CN212478316U - Heat-proof bridge heat-insulation connecting structure of energy-saving building awning - Google Patents

Abstract

The utility model provides a heat-proof bridge heat-insulating connecting structure of an energy-saving building awning, which comprises a boundary beam, an awning plate, a floor slab, a heat-insulating wall body, a waterproof heat-insulating mortar layer, a first heat-insulating layer, a waterproof additional layer, a plastering layer and a second heat-insulating layer; a heat-insulating wall body is built on the floor slab at a position corresponding to the boundary beam, a waterproof heat-insulating mortar layer is arranged between the bottom surface of the heat-insulating wall body and the floor slab, and a sealing glue layer arranged in a full-length mode is arranged on the outer side of the waterproof heat-insulating mortar layer for sealing treatment; a second insulating layer is fixedly attached to the outer surface of the side beam; the awning plate and the outer surface of the turned edge are jointed and built with a first heat-insulating layer, one end of the first heat-insulating layer is connected with the bottom of the heat-insulating wall body, and the other end of the first heat-insulating layer is connected with the top of a second heat-insulating layer; the waterproof layer is laid in the groove formed by the turned edge, the heat insulation wall and the awning plate, the waterproof additional layer is arranged at the corner of the first heat insulation layer and the heat insulation wall below the waterproof layer, and the end parts of the two ends of the waterproof layer and the two ends of the waterproof additional layer are respectively provided with a sealing glue layer for sealing treatment.

Description

Heat-proof bridge heat-insulation connecting structure of energy-saving building awning

Technical Field

The utility model relates to a construction technical field especially relates to an energy-conserving building canopy heat protection bridge heat preservation connection 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 existing energy-saving building awning plate is poor in energy-saving construction treatment, indoor and outdoor energy exchange at the position of the awning plate is high, so that a large amount of energy consumption loss is caused, the water leakage phenomenon is easy to occur at the position, and the using effect of an energy-saving building is influenced, so that an energy-saving building awning heat-proof bridge heat-preservation connecting structure 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 canopy heat protection bridge heat preservation connection structure, adopt the utility model discloses a structure has built first heat preservation at canopy plate surface, is equipped with the second heat preservation on the boundary beam lateral surface of canopy plate below, the cooperation has sealed glue film and waterproof insulation mortar layer, has reduced indoor and outdoor energy exchange, and energy-conserving effectual is equipped with waterproof construction such as waterproof layer and waterproof additional layer, has guaranteed the waterproof performance of canopy plate junction, has noted the detail processing of construction, 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 heat-insulation connecting structure of a heat-proof bridge of an energy-saving building awning comprises a boundary beam, an awning plate, a floor slab, a heat-insulation wall body, a waterproof heat-insulation mortar layer, a first heat-insulation layer, a waterproof additional layer, a plastering layer and a second heat-insulation layer; the boundary beam is a bearing component supported by the end part of the floor slab, the floor slab extends and builds a rain awning plate with the width of 1000-1500mm towards the outer side of the boundary beam, the two sides and the front end part of the rain awning plate are both upwards built with turned edges with the height of 250-300mm, and the rain awning plate, the turned edges, the floor slab and the boundary beam are cast to form an integrated reinforced concrete structure; a heat-insulating wall is built on the floor slab at a position corresponding to the boundary beam, a waterproof heat-insulating mortar layer is arranged between the bottom surface of the heat-insulating wall and the floor slab, a sealing glue layer arranged in a full length mode is arranged on the outer side of the waterproof heat-insulating mortar layer for sealing treatment, and an indoor surface layer is built on the floor slab; a second heat-insulating layer is fixedly attached to the outer surface of the side beam, and the second heat-insulating layer is a composite heat-insulating plate heat-insulating layer with the thickness of 50 mm; a first heat preservation layer is built on the outer surfaces of the awning plate and the turning edge in a laminating mode, the first heat preservation layer is a heat preservation slurry heat preservation layer with the thickness of 30mm, one end of the first heat preservation layer is connected with the bottom of the heat preservation wall, and the other end of the first heat preservation layer is connected with the top of a second heat preservation layer; a waterproof layer is laid in a groove formed by the turned edge, the heat-insulating wall and the awning plate, one end of the waterproof layer is fixed at the top of the turned edge, the other end of the waterproof layer extends upwards along the heat-insulating wall to cover 500-600mm, a waterproof additional layer is arranged below the waterproof layer at the corner of the first heat-insulating layer and the heat-insulating wall, the width of the waterproof additional layer laid on two sides of the corner is 300-350mm, and the end parts of two ends of the waterproof layer and the waterproof additional layer are respectively provided with a sealing glue layer for sealing treatment; and a plastering layer is built on the inner and outer sides of the heat-insulating wall body, the outer surfaces of the first heat-insulating layer and the second heat-insulating layer and the waterproof layer, a drainage slope with 3% slope towards the turning side is built on the awning plate on the plastering layer, and an alkali-resistant gridding cloth layer is arranged in the plastering layer.

