CN210033164U - High thermal-insulated aluminum alloy external-open unit door - Google Patents

Abstract

The utility model provides a high heat insulation aluminum alloy outward-opening unit door, a frame section bar is connected with a sash section bar through a hinge, and a multi-cavity heat insulation strip I and a multi-cavity heat insulation strip II are adopted to connect between a frame indoor side aluminum material and a frame outdoor side aluminum material to form the frame section bar; the aluminum material at the indoor side of the fan frame and the aluminum material at the outdoor side of the fan frame are connected by adopting a multi-cavity heat insulation strip III and a multi-cavity heat insulation strip IV to form a fan frame section. The utility model discloses can increase substantially the heat-proof quality.

Description

High thermal-insulated aluminum alloy external-open unit door

Technical Field

The utility model relates to a building door and window technical field, a high thermal-insulated aluminum alloy external-open unit door specifically says so.

Background

Is commonly used in engineeringThe aluminum alloy unit door generally adopts heat insulation strips with the width of less than 20mm, and the heat insulation performance can reach the heat transfer coefficient of 2.0W/m of the whole door²K is very difficult. Along with the national higher and higher energy-saving requirement on the building outer door, an aluminum alloy outer-opening unit door system with higher heat-insulating property is required to meet the market demand, reduce the energy consumption and save the energy.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high thermal-insulated aluminum alloy external-open unit door.

The utility model adopts the technical proposal that:

a high heat insulation aluminum alloy outward opening unit door is characterized in that a frame section bar is connected with a sash section bar through a hinge in a shaft mode, and a multi-cavity heat insulation strip I and a multi-cavity heat insulation strip II are connected between an indoor aluminum material and an outdoor aluminum material of the frame to form the frame section bar;

the aluminum material at the indoor side of the fan frame and the aluminum material at the outdoor side of the fan frame are connected by adopting a multi-cavity heat insulation strip III and a multi-cavity heat insulation strip IV to form a fan frame section.

A heat insulation strip cavity is formed between the multi-cavity heat insulation strip I and the multi-cavity heat insulation strip II, and a sponge foaming plug strip with a wavy cross section is arranged in the heat insulation strip cavity.

A heat insulation strip cavity is formed between the three multi-cavity heat insulation strips and the four multi-cavity heat insulation strips, and sponge foaming plug strips with wavy cross sections are arranged in the heat insulation strip cavity.

And an isobaric adhesive tape is clamped and fixed on the aluminum material at the indoor side of the fan frame and the multi-cavity heat insulation strip.

And a multi-cavity adhesive tape is clamped and fixed on the aluminum material at the indoor side of the frame and the multi-cavity heat insulation strip II together.

The frame section bar and the sash section bar are hermetically connected through an isobaric adhesive tape and a multi-cavity adhesive tape.

A high-heat-preservation door core plate is arranged in the sash frame section, and a sponge foaming plug strip with a wavy cross section is arranged in a gap between the periphery of the high-heat-preservation door core plate and the sash frame section.

And the inner side aluminum material of the doorsill and the outer side aluminum material of the doorsill are connected by a multi-cavity heat insulation strip I and a multi-cavity heat insulation strip II to form the doorsill sectional material.

And a third sealing rubber strip is arranged between the outdoor aluminum material of the fan frame and the outdoor aluminum material of the frame.

The aluminum material at the indoor side of the sash frame is fixedly connected with the core board of the high-heat-insulation door through the buckling strips and the adhesive tapes in the glass.

Handles are respectively arranged on the aluminum material at the indoor side of the fan frame and the aluminum material at the outdoor side of the fan frame.

The utility model has the advantages that:

1. the utility model discloses the compressible volume of compound adhesive tape is bigger than ordinary stereoplasm rubber adhesive tape, can effectively improve the sealing performance of whole window to improve the thermal-insulated effect of whole window.

2. The utility model discloses multi-chamber heat insulating strip width is 35.3mm, has improved aluminum alloy ex-trusions's thermal-insulated effect greatly.

