CN215520667U - Novel high-performance sound-insulation heat-insulation door window - Google Patents

Abstract

The utility model discloses a novel high-performance sound-insulation and heat-insulation door window, which comprises an inner side first bracket, wherein the top of the inner side first bracket is buckled with an inner side second bracket, the top of the inner side second bracket is buckled with an inner side third bracket, one side end of the bottom of the inner side first bracket is connected with a fourth heat-insulation strip, one side of the fourth heat-insulation strip is connected with an outer side first bracket, the top of the outer side first bracket is connected with an outer side second bracket, a third heat-insulation strip is connected between one side end of the top of the inner side first bracket and the outer side first bracket, a second heat-insulation strip is connected between one side end of the bottom of the outer side second bracket and the inner side second bracket, and a first heat-insulation strip is connected between one side end of the top of the inner side second bracket and the outer side second bracket. Avoiding fogging on the glass surface.

Description

Novel high-performance sound-insulation heat-insulation door window

Technical Field

The utility model relates to the technical field of building doors and windows, in particular to a novel high-performance sound-insulation and heat-insulation door and window.

Background

At present, the environment of our life can produce more and more noise, climate change is also great, need cooling equipment such as air conditioners often to adjust ambient temperature, door and window have the application of a lot of differences in practical application, sometimes we can utilize door and window to come sound insulation and thermal-insulated, but the door and window that sound insulation and thermal-insulated effect are not good can lead to certain negative effects to our life, for example when we need an environment of silence, the door and window that sound insulation is not good can bring too much noise, too much noise can let the people be mentally uncertain, when we utilize cooling equipment to cool down the environment in the certain limit, door and window that heat-proof quality is not good not only can greatly discount the effect of cooling, still can waste the energy.

Doors and windows on the market are various, and the sound and heat insulation effect of some doors and windows is not good enough, so that not only too much noise can be brought, but also the cooling effect and the energy are influenced, and the energy is wasted.

SUMMERY OF THE UTILITY MODEL

The utility model provides a novel high-performance sound-insulation and heat-insulation door window which can effectively solve the problems that sound-insulation and heat-insulation effects of doors and windows in the background art are not good enough, excessive noise is brought, the cooling effect is influenced, and energy is wasted.

In order to achieve the purpose, the utility model provides the following technical scheme: a novel high-performance sound and heat insulation door and window comprises an inner side first support, wherein the top of the inner side first support is buckled with an inner side second support, the top of the inner side second support is buckled with an inner side third support, one side end of the bottom of the inner side first support is connected with a fourth heat insulation strip, one side of the fourth heat insulation strip is connected with an outer side first support, and the top of the outer side first support is buckled with an outer side second support;

a third heat insulation strip is connected between one side edge end of the top of the inner first support and the outer first support, a second heat insulation strip is connected between one side edge end of the bottom of the outer second support and the inner second support, and a first heat insulation strip is connected between one side edge end of the top of the inner second support and the outer second support;

first sound-insulation and heat-insulation cotton is filled between the third heat-insulation strips and the fourth heat-insulation strips, second sound-insulation and heat-insulation cotton is filled between the first heat-insulation strips and the second heat-insulation strips, and third sound-insulation and heat-insulation cotton is filled at the tops of the first heat-insulation strips;

glass is bonded to the top of the third sound and heat insulation cotton, the number of the glass is three, and hollow spacing strips are filled at the positions of the bottoms of every two pieces of glass.

Preferably, the middle part of one side of the first outer support is hinged with a wind shielding strip.

Preferably, a first sealing rubber strip is filled between one side edge end of the top of the third inner support and the glass, a second sealing rubber strip is filled between one side edge end of the top of the second outer support and the glass, a third sealing rubber strip is filled between one side edge end of the bottom of the second outer support and the top of the first outer support, a fifth sealing rubber strip is filled between the other side edge end of the top of the first inner support and the bottom of the second inner support, a fourth sealing rubber strip is filled between the second heat insulation strip and the third heat insulation strip, and a sixth sealing rubber strip is filled between one side edge end of the bottom of the third inner support and the top of the second inner support.

Preferably, the second sealing rubber strip, the third sealing rubber strip, the fourth sealing rubber strip, the fifth sealing rubber strip and the sixth sealing rubber strip need to be matched with a sponge foaming sealing rubber strip for use together.

Preferably, the cavity in the outer second bracket is perforated.

Preferably, the width of the first heat insulating strip, the second heat insulating strip, the third heat insulating strip and the fourth heat insulating strip is 35.3mm, and the heat insulating strips and the first sound and heat insulating cotton, the second sound and heat insulating cotton, the third sound and heat insulating cotton and the glass in the three-glass two-cavity adopt the design on the same vertical line. Compared with the prior art, the utility model has the beneficial effects that: the utility model has scientific and reasonable structure and safe and convenient use:

1. can reduce indoor and outdoor heat transfer speed through the two-layer cavity between three-layer glass and the glass by a wide margin, improve thermal insulation performance to when indoor outer difference in temperature great because the transition effect of cavity can reduce the difference in temperature of the inside and outside both sides of every layer of glass, avoid glass surface fogging, simultaneously because three-layer glass's setting can further improve holistic syllable-dividing effect.

