CN219100605U - Bathroom ground structure that shower area sinks - Google Patents

Abstract

The utility model provides a ground structure of a bathroom with a sunk shower area, which comprises the following components: the dry area comprises a dry area cushion layer, a dry area waterproof layer, a dry area combining layer and a dry area decoration surface layer, and is in a slope structure; the wet area comprises a wet area cushion layer, a wet area waterproof layer, a bonding layer and a wet area decoration surface layer, and is of a slope structure, and a floor drain is arranged in the wet area; and the partition is positioned between the dry area and the wet area, wherein the height of the dry area is higher than that of the wet area. Based on the ground structure, the partition can prevent bath water in the wet area from flowing or splashing on the ground in the dry area. In addition, the height of the dry area is higher than that of the wet area, so that water flowing to the ground of the wet area can not flow to the ground of the dry area during bath, the ground of the dry area is dry, the light foot is comfortable to tread, and the feeling of coldness and dampness can not be caused. In addition, no water bar is arranged between the dry area and the wet area, so that the bath for the old, the children and the people with inconvenient actions can be more safe.

Description

Bathroom ground structure that shower area sinks

Technical Field

The utility model relates to the field of architectural decoration, in particular to a ground structure of a bathroom with a sunk shower area.

Background

In the house toilet decoration practice, the toilet is generally divided into a dry area and a wet area, a wash basin and a closestool are arranged in the dry area, a shower or a bathtub is arranged in the wet area, and a water blocking strip is generally arranged between the dry area and the wet area and is generally made of stone materials in order to prevent water from flowing to the ground of the dry area.

Firstly, because the water bar is 20-50 mm higher than the ground, the aged, children and people with inconvenient actions can not conveniently enter and exit the bath, and sometimes fall down, so that potential safety hazards exist. Secondly, as the floor bricks are paved by cement mortar, the thickness of the mortar layer is 20-40 mm, so that water flowing to the brick ground during bath permeates into the mortar layer below the brick ground in a shower area through gaps between bricks, and then permeates into the mortar layer below the brick ground in a dry area, so that the brick ground in the dry area is moist, cool and uncomfortable to step on; thirdly, as the waterproof layer may fall down, i.e. the waterproof layer at the entrance is lower, the water permeated into the mortar layer is collected in the mortar layer below the entrance, and finally leaks to the toilet through the pores of the threshold stone mortar bonding layer, thereby leading to water seepage of the toilet.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: aiming at a series of problems caused by the ground structure of the dry and wet areas of the shower area in the prior art, the ground structure of the sink bathroom of the shower area is provided.

In order to solve the technical problems, the utility model provides a ground structure of a bathroom in a shower area, which comprises: the dry area comprises a dry area cushion layer, a dry area waterproof layer, a dry area combining layer and a dry area decoration surface layer, and is in a slope structure; the wet area comprises a wet area cushion layer, a wet area waterproof layer, a bonding layer and a wet area decoration surface layer, and is of a slope structure, and a floor drain is arranged in the wet area; and the partition is positioned between the dry area and the wet area, wherein the height of the dry area is higher than that of the wet area.

In the floor structure of the bathroom with the sunk shower area, the utility model can also have the following characteristics: the height of the dry area is 20-40 mm higher than that of the wet area.

In the floor structure of the bathroom with the sunk shower area, the utility model can also have the following characteristics: the gradient of the dry area is 0.5-1%, the gradient of the wet area is 1-3%, and the ground of the wet area far away from the floor drain is higher than the ground of the wet area near the floor drain.

In the floor structure of the bathroom with the sunk shower area, the utility model can also have the following characteristics: the dry area cushion layer is a haydite concrete layer or a foaming concrete layer and is attached to the original ground, and the wet area cushion layer is a haydite concrete layer or a foaming concrete layer and is attached to the original ground.

In the floor structure of the bathroom with the sunk shower area, the utility model can also have the following characteristics: the waterproof layer of the dry area is a hydrophobic material layer with the thickness of 1.5-3mm, is attached to the upper surface of the cushion layer of the dry area and returns to the high wall surface.

