CN220035996U - Waterproof toilet chassis with slope releasing structure - Google Patents

Abstract

The utility model relates to the technical field of assembled toilets, in particular to a toilet waterproof chassis with a slope-releasing structure, and aims to solve the problem that the existing toilet chassis slope-releasing technology is high in multiple technical requirements. A toilet waterproof chassis with a slope-releasing structure, comprising: the waterproof bottom plate is naturally formed with a V-shaped groove, a turnover plate and a lower surface through milling, the edge of the top surface of the waterproof bottom plate is milled to the lower surface along the V-shaped groove by a milling cutter, the cutting thickness of the milling cutter is gradually increased to the lower surface and a plurality of milling slopes are formed, and the turnover plate can be turned by 90 degrees along the V-shaped groove towards the center of the waterproof bottom plate to form a waterproof bottom plate body. The waterproof bottom plate is processed through the measured toilet numerical value, the turnover plate is turned over along the V-shaped groove to form the waterproof bottom plate body after the waterproof bottom plate is finished, and then the installation of the ceramic tile can be finished on the inclined milling slope.

Description

Waterproof toilet chassis with slope releasing structure

Technical Field

The utility model relates to the technical field of assembled toilets, in particular to a toilet waterproof chassis with a slope-releasing structure.

Background

The existing assembled toilet chassis in the market generally needs die machining, has high machining cost and long machining period, and cannot meet the domestic household type diversified requirements.

In order to smoothly discharge accumulated water in a bathroom, the ground of the bathroom is generally required to be subjected to slope-releasing treatment, the lowest floor drain position is ensured, the existing bathroom chassis is generally subjected to slope-releasing by adopting a bottom base layer, the construction process is relatively complex, the requirements on constructors are high, and the implementation difficulty is high.

Disclosure of Invention

The utility model aims to solve the technical problems that the existing toilet usually adopts a bottom base layer to carry out slope-releasing treatment, the construction process is complex and the technical requirement is high, and the utility model aims to provide the toilet waterproof chassis with the slope-releasing structure, solve the problems that the toilet chassis does not need to use the bottom base layer slope-releasing treatment process, can carry out flexible customized production according to the sizes of toilets of different house types and does not need to use a die for processing.

The utility model is realized by the following technical scheme:

a toilet waterproof chassis with a slope-releasing structure, comprising:

the waterproof bottom plate is of a rectangular structure formed by milling along the outer outline of the waterproof bottom plate through a milling cutter, four edges of the waterproof bottom plate are all milled with edge folding grooves through the milling cutter, V-shaped grooves are naturally formed between the vertexes of adjacent edge folding grooves through milling, a turning plate is formed by the V-shaped grooves and the waterproof bottom plate between the two adjacent edge folding grooves, and the top surface of the waterproof bottom plate is also milled to a low surface through the milling cutter;

the top surface edge of the waterproof bottom plate is milled to the lower surface through the milling cutter along the V-shaped groove, the cutting thickness of the milling cutter is gradually increased to the lower surface and forms a plurality of milling slopes, the thickness to the lower surface is smaller than the thickness of four sides of the waterproof bottom plate, and the turning plate can be turned over by 90 degrees along the V-shaped groove towards the center of the waterproof bottom plate to form a waterproof bottom plate body.

According to the technical scheme, the waterproof chassis is determined according to the shape and the size of the bathroom and the position of the sewer pipe, the waterproof bottom plate is milled and cut to a proper size through a CNC processing program, four vertex angles of the waterproof bottom plate are milled to form a flanging groove after cutting, a V-shaped groove formed in the moving process of the milling cutter is left on the waterproof bottom plate in the milling process, a milling slope surface which is low in surface and inclined is milled on the waterproof bottom plate, after milling is completed, a plurality of flanging plates are turned along the V-shaped groove, so that the waterproof bottom plate is in a box shape, a waterproof bottom plate body is formed, an adhesive can be coated in the waterproof bottom plate body, composite ceramic tiles can be adhered on the waterproof bottom plate body, and the sloping process of the bathroom bottom plate is completed.

In some optional technical solutions, a distance from a vertex at an upper end of a top edge of the milling slope to the lower surface is a side edge of the milling slope, and the side edge of the milling slope is a linear structure.

In the technical scheme, the linear structure can enable the surface of the milling slope to be smoother and the water left on the surface can fall into the low surface rapidly.

In some alternative embodiments, the shape of the opening to the lower surface is square, rectangular, diamond, circular, oval or regular polygon.

In the technical scheme, the low surfaces with different opening shapes can be suitable for different kinds of toilets.

In some alternative technical schemes, the V-shaped groove is filled with glue.

