CN203822090U - Thermal insulation bridge-cutoff aluminum alloy section door and window - Google Patents

Abstract

The utility model belongs to the technical field of aluminum alloy section doors and windows and particularly relates to a thermal insulation bridge-cutoff aluminum alloy section door and window. A flexible thermal insulation filler strip is arranged in a containing cavity defined jointly by a glazing bead, an indoor aluminum alloy section, a second thermal insulation strip and an outdoor aluminum alloy section. The flexible thermal insulation filler strip is located between the edge of glass and the second thermal insulation strip. The flexible thermal insulation filler strip is connected with the indoor aluminum alloy section and the outdoor aluminum alloy section in a bonding mode or in a compressive deformation clamping mode. The side face, close to the edge of the glass, of the flexible thermal insulation filler strip is provided with a clamping groove used for being connected with the edge of the glass in a clamping mode. Due to the fact that the flexible thermal insulation filler strip is connected with the indoor aluminum alloy section and the outdoor aluminum alloy section in the bonding mode or in the compressive deformation clamping mode, the flexible thermal insulation filler strip can be prevented from falling off; meanwhile, the sealing connection performance between the flexible thermal insulation filler strip and the glass and between the flexible thermal insulation filler strip and the aluminum alloy sections is enhanced, and the heat preservation performance is improved.

Description

A kind of heat-insulation broken bridge type aluminum alloy section bar door and window

Technical field

The utility model belongs to aluminium alloy extrusions window technology field, relates in particular to a kind of heat-insulation broken bridge type aluminum alloy section bar door and window.

Background technology

Current advocating with energy-saving and cost-reducing, low-carbon environment-friendly material built energy saving building, conventional energy saving building material has aluminium alloy extrusions, plastic-steel section bar, at present, constructional materials first-selected on market is aluminium alloy extrusions, in order to improve the heat-insulating property of aluminium alloy extrusions, the most frequently used is penetrating bar type heat-insulating bridge-cut-off aluminium alloy extrusions and pouring-type heat-insulation bridge-cut-off aluminium alloy.

Pouring-type heat-insulation bridge-cut-off aluminium alloy is that the material with heat-proof quality is injected in the pouring basin of aluminium alloy extrusions in liquid mode, after heat-barrier material solidifies, aluminium alloy extrusions is bonded together and to be made, because the linear expansion coeffcient of bi-material is different, exist and easily to come off and the feature such as mechanical behavior under high temperature bust, the more difficult control of quality, and cost of production is higher, so occupation rate of market is less; Penetrating bar type heat-insulating bridge-cut-off aluminium alloy extrusions is by tooth punching, wears the operations such as bar, roll extrusion and the heat insulating strip of being made by heat-barrier material (conventional for PA66) is penetrated to wearing in bar notch of aluminium alloy extrusions be made, due to the firm interlock heat insulating strip of aluminium alloy extrusions, penetrating bar type heat-insulating bridge-cut-off aluminium alloy extrusions is used solid and reliable, so penetrating bar type heat-insulating bridge-cut-off aluminium alloy extrusions becomes the higher energy saving building material of occupation rate on market.

At present, between the glass of conventional heat-insulation broken bridge type aluminum alloy section bar door and window and doorframe and window frame, be provided with flexible heat insulation filler strip, play on the one hand load-bearing, can avoid on the other hand glass edge to contact with aluminium alloy extrusions and damage glass, the main deficiency that this structure exists is: flexible heat insulation filler strip is easy to come off; And glass edge directly contact with flexible heat insulation filler strip be connected, flexible heat insulation filler strip directly contacts with aluminium alloy extrusions again, do not take any seal approach, causes poor sealing performance, affected the heat insulation effect of door and window.

Utility model content

The technical problems to be solved in the utility model is: a kind of heat-insulation broken bridge type aluminum alloy section bar door and window is provided, can avoid flexible heat insulation filler strip to come off, strengthen the performance that is tightly connected between flexible heat insulation filler strip and glass, flexible heat insulation filler strip and aluminium alloy extrusions simultaneously, improved the heat-insulating property of heat-insulation broken bridge type aluminum alloy section bar door and window.

