EP4206408A1

EP4206408A1 - Moving frame and shower assembly

Info

Publication number: EP4206408A1
Application number: EP20958544.7A
Authority: EP
Inventors: Xiaofa Lin; Xiaoshan Lin; Zhennan CHEN; Haibo DU; Xiaoqing DENG; Qiqiao Liu
Original assignee: Fujian Xihe Sanitary Ware Technology Co Ltd
Current assignee: Fujian Xihe Sanitary Ware Technology Co Ltd
Priority date: 2020-10-21
Filing date: 2020-12-15
Publication date: 2023-07-05
Also published as: EP4206408A4; WO2022082970A1; CN214284669U

Abstract

A moving frame and a shower assembly. The shower assembly comprises the moving frame, the moving frame being used in cooperation with a rod having a guide rail groove. The moving frame comprises a frame body, wherein a matching boss (203) is arranged on the frame body; the matching boss (203) is movably fixed in the guide rail groove, such that the frame body is fixed on the rod in an adjustable manner; a roller (220) is rotatably mounted on the matching boss (203); and the matching boss (203) is configured to be in a rolling fit with the guide rail groove by means of the roller (220).

Description

Technical Field

Embodiments of the present application relate to, but are not limited to, the field of kitchen and sanitation technology, in particular to a moving frame and a shower assembly.

Background

In some technologies, a moving frame of the shower assembly is used in cooperation with a rod having a guide rail groove. The moving frame includes a frame body. The frame body is provided with a matching boss, and the frame body is movably fixed in the guide rail groove through the matching boss, so that the frame body is fixed on the rod in a position-adjustable manner, and the user may adjust the position of the moving frame on the rod according to self-requirement. However, there is a sliding friction between the matching boss and the groove wall of the guide rail groove, and the resistance caused by the sliding friction is relatively large, which causes the moving frame to move unsmoothly in the process of position adjustment.

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 application provide a moving frame, which may more smoothly adjust the position on a rod.
The embodiments of the present application further provide a shower assembly.
The moving frame provided by the embodiments of the present application is used in cooperation with a rod having a guide rail groove, and the moving frame includes a frame body. The frame body is provided with a matching boss, and the matching boss is movably fixed in the guide rail groove so that the frame body is fixed on the rod in a position-adjustable manner. A roller is rotatably mounted on the matching boss, and the matching boss is configured to be in rolling fit with the guide rail groove through the roller.
The matching boss may be provided with a receiving hole, a side wall of the receiving hole may be provided with a socket, a transmission shaft may be provided in the receiving hole, and the roller may be mounted into the receiving hole from the socket and rotatably sleeved on the transmission shaft.
The moving frame may be provided with a plurality of sets of matching bosses, rollers and transmission shafts in the same row at intervals.
The orientations of the sockets provided on the plurality of sets of matching bosses may not be completely the same.
The moving frame may be provided with even sets of matching bosses, and the orientations of the sockets provided on two adjacent sets of matching bosses may be opposite to each other.
The moving frame may also include a lock member which may be mounted in the receiving hole, and the transmission shaft may be movably mounted in the receiving hole. The frame body may also be provided with a drive mechanism, an outer end of the transmission shaft may be matched with the lock member, and an inner end of the transmission shaft may be matched with the drive mechanism. The drive mechanism may be configured to drive the lock member to move between a lock position and an unlock position.
The lock member may be provided with a guide post, a side wall of the receiving hole may be provided with a guide hole, and the guide post may be movably mounted in the guide hole.
A gasket plate may be disposed between the lock member and the transmission shaft.
The frame body may include a showerhead seat assembly, a mounting frame and a transmission assembly. The showerhead seat assembly may be rotatably mounted on the mounting frame, the transmission assembly may be located between the showerhead seat assembly and the mounting frame, the matching boss may be located on the mounting frame, and the drive mechanism may include the showerhead seat assembly and the transmission assembly.
The guide rail groove may be a T-shaped guide rail groove, the matching boss may be a T-shaped boss, and the roller may be located at a neck position on the T-shaped boss where the T-shaped boss is connected with the frame body.
The shower assembly provided by embodiments of the present application includes the moving frame described above.
In the moving frame provided by the embodiments of the present application, the matching boss is in rolling fit with the guide rail groove through the roller, so that the moving frame may carry out position adjustment on the rod more smoothly, thus presenting a better practicability.
Other features and advantages of embodiments of the present application 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 application. The objects and other advantages of the present application may be realized and obtained by the structures particularly indicated in the description and drawings.
Other aspects will become apparent after reading and understanding the drawings and detailed description.

