CN214461431U - Heat-insulating wall - Google Patents

Abstract

The application relates to a heat-insulating wall body, which relates to the technical field of heat-insulating walls in buildings and comprises a basic wall body, a heat-insulating layer arranged on the basic wall body and an inner decorative layer arranged on one side of the heat-insulating layer, which is far away from the basic wall body; the heat preservation is including locating the heat preservation nest of tubes that is used for leading to water on the basic wall body, set up in heat preservation nest of tubes both sides and basic wall body and interior trim layer fixed connection's fixed subassembly, heat preservation nest of tubes and fixed subassembly fixed connection. Water is introduced into the heat-insulating pipe group, and by utilizing the characteristic of large specific heat capacity of water, the water in the heat-insulating pipe group can absorb heat in summer, so that the indoor temperature rise is reduced, and the water in the heat-insulating pipe group can slow down the indoor temperature drop in winter. This application has the effect that has promoted indoor thermal insulation performance.

Description

Heat-insulating wall

Technical Field

The application relates to the technical field of heat preservation walls in buildings, in particular to a heat preservation wall body.

Background

With the continuous development of society, the wall body of a plurality of building floors at present need the heat preservation function, but the existing heat preservation structure is generally filled with heat preservation materials in the heat preservation wall for heat preservation. However, the heat insulation effect is only to block heat dissipation, and the heat preservation effect is not very ideal.

In view of the above related technologies, the inventor believes that the existing thermal insulation wall only blocks the heat dissipation and has the defect of undesirable thermal insulation effect.

SUMMERY OF THE UTILITY MODEL

In order to improve the heat preservation effect of heat preservation wall, this application provides a heat preservation wall body.

The application provides a thermal insulation wall adopts following technical scheme:

a heat-insulating wall comprises a basic wall body, a heat-insulating layer arranged on the basic wall body, and an inner decoration layer arranged on one side of the heat-insulating layer, which is far away from the basic wall body; the heat preservation is including locating the heat preservation nest of tubes that is used for leading to water on the basic wall body, set up in heat preservation nest of tubes both sides and basic wall body and interior trim layer fixed connection's fixed subassembly, heat preservation nest of tubes and fixed subassembly fixed connection.

Through adopting above-mentioned technical scheme, lead to water in the thermal insulation nest of tubes, utilize the big characteristics of water specific heat capacity, when summer, hydroenergy in the thermal insulation nest of tubes enough absorbs the heat, reduces indoor intensification, and when winter, hydroenergy in the thermal insulation nest of tubes slows down indoor temperature and descends, has promoted indoor heat preservation effect.

Optionally, the insulating tube group includes first slope insulating tube and second slope insulating tube, first slope insulating tube and second slope insulating tube intercommunication, and the contained angle is the acute angle between first slope insulating tube and the second slope insulating tube, the angular bisector of contained angle is the same with the horizontal direction between first slope insulating tube and the second slope insulating tube.

Through adopting above-mentioned technical scheme, first aspect makes the insulating tube group have bigger area of contact, promotes the heat preservation effect, makes the water in the insulating tube group when discharging simultaneously, can discharge totally.

Optionally, the heat preservation nest of tubes is equipped with a plurality of along the vertical direction of basic wall body, and communicates each other between every group heat preservation nest of tubes.

Through adopting above-mentioned technical scheme, a plurality of thermal-insulation tube nest acts on simultaneously, makes indoor heat preservation effect better.

Optionally, the rubber layers for absorbing thermal expansion and contraction of the first inclined heat-insulating pipe and the second inclined heat-insulating pipe are sleeved on the outer side surfaces of the first inclined heat-insulating pipe and the second inclined heat-insulating pipe of the heat-insulating pipe assembly.

By adopting the technical scheme, because the thermal insulation pipe group has the natural reaction of expansion with heat and contraction with cold, the rubber layer can absorb the expansion with heat and contraction with cold of the thermal insulation pipe group, and the cracking of the thermal insulation pipe group is avoided as far as possible.

Optionally, the rubber layer outer side of the first inclined heat preservation pipe and the rubber layer outer side of the second inclined heat preservation pipe of the heat preservation pipe assembly are sleeved with sound absorption layers for reducing water flow noise.

