CN209907652U

CN209907652U - Plinth node structure

Info

Publication number: CN209907652U
Application number: CN201920353506.9U
Authority: CN
Inventors: 邢乐; 王杰; 邢中福; 向永兴
Original assignee: Henan Zhongduo Building Materials Technology Co Ltd
Current assignee: Henan Zhongduo Building Materials Technology Co Ltd
Priority date: 2019-03-19
Filing date: 2019-03-19
Publication date: 2020-01-07
Anticipated expiration: 2029-03-19

Abstract

The utility model provides a plinth node structure, its characterized in that: comprises an indoor terrace layer, a concrete guide wall, a brick foundation, an outer wall, an outdoor terrace layer, a heat-insulating layer, a joint seam, a sealing glue layer and a special binder layer; the periphery of the indoor terrace layer is provided with a concrete guide wall, a brick foundation is arranged below the concrete guide wall, and an outer wall is arranged above the concrete guide wall; the outer wall is built by autoclaved aerated concrete blocks; an outdoor terrace layer is arranged on the outer side of the brick foundation below the top surface of the indoor terrace layer by 300-600 mm; the concrete guide wall and the outer side of the brick foundation are provided with a heat insulation layer above the outdoor terrace layer, the thickness of the heat insulation layer is one fifth of that of the outer wall, and the outer surface of the heat insulation layer is flush with the outer side surface of the outer wall; an intersection seam is arranged between the concrete guide wall and the outer wall, sealing glue layers are arranged at two ends of the intersection seam, and a special binder layer is arranged in a gap of the intersection seam; the utility model discloses plinth node structural stability is strong, and thermal insulation performance is superior, and water-proof effects is good.

Description

Plinth node structure

Technical Field

The utility model relates to a building field especially relates to a plinth node structure.

Background

The autoclaved aerated concrete block is a building material which is prepared by taking fly ash, lime, cement, gypsum, slag and the like as main raw materials and has excellent performances of environmental protection, sound insulation, heat preservation, light weight and the like, and is widely used at present, however, the autoclaved aerated concrete block has low surface hardness and strength, is easy to slag, powder and fragile in corners, has not ideal adhesion with cement mortar, and when the autoclaved aerated concrete block is adopted as an outer wall of a building, the problems of untight connection of a plinth part, poor heat preservation effect, water seepage and the like easily influence the overall stability, heat preservation performance and waterproof effect of the building.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect with not enough, provide a plinth node structure, this plinth node structural stability is strong, and thermal insulation performance is superior, and water-proof effects is good.

In order to achieve the above object, the utility model adopts the following technical scheme: a plinth node structure comprises an indoor terrace layer, a concrete guide wall, a brick foundation, an outer wall, an outdoor terrace layer, a heat insulation layer, an intersection seam, a sealing adhesive layer, a special plastering layer, a water dispersing layer, a separation seam, a first alkali-resistant glass fiber gridding cloth layer, a second alkali-resistant glass fiber gridding cloth layer and a caulking paste layer; the periphery of the indoor terrace layer is provided with a concrete guide wall, a brick foundation is arranged below the concrete guide wall, and an outer wall is arranged above the concrete guide wall; the outer wall is built by autoclaved aerated concrete blocks; the top surface of the concrete guide wall is 200-300mm higher than the top surface of the indoor terrace layer; an outdoor terrace layer is arranged on the outer side of the brick foundation below the top surface of the indoor terrace layer by 300-600 mm; the concrete guide wall and the outer side of the brick foundation are provided with a heat insulation layer above the outdoor terrace layer, the thickness of the heat insulation layer is one fifth of that of the outer wall, and the outer surface of the heat insulation layer is flush with the outer side surface of the outer wall; an intersection seam is arranged between the concrete guide wall and the outer wall, sealing glue layers are arranged at two ends of the intersection seam, and a special binder layer is arranged in a gap of the intersection seam; special plastering layers are coated on the two sides of the outer wall, and extend to the surface of an outdoor terrace layer which is 200-300mm away from the outer surface of the heat-insulating layer along the outer surface of the heat-insulating layer on the outer side of the outer wall; the special plastering layer extends to the indoor terrace layer from the inner side of the outer wall; a water-dispersing layer is arranged above the outdoor terrace layer, and a separation seam is arranged between the water-dispersing layer and the plastering layer on the outer side of the outer wall; the bottom surface of the special plastering layer is also provided with a first alkali-resistant glass fiber gridding cloth layer on the outer surface of the heat-insulating layer, one side of the first alkali-resistant glass fiber gridding cloth layer extends to the position which is 100-300mm above the intersection joint, and the other side of the first alkali-resistant glass fiber gridding cloth layer extends to the position which is 100-300mm away from the outer surface of the heat-insulating layer and on the surface of the outdoor; a second alkali-resistant glass fiber gridding cloth layer is arranged on the bottom surface of the special plastering layer and outside the inner end of the joint seam, and the distance from the boundary of the second alkali-resistant glass fiber gridding cloth layer to the center line of the joint seam is 200-300 mm; and the separation seams are filled with caulking paste layers.