Brief Description of Drawings

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

FIG. 1 is a schematic top view of a structure of a moving frame according to Embodiment 1 of the present application.
FIG. 2 is a schematic cross-sectional view of the right-view structure of the moving frame shown in FIG. 1.
FIGS. 3 to 5 are schematic exploded views of a structure of the moving frame shown in FIG. 1.
FIG. 6 is a schematic diagram of a three-dimensional structure of a rubber roller in FIG. 4.
FIG. 7 is a schematic diagram of a three-dimensional structure of a transmission seat in FIG. 4.
FIG. 8 is a schematic diagram of a three-dimensional structure of a mounting frame in FIG. 5.

The correspondences between reference signs in FIG. 1 to FIG. 8 and component names are as follows:
100-showerhead seat assembly, 110-showerhead seat, 111-arc-shaped wall, 112-mounting plate, 113-clamping hook, 120-rotatable cover, 121-second receiving groove, 122-stud, 123-guiding and positioning vertical rib, 124-first through groove, 125-clamping hole, 200-mounting frame, 201-first receiving groove, 202-connecting hook, 203-matching boss, 204-receiving hole, 205-socket, 206-guide hole, 207-penetrating hole, 208-first matching surface, 209-limiting rib, 210-transmission shaft, 220-roller, 230-lock member, 231-guide post, 300-transmission assembly, 310-transmission seat, 311-first through hole, 312-convex rib, 313-toothed groove, 320-rubber roller, 321-second through hole, 322-damping rib, 323-meshing groove, 330-bracket, 331-third through hole, 332-meshing tooth, 340-elastic member.

Detailed Description

Hereinafter, embodiments of the present application will be described in detail with reference to the accompanying drawings. It is noted that the embodiments in the present application and the features in the embodiments may be combined with each other arbitrarily if there is no conflict.

Embodiment 1

As shown in FIGS. 1-5, a moving frame provided by Embodiment 1 of the present application may include a showerhead seat assembly 100, a mounting frame 200 and a transmission assembly 300 which are assembled together. The showerhead seat assembly 100 and the transmission assembly 300 may constitute a drive mechanism.

Showerhead seat assembly 100:

As shown in FIG. 3, the showerhead seat assembly 100 may include a showerhead seat 110 and a rotatable cover 120.
As shown in FIG. 3, a front portion of the showerhead seat 110 may be provided with an arc-shaped wall 111 extending downwardly, an upper end of a rear portion of the showerhead seat 110 may be provided with a mounting plate 112 extending backwardly, and the mounting plate 112 may be provided with a clamping hook 113.
As shown in FIG. 3, a second receiving groove 121 may be provided on a side surface of the rotatable cover 120, a stud 122 may be convexly provided at a middle portion of an inner bottom surface of the second receiving groove 121, and a guiding and positioning vertical rib 123 may be convexly provided near the stud 122. One end of the rotatable cover 120 may be provided with a first through groove 124 for receiving the showerhead seat 110, and an upper end surface of the rotatable cover 120 may be provided with a clamping hole 125.
When the showerhead seat 110 is received in the first through groove 124 of the rotatable cover 120, the arc-shaped wall 111 may be matched with the first through groove 124, and the clamping hook 113 may be clamped with the clamping hole 125.

