EP4177422A1

EP4177422A1 - Shower room and horizontal beam

Info

Publication number: EP4177422A1
Application number: EP20953075.7A
Authority: EP
Inventors: Xiaofa Lin; Xiaoshan Lin; Xiang ZHONG; Qiqiao Liu; Xiaoqing DENG; Feiming DENG; Pengxing Zheng
Original assignee: Fujian Xihe Sanitary Ware Technology Co Ltd
Current assignee: Fujian Xihe Sanitary Ware Technology Co Ltd
Priority date: 2020-09-10
Filing date: 2020-11-11
Publication date: 2023-05-10
Also published as: CN112177385B; WO2022052290A1; CN112177385A

Abstract

A shower room and a horizontal beam. The horizontal beam comprises: a horizontal beam body and a wall panel securing assembly; a mount slot and a first through hole in communication with the mount slot are arranged on the horizontal beam body; the wall panel securing assembly comprises a wall panel position limiting member and a wall panel securing base which can be secured on a first surface of a wall panel; the wall panel securing base can be embedded into the mount slot, and the wall panel position limiting member is configured as passing through the first through hole and restricting the wall panel securing base to within the mount slot. The shower room comprises a wall panel and a support structure which secures the wall panel; the wall panel comprises a first surface and an opposing second surface, the second surface being oriented towards an inner side of the shower room; and the support structure comprises the described horizontal beam.

Description

Technical Field

The present disclosure relates to but is not limited to the technical field of sanitary ware, in particular to a shower room and a transverse (or horizontal) beam.

Background

With improvement of living standards, people pay more attention to quality of life. In modern life, shower room has become an absolute necessary part of daily life.
Transverse beams and longitudinal beams and glass walls are generally used for a shower room, wherein a frame structure is formed by the transverse beams and the longitudinal beams, and the glass walls are embedded in the frame. During use, the inside of the glass wall is easily spurted with stains. Because there are dead corners at joints between the glass walls and the transverse beams or the longitudinal beams, their cleaning is not easy.

Summary

The following is a summary of the subject matter described in detail herein. This summary is not intended to limit the protection scope of the claims.
Embodiments of the present disclosure provide a shower room and a transverse beam, which can improve the convenience of cleaning of the shower room.
A shower room provided by an embodiment of the present disclosure includes a wallboard and a support structure for fixing the wallboard;

the wallboard includes a first surface and a second surface oppositely disposed, and the second surface faces the inside of the shower room;
wherein the support structure includes a transverse beam, the transverse beam includes a transverse beam body and a wallboard fixation assembly, and the transverse beam body is provided with an installation groove and a first penetration hole communicated with the installation groove; the wallboard fixation assembly includes a wallboard limit member and a wallboard fixation seat fixed to the first surface; and
the wallboard fixation seat is embedded in the installation groove, and the wallboard limit member penetrates through the first penetration hole and limits the wallboard fixation seat in the installation groove.

A transverse beam provided by an embodiment of the present disclosure includes a transverse beam body and a wallboard fixation assembly;

the transverse beam body is provided with an installation groove and a first penetration hole communicated with the installation groove; and
the wallboard fixation assembly includes a wallboard limit member and a wallboard fixation seat which can be fixed to a first surface of the wallboard;
wherein the wallboard fixation seat can be embedded in the installation groove, and the wallboard limit member is configured to penetrate the first penetration hole and limit the wallboard fixation seat in the installation groove.

The embodiments of the present disclosure provide a shower room and a transverse beam, the support structure for fixing the wallboard is connected with the wallboard through the transverse beam, wherein the transverse beam is connected to the first surface of the wallboard through the cooperation between the wallboard fixation seat embedded in the installation groove and the wallboard limit member penetrating through the first penetration hole, when stains are sputtered on the second surface of the wallboard, since the wallboard fixation seat is fixed to the first surface of the wallboard, and the second surface of the wallboard is a smooth surface without dead angle for cleaning, the shower room is easier to clean.
Other features and advantages of embodiments of the present disclosure will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of embodiments of the present disclosure. Objects and other advantages of the embodiments of the present disclosure can be realized and obtained by the structures particularly indicated in the description, claims and drawings.
Other aspects will become apparent after reading and understanding the drawings and detailed description.

Brief description of drawings

Accompanying drawings are used to provide a further understanding of technical solutions of embodiments of the present disclosure, and constitute a part of the description. They are used together with the embodiments of the present disclosure to explain the technical solutions of the present disclosure, and do not constitute a restriction on the technical solutions of the embodiments of the present disclosure.

FIG. 1 is a structural diagram of a shower room according to an embodiment of the present disclosure.
FIG. 2 is an exploded diagram of a shower room according to an embodiment of the present disclosure.
FIG. 3 is a plan view of a first wall unit according to an embodiment of the present disclosure.
FIG. 4 is a sectional view of position A in FIG. 3.
FIG. 5 is a schematic structural diagram of a wall attaching transverse beam according to an embodiment of the present disclosure.
FIG. 6 is a structural diagram of a wallboard fixation seat according to an embodiment of the present disclosure.
FIG. 7 is a structural diagram of connection between a wallboard fixation seat and a wallboard according to an embodiment of the present disclosure.
FIG. 8 is a schematic diagram of an installation structure of a wall attaching transverse beam according to an embodiment of the present disclosure.
FIG. 9 is a schematic structural diagram of a transverse beam fixation seat according to an embodiment of the present disclosure.
FIG. 10 is a sectional view of position B in FIG. 3.
FIG. 11 is a sectional view of position C in FIG. 3.
FIG. 12 is a schematic structural diagram of a longitudinal beam according to an embodiment of the present disclosure.
FIG. 13 is a sectional view of a longitudinal beam according to an embodiment of the present disclosure.
FIG. 14 is an installation structure diagram of a rotating clamp structure according to an embodiment of the present disclosure.
FIG. 15 is an exploded diagram of a rotating clamp structure according to an embodiment of the present disclosure.
FIG. 16 is a sectional view of a rotating clamp structure according to an embodiment of the present disclosure.
FIG. 17 is a structural diagram of a rotating clamp fixation seat according to an embodiment of the present disclosure.
FIG. 18 is an installation structure diagram of a rotating clamp fixation seat according to an embodiment of the present disclosure.
FIG. 19 is a sectional view of a rotating shaft assembly according to an embodiment of the present disclosure.
FIG. 20 is a structural diagram of a wallboard waterproof strip and a door panel waterproof strip according to an embodiment of the present disclosure.
FIG. 21 is a structural diagram of a first magnetic strip and a second magnetic strip according to an embodiment of the present disclosure.
FIG. 22 is a schematic diagram of a water-block structure according to an embodiment of the present disclosure.
FIG. 23 is a sectional view of a water-block structure according to an embodiment of the present disclosure.
FIG. 24 is a sectional view of a door handle according to an embodiment of the present disclosure.
FIG. 25 is a sectional view of a pivot shaft structure according to an embodiment of the present disclosure.

FIG. 26 is an installation process diagram of a shower room according to an embodiment of the present disclosure.