In the technical scheme, the gluing is used for bonding and fixing the water blocking edge and the bottom plate, and simultaneously, the gap at the joint is sealed, so that the requirement of sealing and waterproofing is met.

In some optional technical solutions, butyl tape is provided on the waterproof chassis body located adjacent to the edges of the turnover plate.

In the technical scheme, the butyl adhesive tape is used for enhancing the bonding strength of the spliced part and reducing the hidden danger of water leakage of the spliced part.

In some optional embodiments, the gradient from the highest point of the plurality of milling slopes to the lowest surface is greater than 0.5%.

According to the technical scheme, the gradient of the milling slope surface is larger than 0.5%, so that water in the bathroom can flow into the low surface along the milling slope surface rapidly.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

according to the utility model, the waterproof bottom plate is processed industrially according to the size of the bathroom obtained by measurement in advance, proper size is milled, four flanging grooves are milled to form a plurality of flanging plates, finally milling is performed to a low surface and a plurality of milling slopes inclined towards the low surface, the plurality of flanging plates are folded along the V-shaped grooves towards the center of the turnover waterproof bottom plate to enable the flanging plates to be vertical, a waterproof bottom plate body is formed, the formed waterproof bottom plate body is processed by milling and sloping, and the process of paving composite ceramic tiles and the like on the waterproof bottom plate body is carried out to finish construction of the bathroom bottom plate.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model. In the drawings:

FIG. 1 is a schematic view of the waterproof bottom plate of the present utility model before milling;

fig. 2 is a schematic diagram of a milled waterproof bottom plate;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

fig. 4 is a schematic diagram of a milled waterproof bottom plate;

FIG. 5 is a partial enlarged view at B in FIG. 4;

fig. 6 is a schematic structural diagram of a waterproof chassis body formed by folding a waterproof bottom plate according to the present utility model;

fig. 7 is a schematic diagram II of a waterproof chassis body formed by folding a waterproof bottom plate.

In the drawings, the reference numerals and corresponding part names:

1. a waterproof bottom plate; 11. a folded plate is turned over; 12. milling a slope; 13. a flanging groove; 2. to the lower side; 3. v-shaped groove.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present utility model, the present utility model will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present utility model and the descriptions thereof are for illustrating the present utility model only and are not to be construed as limiting the present utility model. It should be noted that the present utility model is already in a practical development and use stage.

Example 1

As shown in fig. 1 to 7, this embodiment provides a waterproof chassis of a toilet with a slope structure, including:

the waterproof bottom plate 1 is of a rectangular structure formed by milling along the outer outline of the waterproof bottom plate 1 through a milling cutter, the four sides of the waterproof bottom plate 1 are all milled with edge folding grooves 13 through the milling cutter, V-shaped grooves 3 are naturally formed between the vertexes of the adjacent edge folding grooves 13 through milling, a turnover plate 11 is formed by the V-shaped grooves 3 and the waterproof bottom plate 1 between the two adjacent edge folding grooves 13, and the top surface of the waterproof bottom plate 1 is also milled to a low surface 2 through the milling cutter;

wherein, the top surface edge of waterproof bottom plate 1 mills along V type groove 3 orientation to low face 2 through the milling cutter, and the cutting thickness of milling cutter towards low face 2 increases gradually and forms a plurality of slope 12 that mill, to low face 2 thickness be less than waterproof bottom plate 1 four sides thickness, turns over board 11 and can follow V type groove 3 towards waterproof bottom plate 1's center and turn over 90 and form waterproof chassis body.

As shown in fig. 2 and 6, the distance from the top point of the upper end of the top edge of the milling slope 12 to the lower surface 2 is the side edge of the milling slope 12, and the side edge of the milling slope 12 is in a linear structure.

As shown in fig. 2 and 6, the shape of the opening to the lower face 2 is square, rectangular, diamond, circular, elliptical or regular polygon.

Specifically, firstly, the shape, the size and the lowest point numerical value of the floor drain installation position of the bathroom are obtained through measurement, the numerical values are programmed into a CNC processing program, the CNC processing program mills the waterproof bottom plate 1 according to input data, after milling the proper size, four flanging grooves 13 are milled at four corners of the waterproof bottom plate 1 by using the milling cutter, the milling cutter naturally leaves the V-shaped groove 3 when milling along the waterproof bottom plate 1, one side of the V-shaped groove 3 far away from the center of the waterproof bottom plate 1 is a folding plate 11, then the waterproof bottom plate 1 is milled to a low surface 2, the opening shape to the low surface 2 can be square, rectangular, diamond, circular, elliptic or regular polygon, finally, slope milling is carried out along the V-shaped groove 3, namely the highest position of the waterproof bottom plate 1 is towards the low surface 2, the thickness of the waterproof bottom plate 1 is gradually reduced towards the low surface 2, after milling forming, the folding plate 11 can be folded along the V-shaped groove 3 by 90 degrees, the folding is completed, the forming is a waterproof bottom plate body, the composite ceramic tile can be laid on the waterproof bottom plate body, the slope surface can be parallel to the adjacent ceramic tile laying surface 12, namely the composite tile is laid to the low-grade, the process is greatly reduced, and the difficulty of the bathroom is greatly reduced, and the construction is greatly reduced.

