CN219887449U

CN219887449U - Transition structure for solving height difference between inner ground and outer ground of bathroom

Info

Publication number: CN219887449U
Application number: CN202321088978.9U
Authority: CN
Inventors: 李宣永; 孟令钊; 张博
Original assignee: Shandong Shilianhang Decoration Technology Co ltd
Current assignee: Shandong Shilianhang Decoration Technology Co ltd
Priority date: 2023-05-05
Filing date: 2023-05-05
Publication date: 2023-10-24
Anticipated expiration: 2033-05-05

Abstract

The utility model discloses a transition structure for solving the problem of the height difference between the inner and outer surfaces of a bathroom, which comprises a waterproof layer, wherein the waterproof layer is arranged on an original building floor, and a floor lifting area is arranged on the original building floor.

Description

Transition structure for solving height difference between inner ground and outer ground of bathroom

Technical Field

The utility model relates to a height difference transition structure, in particular to a structure for solving the problem of height difference between the inner ground and the outer ground of a toilet.

Background

Publication No.: CN104818835B discloses a waterproof construction and construction method for a toilet threshold stone, as shown in fig. 7, which is found in application to be provided with a vertical surface for forming a height difference between the inner area and the outer area of the toilet, and people easily stumble when passing by.

Disclosure of Invention

The utility model aims to provide a transition structure for solving the difference of the height of the ground inside and outside a bathroom, which can be used for adding a closing-in section bar in a ceramic tile lifting area, and the closing-in section bar enables the difference of the height of the ground inside and outside the bathroom to form an inclined plane transition, so that when a person passes through, the inclination of an inclined plate is utilized to prevent the foot of the person from directly striking the vertical surface of the ceramic tile lifting area, and the foot of the person can smoothly transition to the ceramic tile in a higher area under the action of the inclined plate, thereby avoiding the person from being stumbled easily.

The utility model aims to achieve the aim, and the aim is achieved by the following technical scheme:

the utility model provides a solve bathroom inside and outside ground difference in height transition structure, includes the waterproof layer, and the waterproof layer sets up on former building floor, sets up the floor and risees the district on the former building floor, and the upper portion of waterproof layer sets up the cement mortar screed-coat, and the upper portion of cement mortar screed-coat sets up the cement mortar bond coat, and the upper portion of cement mortar bond coat sets up the ceramic tile, the ceramic tile is located the region that the floor risees the district and sets up the ceramic tile and rise the district, and the ceramic tile rises the district and sets up the binding off section bar, the binding off section bar includes vertical board, and the swash plate is connected on the upper portion of vertical board, and one side that swash plate and vertical board are connected is higher than the opposite side, and the diaphragm is connected to one side of swash plate, and the diaphragm is down connected to the lower part of vertical board.

In order to further achieve the purpose of the present utility model, the following technical solutions may also be adopted: the ceramic tile passing area is arranged between the upper transverse plate and the lower transverse plate, the ceramic tile is in plug-in fit with the ceramic tile passing area, the vertical plate, the inclined plate and the upper transverse plate are matched to form a triangular area, and the bottom of the upper transverse plate is matched with the ceramic tile.

The upper portion of lower diaphragm sets up the serrated surface, and the silica gel pad is connected to the bottom of last diaphragm, and the several arc wall is seted up to the bottom of silica gel pad, and the bottom of silica gel pad cooperates with the ceramic tile.

The upper part of the inclined plate is provided with a plurality of ribs which are arranged in a row, and the length direction of each rib is vertical to the upper edge of the inclined plate.

