CN218623902U

CN218623902U - Heat-insulating energy-saving aluminum alloy sliding door/window

Info

Publication number: CN218623902U
Application number: CN202222704702.0U
Authority: CN
Inventors: 王建新
Original assignee: Hangzhou Huanran Intelligent Technology Co ltd
Current assignee: Hangzhou Huanran Intelligent Technology Co ltd
Priority date: 2022-10-14
Filing date: 2022-10-14
Publication date: 2023-03-14
Anticipated expiration: 2032-10-14

Abstract

The heat-insulating energy-saving aluminum alloy sliding door and window comprises an inner aluminum alloy sliding door and window frame and an outer aluminum alloy sliding door and window frame, wherein a heat-insulating energy-saving structure is arranged on the inner side of the inner aluminum alloy sliding door and window frame, the heat-insulating energy-saving structure comprises a connecting layer and a blocking layer, and the left side of the connecting layer is fixedly connected with the inner aluminum alloy sliding door and window frame. The main material that blocks the layer is the rock wool board, the coefficient of thermal conductivity is about 0.04w/m.k, thermal conductivity is relatively poor, can block the inside efficiency of partial indoor heat transfer to interior aluminum alloy sliding door and window frame, the left side and interior aluminum alloy sliding door and window frame fixed connection of rethread articulamentum, the main material of articulamentum makes for the vacuum insulation board material, make indoor heat transmit to outer aluminum alloy sliding door and window frame in-process through interior aluminum alloy sliding door and window frame and form the bridge cut-off, thereby the indoor thermal loss has significantly reduced, the consumption of the energy has been reduced.

Description

Heat-insulating energy-saving aluminum alloy sliding door/window

Technical Field

The utility model relates to an aluminum alloy door and window technical field especially relates to a thermal-insulated energy-saving aluminum alloy sliding door.

Background

The aluminum alloy window is a window with a frame and sash structure made of aluminum alloy building profiles.

For example, patent No. CN206917521U, an energy-saving and environment-friendly aluminum alloy sliding window structure for buildings, which can remove dirt such as dust on the surface of the inner frame, but the main material of the aluminum alloy sliding window of the above documents is made of aluminum alloy material, because the thermal conductivity coefficient of the aluminum alloy material is high, when the aluminum alloy sliding window is used in cold winter, indoor heat is easily absorbed by the aluminum alloy frame of the aluminum alloy sliding window, and is transferred to the outdoor through a heat transfer manner, so that the heat preservation performance of the aluminum alloy sliding window is poor, the utilization rate of the indoor heat is reduced, heat loss is caused, and more energy needs to be consumed to maintain the indoor temperature, thereby causing energy waste.

Disclosure of Invention

The utility model discloses solve the problem that above-mentioned prior art exists, provide a thermal-insulated energy-saving aluminum alloy sliding door, solved prior art because aluminum alloy sliding door's heat preservation performance is poor to make indoor thermal utilization ratio descend and cause the problem of heat loss.

The utility model provides a technical scheme that its technical problem adopted: this kind of heat-insulating energy-saving aluminum alloy sliding door

In order to further improve the structure, the heat-insulating and energy-saving aluminum alloy sliding door and window comprises an inner aluminum alloy sliding door and window frame and an outer aluminum alloy sliding door and window frame, wherein the inner side of the inner aluminum alloy sliding door and window frame is provided with a heat-insulating and energy-saving structure, the heat-insulating and energy-saving structure comprises a connecting layer and a blocking layer, the left side of the connecting layer is fixedly connected with the inner aluminum alloy sliding door and window frame, and the outer walls of the blocking layers are fixedly connected with grooves of the inner aluminum alloy sliding door and window frame and the outer aluminum alloy sliding door and window frame respectively.

Further perfection, the right end of the connecting layer is fixedly connected with the outer aluminum alloy sliding door and window frame.

And the inner aluminum alloy sliding door and window frame and the outer aluminum alloy sliding door and window frame are fixedly connected with the sealing gaskets respectively at the outer sides of the inner ends.

