A shower room with dry and wet partitions

By using a hollow-structure sealing strip with built-in magnets and a rotating shaft assembly in a wet and dry separated shower enclosure, the problem of sealing strip fatigue damage due to positive pressure is solved, achieving more efficient sealing and a longer service life.

CN224468872UActive Publication Date: 2026-07-07ZHONGSHAN LENS HOME CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN LENS HOME CO LTD
Filing Date
2025-09-22
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The sealing strips of existing wet and dry separation shower rooms are prone to fatigue damage due to long-term positive pressure, resulting in a decrease in sealing performance and affecting the use effect.

Method used

The hollow structure of the partition sealing strip and the door sealing strip incorporates a magnetic strip, which uses magnetic attraction to achieve a seal, reducing positive pressure. Combined with the pivot assembly and limit structure, it optimizes the opening and closing process of the door.

Benefits of technology

It improves the service life and sealing effect of the sealing strip, ensures accurate door positioning, reduces the risk of leakage, and enhances ease of use.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224468872U_ABST
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Abstract

The utility model relates to a shower room technical field, especially a kind of dry and wet partition shower room, including shower room body and the partition that is used to separate shower room body into two independent spaces;Every independent space is rotatably connected with door on;The both sides of partition are fixed with partition seal strip;Door seal strip is set to the side of door away from pivot;Partition seal strip and door seal strip are hollow structure;The inside of door seal strip and partition seal strip is fixed with magnet strip.In use the utility model, partition seal strip and door seal strip under the condition of sealing, and will not produce greater positive pressure, can guarantee the service life of partition seal strip and door seal strip, guarantee the sealing property of door.
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Description

Technical Field

[0001] This utility model relates to the field of shower room technology, and in particular to a dry and wet separation shower room. Background Technology

[0002] In the field of bathroom equipment, wet and dry separation shower rooms have been widely used because they can effectively divide the shower area from the non-shower area, prevent water from splashing into other areas during showering, and keep the bathroom space dry and clean.

[0003] Existing wet and dry separation shower rooms typically divide the interior space into two independent functional areas using a partition. One area is dedicated to showering, while the other can be used for changing clothes, storing toiletries, or other functions. To ensure the enclosure of both spaces and ease of use, each space is equipped with a door.

[0004] In these door structures, a common approach to sealing and limiting the connection between the door and the partition is to install a single-sided sealing strip on the side of the door furthest from its pivot point. This single-sided sealing strip serves two purposes: firstly, it seals the gap between the door and the partition, preventing water from leaking into non-shower areas during showering; secondly, as a door limiting structure, it uses its own rigidity to support the door on the partition after it is closed, thus positioning the door and ensuring it remains closed.

[0005] However, this sealing structure using a single-sided sealing strip has significant drawbacks. When the door is closed, the sealing strip is constantly subjected to positive pressure from between the door and the partition. Under this stress for extended periods, the sealing strip is highly susceptible to fatigue damage and cracking. Once the sealing strip cracks, its original sealing performance will significantly decrease or even be lost, allowing water to easily leak through the crack. This severely affects the door's sealing effect, thereby compromising the shower enclosure's wet and dry separation function and causing inconvenience to the user. Utility Model Content

[0006] The purpose of this utility model is to provide a dry and wet separation shower room in response to the defects and deficiencies of the existing technology.

[0007] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0008] The present invention provides a wet and dry separation shower room, comprising a shower room body and a partition for dividing the shower room body into two independent spaces; each of the independent spaces is rotatably connected to a door;

[0009] Both sides of the partition are fixed with partition sealing strips; the side of the door away from the pivot is provided with a door sealing strip; both the partition sealing strip and the door sealing strip are hollow structures; and magnet strips are fixed inside the door sealing strip and the partition sealing strip.