Through adopting above-mentioned technical scheme, the sound absorbing layer can reduce the flowing water noise in first slope insulating tube and the second slope insulating tube, reduces the influence indoor.

Optionally, the fixed component comprises a heat-insulation connecting piece, the heat-insulation connecting piece is provided with a plurality of parts which are respectively positioned on two sides of the first inclined heat-insulation pipe and two sides of the second inclined heat-insulation pipe, one end of the heat-insulation connecting piece extends into the foundation wall body, and the other end of the heat-insulation connecting piece extends into the interior trim layer.

Through adopting above-mentioned technical scheme, the heat preservation connecting piece can centre gripping first slope insulating tube and second slope insulating tube, makes first slope insulating tube and second slope insulating tube by fine fixed, and heat preservation connecting piece both ends are connected with basic wall body and interior trim layer respectively simultaneously, make first slope insulating tube and second slope insulating tube can be fixed well relative basic wall body and interior trim layer.

Optionally, an arc-shaped groove is formed in one side of the heat-insulation connecting piece, which is in contact with the heat-insulation pipe group, and used for positioning and fixing the heat-insulation pipe group.

Through adopting above-mentioned technical scheme, make first slope insulating tube and second slope insulating tube block in can going into the recess of heat preservation connecting piece, make first slope insulating tube and second slope insulating tube by better fixed.

Optionally, the insulating layer further comprises an insulating material filled between the insulating pipe groups.

Through adopting above-mentioned technical scheme, make the heat preservation can further promote the heat preservation effect on the basis of heat preservation nest of tubes.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the heat preservation pipe group is internally communicated with water, the characteristic that the specific heat capacity of water is large is utilized, water in the heat preservation pipe group can absorb heat enough in summer, indoor temperature rise is reduced, and in winter, the water in the heat preservation pipe group can slow down indoor temperature drop, so that the indoor heat preservation effect is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of an insulation wall in the embodiment of the present application.

FIG. 2 is a schematic structural diagram of an insulating layer in the embodiment of the present application.

FIG. 3 is a cross-sectional view of the rubber layer, the sound absorbing layer and the fixing member in the heat insulating pipe group according to the embodiment of the present application.

Description of reference numerals: 1. a foundation wall; 2. a heat-insulating layer; 21. a heat-preserving pipe group; 211. a first inclined insulating tube; 212. a second inclined insulating tube; 213. a rubber layer; 214. a sound absorbing layer; 22. a fixing assembly; 221. a heat-insulating connecting piece; 2211. an arc-shaped slot; 23. a thermal insulation material; 3. an inner decoration layer.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a heat-insulating wall body.

Referring to fig. 1 and 2, the heat insulation wall comprises a basic wall 1, a heat insulation layer 2 and an inner decoration layer 3 which are arranged from the outdoor to the indoor in sequence; a heat preservation pipe group 21 and a fixing component 22 are arranged in the heat preservation layer 2, water is filled in the heat preservation pipe group 21, and the indoor temperature is adjusted by utilizing the characteristic of large specific heat capacity of the water; the insulating pipe group 21 is provided with a plurality of along the vertical direction, the insulating pipe groups 21 which are close to each other are all communicated, and the insulating pipe groups 21 can store more water, so that the insulating effect of the insulating pipe groups 21 is better. The fixing components 22 are arranged on two sides of the heat preservation pipe group 21 and used for positioning and fixing the heat preservation pipe group 21, so that the heat preservation pipe group 21 can be stabilized between the foundation wall 1 and the inner decoration layer 3, and the heat preservation wall is stable in structure.

Above let in water in the thermal-insulation pipe group 21, utilize the big characteristics of water specific heat capacity, in summer, the hydroenergy in the thermal-insulation pipe group 21 is enough to absorb the heat, reduces indoor intensification, and in winter, the hydroenergy in the thermal-insulation pipe group 21 slows down indoor temperature and descends, has promoted indoor heat preservation effect.