The utility model is to realize like this, a kind of heat-insulation broken bridge type aluminum alloy section bar door and window, described heat-insulation broken bridge type aluminum alloy section bar door and window comprises: indoor aluminium alloy extrusions, outside aluminium alloy extrusions, offer respectively the groove extending along its length on described indoor aluminium alloy extrusions, outside aluminium alloy extrusions; The first heat insulating strip and the second heat insulating strip that connect respectively described indoor aluminium alloy extrusions, outside aluminium alloy extrusions, described indoor aluminium alloy extrusions, outside aluminium alloy extrusions, the first heat insulating strip and the second heat insulating strip surround a cavity jointly; In a side of described indoor aluminium alloy extrusions, aluminium alloy extrusions place, corresponding described outside is connected with glazing bead, and described glazing bead, indoor aluminium alloy extrusions, the second heat insulating strip and outside aluminium alloy extrusions surround accommodating cavity jointly; Glass, the edge of described glass inserts in described accommodating cavity;

In described accommodating cavity, be provided with flexible heat insulation filler strip, the heat insulation filler strip of described flexibility is between the edge and described the second heat insulating strip of described glass, the heat insulation filler strip of described flexibility is connected or compressive strain clamping connects with described indoor aluminium alloy extrusions, outside aluminium alloy extrusions are bonding respectively, and on the heat insulation filler strip of described flexibility, corresponding described glass edge place is provided with the draw-in groove for glass edge described in clamping.

As a kind of improvement, in the cavity jointly being surrounded by described indoor aluminium alloy extrusions, outside aluminium alloy extrusions, the first heat insulating strip and the second heat insulating strip, be filled with heat insulation packing.

As further improvement, described heat insulation packing is connected with the inner side of described the first heat insulating strip and/or the interior side bonds of described the second heat insulating strip.

The heat-insulation broken bridge type aluminum alloy section bar door and window that the utility model provides, in the accommodating cavity jointly being surrounded by glazing bead, indoor aluminium alloy extrusions, the second heat insulating strip and outside aluminium alloy extrusions, be provided with flexible heat insulation filler strip, the heat insulation filler strip of this flexibility is between the edge and the second heat insulating strip of glass, the heat insulation filler strip of this flexibility is connected with indoor aluminium alloy extrusions, outside aluminium alloy extrusions clamping respectively, and the heat insulation filler strip of this flexibility is provided with the draw-in groove for clamping glass edge near a side of glass edge; Owing to having adopted technique scheme, during use, because the heat insulation filler strip of flexibility and indoor aluminium alloy extrusions, outside aluminium alloy extrusions firmly link together, can prevent that flexible heat insulation filler strip from coming off; Flexible heat insulation filler strip is connected with indoor aluminium alloy extrusions, outside aluminium alloy extrusions, strengthened the sealing performance of indoor aluminium alloy extrusions and aluminium alloy extrusions junction, outside, flexible heat insulation filler strip is provided with the draw-in groove for clamping glass edge, mounting glass simply and rapidly, flexible heat insulation filler strip and glass capsulation switching performance have been strengthened simultaneously, can reduce atmosphere because of advection heat and the thermogenetic thermal loss of radiation, improve the heat-insulating property of aluminium alloy extrusions.

Accompanying drawing explanation

Fig. 1 is the cross-sectional structure schematic diagram of the heat-insulation broken bridge type aluminum alloy section bar door and window of the utility model the first embodiment;

Fig. 2 is the cross-sectional structure schematic diagram of the heat-insulation broken bridge type aluminum alloy section bar door and window of the utility model the second embodiment;

Wherein, 10, indoor aluminium alloy extrusions, 11, outside aluminium alloy extrusions, the 12, first heat insulating strip, the 13, second heat insulating strip, 14, glazing bead, 15, glass, 16, flexible heat insulation filler strip, 161, draw-in groove, 17, heat insulation packing.

