CN202430925U - Low-radiation composite vacuum phase transition thermal insulation energy-saving wallboard - Google Patents

Abstract

The utility model discloses a low-radiation composite vacuum phase transition thermal insulation energy-saving wallboard which comprises a wallboard and a phase transition thermal insulation body, wherein the phase transition thermal insulation body is mounted on the wallboard, and phase transition thermal insulation material is filled in the phase transition thermal insulation body. The phase transition thermal insulation material is paraffin. The phase transition thermal insulation body is cylindrical, conical or barrel-shaped. The phase transition thermal insulation body is fixedly arranged between single-sided wall bodies or between double-sided wall bodies. The low-radiation composite vacuum phase transition thermal insulation energy-saving wallboard effectively makes use of natural energy, is energy-saving and thermal-insulating, is low-carbon and environmental-friendly, and is comfortable.

Description

Low radiation recombination phase transition of vacuum heat preservation energy-saving wallboard

Technical field

The utility model relates to the building heat preservation technical field, exactly is a kind of low radiation recombination phase transition of vacuum heat preservation energy-saving wallboard.

Background technology

It is coal-fired, combustion gas and electricity heating to the heat preserving method of the active demand of the regenerative resource of cleaning, traditional building that social development is faced with energy shortage threat, people life, and solar heating has received generally and having paid attention in recent years.Utilize natural energy to warm oneself and help the requirement of environmental protection low-carbon (LC), thereby the effective ways of seeking building energy conservation are people's universal demands with the effect that improves architecture indoor insulation comfortableness.

Summary of the invention

The purpose of the utility model provides a kind of low radiation recombination phase transition of vacuum heat preservation energy-saving wallboard.It comprises wallboard, phase-transition heat-preserving body, it is characterized in that: the phase-transition heat-preserving body is set on body of wall, the phase-transition heat-preserving material is housed in the phase-transition heat-preserving body.The phase-transition heat-preserving material is a paraffin.The phase-transition heat-preserving body is fixed between single face body of wall or the two-sided body of wall.The phase-transition heat-preserving body is a single or multiple lift, or the mixing of the phase-transition heat-preserving body of different heat insulating materials.

The phase-transition heat-preserving body is cylindrical, taper or cylindrical shape.

The utility model has the advantages that: effectively utilize natural energy, energy-saving heat preserving, low-carbon environment-friendly is comfortable.

The utility model has the advantages that:

1. adopt the New-type phase change energy storage technology to guarantee the most economical natural cold and heat amount of utilizing, play the effect of saving building energy consumption;

2. this utility model adopts vacuum technique to significantly improve the hot property of building, has improved the architecture indoor thermal comfort;

3. particular job principle of low radiation recombination phase transition of vacuum heat preservation energy-saving wallboard makes the thermal transmittance of its complex heat transfer coefficient well below common wall thermal insulating series products;

4. the combining form of New-type phase change energy storage technology and vacuum technique greatly reduces the cost that adopts the high-heat performance thermal insulation material, makes to build high-comfort being built into for possibility of low energy consumption;

New-type phase change energy storage technology and vacuum technique combine make building structure that basic change take place, significantly reduced structural weight per square meter, saved building land simultaneously;

6. this utility model is used in the building and can be saved a large amount of engineering times, shortens the architecture construction cycle, thereby reduces the cost of building;

7. this utility model can combine multiple common building material, is a kind of comprehensive utilization of resources new technology that can be applicable to ecotecture.

Description of drawings

Fig. 1 hangs down radiation recombination phase transition of vacuum wall plate structure integral form design diagram;

Fig. 2 hangs down the moulded design diagram of radiation phase transition of vacuum wallboard composite construction;

The shape-designing sketch map of Fig. 3 phase transition of vacuum wall plate structure;

Fig. 4 hangs down radiation recombination phase transition of vacuum wallboard overall construction design sketch map;

Fig. 5 two-phase becomes material and evacuated panel integrated structure design diagram;

Taper support structure designs sketch map between Fig. 6 evacuated panel;

Fig. 7 phase-transition heat-preserving energy-saving wallboard workflow schematic diagram.

The specific embodiment

It comprises wallboard, phase-transition heat-preserving body, and body of wall can adopt existing wallboard, and phase-transition heat-preserving body 3 is set on body of wall 1, and phase-transition heat-preserving body 3 is cylindrical, taper or cylindrical shape.The phase-transition heat-preserving material is housed in the phase-transition heat-preserving body 3.The phase-transition heat-preserving material is a paraffin.Phase-transition heat-preserving body 3 is fixed between single face body of wall or the two-sided body of wall.Phase-transition heat-preserving body 3 is single or multiple lifts, or the mixing of the phase-transition heat-preserving body of different heat insulating materials.Low radiation recombination phase transition of vacuum heat preservation energy-saving wallboard peace commentaries on classics mode as with summer phase-change material absorb the energy at night, absorb the heat on daytime winter.

Claims (5)

1. low radiation recombination phase transition of vacuum heat preservation energy-saving wallboard, it comprises wallboard, phase-transition heat-preserving body, it is characterized in that: go up installation at body of wall (1) phase-transition heat-preserving body (2) is set, the phase-transition heat-preserving body is equipped with the phase-transition heat-preserving material in (2).

2. low radiation recombination phase transition of vacuum heat preservation energy-saving wallboard according to claim 1, it is characterized in that: the phase-transition heat-preserving material is a paraffin.

3. low radiation recombination phase transition of vacuum heat preservation energy-saving wallboard according to claim 1 is characterized in that: phase-transition heat-preserving body (2) is cylindrical, taper or cylindrical shape.

4. low radiation recombination phase transition of vacuum heat preservation energy-saving wallboard according to claim 1, it is characterized in that: phase-transition heat-preserving body (2) is fixed between single face body of wall or the two-sided body of wall.

5. low radiation recombination phase transition of vacuum heat preservation energy-saving wallboard according to claim 1, it is characterized in that: phase-transition heat-preserving body (2) is a single or multiple lift.

Images