CN214532648U - Self-heat-preservation window - Google Patents

Abstract

The utility model relates to a self preservation temperature window, the window frame comprises a window frame, it has glass to inlay in the window frame, glass has the transparent thermal-insulated rete to laminating on the indoor side surface, the laminating has from the heat preservation on the thermal-insulated rete, include the hollow transparent casing of flat inside from the heat preservation, evacuation or sealed packing have the expanded perlite granule in the transparent casing. The utility model discloses a simple structure, easy to assemble can effectually alleviate the fast problem of glass heat dissipation, keeps indoor constancy of temperature.

Description

Self-heat-preservation window

Technical Field

The utility model relates to a building decoration material, especially a self preservation temperature window.

Background

The house is the place of people's house life, needs to have certain privacy, still needs to have corresponding heat insulating ability simultaneously, if the house thermal insulation performance is not good, along with outdoor temperature variation, just so can not make people's house life keep comfortable environment. In current housing construction, all adopted bigger window, installation glass on the window, glass adopts double-deck toughened glass to keep its intensity more, and the thickness of double-deck glass makes its fixed difficulty that has increased on the window, and glass's heat dissipation is relatively fast simultaneously, is unfavorable for indoor temperature's self preservation temperature.

SUMMERY OF THE UTILITY MODEL

To current not enough, the utility model provides a self preservation temperature window.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a self preservation temperature window, includes the window frame, it has glass to inlay in the window frame, glass has transparent thermal-insulated rete to laminating on the indoor side surface, the laminating has from the heat preservation on the thermal-insulated rete, include flat inside hollow transparent shell from the heat preservation, evacuation or sealed packing have expanded perlite granule in the transparent shell.

Preferably, the self-heat-insulation layer comprises a plurality of transparent shells which are spliced and connected with each other, and the interiors of the transparent shells are vacuum or sealed and filled with expanded perlite particles.

Preferably, the transparent case is provided with engaging means on opposite side surfaces thereof, the engaging means being capable of engaging with each other in a matching manner.

Preferably, the thickness of the transparent shell is not more than 3 cm.

Preferably, the window frame is further provided with a self-insulation louver capable of abutting against the self-insulation layer, the self-insulation louver consists of a plurality of strip-shaped flat self-insulation plates, each self-insulation plate is a hollow heat-insulation hollow plate, and expanded perlite particles are hermetically filled in the self-insulation plates.

Preferably, the self-insulation board has a lattice structure inside.

Preferably, the self-insulation board comprises a panel, a back board, and a side board which is connected with the panel and the back board to form a box body structure.

The beneficial effects of the utility model reside in that: the utility model discloses a simple structure, easy to assemble has avoided the difficult fixed problem of installation of double glazing, and the vacuum through thermal-insulated and the heat preservation of thermal-insulated rete separates heat or expanded perlite granule and the sealed space in the thermal-insulated that air does not flow simultaneously, very big reduction indoor outer heat exchange, can effectually alleviate the fast problem of glass heat dissipation, keep indoor constancy of temperature, the thermal-insulated rete and the heat preservation that set up simultaneously all are transparent can not influence the non-light tight performance of window.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural view of a self-heat-insulating layer according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a self-heat-preservation plate according to an embodiment of the present invention;

part names and serial numbers in the figure: 1-window frame 2-glass 3-heat insulation film layer 4-self-heat insulation layer 40-transparent shell 400-clamp and mechanism 5-self-heat insulation shutter 50-self-heat insulation plate 500-panel 501-back panel 502-side panel.

Detailed Description

To clearly illustrate the objects, technical solutions and advantages of the embodiments of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and embodiments, which are clearly and completely described below. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention. Furthermore, directional terms as referred to in the present disclosure, such as "upper", "lower", "front", "rear", "left", "right", "inner", "outer", etc., refer only to the direction of the attached drawings, and directional terms used are intended to better and more clearly illustrate and understand the present invention rather than to indicate or imply the orientation the present invention must have, and therefore should not be construed as limiting the present invention.

The embodiment of the present invention is shown in fig. 1 and fig. 2, a self-insulation window, comprising a window frame 1, wherein the window frame 1 is made of different materials, such as wood, aluminum alloy, etc. as the window frame used in the existing household or office, the shape is set to different shapes according to the position to be installed and the personal preference, the window 1 is embedded with glass 2, the glass 2 is embedded in the window frame 1, common glass can be selected for the low-rise building, tempered glass can be selected for the high-rise building, a transparent heat insulation film layer 3 is attached to the surface of one side of the glass 2 facing the indoor, i.e. the heat insulation film layer 3 is attached to the inner wall of the glass 2, which can be a transparent structure formed by coating heat insulation paint on the glass 2 and integrated with the glass 2, or any one transparent heat insulation film can be attached to the glass, the transparent performance of the heat insulation film layer can not affect the light transmission problem of a window, the heat insulation film layer 3 slows down the exchange of indoor and outdoor heat, the heat insulation film layer 3 is attached with the self-heat insulation layer 4, the heat insulation of the heat insulation film layer 3 is utilized to avoid the overlarge influence of outdoor temperature on the indoor temperature, the self-heat insulation layer 4 further stabilizes the exchange of the indoor and outdoor heat, the heat insulation layer 4 comprises a flat hollow transparent shell 40, the transparent shell 40 is internally vacuumized or hermetically filled with expanded perlite particles, the air flow in a cavity formed by the hollow part is blocked, the heat exchange is slowed down, a certain heat insulation effect is achieved, the flat surface of the heat insulation layer means that the upper surface and the lower surface of the heat insulation layer, namely the front surface and the back surface of the heat insulation layer have larger surface areas, a small number of transparent shells 40 can be assembled into a large required area, and the problem that the large surface area is difficult to carry, produce and install is solved, when the transparent shell 40 is vacuumized, no heat conducting medium exists in the transparent shell 40 after the vacuum pumping, so that the heat exchange activity is slowed down, when the expanded perlite particles are filled in a sealing manner, the granular expanded perlite particles are filled in the transparent shell 40, the hollow part of the transparent shell 40 is filled and sealed by using an adhesive, the expanded perlite particles and the particles cannot be completely overlapped, gaps exist, air exists in the gaps, the air in each gap cannot flow, the perlite has a heat preservation function, and therefore the heat preservation effect of the transparent shell 40 is further improved. Such simple structure, easy to assemble, the difficult fixed problem of installation of double glazing has been avoided, thermal-insulated and the vacuum of heat preservation 4 through thermal-insulated rete 3 simultaneously insulate against heat or expanded perlite granule and the sealed space in the air does not flow thermal-insulated, very big reduction indoor outer heat exchange, can effectually alleviate the fast problem of glass heat dissipation, keep indoor constancy of temperature, thermal-insulated rete 3 and the heat preservation 4 that set up simultaneously all are transparent can not influence the printing opacity performance of window.