[0010] Furthermore, a pivot assembly is provided on both the upper and lower sides of the door; the pivot assembly consists of a pivot body fixed on the door and a pivot seat fixed on the shower room body;

[0011] A rotating shaft is fixed on the rotating shaft body; a rotating shaft seat is provided with a rotating shaft hole that matches the rotating shaft; a ball bearing is provided in the rotating shaft hole; the end of the rotating shaft is inserted into the rotating shaft hole and pressed against the ball bearing.

[0012] Furthermore, door frames are fixed to the edges of the doors; vertical inserts and horizontal inserts are provided on the pivot body;

[0013] The horizontal insert plate matches the inner cavity of the door frame; the vertical insert and the horizontal insert plate are respectively inserted into two adjacent door frames on the same door; the door frame is provided with positioning holes; the horizontal insert plate is threaded with a screw; the screw is inserted into the positioning hole.

[0014] Furthermore, the shower enclosure body has a bottom frame on both the upper and lower surfaces; a connecting plate is provided inside the bottom frame; a first countersunk hole is provided inside the pivot seat; a bolt is provided inside the first countersunk hole; a threaded hole is provided on the connecting plate; and the bolt passes through the bottom frame and is threadedly connected to the threaded hole.

[0015] Furthermore, a second countersunk hole is provided at the top of the rotating shaft hole; a countersunk hole limiting block is provided inside the second countersunk hole; a rotating shaft limiting block is provided on the shaft body of the rotating shaft; the rotating shaft limiting block is inserted into the second countersunk hole; the countersunk hole limiting block is located in the rotation direction of the rotating shaft limiting block.

[0016] With the above structure, the beneficial effects of this utility model are as follows: When the door is closed, the door sealing strip faces the partition sealing strip, and under the mutual attraction of the magnetic strips inside the door sealing strip and the magnetic strips inside the partition sealing strip, the side of the door sealing strip away from the door and the side of the partition sealing strip away from the partition stick together to form a sealing line. Under the attraction of the two magnetic strips, there is a certain resistance to opening the door, which can keep the door in place; when opening the door, it is only necessary to overcome the attraction force of the two magnetic strips. Both the partition sealing strip and the door sealing strip can be made of materials with low hardness; and under sealing conditions, the partition sealing strip and the door sealing strip will not generate a large positive pressure, which can ensure the service life of the partition sealing strip and the door sealing strip and ensure the sealing performance of the door. Attached Figure Description

[0017] Figure 1 This is a perspective view of the present invention;

[0018] Figure 2 This is a cross-sectional view of the present invention;

[0019] Figure 3 yes Figure 2 Enlarged view of part A in the image;

[0020] Figure 4 This is a partial cross-sectional view of the connection between the pivot assembly and the base frame and the door;

[0021] Figure 5 This is a first-person perspective 3D view of the hinge assembly;

[0022] Figure 6 This is a second-view stereoscopic view of the hinge assembly;

[0023] Explanation of reference numerals in the attached figures:

[0024] 1. Shower enclosure body; 101. Base frame; 102. Partition; 2. Door; 201. Door frame;

[0025] 20101, Positioning hole; 3, Rotary shaft assembly; 301, Rotary shaft body; 30101, Rotary shaft limit block;

[0026] 30102, Shaft; 30103, Vertical insert bar; 30104, Horizontal insert plate; 30105, Machine screw;

[0027] 302, Shaft seat; 30201, Bolt; 30202, First countersunk hole; 30203, Decorative cover plate;

[0028] 30204, Ball bearing; 30205, Shaft hole; 30206, Countersunk hole limit block; 30207, Second countersunk hole;

[0029] 30208. Connecting plate; 4. Partition sealing strip; 5. Magnet strip; 6. Door sealing strip. Detailed Implementation

[0030] The present invention will be further described below with reference to the accompanying drawings.

