CN104100011A - Toilet floor heating waterproof construction method and toilet floor heating waterproof system - Google Patents

Abstract

The invention discloses a toilet floor heating waterproof construction method which includes arranging a water-stop threshold at a doorway of a toilet, laying a first waterproof layer on a structure foundation and forming first upward edges on wall surfaces of four sides, the water-stop threshold, a water supply pipeline and a sewer pipeline, erecting a keel frame on the first waterproof layer along the wall surfaces of four sides, arranging a floor heating layer on the keel frame, laying a second waterproof layer on the floor heating layer and forming second upward edges on the wall surfaces of four sides, the water-stop threshold, the water supply pipeline and the sewer pipeline, laying a balance layer on the second waterproof layer, and finally laying a floor layer on the balance layer. Water proofing double-security of the first waterproof layer and the second waterproof layer of the toilet can effectively prevent water on floor of the toilet from permeating to surrounding rooms, the floor heating layer and the structure foundation. The invention further discloses a toilet floor heating waterproof system utilizing the waterproof construction method.

Description

Waterproof construction method and waterproof system for toilet floor heating

Technical Field

The invention relates to a waterproof construction method and a waterproof system for heating in a toilet, belonging to the technical field of waterproof of sanitary floors.

Background

With the continuous improvement of building heating systems, most of residential engineering heating systems adopt ground heating, and the application of the ground heating correspondingly brings certain hidden troubles to waterproof construction of toilets. Generally, the existing waterproof construction method for heating in a toilet mainly comprises the step of arranging only one waterproof layer on a concrete leveling layer of a structural foundation ground of the heating toilet, and water leakage can be caused due to the fact that the waterproof layer of the toilet is damaged frequently in the decoration process after a water-avoiding test is completed. Because the structure foundation ground pipeline (water supply, blowdown) of bathroom is more, the position that pipeline was worn in structure foundation ground and wall groove picking is waterproof weak position, in case this waterproof layer is damaged, must make the position of wearing to establish the pipeline of structure foundation take place the water leakage phenomenon. Water seeping below the floor heating layer flows to other rooms through the door opening of the toilet, and once cracks or positions where pipelines are arranged on the ground of other room structures exist, the water inevitably leaks in rooms outside the toilet.

Disclosure of Invention

The invention provides a waterproof construction method for toilet floor heating, aiming at the defects of the waterproof construction method for toilet floor heating in the prior art.

In order to solve the technical problems, the invention adopts the technical scheme that:

a waterproof construction method for heating in a toilet floor comprises the following steps:

s1: arranging a water stopping threshold at a doorway of a toilet;

s2: laying a first waterproof layer on a structural foundation, and extending and laying the first waterproof layer upwards from the structural foundation to the peripheral wall surfaces, the water stop doorsill and the outer walls of the water feeding pipeline and the sewer pipeline to form a first upturned edge;

s3: erecting a keel frame on the first waterproof layer along the peripheral wall surface;

s4: erecting a floor heating layer on the keel frame to enable the floor heating layer and the first waterproof layer to form an overhead layer;

s5: laying a second waterproof layer on the floor heating layer, and extending and laying the second waterproof layer upwards from the floor heating layer to the surrounding wall surfaces, the water stop doorsill and the outer walls of the water feeding pipeline and the water discharging pipeline to form a second upward flanging;

s6: laying a balance layer on the second waterproof layer;

s7: and laying a floor layer on the balance layer.

Preferably, the structure foundation comprises a leveling layer formed by cement mortar, and the first waterproof layer is laid on the leveling layer of the structure foundation.

Preferably, the first waterproof layer is made of acrylate waterproof paint or cement-based composite waterproof paint; step S2 specifically includes:

and (3) coating acrylic ester waterproof coating or cement-based composite waterproof coating on the leveling layer, and extending and coating the acrylic ester waterproof coating or the cement-based composite waterproof coating from the leveling layer to the peripheral wall surface, the water stop doorsill and the outer walls of the water feeding pipeline and the water discharging pipeline to form the first upturning edge.

Preferably, the keel frame is formed by splicing asbestos-free calcium silicate plates and is fixedly bonded with the wall surface through structural adhesive.

