CN208280525U - Chassis between a kind of integral bathroom - Google Patents

Abstract

The utility model discloses chassis between a kind of integral bathroom, inorganic non-metallic material main structure layer is respectively included from lower to upper, fibrous mesh cloth gluing layer, flexible polymer screed and architectural surface, chassis between the integral bathroom, since flexible polymer screed has resiliency, it and is cement-based material, it is close with inorganic non-metallic material main structure layer structure, buffer function is played in thermal expansion process, that is flexible polymer mortar is in process of expansion and contraction, it absorbs, discharge part stress, the concentration of stress is avoided to lead to unsticking between layers, both waterproof impervious characteristic is improved, the durability of integral bathroom is significantly improved again.

Description

Chassis between a kind of integral bathroom

Technical field

The utility model relates to bathroom technical field, chassis between especially a kind of integral bathroom.

Background technique

In the constituent material of integral bathroom chassis in the prior art, there are mainly three types of: the first is using compression molding The solid materials such as glass reinforced plastic, sheet film resin, SMC, artificial stone, natural stone, aluminium alloy, plastic cement, ceramics are as main structure body system At；Second is integrally formed using light weight cellular composite board；The third is made of using novel inorganic nonmetallic materials.? It in these three materials, has a problem that, it may be assumed that surface decoration layer differs larger problem with bulk material properties, especially Hot expansibility.

In patent announcement number are as follows: in the file of CN204645718U, main structure body uses ultra-high performance concrete, decorative cover Layer using ceramic tile etc., the thermal expansion coefficient of the two differ 4 times (ultra-high performance concrete thermal expansion coefficient about 12.0 × 10-6/K, The thermal expansion coefficient of ceramic tile about 3.0 × 10-6/K), and bathroom is most frequent one of the place of cold cycling, long-term cold After thermal cycle, the surface decoration layer of bathroom and cohering since cubic deformation mismatches for main structure layer, and easily cause to take off The problem of falling with surface decoration layer cracking, reduces the service life of integral bathroom.

Utility model content

The purpose of the utility model is to overcome above-mentioned the shortcomings of the prior art, and provide one kind and significantly improve waterproof Anti-permeability performance, and significantly improve chassis between the integral bathroom of integral bathroom durability.

Purpose of the utility model is realized as follows:

Chassis between a kind of integral bathroom, respectively includes inorganic non-metallic material main structure layer, fiber mesh from lower to upper Cloth gluing layer, flexible polymer screed and architectural surface.

Further, the inorganic non-metallic material main structure layer includes cement-base composite material, so that it and flexibility The structure of polymer mortar layer is close.

Further, the fibrous mesh cloth gluing layer includes fibrous mesh cloth and epoxy resin adhesive, epoxy resin Adhesive can penetrate into inside concrete, significantly improve the bond performance with inorganic non-metallic material main structure bottom, together When fiber mesh layer of cloth also can closely be connect with flexible polymer screed.

Further, the fibrous mesh cloth gluing layer includes first layer epoxy adhesive, fibrous mesh cloth from lower to upper With second layer epoxy adhesive.

Further, the fibrous mesh cloth includes that fiberglass gridding cloth or carbon fiber mesh fabric or inorganic mineral are fine Tie up one of grid cloth or a variety of.

Further, the flexible polymer screed includes water-base epoxy mortar, acrylic acid, phenylpropyl alcohol, butylbenzene, described soft Property polymer mortar layer significantly improves decoration using with higher flexibility polymer mortar, absorbing, releasing part thermal stress The adhesion problems of surface layer and main structure.

Further, the architectural surface includes ceramics or the non-metallic materials decoration panel such as stone material or artificial stone.

Further, the thickness of the inorganic non-metallic material main structure layer is respectively greater than the thickness of other each layers.

Further, the thermal expansion coefficient of the fibrous mesh cloth gluing layer 4.0 × 10-6/K~8.0 × 10-6/K it Between, using this fibrous mesh cloth gluing layer, one side raising architectural surface is cohered with inorganic non-metallic material main structure layer, On the other hand the difference for buffering upper layer and lower layer thermal expansion coefficient, significantly improves the durability of integral bathroom.

Further, the thickness of the fibrous mesh cloth gluing layer is respectively smaller than the thickness of other each layers.

The beneficial effects of the utility model are as follows:

(1) chassis between the integral bathroom since flexible polymer screed has resiliency, and is cement-based material, It is close with inorganic non-metallic material main structure layer structure, buffer function, i.e. flexible polymer sand are played in thermal expansion process Slurry absorbs in process of expansion and contraction, releases part stress, avoid the concentration of stress from leading to unsticking between layers, both mentioned High waterproof impervious characteristic, and significantly improve the durability of integral bathroom.

(2) low-viscosity epoxy Resin adhesive can penetrate into inside concrete, significantly improve fiber mesh layer of cloth and nothing The bond performance of machine nonmetallic materials main structure layer, while fiber mesh layer of cloth also can closely connect with flexible polymer screed It connects.

