CN212248898U - Energy-conserving building constructional column and aluminum alloy window junction node structure - Google Patents

Abstract

The utility model provides a joint structure of a connecting part of an energy-saving building constructional column and an aluminum alloy window, which comprises a constructional column, a heat-insulating wall body, an aluminum alloy window, a connecting piece, a heat-insulating layer, an additional heat-insulating layer, an alkali-resistant gridding cloth layer, a waterproof heat-insulating mortar layer, a sealing glue layer and a plastering layer; the inner side surface of the heat-insulating wall body is constructed to be flush with the inner side surface of the constructional column, and a waterproof heat-insulating mortar layer is filled in a gap between the heat-insulating wall body and the constructional column; the outer side of the constructional column is fixedly attached with a heat preservation layer, the outer surface of the heat preservation layer is flush with the outer surface of the heat preservation wall, one end of the heat preservation layer is abutted against the end face of the heat preservation wall, the other end of the heat preservation layer is flush with the side face of the constructional column, an additional heat preservation layer is built on the outer side of the polyurethane foam filling layer, and both sides of the edge of the aluminum alloy window are provided with through long sealing glue layers; and an alkali-resistant mesh fabric layer is fixedly bonded to the outer surface of the additional heat-insulating layer in a covering manner, and a layer of alkali-resistant mesh fabric layer is arranged at the junction of the inner side surface of the constructional column and the inner side surface of the heat-insulating wall.

Description

Energy-conserving building constructional column and aluminum alloy window junction node structure

Technical Field

The utility model relates to an energy-conserving building construction technical field especially relates to an energy-conserving building constructional column and aluminum alloy window junction node structure.

Background

The energy-saving building reasonably uses energy and continuously improves the energy utilization efficiency under the condition of ensuring the improvement of the building comfort. The energy consumption caused by large heat consumption is reduced by increasing the heat exchange resistance between indoor and outdoor energy; the construction treatment of the installation joint of the existing energy-saving building constructional column and the aluminum alloy is poor, the indoor and outdoor energy exchange of the installation joint of the constructional column and the aluminum alloy is high, a large amount of energy consumption loss is caused, and the plastering layer at the position is easy to fall off due to more connecting gaps, so that the using effect of an energy-saving building is influenced, and therefore, a node structure at the joint of the energy-saving building constructional column and the aluminum alloy window is urgently needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide an energy-conserving building constructional column and aluminum alloy window junction node structure, adopt the utility model discloses a structure is equipped with the heat preservation at the constructional column lateral surface, be equipped with additional heat preservation in the constructional column and the aluminum alloy window junction outside, be equipped with waterproof heat preservation mortar layer in the gap of constructional column and heat preservation wall connection department, cooperation sealing glue layer has reduced indoor outer energy exchange, energy-conserving effectual, be equipped with alkaline-resisting net cloth layer and stainless steel wire net, but constructional column and heat preservation wall body, the structural strength of near the plastering layer of aluminum alloy window junction, the detailed processing of building construction has been noticed, and structural design is reasonable, and the construction is simple.

In order to achieve the above object, the utility model adopts the following technical scheme: a node structure at the joint of an energy-saving building constructional column and an aluminum alloy window comprises a constructional column, a heat insulation wall, the aluminum alloy window, a connecting piece, a heat insulation layer, an additional heat insulation layer, an alkali-resistant mesh fabric layer, a waterproof heat insulation mortar layer, a sealing adhesive layer and a plastering layer; the constructional column is of a reinforced concrete column structure, one side face of one end of the constructional column is connected with the heat-insulating wall, and the middle part of the other opposite side face of the constructional column is provided with an aluminum alloy window; the aluminum alloy window is fixed on the constructional column by adopting a plurality of uniform connecting pieces, one end of each connecting piece is fixedly connected with the aluminum alloy window by adopting a screw, the other end of each connecting piece is fixed on the inner side of the constructional column by adopting an expansion bolt, and a polyurethane foaming filling layer is arranged in a gap between the aluminum alloy window and the constructional column; the inner side surface of the heat-insulating wall is constructed to be flush with the inner side surface of the constructional column, a waterproof heat-insulating mortar layer is filled in a gap between the heat-insulating wall and the constructional column, and both ends of the waterproof heat-insulating mortar layer are provided with through-long sealing glue layers for sealing treatment; the outer side surface of the constructional column is fixedly attached with a heat insulation layer, the heat insulation layer is a composite heat insulation plate with the thickness of 60mm, the outer surface of the heat insulation layer is flush with the outer surface of a heat insulation wall, one end of the heat insulation layer abuts against the end surface of the heat insulation wall, the other end of the heat insulation layer is flush with the side surface of the constructional column, an additional heat insulation layer is built on the outer side of the polyurethane foam filling layer, the additional heat insulation layer is a heat insulation slurry layer with the thickness of 20mm, one end of the additional heat insulation layer abuts against the edge of the aluminum alloy window, the other end of; the heat preservation and the outer surface of the additional heat preservation are laminated, covered and bonded with an alkali-resistant gridding cloth layer, the alkali-resistant gridding cloth layer covers the junction where the heat preservation and the heat preservation wall are connected and is fixed on the heat preservation wall, and the junction between the inner side surface of the constructional column and the inner side surface of the heat preservation wall is provided with the alkali-resistant gridding cloth layer.

