CN204941207U - A kind of energy-saving aluminium door window frame structure - Google Patents

Abstract

The utility model provides a kind of energy-saving aluminium door window frame structure, and this structure is made up of sash frame, sash frame and glass three incorporating aspects; In sash frame, glass is installed; Sash frame comprises the indoor window frame section and outdoor window frame section that are connected by insulated rubber strip; Sash frame comprises the indoor sash section bar and outdoor window sectional that are connected by insulated rubber strip; Be filled with heat insulating material between adjacent insulation adhesive tape, be filled with heat insulating material between insulated rubber strip and glass, all heat insulating materials are all positioned on same isotherm.The utility model has blocked section bar and all exchange heat passage between insulated rubber strip and glass and between insulated rubber strip effectively, reduce the heat radiation in door window frame and thermal convection current, decrease the exchange of indoor-outdoor air heat, thus improve the heat preservation and insulation of door and window.

Description

A kind of energy-saving aluminium door window frame structure

Technical field

The utility model relates to door and window fields, particularly relates to a kind of energy-saving aluminium door window frame structure.

Background technology

The power conservation requirement of existing building to door and window is more and more higher, energy-conservation, generally refers to that door and window can hinder or slow down the exchange of indoor and outdoor heat, thus reduces building energy consumption.Energy-conservation door and window can effective comfort temperature in holding chamber in winter, and summer can play good heat-blocking action.The energy-conservation usual employing of existing door and window have compared with low heat transfer coefficient insulated rubber strip by inside and outside door and window both sides section bar machinery mode couple together, to block the exchange of both sides heat inside and outside door and window.Practical experience shows, this kind of energy-efficient treatment measure, fails to give full play to its heat preservation and insulation.Because in door and window, section bar and all exchange heat passage between insulated rubber strip and glass and between insulated rubber strip, when the indoor and outdoor temperature difference in passage is larger, strong heat radiation and thermal convection current can be formed, accelerate the exchange of indoor-outdoor air heat, thus reduce the heat preservation and insulation of door and window.

Summary of the invention

The utility model provides a kind of energy-saving aluminium door window frame structure for solving in known technology the technical problem that exists, and this structure is made up of sash frame, sash frame and glass three incorporating aspects; In described sash frame, glass is installed; Described sash frame comprises the indoor window frame section and outdoor window frame section that are connected by insulated rubber strip; Described sash frame comprises the indoor sash section bar and outdoor window sectional that are connected by insulated rubber strip; Be filled with heat insulating material between adjacent insulation adhesive tape, be filled with heat insulating material between described insulated rubber strip and glass, all heat insulating materials are all positioned on same isotherm.

The technical solution of the utility model is relative to door window frame structure existing in prior art, fill insulant material between insulated rubber strip and between insulated rubber strip and glass, effectively block the exchange heat passage that in window frame, each cavity is formed, reduce the heat radiation in door window frame and thermal convection current, decrease the exchange of indoor-outdoor air heat, thus improve the heat preservation and insulation of door and window.

In technique scheme of the present utility model, described heat insulating material can make as any one in expandability polyethylene (PE) foaming, polystyrene (PS) foaming, ethylene-vinyl acetate copolymer (EVA) foaming or Ethylene Propylene Terpolymer foaming.

As further improvement of the utility model, in order to increase the area of heat insulating material further, increase heat insulation effect, the surface of described heat insulating material is wavy.

Further improve as of the present utility model, after increasing described heat insulating material, overall sash frame has the architectural feature of multi-chamber.Multi-chamber structure can be realized by any one mode following, and one, in described heat insulating material, be provided with at least one chamber; Two, the cavity at its place is divided into multi-chamber structure by described heat insulating material.

Application multi-chamber low heat transfer coefficient heat insulating material, is separated into multiple closed space by hot switching path, greatly reduce gas and to flow the energy loss caused.In addition because heat radiation will pass multiple enclosure space, thermal resistance increases, and it is less that loss also can become.Thus reduce the energy loss that thermal convection current and heat radiation two kinds of modes cause to greatest extent.

Further improve as of the present utility model, described heat insulating material has independent closed bubble.

Containing 300-600 ten thousand independent closed bubbles in every cubic meter volume, the volume of contain air is more than 98%, and because the heat conductivity of air is very little, and be closed in again in foamed plastics can not convection current, so have good heat preservation and insulation.

The advantage that the utility model has and good effect are: the utility model is at section bar and insulated rubber strip, all exist fill insulant material in cavity between insulated rubber strip and glass and between insulated rubber strip, substantially reduce the strong heat radiation and thermal convection current that cause due to the indoor/outdoor temperature-difference of cavity, improve the thermal and insulating performance of door and window; The unique structural feature of heat insulating material, achieves the feasibility of processing and construction technology; And different size framework all has versatility, reduces management cost.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment one;

Fig. 2 is the structural representation of the utility model embodiment two.

In figure:

10, insulated rubber strip; 21, indoor window frame section; 22, outdoor window frame section; 31, indoor sash section bar; 32, outdoor window sectional; 50, glass; 40, heat insulating material; 41, bubble; 42, chamber.