Mounting frame 200:

As shown in FIGS. 5 and 8, a first receiving groove 201 may be provided on one end surface of the mounting frame 200, and a first matching surface 208 circumferentially inclined relative to the first receiving groove 201 may be provided on an inner side surface of the first receiving groove 201. The first matching surface 208 may face an opening end of the first receiving groove 201. Four sets of limiting structures may be disposed on the inner side surface of the first receiving groove 201 along a circumferential direction, and each set of limiting structure may include two limiting ribs 209. The first matching surface 208 may be disposed between the two limiting ribs 209 in each set. Connecting hooks 202 may also be disposed on an outer end surface of the first receiving groove 201 at intervals along the circumferential direction. FIG. 8 illustrates an example in which four connecting hooks 202 are provided. However, the number of connecting hooks 202 may be provided as required, which is not limited in this embodiment. Two matching bosses 203 are eccentrically arranged and are convexly provided on the other end surface of the mounting frame 200. The two matching bosses 203 may be located in the same row and may both be configured as T-shaped matching bosses. The end surfaces of the two matching bosses 203 may be provided with through receiving holes 204 which may be communicated with the first receiving groove 201. Sockets 205 may be arranged at neck positions (which are understood as scruff positions) of the two matching bosses 203 where the two matching bosses 203 are connected with a groove wall of the first receiving groove 201. The sockets 205 may be communicated with the receiving holes 204, and the orientations of the two sockets 205 may be opposite. A guide hole 206 may also be provided on the side wall of the receiving hole 204. A penetrating hole 207 may be provided between the two matching bosses 203, and a first transmission structure may include the first matching surface 208.
As shown in FIG. 5, a transmission shaft 210, a roller 220 and a lock member 230 may be mounted in the receiving hole 204, and a second transmission structure may be the transmission shaft 210. The transmission shaft 210 may be a cylindrical shaft. The roller 220 may be an annular roller 220. The lock member 230 may be a cube-shaped damping block whose side surface may be provided with a guide post 231. The shapes of the transmission shaft 210, the roller 220 and the lock member 230 may be provided as required, which is not limited in this embodiment.

Transmission assembly 300:

As shown in FIGS. 4, 6 and 7, the transmission assembly 300 may include a transmission seat 310, a rubber roller 320, a bracket 330 and an elastic member 340.
As shown in FIGS. 4 and 7, the transmission seat 310 may be barrel-shaped, the top wall of the transmission seat 310 may be provided with a first through hole 311, and the outer side surface of the transmission seat 310 may be provided with convex ribs 312. The first transmission structure may also include the convex ribs 312, and the inner side surface of the transmission seat 310 may be provided with wavy toothed grooves 313. The shapes of the transmission seat 310 and the toothed grooves 313 may be provided as required, which is not limited in this embodiment.
As shown in FIGS. 4 and 6, a second through hole 321 may be provided in the middle of the rubber roller 320, meshing grooves 323 may be provided in one end surface of the rubber roller 320, and damping ribs 322 may be convexly provided on the outer side surface of the rubber roller 320.
As shown in FIG. 4, a third through hole 331 may be provided in the middle of one end surface of the bracket 330, a guiding and positioning hole (not shown) may be provided near the third through hole 331, and the other end surface of the bracket 330 may be provided with meshing teeth 332.
As shown in FIG. 4, the elastic member 340 may be a coil spring, and the implementation form of the elastic member 340 is not limited in this embodiment.

The assembly structure of the moving frame:

