CN201661225U - Double hollow glass built-in sunshade energy-saving window system - Google Patents

Abstract

The utility model discloses a dual hollow glass built-in shading and energy saving window system which includes hollow glass, a shading curtain, single-piece glass, and a frame; the single-piece glass and the hollow glass are arranged on the frame; the hollow glass is arranged at the outdoor side and the single-piece glass is arranged at the indoor side; and the shading curtain is arranged between the single-piece glass and the hollow glass. By detecting, the thermal insulation property of the novel energy saving door and window can reach 2.0W/(m2.K) and the thermal insulation property is excellent.

Description

Double hollow glass built-in sunshade energy-saving window system

technical field

The structure of the utility model is a novel energy-saving door and window system, in particular a sunshade energy-saving window system with built-in double hollow glass.

Background technique

Implementing building energy conservation, reducing building energy consumption, and reducing environmental pollution are the only ways to achieve a low-carbon economy. With the improvement of our country's requirements for building energy conservation, doors and windows, as one of the building envelopes, maintain the original function of light transmission and ventilation, and the performance of thermal insulation is an important indicator of energy conservation.

At present, most energy-saving doors and windows in the market use lov-e glass, but the cost of this glass is relatively high, and although it can shade the sun, it has poor thermal insulation. In summer, the indoor temperature is high, and the corresponding energy consumption increases. Another energy-saving door and window is to place sunshade curtains inside the insulating glass. , the biggest disadvantage of this product is its short life and difficult maintenance. It needs to destroy the hollow glass and return it to the factory to make it again.

Contents of the invention

The purpose of this utility model is to overcome the technical defects of the existing products, and manufacture a new type of energy-saving door and window that is economical in cost, easy to maintain, and can improve the thermal insulation performance of the door and window. The specific technical scheme is as follows:

A double insulating glass built-in sunshade energy-saving window system, including insulating glass, sunshade curtain, single glass and frame; the single glass and insulating glass are set on the frame, the insulating glass is set on the outdoor side, and the single glass is set on the indoor side Side; a sunshade is set between the monolithic glass and the insulating glass. The sunshades are built-in curtains or venetian blinds. The total thickness d of the frame is 60-80 mm.

The frame includes a hollow glass support profile and a single glass support profile, and a connecting structure is arranged between the two. The connecting structure between the hollow glass support profile and the monolithic glass support profile is a heat insulating strip.

The monolithic glass supporting profile is provided with parallel monolithic glass installation grooves and sunshade curtain installation grooves.

The indoor side wall of the monolithic glass installation groove is provided with an indoor buckle; the bottom of the monolithic glass installation groove is provided with a groove, and the lower part of the indoor buckle is inserted into the groove; the upper side wall of the indoor buckle is provided with barbed structure.

The hollow glass supporting profile is provided with a hollow glass installation groove; the upper part of the outdoor side wall of the hollow glass installation groove is provided with a barb structure; the indoor side wall of the hollow glass installation groove is provided with an inner buckle; There is a groove at the bottom of the groove, and the lower part of the inner buckle is inserted into the groove; the upper side wall of the inner buckle is provided with a barb structure.

The connection between the hollow glass and the single glass and the frame is provided with a sealing structure, and the sealing structure is a sealing bead and/or a sealant.

The frame can be made of an aluminum profile to form a broken bridge heat-insulating aluminum alloy profile.

The heat-insulated aluminum alloy window of the broken bridge with this structure adopts a triple-glazed structure, with hollow glass on the outside, single-pane glass on the inside, and sunshade curtains between the hollow glass and the single-pane glass. The outer insulating glass itself has the function of heat preservation, and the inner single-piece glass not only enhances the effect of heat preservation and energy saving, but also facilitates indoor disassembly and maintenance. The cavity between the inner and outer glass is suitable for the telescopic opening and closing of the sunshade curtain. shading effect. After testing, the K value of the thermal insulation performance of the new energy-saving doors and windows reaches 2.0W/(m ² .K), and the thermal insulation performance is remarkable.

In terms of use, the built-in sunshade curtain can adopt the telescopic or rolling shutter type in the prior art. The internal parts are simple and easy to operate, and can be controlled by electric remote control, manual operation or magnetic suction.

The broken bridge heat-insulating aluminum alloy profile of the frame frame of this structure is a good multi-cavity energy-saving building material. It is characterized by good heat preservation, but it is heavy. 60 series can be applied to the broken bridge heat insulation aluminum alloy profile, the best economic section size is 60mm, the maximum is not more than 80mm.

The utility model can effectively sunshade, heat-insulate and keep warm, and various technical indicators exceed the current national standards for energy-saving doors and windows. The test results are shown in Table 1:

Table 1:

Description of drawings

Fig. 1 is a schematic cross-sectional structure diagram of an embodiment of the utility model.