Detailed description of the invention

In order to understand summary of the invention of the present utility model, Characteristic further, hereby exemplify following examples, and coordinate accompanying drawing to be described in detail as follows:

Embodiment one:

Refer to the structural representation that Fig. 1 is the first embodiment of the utility model, this energy-saving aluminium door window frame structure comprises sash frame, sash frame and glass 50; Glass 50 is installed in described sash frame; Described sash frame comprises the indoor window frame section 21 and outdoor window frame section 22 that are connected by insulated rubber strip 10; Described sash frame comprises the indoor sash section bar 31 and outdoor window sectional 32 that are connected by insulated rubber strip 10; Be filled with heat insulating material 40 between adjacent insulation adhesive tape 10, be filled with heat insulating material 40 between described insulated rubber strip 10 and glass 50, all heat insulating materials 40 are all positioned on same isotherm.

In the present embodiment, described heat insulating material 40 is expandability polyethylene (EPE) foaming, and in order to strengthen the energy-efficient performance of door and window further, the surface of polyethylene (EPE) foamed board is wavy; Polyethylene (EPE) foaming is bending structure, the cavity at its place is divided into seven capacitors 42.Polyethylene (EPE) foams, and every cubic meter volume is interior contains 300-600 ten thousand independent closed bubbles 41, the volume of contain air is more than 98%, because the heat conductivity of air is very little, and be closed in again in foamed plastics can not convection current, so have good heat preservation and insulation.

In technique scheme, the structure that expandability polyethylene (EPE) foams also can make the cavity at its place be slit into other shapes of multi-chamber 42 structure.

In technique scheme, expandability polyethylene (EPE) foaming also can use any one replacement in polystyrene (PS) foaming, ethylene-vinyl acetate copolymer (EVA) foaming or Ethylene Propylene Terpolymer foaming.

Embodiment two

Refer to the structural representation that Fig. 2 is the utility model the second embodiment, in this embodiment, this energy-saving aluminium door window frame structure comprises sash frame, sash frame and glass 50; Glass 50 is installed in described sash frame; Described sash frame comprises the indoor window frame section 21 and outdoor window frame section 22 that are connected by insulated rubber strip 10; Described sash frame comprises the indoor sash section bar 31 and outdoor window sectional 32 that are connected by insulated rubber strip 10; Be filled with heat insulating material 40 between adjacent insulation adhesive tape 10, be filled with heat insulating material 40 between described insulated rubber strip 10 and glass 50, all heat insulating materials 40 are all positioned on same isotherm.

In the present embodiment, described heat insulating material 40 is expandability polyethylene (EPE) foaming, and in order to strengthen the energy-efficient performance of door and window further, the surface of polyethylene (EPE) foamed board is wavy; Be provided with one to two chambers 42 in polyethylene (EPE) foaming, the cavity between adjacent insulated rubber strip 10 or the cavity between insulated rubber strip 10 and glass 50 can be divided into 3 to 4 chambers 42.Expandability polyethylene (EPE) foams, and every cubic meter volume is interior contains 300-600 ten thousand independent closed bubbles 41, the volume of contain air is more than 98%, because the heat conductivity of air is very little, and be closed in again in foamed plastics can not convection current, so have good heat preservation and insulation.

In technique scheme, expandability polyethylene (EPE) foaming also can use any one replacement in polystyrene (PS) foaming, ethylene-vinyl acetate copolymer (EVA) foaming or Ethylene Propylene Terpolymer foaming.

Above an embodiment of the present utility model has been described in detail, but described content being only preferred embodiment of the present utility model, can not being considered to for limiting practical range of the present utility model.All equalizations done according to the utility model application range change and improve, and all should still belong within patent covering scope of the present utility model.

Claims (6)

1. an energy-saving aluminium door window frame structure, is characterized in that: comprise sash frame, sash frame and be arranged on the glass (50) in sash frame; Described sash frame comprises the indoor window frame section (21) and outdoor window frame section (22) that are connected by insulated rubber strip (10); Described sash frame comprises the indoor sash section bar (31) and outdoor window sectional (32) that are connected by insulated rubber strip (10); Heat insulating material (40) is filled with between adjacent insulation adhesive tape (10), be filled with heat insulating material (40) between described insulated rubber strip (10) and glass (50), and all heat insulating materials (40) are all positioned on same isotherm.

2. a kind of energy-saving aluminium door window frame structure according to claim 1, is characterized in that: described heat insulating material (40) is expandability polyethylene foam, one in the foaming of foamed polystyrene, ethylene-vinyl acetate copolymer foamed or Ethylene Propylene Terpolymer.

3. a kind of energy-saving aluminium door window frame structure according to claim 1, is characterized in that: the surface of described heat insulating material (40) is wavy.

4. a kind of energy-saving aluminium door window frame structure according to claim 1, is characterized in that: have independent closed bubble (41) in described heat insulating material (40).

5. a kind of energy-saving aluminium door window frame structure according to any one of Claims 1-4, is characterized in that: be provided with at least one chamber (42) in described heat insulating material.

6. a kind of energy-saving aluminium door window frame structure according to any one of Claims 1-4, is characterized in that: the cavity at its place is divided into multi-chamber structure by described heat insulating material (40).