CN202467526U - Thermal-insulation aluminium alloy push-and-pull energy-saving door window - Google Patents

Abstract

The utility model discloses a push-pull energy-saving door and window made of heat-insulating aluminum alloy. Composed of aluminum profiles and heat insulation strips; the left frame and right frame are connected with the indoor door and window sash and the outdoor door and window sash respectively by the fixed block of the transmission groove aluminum and the transmission groove aluminum, and a handle driver with a handle is installed in the transmission groove aluminum ; On the upper frame and the lower frame, there are two raised cavity B and raised cavity C respectively matched with the upper frame and the lower frame of the indoor door and window sash and the outdoor door and window sash, and the indoor door and window sash and the outdoor door and window The upper end of the fan is installed in the two raised cavity B of the upper frame, and the lower end is placed on the "R" type guide rail installed in the raised cavity C by the installed load-bearing pulley; The left end and the right end are respectively sealed by the wool top, the upper frame, the lower frame, the left frame and the right frame. The utility model has good thermal insulation and sealing performance, high watertightness and airtightness performance, convenient use, low noise and energy saving.

Description

A heat-insulating aluminum alloy push-pull energy-saving door and window

technical field

The utility model belongs to a building door and window system and relates to a push-pull energy-saving door and window.

Background technique

At present, in building doors and windows, especially sliding doors and windows, because of its simple structure and convenient use, it is liked by users. But there are many deficiencies in existing sliding doors and windows: 1. The vast majority of frame materials are aluminum profiles without heat insulation, which have poor thermal performance, serious heat loss, and poor thermal insulation effect. 2. Single-channel sealing is mostly used, which has poor sealing effect, poor waterproof and windproof performance. Also some sliding doors and windows are all sealed with rubber strips, which has the problem of difficulty in pushing and pulling, which reduces the service life of the door. 3. Most of the "V" track is used to push and pull, and most of them are made of aluminum alloy. Not only are the pulleys and tracks easy to fall off during use, but also the material of the pulleys rubs against the aluminum track, which is prone to noise pollution.

Utility model content

The purpose of this utility model is to solve the above-mentioned problems in the prior art, and provide a heat-insulating aluminum alloy push-pull energy-saving door and window with good thermal insulation and sealing performance, high water-tight and air-tight performance, easy to use, and low noise.

In order to achieve the above purpose, the technical solution of the utility model is: a heat-insulating aluminum alloy push-pull energy-saving door and window, which includes a door and window frame, an indoor door and window fan and an outdoor door and window fan; the door and window frame is composed of an upper frame, a lower frame, a left frame and a right frame. Frame composition, indoor door and window sashes and outdoor door and window sashes respectively include upper fan frame, lower fan frame, left fan frame, right fan frame, buckle and insulating glass; upper frame, lower frame, left frame, right frame, upper fan frame, The lower sash frame, left sash frame and right sash frame are respectively composed of indoor aluminum profiles, outdoor aluminum profiles and heat insulation strips; On the left frame and the left frame of the outdoor door and window sash, on the right frame and on the right frame of the indoor door and window sash, there is a raised cavity A at one end, and the other end is a plane, and the protrusions on the left and right frames The fixed blocks of transmission groove aluminum are respectively installed in the cavity A, and the fixed left and right fan frames are respectively installed with transmission groove aluminum. The handle driver is installed in the transmission groove aluminum, and the handle is installed on the handle driver. , the two protruding cavities A are respectively sealed with the fixed left or right fan frame by wool strips; the right fan frame and the left fan frame or the left fan frame and the right fan frame at the junction of the indoor door and window sashes and outdoor door and window sashes Limiting plate I and limiting plate II are respectively arranged on the contacting surfaces of the fan frames; on the upper frame, there are two convex-shaped ones that match the upper fan frames of the indoor door and window sashes and the outdoor door and window sashes respectively. Cavity B, between the two protruding cavities B, there is a groove at the lower end of the heat insulation strip of the upper frame, and an anti-theft sealing block with a brush is installed in the groove, and the upper frame and the upper frame of the indoor door leaf and the outdoor door leaf The two protruding cavities B are sealed by wool strips; there are two protruding cavities C on the lower frame that match the lower frame of the indoor door leaf and the outdoor door leaf respectively, between the two protruding cavities C, the lower There is a groove at the lower end of the heat insulation strip of the frame, and wool strips are used to seal between the lower frame of the indoor door and window sash and the two raised cavities C of the lower frame; there are "R" on the two raised cavities C respectively. " type guide rail groove, there is a pulley seat groove at the position corresponding to the lower frame of the indoor door and window sash and the outdoor door and window sash, the pulley seat groove is installed with a pulley seat, and a load-bearing pulley is installed in the pulley seat, and the "R" type guide rail groove is installed There are heat-insulating "R"-shaped guide rails that match the load-bearing pulleys, and the load-bearing pulleys are placed on the heat-insulated "R"-shaped guide rails; the hollow glass is installed on the upper and lower frames of the indoor and outdoor doors and windows respectively. Between the fan frame and the right fan frame, the indoor side is pressed and fixed by the buckle; the buckle is provided with a bayonet, and the indoor side where the upper fan frame, the lower fan frame, the left fan frame and the right fan frame meet the buckle The profile is provided with a card slot that matches the bayonet, and the bayonet of the buckle is snapped and fixed in the slots of the upper fan frame, the lower fan frame, the left fan frame and the right fan frame; between the insulating glass and the buckle bar is a The inner sealing strip is sealed and fixed, and the insulating glass and the upper fan frame, lower fan frame, left fan frame and right fan frame are respectively sealed and fixed by outer sealing rubber strips.