The specific embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Fig. 1, Fig. 2 are the structural representations of heat-insulation broken bridge type aluminum alloy section bar door and window of the present utility model, and wherein, Fig. 1 shows the cross-sectional structure schematic diagram of the heat-insulation broken bridge type aluminum alloy section bar door and window of the utility model the first embodiment; Fig. 2 shows the cross-sectional structure schematic diagram of the heat-insulation broken bridge type aluminum alloy section bar door and window of the utility model the second embodiment.

The first embodiment

As shown in Figure 1, this heat-insulation broken bridge type aluminum alloy section bar door and window comprises: indoor aluminium alloy extrusions 10, outside aluminium alloy extrusions 11, offer respectively the groove extending along its length on this indoor aluminium alloy extrusions 10, outside aluminium alloy extrusions 11, the first heat insulating strip 12 and second heat insulating strip 13 of aluminium alloy extrusions 10, outside aluminium alloy extrusions 11 inside difference junction chamber, this first heat insulating strip 12, the second heat insulating strip 13 are made by heat-barrier material, conventional heat-barrier material is PA66, can certainly be to be made by other material, this indoor aluminium alloy extrusions 10, outside aluminium alloy extrusions 11, the first heat insulating strip 12 and the second heat insulating strip 13 surround a cavity jointly, in a side of indoor aluminium alloy extrusions 10, outside respective chamber/chambers, aluminium alloy extrusions 11 places are connected with glazing bead 14, this glazing bead 14 can be made by aluminium alloy extrusions, can certainly be made by PVC plastics, can certainly be made by other heat-barrier material the accommodating cavity that this glazing bead 14, indoor aluminium alloy extrusions 10, the second heat insulating strip 13 and outside aluminium alloy extrusions 11 surround jointly, glass 15, the edge of this glass 15 inserts in accommodating cavity, in accommodating cavity, be provided with flexible heat insulation filler strip 16, the heat insulation filler strip 16 of this flexibility is made by expanded material, the heat insulation filler strip 16 of this flexibility is between the edge and the second heat insulating strip 13 of glass 15, the heat insulation filler strip 16 of this flexibility is near indoor aluminium alloy extrusions 10, one side of outside aluminium alloy extrusions 11 respectively with indoor aluminium alloy extrusions 10, the bonding connection of outside aluminium alloy extrusions 11 or compressive strain clamping connect, a side near glass 15 edges on the heat insulation filler strip 16 of this flexibility is provided with the draw-in groove 161 for clamping glass 15 edges, glass 15 edges and draw-in groove 161 closely cooperate, in actual production installation process, the undersized of draw-in groove 161 is in the thickness of glass 15, glass 15 edges snap in draw-in groove 161 and can cause when interior draw-in groove 161 to produce slight distortion like this, glass 15 edges are convenient to draw-in groove 161 and are linked together closely like this.

During use, because the heat insulation filler strip 16 of flexibility and indoor aluminium alloy extrusions 10, outside aluminium alloy extrusions 11 are bonding, be connected or compressive strain clamping connects, can prevent that flexible heat insulation filler strip from coming off; Flexible heat insulation filler strip 16 is connected with indoor aluminium alloy extrusions 10, outside aluminium alloy extrusions 11, strengthened the sealing performance of indoor aluminium alloy extrusions 10 with outside aluminium alloy extrusions 11 junctions, flexible heat insulation filler strip 16 is provided with the draw-in groove 161 for clamping glass 15 edges, mounting glass 15 simply and rapidly, strengthened flexible heat insulation filler strip 16 and glass 15 performance that is tightly connected simultaneously, can reduce atmosphere because of advection heat and the thermogenetic thermal loss of radiation, improve the heat-insulating property of aluminium alloy extrusions.

In the present embodiment, glass 15, for the double-deck hollow glass bonding together, can certainly be three layers of hollow glass bonding together, and can improve the heat-insulating property of aluminium alloy extrusions door and window.

The second embodiment

As shown in Figure 2, this embodiment and the first embodiment are basic identical, and its difference is:

In the cavity jointly being surrounded by indoor aluminium alloy extrusions 10, outside aluminium alloy extrusions 11, the first heat insulating strip 12 and the second heat insulating strip 13, be filled with heat insulation packing 17, this heat insulation packing 17 is connected with the interior side bonds of the first heat insulating strip 12 and/or the second heat insulating strip 13, and this heat insulation packing 17 is made by expanded material.Like this cavity is filled, can intercept the interior generation of cavity cross-ventilation heat and radiant heat and cause thermal loss, improved heat insulation effect.

