CN210395719U - Cast-in-place composite wall with internal interlayer - Google Patents

Abstract

The utility model discloses a cast-in-place composite wall with an internal interlayer, which comprises an inner wall (1) and an outer wall (2) which are formed by concrete pouring, wherein the inner wall (1) and the outer wall (2) are arranged in parallel; a heat-insulating interlayer (3) is arranged between the inner wall (1) and the outer wall (2), and the heat-insulating interlayer (3) is formed by splicing a plurality of heat-insulating plates (31) into a plate shape; two sides of the joint of two adjacent heat insulation boards (31) are respectively provided with a first fixed clamping piece (4) and a second fixed clamping piece (5), and the first fixed clamping piece (4) and the second fixed clamping piece (5) are attached to the surface of the heat insulation board (31). The utility model has the advantages of it can overcome prior art's drawback, and structural design is reasonable novel.

Description

Cast-in-place composite wall with internal interlayer

Technical Field

The utility model relates to a cast-in-place composite wall with inside intermediate layer belongs to the building field.

Background

The house building scale of China is huge, and the house building reaches 16 hundred million-20 hundred million square meters every year in recent years. Such huge building scale is unprecedented in the world; in our history, these decades are the high tide of building construction. The outer wall is a member for enclosing the building to form the boundary between indoor and outdoor. The outer wall of the building has the functions of shielding wind and rain, preserving heat, insulating heat, preventing noise and the like. The existing external wall with the heat-insulation interlayer mostly adopts a form that an inner wall body and an outer wall body are simultaneously poured in order to improve the construction efficiency. Because the thickness of inlayer wall body is greater than outer wall body, the heat preservation intermediate layer both sides receive pressure difference when pouring, and the easy pressurized emergence of heat preservation interbedded heated board border department warp for the seam crossing fracture of two heated boards, after the concrete is done admittedly, the seam crossing fracture department of two heated boards can be link up and form the heat bridge by the concrete, influences the heat insulating ability of wall body.

SUMMERY OF THE UTILITY MODEL

The technical scheme of the utility model to exist among the prior art: "because the thickness of inlayer wall body is greater than outer wall body, the heat preservation intermediate layer both sides receive pressure difference when pouring, and the heat preservation interbedded heated board border department is pressed easily and takes place to warp for the seam crossing fracture of two heated boards, after the concrete is done admittedly, the seam crossing fracture department of two heated boards can be link up and form the heat bridge by the concrete, influences the not enough of the heat insulating ability of wall body", provides a cast-in-place composite wall body with inside intermediate layer.

In order to solve the technical problem, the technical scheme adopted by the utility model is that the cast-in-place composite wall body with the internal interlayer comprises an inner wall body and an outer wall body which are formed by concrete pouring, wherein the inner wall body and the outer wall body are arranged in parallel; a heat-insulating interlayer is arranged between the inner wall and the outer wall, and the heat-insulating interlayer is formed by splicing a plurality of heat-insulating plates into a plate shape; a first fixed clamping piece and a second fixed clamping piece are respectively arranged on two sides of a joint of two adjacent heat insulation plates, the first fixed clamping piece and the second fixed clamping piece are attached to the surfaces of the heat insulation plates, an internal through rod is arranged between the first fixed clamping piece and the second fixed clamping piece, and the internal through rod penetrates through the heat insulation interlayer, the first fixed clamping piece and the second fixed clamping piece and is fixed with the first fixed clamping piece and the second fixed clamping piece; the two ends of the internal through rod respectively penetrate through the inner wall body and the outer wall body, and the end faces of the two ends of the internal through rod are respectively positioned on the same plane with the surfaces of the inner wall body and the outer wall body.

Among the technical scheme of this application, will keep warm the intermediate layer and set up between inlayer wall body and outer wall body, the both sides of the seam crossing of two adjacent heated boards are supported through fixed clamping piece one, fixed clamping piece two, and fixed clamping piece one, fixed clamping piece two are fixed through inside through-rod and heat preservation intermediate layer for fixed clamping piece one, fixed clamping piece two are fixed to be laminated in the both sides of the seam crossing of two adjacent heated boards. When concrete is poured, the first fixing clamping piece and the second fixing clamping piece form an external support on two sides of the joint of the two adjacent heat-insulation plates, the two adjacent heat-insulation plate edges are supported, and the two adjacent heat-insulation plate edges are prevented from being deformed due to compression.

Preferably, in the cast-in-place composite wall with the internal interlayer, the surface of the heat-insulating interlayer facing the outer wall is bonded with the metal net, and the metal net is fixed with the heat-insulating interlayer through weather-resistant glue.