Between the two raised cavities C, a U"-shaped heat insulation board is installed in the groove provided at the lower end of the heat insulation strip of the lower frame.

An L-shaped heat-insulating plastic plate is installed between the heat-insulation strips of the left frame and the right frame and the raised cavity A thereon.

Aluminum alloy fan cover plates are installed on the outside of the right frame of the indoor door and window sash and the left fan frame of the outdoor door and window sash or the left fan frame of the indoor door and window sash and the right fan frame of the outdoor door and window sash.

The upper frame, the lower frame, the left frame, the right frame, the upper fan frame, the lower fan frame, the left fan frame and the right fan frame of the sliding door and window of the utility model are respectively composed of indoor aluminum profiles, outdoor aluminum profiles and heat insulation strips. Compared with similar products, the unique three-cavity structure design greatly improves the thermal insulation performance of sliding doors and windows; the utility model uses sealing wool strips for double-channel sealing, which ensures the service life while enhancing the sealing, waterproof and dustproof performance ;Adopt heat-insulated "R" type guide rail, which has a better cooperation with load-bearing pulleys, is not easy to detach from the track, and reduces noise. In a word, the utility model has good thermal insulation and sealing performance, high watertight and airtight performance, convenient use, low noise and energy saving.

Description of drawings

Fig. 1 is the front view of the indoor side when the utility model is closed;

Fig. 2 is the AA sectional view of Fig. 1;

Fig. 3 is the front view of the indoor side when the utility model is opened to the left end;

Fig. 4 is a BB sectional view of Fig. 3 .

Detailed ways

Below in conjunction with accompanying drawing and specific embodiment the utility model is described further.