(3) one layer of epoxy resin adhesive that viscosity is low, permeability is high, bond performance is good is brushed, it is mixed to solve very-high performance Solidifying Soil Interface coheres difference, and the big problem of temperature deformation difference plays the buffer function of dilatancy.

Detailed description of the invention

Fig. 1 is the structural schematic diagram on chassis between the utility model integral bathroom.

Specific embodiment

As shown in Figure 1, chassis between a kind of integral bathroom, respectively includes inorganic non-metallic material main structure layer from lower to upper 1, fibrous mesh cloth gluing layer 2, flexible polymer screed 3 and architectural surface 4.

Wherein, the inorganic non-metallic material main structure layer 1 includes cement-base composite material, and the fibrous mesh cloth is glutinous Tying layer 2 includes fibrous mesh cloth and epoxy adhesive, and the fibrous mesh cloth gluing layer 2 includes first layer epoxy glue from lower to upper Glutinous agent, fibrous mesh cloth and second layer epoxy adhesive；Wherein, the fibrous mesh cloth includes fiberglass gridding cloth or carbon One of fibrous mesh cloth or inorganic mineral fiber grid cloth are a variety of.

As more specific scheme, the flexible polymer screed 3 includes water-base epoxy mortar, acrylic acid, phenylpropyl alcohol, fourth Benzene.

The architectural surface 4 includes the non-metallic material decoration panel of ceramics or stone material or artificial stone, and described inorganic The thickness of nonmetallic materials main structure layer 1 is respectively greater than the thickness of other each layers.

As more specific scheme, the thermal expansion coefficient of the fibrous mesh cloth gluing layer 2 is in 4.0 × 10-6/K~8.0 Between × 10-6/K, using this fibrous mesh cloth gluing layer 2, the architectural surface 4 and inorganic non-metallic material are on the one hand improved On the other hand the cohesiveness of main structure layer 1 buffers the difference of upper layer and lower layer thermal expansion coefficient, significantly improves the resistance to of integral bathroom Long property；The thickness of the fibrous mesh cloth gluing layer 2 is respectively smaller than the thickness of other each layers.

Embodiment: chassis between a kind of integral bathroom, including four part (see figure 1): inorganic non-metallic material main body knot Structure bottom 1 use ultra-high performance concrete (UHPC), thermal expansion coefficient be 11.7 × 10-6/K, strength grade 120MPa, With a thickness of 50mm；Fibrous mesh cloth gluing layer 2 uses carbon fiber mesh fabric, and adhesive uses low viscous epoxy resin, viscosity 120mp•s；Flexible polymer screed 3 uses the emulsion modified mortar of styrene-butadiene polymer, and thermal expansion coefficient is 5.6 × 10-6/ K, architectural surface 4 use vitreous ceramic brick, and thermal expansion coefficient is 3.0 × 10-6/K, wherein flexible polymer screed 3 exists Buffering is played the role of in centre, when integral bathroom local environment temperature changes, inorganic non-metallic material main structure layer 1 Variation with architectural surface 4 will be inconsistent, and the variation of 3 pairs of the two of flexible polymer screed is inconsistent to be played absorption, discharges and answer Power buffer function improves the lasting bond performance of the two.

Claims (10)

1. chassis between a kind of integral bathroom, characterized in that respectively include inorganic non-metallic material main structure layer from lower to upper (1), fibrous mesh cloth gluing layer (2), flexible polymer screed (3) and architectural surface (4).

2. chassis between integral bathroom according to claim 1, characterized in that the inorganic non-metallic material main structure layer It (1) include cement-base composite material.

3. chassis between integral bathroom according to claim 1, characterized in that the fibrous mesh cloth gluing layer (2) includes fibre Tie up grid cloth and epoxy adhesive.

4. chassis between integral bathroom according to claim 3, characterized in that the fibrous mesh cloth includes fiberglass gridding One of cloth or carbon fiber mesh fabric or inorganic mineral fiber grid cloth are a variety of.

5. chassis between integral bathroom according to claim 1, characterized in that the fibrous mesh cloth gluing layer (2) from it is lower toward Upper includes first layer epoxy adhesive, fibrous mesh cloth and second layer epoxy adhesive.

6. chassis between integral bathroom according to claim 1, characterized in that the flexible polymer screed (3) includes water Property epoxy resin mortar, acrylic acid, phenylpropyl alcohol and butylbenzene.

7. chassis between integral bathroom according to claim 1, characterized in that the architectural surface (4) includes ceramics or stone The non-metallic material decoration panel of material or artificial stone.

8. chassis between -7 any integral bathrooms according to claim 1, characterized in that the inorganic non-metallic material main body knot The thickness of structure layer (1) is respectively greater than the thickness of other each layers.

9. chassis between -7 any integral bathrooms according to claim 1, characterized in that the fibrous mesh cloth gluing layer (2) Thermal expansion coefficient between 4.0 × 10-6/K~8.0 × 10-6/K.

10. chassis between -7 any integral bathrooms according to claim 1, characterized in that the fibrous mesh cloth gluing layer (2) Thickness be respectively smaller than the thickness of other each layers.