Detailed ways

Below in conjunction with accompanying drawing, the utility model will be further described:

An energy-saving window system with double hollow glass built-in sunshade, including hollow glass 2, sunshade curtain 11, single glass 1 and frame; single glass 1 and hollow glass 2 are set on the frame, hollow glass 2 is set on the outdoor side, A piece of glass 1 is arranged on one side of the room; a sunshade 11 is arranged between the single piece of glass 1 and the insulating glass 2 . The sunshade 11 is a built-in curtain or a venetian blind. The total thickness d of the frame is 60 mm.

The frame includes a hollow glass support profile 4 and a single glass support profile 3, and a connection structure is arranged between the two. The connecting structure between the hollow glass support profile 4 and the monolithic glass support profile 3 is a heat insulating strip 5 .

The monolithic glass supporting profile 3 is provided with monolithic glass installation grooves 6 and sunshade curtain installation grooves 7 parallel to each other. A side wall of the monolithic glass installation groove 6 is an indoor buckle 10; a groove is arranged at the bottom of the monolithic glass installation groove 6, and the bottom of the indoor buckle 10 is inserted into the groove. The upper side wall of the indoor buckle 10 is provided with a barb structure.

The hollow glass supporting profile 4 is provided with a hollow glass installation groove 9; the upper part of the outdoor side wall of the hollow glass installation groove 9 is provided with a barb structure; the indoor side wall of the hollow glass installation groove 9 is provided with an inner buckle 8 ; There is a groove at the bottom of the hollow glass installation groove 9, and the lower part of the inner buckle is inserted into the groove.

The upper side wall of the inner buckle 8 is provided with a barb structure.

The connection between the hollow glass 2 and the monolithic glass 1 and the frame is provided with a sealing structure, and the sealing structure is a sealing bead and/or a sealant.

In this example, the frame can be made of aluminum profiles to form a heat-insulating aluminum alloy profile for the broken bridge. In the specific application, the heat-insulating aluminum alloy profile of the broken bridge is used as the outer frame or inner fan of the energy-saving window, and the single glass is placed on the indoor side. The single glass can be 4-6mm ordinary glass or tempered safety glass, which can be easily and safely disassembled. Hollow glass Placed on the outside of the window, the hollow glass can be made into specifications of 5+9A+5mm, 5+12A+5mm or 6+9A+6mm according to the needs, and the sunshade curtain is placed between the single glass and the hollow glass, and the parts that control the opening and closing of the curtain It is a manual, electric or magnetic suction device. When the sunshade curtain is closed, the outdoor sunlight is blocked, and the heat is not easy to conduct indoors. Under the joint action of the triple-layer glass structure and the sunshade curtain, the energy-saving window has remarkable thermal insulation performance.

Claims (9)

1. two built-in sun shading and energy-saving window system of hollow glass is characterized in that comprising hollow glass, abat vent, monolithic glass and frame; Monolithic glass and hollow glass are located on the frame, and hollow glass is located at an outdoor side, and monolithic glass is located at an indoor side; Between monolithic glass and hollow glass, abat vent is set.

2. the built-in sun shading and energy-saving window system of pair hollow glass according to claim 1 is characterized in that described abat vent is built-in curtain or blind.

3. the built-in sun shading and energy-saving window system of pair hollow glass according to claim 1, the gross thickness d that it is characterized in that described frame is 60～80mm.

4. the built-in sun shading and energy-saving window system of pair hollow glass according to claim 1 is characterized in that described frame comprises that hollow glass supports section bar and monolithic glass supports section bar, is provided with syndeton between the two.

5. the built-in sun shading and energy-saving window system of pair hollow glass according to claim 4 is characterized in that the syndeton that described hollow glass supports between section bar and the monolithic glass support section bar is a heat insulating strip.

6. the built-in sun shading and energy-saving window system of pair hollow glass according to claim 4 is characterized in that described monolithic glass supports section bar and is provided with monolithic glass mounting groove and the abat vent mounting groove that is parallel to each other.

7. the built-in sun shading and energy-saving window system of pair hollow glass according to claim 6 is characterized in that an indoor sidewall of monolithic glass mounting groove is provided with indoor profile; Bottom at the monolithic glass mounting groove is provided with groove, and insert in this groove this indoor profile bottom; The upper portion side wall of this indoor profile is provided with the hangnail structure.

8. the built-in sun shading and energy-saving window system of pair hollow glass according to claim 7 is characterized in that described hollow glass supports section bar and is provided with the hollow glass mounting groove; The top of an outdoor sidewall of hollow glass mounting groove is provided with the hangnail structure; An indoor sidewall of hollow glass mounting groove is provided with interior profile; Be provided with groove in hollow glass mounting groove bottom, insert in this groove interior profile bottom; The upper portion side wall of profile is provided with the hangnail structure in being somebody's turn to do.

9. the built-in sun shading and energy-saving window system of pair hollow glass according to claim 1 is characterized in that the junction of described hollow glass and monolithic glass and frame is provided with hermetically-sealed construction, and the sealing structure is seal trim strip and/or fluid sealant.

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