2. Through the design of punching the cavity in the outside second support, can effectually play the effect of drainage to because the effect of the strip that keeps out the wind, can prevent to blow because of wind and beat the rainwater that produces and flow backward the phenomenon.

3. The design that four heat insulation strips with the width of 35.3mm, three sound and heat insulation cotton and three pieces of glass with two cavities of three glass are on the same vertical line can well improve the sound and heat insulation performance of doors and windows, and the section adopts the structure of the cavity type pressing line, so that the stability of the whole structure is further improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model.

In the drawings:

FIG. 1 is a cross-sectional view of a structure of the present invention;

FIG. 2 is a schematic structural view of the area A in FIG. 1 according to the present invention;

FIG. 3 is a schematic structural diagram of the area B in FIG. 1 according to the present invention;

FIG. 4 is a schematic structural view of the region C of FIG. 1 according to the present invention;

reference numbers in the figures: 1. an inboard first bracket; 2. an inboard second bracket; 3. an inboard third bracket; 4. an outer second bracket; 5. an outer first bracket;

6. a first sealing rubber strip; 7. a second sealing rubber strip; 8. a third sealing rubber strip; 9. a fourth sealing rubber strip; 10. a fifth sealing rubber strip; 11. a sixth sealing rubber strip;

12. a first insulating strip; 13. a second insulating strip; 14. a third insulating strip; 15. a fourth insulating strip;

16. first sound and heat insulation cotton; 17. second sound and heat insulation cotton; 18. third sound and heat insulation cotton; 19. a weather strip; 20. glass; 21. a hollow spacer bar.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-4, the utility model provides a technical scheme of a novel high-performance sound and heat insulation door window, which comprises an inner side first support 1, wherein the top of the inner side first support 1 is buckled with an inner side second support 2, a cavity in the outer side second support 4 is punched to play a role in drainage, the top of the inner side second support 2 is buckled with an inner side third support 3, one side end of the bottom of the inner side first support 1 is connected with a fourth heat insulation strip 15, one side of the fourth heat insulation strip 15 is connected with an outer side first support 5, the middle of one side of the outer side first support 5 is hinged with a wind shielding strip 19, the purpose of preventing rainwater from flowing backwards can be achieved, and the top of the outer side first support 5 is buckled with the outer side second support 4.

A third heat insulation strip 14 is connected between one side end of the top of the inner first support 1 and the outer first support 5, a second heat insulation strip 13 is connected between one side end of the bottom of the outer second support 4 and the inner second support 2, and a first heat insulation strip 12 is connected between one side end of the top of the inner second support 2 and the outer second support 4.

First soundproof and heat-insulating cotton 16 is filled between the third heat-insulating strips 14 and the fourth heat-insulating strips 15, second soundproof and heat-insulating cotton 17 is filled between the first heat-insulating strips 12 and the second heat-insulating strips 13, and third soundproof and heat-insulating cotton 18 is filled at the tops of the first heat-insulating strips 12.

The top of the third soundproof and heat-insulating cotton 18 is bonded with three pieces of glass 20, and the bottom position between every two pieces of glass 20 is filled with a hollow spacing bar 21.

The first sealing rubber strip 6 is filled between one side end of the top of the inner third support 3 and the glass 20, the second sealing rubber strip 7 is filled between one side end of the top of the outer second support 4 and the glass 20, the third sealing rubber strip 8 is filled between one side end of the bottom of the outer second support 4 and the top of the outer first support 5, the fifth sealing rubber strip 10 is filled between the other side end of the top of the inner first support 1 and the bottom of the inner second support 2, the fourth sealing rubber strip 9 is filled between the second heat insulation strip 13 and the third heat insulation strip 14, the sixth sealing rubber strip 11 is filled between one side end of the bottom of the inner third support 3 and the top of the inner second support 2, and the second sealing rubber strip 7, the third sealing rubber strip 8, the fourth sealing rubber strip 9, the fifth sealing rubber strip 10 and the sixth sealing rubber strip 11 are matched with the sponge foaming sealing rubber strips for use.

The width of the first heat insulating strip 12, the second heat insulating strip 13, the third heat insulating strip 14 and the fourth heat insulating strip 15 is 35.3mm, and the heat insulating strips, the first sound and heat insulating cotton 16, the second sound and heat insulating cotton 17, the third sound and heat insulating cotton 18 and the glass 20 in the two cavities of the three-glass adopt the design on the same vertical line, so that the sound and heat insulating performance of the glass is further improved.

