CN219061354U - Heat insulation profile structure for energy-saving door and window - Google Patents

Abstract

The utility model discloses a heat insulation profile structure for an energy-saving door and window, which comprises a first aluminum connecting strip and a second aluminum connecting strip, wherein one surface of the first aluminum connecting strip opposite to the second aluminum connecting strip integrally extends to form a first connecting part, one surface of the first aluminum connecting strip opposite to the first aluminum connecting strip integrally extends to form a second connecting part, and a supporting part integrally extends between the second connecting part and the first aluminum connecting strip. This energy-conserving door and window is with thermal-insulated section bar structure can be with second section aluminium alloy and first section aluminium alloy extension face not in with whole face contact through first aluminium strip and second aluminium strip, but through intermittent connection contact, can reduce aluminium alloy heat conduction's area like this, just also reduce heat conduction's speed, improve thermal-insulated effect.

Description

Heat insulation profile structure for energy-saving door and window

Technical Field

The utility model relates to the technical field of door and window profiles, in particular to a heat insulation profile structure for an energy-saving door and window.

Background

In order to increase lighting and ventilation area or show the character of modern buildings, the door and window area of the building is bigger and has the curtain wall building of all glass, so that the heat loss of the door and window accounts for more than 40% of the total heat loss of the building, the door and window energy conservation is the key of building energy conservation, and the heat insulation broken bridge aluminum profile for the door and window effectively prevents heat conduction by taking a plastic profile cavity in the middle as a heat insulation material through disconnection, but the heat insulation broken bridge aluminum profile has general sealing effect and reduces sound insulation and heat insulation effects.

Therefore, the patent application number CN202220900223.3 is a novel heat-insulating cavity aluminum-plastic aluminum profile, which comprises a first aluminum profile, a second aluminum profile, a third aluminum profile and a fourth aluminum profile, wherein a first heat-insulating profile is clamped between the first aluminum profile and the fourth aluminum profile, and a second heat-insulating profile is clamped between the second aluminum profile and the third aluminum profile; one side joint of second aluminium alloy has seal section bar, one side of seal section bar with one side lateral wall of first aluminium alloy is inconsistent, one side joint of first thermal-insulated section bar has middle thermal-insulated section bar, makes its rational in infrastructure, has better thermal-insulated and sound insulation effect, and first thermal-insulated section bar, second thermal-insulated section bar and middle thermal-insulated section bar are three chamber structures, and thermal conductivity is low, and thermal-insulated effectual has compensatied aluminium door and window or bridge cut-off aluminium door and window and has lost big defect with the loss in severe cold district, reduces the dewing phenomenon on the door and window, has improved the thermal-insulation energy-saving effect of door and window.

However, in the above patent CN202220900223.3, although the three-cavity structure, the sealing profile and the heat insulation profile are formed by the clamping of the plurality of profiles, so as to reduce the heat conduction area of the profiles and the sealing effect, and make the heat conduction coefficient low, and the heat insulation and sound insulation effects good, the clamping surfaces of the three-cavity structure formed by the clamping of the plurality of metal profiles are all in contact with the whole edge, so that the heat conduction is conducted in contact with the whole edge, and therefore, how to reduce the heat conduction coefficient of the heat conduction, and make the heat insulation effect better.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the heat insulation profile structure for the energy-saving door and window, which solves the problems that the heat conduction is conducted by the whole edge contact and how to reduce the heat conductivity coefficient of the heat conduction and the heat insulation effect is better because the clamping surfaces of the three-cavity structure formed by clamping the metal profiles are all in the whole edge contact.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides an energy-conserving door and window is with thermal-insulated section bar structure, includes first section aluminium alloy second section aluminium alloy, first section aluminium alloy and heat insulating strip, its characterized in that: and heat insulation conduction assemblies are symmetrically arranged on the surfaces of the second section aluminum profile and the first section aluminum profile.

The heat insulation conduction assembly comprises a first aluminum connecting strip and a second aluminum connecting strip, wherein the first aluminum connecting strip and the second aluminum connecting strip are arranged between the second section aluminum profile and the first section aluminum profile, one surface of the first aluminum connecting strip, which is opposite to the second aluminum connecting strip, integrally extends to form a first connecting portion, the first connecting portions are arranged at equal intervals, one surface of the first aluminum connecting strip, which is opposite to the first aluminum connecting strip, integrally extends to form a second connecting portion, and the second connecting portion and the first aluminum connecting strip are integrally extended to form a supporting portion, and the supporting portion is inclined and symmetrically arranged.

Preferably, the first aluminum connecting strip and the second aluminum connecting strip are arc-shaped.

Preferably, the support portion is inclined at an angle of 35-55 °.

Preferably, the surfaces of the first aluminum connecting strip and the second aluminum connecting strip and the surfaces of the second section aluminum profile and the first section aluminum profile are flush with each other.

Preferably, the heat insulation strip is in plug connection with the second section aluminum profile and the first section aluminum profile.

Advantageous effects

The utility model provides a heat-insulating section bar structure for an energy-saving door and window. Compared with the prior art, the method has the following beneficial effects:

1. this energy-conserving door and window is with thermal-insulated section bar structure can be with second section aluminium alloy and first section aluminium alloy extension face not in with whole face contact through first aluminium strip and second aluminium strip, but through intermittent connection contact, can reduce aluminium alloy heat conduction's area like this, just also reduce heat conduction's speed, improve thermal-insulated effect.

2. This energy-conserving door and window is with thermal-insulated section bar structure, through setting up between first aluminium strip, second aluminium strip, first connecting portion, second connecting portion and the supporting part, the connection and the intensity of second section aluminium alloy and first section aluminium alloy are stabilized.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model.

