CN210948196U - Inward opening type single-leaf window section bar - Google Patents

Abstract

The utility model provides an inward opening single-leaf window section bar, which comprises a window frame and a leaf fixed in the window frame; the window sash is provided with hollow toughened glass; the window frame and the window sash are formed by splicing a first heat-insulating aluminum section bar, a second heat-insulating aluminum section bar, a third heat-insulating aluminum section bar, a fourth heat-insulating aluminum section bar, a glass pressing bar and a second sealing rubber strip; utilize a plurality of thermal-insulated chambeies that a plurality of thermal-insulated aluminium alloy and joint strip formed, make it possess the thermal-insulated energy-conserving performance of preferred, and easily shaping preparation, reduced the cost of manufacture, improved its market competition, be applicable to and use widely.

Description

Inward opening type single-leaf window section bar

Technical Field

The utility model relates to a section bar, specific theory has related to an interior open single-leaf window section bar.

Background

The inward opening window is convenient to open and is better to use, particularly, the inward opening window has the function of inward falling, can ventilate and resist wind, saves indoor space, is convenient for hanging a curtain and can well prolong the service life of hardware. The inward opening window drives the corresponding movement of the hardware driver by operating the handle of the window sash, so that the window sash can be tilted indoors to open a certain angle for ventilation. However, the window sash and the window frame in the existing structure are sealed in a breakpoint manner, and cannot meet the building performance, particularly the physical properties of the window body, such as wind resistance (strength), air permeability (air tightness), waterproof performance (water tightness), sound insulation performance, heat insulation performance (thermal performance), light transmission performance, fire resistance, corrosion resistance, opening and closing performance, of the building exterior window.

In order to solve the above problems, people are always seeking an ideal technical solution.

Disclosure of Invention

The utility model aims at providing an interior open single-leaf window section bar to prior art not enough.

In order to realize the purpose, the utility model discloses the technical scheme who adopts is: an inward opening single-sash window section comprises a window frame and a sash fixed in the window frame; the window sash is provided with hollow toughened glass; the window frame and the window sash are formed by splicing a first heat-insulating aluminum section bar, a second heat-insulating aluminum section bar, a third heat-insulating aluminum section bar, a fourth heat-insulating aluminum section bar, a glass pressing bar and a second sealing rubber strip;

the first heat-insulation aluminum profile and the fourth heat-insulation aluminum profile are connected through a first heat-insulation bridge-cut-off group; the first heat insulation bridge cut-off group comprises a left first heat insulation bridge cut-off and a right first heat insulation bridge cut-off; the left first heat insulation broken bridge, the first heat insulation aluminum profile, the right first heat insulation broken bridge and the fourth heat insulation aluminum profile form a first heat insulation cavity in a surrounding manner;

the third heat-insulation aluminum profile and the second heat-insulation aluminum profile are connected through a second heat-insulation bridge-cut-off group; the second heat insulation broken bridge group comprises a left second heat insulation broken bridge and a right second heat insulation broken bridge; the left second heat insulation broken bridge, the third heat insulation aluminum profile, the right second heat insulation broken bridge and the second heat insulation aluminum profile form a third heat insulation cavity in a surrounding manner;

one side of the second sealing rubber strip is connected to the right first heat insulation bridge cut-off, and the other side of the second sealing rubber strip is connected to the left second heat insulation bridge cut-off; a first sealing rubber strip is arranged between the first heat-insulating aluminum profile and the third heat-insulating aluminum profile; the first heat insulation aluminum profile, the first sealing rubber strip, the third heat insulation aluminum profile, the second sealing rubber strip and the right first heat insulation bridge cut-off form a second heat insulation cavity in a surrounding manner; one end of the third heat-insulating aluminum section is connected to the front end of the hollow toughened glass through a glass inner sealing rubber strip;

a third sealing rubber strip is arranged between the fourth heat-insulating aluminum profile and the second heat-insulating aluminum profile; the fourth heat insulation aluminum profile, the third sealing rubber strip, the second heat insulation aluminum profile, the second sealing rubber strip and the right first heat insulation bridge cut-off form a fourth heat insulation cavity;

the glass pressing strip is clamped on one side of the second heat-insulating aluminum section, and the top end of the glass pressing strip is connected to the lower end of the hollow toughened glass through a glass outer sealing rubber strip;

the third heat insulation aluminum profile, the right second heat insulation broken bridge, the second heat insulation aluminum profile, the glass pressing strip, the glass outer sealing rubber strip, the glass inner sealing rubber strip and the hollow toughened glass form a fifth heat insulation cavity in a surrounding mode.