As shown in FIGS. 2 to 8, the arc-shaped wall 111 extends into the first through groove 124, and the clamping hook 113 snaps into the clamping hole 125, such that the showerhead seat 110 and the rotatable cover 120 are assembled together. A showerhead may be fixed inside the arc-shaped wall 111. The meshing teeth 332 are matched with the meshing grooves 323, and an interference fit is adopted between the damping ribs 322 and the toothed grooves 313. The transmission seat 310, the rubber roller 320 and the bracket 330 are assembled together to form an assembly 1. The rubber roller 320 is located in the transmission seat 310 after assembling. The assembly 1 is placed in the first receiving groove 201, so that the convex ribs 312 extend between the limiting ribs 209 and abut against the first matching surfaces 208, and the connecting hooks 202 are clamped on the bracket 330, such that the assembly 1 and the mounting frame 200 are assembled together to form an assembly 2. The assembly 1 may rotate circumferentially and move axially in the mounting frame 200. Each roller 220 is mounted into the receiving hole 204 from the socket 205, and each transmission shaft 210 is mounted into the receiving hole 204 and passes through and is mounted on the roller 220. The lock member 230 is mounted into the receiving hole 204, and the guide post 231 slides into the guide hole 206 to realize a movable mounting of the lock member 230 in the receiving hole 204. After mounting, one end of the transmission shaft 210 is in contact with the lock member 230, and the other end of the transmission shaft 210 is in contact with the end surface of the transmission seat 310. The rotatable cover 120 is rotatably mounted on the mounting frame 200, and the elastic member 340 is pressed between the assembly 1 and the bottom wall of the second receiving groove 121. The stud 122 passes through and is mounted in the first through hole 311, the second through hole 321 and the third through hole 331, and the guiding and positioning vertical rib 123 is inserted into the guiding and positioning hole, so that the assembly 1 may rotate together with the rotatable cover 120 and move linearly along the guiding and positioning vertical rib 123 during rotation. Finally, the assembly 2 may be assembled with the rotatable cover 120 by screwing a screw into the stud 122 through the penetrating hole 207. The assembly manner of the assembly 2 and the rotatable cover 120 is not limited in this embodiment. The through holes may include the first through hole 311, the second through hole 321 and the third through hole 331.
The convex rib 312 may rotate only within a preset angle range defined between two limiting ribs 209, so that the rubber roller 320 may rotate relative to the transmission seat 310, causing the damping ribs 322 to jump along the toothed grooves 313, thus realizing angular adjustment of the rotatable cover 320. The size of the preset angle range is related to the width between the two limiting ribs 209.
The matching boss 203 is matched with a guide rail groove of a rod (not shown), and the guide rail groove may be provided as a T-shaped guide rail groove. The operation manner of the mounting frame 200 is as follows.
The rotatable cover 120 is rotated along a first rotation direction, and under the action of the elastic member 340, the convex rib 312 may slide from a high end of the first matching surface 208 to the low end of the first matching surface 208 and abut against a limiting rib 209. The assembly 1 moves towards the lock member 230 to push the transmission shaft 210, the transmission shaft 210 pushes the lock member 230 to move toward outside of the receiving hole 204, so that the lock member 230 presses the groove wall of the guide rail groove to lock the mounting frame 200. At this time, the matching boss 203 is fixed in the guide rail groove. The rotatable cover 120 is continuously driven to rotate along the first rotation direction, and the rubber roller 320 rotates synchronously with the rotatable cover 120. Within the preset angle range, the transmission seat 310 may not rotate because it is in an extreme position (the convex rib 312 abuts against one limiting rib 209). At this time, the lock member 230 is in a locked state, and the moving frame is fixed, thus realizing the adjustment of the angle of the rotatable cover 120 along the first rotation direction. As shown in FIG. 8, the high end of the first matching surface 208 is a relatively high end of the first matching surface 208 that is higher than the surface of the first receiving groove 201, and the low end of the first matching surface 208 is an end of the first matching surface 208 that is closer to the surface of the first receiving groove 201.
The rotatable cover 120 is rotated along a direction opposite to the first rotation direction, and the convex rib 312 may slide from the low end of the first matching surface 208 to the high end of the first matching surface 208 and abut against another limiting rib 209. The assembly 1 moves toward the rotatable cover 120 to release the transmission shaft 210, and the transmission shaft 210 releases the lock member 230, so that the lock member 230 is released from the groove wall of the guide rail groove to unlock the mounting frame 200. At this time, the matching boss 203 may move in the guide rail groove, and the matching boss 203 may be in rolling fit with the groove wall of the guide rail groove through the roller 220, so that the moving frame may adjust the position on the rod more smoothly and has better practicability. The rotatable cover 120 is continuously driven to rotate along the direction opposite to the first rotation direction. Within the preset angle range, the transmission seat 310 may not rotate because it is in another extreme position (the convex rib 312 abuts against another limiting rib 209), and the rubber roller 320 rotates together with the rotatable cover 120 (and the bracket 330), thus realizing the adjustment of the angle of the rotatable cover 120 in the direction opposite to the first rotation direction.
In an example, the first matching surface 208 may be an inclined surface or a curved surface.
Alternatively, the convex ribs 312 may be disposed on the inner surface of the first receiving groove 201, and the first matching surfaces 208 and the limiting ribs 209 may be disposed on the outer side surface of the transmission seat 310 (this scheme is not shown in the drawings), which may also achieve the objects of the present application, with the purpose not departing from the design idea of the present application, and therefore will not be described in detail here, and should also fall within the protection scope of the present application.