Preferably, the second waterproof layer is PVC plastic-coated cloth; s5 specifically includes the following steps:

s51: the PVC plastic-coated cloth is correspondingly provided with reserved holes for the water feeding pipeline and the sewer pipeline, and the aperture of each reserved hole is correspondingly smaller than the outer diameter of each water feeding pipeline and the outer diameter of each sewer pipeline;

s52: coating PVC glue on the floor heating layer;

s53: the PVC plastic-coated cloth is adhered to the floor heating layer through PVC glue, and the PVC plastic-coated cloth extends upwards from the floor heating layer to the surrounding wall surfaces, the water stop doorsill and the outer walls of the water feeding pipeline and the water discharging pipeline to form a second upward flanging;

s54: and bonding the second upper flanging formed by the PVC plastic-coated cloth with the corresponding upper flanging formed by the first waterproof layer through PVC glue.

Preferably, the balance layer is formed by splicing a plurality of asbestos-free calcium silicate boards, and the joints are filled with structural glue.

Preferably, the floor layer is formed by splicing a plurality of asbestos-free calcium silicate board UV coating boards, and S7 specifically comprises the following steps:

s71: coating structural adhesive on the balance layer formed by splicing a plurality of asbestos-free calcium silicate plates;

s72: bonding a plurality of asbestos-free calcium silicate board UV coating boards on the balance layer in a splicing manner, and filling the joints with caulking glue of the same color;

s73: and compacting the UV coated plate of the asbestos-free calcium silicate plate until the UV coated plate is firmly bonded with the balance layer.

The invention also provides a toilet floor heating waterproof system, which comprises a water-stopping threshold at the toilet door, a first waterproof layer, a keel frame, a floor heating layer, a second waterproof layer, a balance layer and a floor layer, wherein the first waterproof layer, the keel frame, the floor heating layer, the second waterproof layer, the balance layer and the floor layer are arranged on the toilet floor from bottom to top; wherein,

and the second waterproof layer is PVC plastic-coated cloth.

Preferably, the floor heating layer is including erectting the module, inlay on the fossil fragments frame and locate floor heating pipe and setting in the module upper surface chase of floor heating are in be used for adjusting in the built on stilts layer ground heating module height anchor bolt.

Preferably, the floor heating pipe is a heat-resistant polyethylene pipe.

Compared with the prior art, the toilet floor heating waterproof construction method and the structure have the beneficial effects that:

1. the water stop threshold arranged at the toilet door opening can effectively prevent water from flowing into rooms except the toilet.

2. The first waterproof layer is arranged on the peripheral wall surface, the water-stopping threshold and the first upper flanging formed on the water feeding pipeline and the water discharging pipeline, so that water can be effectively prevented from permeating into a floor slab or a room below the floor slab through gaps between the wall body and the structural foundation and between the pipeline and the structural foundation.

3. The waterproof layer is at wall all around, the stagnant water threshold to and the turn-ups on the second that forms on water supply line and the sewer line can effectively prevent that water from permeating to floor heating layer or floor heating layer below through the gap between wall body and floor heating layer, pipeline and the floor heating layer.

4. As a preferred scheme of the invention, a PVC plastic-coated cloth layer is adopted as a second waterproof layer, the main component of the PVC plastic-coated cloth is polyvinyl chloride, auxiliary materials such as plasticizer, anti-aging agent and the like are added in the manufacturing process of the PVC tarpaulin to enhance the heat resistance, toughness, ductility and the like, and pasty resin is coated on the surface of the PVC tarpaulin and is matched with a plurality of chemical additives such as accelerating agent, mildew preventive, anti-aging agent, agent and the like, so that the PVC tarpaulin has the advantages of non-flammability, high strength, weather resistance, excellent geometric stability, water resistance, mildew resistance, wear resistance, durability, cold resistance, aging resistance and other natural functions. Therefore, the waterproof performance of the toilet is improved, and the service life of the waterproof system of the toilet is prolonged. In addition, the PVC plastic-coated cloth is a material which can be bonded and is easy to repair, and if any damage occurs, the PVC plastic-coated cloth can be bonded and repaired by PVC glue in time.