Referring to fig. 2 and 3, in order to enable the heat preservation pipe group 21 to better preserve heat, the heat preservation pipe group 21 comprises a first inclined heat preservation pipe 211 and a second inclined heat preservation pipe 212, the first inclined heat preservation pipe 211 is arranged obliquely, the second inclined heat preservation pipe 212 is also arranged obliquely, one end of the first inclined heat preservation pipe 211 is communicated with one end of the second inclined heat preservation pipe 212, and one end of the first inclined heat preservation pipe 211, which is far away from the second inclined heat preservation pipe 212, is higher than one end communicated with the second inclined heat preservation pipe 212 in the vertical direction; the end of the second inclined insulating pipe 212 remote from the first inclined insulating pipe 211 is lower than the end communicating with the first inclined insulating pipe 211 in the vertical direction. And the included angle of the communication position of the first inclined heat preservation pipe 211 and the second inclined heat preservation pipe 212 is arranged in an acute angle, and the angular bisector of the acute angle is the same as the horizontal direction.

First slope insulating tube 211 and second slope insulating tube 212 when increase area of contact promotes the heat preservation effect, when making winter too cold, for preventing that the moisture from freezing in the insulating tube group 21, be convenient for make the water in first slope insulating tube 211 and the second slope insulating tube 212 can keep away from the whole outflow of one end of first slope insulating tube 211 from second slope insulating tube 212, protect first slope insulating tube 211 and second slope insulating tube 212 as far as not frostbite.

In order to ensure that the first inclined heat-insulating pipe 211 and the second inclined heat-insulating pipe 212 are not easy to break when expanding with heat and contracting with cold, a rubber layer 213 is circumferentially wrapped on the outer sides of the first inclined heat-insulating pipe 211 and the second inclined heat-insulating pipe 212, and the rubber layer 213 can be made of soft rubber. When the first inclined heat-insulating pipe 211 and the second inclined heat-insulating pipe 212 expand thermally, the rubber layer 213 is compressed, and the rubber layer 213 can absorb the expansion amount of the first inclined heat-insulating pipe 211 and the second inclined heat-insulating pipe 212; when the first inclined heat-preservation pipe 211 and the second inclined heat-preservation pipe 212 shrink, the rubber layer 213 can compensate the reduction amount of the first inclined heat-preservation pipe 211 and the second inclined heat-preservation pipe 212; the rubber layer 213 is always tightly attached to the first inclined heat-insulating pipe 211 and the second inclined heat-insulating pipe 212, so that the first inclined heat-insulating pipe 211 and the second inclined heat-insulating pipe 212 are protected, and the first inclined heat-insulating pipe 211 and the second inclined heat-insulating pipe 212 are prevented from being broken due to expansion caused by heat and contraction caused by cold as far as possible.

In summer, because the heat-insulating pipe group 21 absorbs heat for a long time and the temperature rises, the water in the heat-insulating pipe group 21 needs to be replaced; or in winter, in order to keep the indoor warm, hot water is filled into the heat-insulating pipe group 21. The water flow sound will cause trouble indoors, and in order to reduce the water flow sound in the heat preservation pipe group 21, a sound absorption layer 214 is wrapped outside the rubber layer 213 on the first inclined heat preservation pipe 211 and the second inclined heat preservation pipe 212, and the sound absorption layer 214 can be made of sound absorption and noise reduction materials. The sound absorption layer 214 can reduce noise of flowing water sound in the first inclined heat preservation pipe 211 and the second inclined heat preservation pipe 212 as much as possible, and reduce the influence of the flowing water sound on the indoor space.

In order to enable the fixing assembly 22 to fix the thermal insulation pipe group 21 better, the fixing assembly 22 includes a thermal insulation connector 221, and the thermal insulation connector 221 may be made of steel material. The heat preservation connecting piece 221 is provided with a plurality of heat preservation connecting pieces, the heat preservation connecting pieces are respectively located on two sides of the first inclined heat preservation pipe 211 and the second inclined heat preservation pipe 212, and the number of the heat preservation connecting pieces 221 is two on each side of the first inclined heat preservation pipe 211 and the second inclined heat preservation pipe 212. And the heat-insulating connecting piece 221 is provided with an arc-shaped groove 2211, the arc-shaped groove 2211 faces the heat-insulating pipe group 21, so that the first inclined heat-insulating pipe 211 and the second inclined heat-insulating pipe 212 are clamped in the corresponding arc-shaped grooves 2211, and the heat-insulating pipe group 21 is conveniently and better positioned and fixed.