Fig. 2 is a front view of the structure of the present utility model.

Fig. 3 is a partial enlarged view of a portion a in fig. 1, which is a structural view of the present utility model.

FIG. 4 is a schematic view of a structural insulated conductive assembly according to the present utility model.

In the figure: 1. a second section aluminum profile; 2. a first section aluminum profile; 3. a heat insulating strip; 4. a thermally insulating conductive assembly; 41. a first aluminum connecting strip; 42. a second aluminum connecting strip; 43. a first connection portion; 44. a second connecting portion; 45. a supporting part.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. 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.

Referring to fig. 1-3, the present utility model provides a technical solution: the utility model provides an energy-conserving door and window is with thermal-insulated section bar structure, including second section aluminium alloy 1, first section aluminium alloy 2 and heat insulating strip 3, the surface symmetry of second section aluminium alloy 1 and first section aluminium alloy 2 is provided with thermal-insulated conduction subassembly 4, realize grafting connection between heat insulating strip 3 and second section aluminium alloy 1 and the first section aluminium alloy 2, and thermal-insulated conduction subassembly 4 is the integral type with second section aluminium alloy 1 and first section aluminium alloy 2 and is connected, the integral type is connected and is mainly grooved through the surface of technology at second section aluminium alloy 1 and first section aluminium alloy 2, it makes it form the shape of thermal-insulated conduction subassembly 4.

Referring to fig. 4, the heat insulation conduction assembly 4 includes a first aluminum connecting strip 41 and a second aluminum connecting strip 42 disposed between the second section aluminum profile 1 and the first section aluminum profile 2, where the first aluminum connecting strip 41 and the second aluminum connecting strip 42 may not contact the extending surfaces of the second section aluminum profile 1 and the first section aluminum profile 2 in an entire surface, but contact each other through intermittent connection, so that the area of heat conduction of the aluminum profile can be reduced, that is, the heat conduction speed is reduced, the first aluminum connecting strip 41 and the second aluminum connecting strip 42 are arc-shaped, the surfaces of the first aluminum connecting strip 41 and the second aluminum connecting strip 42 and the second section aluminum profile 1 and the first section aluminum profile 2 are flush with each other, the opposite surfaces of the first aluminum connecting strip 41 and the second aluminum connecting strip 42 integrally extend with a first connecting portion 43, and the first connecting portion 43 are equidistantly disposed, the opposite surfaces of the first aluminum connecting strip 41 integrally extend with a second connecting portion 44, and the first aluminum connecting strip 41 integrally extend with a supporting portion 45, and the supporting portion 45 are symmetrically disposed at an angle of the first connecting strip 45 and the first section aluminum profile 2, and the first connecting strip 45 and the first section aluminum profile 2 are disposed at an angle of inclination, and the first connecting portion 45 and the first connecting strip 2 are inclined.

In operation, the surface of the second section aluminum profile 1 and the surface of the first section aluminum profile 2 are integrally arranged into the heat insulation conduction component 4 through a process, the first aluminum connecting strip 41 and the second aluminum connecting strip 42 can ensure that the extension surfaces of the second section aluminum profile 1 and the first section aluminum profile 2 are not in full contact, but are in intermittent connection contact, so that the heat conduction area of the aluminum profiles can be reduced, the heat conduction speed is reduced, the heat insulation strip 3 plays a role in disconnecting the second section aluminum profile 1 and the first section aluminum profile 2 to form a bridge cut-off, the heat conduction is effectively prevented, the heat conduction coefficient is lower, the heat insulation effect is greatly improved, the first connecting part 43, the second connecting part 44 and the supporting part 45 are arranged with the first aluminum connecting strip 41 and the second aluminum connecting strip 42, the connection and the strength of the second section aluminum profile 1 and the first section aluminum profile 2 are stabilized,

and all that is not described in detail in this specification is well known to those skilled in the art.

Claims (5)

1. The utility model provides an energy-conserving door and window is with thermal-insulated section bar structure, includes second section aluminium alloy (1), first section aluminium alloy (2) and heat insulating strip (3), its characterized in that: the surfaces of the second section aluminum profile (1) and the first section aluminum profile (2) are symmetrically provided with heat insulation conduction assemblies (4);

the heat insulation conduction assembly (4) comprises a first aluminum connecting strip (41) and a second aluminum connecting strip (42) which are arranged between a second section aluminum profile (1) and a first section aluminum profile (2), wherein one surface of the first aluminum connecting strip (41) opposite to the second aluminum connecting strip (42) integrally extends to form a first connecting portion (43), the first connecting portions (43) are arranged at equal intervals, one surface of the first aluminum connecting strip (41) opposite to the first aluminum connecting strip integrally extends to form a second connecting portion (44), a supporting portion (45) integrally extends between the second connecting portion (44) and the first aluminum connecting strip (41), and the supporting portion (45) is inclined and symmetrically arranged.

2. The heat-insulating profile structure for energy-saving doors and windows according to claim 1, wherein: the first aluminum connecting strip (41) and the second aluminum connecting strip (42) are arc-shaped.

3. The heat-insulating profile structure for energy-saving doors and windows according to claim 2, characterized in that: the supporting part (45) is inclined at an angle of 35-55 degrees.

4. The heat-insulating profile structure for energy-saving doors and windows according to claim 2, characterized in that: the surfaces of the first aluminum connecting strip (41) and the second aluminum connecting strip (42) and the surfaces of the second section aluminum profile (1) and the first section aluminum profile (2) are mutually flush.

5. The heat-insulating profile structure for energy-saving doors and windows according to claim 1, wherein: the heat insulation strip (3) is in plug connection with the second section aluminum profile (1) and the first section aluminum profile (2).

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