During specific implementation, the plastering layer is a 10mm thick anti-crack mortar plastering layer, a water guide slope with a slope of 5% to the heat preservation wall side is built on the top of the plastering layer along the turning edge, and a water dripping line structure which is arranged along the width direction of the awning plate is built at the outermost end of the bottom surface of the awning plate on the plastering layer.

Preferably, drain pipes are embedded in the turned edges of the two sides in front of the rain tent plate, the drain pipes extend outwards by 200mm, and the diameters of the drain pipes are larger than 50 mm.

Preferably, the waterproof layer and the waterproof additional layer are self-adhesive waterproof coiled material waterproof layers.

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

The utility model has the advantages that: adopt the utility model discloses a structure has built first heat preservation at the canopy board surface, is equipped with the second heat preservation on the boundary beam lateral surface of canopy board below, and the cooperation has sealed glue film and waterproof heat preservation mortar layer, has reduced indoor outer energy exchange, and energy-conserving effectual is equipped with waterproof construction such as waterproof layer and waterproof additional layer, has guaranteed the waterproof performance of canopy board junction, has noted the detail processing of construction, and structural design is reasonable, and 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 heat-insulating connecting structure of a heat-proof bridge of an energy-saving building awning.

Wherein: 1 is boundary beam, 2 is canopy board, 3 is turned over along, 4 is floor, 5 is thermal insulation wall, 6 is waterproof insulation mortar layer, 7 is sealant layer, 8 is first heat preservation, 9 is waterproof layer, 10 is waterproof additional layer, 11 is plastering layer, 12 is second heat preservation, 13 is drain pipe, 14 is alkali-proof net cloth layer, 4-1 is indoor surface course, 11-1 is drainage slope, 11-2 is water guide slope, 11-3 is the line structure that drips.

Detailed Description

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

As shown in the figure, the heat-insulation connecting structure of the energy-saving building awning heat-proof bridge comprises a boundary beam 1, an awning plate 2, a floor slab 4, a heat-insulation wall 5, a waterproof heat-insulation mortar layer 6, a first heat-insulation layer 8, a waterproof layer 9, a waterproof additional layer 10, a plastering layer 11 and a second heat-insulation layer 12; the boundary beam 1 is a bearing stress component at the end part of the floor slab 4, the floor slab 4 extends and builds a canopy plate 2 with the width of 1000-1500mm towards the outer side of the boundary beam 1, two sides and the front end part of the canopy plate 2 are both upwards built with turned edges 3 with the height of 250-300mm, and the canopy plate 2, the turned edges 3, the floor slab 4 and the boundary beam 1 are cast to form an integrated reinforced concrete structure; a heat-insulating wall body 5 is built on the floor slab 4 corresponding to the position of the boundary beam 1, a waterproof heat-insulating mortar layer 6 is arranged between the bottom surface of the heat-insulating wall body 5 and the floor slab 4, a sealing adhesive layer 7 arranged in a full length mode is arranged on the outer side of the waterproof heat-insulating mortar layer 6 for sealing treatment, and an indoor surface layer 4-1 is built on the floor slab 4; a second heat-insulating layer 12 is fixedly attached to the outer surface of the side beam 1, and the second heat-insulating layer 12 is a composite heat-insulating plate heat-insulating layer with the thickness of 50 mm; a first heat-insulating layer 8 is constructed on the outer surfaces of the awning plate 2 and the turned edge 3 in a fitting manner, the first heat-insulating layer 8 is a heat-insulating slurry heat-insulating layer with the thickness of 30mm, one end of the first heat-insulating layer 8 is connected with the bottom of the heat-insulating wall 5, and the other end of the first heat-insulating layer is connected with the top of a second heat-insulating layer 12; a waterproof layer 9 is laid in a groove formed by the turned edge 3, the heat-insulating wall 5 and the awning plate 2, one end of the waterproof layer 9 is fixed at the top of the turned edge 3, the other end of the waterproof layer extends upwards along the heat-insulating wall 5 to cover 500-600mm, a waterproof additional layer 10 is arranged at the corner of the first heat-insulating layer 8 and the heat-insulating wall 5 below the waterproof layer 9, the width of the waterproof additional layer 10 laid at two sides of the corner is 300-350mm, and sealing glue layers 7 are arranged at the end parts of two ends of the waterproof layer 9 and the waterproof additional layer 10 for sealing treatment; a plastering layer 11 is built on the inner side and outer side of the heat-insulating wall body 5, the outer surfaces of the first heat-insulating layer 8 and the second heat-insulating layer 12 and the waterproof layer, a drainage slope 11-1 with 3% slope towards the turning side is built on the awning plate 2 on the plastering layer 11, and an alkali-resistant mesh fabric layer 14 is arranged in the plastering layer 11.