Detailed Description

Hereinafter, embodiments of the present disclosure will be described in detail with reference to the accompanying drawings. It is noted that the embodiments in the present disclosure and the features in the embodiments may be combined with each other randomly if there is no conflict.
In the description of the embodiments of the present disclosure, orientation or position relationships indicated by terms "upper", "lower", "a side", "other side", "an end", "other end", "side", "opposite", "four corners", "periphery" and "square structure" and the like are based on orientation or position relationships shown in the drawings, which are only for convenience of describing the embodiments of the present disclosure and simplifying the description, rather than indicating or implying that the structure referred has the specific orientation, is constructed and operated in the specific orientation, and thus cannot be interpreted as a limitation on the embodiments of the present disclosure.
In the description of the embodiments of the present disclosure, unless otherwise explicitly specified and limited, the terms "connection", "direct connection", "indirect connection", "fixed connection", "installation" and "assembly" should be understood in a broad sense, for example, they may be fixed connection, detachable connection or integrated connection; and the terms "installation", "connection" and "fixed connection" may be direct connection, or indirect connection through an intermediary, or may be an internal communication between two elements. For those of ordinary skills in the art, the specific meanings of the above terms in the present disclosure may be understood according to specific situations.
An embodiment of the present disclosure provides a shower room, which includes a wallboard and a support structure for fixing the wallboard.
The wallboard includes a first surface and a second surface oppositely disposed, and the second surface faces the inside of the shower room.
The support structure includes a transverse beam, the transverse beam includes a transverse beam body and a wallboard fixation assembly, and an installation groove and a first penetration hole communicated with the installation groove are provided on the transverse beam body. The wallboard fixation assembly includes a wallboard limit member and a wallboard fixation seat fixed to the first surface.
The wallboard fixation seat is embedded in the installation groove, and the wallboard limit member penetrates through the first penetration hole and limits the wallboard fixation seat in the installation groove.
A technical solution of a shower room according to an embodiment of the present disclosure will be illustrated with reference to the accompanying drawings.
FIG. 1 is a structural diagram of a shower room according to an embodiment of the present disclosure, and FIG. 2 is an exploded diagram of a shower room according to an embodiment of the present disclosure. As shown in FIG. 1, the shower room 1 is generally L-shaped and may be disposed at a corner position of the bathroom 2, and can form a rectangular space with wall surfaces of the bathroom 2. In the embodiment of the present disclosure, illustration is made by taking an example that the shower room 1 is disposed at a corner position of the bathroom 2, however the shower room 1 may be disposed at other positions of the bathroom 2, and the position at which the shower room 1 is disposed is not limited in the embodiments of the present application. The shower room 1 may include a first wall unit 11 and a second wall unit 12 disposed perpendicularly. The bathroom 2 may include a first wall surface 21 and a second wall surface 22 disposed perpendicularly. An end of the first wall unit 11 away from the second wall unit 12 may be connected with the first wall surface 21, and an end of the second wall unit 12 away from the first wall unit 11 may be connected with the second wall surface 22. The first wall unit 11 and the second wall unit 12 each include a transverse beam 100, a wallboard 300 and may also include a longitudinal beam 200 and a door panel 400, and the transverse beam 100 may be referred to as a pull rod. The transverse beam 100 and the longitudinal beam 200 may form a support structure for supporting the wallboard. The transverse beam 100, the longitudinal beam 200, the wallboard 300 and the door panel 400 of the first wall unit 11 may be referred to as a first transverse beam 101, a first longitudinal beam 201, a first wallboard 301 and a first door panel 401; and the transverse beam 100, the longitudinal beam 200, the wallboard 300 and the door panel 400 of the second wall unit 12 may be referred to as a second transverse beam 102, a second longitudinal beam 202, a second wallboard 302 and a second door panel 402. Two first transverse beams 101 may be provided and may be disposed at an upper end and a lower end of the first longitudinal beam 201. The first transverse beams 101 and the first longitudinal beam 201 may constitute a first support structure, the first transverse beam 101 at the upper end may be referred to as an upper transverse beam, and the first transverse beam 101 at the lower end may be referred to as a lower transverse beam. The first wallboard 301 may be fixed between the two first transverse beams 101, and the first wallboard 301 may be fixed by the first longitudinal beam 201 and the two first transverse beams 101 respectively located at the upper end and lower end of the first longitudinal beam 201. The shower room 1 may include a first door panel 401, and the first door panel 401 may be disposed at a side of the first wallboard 301 away from the first longitudinal beam 201 and may be rotationally connected to the first transverse beams 101 through first rotating clamp structures 501. Two second transverse beams 102 may be provided and may be disposed at two ends of the second longitudinal beam 202. The second transverse beams 102 and the second longitudinal beam 202 may constitute a second support structure.
When the two second transverse beams 102 are respectively disposed at an upper end and a lower end of the second longitudinal beam 202, the second transverse beam 102 at the upper end may be referred to as an upper transverse beam, and the second transverse beam 102 at the lower end may be referred to as a lower transverse beam. The second wallboard 302 may be fixed to two second transverse beams 102, and the second wallboard 302 may be fixed by the second longitudinal beam 202 and the two second transverse beams 102 respectively located at the upper end and lower end of the second longitudinal beam 202. The shower room 1 may include a second door panel 402, and the second door panel 402 may be disposed at a side of the second wallboard 302 away from the second longitudinal beam 202 and may be rotationally connected with the second transverse beams 102 through second rotating clamp structures 502.
The first door panel 401 may be adjacent to the second door panel 402 to form a double-door structure. In another embodiment, the first wall unit 11 may not include the first door panel 401, and the first wallboard 301 may be adjacent to the second door panel 402. Alternatively, the second wall unit 12 may not include the second door panel 402, and the first door panel 401 may be adjacent to the second wallboard 302. That is, the shower room 1 may include only one shower room door (door panel), which may be disposed on the first wall unit 11 or the second wall unit 12. Alternatively, the first wall unit 11 may not include the first door panel 401, while the second wall unit 12 may not include the second door panel 402, and other shields may be disposed between the first wall unit 11 and the second wall unit 12, which are not limited in the embodiments of the present disclosure. In another embodiment, the shower room 1 may include only the first wall unit 11 or the second wall unit 12, and the shower room 1 may be disposed between opposite wall surfaces of a U-shaped wall structure. In another embodiment, the shower room 1 may include three or more wall units, which may be used to form spaces with other shapes. In the case of the shower room 1 including three or more wall units, the shower room 1 may be configured to be formed by the wall units and one wall surface of the bathroom 2, or may be formed only by the wall units. In this embodiment, both the wallboards and the door panels may be glass panels or laminated glass plates, the glass panels may be tempered glass, and the laminated glass plates can be double-layer laminated glass plates or three-layer laminated glass plates.
Following description is proceeded with transverse beams, longitudinal beams, wallboards and door panels, that is, the transverse beam described below refers to both the first transverse beam 101 and the second transverse beam 102, the longitudinal beam described below refers to both the first longitudinal beam 201 and the second longitudinal beam 202, and the wallboard described below refers to both the first wallboard 301 and the second wallboard 302, etc. When there are differences between structures of the first wall unit 11 and the second wall unit 12, they are described by using terms with "first" and "second".
FIG. 3 is a plan view of a first wall unit 11 according to an embodiment of the present disclosure, and FIG. 4 is a sectional view of position A in FIG. 3. The second wall unit 12 may have a same structure as the first wall unit 11. As shown in FIG. 3 and FIG. 4, the wallboard 300 has a first surface 310 and a second surface 320 (not shown) oppositely disposed, and the second surface 320 (not shown) faces the inside of the shower room 1 and is prone to be spurted with stains during bathing. The transverse beam 100 includes a transverse beam body 110 and a wallboard fixation assembly 120, and an installation groove 111 and a first penetration hole 112 communicated with the installation groove 111 are provided on the transverse beam body 110. The wallboard 300 is fixed to the transverse beam body 110 by the wallboard fixation assembly 120. The wallboard fixation assembly 120 includes a wallboard fixation seat 121 and a wallboard limit member 122. The wallboard fixation seat 121 is embedded in the installation groove 111, and the wallboard limit member 122 penetrates through the first penetration hole 112 and limits the wallboard fixation seat 121 in the installation groove 111. The wallboard limit member 122 is cooperated with the wallboard fixation seat 121 to fix the wallboard 300 on the transverse beam body 110. Referring to FIG. 1, the whole wallboard 300 is located at a side of the transverse beam 100, that is, the first surface 310 of the wallboard 300 is in contact with the transverse beam 100, and the second surface 320 of the wallboard 300 is smooth, and there is no dead angle during cleaning.
An embodiment of the present disclosure provides a shower room 1, the transverse beam 100 is used as a support structure to be connected with the wallboard 300 and fix the wallboard 300. The transverse beam 100 may be connected to the first surface 310 of the wallboard 300 through the cooperation between the wallboard fixation seat 121 embedded in the installation groove 111 and the wallboard limit member 122 penetrating through the first penetration hole 112. When a stain is sputtered on the second surface 320 of the wallboard, since the wallboard fixation seat 121 is fixed to the first surface 310 of the wallboard 300, the second surface 320 of the wallboard is a smooth surface without a dead angle for cleaning, the shower room 1 is easier to clean.
As shown in FIG. 4, two or more installation grooves 111 may be provided and may be disposed along an extension direction of the transverse beam body 110, and the first penetration holes 112 and the wallboard fixation assemblies 120 may be in one-to-one correspondence with the installation grooves 111.
FIG. 5 is a schematic structural diagram of a wall attaching transverse beam according to an embodiment of the present disclosure. As shown in FIG. 4 and FIG. 5, the transverse beam body 110 may include two first side walls 113 oppositely disposed and two second side walls 114 oppositely disposed. One of the two first side walls 113 may be opposite to the first surface 310 of the wallboard 300, and the installation groove 111 may be provided on the first side wall 113 opposite to the wallboard 300. The first penetration hole 112 may be formed on at least one of the two second side walls 114. The first side walls 113 and the second side walls 114 may form a hollow cavity. The transverse beam body 110 may further include a first protrusion 115 and a second protrusion 116 disposed within the hollow cavity. The first protrusion 115 may be connected to the first side wall 113 opposite to the wallboard 300, the second protrusion 116 may be connected to at least one of the two second side walls 114 and may extend in a direction towards the first protrusion 115, the installation groove 111 may be partially located in the first protrusion 115, and the first penetration hole 112 may penetrate through the second protrusion 116 and extend to the first protrusion 115 to be communicated with a portion of the installation groove 111 located in the first protrusion 115. There is a gap between the first protrusion 115 and the second protrusion 116. The wallboard limit member 122 may be a jackscrew, and a thread may be provided in the first penetration hole 112, and the jackscrew 122 is connected with the first penetration hole 112 through the thread. In another example, the second protrusion 116 is connected with the first protrusion 115. In this embodiment, on the premise of ensuring a structural strength of the transverse beam 100, the transverse beam body 110 may be provided as a hollow structure thereby reducing weight of the transverse beam 100 and facilitating fixation and installation of the transverse beam 100.