Embodiment 2

This embodiment is different from Embodiment 1 in that: the matching bosses may be convexly disposed on the outer side surface of the mounting frame (this scheme is not shown in the drawings), a second matching surface inclined axially relative to the first receiving groove may be disposed on a side surface of the transmission assembly, and the second transmission structure may further include the second matching surface.
In an example, the second matching surface may be a truncated cone surface. The diameter of the second matching surface may gradually increase from the end away from the rotatable cover to the end adjacent to the rotatable cover.
The mounting frame is operated as follows.
The rotatable cover is rotated in the first rotation direction, and under the action of the elastic member, the convex rib slides from the high end of the first matching surface to the low end of the first matching surface and abuts against a limiting rib. The assembly 1 moves away from the rotatable cover, the second matching surface pushes the transmission shaft, and the transmission shaft pushes the lock member to move toward outside of the receiving hole, so that the lock member presses the groove wall of the guide rail groove to lock the mounting frame. At this time, the matching boss is fixed in the guide rail groove. The rotatable cover is continuously driven to rotate in the first rotation direction, and the rubber roller rotates synchronously with the rotatable cover. Within the preset angle range, the transmission seat may not rotate because it is in an extreme position (the convex rib abuts against a limiting rib). At this time, the lock member is in a locked state, and the moving frame is fixed, thus realizing the adjustment of the angle of the rotatable cover in the first rotation direction.
The rotatable cover is rotated in the direction opposite to the first rotation direction. The convex rib slides from the low end of the first matching surface to the high end of the first matching surface against the action of the elastic force of the elastic member, and abuts against another limiting rib. The assembly 1 moves towards the rotatable cover, the second matching surface releases the transmission shaft, and the transmission shaft releases the lock member, so that the lock member releases from the groove wall of the guide rail groove to unlock the mounting frame. At this time, the matching boss may move in the guide rail groove, and the matching boss 203 is in rolling fit with the groove wall of the guide rail groove through the roller 220, so that the moving frame may adjust the position on the rod more smoothly and has better practicability. The rotatable cover is continuously driven to rotate in the direction opposite to the first rotation direction. Within the preset angle range, the transmission seat may not rotate because it is in another extreme position (the convex rib abuts against another limiting rib), and the rubber roller rotates together with the rotatable cover (and the bracket), thus realizing the adjustment of the angle of the rotatable cover in the direction opposite to the first rotation direction.
In an example, the second matching surface may be a truncated cone surface. Alternatively, the diameter of the second matching surface may gradually decrease from the end away from the rotatable cover to the end adjacent to the rotatable cover.
The mounting frame is operated as follows.
The rotatable cover is rotated in the direction opposite to the first rotation direction. The convex rib slides from the low end of the first matching surface to the high end of the first matching surface against the action of the elastic force of the elastic member and abuts against a limiting rib. The assembly 1 moves towards the rotatable cover, the second matching surface releases the transmission shaft, and the transmission shaft releases the lock member, so that the lock member releases from the groove wall of the guide rail groove to unlock the mounting frame. At this time, the matching boss may move in the guide rail groove, and the matching boss 203 is in rolling fit with the groove wall of the guide rail groove through the roller 220, so that the moving frame may adjust the position on the rod more smoothly and has better practicability. The rotatable cover is continuously driven to rotate in the direction opposite to the first rotation direction, and the rubber roller rotates synchronously with the rotatable cover. Within the preset angle range, the transmission seat may not rotate because it is in an extreme position (the convex rib abuts against a limiting rib). At this time, the lock member is in a locked state, and the moving frame is fixed, thus realizing the adjustment of the angle of the rotatable cover in the direction opposite to the first rotation direction.
The rotatable cover is rotated in the first rotation direction, and under the elastic force of the elastic member, the convex rib slides from the high end of the first matching surface to the low end of the first matching surface and abuts against another limiting rib. The assembly 1 moves away from the rotatable cover, the second matching surface pushes the transmission shaft, and the transmission shaft pushes the lock member to move toward outside of the receiving hole, so that the lock member presses the groove wall of the guide rail groove to lock the mounting frame. At this time, the matching boss is fixed in the guide rail groove. The rotatable cover is continuously driven to rotate in the direction opposite to the first rotation direction. Within the preset angle range, the transmission seat may not rotate because it is in another extreme position (the convex rib abuts against another limiting rib), and the rubber roller rotates together with the rotatable cover (and the bracket), thus realizing the adjustment of the angle of the rotatable cover in the first rotation direction.