Preferably, the width of the intersection seam is 10-30 mm.

Preferably, the gradient of the water dispersion layer is 3% -10%.

The utility model has the advantages that: the plinth node has the advantages of strong structural stability, excellent thermal insulation performance and good waterproof effect.

Drawings

FIG. 1 is a schematic diagram of a plinth node structure.

Wherein: 1 is indoor terrace layer, 2 is the concrete guide wall, 3 is the brick basis, 4 is the outer wall, 5 is outdoor terrace layer, 6 is the heat preservation, 7 is the joint seam, 8 is sealing glue layer, 9 is special binder layer, 10 is special plastering layer, 11 is the layer of loosing water, 12 is the separation seam, 13 is the fine net cloth layer of alkali-resisting glass of first, 14 is the fine net cloth layer of alkali-resisting glass of second, 15 is the caulking plaster layer.

Detailed Description

The present invention will be described in further detail with reference to fig. 1.

As shown in fig. 1, a plinth node structure comprises an indoor terrace layer 1, a concrete guide wall 2, a brick foundation 3, an outer wall 4, an outdoor terrace layer 5, a heat insulation layer 6, a joint seam 7, a sealant layer 8, a special binder layer 9, a special plastering layer 10, a water spreading layer 11, a separation seam 12, a first alkali-resistant glass fiber mesh layer 13, a second alkali-resistant glass fiber mesh layer 14 and a caulking paste layer 15; a concrete guide wall 2 is arranged on the periphery of the indoor terrace layer 1, a brick foundation 3 is arranged below the concrete guide wall 2, and an outer wall 4 is arranged above the concrete guide wall 2; the outer wall 4 is built by autoclaved aerated concrete blocks; the top surface of the concrete guide wall 2 is 200mm higher than the top surface of the indoor terrace layer 1; an outdoor terrace layer 5 is arranged on the outer side of the brick foundation 3 and 300mm below the top surface of the indoor terrace layer 1; a heat insulation layer 6 is arranged on the outer sides of the concrete guide wall 2 and the brick foundation 3 above the outdoor terrace layer 5, the thickness of the heat insulation layer 6 is one fifth of that of the outer wall 4, and the outer surface of the heat insulation layer 6 is flush with the outer side surface of the outer wall 4; a joint seam 7 is arranged between the concrete guide wall 2 and the outer wall 4, sealing glue layers 8 are arranged at two ends of the joint seam 7, and a special binder layer 9 is arranged in a gap of the joint seam 7; two sides of the outer wall 4 are coated with special plastering layers 10, and the special plastering layers 10 extend to the surface of the outdoor terrace layer 5 at a position 200mm away from the outer surface of the heat-insulating layer 6 along the outer surface of the heat-insulating layer 6 on the outer side of the outer wall 4; the special plastering layer 10 extends to the indoor terrace layer 1 from the inner side of the outer wall 4; a water-dispersing layer 11 is arranged above the outdoor terrace layer 5, and a separation gap 12 is arranged between the water-dispersing layer 11 and a special plastering layer 10 on the outer side of the outer wall 4; a first alkali-resistant glass fiber net gridding cloth layer 13 is further arranged on the outer surface of the heat preservation layer 6 on the bottom surface of the special plastering layer 10, one side of the first alkali-resistant glass fiber net gridding cloth layer 13 extends to a position 200mm above the intersection seam 7, and the other side of the first alkali-resistant glass fiber net gridding cloth layer extends to the surface of the outdoor terrace layer 5 and is 150mm away from the outer surface of the heat preservation layer 6; a second alkali-resistant glass fiber gridding cloth layer 14 is arranged on the bottom surface of the special plastering layer 10 and outside the inner end of the joint seam 7, and the distance from the boundary of the second alkali-resistant glass fiber gridding cloth layer 14 to the central line of the joint seam 7 is 200 mm; the separation seams 12 are filled with a caulking compound layer 15.