FIG. 6 is a structural diagram of a wallboard fixation seat 121 according to an embodiment of the present disclosure. As shown in FIG. 4 and FIG. 6, the wallboard fixation seat 121 may include a first end face 123 and a second end face 124 oppositely disposed and a first side face 125 connected with the first end face 123 and the second end face 124. A wallboard limit groove 126 may be disposed in a circumferential direction of the first side face 125, and the wallboard limit member 122 can be clamped with the wallboard limit groove 126 to limit the wallboard fixation seat 121 and the transverse beam body 110 and ensure that the wallboard fixation seat 121 and the transverse beam body 110 will not be separated. Groove arms of the wallboard limit groove 126 may be gradually distanced along a direction from the groove bottom to the groove opening in a V-shape or a trapezoidal shape with a wider top and a narrower bottom. The wallboard limit member 122 and the wallboard limit groove 126 may be in an interference fit.
FIG. 7 is a structural diagram of connection between the wallboard fixation seat 121 and the wallboard 300 according to an embodiment of the present disclosure. As shown in FIG. 6 and FIG. 7, a fixation screw hole 127 penetrating through the first end face 123 and the second end face 124 may be formed on the wallboard fixation seat 121. The wallboard fixation assembly 120 may further include a wallboard fixation screw rod 128, the first surface 310 of the wallboard 300 may also be provided with a first sinking groove 311, a rod head of the wallboard fixation screw rod 128 may be embedded in the first sinking groove 311, and the wallboard fixation screw rod 128 and the fixation screw hole 127 may be connected by threads. In another embodiment, the first end face 123 or the second end face 124 of the wallboard fixation seat 121 may be adhered to the first surface 310.
FIG. 8 is a schematic diagram of an installation structure of a wall attaching transverse beam according to an embodiment of the present disclosure. As shown in FIG. 8, the transverse beam body 110 may extend along a first direction and the transverse beam 100 may further include a wall-fixing portion 130 and a transverse beam fixation assembly 140 which are disposed at an end of the transverse beam body 110. The wall-fixing portion 130 may be disposed at an end of the transverse beam body 110 and extend along a second direction, wherein the first direction intersects the second direction. An included angle between the first direction and the second direction may be 90 degrees, that is, the first direction is perpendicular to the second direction. The included angle between the first direction and the second direction may be determined according to an included angle between the transverse beam body 110 and the wall. In other embodiments, the included angle between the first direction and the second direction may be 120 degrees or 150 degrees, etc. A wall-fixing groove 131 of the transverse beam and a second penetration hole 132 communicated with the wall-fixing groove 131 of the transverse beam may be formed on the wall-fixing portion 130. The transverse beam fixation assembly 140 may include a transverse beam fixation seat 141 and a transverse beam limit member 142. The transverse beam fixation seat 141 may be embedded into the wall-fixing groove 131 of the transverse beam, the transverse beam limit member 142 may penetrate through the second penetration hole 132, the transverse beam fixation seat 141 is configured to be connected with the wall, and the transverse beam fixation seat 141 may be cooperated with the transverse beam limit member 142 to fix the transverse beam body 110 on the wall. The wall-fixing portion 130 may be a hollow cavity structure formed by bending the first side walls 113 and the second side walls 114 towards the second direction. The wall-fixing groove 131 of the transverse beam may be provided on the first side wall 113 adjacent to the wall, and the second penetration hole 132 may be provided on at least one of the two second side walls 114.
FIG. 9 is a schematic structural diagram of a transverse beam fixation seat 141 according to an embodiment of the present disclosure. As shown in FIG. 9, the transverse beam fixation seat 141 may include a first fixation surface 143 and a second fixation surface 144 oppositely disposed and a connection surface 145 connected with first fixation surface 143 and the second fixation surface 144. The transverse beam fixation seat 141 may further include a transverse beam fixation through hole 146 penetrating through the first fixation surface 143 and the second fixation surface 144 and a transverse beam fixation clamping-groove 147 provided on the connection surface 145. The transverse beam fixation seat 141 may be fixed to the wall by a fixation member penetrating through the transverse beam fixation through hole 146, and the fixation member may be a screw. The transverse beam limit member 142 may be clamped with the transverse beam fixation clamping-groove 147, so that the wall-fixing portion 130 is fixed to the transverse beam fixation seat 141. The transverse beam fixation seat 141 may be in a shape of an elongated strip, and an extension direction of the transverse beam fixation seat 141 is parallel to the second direction. At least two transverse beam fixation through holes 146 may be formed on the transverse beam fixation seat 141 and arranged along the extension direction of the transverse beam fixation seat 141. The transverse beam fixation clamping-grooves 147 may be longitudinally disposed along the extension direction of the transverse beam fixation seat 141. The transverse beam fixation clamping-grooves 147 may be disposed at opposite sides of the connection surface 145. The transverse beam fixation through hole 146 may be a counter bore. In another embodiment, the transverse beam fixation clamping-groove 147 may be disposed at a side of the transverse beam fixation seat 141. In this embodiment, the transverse beam 100 is connected with the wall, so the transverse beam 100 may be referred to as a wall attaching transverse beam 100a. As shown in FIG. 2, the first wall unit 11 may include a first wall attaching transverse beam 100a1 and the second wall unit 12 may include a second wall attaching transverse beam 100a2. The wall attaching transverse beam 100a may be disposed at an upper end of the longitudinal beam 200 as an upper transverse beam.
FIG. 10 is a sectional view of position B in FIG. 3. As shown in FIG. 8 and FIG. 10, a corner formed between the transverse beam body 110 and the wall-fixing portion 130 may be lapped at the top end of the longitudinal beam 200, a penetration hole 151 extending along a third direction may be formed at the corner, a screw hole may be formed at the top end of the longitudinal beam 200. A screw penetrating through the penetration hole 151 is threaded with the screw hole, and the third direction may be perpendicular to the first direction and the second direction. The wall-fixing portion 130 may have a hollow cavity structure and the penetration hole 151 penetrates through the two second side walls 114 of the wall-fixing portion 130. The screw may be installed in the hollow cavity through the wall-fixing groove 131.
FIG. 11 is a sectional view of position C in FIG. 3. As shown in FIG. 11, an end of the transverse beam body 110 may abut against the longitudinal beam 200. A screw hole may be formed at an end of the transverse beam body 110, and may be threaded with the screw hole by a screw penetrating through the longitudinal beam 200. The transverse beam body 110 may have a hollow cavity structure, and may further include a fixation plate 117, and the fixation plate 117 may be connected with ends of the first side wall 113 and second side wall 114, and a screw hole may be formed on the fixation plate 117. In this embodiment, the transverse beam 100 is fixed to the longitudinal beam 200 and is not directly connected to the wall, so the transverse beam 100 may be referred to as a non-wall attaching transverse beam 100b. As shown in FIG. 2, the non-wall attaching transverse beam 100b may be disposed at a lower end of the longitudinal beam 200 as a lower transverse beam. The non-wall attaching transverse beam of the first wall unit 11 may be referred to as a first non-wall attaching transverse beam 100b 1 and the non-wall attaching transverse beam of the second wall unit 12 may be referred to as a second wall attaching transverse beam 100b2.
In another embodiment, both the upper and lower transverse beams of the first wall unit 11 may be wall attaching transverse beams 100a or non-wall attaching transverse beams 100b. In another embodiment, both the upper and lower transverse beams of the second wall unit 12 may be wall attaching transverse beams 100a or non-wall attaching transverse beams 100b.
FIG. 12 is a schematic structural diagram of a longitudinal beam 200 according to an embodiment of the present disclosure, and FIG. 13 is a sectional view of the longitudinal beam 200 according to an embodiment of the present disclosure. As shown in FIG. 12 and FIG. 13, the longitudinal beam 200 may include a longitudinal beam body 210, the longitudinal beam body 210 may include a wallboard installation groove 211 formed along an extension direction of the longitudinal beam body 210. An end of a wallboard 300 may be embedded in the wallboard installation groove 211, and a surface of the longitudinal beam body 210 facing the inside of the shower room may be flush with a second surface 320 of the wallboard 300, thus facilitating cleaning of the second surface 320 of the wallboard 300. The longitudinal beam body 210 may be provided in a hollow cavity structure, the longitudinal beam body 210 may include a first enclosure wall 212, a second enclosure wall 213, a third enclosure wall 214, and a fourth enclosure wall 215. The first enclosure wall 212 may be opposite to the third enclosure wall 214, the second enclosure wall 213 may be opposite to the fourth enclosure wall 215. The longitudinal beam body 210 may further include a first bend wall 216 and a second bend wall 217. An end of the first bend wall 216 may be connected with an end of the first enclosure wall 212 close to the second enclosure wall 213 and extend in a direction towards the third enclosure wall 214, an end of the second bend wall 217 may be connected with an end of the second enclosure wall 213 close to the first enclosure wall 212 and extend in a direction towards the fourth enclosure wall 215, an end of the first bend wall 216 away from the first enclosure wall 212 may be connected with an end of the second bend wall 217 away from the second enclosure wall 213, the first bend wall 216 and the second bend wall 217 may form the wallboard installation groove 211, and a surface of the first enclosure wall 212 away from the fourth enclosure wall 215 may be flush with the second surface 320 of the wallboard 300. The first enclosure wall 212 may be parallel to the third enclosure wall 214, the second enclosure wall 213 may be parallel to the fourth enclosure wall 215, the first enclosure wall 212 may be perpendicular to the second enclosure wall 213, the first bend wall 216 may be perpendicular to the second bend wall 217, the first bend wall 216 may be perpendicular to the first enclosure wall 212, the second bend wall 217 may be perpendicular to the second enclosure wall 213, the above-mentioned perpendicular relationship may be generally perpendicular, for example may be 87 degrees, 90 degrees, 93 degrees, etc. The angular relationship here is not strictly limited in the embodiments of the present application.
The longitudinal beam body 210 may be fixed to a wall. A fixing method may be screw fixing or adhesive fixing, which is not limited in the embodiments of the present application. As shown in FIG. 12 and FIG. 13, the longitudinal beam 200 may further include a wall-fixing assembly 220 of the longitudinal beam, and the wall-fixing assembly 220 of the longitudinal beam may include a longitudinal beam fixation seat 221 and a longitudinal beam limit member 222. A wall-fixing groove 218 of the longitudinal beam and a third penetration hole 219 capable of being communicated with the wall-fixing groove 218 of the longitudinal beam may also be formed on a side of the longitudinal beam body 210 facing the wall. The wall-fixing groove 218 of the longitudinal beam may be arranged along an extension direction of the longitudinal beam body 210, the longitudinal beam fixation seat 221 may be accommodated in the wall-fixing groove 218 of the longitudinal beam, the longitudinal beam limit member 222 may penetrate through the third penetration hole 219, so as to limit the longitudinal beam fixation seat 221 in the wall-fixing groove 218 of the longitudinal beam, and the longitudinal beam limit member 222 is cooperated with the longitudinal beam fixation seat 221 so as to fix the longitudinal beam 200 to the wall. Multiple longitudinal beam fixation seats 221 may be provided and disposed along the extension direction of the longitudinal beam body 210. A structure of the longitudinal beam fixation seat 221 may be the same as that of the transverse beam fixation seat 141. The longitudinal beam fixation seat 221 may include a longitudinal beam fixation clamping-groove 223 and a longitudinal beam fixation through hole 224. The longitudinal beam fixation seat 221 may be fixed to the wall by a screw penetrating through the longitudinal beam fixation through hole 224, which will not be repeated here. An avoidance groove 225 may be provided at a side of the longitudinal beam fixation seat 221 facing the longitudinal beam body 210, and the longitudinal beam fixation through hole 224 may be provided at the groove bottom of the avoidance groove 225. In this embodiment, the longitudinal beam limit member 222 may be a jackscrew, and the third penetration hole may be provided therein with a thread cooperated with the jackscrew. In another embodiment, the longitudinal beam fixation seat 221 may be adhered to a surface of the wall.