In specific implementation, the plastering layer 11 is an anti-crack mortar plastering layer with the thickness of 10mm, a water guide slope 11-2 with the slope of 5% to the side of the heat preservation wall is built on the top of the turned edge 3 of the plastering layer 11, and a water dropping line structure 11-3 which is arranged along the width direction of the awning plate 2 is built on the outermost end of the bottom surface of the awning plate 2 on the plastering layer 11.

During specific implementation, drain pipes 13 are embedded in the turned edges of the two sides in front of the awning plate 2, the drain pipes 13 extend outwards by 200mm, and the diameters of the drain pipes 13 are larger than 50 mm.

In specific implementation, the waterproof layer 9 and the additional waterproof layer 10 are self-adhesive waterproof roll waterproof layers.

In specific implementation, the sealant layer 7 is a weather-resistant waterproof silicone building sealant layer.

Claims (5)

1. The utility model provides an energy-conserving building canopy heat protection bridge heat preservation connection structure which characterized in that: the waterproof thermal insulation structure comprises a boundary beam, a canopy plate, a floor slab, a thermal insulation wall body, a waterproof thermal insulation mortar layer, a first thermal insulation layer, a waterproof additional layer, a plastering layer and a second thermal insulation layer; the boundary beam is a bearing component supported by the end part of the floor slab, the floor slab extends and builds a rain awning plate with the width of 1000-1500mm towards the outer side of the boundary beam, the two sides and the front end part of the rain awning plate are both upwards built with turned edges with the height of 250-300mm, and the rain awning plate, the turned edges, the floor slab and the boundary beam are cast to form an integrated reinforced concrete structure; a heat-insulating wall is built on the floor slab at a position corresponding to the boundary beam, a waterproof heat-insulating mortar layer is arranged between the bottom surface of the heat-insulating wall and the floor slab, a sealing glue layer arranged in a full length mode is arranged on the outer side of the waterproof heat-insulating mortar layer for sealing treatment, and an indoor surface layer is built on the floor slab; a second heat-insulating layer is fixedly attached to the outer surface of the side beam, and the second heat-insulating layer is a composite heat-insulating plate heat-insulating layer with the thickness of 50 mm; a first heat preservation layer is built on the outer surfaces of the awning plate and the turning edge in a laminating mode, the first heat preservation layer is a heat preservation slurry heat preservation layer with the thickness of 30mm, one end of the first heat preservation layer is connected with the bottom of the heat preservation wall, and the other end of the first heat preservation layer is connected with the top of a second heat preservation layer; a waterproof layer is laid in a groove formed by the turned edge, the heat-insulating wall and the awning plate, one end of the waterproof layer is fixed at the top of the turned edge, the other end of the waterproof layer extends upwards along the heat-insulating wall to cover 500-600mm, a waterproof additional layer is arranged below the waterproof layer at the corner of the first heat-insulating layer and the heat-insulating wall, the width of the waterproof additional layer laid on two sides of the corner is 300-350mm, and the end parts of two ends of the waterproof layer and the waterproof additional layer are respectively provided with a sealing glue layer for sealing treatment; and a plastering layer is built on the inner and outer sides of the heat-insulating wall body, the outer surfaces of the first heat-insulating layer and the second heat-insulating layer and the waterproof layer, a drainage slope with 3% slope towards the turning side is built on the awning plate on the plastering layer, and an alkali-resistant gridding cloth layer is arranged in the plastering layer.

2. The energy-saving building awning heat-proof bridge heat-insulation connecting structure as claimed in claim 1, wherein: the plastering layer is a 10 mm-thick anti-crack mortar plastering layer, a water guide slope with a slope of 5% to the side of the heat-insulating wall is built on the plastering layer along the top, and a water dripping line structure which is arranged along the width direction of the awning plate is built at the outermost end of the bottom surface of the awning plate on the plastering layer.

3. The energy-saving building awning heat-proof bridge heat-insulation connecting structure as claimed in claim 1, wherein: drainage pipes are embedded in the turning edges on the two sides of the front of the awning plate, the drainage pipes extend outwards by 200mm, and the diameters of the drainage pipes are larger than 50 mm.

4. The energy-saving building awning heat-proof bridge heat-insulation connecting structure as claimed in claim 1, wherein: the waterproof layer and the waterproof additional layer are self-adhesive waterproof coiled material waterproof layers.

5. The energy-saving building awning heat-proof bridge heat-insulation connecting structure as claimed in claim 1, wherein: the sealing adhesive layer is a weather-resistant waterproof silicone building sealing adhesive layer.

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