Drawings

Fig. 1 is a schematic structural view of a water stop threshold having a first waterproof layer and a second waterproof layer laid thereon according to a waterproof construction method for heating in a toilet;

fig. 2 is a schematic view illustrating a state of the floor of the toilet after step S2 is performed in the waterproof construction method for heating the floor of the toilet according to the present invention;

fig. 3 is a schematic view illustrating a state of the toilet floor after step S3 is performed in the waterproof construction method for toilet floor heating according to the present invention;

fig. 4 is a schematic view illustrating a state of the toilet floor after step S4 is performed in the waterproof construction method for toilet floor heating according to the present invention;

fig. 5 is a schematic view illustrating a state of the floor of the toilet after step S5 is performed in the waterproof construction method for heating the floor of the toilet according to the present invention;

fig. 6 is a schematic view illustrating a state of the toilet floor after the toilet floor heating waterproof construction method of the present invention is completed.

Detailed Description

In order to make the technical solutions of the present invention better understood, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

One embodiment of the invention provides a waterproof construction method for heating in a toilet, which comprises the following steps:

s1: as shown in fig. 1, a water stop threshold 47 is provided at a doorway 50 of a toilet, and the water stop threshold 47 may be formed by piling concrete and plastering a 30mm arc on a side located at the toilet.

S2: as shown in fig. 2, a first waterproof layer 41 is laid on the structural foundation, such that the first waterproof layer 41 extends upwards from the structural foundation to the surrounding wall surface 30, the water stop threshold 47, and the outer walls of the plurality of water supply pipelines and the plurality of sewer pipelines 20, such as the shower base, the washbasin, and the toilet, to form a first upward flanging, so that the first waterproof layer 41 forms a first complete waterproof groove. Specifically, the first upturn of the first waterproof layer 41 at the water stop threshold 47 extends from the inner side of the water stop threshold 47 to the outside of the toilet.

S3: as shown in fig. 3, a keel frame 42 is installed on the first waterproof layer 41 along the surrounding wall surface 30, and a preferred embodiment of the present invention can adopt a plurality of asbestos-free calcium silicate boards to form the keel frame 42, and firmly adhere the keel frame to the wall surface 30 through structural adhesive.

S4: as shown in fig. 4, a floor heating layer 43 is erected on the keel frame 42, so that the floor heating layer 43 and the first waterproof layer 41 form an overhead layer.

S5: as shown in fig. 5, a second waterproof layer 44 is laid on the floor heating layer 43, such that the second waterproof layer 44 extends upwards from the floor heating layer 43 to the surrounding wall surface 30, the water stop threshold 47, and the outer walls of the plurality of water supply pipes and the plurality of water drainage pipes 20, such as the shower base, the washbasin, and the toilet, to form a second upward-turned edge, such that the first waterproof layer 41 forms a second complete waterproof groove. Specifically, the upturn of the second waterproof layer 44 at the water stop threshold 47 extends from the inside of the water stop threshold 47 to the outside of the toilet.

S6: as shown in fig. 6, a balance layer 45 is laid on the second waterproof layer 44.

S7: a floor layer 46 is laid on the balancing layer 45 as shown in fig. 6.

The purpose of the water stop threshold 47 is to prevent water on the floor of the toilet from directly flowing into a room other than the toilet, such as a living room or a bedroom.

The purpose of providing the first waterproof layer 41 and making it form a first upturn on the surrounding wall surface 30, the water stop threshold 47, and the plurality of water supply and sewerage pipes 20 such as shower bases, washbasins, toilets is to protect the entire structural foundation from water, so as to prevent water from penetrating into the floor or the room below the floor through the gaps between the wall and the structural foundation, the pipes and the structural foundation.

The purpose of providing the second waterproof layer 44 and making it at the wall 30 all around, the water-stopping threshold 47, and the second turn-ups that form on a plurality of water supply lines and sewer pipe 20 like shower base, washbasin, closestool is in order to carry out waterproof protection to whole floor heating layer 43, with prevent that water from permeating floor heating layer 43 or floor heating layer 43 below through the gap between wall and floor heating layer 43, pipeline and floor heating layer 43.

The purpose of the balancing layer 45 is to isolate the floor layer 46 from the floor heating layer 43 to prevent the floor layer 46 from crushing the floor heating layer 43 when the floor layer 46 is stepped on.

As shown in fig. 3, if the structural foundation of the toilet floor is uneven, after the water stop threshold 47 is set, cement mortar with a cement-sand ratio of 1:2.5 is laid on the structural foundation to serve as the leveling layer 10.

