CN218522497U - Rotating shaft assembly and shower room with same - Google Patents

Abstract

The utility model relates to a rotating shaft component and a shower room with the rotating shaft component, the rotating shaft component comprises a connecting frame, is vertically arranged and is provided with a mounting groove extending along the up-down direction; the rotating shaft extends along the length direction of the connecting frame and can be rotatably arranged in the mounting groove, and the rotating shaft is provided with a strip-shaped hole which extends along the length direction and is used for inserting the side edge of the glass door of the shower room; the lateral wall of mounting groove is for the arc wall with the lateral wall assorted of pivot, the arc wall is installed and is extended in order to form this arc wall and pivot sealing connection's first sealing strip along the length direction of mounting groove, and first sealing strip has two at least, and along the circumference interval arrangement of pivot. The existence of arc wall for the rotation of pivot is more smooth and easy, and the existence of two at least first sealing strips can prevent that the water of glass door both sides from getting into between arc wall and the pivot, increases the leakproofness between arc wall and the pivot.

Description

Rotating shaft assembly and shower room with same

Technical Field

The utility model belongs to the technical field of the shower room, concretely relates to pivot subassembly and have shower room of this pivot subassembly.

Background

The shower room is a common bathroom device and is often arranged in a bathroom of a small household for people to shower. Most of the existing shower rooms are fixed at the corners of a toilet, a shower room main body is installed in a wall punching mode, and then the joint of a door plate and the wall is glued to realize sealing. And a part of shower rooms are placed at the corners of the wall in a mode independent of the wall based on the requirement of position movement, and the placing positions of the shower rooms can be flexibly adjusted according to the size and the layout of the indoor space during use.

The existing shower room comprises a vertical column and a movable glass door (movable door). When traditional shower room was installed, the connection box was installed on the wall, and the side edge of movable glass door was installed on the connection box through the pivot, and the movable glass door rotates with the connection box to be connected, and the condition of overflow appears because of the water-proof effects is not good easily in the department of rotating, and when the shower promptly, water spills over easily from the gap between movable glass door and the connection box to lead to the shower room dirty and disorderly, brought the trouble in the clearance for the user. In the existing shower room, the water-proof strip is arranged at the bottom of the movable glass door, so that the problem of water overflow at the bottom of the movable glass door is solved, but the problem of water overflow at the edge of the side surface of the movable glass door still exists.

Therefore, there is a need for further improvements to existing pivot assemblies for shower enclosures.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the first technical problem that will solve is to above-mentioned prior art's current situation, provides an improve pivot subassembly of glass door side waterproof ability.

The second technical problem to be solved in the utility model is to provide a shower room which improves the sealing performance between the glass door and the mounting surface.

The utility model provides a technical scheme that above-mentioned first technical problem adopted does: a pivot assembly comprising:

a connection frame vertically arranged and having a mounting groove extending in an up-down direction;

a rotating shaft which extends along the length direction of the connecting frame and is rotatably arranged in the mounting groove, and the rotating shaft is provided with a strip-shaped hole which extends along the length direction of the rotating shaft and is used for inserting the side edge of the glass door of the shower room;

the sealing structure is characterized in that the side wall of the mounting groove is an arc-shaped wall matched with the outer side wall of the rotating shaft, the inner surface of the arc-shaped wall is provided with first sealing strips which extend along the length direction of the mounting groove to form the arc-shaped wall and are in sealing connection with the rotating shaft, the number of the first sealing strips is at least two, and the first sealing strips are arranged along the circumferential direction of the rotating shaft at intervals.

In order to further prevent water from entering between the arc-shaped wall and the rotating shaft and increase the sealing performance between the arc-shaped wall and the rotating shaft, a second sealing strip extending along the length direction of the mounting groove is further mounted on the inner surface of the arc-shaped wall, and the second sealing strip is located between the two first sealing strips.

In order to realize the installation of first sealing strip and second sealing strip, first sealing strip and second sealing strip all include along the waterproof strip that extends from top to bottom, the waterproof strip is deviating from one side of pivot has the connecting strip, the slot that only supplies this connecting strip to insert wherein is seted up in the position that corresponds the connecting strip to the arc wall, the confession has been seted up in one side towards the pivot the trompil that waterproof strip part was worn out.

