CN214786850U - Thermal insulation door and window with nylon heat insulator - Google Patents

Abstract

The application relates to a heat-insulating door and window with a nylon heat insulator, which belongs to the field of door and window and comprises a frame body, wherein a vertical beam is arranged in the frame body, one inner side wall of the vertical frame body is hinged with a window sash, and a first glass plate is arranged in the window sash; a second glass plate and a third glass plate which are parallel to each other are arranged on one side, away from the window sash, of the vertical beam in the frame body, and the second glass plate and the third glass plate in the frame body are arranged in a vacuum mode; the second glass plate and the third glass plate are also provided with a first rubber ring, and the first rubber ring is arranged along the edge of the second glass plate; a placing groove is formed in one side wall of the frame body parallel to the second glass plate, and a first nylon heat insulation ring is arranged in the placing groove of the frame body. Reduce the volume of aluminum alloy through the standing groove, reduce the effect of aluminum alloy heat conduction, the heat-insulating circle of first nylon that the standing groove of framework is embedded to be established reduces thermal transmission, improves the heat preservation effect. This application has the heat retaining effect of improvement.

Description

Thermal insulation door and window with nylon heat insulator

Technical Field

The application relates to the field of doors and windows, in particular to a heat-preservation door and window with a nylon heat insulator.

Background

The existing doors and windows are important building components in home life, and comprise wood doors and windows, plastic-steel doors and windows, aluminum alloy doors and windows and the like. The door and window has the advantages of water resistance, fire resistance, heat insulation, noise isolation, heat preservation and the like. The aluminum alloy door and window has the characteristics of long service life, wear resistance and low cost, is convenient to process and can be manufactured into various shapes. The good-quality family can select beautiful doors and windows and further improve the beauty of the family.

In the related art: the aluminum alloy door and window comprises a window sash, wherein a first glass plate is arranged in the window sash, a frame body is hinged in the window sash, and a second glass plate is arranged in the frame body. And turning the frame body, wherein the frame body drives the second glass plate to turn together.

In view of the above-mentioned related art, the inventor believes that there is a defect that the aluminum alloy doors and windows have poor heat insulation performance due to the characteristics of the materials, resulting in poor heat insulation effect.

SUMMERY OF THE UTILITY MODEL

In order to improve the heat preservation effect, this application provides a heat preservation door and window with nylon insulator.

The application provides a pair of heat preservation door and window with nylon insulator adopts following technical scheme:

a heat-insulating door and window with a nylon heat insulator comprises a frame body, wherein a vertical beam is arranged in the frame body, one inner side wall of the vertical frame body is hinged with a window sash, and a first glass plate is arranged in the window sash; a second glass plate and a third glass plate which are parallel to each other are arranged on one side, away from the window sash, of the vertical beam in the frame body, and the second glass plate and the third glass plate in the frame body are arranged in a vacuum mode; the second glass plate and the third glass plate are also provided with a first rubber ring, and the first rubber ring is arranged along the edge of the second glass plate; a placing groove is formed in one side wall of the frame body parallel to the second glass plate, and a first nylon heat insulation ring is arranged in the placing groove of the frame body.

By adopting the technical scheme, the volume of the aluminum alloy is reduced through the placing groove, the heat conduction effect of the aluminum alloy is reduced, the first nylon heat insulation ring embedded in the placing groove of the frame body reduces the heat transfer, and the heat insulation effect is improved; the second glass plate and the third glass plate are insulated from air in vacuum, and heat conduction is reduced. The first rubber ring is used for enhancing the sealing property between the second glass plate and the third glass plate, and meanwhile, the first rubber ring is good in heat insulation property, so that the heat insulation effect is further improved.

Optionally, a cover plate is embedded in the placement groove of the frame body, a fixing bolt penetrates through the cover plate, and the fixing bolt penetrates through the first nylon heat insulation ring and is in threaded connection with the frame body.

Through adopting above-mentioned technical scheme, twist fixing bolt behind the apron lock and fix apron and framework, first nylon heat insulating ring is located the framework. The apron blocks the thermal-insulated circle of first nylon, reduces the thermal-insulated possibility that encloses and drop of first nylon when improving pleasing to the eye degree. When first nylon heat insulating ring need be changed or need not use, twist off fixing bolt and take off first nylon heat insulating ring after taking off the apron, make things convenient for artifical the dismantlement.

Optionally, the first rubber ring is respectively provided with a clamping groove towards two sides of the second glass plate and the third glass plate, and a second nylon heat insulation ring is embedded in each of the two clamping grooves.

Through adopting above-mentioned technical scheme, the thermal-insulated circle joint of second nylon is in first rubber circle, and the thermal conductivity effect of second nylon thermal-insulated circle reduction rubber circle further reduces the heat conduction between second glass board and the third glass board, improves the heat preservation effect.