Further perfection, the inner ends of the sealing gaskets on the two sides are respectively tightly attached to the glass on the two sides.

Further perfection, the inner end of the glass is fixedly connected with the inner support layer.

Further perfection, the space formed by the inner side of the glass and the supporting layer is a partition layer.

Further perfection, the inside of the partition layer is filled with inert gas.

The utility model discloses profitable effect is: the utility model discloses, the main material that blocks the layer is the rock wool board, the coefficient of thermal conductivity is about 0.04w/m.k, thermal conductivity is relatively poor, can block the inside efficiency of partial indoor heat transfer to interior aluminum alloy sliding door and window frame, the left side and interior aluminum alloy sliding door and window frame fixed connection of rethread articulamentum, the main material of articulamentum makes for the vacuum insulation panel material, the coefficient of thermal conductivity can reduce by a wide margin, can reach 0.002-0.004w/m.k, make indoor heat transfer to outer aluminum alloy sliding door and window frame in-process through interior aluminum alloy sliding door and window frame form the bridge cut-off, thereby the indoor thermal loss has significantly reduced, the consumption of the energy has been reduced.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure A in FIG. 1;

FIG. 3 is a schematic front view of the structure of FIG. 1;

fig. 4 is a schematic structural diagram of B in fig. 3.

Description of the reference numerals: 1. interior aluminum alloy sliding door frame, 2, outer aluminum alloy sliding door frame, 3, glass, 4, thermal-insulated energy-conserving structure, 4a1, articulamentum, 4a2, block the layer, 4b1, filling layer, 5, sealed pad, 6, partition layer, 7, interior supporting layer.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

example 1:

referring to figures 1-4: in the embodiment, the heat-insulating energy-saving aluminum alloy sliding door comprises an inner aluminum alloy sliding door frame 1 and an outer aluminum alloy sliding door frame 2, the inner side of the inner aluminum alloy sliding door frame 1 is provided with a heat-insulating energy-saving structure 4, the existing aluminum alloy sliding door is made of an aluminum alloy material, because the heat conductivity coefficient of the aluminum alloy material is high, when the aluminum alloy sliding door is used in cold winter, indoor heat is easily absorbed by the aluminum alloy sliding door frame, the heat is transmitted to the outdoor through a heat transfer mode, so that the utilization rate of the indoor heat is reduced to cause heat loss, more energy needs to be consumed to maintain the indoor temperature, and energy waste is caused, the heat-insulating energy-saving structure 4 comprises a connecting layer 4a1 and a blocking layer 4a2, the left side of the connecting layer 4a1 is fixedly connected with the inner aluminum alloy sliding door frame 1, and the main material of the connecting layer 4a1 is made of a vacuum heat-insulating plate material, the heat conductivity coefficient can be greatly reduced and can reach 0.002-0.004w/m.k, the outer walls of the blocking layers 4a2 are respectively and fixedly connected with the grooves of the inner aluminum alloy sliding door and window frame 1 and the outer aluminum alloy sliding door and window frame 2, the main material of the blocking layers 4a2 is rock wool boards, the heat conductivity coefficient is about 0.04w/m.k, the heat conductivity is poor, meanwhile, partial indoor heat is blocked and transmitted to the inside of the inner aluminum alloy sliding door and window frame 1 through the inner aluminum alloy sliding door and window frame 1, the right end of the connecting layer 4a1 is fixedly connected with the outer aluminum alloy sliding door and window frame 2, the outer ends of the inner aluminum alloy sliding door and window frame 1 and the outer aluminum alloy sliding door and window frame 2 are respectively and fixedly connected with the sealing gasket 5, the main material of the sealing gasket 5 is chloroprene rubber, and has good corrosion resistance, so that the shapes between the inner aluminum alloy sliding door and window frame 1 and the outer aluminum alloy sliding door and window frame 2 and glass on both sides are ensured The sealing is formed, indoor heat is prevented from losing through a gap between the glass 3 and the inner aluminum alloy sliding door and window frame 1, the material of the inner supporting layer 7 is the same as that of the sealing gasket 5, the sealing performance of the partition layer 6 is guaranteed, internal gas of the partition layer 6 is prevented from losing, the gas filled in the partition layer 6 is argon, the sealing structure has the advantages of being inactive in chemical property, poor in thermal conductivity and the like, indoor heat is prevented from being transmitted to the outdoor through the glass, heat loss is reduced, the inner ends of the sealing gaskets 5 on the two sides are tightly attached to the glass 3 on the two sides respectively, the inner ends of the glass 3 are fixedly connected with the inner supporting layer 7, a space formed by the inner side of the glass 3 and the supporting layer 7 is the partition layer 6, and inert gas is filled in the partition layer 6;