The heat-insulation broken bridge type aluminum alloy section bar door and window that the utility model provides comprises: the first heat insulating strip, second heat insulating strip of aluminium alloy extrusions and outside aluminium alloy extrusions inside indoor aluminium alloy extrusions, outside aluminium alloy extrusions and difference junction chamber, and this indoor aluminium alloy extrusions, outside aluminium alloy extrusions, the first heat insulating strip and the second heat insulating strip surround a cavity jointly; In a side of indoor aluminium alloy extrusions, outside respective chamber/chambers, aluminium alloy extrusions place is connected with glazing bead, the accommodating cavity that this glazing bead, indoor aluminium alloy extrusions, the second heat insulating strip and outside aluminium alloy extrusions surround jointly; Glass, the edge of this glass inserts in accommodating cavity; In accommodating cavity, be provided with flexible heat insulation filler strip, the heat insulation filler strip of this flexibility is between the edge and the second heat insulating strip of glass, the heat insulation filler strip of this flexibility and indoor aluminium alloy extrusions, outside aluminium alloy extrusions be bonding to be connected or compressive strain clamping connects, and the side near glass edge on the heat insulation filler strip of this flexibility is provided with the draw-in groove for clamping glass edge; During use, because the heat insulation filler strip of flexibility and indoor aluminium alloy extrusions, outside aluminium alloy extrusions are bonding, be connected or compressive strain clamping connects, can prevent that flexible heat insulation filler strip from coming off; Flexible heat insulation filler strip is connected with indoor aluminium alloy extrusions, outside aluminium alloy extrusions, strengthened the sealing performance of indoor aluminium alloy extrusions and aluminium alloy extrusions junction, outside, flexible heat insulation filler strip is provided with the draw-in groove for clamping glass edge, mounting glass simply and rapidly, flexible heat insulation filler strip and glass capsulation switching performance have been strengthened simultaneously, can reduce atmosphere because of advection heat and the thermogenetic thermal loss of radiation, improve the heat-insulating property of aluminium alloy extrusions.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.

Claims (3)

1. a heat-insulation broken bridge type aluminum alloy section bar door and window, comprising: indoor aluminium alloy extrusions, outside aluminium alloy extrusions, offer respectively the groove extending along its length on described indoor aluminium alloy extrusions, outside aluminium alloy extrusions; The first heat insulating strip and the second heat insulating strip that connect respectively described indoor aluminium alloy extrusions, outside aluminium alloy extrusions, described indoor aluminium alloy extrusions, outside aluminium alloy extrusions, the first heat insulating strip and the second heat insulating strip surround a cavity jointly; In a side of described indoor aluminium alloy extrusions, aluminium alloy extrusions place, corresponding described outside is connected with glazing bead, and described glazing bead, indoor aluminium alloy extrusions, the second heat insulating strip and outside aluminium alloy extrusions surround accommodating cavity jointly; Glass, the edge of described glass inserts in described accommodating cavity; It is characterized in that:

In described accommodating cavity, be provided with flexible heat insulation filler strip, the heat insulation filler strip of described flexibility is between the edge and described the second heat insulating strip of described glass, the heat insulation filler strip of described flexibility is connected or compressive strain clamping connects with described indoor aluminium alloy extrusions, outside aluminium alloy extrusions are bonding respectively, and on the heat insulation filler strip of described flexibility, corresponding described glass edge place is provided with the draw-in groove for glass edge described in clamping.

2. heat-insulation broken bridge type aluminum alloy section bar door and window according to claim 1, is characterized in that, is filled with heat insulation packing in described cavity.

3. heat-insulation broken bridge type aluminum alloy section bar door and window according to claim 2, is characterized in that, described heat insulation packing is connected with the inner side of described the first heat insulating strip and/or the interior side bonds of described the second heat insulating strip.