In this application, set up the metal mesh on heat preservation intermediate layer surface, the metal mesh can set up in heat preservation interbedded unilateral or both sides to support heat preservation interbedded surface, improve heat preservation interbedded surface compressive strength, and with the surface connection of a plurality of heated boards, improve heat preservation interbedded wholeness.

Preferably, the cast-in-place composite wall body with the internal interlayer comprises a first through rod and a second through rod, the first through rod penetrates through the first fixed clamping piece and is fixedly connected with the first fixed clamping piece, and the second through rod penetrates through the second fixed clamping piece and is fixedly connected with the second fixed clamping piece; one end of the first through rod penetrates through the inner wall, the other end of the first through rod penetrates through the heat insulation interlayer, and a plug cavity is formed in the other end of the first through rod; one end of the second through rod penetrates through the outer wall, and the other end of the second through rod is inserted into the insertion cavity at one end of the first through rod and is fixedly connected with the first through rod.

In this application, inside expert pole comprises expert pole one and expert pole two. When inside leads to the pole fixedly, earlier pass the heat preservation intermediate layer with the one end that leads to the pole one for fixed clamping piece is laminated in the seam crossing of two adjacent heated boards, and the tip that leads to the pole one passes can wear out from heat preservation intermediate layer's opposite side surface after passing the heat preservation intermediate layer, then will lead to the pole two and peg graft in leading to the pole one from the tip that leads to the pole one and pass the heat preservation intermediate layer, makes fixed clamping piece two laminate in the seam crossing of two adjacent heated boards, leads to pole one and leads to the pole two to pass through frictional force and fix. Compare seam crossing unilateral at two adjacent heated boards and set up the backup pad and support, make fixed clamping piece one, fixed clamping piece two can press from both sides the seam crossing of two adjacent heated boards tightly fixedly through the grafting frictional force that leads to between pole one and the pole two in this application, have better supporting effect.

Preferably, the cast-in-place composite wall body with the internal interlayer is characterized in that the first through rod and the second through rod are both hollow, and the first through rod and the second through rod are communicated with each other and filled with foaming heat-preservation glue.

This application is pouring the in-process, and the tip that leads to pole one and lead to pole two generally contradicts on the template is pour to inlayer wall body, outer wall body, and inside lead to pole takes place to remove in the axial when can preventing to pour like this, improves the fixed degree that the seam crossing of two adjacent heated boards is pressed from both sides tightly. But when pouring, concrete to pouring template application of pressure can make the pouring template deformation thereby make the end of through-rod one, through-rod two with break away from the contact. So this application sets up logical pole one and logical pole two to inside cavity, can be when pouring in logical pole one, logical pole two interior through-going a reinforcing bar, the tip of reinforcing bar can pass pours the template and fixed with preforming or nut at the tip for it reduces the deformation to pour the template, also reduces the removal of logical pole one, logical pole two. After pouring is finished, the two ends of the first through rod and the second through rod can be filled with foam rubber to seal the first through rod and the second through rod.

Preferably, in the cast-in-place composite wall with the internal interlayer, the surface of one end of the through rod II, which is inserted into the through rod I, is provided with annular fixed teeth, and the inner surface of the insertion cavity at one end of the through rod is provided with an annular groove matched with the fixed teeth.

In this application, through the cooperation of fixed tooth and ring channel for lead to pole two and lead to the grafting firmness of pole one higher, so that fixed clamping piece one, fixed clamping piece two can have sufficient contact pressure with the seam crossing surface of two adjacent heated boards.

Preferably, in the cast-in-place composite wall body with the internal interlayer, the end of the first through rod inserted in the heat-insulating interlayer is conical, and the conical bottom end face of the end of the first through rod inserted in the heat-insulating interlayer faces the first fixed clamping piece.

In this application, will lead to one pole and peg graft and set up to conical in the intraformational one end of heat preservation intermediate layer, can conveniently pass the heat preservation intermediate layer with the tip that leads to one pole when the operation, reduce the construction degree of difficulty.

Optimally, the end parts of the heat-insulating plates are provided with tongue-and-groove bulges, and the end parts of two adjacent heat-insulating plates are fixedly inserted through the tongue-and-groove bulges; the inner through rod penetrates through the tongue-and-groove protrusion.

In this application, set up tongue-and-groove arch at the tip of heated board, make things convenient for the heated board concatenation location to increased the area of contact of two adjacent heated board seams department, thereby increased the length that the thick liquid passageway was run to the concrete, reduced the concrete and run the possibility of thick liquid.

Preferably, the cast-in-place composite wall body with the internal interlayer is characterized in that a steel bar support is arranged in the inner wall body, pouring cushion blocks are respectively arranged on two sides of the heat-insulating interlayer, and the pouring cushion blocks are bound and fixed with the steel bar support; one end of the pouring cushion block is attached to the heat-insulating interlayer.