As shown in FIG. 12 and FIG. 13, the longitudinal beam 200 may further include a wallboard attaching member 230, the wallboard attaching member 230 may be strip-shaped. Two side edges of the wallboard attaching member 230 in an extension direction thereof may be bent to the same side to form limit hems 231. The longitudinal beam fixation seat 221 may be disposed between the limit hems 231, and the wallboard attaching member 230 may be accommodated in the wall-fixing groove 218 of the longitudinal beam. The wallboard attaching member 230 can ensure that a plurality of longitudinal beam fixation seats 221 are aligned in a straight line, thereby ensuring verticality of the longitudinal beam body 210. The longitudinal beam body 210 may be of a hollow cavity structure, the longitudinal beam 200 may further include a reinforcement member 240 disposed within the hollow cavity, the reinforcement member 240 may include a first reinforcement plate 241 and two second reinforcement plates 242 disposed at an interval on the first reinforcement plate 241. Ends of the second reinforcement plates 242 away from the first reinforcement plate 241 may be connected with the fourth enclosure wall 215, an opening may be formed at a position of the fourth enclosure wall 215 corresponding to the first reinforcement plate 241, the wall-fixing groove 218 of the longitudinal beam may be surrounded and formed by the reinforcement member 241, and the third penetration hole 219 may be formed in the first enclosure wall 212 and penetrate through the second reinforcement plate 242 adjacent to the first enclosure wall 212. Multiple reinforcement members 240 may be provided and disposed in correspondence with the positions of the longitudinal beam fixation seats 221 and the number of the reinforcement members 240 may be more than the number of longitudinal beam fixation seats 221. The opening formed at the position of the fourth enclosure wall 215 corresponding to the first reinforcement plate 241 may be longitudinally provided along the extension direction of the longitudinal beam body 210, and the reinforcement members 240 may support the first enclosure wall 212 and the third enclosure wall 214. In another embodiment, the reinforcement member 240 may be provided equal in length to the longitudinal beam body 210. The reinforcement member 240 may be welded to the longitudinal beam body 210. Connection lugs 243 may be disposed at the ends of the two second reinforcement plates 242 away from the first reinforcement plate 241 and the connection lugs 243 extend in a direction away from the wall-fixing groove 218 of the longitudinal beam. In this embodiment, the first reinforcement plate 241 is perpendicular to the second reinforcement plates 242 and the connection lugs 243 are perpendicular to the second reinforcement plates 242.
In this embodiment, both the transverse beam 100 and the longitudinal beam 200 can serve to fix the wallboard 300, and both the transverse beam 100 and the longitudinal beam 200 may be referred to as fixation beams, the transverse beam body 110 and the longitudinal beam body 210 may be referred to as fixation beam bodies, and the wall-fixing groove 131 of the transverse beam and the wall-fixing groove 218 of the longitudinal beam may be referred to as wall-fixing grooves of fixation beams.
The door panel 400 may be rotationally connected to the transverse beams 100 through rotating clamp structures. An upper end of the door panel 400 at a side adjacent to the wallboard 300 may be rotationally connected with the upper transverse beam by an upper rotating clamp structure, and a lower end of the door panel 400 at a side adjacent to the wallboard 300 may be rotationally connected with the lower transverse beam by a lower rotating clamp structure. The upper rotating clamp structure and the lower rotating clamp structure may be the same. The first wall unit 11 may include a set of upper rotating clamp structure and lower rotating clamp structure, i.e., two first rotating clamp structures. The second wall unit 12 may include a set of upper rotating clamp structure and lower rotating clamp structure, i.e., two second rotating clamp structures. Hereinafter, the upper rotating clamp structure and the lower rotating clamp structure are both described as rotating clamp structures.
FIG. 14 is an installation structure diagram of a rotating clamp structure according to an embodiment of the present disclosure. As shown in FIG. 14, the rotating clamp structure 500 may include a rotating clamp assembly 510 and a rotating shaft assembly 520. The door panel 400 has a third surface 410 and a fourth surface 420 oppositely disposed. The rotating clamp assembly 510 may be fixed to the third surface 410 of the door panel 400 and located at a corner position close to the wallboard 400. The rotating shaft assembly 520 may be disposed at an end position of the transverse beam 100 away from the longitudinal beam 200. A shaft hole 511 may be formed on the rotating clamp assembly 510, and a rotating shaft 521 may be disposed on the rotating shaft assembly 520, and the rotating shaft 521 may penetrate into the shaft hole 511 to achieve rotational connection between the rotating clamp assembly 510 and the rotating shaft assembly 520. The fourth surface 420 of the door panel 400 may be a smooth surface which is easy to clean after the door panel is sputtered with stains. In addition, the door panel 400 does not have a hole structure, thus ensuring a strength of the door panel 400 and reducing the potential safety hazard of fragmentation of the door panel 400.
FIG. 15 is an exploded diagram of the rotating clamp structure 500 according to an embodiment of the present disclosure, and FIG. 16 is a sectional view of the rotating clamp structure 500 according to an embodiment of the present disclosure. As shown in FIG. 15 and FIG. 16, the rotating clamp assembly 510 may include a rotating clamp base 512, a rotating clamp fixation seat 513, and a rotating clamp limit member 514. The rotating clamp fixation seat 513 may be fixed to the third surface 410 of the door panel 400. The rotating clamp base 512 may include a base portion 5121 and a side frame 5122 disposed in a circumferential direction of the base portion 5121. The base portion 5121 may be provided with an accommodation groove 5123, and the side frame 5122 may be provided with a shaft hole 511 and a fourth penetration hole 5124 communicated with the accommodation groove 5123. The rotating clamp fixation seat 513 may be disposed in the accommodation groove 5123, and the rotating clamp limit member 514 may penetrate through the fourth penetration hole 5124, and the rotating clamp fixation seat 513 may be limited in the accommodation groove 5123, so that the rotating clamp base 512 is fixed to the third surface 410 of the door panel 400. The rotating shaft assembly 520 may include a rotating shaft 521, and the rotating shaft 521 may penetrate into the shaft hole 511. The rotating clamp assembly 510 fixed to the door panel 400 is rotatable relative to the rotating shaft assembly 520, thereby interacting opening and closing of the door panel 400.
In the rotating clamp structure 500 provided by the embodiment of the present disclosure, the rotating clamp fixation seat 513 may be fixed to the third surface 410 of the door panel 400, the rotating clamp base 512 may be fixed to the door panel 400 by the rotating clamp fixation seat 513, the rotating shaft assembly 520 may be fixed to the transverse beam 100, and the rotating shaft 521 of the rotating shaft assembly 520 may penetrate into the shaft hole 511 of the rotating clamp base 512 to achieve the rotational connection between the rotating clamp assembly 510 and the rotating shaft assembly 520. The rotating clamp fixation seat 513 may be fixed to the third surface 410 of the door panel 400, and the door panel 400 does not need to be provided with a through hole, thus ensuring the strength of the door panel 400 and reducing potential safety hazards. In addition, since the fourth surface 420 of the door panel 400 is not provided with a rotating clamp structure, the fourth surface 420 is flat and smooth, and there is no dead angle that is difficult to clean, which facilitates cleaning.
FIG. 17 is a structural diagram of a rotating clamp fixation seat 513 according to an embodiment of the present disclosure. As shown in FIG. 17, the rotating clamp fixation seat 513 may have the same structure as the wallboard fixation seat 121, and the rotating clamp fixation seat 513 may include a third end face 5131 and a fourth end face 5132 oppositely disposed and a second side face 5133 connected with the third end face 5131 and the fourth end face 5132, which will not be repeated here. A rotating clamp limit groove 5134 may be formed on the second side surface 5133 of the rotating clamp fixation seat 513. As shown in FIG. 16 and FIG. 17, the rotating clamp limit member 514 may be clamped in the rotating clamp limit groove 5134, so that the rotating clamp base 512 is hung to the rotating clamp fixation seat 513. Interference fit may be employed between the rotating clamp limit groove 5134 and the rotating clamp limit member 514. Opposite groove walls of the rotating clamp limit groove 5134 may be gradually distanced in a direction from the groove bottom to the groove opening, forming an inclined surface structure. A section of the rotating clamp limit groove 5134 may be V-shaped, trapezoidal or the like. A material of the rotating clamp fixation seat 513 may be made of an elastic material, such as rubber.
FIG. 18 is an installation structure diagram of a rotating clamp fixation seat 513 according to an embodiment of the present disclosure. As shown in FIG. 17 and FIG. 18, the rotating clamp fixation seat 513 may include a rotating clamp fixing screw hole 5135 penetrating through the third end face 5131 and the fourth end face 5132, the rotating clamp structure 500 may further include a rotating clamp fixing screw 5136 threaded to the rotating clamp fixing screw hole 5135, and a rod head of the rotating clamp fixing screw 5136 may be configured to be embedded in a second sinking groove 411 formed on the third surface 410 of the door panel 400.
The rotating clamp limit member 514 may include a jackscrew, and an inner wall of the fourth penetration hole 5124 may be provided with a thread cooperated with the jackscrew.
FIG. 19 is a sectional view of a rotating shaft assembly 520 according to an embodiment of the present disclosure. As shown in FIG. 19, the rotating shaft assembly 520 may further include a fixation frame 522 and an elastic member 523. The transverse beam 100 may include a rotating shaft installation groove 118 formed on an end face away from the longitudinal beam 200 and a first via hole 119 formed on the transverse beam 100 and communicated with the rotating shaft installation groove 118. The fixation frame 522 may be disposed in the rotating shaft installation groove 118, the rotating shaft 521 may be disposed on the fixation frame 522 and penetrate through and out of the first via hole 119, and the elastic member 523 may be disposed between the rotating shaft 521 and the fixation frame 522, so that the rotating shaft 521 extends out of the first via hole 119 when no external force exists. The elastic member 523 may be a spring.