The connecting frame can adopt the form of part, also can adopt the form of an organic whole piece, but preferably, the connecting frame is including the connecting seat of framework and two upper and lower interval arrangements, the framework has the equal open cavity in both ends from top to bottom, the arc wall is located in on the framework, two the connecting seat covers respectively the uncovered department at both ends about the cavity, and with the framework encloses into the mounting groove, the connecting seat with pivot normal running fit.

In order to realize the connection of the connecting seat and the frame body, a connecting column extending along the up-down direction is arranged in the cavity, and the connecting column and the connecting seat are correspondingly provided with mounting holes for mounting connecting pieces.

The rotating shaft has various structural forms, can adopt the form of an integrated piece, also can adopt the form of a separated piece, but preferably, the rotating shaft comprises a shaft body extending along the up-down direction and shaft sleeves respectively arranged at the upper end and the lower end of the shaft body, the strip-shaped hole is formed in the shaft body, and the connecting seat is provided with a shaft hole for the shaft sleeve to be inserted in.

In order to realize the normal running fit of connecting seat and pivot, be provided with in the shaft hole and correspond the fixed cover in the side shaft sleeve with connecting seat relatively fixed and local, be provided with in the inner chamber of shaft sleeve with the synchronous pivoted mount pad of pivot, the mount pad has and inserts in the fixed cover and with this fixed cover normal running fit's axial region.

In order to prevent the bottom of the glass door from being collided in the rotating process and influencing the rotation of the glass door, the fixed sleeve is provided with two convex parts and two grooves which are arranged at intervals along the circumferential direction on the surface facing the connecting seat, the convex parts and the grooves are arranged in a staggered mode, the mounting seat is provided with a concave part which can be inserted into the convex part at the position corresponding to the convex part and a bulge which is matched with the grooves in an inserted mode at the position of the grooves, the concave part and the bulge are located on the circumferential side of the shaft part, the convex part and the bulge on the corresponding side are abutted when the strip-shaped hole of the rotating shaft rotates to be in a forward or backward state, and the grooves are arranged corresponding to the concave part on the corresponding side.

The synchronous rotation of mount pad and axis body mode has the multiple, can adopt the mode of pegging graft, also can adopt the mode of buckle connection, but preferably, the periphery wall of mount pad is protruding to be equipped with the extension, the axis body is inside to have the cavity that supplies wherein the extension inserts.

The utility model provides a technical scheme that above-mentioned second technical problem adopted does: the utility model provides a shower room, including the glass door, still including the pivot subassembly and along the installing frame that extends from top to bottom, the installing frame has the confession the link span of pivot subassembly is located the appearance chamber wherein, the pivot is located outside the appearance chamber, the installing frame is deviating from the outer wall of one side of pivot is provided with and is used for and treats installation face sealing connection's third sealing strip.

Compared with the prior art, the utility model has the advantages of: the side wall of the mounting groove of the mounting frame in the rotating shaft assembly is an arc-shaped wall matched with the outer side wall of the rotating shaft, the rotating shaft can rotate more smoothly due to the existence of the arc-shaped wall, at least two first sealing strips are mounted on the inner wall surface of the arc-shaped wall, and the existence of the at least two first sealing strips can prevent water on two sides (the front side and the rear side of the glass door) in the thickness direction of the glass door from entering between the arc-shaped wall and the rotating shaft, so that the sealing property between the arc-shaped wall and the rotating shaft is improved, on one hand, the water is prevented from overflowing out of the shower room, and the dirtiness caused by the overflow of the water in the shower room is avoided; on the other hand, the water is prevented from accumulating in the arc-shaped wall and the rotating shaft to influence the rotation of the rotating shaft, and the requirements of users can be met.

