CN106642274A - Water floor heating mounting moisture exhaust method - Google Patents

Abstract

The invention discloses a water floor heating mounting moisture exhaust method. The water floor heating mounting moisture exhaust method aims at overcoming the defects that in the water floor heating mounting construction process, seepage water in interlayers nearby floor heating pipes cannot be drained in time, consequently, the back face of a laid floor goes mouldy, aflatoxin and other harmful substances are generated on the back face of the laid floor, and the floor is made to deform. According to the water floor heating mounting moisture exhaust method, after floor heating pipes are laid and pouring and initial setting of a fine stone concrete layer are achieved, outward water drainage is carried out on an interlayer between a heat preservation plate and a floor slab through a guide pipe, drying of the fine stone concrete layer is accelerated, and a floor can be laid after pouring of the fine stone concrete layer is achieved by about one month; and the back face of the laid floor is prevented from going mouldy, aflatoxin and other harmful substances are prevented from being generated on the back face of the laid floor, and therefore the floor is prevented from deforming.

Description

Hydrofuge method is installed in a kind of water floor heating

Technical field

The present invention relates to a kind of water floor heating, more specifically, it relates to hydrofuge method is installed in a kind of water floor heating.

Background technology

With the fast development of water ground heating system application, to the laying of follow-up ground bring some inevitably it is unfavorable because Element, especially indoor wood floor process.Floor heating pipe lower floor can be penetrated into because pouring fine-stone concrete process some water after ground heating system In plastic extrusion heated board and floor interlayer, due to fine-stone concrete pour smash after it is relative with bottom form sealing state, this part water is suitable A period of time is difficult to nature volatilization, and afterwards long time is slowly separated out, and the moisture that the precipitation of this part water is formed will The timber floor back side spread after making produce it is mouldy, generate the harmful substance such as aflatoxins and promote floor deformation etc. it is many it is unfavorable because Element.From live perforate sampling find grow up 3 months also leave in its interlayer a part can water breakthrough exist.This phenomenon one Directly annoying the smart decorative engineering for including hot-water heating underground heat conveyance system at present.

The content of the invention

Instant invention overcomes the infiltration near water floor heating installation process floor heating pipe in interlayer can not be discharged in time, cause The ground back of laying produces the harmful substances such as mouldy, generation aflatoxins and promotes the deficiency of floor deformation, there is provided a kind of Water floor heating is installed the infiltration near hydrofuge method, water floor heating installation process floor heating pipe in interlayer and can be discharged in time, is reduced The drying time of fine-stone concrete, it is to avoid the ground back of laying produce it is mouldy, the harmful substances such as aflatoxins are generated, so as to preventing Floor deformation, and wet weather can exclude the moisture near floor heating pipe, it is to avoid and steam is exuded to ground back；Work as floor heating pipe During generation seepage, infiltration can be discharged in time, prevent infiltration from remaining in below floor and making the mouldy deformation in floor.

In order to solve above-mentioned technical problem, the present invention is employed the following technical solutions：Hydrofuge method is installed in a kind of water floor heating, the One step：Conduit is installed, conduit lower end is fixed on into the low-lying place of floor；Second step：Laying warming plate, warming plate is laid on On floor；3rd step：Floor heating pipe is installed, floor heating pipe is arranged on warming plate；4th step：Microlith concrete layer is poured, by fine-stone concrete Pour and smash the formation microlith concrete layer on warming plate, microlith concrete layer is exposed in conduit upper end；5th step：Conduit draining, the initial set of microlith concrete layer After the completion of, air compressor machine wireway is connected in any one conduit upper end, start air compressor machine, by air pressure by the water of conduit lower end position Divide from other conduit upper ends and discharge, a period of time is stood after moisture is drained, being again started up air compressor machine carries out draining, so stands one Section time draining once, repeats several times；6th step：From advection, fine-stone concrete layer surface is carried out from advection process；7th Step：Laying floor, from advection surface damp-proof membrane is being laid, and cuts off the part that conduit exposes fine-stone concrete, makes conduit upper end and microlith Concrete layer flush, then by floor covering layers to damp-proof membrane top.

Conduit is installed between warming plate and floor, after microlith concrete layer has been poured, oozing under it after the initial set of microlith concrete layer Low-lying place between water Liu Dao warming plates and floor, is formed by air compressor machine before floor covering layers between microlith concrete layer and floor Relative confined space in blast air, infiltration is discharged from conduit, the infiltration after draining several times under microlith concrete layer is basic It is drained from, the drying of quickening microlith concrete layer, the laying floor by microlith concrete layer has been poured month or so, now microlith concrete layer Drying, does not have moist gas and is applied to ground back.Infiltration near water floor heating installation process floor heating pipe in interlayer Can discharge in time, it is to avoid the ground back of laying produces the harmful substances such as mouldy, generation aflatoxins, so as to prevent floor from becoming Shape.