FIG. 20 is a structural diagram of a wallboard waterproof strip 610 and a door panel waterproof strip 620 according to an embodiment of the present disclosure. In order to prevent the water in the shower room 1 from overflowing to the outside of the shower room 1 and polluting surrounding environment of shower room 1, as shown in FIG. 20, the shower room 1 may further include a wallboard waterproof strip 610 and a door panel waterproof strip 620. The wallboard waterproof strip 610 may be disposed at an end of the wallboard 300 close to the door panel 400, the door panel waterproof strip 620 may be disposed at an end of the door panel 400 close to the wallboard 300, the wallboard waterproof strip 610 may be integrally disposed between planes where the first surface 310 and the second surface 320 are located, and the door panel waterproof strip 620 may be integrally disposed between the planes where the third surface 410 and the fourth surface 420 are located, and the wallboard waterproof strip 610 may be closely cooperated with the door panel waterproof strip 620 to achieve a waterproof function between the door panel 400 and the wallboard 300. The wallboard waterproof strip 610 may include a wallboard water-block portion 611 and a wallboard connect portion 612 connected with the wallboard 300. The wallboard connect portion 612 may include a first connect portion 613 disposed along an extension direction of the wallboard 300, a first limit portion 614 disposed at one side of an extension direction of the first connect portion 613, and a second limit portion 615 disposed at the other side of the extension direction of the first connect portion 613. The wallboard 300 may include a first inclined surface 330 connected with the first surface 310 and an end face at a side adjacent to the door panel 400 and a second inclined surface 340 connected with the second surface 320 and the end face at the side adjacent to the door panel 400. The first limit portion 614 may be attached to the first inclined surface 330, and a side surface of the first limit portion 614 away from the second limit portion 614 may be flush with the first surface 310. The second limit portion 614 may be attached to the second inclined surface 340, and a side surface of the second limit portion 614 away from the first limit portion 613 may be flush with the second surface 320. The first connect portion 613 may be attached to an end face of the wallboard 300 facing the door panel 400. The wallboard water-block portion 612 may be disposed at a side of the first connect portion 611 away from the wallboard 400. A door panel connect portion 621 may include a second connect portion 622 disposed along an extension direction of the door panel 400, a third limit portion 624 disposed at one side of an extension direction of the second connect portion 623, and a fourth limit portion 625 disposed at the other side of the extension direction of the second connect portion 623. The door panel 400 may include a third inclined surface 430 connected with the third surface 410 and an end face at a side adjacent to the wallboard and a fourth inclined surface 440 connected with the fourth surface 420 and the end face at the side adjacent to the wallboard. The third limit portion 624 may be attached to the third inclined surface 430, and a side surface of the third limit portion 624 away from the fourth limit portion 625 may be flush with the third surface 410, the fourth limit portion 625 may be attached to the fourth inclined surface 440, and a side surface of the fourth limit portion 625 away from the third limit portion 624 may be flush with the fourth surface. The second connect portion 623 may be attached to the end face of the door panel 400 adjacent to the wallboard 300, the door panel water-block portion 622 may be disposed at a side of the second connect portion 623 away from the door panel 400, and the wallboard water-block portion 612 may be closely attached to the door panel water-block portion 622. The wallboard water-block portion 612 may be disposed to be overlapped with the door panel water-block portion 622, a surface of the wallboard water-block portion 612 at a same side as the first surface 310 may be flush with the first surface 310, and a surface of the door panel water-block portion 622 at a same side as the fourth surface 420 may be flush with the fourth surface 420. In this embodiment, structures of the wallboard waterproof strip 610 and the door panel waterproof strip 620 may be the same, cross sections of the first limit portion 614, second limit portion 615, third limit portion 624 and fourth limit portion 625 may be substantially in a shape of right triangle, and right-angled edges of the first limit portion 614, second limit portion 615, third limit portion 624 and fourth limit portions 625 may be respectively attached to the first inclined surface 330, the second inclined surface 340, the third inclined surface 430 and the fourth inclined surface 440. Cross sections of the wallboard water-block portion 612 and the door panel water-block portion 622 may be substantially in shape of semicircle or arcuation, and the wallboard water-block portion 612 and the door panel water-block portion 622 may be of a hollow cavity structure. The first wall unit may include a first wallboard waterproof strip and a first door panel waterproof strip, and the second wall unit may include a second wallboard waterproof strip and a second door panel waterproof strip.
FIG. 21 is a structural diagram of a first magnetic strip 710 and a second magnetic strip 720 according to an embodiment of the present disclosure. As shown in FIG. 1, the first door panel 401 of the first wall unit 11 may be adjacent to the second door panel 402 of the second wall unit 12. A user may enter the shower room 1 through either the first door panel 401 or the second door panel 402. In order to improve privacy of the shower room 1 and prevent the first door panel 401 and the second door panel 402 from separating to form a gap during use, as shown in FIG. 21, the first magnetic strip 710 may be disposed at an end of the first door panel 401 away from the first wallboard 301, and the first magnetic strip 710 may be located between planes where the third surface 410 and the fourth surface 420 of the first door panel 401 are located. The second magnetic strip 720 may be disposed at an end of the second door panel 402 away from the second wallboard 302, the second magnetic strip 720 may be located between the third surface 410 and the fourth surface 420 of the second door panel 402, and the first magnetic strip 710 and the second magnetic strip 720 may be cooperated by magnetic attraction. The first magnetic strip 710 may include a first magnetic attract portion 711 and a first magnetic strip connect portion 712 connected with the first door panel 401, and the second magnetic strip 720 may include a second magnetic attract portion 721 and a second magnetic strip connect portion 722 connected with the second door panel 402. The first magnetic strip connect portion 712 may include a first attach portion 713 disposed along an extension direction of the first door panel 401, a first convex edge 714 disposed at one side of an extension direction of the first attach portion 713, and a second convex edge 715 disposed at the other side of the extension direction of the first attach portion 713. The first door panel 401 may include a first tangent surface 403 connected with the third surface 410 of the first door panel 401 and an end face of the first door panel 401 adjacent to the second door panel 402 and a second tangent surface 404 connected with the fourth surface 420 of the first door panel 401 and the end face of the first door panel 401 adjacent to the second door panel 402. The first convex edge 714 may be attached to the first tangent surface 403 of the first door panel 401, and a surface of the first convex edge 714 away from the second convex edge 715 may be flush with the third surface 410 of the first door panel 401. The second convex edge 715 may be attached to the second tangent surface 404 of the first door panel 401, and a surface of the second convex edge 715 away from the first convex edge 714 may be flush with the fourth surface 420 of the first door panel 401. The second magnetic strip connect portion 722 may include a second attach portion 723 disposed along an extension direction of the second door panel 402, a third convex edge 724 disposed at one side of an extension direction of the second attach portion 723, and a fourth convex edge 725 disposed at the other side of the extension direction of the second attach portion 723. The second door panel 402 may include a third tangent surface 405 connected with the third surface 410 of the second door panel 402 and an end face of the second door panel 402 adjacent to the first door panel 401 and a fourth tangent surface 406 connected with the fourth surface 420 of the second door panel 402 and the end face of the second door panel 402 adjacent to the first door panel 401. The third convex edge 724 may be attached to the third tangent surface 405 of the second door panel 402, and a surface of the third convex edge 724 away from the fourth convex edge 725 may be flush with the third surface 410 of the second door panel 402. The fourth convex edge 725 may be attached to the fourth tangent surface 406 of the second door panel 402, and a surface of the fourth convex edge 725 away from the third convex edge 724 may be flush with the fourth surface 420 of the second door panel 402. The surface of the first convex edge 714 may be flush with the fourth surface 420 of the first door panel 401, the surface of the second convex edge 715 away from the first convex edge 714 may be flush with the fourth surface 420 of the first door panel 401, the surface of the third convex edge 724 away from the fourth convex edge 725 may be flush with the third surface 410 of the second door panel 402, and the surface of the fourth convex edge 725 away from the third convex edge 724 may be flush with the fourth surface 420 of the second door panel 402, such arrangement facilitates cleaning of positions between the door panels 400 of the shower room 1 and the magnetic strips. The first magnetic attract portion 711 may include a first support arm 716, a second support arm 717, a first magnetic attract strip 718 and a first connecting bridge 719. The first support arm 716 and the second support arm 717 may be disposed at an interval on the first attach portion 713 and may be arranged along the extension direction of the first attach portion 713, the first support arm 716 may be disposed at a same side as the third surface 410 of the first door panel 401, the second support arm 717 may be disposed at a same side as the fourth surface 420 of the first door panel 401. A distance between the first attach portion 713 and an end of the first support arm 716 away from the first door panel 401 may be greater than a distance between the first attach portion 713 and an end of the second support arm 717 away from the first door panel 401. The first magnetic attract strip 718 and the first connecting bridge 719 may be disposed between the first support arm 716 and the second support arm 717 and have ends connected with each other. An end of the first magnetic attract strip 718 away from the first connecting bridge 719 may be connected with an end of the first support arm 716, and an end of the first connecting bridge 719 away from the first magnetic attract strip 718 may be connected with an end of the second support arm 717. The second magnetic attract portion 721 may include a third support arm 726, a fourth support arm 727, a second magnetic attract strip 728, and a second connecting bridge 729. The third support arm 726 and the fourth support arm 727 may be disposed at an interval on the second attach portion 723 and may be disposed along the extension direction of the second attach portion 723. The third support arm 726 may be disposed at a same side as the third surface 410 of the second door panel 402, and the second support arm 717 may be disposed at a same side as the fourth surface 420 of the second door panel 402. A distance between the second attach portion 723 and an end of the third support arm 726 away from the second door panel 402 may be greater than a distance between the second attach portion 723 and an end of the second support arm 717 away from the second door panel 402. The second magnetic attract strip 728 and the second connecting bridge 729 may be disposed between the third support arm 726 and the fourth support arm 727 and have ends connected with each other. An end of the second magnetic attract strip 728 away from the second connecting bridge 729 may be connected with an end of the third support arm 726, an end of the second connecting bridge 729 away from the second magnetic attract strip 728 may be connected with an end of the fourth support arm 727. When the door of the shower room 1 is closed, the first connecting bridge 719 and the second connecting bridge 729 may be disposed such that an end of the first magnetic attract strip 718 close to the first support arm 716 and an end of the second magnetic attract strip 728 close to the third support arm 726 first come into point contact, and then the first magnetic attract strip 718 and the second magnetic attract strip 728 come into surface contact, thereby providing a certain mute effect. The first support arm 716, the second support arm 717 and the first connecting bridge 719 may integrally constitute a first support portion, and the first support portion may be connected with the first magnetic strip connect portion 712 and the first magnetic attract strip 718. The third support arm 726, the fourth support arm 727, and the second connecting bridge 729 may integrally constitute a second support portion, and the second support portion may be connected with the second magnetic strip connect portion 722 and the first magnetic attract strip 728. The first support portion and the second support portion are disposed such that the first magnetic attract strip 718 and the second magnetic attract strip 728 first come into point contact and then come into surface contact when magnetically attracted. The first connecting bridge 719 and the second connecting bridge 729 may be provided as V-shaped or S-shaped. In order to prevent water in the shower room 1 from seeping from an attachment gap between the first magnetic attract strip 718 and the second magnetic attract strip 728, the first magnetic strip 710 or the second magnetic strip 720 may be provided with a water-block strip 730 towards the inside of the shower room 1, and the water-block strip 730 is configured to shield the gap between the first magnetic attract strip 718 and the second magnetic attract strip 728 after the first magnetic attract strips 718 and the second magnetic attract strips 728 are attached. For example, the water-block strip 730 may be disposed on the second support arm 717. When the first magnetic attract strip 718 and the second magnetic attract strip 728 are attached, the water-block strip 730 can be lapped with the fourth support arm 727 to achieve a waterproof effect. In an example, the water-block strip 730 may further be disposed on the fourth support arm 727, that is, the second magnetic strip 720 may further include a water-block strip 730 disposed on the fourth support arm 727. When the first magnetic attract strip 718 and the second magnetic attract strip 728 are attached, the water-block strip 730 can be lapped with the second support arm 717 to achieve a waterproof effect.