Preferably, plastering layers are built on the inner side and the outer side of the heat-insulating wall and the constructional column, the plastering layers on two sides extend to edges on two sides of the aluminum alloy window, and stainless steel meshes are arranged in the plastering layers.

Preferably, the sealant layer is a weather-resistant waterproof silicone sealant layer.

The utility model has the advantages that: adopt the utility model discloses a structure is equipped with the heat preservation at the constructional column lateral surface, be equipped with additional heat preservation in the constructional column and the aluminum alloy window junction outside, be equipped with waterproof heat preservation mortar layer in the gap of constructional column and thermal insulation wall junction, cooperation sealing glue layer, indoor outer energy exchange has been reduced, energy-conserving effectual, be equipped with alkali-resistant net cloth layer and stainless steel wire net, but constructional column and thermal insulation wall, the structural strength of the layer of plastering near aluminum alloy window junction, notice construction's detail processing, and reasonable structural design, the construction is simple.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention.

FIG. 1 is a schematic view of a joint structure of an energy-saving building construction column and an aluminum alloy window.

Wherein: 1 is a constructional column, 2 is a heat-insulating wall body, 3 is an aluminum alloy window, 4 is a connecting piece, 5 is a heat-insulating layer, 6 is an additional heat-insulating layer, 7 is an alkali-resistant mesh fabric layer, 8 is a waterproof heat-insulating mortar layer, 9 is a sealing adhesive layer, 10 is a plastering layer, and 11 is a stainless steel wire net.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in the figure, the joint structure of the energy-saving building constructional column and the aluminum alloy window comprises a constructional column 1, a heat-insulating wall 2, an aluminum alloy window 3, a connecting piece 4, a heat-insulating layer 5, an additional heat-insulating layer 6, an alkali-resistant mesh fabric layer 7, a waterproof heat-insulating mortar layer 8, a sealant layer 9 and a plastering layer 10; the constructional column 1 is of a reinforced concrete upright column structure, one side face of one end of the constructional column 1 is connected with the heat-insulating wall 2, and the middle part of the other opposite side face of the constructional column 1 is provided with an aluminum alloy window 3; the aluminum alloy window 3 is fixed on the constructional column 1 by adopting a plurality of uniform connecting pieces 4, one end of each connecting piece 4 is fixedly connected with the aluminum alloy window 3 by adopting a screw, the other end of each connecting piece 4 is fixed on the inner side of the constructional column 1 by adopting an expansion bolt, and a polyurethane foaming filling layer is arranged in a gap between the aluminum alloy window 3 and the constructional column 1; the inner side surface of the heat-insulating wall body 2 is constructed to be flush with the inner side surface of the constructional column 1, a waterproof heat-insulating mortar layer 8 is filled in a gap between the heat-insulating wall body 2 and the constructional column 1, and both ends of the waterproof heat-insulating mortar layer 8 are provided with through-long sealing glue layers 9 for sealing treatment; the outer side surface of the constructional column 1 is fixedly attached with a heat insulation layer 5, the heat insulation layer 5 is a composite heat insulation plate with the thickness of 60mm, the outer surface of the heat insulation layer 5 is flush with the outer surface of a heat insulation wall body 2, one end of the heat insulation layer 5 abuts against the end surface of the heat insulation wall body 2, the other end of the heat insulation layer is flush with the side surface of the constructional column 1, an additional heat insulation layer 6 is built outside a polyurethane foam filling layer, the additional heat insulation layer 6 is a heat insulation slurry layer with the thickness of 20mm, one end of the additional heat insulation layer 6 abuts against the edge of the aluminum alloy window 3, the other end of the additional heat insulation layer; the outer surfaces of the heat preservation layer 5 and the additional heat preservation layer 6 are bonded and covered with an alkali-resistant mesh fabric layer 7, the alkali-resistant mesh fabric layer 7 covers the junction where the heat preservation layer 5 and the heat preservation wall body 2 are connected and is fixed on the heat preservation wall body 2, and the junction where the inner side surface of the constructional column 1 and the inner side surface of the heat preservation wall body 2 are provided with the alkali-resistant mesh fabric layer 7.