Based on the above, the first sealing rubber strip, the second sealing rubber strip, the glass inner sealing rubber strip, the glass outer sealing rubber strip and the third sealing rubber strip are all ethylene propylene diene monomer rubber sealing rubber strips.

Based on the above, the first thermal insulation bridge-cut group and the second thermal insulation bridge-cut group are both high-density polyamide thermal insulation strips.

Based on the above, one end of the hollow toughened glass is also provided with glass laminating glue.

The utility model discloses relative prior art has substantive characteristics and progress, specific theory, the utility model provides an interior open single-leaf window section bar utilizes a plurality of thermal-insulated chambeies that a plurality of thermal-insulated aluminium alloy and joint strip formed, makes it possess the thermal-insulated energy-conserving performance of preferred, and easily shaping preparation, has reduced the cost of manufacture, has improved its market competition, is applicable to and uses widely.

Drawings

Fig. 1 is the utility model provides an interior open single-leaf window section bar overall structure sketch map.

Fig. 2 is a schematic sectional view of the inner open type single-leaf window profile a-a provided by the present invention.

Fig. 3 is a schematic sectional view of the inner open type single-leaf window profile B-B provided by the present invention.

Fig. 4 is the partial structure schematic diagram of the inward opening single-leaf window profile provided by the utility model.

In the figure: 1. a window frame; 2. A window sash; 3. hollow tempered glass; 4. glass laminating adhesive; 101. a first heat-insulating aluminum profile; 102. a second sealing rubber strip; 103. a third heat insulation aluminum profile; 104. a fourth heat insulation aluminum profile; 105. a second heat insulation aluminum profile; 106. pressing a glass strip; 201. a first thermal insulation bridge cut-off on the left side; 202. a first heat insulation bridge cut-off on the right side; 203. a second heat insulation bridge cut-off on the left side; 204. a second heat insulation bridge cut-off on the right side; 205. a first sealing rubber strip; 206. sealing rubber strips in the glass; 207. sealing an adhesive tape outside the glass; 208. a third sealing rubber strip; 301. a first insulating cavity; 302. a second insulating cavity; 303. a third insulating cavity; 304. a fifth insulating cavity; 305; and a fourth insulating cavity.

Detailed Description

The technical solution of the present invention will be described in further detail through the following embodiments.

Example 1

The present embodiment provides a sectional material for a single-sash window, which, as shown in fig. 1, 2, 3 and 4, comprises a window frame 1 and a sash 2 fixed in the window frame 1; the window sash 2 is provided with hollow toughened glass 3; the window frame 1 and the window sash 2 are formed by splicing a first heat-insulating aluminum section bar 101, a second heat-insulating aluminum section bar 105, a third heat-insulating aluminum section bar 103, a fourth heat-insulating aluminum section bar 104, a glass bead 106 and a second sealing rubber strip 102.

The first heat-insulating aluminum profile 101 and the fourth heat-insulating aluminum profile 104 are connected through a first heat-insulating bridge-cut-off group; the first heat insulation bridge cut-off group comprises a left first heat insulation bridge cut-off 201 and a right first heat insulation bridge cut-off 202; the first thermal insulation bridge cut-off 201 on the left side, the first thermal insulation aluminum profile 101, the first thermal insulation bridge cut-off 202 on the right side and the fourth thermal insulation aluminum profile 104 form a first thermal insulation cavity 301 in an enclosing manner.

The third heat-insulating aluminum profile 103 and the second heat-insulating aluminum profile 105 are connected through a second heat-insulating bridge-cut-off group; the second heat insulation broken bridge group comprises a left second heat insulation broken bridge 203 and a right second heat insulation broken bridge 204; the left second thermal insulation bridge cut-off 203, the third thermal insulation aluminum profile 103, the right second thermal insulation bridge cut-off 204 and the second thermal insulation aluminum profile 105 form a third thermal insulation cavity 303 in an enclosing manner.

One side of the second sealing rubber strip 102 is connected to the right-side first insulating bridge cut-off 202, and the other side is connected to the left-side second insulating bridge cut-off 203. A first sealing rubber strip 205 is arranged between the first heat-insulating aluminum profile 101 and the third heat-insulating aluminum profile 103; the first insulating aluminum profile 101, the first sealing rubber strip 205, the third insulating aluminum profile 103, the second sealing rubber strip 102 and the right first insulating bridge cut-off 202 form a second insulating cavity 302.

One end of the third heat-insulating aluminum profile 103 is connected to the front end of the hollow toughened glass 3 through a glass inner sealing rubber strip 206.

A third sealing joint strip 208 is arranged between the fourth insulating aluminum profile 104 and the second insulating aluminum profile 105. The fourth insulating aluminum profile 104, the third sealing rubber strip 208, the second insulating aluminum profile 105, the second sealing rubber strip 102 and the right-side first insulating bridge cut-off 202 form a fourth insulating cavity 305.