FIG. 22 is a schematic diagram of a water-block structure 800 according to an embodiment of the present disclosure, and FIG. 23 is a sectional view of the water-block structure 800 according to an embodiment of the present disclosure. In order to prevent water in the shower room 1 from flowing out of a gap between the door panel 400 and the ground, as shown in FIG. 22, the shower room may further include a water-block structure 800, and the water-block structure 800 may be disposed along the extension direction of the transverse beam body 110 and may be adhered and fixed to the ground. The water-block structure 800 may form a blocking region with the lower transverse beam to prevent water in the shower room 1 from flowing out of the shower room 1 along the ground. The water-block structure 800 may include an outer water-block structure 810 and an inner water-block structure 820. The outer water-block structure 810 may include a first cover plate 811, and a first block wall 812 and a second block wall 813 disposed at an interval on the first cover plate 811. An end of the first block wall 812 away from the first cover plate 811 may be bent inward to form a first limit arm 814, and an end of the second block wall 813 away from the first cover plate 811 may be bent inward to form a second limit arm 815. The inner water-block structure 820 may include a second cover plate 821, and a third block wall 822 and a fourth block wall 823 disposed at an interval on the second cover plate 821. The third block wall 822 may be located between the first block wall 812 and the first limit arm 814, the fourth block wall 823 may be located between the second block wall 813 and the second limit arm 815, and the inner water-block structure 820 may define an adhesive filling space. The shower room 1 may further include a decorative sheet 830, and the decorative sheet 830 may be substantially U-shaped. The decorative sheet 830 may have an opening and the opening may face the ground, and the decorative sheet 830 may be disposed at an end of the outer water-block structure 810 adjacent to the lower transverse beam. The decorative sheet 830 can prevent the problem of excessively large gap between the outer water-block structure 810 and the lower transverse beam caused by factors such as processing or field installation environment, thus improving the appearance quality of the shower room 1. As shown in FIG. 23, the shower room 1 may further include a water-return strip 840 disposed at a side of the door panel 400 close to the water-block structure 800. The water-return strip 840 may include a water-return connect portion 841 connected with the door panel 400, and a first water-return portion 842 and a second water-return portion 843 disposed on the water-return connect portion 841. The first water-return portion 842 may extend toward the inside of the shower room 1 to form an eave-like structure, so that water on the fourth surface 420 of the door panel 400 can be directed into the block region. The second water-return portion 843 may extend toward the ground, and there may be certain overlapping between orthographic projections of the second water-return portion 843 and the water-block structure 800 on the plane where the third surface 410 is located, and the second water-return portion 843 may direct water sputtered from the ground into the block region. Extension directions of the first water-return portion 842 and the second water-return portion 843 may be perpendicular to each other. The water-block structure 800 and the water-return strip 840 disposed on the first wall unit 11 are referred to as a first water-block structure 801 and a first water-return strip, and the water-block structure 800 and the water-return strip 840 disposed on the second wall unit 12 are referred to as a second water-block structure 802 and a second water-return strip.
As shown in FIG. 22, the shower room 1 may further include a joint 850, and the joint 850 may be connected with the first water-block structure 801 and the second water-block structure 802. The joint 850 may include a first abutment surface 851 and a second abutment surface 852. The first abutment surface 851 may be provided with a first plug portion 853, and the second abutment surface 852 may be provided with a second plug portion 854. The first plug portion 853 may be inserted between the first outer water-block structure 810a and the first inner water-block structure 820a of the first water-block structure 801, and the first abutment surface 851 may abut against the first outer water-block structure 810a of the first water-block structure 801. The second plug portion 854 may be inserted between the second outer water-block structure 810b and the second inner water-block structure 820b of the second water-block structure 802, and the second abutment surface 852 may abut against the second outer water-block structure 810b of the second water-block structure 802.
FIG. 24 is a sectional view of a door handle 900 according to an embodiment of the present disclosure. As shown in FIG. 24, the shower room 1 may further include a door handle 900, and the door handle 900 may include a main body 910, a pull handle 920 and a pivot shaft structure 930 connected with the main body 910 and the pull handle 920. The main body 910 is provided with a receive groove 911, and a notch of the receive groove 911 may face the inside of the shower room 1. The pull handle 920 and the pivot shaft structure 930 may be disposed in the receive groove 911, the pivot shaft structure 930 may be disposed between the pull handle 920 and a groove bottom of the receive groove 911. The pull handle 920 may be rotationally connected with the main body 910 through the pivot shaft structure 930, an opening groove (not shown in figures) may be disposed at a side of the fourth surface 420 of the door panel 400, the main body 910 may be accommodated in the opening groove, and surfaces of the main body 910 and the handle 920 facing the inside of the shower room 1 may be flush with the fourth surface 420 to facilitate cleaning of the inside of the shower room 1.
As shown in FIG. 24, the pull handle 920 may include a press portion 921 at one side of the pivot shaft structure 930 and a free reset portion 922 at the other side of the pivot shaft structure 930. The press portion 921 may be positioned on the upper portion of the free reset portion 922. The press portion 921 may drive the free reset portion 922 to rotate so as to extend out of the receive groove 911 when the press portion 921 is pressed, and the free reset portion 922 may drive the press portion 921 to reset through its own gravity when the press portion 921 is not pressed. That is, when the press portion 921 is not pressed, the pull handle 920 may be received in the receive groove 911 of the main body 910. When the press portion 921 is pressed, a lower end of the free reset portion 922 may extend to the outside of the main body 911. When the pressing operation disappears, the free reset portion 922 can drive the press portion 921 to automatically return to the initial position under the action of its own gravity.
As shown in FIG. 24, the pull handle 920 may be hidden in the main body 910, and when the press portion 921 is not pressed, the pull handle 920 is received in the receive groove 911 of the main body 910 to facilitate cleaning of the door installed. When the press portion 921 is pressed by a user, the pull handle 920 may be rotated by the pivot shaft structure 930, and the lower end of the free reset portion 922 extends to the outside of the receive groove 911 to facilitate grasping. When the pressing operation disappears, the free reset portion 922 can automatically return to the initial position under the action of its own gravity.
FIG. 25 is a sectional view of a pivot shaft structure 930 according to an embodiment of the present disclosure. As shown in FIG. 24 and FIG. 25, the pivot shaft structure 930 may include an installation seat 931 and an installation shaft assembly 932 installed in cooperation with the receive groove 911, and an opening 933 penetrating through the installation seat 931 may be formed in the installation seat 931. The installation shaft assembly 932 may include a pair of installation shafts 934 and an elastic member 935 disposed between the installation shafts 934. Ends of the installation shafts 934 away from the elastic member 935 may extend out of the opening 933 and penetrate through the installation shaft holes 912 provided in a groove arm of the receive groove 911.
The pull handle 920 may include a base platform 923 disposed on a surface at a side of the receive groove 911. The base platform 923 may be installed on the installation seat 931 through a fixation member 924. In this embodiment, the fixation member may be a fixing bolt. A distance between a center of gravity of the free reset portion 922 and the base platform 923 may be larger than a distance between a center of gravity of the press portion 921 and the base platform 923, so that when the pull handle 920 is not pressed, the free reset portion 922 of the pull handle 920 may be automatically reset to the initial state due to gravity.
In this embodiment, the first door panel 401 and the second door panel 402 may each be provided with a door panel 900, the door handle 900 provided on the first door panel 401 is referred to as a first door handle, and the door handle 900 provided on the second door panel 402 is referred to as the second door handle.
An embodiment of the present disclosure is illustrated below through an example of an installation process of the shower room 1.
FIG. 26 is an installation process diagram of a shower room 1 according to an embodiment of the present disclosure. As shown in FIG. 26, an assembling process of the shower room 1 may include an self-assembling process of modules, an assembling process of modules (shown in d of FIG. 26) and an assembling process of water-block structures (shown in e of FIG. 26). The self-assembling process of modules includes an installation process of wallboard structures (shown in a of FIG. 26), an installation process of door panel structures (shown in b of FIG. 26) and an installation process of wall-fixing structures (shown in c of FIG. 26). The installation process of wallboard structures, installation process of door panel structures and installation process of wall-fixing structures may be carried out in parallel without any sequence. The above assembling process is briefly illustrated below.
As shown in a of FIG. 26, the assembling of wallboard structures may include assembling of a wallboard 300 with a wall attaching transverse beam 100a and a non-wall attaching transverse beam 100b, assembling of the wallboard 300 with a wallboard water-block strip 610, assembling of the wall attaching transverse beam 100a and the non-wall attaching transverse beam 100b with a longitudinal beam body 210, and assembling of a rotating shaft assembly 520 with the wall attaching transverse beam 100a and the non-wall attaching transverse beam 100b.
As shown in b of FIG. 26, the assembling of door panel structures may include assembling of a door panel 400 with a rotating clamp assembly 510, assembling of the door panel 400 with a door panel waterproof strip 620, assembling of the door panel 400 with a first magnetic strip 710 (or a second magnetic strip), and assembling of the door panel 400 with a water-return strip 840.
As shown in c of FIG. 26, an installation process of wall-fixing structures may include fixing a transverse beam fixation seat 141 to a wall and fixing a longitudinal beam fixation seat 221 and a wallboard attaching member 230 to the wall.
As shown in d of FIG. 26, an assembling process of modules may include fixing a wallboard structure to a wall-fixing structure. That is, the transverse beam fixation seat 141 is limited in a wall-fixing groove 131 of the transverse beam, the longitudinal beam fixation seat 221 is limited in a wall-fixing groove 218 of the longitudinal beam, and the door panel structure is rotationally connected to the wallboard structure. That is, the rotating shafts of the rotating shaft assemblies 520 of the wall attaching transverse beam 100a and the non-wall attaching transverse beam 100b are inserted into the shaft holes 511 of the rotating clamp assemblies 510 disposed on the door panel 400.
As shown in e of FIG. 26, after the above assembling is completed, a water-block structure 800 is provided at the lower end of the door panel of the shower room 1.
According to the above steps, the shower room 1 shown in FIG. 1 is assembled.
As can be seen from the assembling process of the shower room of this example, the shower room provided by the embodiment of the present disclosure can realize modular production and assembling, thus improving an assembling efficiency of the shower room, and reducing costs of the shower room.
An embodiment of the present disclosure further discloses a transverse beam, which includes a transverse beam body and a wallboard fixation assembly;