Drawings

FIG. 1 is a schematic structural view of the shower room of this embodiment with the glass door in an inward rotated state;

FIG. 2 is a schematic structural view of the shower room of this embodiment with the glass door in an inward rotated state;

FIG. 3 is a schematic structural view of the two glass doors in a closed state according to the present embodiment;

FIG. 4 is an enlarged view of section I of FIG. 3;

FIG. 5 is a schematic view of the structure of FIG. 4 in which the hinge assembly drives the glass door to move away from the mounting frame;

FIG. 6 is an enlarged perspective exploded view of the portion II in FIG. 3;

FIG. 7 is a schematic perspective exploded view of FIG. 4;

FIG. 8 is a transverse cross-sectional view of FIG. 3;

FIG. 9 is an exploded perspective view of a portion of the spindle assembly of FIG. 3;

FIG. 10 is an exploded perspective view of the lower portion of the spindle assembly of FIG. 8;

fig. 11 is a schematic structural view of a shaft body.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 and 2, the shower room of the present embodiment includes a glass door 6, a rotation shaft assembly, and a mounting frame 7 extending in an up-down direction. Wherein, glass door 6 has two, and every glass door 6 corresponds has a installing frame 7 and a set of pivot subassembly, and two glass doors 6 are installed on two mutually perpendicular's walls through the pivot subassembly and the installing frame 7 that correspond the side respectively, and the wall 9 of wall is for waiting to install the face. In the closed state, the two glass doors 6 are perpendicular to each other. The two glass doors 6, the rotating shaft assembly and the mounting frame 7 in this embodiment have the same structure, and a set of the glass door 6, the mounting frame 7 and the rotating shaft assembly will be described below as an example.

As shown in fig. 1 and 2, the mounting frame 7 of the present embodiment is mounted on a wall surface of a wall, and an outer wall surface of the mounting frame 7 connected to the wall surface of the wall is provided with two third sealing strips 8 extending along an up-down direction and being in sealing connection with the wall surface 9, and the three sealing strips 8 are arranged at intervals along a front-back direction. The mounting frame 7 has a receptacle 70 in which part of the spindle assembly is located. Specifically, the rotating shaft assembly of the present embodiment includes a connecting frame 1 and a rotating shaft 2 both extending in the up-down direction. Wherein, the connecting frame 1 is located in the cavity 70 of the mounting frame 7, and the rotating shaft 2 is located outside the cavity 70. In addition, the aforementioned connection frame 1 is disposed to be movable close to or away from the third sealing strip 8, and then the interval between the rotation shaft 2 and the wall surface 9 can be adjusted.

As shown in fig. 7, the connection frame 1 includes a frame 11 and two connection bases 12 spaced from each other in the vertical direction. The frame 11 has a cavity 110 with both upper and lower ends open, and the two connecting seats 12 cover the opening 1101 at both upper and lower ends of the cavity 110 respectively, and enclose the mounting groove 10 with the frame 11. The two connection holders 12 are connected to the frame 11 in the same manner, and one connection holder 12 will be described as an example. In order to facilitate the mounting of the connection holder 12 on the frame 11, the connection holder 12 has a plug portion 124 extending toward the corresponding side opening 1101 to be inserted into the corresponding side opening 1101. In order to connect the connecting seat 12 and the frame 11, two connecting posts 111 extending in the up-down direction are provided in the cavity 110, and the two connecting posts 111 are arranged at intervals along the arrangement direction of the mounting frame 7 and the rotating shaft assembly. The connecting column 111 and the connecting base 12 are correspondingly provided with mounting holes 01 for mounting the connecting pieces. The connector of the embodiment is a screw 02, and the screw 02 is inserted into the mounting hole 01 to connect the frame 11 and the connecting seat 12.

As shown in fig. 4, 5 and 7 to 9, the rotating shaft 2 is rotatably disposed in the mounting groove 10, the side wall of the mounting groove 10 is an arc-shaped wall 101 matched with the outer side wall of the rotating shaft 2, the arc-shaped wall 101 is located on the frame 11, and two ends of the rotating shaft 2 are respectively rotatably connected to the connecting seats 12 on the corresponding sides. As shown in fig. 8 to 10, the rotating shaft 2 of the present embodiment includes a shaft body 21 extending in the vertical direction and bushings 22 respectively disposed at the upper and lower ends of the shaft body 21. The shaft body 21 is provided with a strip-shaped hole 211 extending along the length direction thereof for inserting the side edge of the glass door 6 into the hole, so that the glass door 6 and the rotating shaft 2 can be installed by inserting the side edge of the glass door 6 into the strip-shaped hole 211. To achieve the rotational connection of the connecting seat 12 and the rotating shaft 2, specifically, the connecting seat 12 has a shaft hole 121 into which the bushing 22 is inserted. The shaft hole 121 is provided with a fixing sleeve 4, and the fixing sleeve 4 is fixed relative to the connecting seat 12 and is partially located in the corresponding side shaft sleeve 22. And the inner cavity of the shaft sleeve 22 is provided with a mounting seat 5 which rotates synchronously with the rotating shaft 2, and the mounting seat 5 is provided with a shaft part 51 which is inserted into the fixed sleeve 4 and is in rotating fit with the fixed sleeve 4. Thus, the shaft 2 rotates relative to the connecting base 12 through the rotation fit of the shaft 51 and the fixing sleeve 4.