The utility model discloses a swash plate, including swash plate, upper cross plate, fixed slot, threaded rod, threaded pipe, handle, first arc wall, second arc wall are connected to the opening that vertical board is located the triangle district both sides, and the fixed slot is offered to the opening that vertical board was located the triangle district both sides, and the internally mounted auxiliary stay ware of fixed slot, auxiliary stay ware includes the plugboard, and the plugboard is pegged graft the cooperation with the fixed slot, and threaded rod is connected to one side of plugboard, the one end installation screwed pipe of threaded rod, and the screwed pipe is the internal thread pipe, and the threaded rod is connected to the internal thread of screwed pipe, and one side cooperation of screwed pipe, the handle is connected in the outside of screwed pipe, and first arc wall is offered to vertical board and swash plate junction, and the second arc wall is offered to swash plate and upper cross plate juncture.

The utility model has the advantages that: according to the utility model, the closing-in section is additionally arranged in the tile lifting area, and the closing-in section enables the height difference between the inner area and the outer area of the bathroom to form an inclined plane transition, so that when a person passes through, the inclination of the inclined plate is utilized to prevent the foot of the person from directly striking the vertical surface of the tile lifting area, and the foot of the person can smoothly transition to the tile in the higher area under the action of the inclined plate, so that the person is prevented from tripping easily.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings: FIG. 1 is a schematic diagram of the structure of the present utility model;

fig. 2 is a schematic view of a front view structure of a closing-in section bar;

fig. 3 is a schematic perspective view of a closing-in profile;

fig. 4 is a schematic diagram of a front view structure of a silica gel pad added to a closing-in section bar;

fig. 5 is a schematic diagram of a front view structure of a closing-in section with an additional support;

FIG. 6 is a schematic view of the structure after the threaded pipe is pushed outwards against the sloping plate;

fig. 7 is prior art publication No.: CN 104818835B.

Detailed Description

Preferred embodiments of the present utility model will be described below with reference to the accompanying drawings.

Example 1:

1-6, including waterproof layer 5, waterproof layer 5 sets up on former building floor 6, sets up floor elevating area 7 on the former building floor 6, and waterproof layer 5's upper portion sets up cement mortar screed-coat 4, and cement mortar screed-coat 4's upper portion sets up cement mortar bond line 3, and cement mortar bond line 3's upper portion sets up ceramic tile 2, ceramic tile 2 is located floor elevating area 7's region and sets up ceramic tile elevating area 8, and ceramic tile elevating area 8 sets up the binding off section bar, the binding off section bar includes vertical board 10, and swash plate 9 is connected to vertical board 10's upper portion, and swash plate 9 is higher than the opposite side with the one side that vertical board 10 is connected, and diaphragm 11 is connected to one side of swash plate 9, diaphragm 13 under the lower part connection of vertical board 10.

According to the utility model, the closing-in section is additionally arranged in the tile lifting area 8, and the closing-in section enables the height difference between the inner area and the outer area of the bathroom to form an inclined plane transition, so that when a person passes through, the inclination of the inclined plate 9 is utilized, the foot of the person is prevented from directly striking the vertical surface of the tile lifting area 8, and the foot of the person can smoothly transition to the tile 2 in a higher area under the action of the inclined plate 9, and the person is prevented from being stumbled easily.

And (3) selecting materials and carrying out feasibility analysis: the practical manufacturing sample is implemented according to the proportion and the matching mode of all the components in the specification drawing by taking the specification drawing as the drawing, the connection is a common connection mode such as strong adhesive connection, welding, riveting, flange connection integrated connection and the like, and the thickness and the strength of the connection point of the corresponding connection mode can be selected without creative need according to the practical connection strength during practical manufacturing.

Example 2:

1-4, including waterproof layer 5, waterproof layer 5 sets up on former building floor 6, sets up floor elevating area 7 on the former building floor 6, and waterproof layer 5's upper portion sets up cement mortar screed-coat 4, and cement mortar screed-coat 4's upper portion sets up cement mortar bond line 3, and cement mortar bond line 3's upper portion sets up ceramic tile 2, ceramic tile 2 is located floor elevating area 7's region and sets up ceramic tile elevating area 8, and ceramic tile elevating area 8 sets up the binding off section bar, the binding off section bar includes vertical board 10, and swash plate 9 is connected to vertical board 10's upper portion, and swash plate 9 is higher than the opposite side with the one side that vertical board 10 is connected, and diaphragm 11 is connected to one side of swash plate 9, diaphragm 13 under the lower part connection of vertical board 10.

