CN219365833U - Energy-saving passive window convenient to maintain - Google Patents

Abstract

The utility model relates to the technical field of passive doors and windows, and discloses an energy-saving passive window convenient to maintain, which solves the problem that the maintenance and replacement cost is increased when the existing passive window is integrally replaced due to damage, and comprises a first outdoor section bar, and is characterized in that: the utility model can realize the replacement of three-glass two-cavity glass by disassembling the glass buckle, and simultaneously is convenient for maintaining the sunshade shutter, and the whole detachable structure can realize the local replacement and maintenance, thereby effectively reducing the cost; the novel indoor three-glass two-cavity glass, sunshade shutter and outdoor glass are adopted, and the unique energy-saving glass configuration can effectively improve the thermal performance of the whole window.

Description

Energy-saving passive window convenient to maintain

Technical Field

The utility model belongs to the technical field of passive doors and windows, and particularly relates to an energy-saving passive window convenient to maintain.

Background

The passive window is an energy-saving door and window designed based on passive design, and is not an energy consumption standard, but a system door and window solution which has the advantages of efficiency, building appearance and good comfort; the passive design applies the natural principles of sunlight, wind power, air temperature and humidity in the nature, does not depend on the consumption of conventional energy sources as much as possible, and improves and creates living environment by using the construction methods of planning, designing and environmental configuration; no additional heating and refrigerating equipment is needed.

The existing passive window mostly adopts a three-glass two-cavity glass structure, and the three-glass two-cavity glass is generally fixed with the profile into a whole, when the three-glass two-cavity glass is damaged, the three-glass two-cavity glass is generally required to be replaced integrally, and the damaged three-glass two-cavity glass is not easy to replace independently, so that the maintenance and replacement cost is increased, and therefore, the energy-saving passive window convenient to maintain is designed.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the utility model provides the energy-saving passive window convenient to maintain, and the problem that the maintenance and replacement cost is increased when the existing passive window is integrally fixed and is damaged and integrally replaced is effectively solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an energy-conserving passive window convenient to maintain, including first outdoor section bar, be connected with first partition strip and second partition strip between the adjacent one side of first outdoor section bar and first indoor section bar, second partition strip lower extreme is connected with first multicavity partition strip, first outdoor section bar lower extreme is connected with the second outdoor section bar, and be connected with first outdoor sealing strip between first outdoor section bar and the second outdoor section bar, first indoor section bar lower extreme is connected with the second indoor section bar, and be connected with first indoor sealing strip between first indoor section bar and the second indoor section bar, be connected with second multicavity partition strip and third partition strip between second outdoor section bar and the second indoor section bar, third partition strip lower extreme one side joint has the heat insulating strip, heat insulating strip lower extreme joint has the third outdoor section bar, be connected with outdoor glass between third outdoor section bar and the second outdoor section bar, be connected with the second outdoor sealing strip between outdoor glass and the second outdoor section bar, be connected with the third outdoor sealing strip outside, third outdoor glass has the fourth outdoor section bar to be connected with the fourth outdoor glass, be connected with the buckle chamber between second outdoor glass and the third glass chamber, be connected with the buckle chamber is equipped with two glass chamber between the third glass chamber, two glass chamber glass buckle chamber and the third glass chamber.

Preferably, first heat insulation cotton is filled between the first partition strip and the second partition strip.

Preferably, second heat insulation cotton is filled between the second multi-cavity partition strip and the third partition strip.

Preferably, one end of the outdoor glass is filled with third heat insulation cotton.

Preferably, one end of the three-glass two-cavity glass is filled with fourth heat insulation cotton.

Compared with the prior art, the utility model has the beneficial effects that:

(1) According to the utility model, through the disassembly of the glass buckle, the replacement of the three-glass two-cavity glass can be realized, meanwhile, the sunshade shutter is convenient to maintain, the whole detachable structure can be realized, the local replacement and maintenance can be realized, and the cost is effectively reduced;

(2) The novel indoor three-glass two-cavity glass, the sun-shading shutter and the outdoor glass are adopted, and the unique energy-saving glass configuration can effectively improve the thermal performance of the whole window.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model.

In the drawings:

FIG. 1 is a schematic cross-sectional view of the present utility model;

FIG. 2 is a schematic view of a partially enlarged structure of the present utility model;

FIG. 3 is a schematic view showing the detachable structure of the glass buckle;