Optionally, rib plates are respectively arranged at corners of the inner side wall of the first rubber ring.

Through adopting above-mentioned technical scheme, support through the floor, reduce the intensity that strengthens first rubber circle, reduce the possibility that first rubber circle warp and drop.

Optionally, the edges of the two side walls of the second glass plate and the third glass plate, which are far away from each other, are respectively provided with a second rubber ring and a third rubber ring.

Through adopting above-mentioned technical scheme, the second glass board is pressed from both sides tightly by second rubber circle and first rubber circle, and the third glass board is pressed from both sides tightly by second rubber circle and third rubber circle, strengthens the stability of second glass board and third glass board, strengthens the sealed effect between second glass board and the third glass board simultaneously.

Optionally, erect the roof beam and keep away from one side of first rubber circle and seted up the groove of stepping down, the inslot of stepping down of erecting the roof beam wears to establish and threaded connection has hexagon socket head cap screw on being close to the inside wall of first rubber circle, hexagon socket head cap screw run through erect the roof beam and with first rubber circle threaded connection.

Through adopting above-mentioned technical scheme, install hexagon socket head cap screw behind the first rubber circle, it is fixed with first rubber circle. The stability of the first rubber ring is further improved through the hexagon socket head cap screw, and the possibility that the first rubber ring deviates from the second glass plate and the third glass plate due to expansion caused by heat and contraction caused by cold is reduced.

Optionally, a first nylon heat insulation strip is embedded in the abdicating groove of the vertical beam.

Through adopting above-mentioned technical scheme, inlay in erecting the roof beam and establish first nylon heat insulating strip, first nylon heat insulating strip shelters from hexagon socket head cap screw, improves the heat conduction effect of erecting the roof beam through first nylon heat insulating strip reduction when pleasing to the eye degree, improves the heat preservation effect.

Optionally, a second nylon heat insulation strip and a third nylon heat insulation strip are respectively embedded on the upper surface and the lower surface of the window sash.

Through adopting above-mentioned technical scheme, when the casement was closed, insulate against heat through the thermal-insulated strip of second nylon and the thermal-insulated strip of third nylon, improve the heat preservation effect.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the second glass plate and the third glass plate are arranged in a vacuum mode, and a first nylon heat insulation ring is arranged in the placing groove of the frame body; the volume of the aluminum alloy is reduced through the placing groove, the heat conduction effect of the aluminum alloy is reduced, the first nylon heat insulation ring embedded in the placing groove of the frame body reduces the heat transfer, and the heat insulation effect is improved; the second glass plate and the third glass plate are insulated from air in vacuum, and heat conduction is reduced. The first rubber ring is used for enhancing the sealing property between the second glass plate and the third glass plate, and meanwhile, the first rubber ring has good heat insulation property, so that the heat insulation effect is further improved;

2. a cover plate is embedded in the placing groove of the frame body, a fixing bolt penetrates through the cover plate, and the fixing bolt penetrates through the first nylon heat insulation ring and is in threaded connection with the frame body; the cover plate is fastened and then the fixing bolt is screwed up to fix the cover plate and the frame body, and the first nylon heat insulation ring is positioned in the frame body. The apron blocks the thermal-insulated circle of first nylon, reduces the thermal-insulated possibility that encloses and drop of first nylon when improving pleasing to the eye degree. When the first nylon heat insulation ring needs to be replaced or does not need to be used, the fixing bolt is screwed off, the cover plate is taken down, and then the first nylon heat insulation ring is taken down, so that manual disassembly is facilitated;

3. the first rubber ring is respectively provided with a clamping groove towards the two sides of the second glass plate and the third glass plate, and a second nylon heat insulation ring is embedded in the two clamping grooves; the second nylon heat insulation ring is clamped in the first rubber ring, the second nylon heat insulation ring reduces the heat conduction effect of the rubber ring, the heat conduction between the second glass plate and the third glass plate is further reduced, and the heat insulation effect is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of a thermal insulation door window with a nylon thermal insulator according to an embodiment of the present application;

fig. 2 is a schematic partial cross-sectional view of another view of the insulated door or window shown in fig. 1.