an installation groove and a first penetration hole communicated with the installation groove are formed on the transverse beam body;
the wallboard fixation assembly includes a wallboard limit member and a wallboard fixation seat which can be fixed to a first surface of the wallboard;
wherein the wallboard fixation seat can be embedded in the installation groove, and the wallboard limit member is configured to penetrate the first penetration hole and limit the wallboard fixation seat in the installation groove.

The related structure of the transverse beam of the embodiment of the present disclosure is recited in the related description of the shower room of the embodiment of the present disclosure and will not be repeated here.
Although implementations disclosed by the present disclosure are as described above, the described contents are only implementations used for facilitating understanding of the present disclosure, and are not intended to limit the present disclosure. Without departing from the spirit and scope disclosed in the present disclosure, any person skilled in the art to which the present disclosure pertains may make any modification and change in the form and details of implementation, but the scope of patent protection of the present disclosure shall still be defined by the appended claims.

Claims

A shower room, comprising: a wallboard and a support structure for fixing the wallboard;
the wallboard comprising a first surface and a second surface oppositely disposed, and the second surface facing an inside of the shower room;

wherein the support structure comprises a transverse beam, the transverse beam comprises a transverse beam body and a wallboard fixation assembly, and the transverse beam body is provided with an installation groove and a first penetration hole communicated with the installation groove; the wallboard fixation assembly comprises a wallboard limit member and a wallboard fixation seat fixed to the first surface;

