CN214246027U - Toilet drainage structure - Google Patents

Abstract

The utility model relates to a toilet drainage structure. The toilet is divided into a dry area and a wet area, the wet area is provided with a floor drain, the height of the wet area is 25-40 mm lower than the height of the dry area, and the ground of the dry area is The slope of 5% slopes towards the ground in the wet area, and the ground in the wet area slopes towards the floor drain at a slope of 5%. The wet area is provided with a floor drain, the ground of the dry area slopes to the ground of the wet area with a slope of 5%, the ground of the wet area slopes to the floor drain with a slope of 5%, and the accumulated water in the dry area passes the slope of 5% along the dry area in turn. The ground of the wet area and the ground of the wet area flow into the floor drain to realize the drainage of the dry area. The accumulated water in the wet area flows into the floor drain along the ground of the wet area through a 5% slope, so as to realize the drainage of the wet area. Therefore, a single floor drain can be used to realize the wet area. It is not necessary to install an independent floor drain in the dry area for drainage, which not only reduces the cost, but also avoids the phenomenon that the floor drain in the dry area is prone to odor without water for a long time.

Description

Toilet drainage structure

Technical Field

The utility model relates to a bathroom drainage structures.

Background

A floor drain is arranged in a dry area and a wet area of an existing toilet respectively, the dry area and the wet area are separated by a water blocking stone, a shower screen is arranged above the water blocking stone to prevent water from being shallow out of the dry area when a shower is taken, the floor drain in the dry area is used for draining water when the toilet is cleaned, the floor drain in the wet area is used for draining water when the shower is taken, and the division of labor is clear.

The existing toilet dry area and wet area are independent drainage systems, the utilization rate of the floor drain in the dry area is low, bacteria are easy to breed, and the floor drain is not drained for a long time and is easy to return odor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cost is lower, the bathroom drainage structures of a floor drain is shared in dry district, wet district.

The purpose of the utility model is realized like this:

a toilet drainage structure is characterized in that the toilet is divided into a dry area and a wet area, a floor drain is arranged in the wet area, the height of the wet area is 25-40mm lower than that of the dry area, the ground of the dry area slopes to the ground of the wet area by a gradient of 5%, and the ground of the wet area slopes to the floor drain by a gradient of 5%.

The floor drain is arranged in the wet area, the ground of the dry area is inclined to the ground of the wet area at a gradient of 5%, the ground of the wet area is inclined to the floor drain at a gradient of 5%, accumulated water in the dry area sequentially flows into the floor drain along the ground of the dry area and the ground of the wet area through a gradient of 5%, so that water drainage in the dry area is realized, the accumulated water in the wet area flows into the floor drain along the ground of the wet area through a gradient of 5%, so that water drainage in the wet area is realized, therefore, water drainage in the wet area and the dry area can be realized by adopting one floor drain, an independent floor drain does not need to be additionally arranged in the dry area for drainage, the cost is reduced, and meanwhile, the phenomenon that the water is easy to return to the odor due to no water drainage in the floor drain in the dry area for a long time is avoided.

The purpose of the utility model can also adopt the following technical measures to solve:

more specifically, the floor tiles are laid on the floor of the toilet, the wall tiles are laid on the inner wall of the toilet, and a first adhesive mortar layer is filled between the floor tiles and the floor of the toilet and between the floor tiles and the inner wall of the toilet. 1:2.5 of cement mortar mixed with 5% of waterproofing agent is filled between the floor tile and the floor of the toilet and between the wall tile and the inner wall of the toilet to form adhesive mortar for adhesion, so that the waterproofing effect of the toilet is greatly improved.

As a more specific scheme, a second adhesive mortar layer is additionally arranged on the surface of the first adhesive mortar layer.

More specifically, the shower screen is arranged on the ground of the wet area and close to the dry area.

More specifically, when the shower screen is a linear type door-covering shower screen, the ground of a wet area is 25mm lower than that of a dry area.

More specifically, when the shower screen is a straight hanging sliding door shower screen, the ground of a wet area is 25mm lower than that of a dry area.

More specifically, when the shower screen is a circular arc double-sliding door shower screen, the ground of a wet area is 40mm lower than that of a dry area.

The utility model has the advantages as follows:

the utility model discloses, wet district is provided with the floor drain, the ground of dry district is with 5% slope to the ground of wet district, the ground of wet district is with 5% slope to the floor drain, the ponding of dry district is through the ground of 5% slope edge dry district in proper order, the ground inflow floor drain of wet district, thereby realize the drainage of dry district, the ponding of wet district is through the ground inflow floor drain of 5% slope edge wet district, thereby realize the drainage of wet district, consequently, adopt a floor drain can realize wet district and dry district drainage, need not to install an independent floor drain in addition at the dry district and carry out the drainage, both reduce cost, avoid the floor drain of dry district to have the water to enter the easy phenomenon of returning foul for a long time simultaneously.

The utility model discloses, fill 1:2.5 cement mortar between ceramic tile and the bathroom ground, between wall brick and the bathroom inner wall and mix 5% waterproofing agent and constitute first paste mortar and carry out the adhesion, improve the water-proof effects in bathroom greatly.

Drawings

Fig. 1 is a schematic plan view of a toilet (in-line type screen shower).