In order to mount the mounting seat 5, the outer peripheral wall of the mounting seat 5 is convexly provided with the extension portion 54, and as shown in fig. 10, the shaft body 21 has a cavity 210 into which the extension portion 54 is inserted. In order to prevent the bottom of the glass door 6 from being collided with during the rotation and affecting the rotation of the glass door 6, the fixing sleeve 4 has a protrusion 41 and a groove 42 arranged at intervals along the circumferential direction on the surface facing the connecting seat 12, two protrusions 41 and two grooves 42 are arranged, and the protrusion 41 and the groove 42 are arranged in a staggered manner. The projections 41 in this embodiment are two in number and are symmetrically arranged. The area of the surface of the fixing cover 4 having the protrusions 41 other than the protrusions 41 is the groove 42. The mounting seat 5 has a concave 52 into which the convex 41 can be inserted at a position corresponding to the convex 41 and a protrusion 53 at a position of the groove 42 to be in plug-in fit with the groove 42, the concave 52 and the protrusion 53 are located on the periphery of the shaft 51, when the strip-shaped hole 211 of the rotating shaft 2 is rotated to be in a forward or backward state, the convex 41 and the protrusion 53 on the corresponding side are abutted, and the groove 42 is arranged corresponding to the concave 52 on the corresponding side, so that the height of the glass door 6 is raised. In order to prevent water from entering the lower connecting socket 12, the bottom of the connecting socket 12 is provided with a gasket 13 covering the connecting socket 12.

In order to increase the sealing performance between the rotating shaft 2 and the arc-shaped wall during rotation, as shown in fig. 8, the first sealing strip 31 and the second sealing strip 32 extending along the length direction of the installation groove 10 are installed on the inner wall surface (inner surface) of the arc-shaped wall 101. The aforementioned first sealing strip 31 and second sealing strip 32 form a sealing connection of the curved wall 101 to the rotation shaft 2. The number of the first sealing strips 31 is at least two and is arranged at intervals along the circumferential direction of the rotating shaft 2. In this embodiment, there are two first sealing strips 31, and the second sealing strip 32 is located between the two first sealing strips 31. The first sealing strip 31 and the second sealing strip 32 each comprise a waterproof strip 300 extending in the up-down direction, and the waterproof strip 300 has a connecting strip 301 on the side away from the rotating shaft 2. In order to mount the first sealing strip 31 and the second sealing strip 32, the arc-shaped wall 101 is provided with an insertion slot 1011 at a position corresponding to the connecting strip 301, into which the connecting strip 301 is inserted, and the insertion slot 1011 is provided with an opening at a side facing the rotating shaft 2, through which the waterproof strip 300 partially penetrates. In addition, the first sealing strip 31 in this embodiment is made of PP, and the cross section of the waterproof strip 300 of the first sealing strip 31 is trapezoidal; the second sealing strip 32 is made of PVC, and the cross section of the waterproof strip 300 of the second sealing strip 32 is semicircular.

It should be appreciated by those skilled in the art that the above embodiments are only used for illustrating the present invention, and are not used as a limitation to the present invention, and that various modifications or improvements can be made to the present invention without departing from the principle of the present invention, and these are all considered to be within the protection scope of the present invention.