In the floor structure of the bathroom with the sunk shower area, the utility model can also have the following characteristics: the wet area waterproof layer is a hydrophobic material layer with the thickness of 1.5-3mm, and is attached to the upper surface of the wet area cushion layer.

In the floor structure of the bathroom with the sunk shower area, the utility model can also have the following characteristics: the thickness of the dry area bonding layer is 3-8 mm, the wet area bonding layer is attached to the dry area waterproof layer, and the thickness of the wet area bonding layer is 3-8 mm, and the wet area bonding layer is attached to the wet area waterproof layer.

In the floor structure of the bathroom with the sunk shower area, the utility model can also have the following characteristics: the dry area decoration surface layer is a floor tile layer and is attached to the dry area combination layer.

In the floor structure of the bathroom with the sunk shower area, the utility model can also have the following characteristics: the wet area decoration surface layer is a floor tile layer and is attached to the wet area combination layer.

The utility model has the beneficial effects that:

in the shower area sink toilet floor structure of the present utility model, a dry area and a wet area are included. Wherein, be provided with the wall between dry district and the wet district. The dry area and the wet area are both in slope structures, and the height of the dry area is higher than that of the wet area. Based on the ground structure, the partition can prevent bath water in the wet area from flowing or splashing on the ground in the dry area. In addition, the height of the dry area is higher than that of the wet area, so that water flowing to the ground of the wet area can not flow to the ground of the dry area during bath, the ground of the dry area is dry and comfortable, and people feel cool and moist when stepping on the dry area. In addition, in the structure, no water bar is arranged between the dry area and the wet area, no water bar which is 20-40 mm higher than the ground is arranged, and bath entrance and exit of old people, children and people with inconvenient actions are safer.

In addition, the gradient of the dry area is 0.5-1%, and the gradient is low near the ground of the wet area and high near the gate of the toilet. The slope of the wet area is 1-3%, the wet area is provided with a floor drain, the ground near the floor drain is lowest, so that water flows to the lowest place, namely, the dry area flows to the wet area, and the wet area flows to the floor drain, so that the ground of the dry area is less in water invasion and drier.

In addition, the dry region combining layer is attached to the dry region waterproof layer, the dry region waterproof layer is attached to the dry region cushion layer, the dry region waterproof layer is a hydrophobic material layer and returns to the high wall surface, and therefore moisture penetrating into the dry region combining layer can be prevented from penetrating into the dry region cushion layer below and surrounding walls.

In addition, the thickness of the waterproof layer in the dry area is thinner, the gradient of the dry area can still be guaranteed, and moisture on the waterproof layer can still flow to the wet area according to the gradient.

In addition, the wet area combining layer is attached to the wet area waterproof layer, the wet area waterproof layer is attached to the wet area cushion layer, the wet area waterproof layer is a hydrophobic material layer, and the thickness of the wet area is thinner, so that water on the ground of the wet area can still flow to the floor drain at the low position, and water can not accumulate after flowing away from the floor drain.

Furthermore, the thickness of the dry area bonding layer is 3-8 mm, and the dry area bonding layer is very thin and very compact, so that the accumulated moisture is very little, and the dry area ground is not cold and moist.

Drawings

Fig. 1 is a schematic view of the floor structure of a bathroom where a shower area sinks in an embodiment of the present utility model.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects solved by the utility model more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Example 1

As shown in fig. 1, the shower area sink toilet floor structure includes a dry area 10, a wet area 20, and a partition 30.

The dry section 10 is directed towards the bathroom doorway, which is provided with threshold stones 40. The wet area 20 is located on the inner side of the dry area 10, and walls 50 are provided around the wet area. The partition 30 is vertically disposed, standing between the dry zone 10 and the wet zone 20.