Fig. 2 is a schematic sectional view of a toilet drain structure (in-line type screen).

Fig. 3 is a schematic view of a shower screen (in-line type door-covering shower screen).

Fig. 4 is a schematic plan view of a toilet (a linear hung sliding door shower screen).

Fig. 5 is a schematic sectional view of a toilet drain structure (a linear hung sliding door shower screen).

Fig. 6 is a schematic view of a shower screen (a line-shaped hanging sliding door shower screen).

Fig. 7 is a schematic plan view of a toilet (circular arc double door shower screen).

Fig. 8 is a schematic sectional view of a toilet drain structure (circular arc double door shower panel).

Fig. 9 is a schematic view of a shower screen (circular arc double door shower screen).

Detailed Description

The invention will be further described with reference to the following drawings and examples:

embodiment, as shown in fig. 1 to 9, a toilet drainage structure includes a shower screen 5, the toilet is divided into a dry area 1 and a wet area 2, the wet area 2 is provided with a floor drain 3, the height of the wet area 2 is 25-40mm lower than that of the dry area 1, the ground of the dry area 1 is inclined to the ground of the wet area 2 by a gradient of 5%, and the ground of the wet area 2 is inclined to the floor drain 3 by a gradient of 5%.

The floor tile 4 is laid on the floor of the toilet, the wall tile is laid on the inner wall of the toilet, a first adhesive mortar layer is filled between the floor tile 4 and the floor of the toilet and between the floor tile 4 and the inner wall of the toilet, and a second adhesive mortar layer is additionally arranged on the surface of the first adhesive mortar layer.

The 1:2.5 cement mortar is mixed with 5% of waterproofing agent to form the first bonded mortar layer 6, and the 1:1 cement mortar is mixed with construction glue to form the second bonded mortar layer 7.

Referring to fig. 1 to 3, when the shower screen 5 is a line-shaped door-covering shower screen 5, the ground of the wet area 2 is 25mm lower than the ground of the dry area 1, and the shower screen 5 is disposed on the ground of the wet area 2 near the dry area 1.

Referring to fig. 4 to 6, when the shower screen 5 is a linear hung sliding door shower screen 5, the ground of the wet area 2 is 25mm lower than that of the dry area 1, and the shower screen 5 is arranged on the ground of the wet area 2 near the dry area 1.

Referring to fig. 7 to 9, when the shower screen 5 is a circular arc double-door shower screen 5, the ground of the wet area 2 is 40mm lower than the ground of the dry area 1, and the shower screen 5 is disposed on the ground of the wet area 2 adjacent to the dry area 1.

The floor drain 3 is arranged in the wet area, the ground of the dry area 1 is inclined to the ground of the wet area 2 at a gradient of 5%, the ground of the wet area 2 is inclined to the floor drain 3 at a gradient of 5%, accumulated water in the dry area sequentially flows into the floor drain 3 along the ground of the dry area 1 and the ground of the wet area 2 through a gradient of 5%, so that water drainage in the dry area 1 is realized, accumulated water in the wet area 2 flows into the floor drain 3 along the ground of the wet area 2 through a gradient of 5%, so that water drainage in the wet area 2 is realized, therefore, water drainage in the wet area 2 and the dry area 1 can be realized by adopting one floor drain 3, an independent floor drain 3 does not need to be additionally arranged in the dry area 1 for drainage, the cost is reduced, and the phenomenon that water is easy to return to be smelly due to no water drainage.

The first paste mortar layer 6 formed by filling 1:2.5 cement mortar and 5% of a waterproof agent between the floor tile 4 and the ground of the toilet and between the wall tile and the inner wall of the toilet is adhered, so that the waterproof effect of the toilet is greatly improved.

Claims (7)

1. A toilet drainage structure, the toilet being divided into a dry area and a wet area, characterized in that: the wet area is provided with a floor drain, the height of the wet area is 25-40mm lower than that of the dry area, the ground of the dry area slopes to the ground of the wet area at a gradient of 5%, and the ground of the wet area slopes to the floor drain at a gradient of 5%.

2. The toilet drainage structure according to claim 1, wherein: the floor tile is laid on the floor of the toilet, the wall tile is laid on the inner wall of the toilet, a first adhesive mortar layer is filled between the floor tile and the floor of the toilet, and a first adhesive mortar layer is filled between the floor tile and the inner wall of the toilet.

3. The toilet drainage structure according to claim 2, wherein: and a second adhesive mortar layer is additionally arranged on the surface of the first adhesive mortar layer.

4. The toilet drainage structure according to claim 1, wherein: still include the shower screen, the shower screen sets up and is close to dry district on the ground in wet district.

5. The toilet drainage structure according to claim 4, wherein: when the shower screen is a linear door-covering shower screen, the ground of the wet area is 25mm lower than the ground of the dry area.

6. The toilet drainage structure according to claim 4, wherein: when the shower screen is a linear hanging sliding door shower screen, the ground of the wet area is 25mm lower than the ground of the dry area.

7. The toilet drainage structure according to claim 4, wherein: when the shower screen is a circular arc double-sliding door shower screen, the ground of the wet area is 40mm lower than the ground of the dry area.

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