3. The utility model discloses frame section bar, fan frame section bar heat insulating strip intracavity embeds the cross section and is wavy sponge foaming stuff strip. The sponge foaming filler strip can effectively reduce heat radiation and convection between indoor and outdoor aluminum material walls, thereby improving the heat insulation performance of the aluminum alloy section.

4. The utility model discloses it is wavy sponge foaming stuff strip to design the cross section between the gap of high heat preservation door core periphery and fan frame for reduce the heat transfer between the gap, thereby improve the heat-proof quality.

Drawings

Fig. 1 is a large exterior view of the unit door of the present invention.

Fig. 2 is a sectional view of the unit door a-a of the present invention.

Fig. 3 is a sectional view of the unit door B-B of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings 1-3 and the reference numerals.

A high heat insulation aluminum alloy outward opening unit door is characterized in that a frame section bar is connected with a sash section bar in a shaft mode through a hinge 1, and a multi-cavity heat insulation strip I3 and a multi-cavity heat insulation strip II 4 are connected between a frame indoor side aluminum material 2 and a frame outdoor side aluminum material 5 to form the frame section bar;

the sash frame indoor side aluminum material 9 and the sash frame outdoor side aluminum material 6 are connected by adopting a multi-cavity heat insulation strip III 301 and a multi-cavity heat insulation strip IV 401 to form a sash frame section.

A heat insulation strip cavity is formed between the multi-cavity heat insulation strip I and the multi-cavity heat insulation strip II, and a sponge foaming plug strip 12 with a wavy cross section is arranged in the heat insulation strip cavity.

A heat insulation strip cavity is formed between the three multi-cavity heat insulation strips and the four multi-cavity heat insulation strips, and sponge foaming plug strips with wavy cross sections are arranged in the heat insulation strip cavity.

And an isobaric adhesive tape 7 is clamped and fixed on the aluminum material at the indoor side of the fan frame and the multi-cavity heat insulation strip.

A multi-cavity adhesive tape 8 is clamped and fixed on the aluminum material 5 at the indoor side of the frame and the multi-cavity heat insulation strip II together; and a sealing rubber strip 10 is also arranged on the frame indoor side aluminum material 5.

The frame section bar and the sash section bar are hermetically connected through an isobaric adhesive tape and a multi-cavity adhesive tape.

A high-heat-insulation door core plate 14 is arranged in the sash frame section, and a sponge foaming plug strip with a wavy cross section is arranged in a gap between the periphery of the high-heat-insulation door core plate and the sash frame section.

And the inner side aluminum material 17 of the threshold and the outer side aluminum material 18 of the threshold are connected by adopting a first multi-cavity heat insulation strip and a second multi-cavity heat insulation strip to form the threshold section.

And a third sealing rubber strip 16 is arranged between the outdoor aluminum material of the fan frame and the outdoor aluminum material of the frame.

The aluminum material at the indoor side of the sash frame is fixedly connected with the core board of the high-heat-insulation door through the buckling strips and the glue strips 13 in the glass.

Handles 11 are respectively arranged on the aluminum material at the indoor side of the fan frame and the aluminum material at the outdoor side of the fan frame.

The high-heat-preservation door core plate 14 synthesized by XPS and aluminum plates has better heat insulation effect than a hollow glass surface material used as a door, and further improves the heat insulation performance of the whole door.

The sealing rubber strip 10, the isobaric rubber strip 7 and the third sealing rubber strip 16 are soft sponge foaming and hard rubber composite rubber strips.

Through the measures, the utility model discloses high heat-insulating aluminum alloy open unit door section bar heat transfer coefficient can reach Uf 1.6-1.9W/m2k, and whole door heat transfer coefficient can reach Uw 1.5-2.0W/m2k, satisfies the requirement of national 75% energy-conserving standard.

Examples

1. And (3) rolling and compositely connecting the indoor aluminum material 5 of the frame and the outdoor aluminum material 2 of the frame by using the multi-cavity heat insulation strips 3 and 4 to form a frame section. Sponge foaming filler strips 12 are filled in a cavity between the two heat insulation strips of the frame section.