The dry area 10 comprises a dry area cushion layer 11, a dry area waterproof layer 12, a dry area bonding layer 13 and a dry area decoration surface layer 14, which are sequentially from bottom to top: a dry area bedding layer 11, a dry area waterproof layer 12, a dry area bonding layer 13 and a dry area decorative surface layer 14.

The dry area cushion layer 11 is a haydite concrete layer or a foaming concrete layer, is attached to the ground of the dry area of the ground 60 of the original toilet and is used for adjusting the ground height of the original dry area, a slope surface structure is formed on the upper surface of the dry area cushion layer, the slope gradient is 0.5-1%, the slope direction is toward the wet area 20, namely, the ground near the wet area 20 is low, and the threshold stone 40 near the gate of the toilet is high. In this embodiment, the gradient of the dry land mat 11 is 1%.

The waterproof layer 12 is a hydrophobic material layer, is paved by the hydrophobic material, has the thickness of 1.5-3mm, is attached to the upper surface of the cushion layer 11 in the dry area, and returns to 150mm on the wall surface of the wall 50 nearby, and is used for preventing the moisture permeated into the bonding layer 13 in the dry area from permeating into the cushion layer 11 in the dry area and the surrounding wall surface below. The slope of the dry area waterproof layer 12 does not change the slope of the dry area cushion layer 11, and is still a slope with the slope of 1%, so that moisture permeated from above can quickly flow into the ground of the wet area along the dry area waterproof layer 12.

The dry area bonding layer 13 is paved by adopting a special adhesive for ceramic tiles, and has the thickness of 3-8 mm, and is used for bonding the dry area decoration surface layer 14 to the dry area waterproof layer 12. Because the dry-area waterproof layer 12 has a slope structure, moisture permeated from the dry-area decorative surface layer 14 above will automatically flow away from the dry-area waterproof layer 12 and will not be accumulated in the dry-area bonding layer 13 for a long time. The thickness of the dry region bonding layer 13 is only about 25% of the thickness of the dry region mat layer 11, and is very dense, so that the accumulated moisture is very small.

The dry area decoration surface layer 14 is formed by paving floor tiles and is in a slope structure with a slope of 1%, water flows from the ground of the dry area to the ground during washing, and cannot permeate out of the bathroom through the threshold stone 40, so that the waterproof performance of the bathroom can be improved.

Wet area 20 includes wet area mat 21, wet area waterproof layer 22, wet area bonding layer 23, and wet area decorative cover 24, in order from bottom to top: wet area mat 22, wet area waterproof layer 22, wet area bonding layer 23, wet area decorative layer 24, and floor drain 25. The floor height of the wet area 20 is 20-40 mm lower than the floor height of the dry area 10. In this embodiment, the wet zone 20 floor height is 30mm below the dry zone 10 floor height.

The wet area cushion layer 21 is a ceramsite concrete layer and is attached to the ground of the wet area 20 of the original bathroom ground 60 for adjusting the ground height of the original wet area, a slope surface structure is formed on the upper surface of the wet area cushion layer, the slope is 1-3%, a floor drain 25 is arranged on the lowest part of the slope surface, and the floor drain 25 is far away from a bathroom gate. In this embodiment, the slope of wet area mat 22 is 2%.

The wet area waterproof layer 22 is a hydrophobic material layer, is paved by the hydrophobic material, has the thickness of 1.5-3mm, is attached to the upper surface of the wet area cushion layer 21, is connected with the dry area waterproof layer 12 into a whole, returns to the wall surface of the nearby wall body 50 by 150mm, and is used for preventing the moisture permeated into the wet area bonding layer 23 from permeating into the lower wet area cushion layer 22 and the surrounding wall surface. Wet area waterproof layer 22 does not change the slope of wet area mat 22, still is a slope with a slope of 2%, so that moisture permeated from above quickly flows into floor drain 25 along wet area waterproof layer 22 and flows away, and water cannot accumulate on the ground.