[0031] like Figures 1 to 6 As shown, the present invention provides a wet and dry separation shower room, which includes a shower room body 1 and a partition 102 for dividing the shower room body 1 into two independent spaces; each of the independent spaces is rotatably connected to a door 2;

[0032] Both sides of the partition 102 are fixed with partition sealing strips 4; the side of the door 2 away from the pivot is provided with a door sealing strip 6; both the partition sealing strip 4 and the door sealing strip 6 are hollow structures; both the door sealing strip 6 and the partition sealing strip 4 have a magnet strip 5 fixed inside.

[0033] Both the partition sealing strip 4 and the door sealing strip 6 are made of plastically deformable rubber material. When the door is closed, the door sealing strip 6 faces the partition sealing strip 4. Due to the mutual attraction between the magnetic strips 5 inside the door sealing strip 6 and the partition sealing strip 4, the side of the door sealing strip 6 away from the door 2 and the side of the partition sealing strip 4 away from the partition 102 adhere to each other, forming a sealing line. Under the attraction of the two magnetic strips 5, there is some resistance when opening the door 2, which helps to position the door 2. When opening the door, only the attraction force of the two magnetic strips 5 needs to be overcome. Both the partition sealing strip 4 and the door sealing strip 6 can be made of materials with low hardness; and under sealing conditions, they do not generate significant positive pressure, ensuring their service life and the door's sealing performance.

[0034] In a preferred embodiment of this utility model, a pivot assembly 3 is provided on both the upper and lower sides of the door 2; the pivot assembly 3 consists of a pivot body 301 fixed on the door 2 and a pivot seat 302 fixed on the shower room body 1.

[0035] A rotating shaft 30102 is fixed on the rotating shaft body 301; a rotating shaft hole 30205 matching the rotating shaft 30102 is provided on the rotating shaft seat 302; a ball bearing 30204 is provided in the rotating shaft hole 30205; after the end of the rotating shaft 30102 is inserted into the rotating shaft hole 30205, it abuts against the ball bearing 30204.

[0036] The pivot holes 30205 on the upper and lower sides of the door 2 are coaxially arranged. The door 2 is rotatably connected to the pivot hole 30205 through the pivot 30102. In addition, the ball bearing 30204 provides rolling support for the pivot 30102, which greatly reduces the resistance to the rotation of the door 2 and makes the rotation of the door 2 smoother.

[0037] In a preferred embodiment of the present invention, door frame 201 is fixed on the edge of the door 2; and vertical insert 30103 and horizontal insert 30104 are provided on the pivot body 301.

[0038] The horizontal insert plate 30104 matches the inner cavity of the door frame 201; the vertical insert strip 30103 and the horizontal insert plate 30104 are respectively inserted into two adjacent door frames 201 on the same door 2; the door frame 201 is provided with a positioning hole 20101; the horizontal insert plate 30104 is threaded with a screw 30105; the screw 30105 is inserted into the positioning hole 20101;

[0039] The door frame 201 has a hollow shell structure, and its outer surface is open. Vertical inserts 30103 and horizontal inserts 30104 are inserted into adjacent door frames 201, and machine screws 30105 are inserted into positioning holes 20101 for positioning, thus assembling the door 2 with the pivot 301. This simplifies the assembly and disassembly of the pivot 301. Furthermore, the right angle between the vertical inserts 30103 and horizontal inserts 30104 limits the position of the door frame 201, allowing the assembly of the door frame 201 to be completed directly during the assembly of the pivot 301, simplifying the assembly process.

[0040] In a preferred embodiment of this utility model, a bottom frame 101 is provided on both the upper and lower surfaces of the shower enclosure body 1; a connecting plate 30208 is provided inside the bottom frame 101; a first countersunk hole 30202 is provided inside the pivot seat 302; a bolt 30201 is provided inside the first countersunk hole 30202; a threaded hole is provided on the connecting plate 30208; the bolt 30201 passes through the bottom frame 101 and is threadedly connected to the threaded hole.