As shown in FIG. 1 , FIG. 2 , FIG. 3 and FIG. 4 , the sliding door and window of this embodiment includes a door and window frame 1 , an indoor window leaf 11 and an outdoor door and window leaf 12 . Door and window frame 1 is made up of upper frame 4, lower frame 5, left frame 6 and right frame 7, and indoor door and window sash 11 and outdoor door and window sash 12 comprise upper sash frame 2, 2', lower sash frame 23, 23', left sash respectively. Frames 8, 20, right fan frame 8'20' buckle 9 and insulating glass 3. The upper frame 4, the lower frame 5, the left frame 6, the right frame 7, the upper fan frame 2, 2', the lower fan frame 23, 23', the left fan frame 8, 20 and the right fan frame 8', 20' respectively by indoor Aluminum profiles, outdoor aluminum profiles and heat insulation strips 13 are formed. On the left frame 6 and the left frame 8 of the indoor door and window 11, on the right frame 7 and the right frame 20' of the outdoor door 12, there is a raised cavity A14 at one end, and the other end is a plane, on the left frame 6 The fixed block 36 of the transmission groove aluminum is respectively installed in the convex cavity A14 on the right frame 7, and the left fan frame 8 and the right fan frame 20' fixed with it are equipped with the transmission groove aluminum 21 respectively, and the transmission groove aluminum 21 is installed There is a handle driver 37, and a handle 39 is installed on the handle driver. An L-shaped heat-insulating plastic plate 27 is installed between the heat-insulating strips 13 of the left frame 6 and the right frame 7 and the raised cavity A14 thereon. The wool strips 38 are used to seal the two protruding cavities A14 and their fixed left fan frame 8 or right fan frame 20 ′ respectively. On the surfaces where the indoor door and window sash 11 and the outdoor door and window sash 12 meet, the right sash 8' and the left sash 20 are respectively provided with a limiting plate I34 and a limiting plate II35 which limit each other. Aluminum alloy fan cover plate 10 is equipped with the outside of the right fan frame 8 ' of indoor door and window sash and the left fan frame 20 of outdoor door and window sash respectively. On the upper frame 4 there are two raised cavities B15 respectively matched with the upper frames 2, 2' of the indoor door leaf 11 and the outdoor door leaf 12, between the two raised cavities B15, the heat insulation of the upper frame 4 The lower end of the bar 13 is provided with a groove 16, and an anti-theft sealing block 29 with a brush 28 is installed in the groove 16. Between the upper fan frame 2, 2' of the indoor door and window sash 11 and the outdoor door and window sash 12 and the two convex cavity B15 of the upper frame 4, it is sealed by wool top 38. There are two raised cavities C17 on the lower frame 5 that match the lower frames 23, 23' of the indoor and outdoor doors and windows respectively. Between the two raised cavities C17, the heat insulation strip of the lower frame 5 The lower end of 13 is provided with a groove 19, and a U"-shaped heat insulation board 32 is installed in the groove 19. The lower frame 23, 23' of the indoor door and window sash 11 and the outdoor door and window sash 12 and the two raised cavities C17 of the lower frame 5 The gaps are sealed by wool strips 38. There are "R" type guide rail grooves 18 on the two raised cavities C17, and there are pulley seats at the positions corresponding to the lower frames 23, 23' of the indoor door and window sash 11 and the outdoor door and window sash 12. Groove, the pulley seat groove is equipped with a pulley seat 24, a load-bearing pulley 25 is installed in the pulley seat 24, and a heat-insulating "R"-shaped guide rail 26 matching the load-bearing pulley 25 is installed in the "R" type guide rail groove 18, and the load-bearing pulley 25 Placed on the heat-insulating "R"-shaped guide rail 26. The insulating glass 3 is installed on the upper sash 2, 2', lower sash 23, 23', left sash 8, 20 of the indoor door and window sash 11 and the outdoor door and window sash 12 respectively and the right fan frame 8', 20', the indoor side is pressed and fixed by the buckle 9. The buckle 9 is provided with a bayonet 33, the upper fan frame 2, 2', the lower fan frame 23, 23', the left fan Frames 8, 20 and right sash frames 8', 20' are provided with slots matching bayonet sockets 33 on the indoor profile where the buckle strips 9 meet, and the bayonet sockets 33 of the buckle strips 9 are fastened to the upper fan Frames 2, 2', lower sash frames 23, 23', left sash frames 8, 20 and right sash frames 8', 20'. The space between the insulating glass 3 and the buckle 9 is sealed by an inner sealing strip 30 Fixed, the insulating glass 3 and the upper fan frame 2, 2', the lower fan frame 23, 23', the left fan frame 8, 20 and the right fan frame 8', 20' are sealed and fixed by the outer sealing strip 31 respectively.

Of course, the utility model also has other various embodiments, and those skilled in the art can make corresponding changes and deformations according to the utility model without violating the spirit and essence of the utility model, but these corresponding changes and All deformations should belong to the improvement of equivalent technology, and belong to the protection scope of the claims of the utility model.