The wet area waterproof layer 22 is connected with the dry area waterproof layer 12 into a whole, the wet area 20 is 30mm lower than the ground surface of the dry area 10, and when in bath, water penetrating into the wet area bonding layer 23 cannot penetrate into the cushion layer below the wet area waterproof layer through the junction, and cannot penetrate into the dry area bonding layer 13, namely the dry area bonding layer 13 has little moisture content, and the dry area decoration surface layer 14 above the wet area waterproof layer is dry and comfortable.

The wet area bonding layer 23 is paved by adopting a special adhesive for ceramic tiles, and has the thickness of 3-8 mm, and is used for bonding the wet area decoration surface layer 24 to the wet area waterproof layer 22. Since the wet area waterproof layer 22 has a slope structure, moisture permeated from the wet area decorative surface layer 24 above automatically flows away from the wet area waterproof layer 22 and does not accumulate in the wet area bonding layer 23 for a long period of time. The thickness of the wet area bonding layer 23 is only about 25% of the thickness of the wet area mat layer 22, and is very dense, so that the accumulated moisture is very small.

The wet area decoration surface layer 24 is paved by floor tiles and has a slope structure with a slope of 2%, and water flow can be rapidly discharged out of the bathroom from the floor drain 25 at the lowest position during bath.

The floor drain 25 is arranged at the lowest part of the wet area decoration surface layer 24 on the wet area 20, and a drainage pipeline is arranged below the floor drain for conveying water flowing down during bath into the drainage pipeline for drainage.

< example two >

As shown in fig. 1, the shower area sink toilet floor structure includes a dry area 10, a wet area 20, and a partition 30.

The dry section 10 is directed towards the bathroom doorway, which is provided with threshold stones 40. The wet area 20 is located on the inner side of the dry area 10, and walls 50 are provided around the wet area. The partition 30 is vertically disposed, standing between the dry zone 10 and the wet zone 20.

The dry area 10 comprises a dry area cushion layer 11, a dry area waterproof layer 12, a dry area bonding layer 13 and a dry area decoration surface layer 14, which are sequentially from bottom to top: a dry area bedding layer 11, a dry area waterproof layer 12, a dry area bonding layer 13 and a dry area decorative surface layer 14.

The dry area cushion layer 11 is a haydite concrete layer or a foaming concrete layer, is attached to the ground of the dry area of the ground 60 of the original toilet and is used for adjusting the ground height of the original dry area, a slope surface structure is formed on the upper surface of the dry area cushion layer, the slope gradient is 0.5-1%, the slope direction is toward the wet area 20, namely, the ground near the wet area 20 is low, and the threshold stone 40 near the gate of the toilet is high. In this embodiment, the gradient of the dry land mat 11 is 0.5%.

The waterproof layer 12 is a hydrophobic material layer, is paved by the hydrophobic material, has the thickness of 1.5-3mm, is attached to the upper surface of the cushion layer 11 in the dry area, and returns to 150mm on the wall surface of the wall 50 nearby, and is used for preventing the moisture permeated into the bonding layer 13 in the dry area from permeating into the cushion layer 11 in the dry area and the surrounding wall surface below. The slope of the dry area waterproof layer 12 does not change the slope of the dry area cushion layer 11, and is still a slope with the slope of 0.5%, so that moisture permeated from above can quickly flow into the ground of the wet area along the dry area waterproof layer 12.

The dry area bonding layer 13 is paved by adopting a special adhesive for ceramic tiles, and has the thickness of 3-8 mm, and is used for bonding the dry area decoration surface layer 14 to the dry area waterproof layer 12. Because the dry-area waterproof layer 12 has a slope structure, moisture permeated from the dry-area decorative surface layer 14 above will automatically flow away from the dry-area waterproof layer 12 and will not be accumulated in the dry-area bonding layer 13 for a long time. The thickness of the dry region bonding layer 13 is only about 25% of the thickness of the dry region mat layer 11, and is very dense, so that the accumulated moisture is very small.

The dry area decoration surface layer 14 is paved by floor tiles and is of a slope structure with the gradient of 0.5%, water flows from the ground of the dry area to the ground during washing, and cannot permeate out of the bathroom through the threshold stone 40, so that the waterproof performance of the bathroom can be improved.