2. And rolling and compositely connecting the fan frame indoor side aluminum material 9 and the fan frame outdoor side aluminum material 6 by using the multi-cavity heat insulation strips 3 and 4 to form a fan frame section. Sponge foaming filler strips 12 are filled in a cavity between the two heat insulation strips of the sash frame section.

3. And rolling and compositely connecting the inner aluminum material 18 of the threshold room and the outer aluminum material 17 of the threshold room by using the multi-cavity heat insulation strip 3 to form the threshold section.

4. And connecting the frame profiles with 45-degree end cuts at two ends through corner assembling, and connecting the threshold profiles with 90-degree end cuts at two ends with the frame profiles through self-tapping screws to form the frame.

5. And connecting the fan frame sectional materials with 45-degree ends at two ends through corner combining to form a fan frame.

6. And a handle 11 and other hardware are installed, and the frame and the fan frame are connected by a hinge 1.

7. And plugging the sealing rubber strip 10, the third sealing rubber strip 16, the isobaric rubber strip 7 and the multi-cavity rubber strip 8 into corresponding notches of the frame and the fan frame.

8. And (3) installing a high-heat-insulation door core plate 14, and filling a sponge foaming plug strip 12 between the periphery of the high-heat-insulation door core plate 14 and a gap of the fan frame. The high heat insulation door core plate 14 is clamped on the sash frame by the buckling strip 15 and is plugged into the in-glass adhesive strip 13.

Claims (10)

1. A high heat insulation aluminum alloy outward opening unit door is characterized in that a frame section bar is connected with a sash section bar through a hinge in a shaft way,

the frame indoor side aluminum material and the frame outdoor side aluminum material are connected through the multi-cavity heat insulation strip I and the multi-cavity heat insulation strip II to form a frame section;

the aluminum material at the indoor side of the fan frame and the aluminum material at the outdoor side of the fan frame are connected by adopting a multi-cavity heat insulation strip III and a multi-cavity heat insulation strip IV to form a fan frame section.

2. The outward opening unit door of claim 1,

a heat insulation strip cavity is formed between the multi-cavity heat insulation strip I and the multi-cavity heat insulation strip II, and a sponge foaming plug strip with a wavy cross section is arranged in the heat insulation strip cavity.

3. The outward opening unit door of claim 1, wherein a thermal insulating strip chamber is formed between the three multi-chamber thermal insulating strips and the four multi-chamber thermal insulating strips, and a sponge foaming plug strip with a wave-shaped cross section is disposed in the thermal insulating strip chamber.

4. The outward opening unit door of claim 1,

and an isobaric adhesive tape is clamped and fixed on the aluminum material at the indoor side of the fan frame and the multi-cavity heat insulation strip.

5. The outward opening unit door of claim 1,

a multi-cavity adhesive tape is clamped on the aluminum material at the indoor side of the frame and the multi-cavity heat insulation strip II together;

the frame section bar and the sash section bar are hermetically connected through an isobaric adhesive tape and a multi-cavity adhesive tape.

6. The outward opening unit door of claim 1,

a high-heat-preservation door core plate is arranged in the sash frame section, and a sponge foaming plug strip with a wavy cross section is arranged in a gap between the periphery of the high-heat-preservation door core plate and the sash frame section.

7. The outward opening unit door of claim 1, wherein the sill inner side aluminum material and the sill outer side aluminum material are connected by a first multi-cavity heat insulating strip and a second multi-cavity heat insulating strip to form a sill section.

8. The outward opening unit door of claim 1,

and a third sealing rubber strip is arranged between the outdoor aluminum material of the fan frame and the outdoor aluminum material of the frame.

9. The outward opening unit door of claim 1,

the aluminum material at the indoor side of the sash frame is fixedly connected with the core board of the high-heat-insulation door through the buckling strips and the adhesive tapes in the glass.

10. The outward opening unit door of claim 1,

handles are respectively arranged on the aluminum material at the indoor side of the fan frame and the aluminum material at the outdoor side of the fan frame.

Images