[0041] The bottom frame 101 has an "H" shaped cross-section, forming two slots, one above the other. The pivot seat 302 is embedded in the slot above the bottom frame 101, while the connecting plate 30208 is embedded in the slot below the bottom frame 101. The bolt 30201 passes through the through hole of the bottom frame 101 and is threadedly connected to the threaded hole of the connecting plate 30208. A decorative cover plate 30203 is embedded on the end face of the first countersunk hole 30202.

[0042] In a preferred embodiment of this utility model, a second countersunk hole 30207 is provided at the top of the rotating shaft hole 30205; a countersunk hole limiting block 30206 is provided inside the second countersunk hole 30207; a rotating shaft limiting block 30101 is provided on the shaft body of the rotating shaft 30102; the rotating shaft limiting block 30101 is inserted into the second countersunk hole 30207; and the countersunk hole limiting block 30206 is positioned in the rotation direction of the rotating shaft limiting block 30101.

[0043] The rotation range of the pivot body 301 is limited by the cooperation of the pivot limit block 30101 and the countersunk hole limit block 30206 to prevent the door 2 from rotating too much and colliding with the wall.

[0044] The above description is only a preferred embodiment of the present utility model. Therefore, all equivalent changes or modifications made to the structure, features and principles described in the claims of the present utility model patent application are included in the scope of the present utility model patent application.

Claims

1. A wet and dry separation shower room, comprising a shower room body (1) and a partition (102) for dividing the shower room body (1) into two independent spaces; each of the independent spaces is rotatably connected to a door (2). Its features are: Both sides of the partition (102) are fixed with partition sealing strips (4); the side of the door (2) away from the pivot is provided with a door sealing strip (6); both the partition sealing strip (4) and the door sealing strip (6) are hollow structures; both the door sealing strip (6) and the partition sealing strip (4) have a magnet strip (5) fixed inside.

2. The wet and dry separation shower room according to claim 1, characterized in that: The door (2) is provided with a pivot assembly (3) on both the upper and lower sides; the pivot assembly (3) consists of a pivot body (301) fixed on the door (2) and a pivot seat (302) fixed on the shower room body (1); A rotating shaft (30102) is fixed on the rotating shaft body (301); a rotating shaft hole (30205) matching the rotating shaft (30102) is provided on the rotating shaft seat (302); a ball bearing (30204) is provided in the rotating shaft hole (30205); the end of the rotating shaft (30102) is inserted into the rotating shaft hole (30205) and then pressed against the ball bearing (30204).

3. A wet and dry separation shower room according to claim 2, characterized in that: Door frames (201) are fixed on the edges of the door (2); vertical inserts (30103) and horizontal inserts (30104) are provided on the pivot (301). The horizontal insert plate (30104) matches the inner cavity of the door frame (201); the vertical insert (30103) and the horizontal insert plate (30104) are respectively inserted into two adjacent door frames (201) on the same door (2); the door frame (201) is provided with a positioning hole (20101); the horizontal insert plate (30104) is threaded with a screw (30105); the screw (30105) is inserted into the positioning hole (20101).

4. A wet and dry separation shower room according to claim 2, characterized in that: The shower enclosure body (1) is provided with a bottom frame (101) on both the upper and lower surfaces; a connecting plate (30208) is provided inside the bottom frame (101); a first countersunk hole (30202) is provided inside the pivot seat (302); a bolt (30201) is provided inside the first countersunk hole (30202); a threaded hole is provided on the connecting plate (30208); the bolt (30201) passes through the bottom frame (101) and is threadedly connected to the threaded hole.

5. A wet and dry separation shower room according to claim 2, characterized in that: The top end of the pivot hole (30205) is provided with a second countersunk hole (30207); a countersunk hole limiting block (30206) is provided inside the second countersunk hole (30207); a pivot limiting block (30101) is provided on the shaft of the pivot (30102); the pivot limiting block (30101) is inserted into the second countersunk hole (30207); the countersunk hole limiting block (30206) is located in the rotation direction of the pivot limiting block (30101).