Wet area 20 includes wet area mat 21, wet area waterproof layer 22, wet area bonding layer 23, and wet area decorative cover 24, in order from bottom to top: wet area mat 22, wet area waterproof layer 22, wet area bonding layer 23, wet area decorative layer 24, and floor drain 25. The floor height of the wet area 20 is 20-40 mm lower than the floor height of the dry area 10. In this embodiment, the wet zone 20 floor height is 30mm below the dry zone 10 floor height.

The wet area cushion layer 21 is a ceramsite concrete layer and is attached to the ground of the wet area 20 of the original bathroom ground 60 for adjusting the ground height of the original wet area, a slope surface structure is formed on the upper surface of the wet area cushion layer, the slope is 1-3%, a floor drain 25 is arranged on the lowest part of the slope surface, and the floor drain 25 is far away from a bathroom gate. In this embodiment, the slope of wet area mat 22 is 3%.

The wet area waterproof layer 22 is a hydrophobic material layer, is paved by the hydrophobic material, has the thickness of 1.5-3mm, is attached to the upper surface of the wet area cushion layer 21, is connected with the dry area waterproof layer 12 into a whole, returns to the wall surface of the nearby wall body 50 by 150mm, and is used for preventing the moisture permeated into the wet area bonding layer 23 from permeating into the lower wet area cushion layer 22 and the surrounding wall surface. Wet area waterproof layer 22 does not change the slope of wet area mat 22, still is a slope with a slope of 3%, so that moisture permeated from above quickly flows into floor drain 25 along wet area waterproof layer 22 and flows away, and water cannot accumulate on the ground.

The wet area waterproof layer 22 is connected with the dry area waterproof layer 12 into a whole, the wet area 20 is 30mm lower than the ground surface of the dry area 10, and when in bath, water penetrating into the wet area bonding layer 23 cannot penetrate into the cushion layer below the wet area waterproof layer through the junction, and cannot penetrate into the dry area bonding layer 13, namely the dry area bonding layer 13 has little moisture content, and the dry area decoration surface layer 14 above the wet area waterproof layer is dry and comfortable.

The wet area bonding layer 23 is paved by adopting a special adhesive for ceramic tiles, and has the thickness of 3-8 mm, and is used for bonding the wet area decoration surface layer 24 to the wet area waterproof layer 22. Since the wet area waterproof layer 22 has a slope structure, moisture permeated from the wet area decorative surface layer 24 above automatically flows away from the wet area waterproof layer 22 and does not accumulate in the wet area bonding layer 23 for a long period of time. The thickness of the wet area bonding layer 23 is only about 25% of the thickness of the wet area mat layer 22, and is very dense, so that the accumulated moisture is very small.

The wet area decoration surface layer 24 is paved by floor tiles and has a slope structure with a slope of 2%, and water flow can be rapidly discharged out of the bathroom from the floor drain 25 at the lowest position during bath.

The floor drain 25 is arranged at the lowest part of the wet area decoration surface layer 24 on the wet area 20, and a drainage pipeline is arranged below the floor drain for conveying water flowing down during bath into the drainage pipeline for drainage.

The shower area according to the above embodiment is sunk into the floor structure of the bathroom, including the dry area and the wet area. Wherein, be provided with the wall between dry district and the wet district. The dry area and the wet area are both in slope structures, and the height of the dry area is higher than that of the wet area. Based on the ground structure, the partition can prevent bath water in the wet area from flowing or splashing on the ground in the dry area. In addition, the height of the dry area is higher than that of the wet area, so that water flowing to the ground of the wet area can not flow to the ground of the dry area during bath, the ground of the dry area is dry and comfortable, and people feel cool and moist when stepping on the dry area. In addition, in the structure, no water bar is arranged between the dry area and the wet area, no water bar which is 20-40 mm higher than the ground is arranged, and bath entrance and exit of old people, children and people with inconvenient actions are safer.