Further improvement, as shown in fig. 1 and fig. 2, the self-insulation layer 4 comprises a plurality of transparent shells 40 which are connected in a splicing manner and are internally vacuumized or sealed and filled with expanded perlite particles, and the transparent shells 40 can be connected in a splicing manner so that the requirements of windows with different sizes can be met, and the production, assembly and transportation are facilitated. Transparent shell 40 is provided with the block mechanism 400 that can match the block on relative both sides face, block mechanism 400 then can adopt the block mechanism commonly used, for example the block of fixture block and draw-in groove, the block of concave edge and chimb, that is to say, set up the fixture block in one side of transparent shell 40, just set up the draw-in groove rather than relative another side, when assembling a plurality of transparent shells 40, the fixture block on a transparent shell 40 just blocks in the draw-in groove of another transparent shell 40, just so can satisfy the demand of bigger area with a plurality of transparent shells 40 combination through block connection in proper order. In order not to affect the light transmission problem of the window, the thickness of the transparent shell 40 is not more than 3cm, which can play a role of self-heat preservation and maintain the normal light transmission of the window.

Further improvement, as shown in fig. 1 and 3, a self-insulation louver 5 capable of abutting against a self-insulation layer 4 is further arranged on the window frame 1, the self-insulation louver 5 is composed of a plurality of strip-shaped flat self-insulation boards 50, the self-insulation boards 50 are produced during production, then the self-insulation boards 50 are made into a louver with a self-insulation function through the existing technology and structure for manufacturing the louver, the self-insulation louver abuts against the self-insulation layer 4, that is, when the self-insulation louver 5 is used, the surface of the self-insulation layer 4 is contacted, the distance between the self-insulation louver 5 and the self-insulation layer 4 is reduced, air existing between the self-insulation louver 5 and the self-insulation layer 4 is reduced, and further, the heat conduction activity through the air is reduced, so that the heat insulation effect is achieved, the self-insulation board 50 is a hollow heat-insulation hollow board, and expanded perlite particles are hermetically filled in the self-insulation board 50, the self-insulation board 50 is filled with expanded perlite particles in a sealing manner, the hollow part of the self-insulation board 50 is filled with the expanded perlite particles and sealed by using an adhesive, the heat insulation effect is achieved by using the perlite and air which does not flow in the self-insulation board 50, and the self-insulation board 50 is a heat insulation hollow board, for example, a heat insulation hollow board made of EVA or EVAL. At this time, the self-insulation board 50 has a lattice structure therein. The expanded perlite particles filled in the self-heat-insulation board 50 are fixed in respective lattices by the lattice-shaped structure, so that the displacement of the expanded perlite particles in the opening and closing processes of the louver is avoided, the heat insulation effect of each position on the self-heat-insulation board 50 can be kept consistent, the heat insulation effect is better, and the formation of the lattices is realized by arranging partition boards in the self-heat-insulation board 50. The self-insulation board 50 comprises a panel 500, a back plate 501, and a side plate 502 which is connected with the panel 500 and the back plate 501 to form a box structure, so that the self-insulation board is convenient to produce and assemble, one side plate 502 is reserved during assembly and is used as a filling port for filling expanded perlite particles, and the side plate 502 is mounted after filling.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

Claims (7)

1. A self preservation temperature window which characterized in that: including the window frame, it has glass to inlay in the window frame, glass has transparent thermal-insulated rete to laminating on the indoor side surface, the laminating has from the heat preservation on the thermal-insulated rete, include flat inside hollow transparent casing from the heat preservation, evacuation or sealed packing have expanded perlite granule in the transparent casing.

2. The self-insulation window according to claim 1, wherein the self-insulation layer comprises a plurality of transparent shells which are spliced and connected with each other and filled with expanded perlite particles in a vacuum or sealed mode.

3. The self-insulation window according to claim 2, wherein the transparent shell is provided with clamping mechanisms which can be matched and clamped on two opposite side surfaces.

4. The self-insulation window according to claim 1, wherein the thickness of the transparent shell is not more than 3 cm.

5. The self-insulation window according to claim 1, wherein the window frame is further provided with a self-insulation louver capable of abutting against the self-insulation layer, the self-insulation louver is composed of a plurality of strip-shaped flat self-insulation plates, the self-insulation plates are hollow heat-insulation hollow plates, and expanded perlite particles are hermetically filled in the self-insulation hollow plates.

6. The self-insulation window according to claim 5, wherein the self-insulation board is of a lattice structure.

7. The self-insulation window according to claim 5, wherein the self-insulation board comprises a panel, a back board, and side boards which are connected with the panel and the back board to form a box body structure.

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