble the water separator (3).

6. A frameless shower room glass partition according to claim 1, characterized in that: The pre-embedded shaft (1) has a pair of fixing plates at its bottom, and several hollow tubes for positioning are provided between the fixing plates.