During specific implementation, plastering layers 10 are built on the inner side and the outer side of the heat-insulating wall body 2 and the constructional column 1, the plastering layers 10 on the two sides extend to the edges of the two sides of the aluminum alloy window 3, and stainless steel wire meshes 11 are arranged in the plastering layers 10.

In specific implementation, the sealant layer 9 is a weather-resistant waterproof silicone sealant layer.

Claims (3)

1. The utility model provides an energy-conserving building constructional column and aluminum alloy window junction node structure which characterized in that: the building comprises a constructional column, a heat insulation wall, an aluminum alloy window, a connecting piece, a heat insulation layer, an additional heat insulation layer, an alkali-resistant mesh fabric layer, a waterproof heat insulation mortar layer, a sealing adhesive layer and a plastering layer; the constructional column is of a reinforced concrete column structure, one side face of one end of the constructional column is connected with the heat-insulating wall, and the middle part of the other opposite side face of the constructional column is provided with an aluminum alloy window; the aluminum alloy window is fixed on the constructional column by adopting a plurality of uniform connecting pieces, one end of each connecting piece is fixedly connected with the aluminum alloy window by adopting a screw, the other end of each connecting piece is fixed on the inner side of the constructional column by adopting an expansion bolt, and a polyurethane foaming filling layer is arranged in a gap between the aluminum alloy window and the constructional column; the inner side surface of the heat-insulating wall is constructed to be flush with the inner side surface of the constructional column, a waterproof heat-insulating mortar layer is filled in a gap between the heat-insulating wall and the constructional column, and both ends of the waterproof heat-insulating mortar layer are provided with through-long sealing glue layers for sealing treatment; the outer side surface of the constructional column is fixedly attached with a heat insulation layer, the heat insulation layer is a composite heat insulation plate with the thickness of 60mm, the outer surface of the heat insulation layer is flush with the outer surface of a heat insulation wall, one end of the heat insulation layer abuts against the end surface of the heat insulation wall, the other end of the heat insulation layer is flush with the side surface of the constructional column, an additional heat insulation layer is built on the outer side of the polyurethane foam filling layer, the additional heat insulation layer is a heat insulation slurry layer with the thickness of 20mm, one end of the additional heat insulation layer abuts against the edge of the aluminum alloy window, the other end of; the heat preservation and the outer surface of the additional heat preservation are laminated, covered and bonded with an alkali-resistant gridding cloth layer, the alkali-resistant gridding cloth layer covers the junction where the heat preservation and the heat preservation wall are connected and is fixed on the heat preservation wall, and the junction between the inner side surface of the constructional column and the inner side surface of the heat preservation wall is provided with the alkali-resistant gridding cloth layer.

2. The energy-saving building construction column and aluminum alloy window joint structure as claimed in claim 1, wherein: plastering layers are built on the inner side and the outer side of the heat-insulating wall body and the constructional column, the plastering layers on two sides extend to edges on two sides of the aluminum alloy window, and stainless steel meshes are arranged in the plastering layers.

3. The energy-saving building construction column and aluminum alloy window joint structure as claimed in claim 1, wherein: the sealing adhesive layer is a weather-resistant waterproof silicone sealing adhesive layer.

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