As shown in fig. 6 and 7, the V-groove 3 is filled with glue.

Specifically, after the turnover plate 11 is turned over towards the center of the waterproof chassis by 90 degrees, the waterproof edge and the bottom plate can be fixed by gluing, and the gap at the joint is sealed, so that the waterproof sealing requirement is met.

As shown in fig. 6 and 7, butyl tape is provided on the waterproof chassis body at the edge of the adjacent flap 11.

Specifically, after the waterproof bottom plate 1 is formed into the waterproof chassis body, the waterproof chassis body can be reinforced and fixed by using the butyl adhesive tape, the butyl adhesive tape is used for reinforcing the bonding strength of the spliced part, the hidden danger of water leakage of the spliced part is reduced, and the tightness of the waterproof chassis body is improved.

The slope from the highest point of the plurality of milling ramps 12 to the lower surface 2 is greater than 0.5%.

Specifically, the milling slope 12 is inclined towards the low surface 2, the gradient is greater than 0.5%, and the water source left on the surface of the composite ceramic tile can quickly flow into the low surface 2.

Specifically, after the waterproof chassis body is molded, a drain hole is formed at the position of the lower surface 2, the drain pipe is extended to the position of the lower surface 2, the drain pipe and the drain hole are filled with sealant firstly, after the sealant is solidified, the sealing is cleaned smoothly, then the inner opening of the water pipe is overlapped and sealed with the surface of the chassis by using a butyl adhesive tape, the water pipe is pressurized and fixed for 48 hours after being installed, namely, the sealing treatment of the floor drain is completed, and the floor drain is required to be installed at the drain hole.

Example 2

The embodiment is basically the same as embodiment 1, except that the corner missing condition exists in the middle of four corners or edges of the waterproof bottom plate 1, and the edge at the corner missing position needs to be added with a waterproof edge alone, so that the waterproof edge can be arranged at the edge at the corner missing position, and the situation that the folded edge cannot be closed is avoided.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the utility model, and is not meant to limit the scope of the utility model, but to limit the utility model to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (6)

1. From waterproof chassis of bathroom of taking slope structure of putting, its characterized in that includes:

the waterproof bottom plate (1), the waterproof bottom plate (1) is of a rectangular structure formed by milling along the outer outline of the waterproof bottom plate (1) through a milling cutter, a flanging groove (13) is milled on four sides of the waterproof bottom plate (1) through the milling cutter, a V-shaped groove (3) is naturally formed between the vertexes of adjacent flanging grooves (13) through milling, a turnover plate (11) is formed by the V-shaped groove (3) and the waterproof bottom plate (1) between two adjacent flanging grooves (13), and the top surface of the waterproof bottom plate (1) is also milled to a low surface (2) through the milling cutter;

the top surface edge of waterproof bottom plate (1) is followed through milling cutter V type groove (3) orientation to low face (2) mill, and milling cutter's cutting thickness towards low face (2) increase gradually and form a plurality of slope (12) of milling, to low face (2) thickness be less than waterproof bottom plate (1) four sides thickness, turn over board (11) can be followed V type groove (3) are turned over towards waterproof bottom plate (1) center and are formed waterproof chassis body by 90.

2. The toilet waterproof chassis with a slope releasing structure according to claim 1, wherein: the distance from the top point at the upper end part of the top edge of the milling slope surface (12) to the lower surface (2) is the side edge of the milling slope surface (12), and the side edge of the milling slope surface (12) is of a linear structure.

3. The toilet waterproof chassis with a slope releasing structure according to claim 1, wherein: the opening shape of the lower surface (2) is square, rectangular, diamond-shaped, round, oval or regular polygon.

4. The toilet waterproof chassis with a slope releasing structure according to claim 1, wherein: the V-shaped groove (3) is filled with glue.

5. The toilet waterproof chassis with a slope releasing structure according to claim 1, wherein: butyl adhesive tapes are arranged on the waterproof chassis body at the edge of the adjacent turnover plate (11).

6. The toilet waterproof chassis with a slope releasing structure according to claim 1, wherein: the gradient from the highest point of the milling sloping surfaces (12) to the lower surface (2) is more than 0.5 percent.