In specific implementation, the width of the intersection seam 7 is 20 mm.

In specific implementation, the gradient of the water-dispersing layer 11 is 5%.

Claims

1. A plinth node structure, characterized in that: the concrete floor comprises an indoor floor layer, a concrete guide wall, a brick foundation, an outer wall, an outdoor floor layer, a heat preservation layer, a cross joint, a sealing glue layer, a special binder layer, a special plastering layer, a water dispersing layer, a separation seam, a first alkali-resistant glass fiber gridding cloth layer, a second alkali-resistant glass fiber gridding cloth layer and a caulking paste layer; the periphery of the indoor terrace layer is provided with a concrete guide wall, a brick foundation is arranged below the concrete guide wall, and an outer wall is arranged above the concrete guide wall; the outer wall is built by autoclaved aerated concrete blocks; the top surface of the concrete guide wall is 200-300mm higher than the top surface of the indoor terrace layer; an outdoor terrace layer is arranged on the outer side of the brick foundation below the top surface of the indoor terrace layer by 300-600 mm; the concrete guide wall and the outer side of the brick foundation are provided with a heat insulation layer above the outdoor terrace layer, the thickness of the heat insulation layer is one fifth of that of the outer wall, and the outer surface of the heat insulation layer is flush with the outer side surface of the outer wall; an intersection seam is arranged between the concrete guide wall and the outer wall, sealing glue layers are arranged at two ends of the intersection seam, and a special binder layer is arranged in a gap of the intersection seam; special plastering layers are coated on the two sides of the outer wall, and extend to the surface of an outdoor terrace layer which is 200-300mm away from the outer surface of the heat-insulating layer along the outer surface of the heat-insulating layer on the outer side of the outer wall; the special plastering layer extends to the indoor terrace layer from the inner side of the outer wall; a water-dispersing layer is arranged above the outdoor terrace layer, and a separation seam is arranged between the water-dispersing layer and the plastering layer on the outer side of the outer wall; the bottom surface of the special plastering layer is also provided with a first alkali-resistant glass fiber gridding cloth layer on the outer surface of the heat-insulating layer, one side of the first alkali-resistant glass fiber gridding cloth layer extends to the position which is 100-300mm above the intersection joint, and the other side of the first alkali-resistant glass fiber gridding cloth layer extends to the position which is 100-300mm away from the outer surface of the heat-insulating layer and on the surface of the outdoor; a second alkali-resistant glass fiber gridding cloth layer is arranged on the bottom surface of the special plastering layer and outside the inner end of the joint seam, and the distance from the boundary of the second alkali-resistant glass fiber gridding cloth layer to the center line of the joint seam is 200-300 mm; and the separation seams are filled with caulking paste layers.

2. The plinth node structure of claim 1, wherein: the width of the intersection seam is 10-30 mm.

3. The plinth node structure of claim 1, wherein: the gradient of the water dispersion layer is 3% -10%.