the wallboard fixation seat is embedded in the installation groove, and the wallboard limit member penetrates through the first penetration hole and limits the wallboard fixation seat in the installation groove.
The shower room according to claim 1, wherein the wallboard fixation seat comprises a first end face and a second end face oppositely disposed and a first side surface connected with the first end face and the second end face, the first side surface is provided with a wallboard limit groove, and the wallboard limit groove is configured to be clamped with the wallboard limit member when the wallboard limit member limits the wallboard fixation seat in the installation groove.
The shower room according to claim 2, wherein the wallboard fixation seat is provided with a fixation screw hole penetrating through the first end face and the second end face, the wallboard fixation assembly further comprises a wallboard fixation screw rod, the first surface of the wallboard is further provided with a first sinking groove, a rod head of the wallboard fixation screw rod is embedded in the first sinking groove, and the wallboard fixation screw rod is threaded with the fixation screw hole.
The shower room according to claim 1, wherein the transverse beam further comprises a wall-fixing portion and a transverse beam fixation assembly which are disposed at an end of the transverse beam body;
the wall-fixing portion is provided with a wall-fixing groove of the transverse beam and a second penetration hole communicated with the wall-fixing groove of the transverse beam;

the transverse beam fixation assembly comprises a transverse beam limit member and a transverse beam fixation seat configured to be connected with a wall; and

the transverse beam fixation seat is embedded in the wall-fixing groove of the transverse beam, and the transverse beam limit member is configured to penetrate through the second penetration hole and limit the transverse beam fixation seat in the wall-fixing groove of the transverse beam.
The shower room according to claim 1, wherein the support structure further comprises a longitudinal beam, the longitudinal beam is connected with an end of the transverse beam, the longitudinal beam comprises a longitudinal beam body, the longitudinal beam body comprises a wallboard installation groove disposed along an extension direction of the longitudinal beam body, an end of the wallboard is embedded in the wallboard installation groove, and a surface of the longitudinal beam body facing the inside of the shower room is flush with the second surface.
The shower room according to claim 5, wherein the longitudinal beam further comprises a wall-fixing assembly of the longitudinal beam, the wall-fixing assembly of the longitudinal beam comprises a longitudinal beam fixation seat and a longitudinal beam limit member, a wall-fixing groove of the longitudinal beam and a third penetration hole communicated with the wall-fixing groove of the longitudinal beam are further provided on a side of the longitudinal beam body facing the wall, the longitudinal beam fixation seat is capable of being fixed to the wall and accommodated in the wall-fixing groove of the longitudinal beam, and the longitudinal beam limit member penetrates through the third penetration hole to limit the longitudinal beam fixation seat in the wall-fixing groove of the longitudinal beam.
The shower room according to claim 6, wherein the longitudinal beam further comprises a wallboard attaching member in a strip shape, two side edges of an extension direction of the wallboard attaching member are bent to a same side to form limit hems, the longitudinal beam fixation seat is disposed between the limit hems, and the wallboard attaching member is accommodated in the wall-fixing groove of the longitudinal beam.
The shower room according to claim 1, further comprising a door panel and a rotating clamp structure;
wherein the door panel comprises a third surface and a fourth surface oppositely disposed, and the fourth surface faces the inside of the shower room; and

the rotating clamp structure comprises a rotating clamp assembly disposed on the third surface and a rotating shaft assembly disposed on an end of the transverse beam, the rotating clamp assembly comprises a shaft hole, and the rotating shaft assembly comprises a rotating shaft penetrating through the shaft hole.
The shower room according to claim 8, wherein the rotating clamp assembly comprises a rotating clamp base, a rotating clamp fixation seat, and a rotating clamp limit member; the rotating clamp fixation seat is fixed to the third surface; the rotating clamp base comprises a base portion and a side frame disposed in a circumferential direction of the base portion, the base portion is provided with an accommodation groove, the side frame is provided with a shaft hole and a fourth penetration hole communicated with the accommodation groove, the rotating clamp fixation seat is embedded in the accommodation groove, and the rotating clamp limit member penetrates through the fourth penetration hole to limit the rotating clamp fixation seat in the accommodation groove.
The shower room according to claim 8, further comprising a wallboard waterproof strip and a door panel waterproof strip, the wallboard waterproof strip is disposed at an end of the wallboard close to the door panel, the door panel waterproof strip is disposed at an end of the door panel close to the wallboard, the wallboard waterproof strip and the door panel waterproof strip are closely cooperated, the wallboard waterproof strip as a whole is located between planes where the first surface and the second surface are located, and the door panel waterproof strip as a whole is located between planes where the third surface and the fourth surface are located.
The shower room according to claim 8, further comprising a first wall unit and a second wall unit, wherein the first wall unit and the second wall unit comprise the support structure, the wallboard, the rotating clamp structure and the door panel respectively, the door panel of the first wall unit is provided as a first door panel, the door panel of the second wall unit is provided as a second door panel, the first door panel is adjacent to the second door panel, the shower room further comprises a first magnetic strip disposed at a side of the first door panel adjacent to the second door panel and a second magnetic strip disposed at a side of the second door panel adjacent to the first door panel, the first magnetic strip comprises a first magnetic strip connect portion connected with the first door panel and a first magnetic attract portion disposed on the first magnetic strip connect portion, the second magnetic strip comprises a second magnetic strip connect portion connected with the second door panel and a second magnetic attract portion disposed on the second magnetic strip connect portion, the first magnetic attract portion comprises a first magnetic attract strip and a first support portion connected with the first magnetic strip connect portion and the first magnetic attract strip, the second magnetic attract portion comprises a second magnetic attract strip and a second support portion connected with the second magnetic strip connect portion and the second magnetic attract strip, the first support portion and the second support portion are configured such that the first magnetic attract strip and the second magnetic attract strip first come into point contact and then into surface contact when the first magnetic attract strip and the second magnetic attract strip are magnetically attracted.
The shower room according to claim 11, wherein the first magnetic strip or the second magnetic strip is provided with a water-block strip towards the inside of the shower room, and the water-block strip is configured to shield a gap between the first magnetic attract strip and the second magnetic attract strip after the first magnetic attract strip and the second magnetic attract strip are attached to each other.
The shower room according to claim 8, further comprising a door handle, wherein the door handle comprises a main body, a pull handle and a pivot shaft structure connected with the main body and the pull handle, the main body is provided with a receive groove, a notch of the receive groove faces the inside of the shower room, the pull handle and the pivot shaft structure are disposed in the receive groove, the pull handle is rotationally connected with the main body through the pivot shaft structure, an opening groove is disposed at a side of the fourth surface of the door panel, the main body is accommodated in the opening groove, and surfaces of the main body and the handle facing the inside of the shower room are flush with the fourth surface.
A transverse beam usable in the shower room according to any one of claims 1 to 13, comprising: a transverse beam body and a wallboard fixation assembly;
wherein the transverse beam body is provided with an installation groove and a first penetration hole communicated with the installation groove;

the wallboard fixation assembly comprises a wallboard limit member and a wallboard fixation seat which is capable of being fixed to the first surface of the wallboard;

wherein the wallboard fixation seat is capable of being embedded in the installation groove, and the wallboard limit member is configured to penetrate through the first penetration hole and limit the wallboard fixation seat in the installation groove.
The transverse beam according to claim 14, wherein the wallboard fixation seat comprises a first end face and a second end face oppositely disposed and a first side surface connected with the first end face and the second end face, the first side surface is provided with a wallboard limit groove, and the wallboard limit groove is configured to be clamped with the wallboard limit member when the wallboard limit member limits the wallboard fixation seat in the installation groove.
The transverse beam according to claim 15, wherein the wallboard fixation seat is provided with a fixation screw hole penetrating through the first end face and the second end face, and the wallboard fixation assembly further comprises a wallboard fixation screw rod.
The transverse beam according to any one of claims 14 to 16, wherein the transverse beam further comprises a wall-fixing portion and a transverse beam fixation assembly which are disposed at an end of the transverse beam body;
the wall-fixing portion is provided with a wall-fixing groove of the transverse beam and a second penetration hole communicated with the wall-fixing groove of the transverse beam;

the transverse beam fixation assembly comprises a transverse beam limit member and a transverse beam fixation seat configured to be connected with a wall; and

the transverse beam fixation seat is capable of being embedded in the wall-fixing groove of the transverse beam, and the transverse beam limit member is configured to penetrate through the second penetration hole and limit the transverse beam fixation seat in the wall-fixing groove of the transverse beam.
The transverse beam according to claim 17, wherein the transverse beam fixation seat comprises a first fixation surface and a second fixation surface oppositely disposed and a connection surface connected with the first fixation surface and the second fixation surface and a transverse beam fixation through hole penetrating through the first fixation surface and the second fixation surface, the connection surface is provided with a transverse beam fixation clamping-groove, the transverse beam fixation seat is capable of being fixed to the wall through a fixation member penetrating through the transverse beam fixation through hole, and the transverse beam limit member is configured to be clamped with the transverse beam fixation clamping-groove when the transverse beam limit member penetrates through the second penetration hole.
The transverse beam according to claim 18, wherein the transverse beam fixation seat is in a shape of an elongated strip, and an extension direction of the transverse beam fixation seat is parallel to an extension direction of the wall-fixing portion, and the transverse beam fixation clamping-groove is longitudinally disposed along the extension direction of the transverse beam fixation seat.