Preferably, first step conduit is installed before fixing first looks for the low-lying point of floor, suitable quantity of water is gone up on floor, treated After water steadying on floor, ponding point is visually observed, ponding point position is the low-lying place of floor, and carries out mark.This method behaviour Make simple, the low-lying place's accurate positioning reliability of floor.

Preferably, conduit lower ending opening end is angle setting, and edge of opening presses close to slab surfaces.Conduit lower end is pressed close to Floor, makes draining more thorough.

Preferably, insulation plate thickness 15-30mm.Insulation plate thickness is moderate, high insulating effect.

Preferably, conduit diameter 4-10mm.Conduit diameter is little, is conducive to draining.

Preferably, fine-stone concrete thickness degree 35-50mm.Fine-stone concrete thickness degree is moderate, enables floor heating to reach optimal making Use effect.

Preferably, the angle position in microlith concrete layer finished surface is exposed in conduit upper end, with conduit upper end pair on floor Answer position to bore preformed hole, erection joint in preformed hole, joint and conduit upper end closely connect, decoration capping is installed on joint.

In the event of seepage during floor heating use, in time water exclusion other can not be brought disaster into, now closeably heating coil On valve, open decoration capping, then by air compressor machine and any one fittings, be then turned on air compressor machine carry out draining, Hydrofuge, prevents floor heating seepage from remaining between floor and warming plate, it is ensured that normally using for floor, prevents infiltration from remaining in floor The mouldy deformation in floor is made below.And at ordinary times wet weather can also carry out hydrofuge using said method, it is ensured that microlith concrete layer Lower section is dried, and prevents the mouldy deformation of wet weather ground back.

Preferably, during the 5th step last time draining, air compressor machine is unloaded from original conduit, then by air compressor machine Air outlet connect with another conduit upper end, then start air compressor machine carry out last time draining.So operation to warming plate with Draining between floor is more thorough.

Preferably, the 7th step was first connected with the air outlet of air compressor machine before laying damp-proof membrane with any one conduit, Starting air compressor machine carries out again conduit draining.Carry out conduit draining before floor covering layers again, it is ensured that between warming plate and floor Without residual moisture.

Compared with prior art, the invention has the beneficial effects as follows：Water floor heating installation process floor heating pipe is nearby in interlayer Infiltration can discharge in time, accelerate the drying of microlith concrete layer, it is to avoid the ground back of laying produce it is mouldy, generate aflatoxins Etc. harmful substance, so as to prevent floor deformation, and wet weather from can exclude the moisture near floor heating pipe, it is to avoid steam oozes out To ground back；When floor heating pipe occurs seepage, infiltration can be discharged in time, prevent infiltration from remaining in below floor and making ground Plate is mouldy to be deformed and brings disaster to other.

Description of the drawings

Fig. 1 is the schematic diagram of the present invention；

In figure：1st, conduit, 2, warming plate, 3, floor, 4, floor heating pipe, 5, microlith concrete layer, 6, floor.

Specific embodiment

Below by specific embodiment, and accompanying drawing is combined, technical scheme is further described specifically：

Embodiment：Hydrofuge method is installed in a kind of water floor heating（Referring to accompanying drawing 1）, the first step：Conduit 1 is installed, conduit is installed and fixes it It is front first to look for the low-lying point of floor, suitable quantity of water is gone up on floor, after the water steadying on floor, visually observe ponding point, ponding Point position is the low-lying place of floor, and carries out mark, conduit lower end is fixed on the low-lying place of floor for carrying out mark, under conduit End opening end is angle setting, and edge of opening presses close to slab surfaces, conduit diameter 6mm；Second step：Laying warming plate 2, will protect Warm plate is laid on floor 3, and warming plate is the thick extrusion molding warming plates of 20mm；3rd step：Floor heating pipe 4 is installed, floor heating pipe is pacified It is mounted on warming plate, floor heating pipe is the PE thermal conductive water pipes of diameter 20mm；4th step：Microlith concrete layer 5 is poured, fine-stone concrete is poured and is smash Formation microlith concrete layer, fine-stone concrete thickness degree 35-50mm on warming plate, microlith concrete layer is exposed in conduit upper end；5th step：Conduit is arranged Water, after the completion of the initial set of microlith concrete layer, in any one conduit upper end air compressor machine wireway is connected, and starts air compressor machine, will by air pressure The moisture of conduit lower end position is discharged from other conduit upper ends, and a period of time is stood after moisture is drained, is again started up air compressor machine and is entered Row draining, so stands a period of time draining once, repeats several times, and not water outlet is to the last once arranged at the very start is Only, the general 5-20 hours of time of repose；6th step：From advection, fine-stone concrete layer surface is carried out from advection process；7th Step：Laying floor 6, microlith concrete layer pours and completes laying damp-proof membrane from advection surface in one month or so, cuts off conduit and exposes carefully The part of stone concrete, makes conduit upper end concordant with fine-stone concrete layer surface, then by floor covering layers to damp-proof membrane top.