Claims (10)

1. A pivot assembly comprising:

a connection frame (1) vertically arranged with an installation groove (10) extending in the up-down direction;

the rotating shaft (2) extends along the length direction of the connecting frame (1) and can be rotatably arranged in the mounting groove (10), and the rotating shaft (2) is provided with a strip-shaped hole (211) which extends along the length direction of the rotating shaft and is used for inserting the side edge of a glass door (6) of the shower room;

the sealing structure is characterized in that the side wall of the mounting groove (10) is an arc-shaped wall (101) matched with the outer side wall of the rotating shaft (2), the inner surface of the arc-shaped wall (101) is provided with a first sealing strip (31) which extends along the length direction of the mounting groove (10) to form the arc-shaped wall (101) and is connected with the rotating shaft (2) in a sealing mode, at least two first sealing strips (31) are arranged, and the first sealing strips (31) are arranged along the circumferential direction of the rotating shaft (2) at intervals.

2. The spindle assembly of claim 1, wherein: and a second sealing strip (32) extending along the length direction of the mounting groove (10) is further mounted on the inner surface of the arc-shaped wall (101), and the second sealing strip (32) is positioned between the first sealing strips (31).

3. The spindle assembly of claim 2, wherein: first sealing strip (31) and second sealing strip (32) all include waterproof strip (300) along the upper and lower direction extension, waterproof strip (300) are deviating from one side of pivot (2) has connecting strip (301), slot (1011) that only supplies this connecting strip (301) to insert wherein are offered in the position that corresponds connecting strip (301) to arc wall (101), the confession has been offered in one side towards pivot (2) in slot (1011) waterproof strip (300) local trompil of wearing out.

4. A spindle assembly according to any one of claims 1 to 3, wherein: connecting frame (1) is including framework (11) and two connecting seat (12) of interval arrangement from top to bottom, framework (11) have upper and lower both ends all open cavity (110), arc wall (101) are located on framework (11), two connecting seat (12) cover respectively the uncovered (1101) department at cavity (110) upper and lower both ends, and with framework (11) enclose into mounting groove (10), connecting seat (12) with pivot (2) normal running fit.

5. The spindle assembly of claim 4, wherein: a connecting column (111) extending along the vertical direction is arranged in the cavity (110), and a mounting hole (01) for mounting a connecting piece is correspondingly formed in the connecting column (111) and the connecting seat (12).

6. The spindle assembly of claim 4, wherein: the rotating shaft (2) comprises a shaft body (21) extending along the vertical direction and shaft sleeves (22) respectively arranged at the upper end and the lower end of the shaft body (21), the strip-shaped holes (211) are formed in the shaft body (21), and the connecting seat (12) is provided with shaft holes (121) for the shaft sleeves (22) to be inserted into.

7. The spindle assembly of claim 6, wherein: be provided with in shaft hole (121) and be located fixed cover (4) that correspond side axle sleeve (22) with connecting seat (12) relatively fixed and part, be provided with in the inner chamber of axle sleeve (22) with synchronous pivoted mount pad (5) of pivot (2), mount pad (5) have insert in fixed cover (4) and with this fixed cover (4) normal running fit's axial region (51).

8. The spindle assembly of claim 7, wherein: the fixing sleeve (4) is provided with two convex parts (41) and two grooves (42) which are arranged at intervals along the circumferential direction on the surface facing the connecting seat (12), the convex parts (41) and the grooves (42) are arranged in a staggered mode, the mounting seat (5) is provided with a concave part (52) which can be used for inserting the convex parts (41) into the concave part and a bulge (53) which is matched with the groove (42) in an inserting mode at the position corresponding to the convex parts (41), the concave part (52) and the bulge (53) are located on the peripheral side of the shaft part (51), the convex parts (41) and the bulge (53) on the corresponding side are abutted against each other when the strip-shaped hole (211) of the rotating shaft (2) rotates to be in a forward or backward state, and the grooves (42) are arranged corresponding to the concave parts (52) on the corresponding side.

9. The spindle assembly of claim 7, wherein: the outer peripheral wall of the mounting seat (5) is convexly provided with an extension part (54), and a cavity (210) for inserting the extension part (54) is formed in the shaft body (21).

10. A shower room, comprising a glass door (6), and characterized by further comprising a rotating shaft assembly as claimed in any one of claims 1 to 9 and a mounting frame (7) extending in the up-down direction, wherein the mounting frame (7) has a cavity (70) in which a connecting frame (1) of the rotating shaft assembly is located, the rotating shaft (2) is located outside the cavity (70), and an outer wall surface of the mounting frame (7) on a side away from the rotating shaft (2) is provided with a third sealing strip (8) for being in sealing connection with a surface to be mounted.

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