In a preferred embodiment, acrylic waterproof paint or cement-based composite waterproof paint with strong weather resistance and moisture resistance can be coated on the leveling layer 10 to serve as a first waterproof layer 41; correspondingly, step S3 specifically includes:

the acrylic ester waterproof coating or the cement-based composite waterproof coating is uniformly coated on the leveling layer 10, and extends from the leveling layer 10 to the surrounding wall surface 30, the water stop threshold 47, and a plurality of water supply pipelines and water drainage pipelines 20 such as a shower base, a washbasin and a closestool to form a first upturning edge of the first waterproof layer 41.

In a preferred embodiment, a PVC plastic coated cloth may be used as the second waterproof layer 44, and correspondingly, S5 specifically includes the following steps:

s51: the PVC plastic-coated cloth is correspondingly provided with reserved holes for a plurality of water supply pipelines such as shower bases, washbasins and toilets and the sewer pipeline 20, and the aperture of the reserved holes is correspondingly smaller than the outer diameters of the plurality of water supply pipelines and the sewer pipeline 20.

S52: and PVC glue is coated on the upper surface of the floor heating layer 43.

S53: the PVC plastic-coated cloth is adhered to the floor heating layer 43 through PVC glue, and the PVC plastic-coated cloth extends upwards from the wall surface 30 around the floor heating layer 43, the water stop threshold 47 and the outer walls of a plurality of water supply pipelines and the sewer pipeline 20 such as a shower base, a washbasin and a closestool to form a second upward flanging.

S54: the second upward turned edge formed by the PVC plastic-coated cloth is bonded with the corresponding first upward turned edge formed by the first waterproof layer 41 through PVC glue, so that the first waterproof layer 41 and the second waterproof layer 44 form a closed space for coating the floor heating layer 43, and the waterproof of the floor heating layer 43 is facilitated.

The PVC plastic-coated cloth is made up by using PVC as main component, adding auxiliary materials of plasticizer and anti-ageing agent in the course of production to raise its heat-resisting property, toughness and ductility, etc., and its surface is coated with pasty resin, and several chemical assistants of speed-increasing agent, mildew-proofing agent, anti-ageing agent and agent, etc. so that it possesses the functions of resisting fire, high strength, weather resistance and good geometric stability, and possesses the natural functions of resisting water, mildew, wear, cold and ageing, etc. Therefore, the waterproof performance of the toilet is improved, and the service life of the waterproof system of the toilet is prolonged. In addition, the PVC plastic-coated cloth is a material which can be bonded and is easy to repair, and if any damage occurs, the PVC plastic-coated cloth can be bonded and repaired by PVC glue in time.

In a preferred embodiment, as shown in fig. 6, the balancing layer 45 may be formed by splicing a plurality of asbestos-free calcium silicate sheets, and the joints are filled with structural adhesive. The floor layer 46 may be formed by splicing a plurality of asbestos-free calcium silicate board UV coated boards, and S7 specifically includes the following steps:

s71: structural glue is coated on a balance layer 45 formed by splicing a plurality of asbestos-free calcium silicate plates.

S72: a plurality of asbestos-free calcium silicate board UV coating boards are adhered to the balance layer 45 in a splicing mode, and the joints of the asbestos-free calcium silicate board UV coating boards are filled with caulking glue of the same color.

S73: the asbestos-free calcium silicate board UV coated board is compressed until it is firmly bonded to the balancing layer 45.

As shown in fig. 1 and 6, the invention also provides a water-proof system for floor heating of a toilet, which comprises a water-stopping threshold 47 at a toilet door 50, a first water-proof layer 41 from bottom to top on the floor of the toilet, a keel frame 42, a floor heating layer 43, a second water-proof layer 44, a balance layer 45 and a floor layer 46. The waterproof double-insurance of the toilet formed by the first waterproof layer 41 and the second waterproof layer 44 can effectively prevent water on the floor of the toilet from permeating towards surrounding rooms, the floor heating layer 43 and the structure foundation.

As shown in fig. 4, in a preferred embodiment, the floor heating layer 43 includes a floor heating module 431 erected on the keel frame 42, a floor heating pipe 432 embedded in a pipe groove on the upper surface of the floor heating module 431, and anchor bolts 433 arranged in the overhead layer for adjusting the height of the floor heating module 431. Thus, the floor heating layer 43 can be adjusted in height by the anchor bolts 433 so that the floor of the toilet is matched with the floor of the rooms other than the toilet, such as a bedroom and a living room. Specifically, a heat-resistant polyethylene pipe may be selected as the floor heating pipe 432.