The working principle and the using process of the utility model are as follows: firstly, an inner first support 1, an inner second support 2, an inner third support 3, an outer first support 5, an outer second support 4 and the whole structure are fixed, a first sealing rubber strip 6, a second sealing rubber strip 7, a third sealing rubber strip 8, a fourth sealing rubber strip 9, a fifth sealing rubber strip 10 and a sixth sealing rubber strip 11 seal the structure, a hollow spacer 21 limits the glass 20 to manufacture a cavity between the glass 20, and a first heat insulation strip 12, a second heat insulation strip 13, a third heat insulation strip 14 and a fourth heat insulation strip 15 play roles of sound insulation and heat insulation on a frame region except the glass 20 with a first sound insulation and heat insulation cotton 16, a second sound insulation and heat insulation cotton 17 and a third sound insulation and heat insulation cotton 18.

Can reduce indoor and outdoor heat transfer speed by a wide margin through the two-layer cavity between three-layer glass 20 and the glass 20 to the structure in two chambeies of this three-layer glass can play good isolated effect to sound, thereby reaches the heat preservation sound insulation effect in glass 20 region, and when the indoor outer difference in temperature great because the transition effect of cavity can reduce the difference in temperature of the inside and outside both sides of every layer of glass 20, avoids glass 20 surface fogging.

Through the design of four 35.3mm width heat insulating strips and three sound-proof heat insulating cotton and three glass 20 in two chambeies of three glasss on same perpendicular line again, including each joint strip seals whole structure, can play fine sound insulation and heat insulation performance to reach the thermal-insulated purpose of sound insulation of the frame part outside the glass 20 region.

And then the frame and the wall body are fixed and sealed, and finally the purposes of sound insulation and heat insulation of the whole window are achieved.

By perforating the cavity in the outer second bracket 4 and due to the action of the weather strip 19, water penetrating into the frame can be drained and the phenomenon of rainwater flowing back due to the blow of wind can be prevented.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a novel high performance sound insulation heat-proof door and window which characterized in that: the heat insulation device comprises an inner side first support (1), wherein the top of the inner side first support (1) is buckled with an inner side second support (2), the top of the inner side second support (2) is buckled with an inner side third support (3), one side end of the bottom of the inner side first support (1) is connected with a fourth heat insulation strip (15), one side of the fourth heat insulation strip (15) is connected with an outer side first support (5), and the top of the outer side first support (5) is buckled with an outer side second support (4);

a third heat insulation strip (14) is connected between one side edge end of the top of the inner side first support (1) and the outer side first support (5), a second heat insulation strip (13) is connected between one side edge end of the bottom of the outer side second support (4) and the inner side second support (2), and a first heat insulation strip (12) is connected between one side edge end of the top of the inner side second support (2) and the outer side second support (4);

first sound-insulation and heat-insulation cotton (16) is filled between the third heat-insulation strips (14) and the fourth heat-insulation strips (15), second sound-insulation and heat-insulation cotton (17) is filled between the first heat-insulation strips (12) and the second heat-insulation strips (13), and third sound-insulation and heat-insulation cotton (18) is filled at the tops of the first heat-insulation strips (12);

glass (20) is bonded to the top of the third sound-insulation and heat-insulation cotton (18), three pieces of glass (20) are arranged, and hollow spacing strips (21) are filled at the positions of the bottoms of every two pieces of glass (20).

2. The novel high-performance soundproof and heat insulating door and window as claimed in claim 1, wherein a weather strip (19) is hinged to a middle portion of one side of the outer first bracket (5).

3. The novel high-performance soundproof and heat insulating door and window according to claim 1, a first sealing rubber strip (6) is filled between one side edge end of the top of the inner third bracket (3) and the glass (20), a second sealing rubber strip (7) is filled between one side edge end of the top of the outer second bracket (4) and the glass (20), a third sealing rubber strip (8) is filled between one side edge end of the bottom of the outer second bracket (4) and the top of the outer first bracket (5), a fifth sealing rubber strip (10) is filled between the other side edge end of the top of the inner side first bracket (1) and the bottom of the inner side second bracket (2), a fourth sealing rubber strip (9) is filled between the second heat insulation strip (13) and the third heat insulation strip (14), and a sixth sealing rubber strip (11) is filled between one side edge end of the bottom of the inner third support (3) and the top of the inner second support (2).

4. The novel high-performance soundproof and heat insulating door and window as claimed in claim 1, wherein the second sealing rubber strip (7), the third sealing rubber strip (8), the fourth sealing rubber strip (9), the fifth sealing rubber strip (10) and the sixth sealing rubber strip (11) are used together with a sponge foaming sealing rubber strip.

5. The new high performance soundproof and thermal insulating door and window according to claim 1, wherein the cavity in the outside second bracket (4) is perforated.

6. The novel high-performance soundproof and heat insulating door and window as claimed in claim 1, wherein the widths of the first heat insulating strip (12), the second heat insulating strip (13), the third heat insulating strip (14) and the fourth heat insulating strip (15) are 35.3mm, and the heat insulating strips and the first soundproof and heat insulating cotton (16), the second soundproof and heat insulating cotton (17), the third soundproof and heat insulating cotton (18) and the three-glass two-cavity glass (20) are designed on the same vertical line.

Images