A tile passing area 15 is arranged between the upper transverse plate 11 and the lower transverse plate 13, the tile 2 is in plug-in fit with the tile passing area 15, the vertical plate 10, the inclined plate 9 and the upper transverse plate 11 are matched to form a triangular area 14, and the bottom of the upper transverse plate 11 is matched with the tile 2.

The vertical plate 10, the inclined plate 9 and the upper transverse plate 11 are matched to form the triangular area 14, so that the tiles 2 positioned on two sides of the tile lifting area 8 can be excessively formed, the vertical surface of the tile lifting area 8 is prevented from being exposed, and personnel easily stumbled over are prevented.

Example 3:

The upper portion of lower diaphragm 13 sets up serrated surface 12, and silica gel pad 16 is connected to the bottom of upper diaphragm 11, and several arc-shaped groove 17 are seted up to the bottom of silica gel pad 16, and the bottom of silica gel pad 16 cooperates with ceramic tile 2.

The silica gel pad 16 of the present utility model can improve the friction force between the upper cross plate 11 and the tile 2, and simultaneously prevent water from easily entering the gap between the upper cross plate 11 and the tile 2.

Example 4:

1-4, including waterproof layer 5, waterproof layer 5 sets up on former building floor 6, sets up floor elevating area 7 on the former building floor 6, and waterproof layer 5's upper portion sets up cement mortar screed-coat 4, and cement mortar screed-coat 4's upper portion sets up cement mortar bond line 3, and cement mortar bond line 3's upper portion sets up ceramic tile 2, ceramic tile 2 is located floor elevating area 7's region and sets up ceramic tile elevating area 8, and ceramic tile elevating area 8 sets up the binding off section bar, the binding off section bar includes vertical board 10, and swash plate 9 is connected to vertical board 10's upper portion, and swash plate 9 is higher than the opposite side with the one side that vertical board 10 is connected, and diaphragm 11 is connected to one side of swash plate 9, diaphragm 13 under the lower part connection of vertical board 10. The upper part of the sloping plate 9 is provided with a plurality of ribs 18 which are arranged in a row, and the length direction of the ribs 18 is vertical to the upper edge of the sloping plate 9.

The plurality of ribs 18 arranged in a row can be preferentially matched with the soles of the personnel when the feet of the personnel are matched with the inclined plate 9, so that the contact area between the soles and the inclined plate 9 is reduced, the friction force between the soles of the personnel and the inclined plate 9 is reduced, and the personnel is further prevented from tripping easily.

The swash plate 9 and the upper transverse plate 11 are of elastic plate structures, the opening parts of the vertical plate 10, which are positioned on two sides of the triangular area 14, are connected with an aluminum alloy frame 30, one side of the aluminum alloy frame 30 is provided with a fixing groove 31, the inside of the fixing groove 31 is provided with an auxiliary support, the auxiliary support comprises a plugboard 32, the plugboard 32 is in plug-in fit with the fixing groove 31, one side of the plugboard 32 is connected with a threaded rod 34, one end of the threaded rod 34 is provided with a threaded pipe 33, the threaded pipe 33 is an internal threaded pipe, the threaded pipe 33 is internally connected with the threaded rod 34, one end of the threaded pipe 33 is matched with one side of the swash plate 9, the outside of the threaded pipe 33 is connected with a handle 35, the junction of the vertical plate 10 and the swash plate 9 is provided with a first arc groove 36, and the junction of the swash plate 9 and the upper transverse plate 11 is provided with a second arc groove 37.