One side of the second heat-insulating aluminum profile 105 is clamped with the glass bead 106, and the top end of the glass bead 106 is connected to the lower end of the hollow toughened glass 3 through a glass external sealing rubber strip 207.

The third heat-insulating aluminum profile 103, the right second heat-insulating bridge-cut 204, the second heat-insulating aluminum profile 105, the glass bead 106, the glass outer sealing rubber strip 207, the glass inner sealing rubber strip 206 and the hollow tempered glass 3 form a fifth heat-insulating cavity 304 in an enclosing manner.

The first sealing rubber strip 205, the first sealant 102, the glass inner sealing rubber strip 206, the glass outer sealing rubber strip 207 and the third sealing rubber strip 208 are all ethylene propylene diene monomer rubber sealing rubber strips.

The first heat insulation bridge-cut-off group and the second heat insulation bridge-cut-off group are both high-density polyamide heat insulation strips.

One end of the hollow toughened glass 3 is also provided with a glass laminating adhesive 4.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the same; although the present invention has been described in detail with reference to preferred embodiments, it should be understood by those skilled in the art that: the invention can be modified or equivalent substituted for some technical features; without departing from the spirit of the present invention, it should be understood that the scope of the claims is intended to cover all such modifications and variations.

Claims (4)

1. The utility model provides an interior open single-leaf window section bar which characterized in that: comprises a window frame and a window sash fixed in the window frame; the window sash is provided with hollow toughened glass; the window frame and the window sash are formed by splicing a first heat-insulating aluminum section bar, a second heat-insulating aluminum section bar, a third heat-insulating aluminum section bar, a fourth heat-insulating aluminum section bar, a glass pressing bar and a second sealing rubber strip;

the first heat-insulation aluminum profile and the fourth heat-insulation aluminum profile are connected through a first heat-insulation bridge-cut-off group; the first heat insulation bridge cut-off group comprises a left first heat insulation bridge cut-off and a right first heat insulation bridge cut-off; the left first heat insulation broken bridge, the first heat insulation aluminum profile, the right first heat insulation broken bridge and the fourth heat insulation aluminum profile form a first heat insulation cavity in a surrounding manner;

the third heat-insulation aluminum profile and the second heat-insulation aluminum profile are connected through a second heat-insulation bridge-cut-off group; the second heat insulation broken bridge group comprises a left second heat insulation broken bridge and a right second heat insulation broken bridge; the left second heat insulation broken bridge, the third heat insulation aluminum profile, the right second heat insulation broken bridge and the second heat insulation aluminum profile form a third heat insulation cavity in a surrounding manner;

one side of the second sealing rubber strip is connected to the right first heat insulation bridge cut-off, and the other side of the second sealing rubber strip is connected to the left second heat insulation bridge cut-off; a first sealing rubber strip is arranged between the first heat-insulating aluminum profile and the third heat-insulating aluminum profile; the first heat insulation aluminum profile, the first sealing rubber strip, the third heat insulation aluminum profile, the second sealing rubber strip and the right first heat insulation bridge cut-off form a second heat insulation cavity in a surrounding manner; one end of the third heat-insulating aluminum section is connected to the front end of the hollow toughened glass through a glass inner sealing rubber strip;

a third sealing rubber strip is arranged between the fourth heat-insulating aluminum profile and the second heat-insulating aluminum profile; the fourth heat insulation aluminum profile, the third sealing rubber strip, the second heat insulation aluminum profile, the second sealing rubber strip and the right first heat insulation bridge cut-off form a fourth heat insulation cavity;

the glass pressing strip is clamped on one side of the second heat-insulating aluminum section, and the top end of the glass pressing strip is connected to the lower end of the hollow toughened glass through a glass outer sealing rubber strip;

the third heat insulation aluminum profile, the right second heat insulation broken bridge, the second heat insulation aluminum profile, the glass pressing strip, the glass outer sealing rubber strip, the glass inner sealing rubber strip and the hollow toughened glass form a fifth heat insulation cavity in a surrounding mode.

2. The inwardly open single-sash window profile of claim 1, wherein: the first sealing rubber strip, the second sealing rubber strip, the glass inner sealing rubber strip, the glass outer sealing rubber strip and the third sealing rubber strip are ethylene propylene diene monomer rubber sealing rubber strips.

3. The inwardly open single-sash window profile of claim 2, wherein: the first heat insulation bridge-cut-off group and the second heat insulation bridge-cut-off group are both high-density polyamide heat insulation strips.

4. The inwardly open single-sash window profile of claim 3, wherein: one end of the hollow toughened glass is also provided with glass laminating glue.

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