Description of reference numerals: 1. a frame body; 2. erecting a beam; 3. a window sash; 4. a first glass plate; 5. a second glass plate; 6. a third glass plate; 7. a first rubber ring; 8. a rib plate; 9. a card slot; 10. a second nylon heat insulation ring; 11. a second rubber ring; 12. a third rubber ring; 13. a third nylon heat insulation strip; 14. a yielding groove; 15. a hexagon socket head cap screw; 16. a first nylon heat insulation strip; 17. a placement groove; 18. a first nylon heat insulation ring; 19. a cover plate; 20. fixing the bolt; 21. and a second nylon heat insulation strip.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses heat preservation door and window with nylon insulator refers to fig. 1 and 2, including framework 1, framework 1 is vertical rectangle frame setting. The frame body 1 is internally and vertically provided with a vertical beam 2 with a rectangular cross section, and the top end and the bottom end of the vertical beam 2 are welded with the frame body 1. A window sash 3 is hinged to one vertical inner side wall of the frame body 1, and a first glass plate 4 is embedded in the window sash 3. A second glass plate 5 and a third glass plate 6 which are parallel to each other are embedded between the side wall of the vertical beam 2 far away from the window sash 3 and the frame body 1. And rotating the window sash 3, and attaching the window sash 3 and the vertical beam 2 to close the window.

The second glass plate 5 and the third glass plate 6 are arranged in a hollow mode, air between the second glass plate 5 and the third glass plate 6 is reduced, the second glass plate is in a vacuum state, heat conduction of the air is reduced, and the heat preservation effect is improved.

A first rubber ring 7 is embedded between the second glass plate 5 and the third glass plate 6, the first rubber ring 7 is arranged in a rectangular frame mode, and the outer side wall of the first rubber ring 7 is attached to the inner side of the frame body 1 and one side, far away from the window sash 3, of the vertical beam 2 respectively. The first rubber ring 7 is clamped by the second glass plate 5 and the third glass plate 6. The first rubber ring 7 improves the sealing property between the second glass plate 5 and the third glass plate 6.

Ribbed plates 8 are respectively arranged at four corners of the inner side of the first rubber ring 7, and the ribbed plates 8 are in a right-angled triangle shape. Two right-angle sides of the ribbed plate 8 are respectively bonded with two adjacent side walls at the corner of the first rubber ring 7. The stability of the first rubber ring 7 is enhanced by the rib 8.

The first rubber ring 7 is provided with clamping grooves 9 towards the two sides of the second glass plate 5 and the third glass plate 6, the clamping grooves 9 are arranged in a rectangular frame mode, and a certain distance is reserved between the two clamping grooves 9. Two clamping grooves 9 of the first rubber ring 7 are embedded with a second nylon heat insulation ring 10. Further insulation is provided by a second nylon insulating collar 10.

One side that first rubber circle 7 was kept away from to second glass board 5 is equipped with second rubber circle 11, and second rubber circle 11 sets up along the edge of second glass board 5, and second rubber circle 11 and the inside wall of framework 1 and the one side bonding that casement 3 was kept away from to perpendicular roof beam 2. The second rubber ring 11 and the first rubber ring 7 clamp the second glass plate 5.

A third rubber ring 12 is arranged on one side, far away from the first rubber ring 7, of the third glass plate 6, the third rubber ring 12 is arranged along the edge of the third glass plate 6, and the third rubber ring 12 is bonded with the inner side wall of the frame body 1 and one side, far away from the window sash 3, of the vertical beam 2. The third rubber ring 12 and the first rubber ring 7 sandwich the third glass plate 6.

The side wall of the vertical beam 2 far away from the first rubber ring 7 is provided with an abdicating groove 14, the cross section of the abdicating groove 14 is rectangular, and the abdicating groove 14 penetrates through the upper end and the lower end of the vertical beam 2. The groove 14 of stepping down wears to establish and threaded connection has hexagon socket head cap screw 15 on being close to the inside wall of first rubber circle 7, and hexagon socket head cap screw 15 runs through erect roof beam 2 and with first rubber circle 7 threaded internal connection, through the fixed first rubber circle 7 of hexagon socket head cap screw 15.

The hexagon socket head cap screws 15 are uniformly provided in plurality in the vertical direction. The first rubber ring 7 is more stably fixed by the plurality of hexagon socket head bolts 15.

A first nylon heat insulation strip 16 is embedded in the abdicating groove 14 of the vertical beam 2, and one side of the first nylon heat insulation strip 16 close to the window sash 3 is flush with one side of the vertical beam 2 close to the window sash 3. The first nylon heat insulation strip 16 is clamped into the abdicating groove 14 of the vertical beam 2 to cover the hexagon socket head cap screw 15.

The frame 1 has a storage groove 17 formed on a side parallel to the second glass plate 5 and facing the inside of the room. The standing groove 17 is rectangular, and a first nylon heat insulation ring 18 is embedded in the standing groove 17 of the frame body 1. The first nylon heat insulating ring 18 is fitted into the placement groove 17 of the frame body 1.