the main material that blocks layer 4a2 is the rock wool board, the coefficient of thermal conductivity is about 0.04w/m.k, thermal conductivity is relatively poor, can block partial indoor heat transfer to the inside efficiency of interior aluminum alloy sliding door and window frame 1, the left side and interior aluminum alloy sliding door and window frame 1 fixed connection of rethread articulamentum 4a1, the main material of articulamentum 4a1 is made for the vacuum insulation panel material, the coefficient of thermal conductivity can reduce by a wide margin, can reach 0.002-0.004w/m.k, make indoor heat transfer to outer aluminum alloy sliding door and window frame 2 in-process formation bridge cut-off through interior aluminum alloy sliding door and window frame 1, thereby the indoor thermal loss has significantly reduced, the consumption of the energy has been reduced.

The working principle is as follows:

Example 2:

referring to figures 1-2: in this embodiment, a thermal-insulated energy-saving aluminum alloy sliding door, wherein thermal-insulated energy-saving structure 4 can also include filling layer 4b1, blocks that layer 4a2 is inside to be filled with filling layer 4b1, and the main material of filling layer 4b1 is foaming polyurethane material, coefficient of thermal conductivity: 0.024W/(m.K), the heat insulating ability of the barrier layer 4a2 was improved.

While the invention has been shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

Claims

1. The utility model provides a thermal-insulated energy-saving aluminum alloy sliding door, includes interior aluminum alloy sliding door frame (1) and outer aluminum alloy sliding door frame (2), characterized by: the inner side of the inner aluminum alloy sliding door and window frame (1) is provided with a heat insulation energy-saving structure (4), the heat insulation energy-saving structure (4) comprises a connecting layer (4 a 1) and a blocking layer (4 a 2), the left side of the connecting layer (4 a 1) is fixedly connected with the inner aluminum alloy sliding door and window frame (1), and the outer wall of the blocking layer (4 a 2) is fixedly connected with grooves of the inner aluminum alloy sliding door and window frame (1) and the outer aluminum alloy sliding door and window frame (2) respectively.

2. The heat-insulating energy-saving aluminum alloy sliding door and window according to claim 1, characterized in that: the right end of the connecting layer (4 a 1) is fixedly connected with the outer aluminum alloy sliding door and window frame (2).

3. The heat-insulating energy-saving aluminum alloy sliding door and window as claimed in claim 1, wherein: the inner ends and the outer sides of the inner aluminum alloy sliding door and window frame (1) and the outer aluminum alloy sliding door and window frame (2) are respectively fixedly connected with a sealing gasket (5).

4. A heat-insulating energy-saving aluminum alloy sliding door and window according to claim 3, characterized in that: the inner ends of the sealing gaskets (5) at the two sides are respectively tightly attached to the glass (3) at the two sides.

5. The heat-insulating energy-saving aluminum alloy sliding door and window according to claim 4, characterized in that: the inner end of the glass (3) is fixedly connected with the inner support layer (7).

6. The heat-insulating energy-saving aluminum alloy sliding door and window as claimed in claim 5, characterized in that: and a space formed by the inner side of the glass (3) and the support layer (7) is a partition layer (6).

7. The heat-insulating energy-saving aluminum alloy sliding door and window as claimed in claim 6, wherein: the inside of the partition layer (6) is filled with inert gas.