Claims (10)

1. A waterproof construction method for heating in a toilet is characterized by comprising the following steps:

s1: arranging a water stopping threshold at a doorway of a toilet;

s2: laying a first waterproof layer on a structural foundation, and extending and laying the first waterproof layer upwards from the structural foundation to the peripheral wall surfaces, the water stop doorsill and the outer walls of the water feeding pipeline and the sewer pipeline to form a first upturned edge;

s3: erecting a keel frame on the first waterproof layer along the peripheral wall surface;

s4: erecting a floor heating layer on the keel frame to enable the floor heating layer and the first waterproof layer to form an overhead layer;

s5: laying a second waterproof layer on the floor heating layer, and extending and laying the second waterproof layer upwards from the floor heating layer to the surrounding wall surfaces, the water stop doorsill and the outer walls of the water feeding pipeline and the water discharging pipeline to form a second upward flanging;

s6: laying a balance layer on the second waterproof layer;

s7: and laying a floor layer on the balance layer.

2. The heating and waterproof construction method for the toilet according to claim 1, wherein the structural foundation includes a leveling layer formed of cement mortar, and the first waterproof layer is laid on the leveling layer of the structural foundation.

3. The toilet floor heating waterproof construction method according to claim 2, wherein the first waterproof layer is made of acrylate waterproof paint or cement-based composite waterproof paint; step S2 specifically includes:

and (3) coating acrylic ester waterproof coating or cement-based composite waterproof coating on the leveling layer, and extending and coating the acrylic ester waterproof coating or the cement-based composite waterproof coating from the leveling layer to the peripheral wall surface, the water stop doorsill and the outer walls of the water feeding pipeline and the water discharging pipeline to form the first upturning edge.

4. The bathroom floor heating waterproof construction method according to claim 3, wherein the keel frame is formed by splicing asbestos-free calcium silicate boards and is fixedly bonded with the wall surface through structural glue.

5. The bathroom floor heating waterproof construction method according to claim 4, wherein the second waterproof layer is PVC plastic coated cloth; s5 specifically includes the following steps:

s51: the PVC plastic-coated cloth is correspondingly provided with reserved holes for the water feeding pipeline and the sewer pipeline, and the aperture of each reserved hole is correspondingly smaller than the outer diameter of each water feeding pipeline and the outer diameter of each sewer pipeline;

s52: coating PVC glue on the floor heating layer;

s53: the PVC plastic-coated cloth is adhered to the floor heating layer through PVC glue, and the PVC plastic-coated cloth extends upwards from the floor heating layer to the surrounding wall surfaces, the water stop doorsill and the outer walls of the water feeding pipeline and the water discharging pipeline to form a second upward flanging;

s54: and bonding the second upper flanging formed by the PVC plastic-coated cloth with the corresponding upper flanging formed by the first waterproof layer through PVC glue.

6. The bathroom floor heating waterproof construction method according to claim 5, wherein the balance layer is formed by splicing a plurality of asbestos-free calcium silicate boards, and the joints are filled with structural glue.

7. The waterproof construction method for heating in a toilet according to claim 6, wherein the floor layer is formed by splicing a plurality of asbestos-free calcium silicate board UV coated boards, and S7 comprises the following steps:

s71: coating structural adhesive on the balance layer formed by splicing a plurality of asbestos-free calcium silicate plates;

s72: bonding a plurality of asbestos-free calcium silicate board UV coating boards on the balance layer in a splicing manner, and filling the joints with caulking glue of the same color;

s73: and compacting the UV coated plate of the asbestos-free calcium silicate plate until the UV coated plate is firmly bonded with the balance layer.

8. A toilet floor heating waterproof system manufactured by the construction method according to claim 1, which comprises a water stop threshold at a toilet door and a first waterproof layer, a keel frame, a floor heating layer, a second waterproof layer, a balance layer and a floor layer which are arranged on the toilet floor from bottom to top; wherein,

and the second waterproof layer is PVC plastic-coated cloth.

9. The toilet floor heating waterproof system according to claim 8, wherein the floor heating layer comprises a floor heating module erected on the keel frame, a floor heating pipe embedded in a pipe groove in the upper surface of the floor heating module, and anchor bolts arranged in the overhead layer and used for adjusting the height of the floor heating module.

10. The bathroom floor heating waterproofing system according to claim 9, wherein the floor heating pipe is a heat-resistant polyethylene pipe.