A cover plate 19 is provided on the side of the frame 1 where the placement groove 17 is opened, and the cover plate 19 shields the placement groove 17 of the frame 1. The cover plate 19 is a rectangular frame, a fixing bolt 20 penetrates through a corner of the cover plate 19 far away from one side of the frame body 1, and the fixing bolt 20 penetrates through the first nylon heat insulation ring 18, penetrates through the frame body 1 and is in threaded connection with the frame body 1. The cover plate 19 is fastened and then the fixing bolt 20 is screwed to fix the cover plate 19.

The upper surface and the surface of the window sash 3 are respectively embedded with a second nylon heat insulation strip 21 and a third nylon heat insulation strip 13. The second nylon heat insulation strips 21 and the third nylon heat insulation strips 13 increase the heat insulation effect.

The implementation principle of heat preservation door and window with nylon insulator of the embodiment of this application is: put into framework 1 with first rubber circle 7 in, go into draw-in groove 9 on the first rubber circle 7 with the thermal-insulated circle of second nylon 10 and the thermal-insulated circle of third nylon card respectively. The second glass plate 5 and the third glass plate 6 are installed on both sides of the first rubber ring 7. Second rubber rings 11 and third rubber rings 12 are provided on both sides of the second glass plate 5 and the third glass plate 6, and the second rubber rings 11 and the third rubber rings 12 are bonded to the frame body 1 and the vertical beams 2. The air in the second glass plate 5 and the third glass plate 6 is evacuated to a vacuum. And screwing the hexagon socket head cap screw 15 into the abdicating groove 14 of the vertical beam 2 to fix the first rubber ring 7. A first nylon heat insulation strip 16 is embedded in the abdicating groove 14 of the vertical beam 2.

A first nylon heat insulating ring 18 is fitted into a placement groove 17 of a frame 1, a cover plate 19 is covered, and a fixing bolt 20 is screwed to fix the cover plate 19.

The second nylon heat insulation strip 21 and the third nylon heat insulation strip 13 are respectively embedded into the upper end and the lower end of the window sash 3.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A heat-insulating door and window with a nylon heat insulator comprises a frame body (1), wherein a vertical beam (2) is arranged in the frame body (1), one vertical inner side wall of the frame body (1) is hinged with a window sash (3), and a first glass plate (4) is arranged in the window sash (3); the method is characterized in that: a second glass plate (5) and a third glass plate (6) which are parallel to each other are arranged on one side, away from the window sash (3), of the vertical beam (2) in the frame body (1), and the second glass plate (5) and the third glass plate (6) in the frame body (1) are arranged in a vacuum mode; a first rubber ring (7) is arranged in the second glass plate (5) and the third glass plate (6), and the first rubber ring (7) is arranged along the edge of the second glass plate (5); a placing groove (17) is formed in one side wall of the frame body (1) parallel to the second glass plate (5), and a first nylon heat insulation ring (18) is arranged in the placing groove (17) of the frame body (1).

2. The insulated door and window with nylon heat insulator of claim 1, wherein: the heat insulation frame is characterized in that a cover plate (19) is embedded in a placing groove (17) of the frame body (1), a fixing bolt (20) penetrates through the cover plate (19), and the fixing bolt (20) penetrates through the first nylon heat insulation ring (18) and is in threaded connection with the frame body (1).

3. The insulated door and window with nylon heat insulator of claim 2, wherein: the first rubber ring (7) faces to the two sides of the second glass plate (5) and the third glass plate (6) respectively, clamping grooves (9) are formed in the two sides, and second nylon heat insulation rings (10) are embedded in the two clamping grooves (9).

4. The insulated door and window with nylon heat insulator of claim 3, wherein: and rib plates (8) are respectively arranged at the corners of the inner side wall of the first rubber ring (7).

5. The insulated door and window with nylon heat insulator of claim 4, wherein: the edges of two side walls, far away from each other, of the second glass plate (5) and the third glass plate (6) are respectively provided with a second rubber ring (11) and a third rubber ring (12).

6. The insulated door and window with nylon heat insulator of claim 1, wherein: erect roof beam (2) and keep away from one side of first rubber circle (7) and seted up groove of stepping down (14), wear to establish and threaded connection has hexagon socket head cap screw (15) in groove of stepping down (14) of erecting roof beam (2) on being close to the inside wall of first rubber circle (7), hexagon socket head cap screw (15) run through erect roof beam (2) and with first rubber circle (7) threaded connection.

7. The insulated door and window with nylon heat insulator of claim 6, wherein: and a first nylon heat insulation strip (16) is embedded in the abdicating groove (14) of the vertical beam (2).

8. The insulated door and window with nylon heat insulator of claim 1, wherein: when the upper surface and the lower surface of the window sash (3) are respectively embedded with a second nylon heat insulation strip (21) and a third nylon heat insulation strip (13).

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