In order to better fix the heat preservation pipe group 21 with the foundation wall 1 and the interior decoration layer 3, one end of the heat preservation connecting piece 221 close to the foundation wall 1 extends into the foundation wall 1 to be fixedly connected with the foundation wall 1, and one end of the heat preservation connecting piece 221 close to the interior decoration layer 3 extends into the interior decoration layer 3, so that the heat preservation pipe group 21 can be better fixed with the foundation wall 1 and the interior decoration layer 3 relatively, the stability of the heat preservation pipe group 21 is improved, and the stability of the heat preservation wall structure is improved.

In order to further improve the heat preservation effect of the heat preservation wall body, the heat preservation material 23 is filled in the gap between the heat preservation pipe groups 21, the indoor temperature rise of the moisture in the heat preservation pipe groups 21 is slowed down in summer, and the indoor heat dissipation and temperature reduction of the heat preservation material 23 can be slowed down in winter, so that the heat preservation effect of the heat preservation wall body is better.

The implementation principle of the heat-insulating wall body in the embodiment of the application is as follows:

the first step, the cooling in summer, when summer, the hydroenergy in the thermal-insulation nest of tubes 21 can absorb the heat, reduces indoor intensification, simultaneously, makes the water in the thermal-insulation nest of tubes 21 continuously flow, utilizes the thermal convection to continuously cool down indoor.

Secondly, heat preservation is carried out in winter, and in winter, the heat preservation material 23 can slow down indoor heat dissipation and temperature reduction, so that the heat preservation effect of the heat preservation wall body is better; meanwhile, hot water can be introduced into the heat-preservation pipe group 21, and the indoor temperature is raised by utilizing heat convection, so that the indoor temperature is kept.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A thermal insulation wall body is characterized in that: comprises a foundation wall body (1), an insulating layer (2) arranged on the foundation wall body (1), and an inner decoration layer (3) arranged on one side of the insulating layer (2) far away from the foundation wall body (1); the heat preservation layer (2) comprises a heat preservation pipe group (21) arranged on the foundation wall body (1) and used for water flowing, and fixing assemblies (22) arranged on two sides of the heat preservation pipe group (21) and fixedly connected with the foundation wall body (1) and the inner decoration layer (3), wherein the heat preservation pipe group (21) is fixedly connected with the fixing assemblies (22).

2. The thermal insulating wall body of claim 1, wherein: the insulating tube group (21) includes first slope insulating tube (211) and second slope insulating tube (212), first slope insulating tube (211) and second slope insulating tube (212) intercommunication, and contained angle be the acute angle between first slope insulating tube (211) and second slope insulating tube (212), the angular bisector of contained angle is the same with the horizontal direction between first slope insulating tube (211) and second slope insulating tube (212).

3. The thermal insulating wall body of claim 2, wherein: the heat preservation nest of tubes (21) are equipped with a plurality of along basic wall body (1) vertical direction, and communicate each other between every group heat preservation nest of tubes (21).

4. A thermal insulating wall as claimed in claim 3, wherein: the rubber layer (213) used for absorbing thermal expansion and contraction of the first inclined heat-insulating pipe (211) and the second inclined heat-insulating pipe (212) is sleeved on the outer side surface of the first inclined heat-insulating pipe (211) and the outer side surface of the second inclined heat-insulating pipe (212) of the heat-insulating pipe group (21).

5. The thermal insulating wall body of claim 4, wherein: and the outer sides of the rubber layers (213) of the first inclined heat-insulating pipe (211) and the second inclined heat-insulating pipe (212) of the heat-insulating pipe group (21) are sleeved with sound-absorbing layers (214) for reducing water flow noise.

6. The thermal insulating wall body of claim 2, wherein: fixed subassembly (22) are equipped with a plurality of including heat preservation connecting piece (221), are located first slope insulating tube (211) and second slope insulating tube (212) both sides respectively, and heat preservation connecting piece (221) one end stretches into in basic wall body (1), and the other end stretches into in interior decoration layer (3).

7. The thermal insulating wall body of claim 6, wherein: an arc-shaped groove (2211) is formed in one side, in contact with the heat-preservation pipe group (21), of the heat-preservation connecting piece (221) and used for positioning and fixing the heat-preservation pipe group (21).

8. The thermal insulating wall body of claim 7, wherein: the heat-insulating layer (2) also comprises heat-insulating materials (23) filled between the heat-insulating pipe groups (21).

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