in the figure: 1. a first outdoor profile; 2. a first indoor section bar; 3. a first partition strip; 4. a second partition strip; 5. first heat insulation cotton; 6. a first multichamber partition strip; 7. a second outdoor profile; 8. a first outdoor sealing strip; 9. a second indoor section bar; 10. a first indoor sealing strip; 11. a second multichamber partition strip; 12. a third partition strip; 13. a second heat insulation cotton; 14. a heat insulating strip; 15. a third outdoor profile; 16. outdoor glass; 17. a second outdoor sealing strip; 18. a third outdoor sealing strip; 19. third heat insulation cotton; 20. a fourth outdoor profile; 21. glass fastener; 22. three-glass two-cavity glass; 23. a second indoor sealing strip; 24. a fourth outdoor sealing strip; 25. fourth heat insulation cotton; 26. sunshade louver.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model; all other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the first embodiment, as shown in fig. 1-3, the utility model comprises a first outdoor section bar 1, a first partition bar 3 and a second partition bar 4 are connected between one side of the first outdoor section bar 1 adjacent to a first indoor section bar 2, first heat insulation cotton 5 is filled between the first partition bar 3 and the second partition bar 4, a first multi-cavity partition bar 6 is connected at the lower end of the second partition bar 4, a second outdoor section bar 7 is connected at the lower end of the first outdoor section bar 1, a first outdoor sealing strip 8 is connected between the first outdoor section bar 1 and the second outdoor section bar 7, a second indoor section bar 9 is connected at the lower end of the first indoor section bar 2, a first indoor sealing strip 10 is connected between the first indoor section bar 2 and the second indoor section bar 9, a second multi-cavity partition bar 11 and a third partition bar 12 are connected between the second outdoor section bar 7 and the second indoor section bar 9, a second heat insulation cotton 13 is filled between the second multi-cavity partition strip 11 and the third partition strip 12, a heat insulation strip 14 is clamped at one side of the lower end of the third partition strip 12, a third outdoor shape 15 is clamped at the lower end of the heat insulation strip 14, outdoor glass 16 is connected between the third outdoor shape 15 and the second outdoor shape 7, a second outdoor sealing strip 17 is connected between the outdoor glass 16 and the second outdoor shape 7, a third outdoor sealing strip 18 is connected between the outdoor glass 16 and the third outdoor shape 15, a third heat insulation cotton 19 is filled at one end of the outdoor glass 16, a fourth outdoor shape 20 is clamped at one end of the third outdoor shape 15, a glass buckle 21 is clamped at the lower end of the second indoor shape 9, a three-glass two-cavity glass 22 is connected between the glass buckle 21 and the fourth outdoor shape 20, a second indoor sealing strip 23 is connected between one end of the three-glass two-cavity glass 22 and the glass buckle 21, a fourth outdoor sealing strip 24 is connected between one end of the three-glass two-cavity glass 22 and the third outdoor shape 15, a fourth heat insulation cotton 25 is filled at one end of the three-glass two-cavity glass 22, and a sunshade shutter 26 is arranged between the three-glass two-cavity glass 22 and the outdoor glass 16.

Working principle: the first partition strip 3, the second partition strip 4, the first multi-cavity partition strip 6, the second multi-cavity partition strip 11 and the third partition strip 12 which are arranged between the first outdoor section 1 and the first indoor section 2 as well as between the second outdoor section 7 and the second indoor section 9 respectively adopt a large-width heat insulation structure, so that the thermal performance of the whole window can be effectively improved, in addition, the first heat insulation cotton 5, the second heat insulation cotton 13, the third heat insulation cotton 19 and the fourth heat insulation cotton 25 filled in the inner cavity can prevent air from forming convection, the thermal performance of the whole window can be effectively improved, the second indoor sealing strip 23 is adopted for sealing the three-glass two-cavity glass 22 in the room, the continuous turning rubber strip sealing structure can effectively prevent air convection, the thermal performance of the whole window can be effectively improved, and meanwhile, the first partition strip 6 and the second multi-cavity partition strip 11 adopt a multi-cavity rubber strip sealing structure, so that the thermal performance of the whole window can be effectively improved;

when two chamber glass of three glass 22 receive the damage, through the dismantlement to glass buckle 21, can realize the change to two chamber glass of three glass 22, conveniently maintain sunshade tripe 26 simultaneously, wholly can dismantle the structure, can realize the maintenance to the local change, the effectual cost is reduced.

Claims (5)

1. Energy-conserving passive window convenient to maintain, including first outdoor section bar (1), its characterized in that: a first partition strip (3) and a second partition strip (4) are connected between one side, adjacent to the first outdoor section bar (1) and the first indoor section bar (2), the lower end of the second partition strip (4) is connected with a first multi-cavity partition strip (6), the lower end of the first outdoor section bar (1) is connected with a second outdoor section bar (7), a first outdoor sealing strip (8) is connected between the first outdoor section bar (1) and the second outdoor section bar (7), the lower end of the first indoor section bar (2) is connected with a second indoor section bar (9), a first indoor sealing strip (10) is connected between the first indoor section bar (2) and the second indoor section bar (9), a second multi-cavity partition strip (11) and a third partition strip (12) are connected between the second outdoor section bar (7) and the second indoor section bar (9), one side of the lower end of the third partition strip (12) is clamped with a heat insulation strip (14), the lower end of the heat insulation strip (14) is clamped with a third outdoor section bar (15), a third outdoor section bar (15) is connected between the third outdoor section bar (15) and the second outdoor section bar (7), a third outdoor section bar (16) is connected with a third outdoor section bar (16) and a third outdoor section bar (17), a third outdoor section bar (16) is connected between the third outdoor section bar (16) and a third outdoor section bar (17), one end of the third outdoor section bar (15) is connected with a fourth outdoor section bar (20), the lower end of the second indoor section bar (9) is connected with a glass buckle (21), a three-glass two-cavity glass (22) is connected between the glass buckle (21) and the fourth outdoor section bar (20), a second indoor sealing strip (23) is connected between one end of the three-glass two-cavity glass (22) and the glass buckle (21), a fourth outdoor sealing strip (24) is connected between one end of the three-glass two-cavity glass (22) and the third outdoor section bar (15), and a sun-shading shutter (26) is arranged between the three-glass two-cavity glass (22) and the outdoor glass (16).

2. An energy efficient passive window for facilitating maintenance according to claim 1, wherein: first heat insulation cotton (5) is filled between the first partition strip (3) and the second partition strip (4).

3. An energy efficient passive window for facilitating maintenance according to claim 1, wherein: and second heat insulation cotton (13) is filled between the second multi-cavity partition strip (11) and the third partition strip (12).

4. An energy efficient passive window for facilitating maintenance according to claim 1, wherein: one end of the outdoor glass (16) is filled with third heat insulation cotton (19).

5. An energy efficient passive window for facilitating maintenance according to claim 1, wherein: one end of the three-glass two-cavity glass (22) is filled with fourth heat insulation cotton (25).