Embodiment 3

The shower assembly (this scheme is not shown in the drawings) provided in Embodiment 3 of the present application includes a fixed rod, a showerhead and the moving frame described in any of the above embodiments. The guide rail groove is located on the fixed rod, and the showerhead is detachably mounted on the showerhead seat assembly.
The shower assembly has all the advantages of the moving frame provided by any of the above embodiments, which will not be described in detail here.
A transmission fit may be formed between the moving frame and the groove wall of the guide rail groove by the roller to change a sliding friction into a rolling friction, so that the friction between the moving frame and the guide rail groove is smaller and the sliding of the moving frame is smoother.
In an example, the guide rail groove may be a T-shaped guide rail groove.
In the description of the present application, it should be noted that the orientation or position relationships indicated by the terms "upper", "lower", "one side", "the other side", "one end", "the other end", "side", "relative", "periphery" or the like are based on the orientation or position relationships shown in the drawings, which are only for convenience of describing the present application 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 may not be interpreted as a limitation on the present application.
In the description of the present application, unless otherwise explicitly specified and limited, the terms "connection", "direct connection", "indirect connection", "fixed connection", "mounting" and "assembly" should be understood in a broad sense. For example, they may be fixed connection, detachable connection or integrated connection. The terms "mounting", "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 application may be understood according to specific situations.
Although implementations disclosed herein are described above, the described contents are only implementations adopted for facilitating the understanding of the present application, and are not intended to limit the present application. Without departing from the spirit and scope disclosed herein, any person skilled in the art to which the present application pertains may make any modifications and changes in the form and details of implementation, but the scope of patent protection of the present application shall still be defined by the appended claims.

Claims

A moving frame used in cooperation with a rod having a guide rail groove, the moving frame comprising a frame body, a matching boss being disposed on the frame body, and the matching boss being movably fixed in the guide rail groove so that the frame body is fixed on the rod in a position-adjustable manner, wherein a roller is rotatably mounted on the matching boss, and the matching boss is configured to be in rolling fit with the guide rail groove through the roller.
The moving frame according to claim 1, wherein the matching boss is provided with a receiving hole, a socket is provided on a side wall of the receiving hole, a transmission shaft is provided in the receiving hole, and the roller is mounted into the receiving hole from the socket and is rotatably sleeved on the transmission shaft.
The moving frame according to claim 2, wherein a plurality of sets of the matching bosses, the rollers and the transmission shafts are provided in the same row at intervals.
The moving frame according to claim 3, wherein orientations of the sockets provided on the plurality of sets of the matching bosses are not totally identical.
The moving frame according to claim 3, wherein the number of sets of the matching bosses is provided as an even number, and orientations of the sockets provided on two adjacent sets of the matching bosses are opposite to each other.
The moving frame according to claim 2, further comprising:
a lock member mounted in the receiving hole, wherein the transmission shaft is movably mounted in the receiving hole, the frame body is also provided with a drive mechanism, an outer end of the transmission shaft is matched with the lock member, and an inner end of the transmission shaft is matched with the drive mechanism, and the drive mechanism is configured to drive the lock member to move between a lock position and an unlock position.
The moving frame according to claim 6, wherein a guide post is provided on the lock member, a guide hole is provided on the side wall of the receiving hole, and the guide post is movably mounted in the guide hole.
The moving frame according to claim 6, wherein the frame body comprises a showerhead seat assembly, a mounting frame and a transmission assembly, the showerhead seat assembly is rotatably mounted on the mounting frame, the transmission assembly is located between the showerhead seat assembly and the mounting frame, the matching boss is located on the mounting frame, and the drive mechanism comprises the showerhead seat assembly and the transmission assembly.
The moving frame according to any one of claims 1 to 8, wherein the guide rail groove is a T-shaped guide rail groove, the matching boss is a T-shaped boss, and the roller is located at a neck position on the T-shaped boss where the T-shaped boss is connected with the frame body.
A shower assembly, comprising the moving frame according to any one of claims 1 to 9.