The closing-in section can be conveniently adjusted by personnel according to the ceramic tile distance between the lower edge of the inclined plate 9 and the ceramic tile passing area 15 during actual installation, and the inclined plate 9 is elastically bent by a certain angle, so that the lower edge of the inclined plate 9 is conveniently attached to the ceramic tile of the ceramic tile passing area 15, before the closing-in section is installed, the personnel can rotate the threaded pipe 33 according to actual needs, the total length of the threaded pipe 33 and the threaded rod 34 is adjusted to the length capable of providing support for the inclined plate 9, the threaded pipe 33 can conveniently support one side of the inclined plate 9, and the stress of the inclined plate 9 is shared, and because the two aluminum alloy frames 30 are respectively positioned at the openings at the two sides of the triangular area 14, the personnel can conveniently rotate the threaded pipe 33. The second arcuate slot 37 facilitates angular adjustment between the swash plate 9 and the upper cross plate 11. The first arc-shaped groove 36 can facilitate the angular adjustment between the vertical plate 10 and the inclined plate 9.

The foregoing description is only of the preferred embodiments of the utility model and is not intended to limit the utility model.

Claims

1. The utility model provides a solve bathroom inside and outside ground difference in height transition structure which characterized in that: including waterproof layer (5), waterproof layer (5) set up on former building floor (6), set up floor rising district (7) on former building floor (6), the upper portion of waterproof layer (5) sets up cement mortar screed-coat (4), and the upper portion of cement mortar screed-coat (4) sets up cement mortar bond coat (3), and the upper portion of cement mortar bond coat (3) sets up ceramic tile (2), ceramic tile (2) are located the region that floor rising district (7) sets up ceramic tile rising district (8), and ceramic tile rising district (8) set up the binding off section bar, the binding off section bar includes vertical board (10), and swash plate (9) are connected on the upper portion of vertical board (10), and swash plate (9) are higher than the opposite side with one side that vertical board (10) is connected, and diaphragm (13) are down connected to the lower part of swash plate (10).

2. The transition structure for solving the problem of the height difference between the inner ground and the outer ground of the bathroom according to claim 1, wherein: the ceramic tile passing area (15) is arranged between the upper transverse plate (11) and the lower transverse plate (13), the ceramic tile (2) is in plug-in fit with the ceramic tile passing area (15), the vertical plate (10), the inclined plate (9) and the upper transverse plate (11) are matched to form a triangular area (14), and the bottom of the upper transverse plate (11) is matched with the ceramic tile (2).

3. The transition structure for solving the problem of the height difference between the inner ground and the outer ground of the bathroom according to claim 1, wherein: the upper portion of lower diaphragm (13) sets up serrated surface (12), and silica gel pad (16) are connected to the bottom of going up diaphragm (11), and several arc wall (17) are seted up to the bottom of silica gel pad (16), and the bottom of silica gel pad (16) cooperates with ceramic tile (2).

4. The transition structure for solving the problem of the height difference between the inner ground and the outer ground of the bathroom according to claim 1, wherein: the upper part of the sloping plate (9) is provided with a plurality of ribs (18) which are arranged in a row, and the length direction of the ribs (18) is perpendicular to the upper edge of the sloping plate (9).

5. The transition structure for solving the problem of the height difference between the inner ground and the outer ground of the bathroom according to claim 1, wherein: the utility model provides a swash plate (9) and go up diaphragm (11) for having elastic platelike structure, opening that vertical board (10) are located triangle district (14) both sides all connects one aluminum alloy frame (30), and fixed slot (31) are seted up to one side of aluminum alloy frame (30), and the internally mounted auxiliary stay ware of fixed slot (31), auxiliary stay ware includes plugboard (32), and plugboard (32) and fixed slot (31) grafting cooperation, threaded rod (34) are connected to one side of plugboard (32), and threaded pipe (33) are installed to one end of threaded rod (34), and threaded pipe (33) are the internal thread pipe, and internal thread connection threaded rod (34) of threaded pipe (33), and one end and one side cooperation of swash plate (9) of threaded pipe (33) are connected handle (35), and first arc groove (36) are seted up in vertical board (10) and swash plate (9) junction, and second arc groove (37) are seted up to last diaphragm (11) juncture.