Claims (5)

1. heat-insulation aluminium alloy push-pull energy-saving door and window, it comprises doorframe and window frame, interior door sash and exterior door sash; Doorframe and window frame is made up of upper ledge, lower frame, left frame and right frame, and interior door sash and exterior door sash comprise fan frame, lower casement frame, left side fan frame, right wing frame, profile and hollow glass respectively; It is characterized in that: upper ledge, lower frame, left frame, right frame, on fan frame, lower casement frame, left side fan frame and right wing frame and form by indoor aluminium extruded sections, outdoor aluminium extruded sections and heat insulating strip respectively; On the left frame with the left side of indoor door leaf fan frame, right frame on the right wing frame of exterior door sash or on the left frame with the left side fan frame of exterior door sash, right frame on the end that fixes with the right wing frame of interior door sash protruding die cavity A is arranged; The other end is the plane; Be separately installed with the fixed block of driving groove aluminium in the protruding die cavity A on left frame and right frame; Be separately installed with driving groove aluminium with its fixing left side fan frame and right wing frame; The handle driver is installed in the driving groove aluminium, on the handle driver handle is installed, two protruding die cavity A respectively and and its fixing left side fan frame or right wing frame between seal by wool top; On contacted of the right wing frame of interior door sash and exterior door sash joint and left side fan frame or left side fan frame and right wing frame, be respectively arranged with mutual spacing limiting plate I and limiting plate II; There are being two to fan the protruding die cavity B that frame is complementary respectively with on interior door sash and the exterior door sash on the upper ledge; Between two protruding die cavity B, the heat insulating strip lower end of upper ledge is provided with groove; Be equipped with the anti-theft sealing piece of band hairbrush in the groove, seal by wool top between the two protruding die cavity B that go up fan frame and upper ledge of indoor door leaf and outdoor door leaf; Two protruding die cavity C that are complementary with the lower casement frame of indoor door leaf and outdoor door leaf are respectively arranged on lower frame; Between two protruding die cavity C, the heat insulating strip lower end of lower frame is provided with groove, seal by wool top between the two protruding die cavity C of the lower casement frame of interior door sash and exterior door sash and lower frame; " R " type guide-track groove is arranged respectively on two protruding die cavity C; There is the pulley base groove the corresponding position of lower casement frame at interior door sash and exterior door sash; The pulley base groove is equipped with pulley base; The load-bearing pulley is installed in the pulley base, heat insulation " R " type guide rail that is complementary with the load-bearing pulley is installed in " R " type guide-track groove, the load-bearing pulley places on heat insulation " R " type guide rail; Hollow glass is installed in going up between fan frame, lower casement frame, left side fan frame and the right wing frame of interior door sash and exterior door sash respectively, and the indoor is fixed by profile; Profile is provided with bayonet socket, on fan frame, lower casement frame, left side fan frame and right wing frame and profile joint the indoor section bar be provided with the draw-in groove that is complementary with bayonet socket, the bayonet socket of profile is fixed in fan frame, lower casement frame, the left draw-in groove of fanning frame and right wing frame; By interior sealing joint strip sealing and fixing, fix by the external seal adhesive tape sealing respectively between hollow glass and last fan frame, lower casement frame, left side fan frame and the right wing frame between hollow glass and the profile.

2. heat-insulation aluminium alloy push-pull energy-saving door and window according to claim 1 is characterized in that: between described two protruding die cavity C, in the groove that is provided with of the heat insulating strip lower end of lower frame, be equipped with U " the type insulating board.

3. according to claim 1 or 2 described heat-insulation aluminium alloy push-pull energy-saving door and windows, it is characterized in that: between the heat insulating strip of described left frame and right frame and the protruding die cavity A on it, L shaped heatpiston's plate is installed.

4. heat-insulation aluminium alloy push-pull energy-saving door and window according to claim 3 is characterized in that: the right wing frame outside of fan frame and exterior door sash is equipped with aluminium alloys respectively and is fanned cover plate on the left side of the left side of the right wing frame of described interior door sash and exterior door sash fan frame or interior door sash.

5. according to claim 1 or 2 described heat-insulation aluminium alloy push-pull energy-saving door and windows, it is characterized in that: the right wing frame outside of fan frame and exterior door sash is equipped with aluminium alloys respectively and is fanned cover plate on the left side of the left side of the right wing frame of described interior door sash and exterior door sash fan frame or interior door sash.

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