The angle position in microlith concrete layer finished surface is exposed in conduit upper end, bores in advance with conduit upper end correspondence position on floor Box out, erection joint in preformed hole, joint and conduit upper end closely connect, decoration capping is installed on joint.Floor heating uses process In in the event of seepage, water can be excluded in time and not bring disaster to other, now valve closeably on heating coil, open decoration and seal Lid, then by air compressor machine and any one fittings, being then turned on air compressor machine carries out draining, hydrofuge, prevents floor heating seepage residual Stay between floor and warming plate, it is ensured that normally using for floor, prevent infiltration from remaining in below floor and making the mouldy change in floor Shape.And at ordinary times wet weather can also carry out hydrofuge using said method, it is ensured that microlith concrete layer lower section is dried, and prevents moist day The mouldy deformation of gas ground back

During the 5th step last time draining, air compressor machine is unloaded from original conduit, then by the air outlet of air compressor machine with it is another One conduit upper end connects, and then starting air compressor machine carries out last time draining.So operation is to the row between warming plate and floor Water is more thorough.

7th step was first connected with the air outlet of air compressor machine before laying damp-proof membrane with any one conduit, started pneumatics Machine carries out again conduit draining.Carry out conduit draining before floor covering layers again, it is ensured that without residual between warming plate and floor Moisture.

Embodiment described above is one kind preferably scheme of the present invention, not makees any pro forma to the present invention Limit, also have other variants and remodeling on the premise of without departing from the technical scheme described in claim.

Claims (9)

1. hydrofuge method is installed in a kind of water floor heating, be it is characterized in that, the first step：Conduit is installed, conduit lower end is fixed on into building The low-lying place of plate；Second step：Laying warming plate, warming plate is laid on floor；3rd step：Floor heating pipe is installed, floor heating pipe is pacified It is mounted on warming plate；4th step：Microlith concrete layer is poured, fine-stone concrete is poured and is smash formation microlith concrete layer, conduit upper end on warming plate Expose microlith concrete layer；5th step：Conduit draining, after the completion of the initial set of microlith concrete layer, in any one conduit upper end, connection air compressor machine is led Tracheae, starts air compressor machine, is discharged the moisture of conduit lower end position from other conduit upper ends by air pressure, stands after moisture is drained For a period of time, being again started up air compressor machine carries out draining, so stands a period of time draining once, repeats several times；6th Step：From advection, fine-stone concrete layer surface is carried out from advection process；7th step：Laying floor, moistureproof from the laying of advection surface Film, cuts off the part that conduit exposes fine-stone concrete, makes conduit upper end concordant with fine-stone concrete layer surface, then by floor covering layers to protection against the tide Film top.

2. hydrofuge method is installed in a kind of water floor heating according to claim 1, be it is characterized in that, first step conduit is installed and fixes it It is front first to look for the low-lying point of floor, suitable quantity of water is gone up on floor, after the water steadying on floor, visually observe ponding point, ponding Point position is the low-lying place of floor, and carries out mark.

3. hydrofuge method is installed in a kind of water floor heating according to claim 1, be it is characterized in that, conduit lower ending opening end is angle Arrange, and edge of opening presses close to slab surfaces.

4. hydrofuge method is installed in a kind of water floor heating according to claim 1, be it is characterized in that, is incubated plate thickness 15-30mm.

5. hydrofuge method is installed in a kind of water floor heating according to claim 1, be it is characterized in that, conduit diameter 4-10mm.

6. hydrofuge method is installed in a kind of water floor heating according to claim 1, be it is characterized in that, fine-stone concrete thickness degree 35-50mm.

7. hydrofuge method is installed in a kind of water floor heating according to claim 1 to 6 any one, be it is characterized in that, conduit upper end Expose the angle position in microlith concrete layer finished surface, bore in preformed hole, preformed hole and pacify with conduit upper end correspondence position on floor Joint, joint and conduit upper end closely connect, and decoration capping is installed on joint.

8. hydrofuge method is installed in a kind of water floor heating according to claim 1 to 6 any one, be it is characterized in that, the 5th step is most Afterwards during a draining, air compressor machine is unloaded from original conduit, then connect the air outlet of air compressor machine with another conduit upper end Logical, then starting air compressor machine carries out last time draining.

9. hydrofuge method is installed in a kind of water floor heating according to claim 1 to 6 any one, be it is characterized in that, the 7th step exists Before laying damp-proof membrane, first connected with any one conduit with the air outlet of air compressor machine, starting air compressor machine carries out again conduit row Water.