In addition, the gradient of the dry area is 0.5-1%, and the gradient is low near the ground of the wet area and high near the gate of the toilet. The slope of the wet area is 1-3%, the wet area is provided with a floor drain, the ground near the floor drain is lowest, so that water flows to the lowest place, namely, the dry area flows to the wet area, and the wet area flows to the floor drain, so that the ground of the dry area is less in water invasion and drier.

In addition, the dry region combining layer is attached to the dry region waterproof layer, the dry region waterproof layer is attached to the dry region cushion layer, the dry region waterproof layer is a hydrophobic material layer and returns to the high wall surface, and therefore moisture penetrating into the dry region combining layer can be prevented from penetrating into the dry region cushion layer below and surrounding walls.

In addition, the thickness of the waterproof layer in the dry area is thinner, the gradient of the dry area can still be guaranteed, and moisture on the waterproof layer can still flow to the wet area according to the gradient.

In addition, the wet area is attached to the wet area waterproof layer, the wet area waterproof layer is attached to the wet area cushion layer, the wet area waterproof layer is a hydrophobic material layer, and the thickness of the wet area is thinner, so that water on the ground of the wet area can still flow to the floor drain at the low position, and water can not accumulate due to flowing away from the floor drain.

Furthermore, the thickness of the dry area bonding layer is 3-8 mm, and the dry area bonding layer is very thin and very compact, so that the accumulated moisture is very little, and the dry area ground is not cold and moist.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present application without departing from the spirit or scope of the application. Thus, given that such modifications and variations of the present application are within the scope of the claims hereof, as well as the equivalents thereof, such modifications and variations are intended to be included herein.

Claims (9)

1. A bathroom floor structure for a shower area sink comprising:

the dry area comprises a dry area cushion layer, a dry area waterproof layer, a dry area combining layer and a dry area decoration surface layer, and is of a slope structure;

the wet area comprises a wet area cushion layer, a wet area waterproof layer, a bonding layer and a wet area decoration surface layer, and is of a slope structure, and a floor drain is arranged in the wet area;

a partition located between the dry zone and the wet zone,

wherein the height of the dry zone is greater than the height of the wet zone.

2. The shower area sink toilet floor structure of claim 1, wherein:

the height of the dry area is 20-40 mm higher than that of the wet area.

3. The shower area sink toilet floor structure of claim 1, wherein:

the gradient of the dry area is 0.5-1 percent, the wet area is inclined,

the gradient of the wet area is 1-3%, and the ground of the wet area far away from the floor drain is higher than the ground of the wet area close to the floor drain.

4. The shower area sink toilet floor structure of claim 1, wherein:

the dry area cushion layer is a haydite concrete layer or a foaming concrete layer, is attached to the original ground,

the wet area cushion layer is a ceramsite concrete layer or a foaming concrete layer and is attached to the original ground.

5. The shower area sink toilet floor structure of claim 1, wherein:

the waterproof layer of the dry area is a hydrophobic material layer with the thickness of 1.5-3mm,

the waterproof layer in the dry area is attached to the upper surface of the cushion layer in the dry area and returns to the high wall surface.

6. The shower area sink toilet floor structure of claim 1, wherein:

the wet area waterproof layer is a hydrophobic material layer with the thickness of 1.5-3mm,

the wet area waterproof layer is attached to the wet area cushion layer.

7. The shower area sink toilet floor structure of claim 1, wherein:

the thickness of the dry area bonding layer is 3-8 mm, and the bonding layer is attached to the dry area waterproof layer,

the thickness of the wet area combining layer is 3-8 mm, and the wet area combining layer is attached to the wet area waterproof layer.

8. The shower area sink toilet floor structure of claim 1, wherein:

the dry area decoration surface layer is a floor tile layer and is attached to the dry area combination layer.

9. The shower area sink toilet floor structure of claim 1, wherein:

the wet area decoration surface layer is a floor tile layer and is attached to the wet area combination layer.

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