In this application, support the both sides of heat preservation intermediate layer and inlayer wall body, outer wall body through pouring the cushion and pour the interval of mould. The pouring cushion block is formed by pouring concrete which is the same as the inner wall body and the outer wall body in advance, and is connected with the inner wall body and the outer wall body into a whole after pouring.

Preferably, in the cast-in-place composite wall with the internal interlayer, the casting cushion block is internally provided with the internal reinforcing steel bar rod, and the end part of the internal reinforcing steel bar rod protrudes out of the surface of the casting cushion block and is inserted into the heat preservation interlayer.

In this application, pour inside reinforcing bar pole that uses of cushion and improve intensity to in the heat preservation intermediate layer is pricked into to the tip of inside reinforcing bar pole, the fixed relative position of pouring cushion and heat preservation intermediate layer.

The utility model has the advantages of it can overcome prior art's drawback, and structural design is reasonable novel. Among the technical scheme of this application, will keep warm the intermediate layer and set up between inlayer wall body and outer wall body, the both sides of the seam crossing of two adjacent heated boards are supported through fixed clamping piece one, fixed clamping piece two, and fixed clamping piece one, fixed clamping piece two are fixed through inside through-rod and heat preservation intermediate layer for fixed clamping piece one, fixed clamping piece two are fixed to be laminated in the both sides of the seam crossing of two adjacent heated boards. When concrete is poured, the first fixing clamping piece and the second fixing clamping piece form an external support on two sides of the joint of the two adjacent heat-insulation plates, the two adjacent heat-insulation plate edges are supported, and the two adjacent heat-insulation plate edges are prevented from being deformed due to compression.

Drawings

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

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is a schematic structural view of the present invention during construction;

FIG. 4 is a schematic view of the connection structure of the internal through rod, the first fixing clip piece and the second fixing clip piece of the present invention;

FIG. 5 is a schematic view of a connection structure between a first through rod and a first fixed clip of the present invention;

FIG. 6 is a schematic view of the connection structure of the second through rod and the second fixed clip of the present invention;

fig. 7 is a schematic structural diagram of the heat insulation board of the present invention.

Detailed Description

The technical features of the present invention will be further explained with reference to the accompanying drawings and specific embodiments.

As shown in the figures, the utility model relates to a cast-in-place composite wall with an internal interlayer, which comprises an inner wall 1 and an outer wall 2 which are formed by concrete pouring, wherein the inner wall 1 and the outer wall 2 are arranged in parallel; a heat-insulating interlayer 3 is arranged between the inner wall 1 and the outer wall 2, and the heat-insulating interlayer 3 is formed by splicing a plurality of heat-insulating plates 31 into a plate shape; a first fixed clamping piece 4 and a second fixed clamping piece 5 are respectively arranged on two sides of a joint of two adjacent heat insulation plates 31, the first fixed clamping piece 4 and the second fixed clamping piece 5 are attached to the surfaces of the heat insulation plates 31, an internal through rod is arranged between the first fixed clamping piece 4 and the second fixed clamping piece 5, and the internal through rod penetrates through the heat insulation interlayer 3, the first fixed clamping piece 4 and the second fixed clamping piece 5 and is fixed with the first fixed clamping piece 4 and the second fixed clamping piece 5; the two ends of the internal through rod respectively penetrate through the inner wall body 1 and the outer wall body 2, and the end faces of the two ends of the internal through rod are respectively positioned on the same plane with the surfaces of the inner wall body 1 and the outer wall body 2.

Among the technical scheme of this application, will keep warm intermediate layer 3 sets up between inlayer wall body 1 and outer wall body 2, and the both sides of the seam crossing of two adjacent heated boards 31 are supported through fixed clamping piece one 4, fixed clamping piece two 5, and fixed clamping piece one 4, fixed clamping piece two 5 are fixed through inside through-going pole and heat preservation intermediate layer 3 for fixed clamping piece one 4, fixed clamping piece two 5 are fixed the both sides of fitting in the seam crossing of two adjacent heated boards 31. When concrete pouring, the two sides of the joint of the two adjacent heat-insulating plates 31 of the first fixing clamping piece 4 and the second fixing clamping piece 5 form an external support to support the edges of the two adjacent heat-insulating plates 31, and the edges of the two adjacent heat-insulating plates 31 are prevented from being deformed due to compression.

The surface of the heat-insulating interlayer 3 facing the outer wall 2 is adhered with a metal net 6, and the metal net 6 is fixed with the heat-insulating interlayer 3 through weather-resistant glue.

In this application, set up metal mesh 6 on heat preservation intermediate layer 3 surface, metal mesh 6 can set up in heat preservation intermediate layer 3's unilateral or both sides to support heat preservation intermediate layer 3's surface, improve heat preservation intermediate layer 3's surface compressive strength, and with a plurality of heated boards 31 surface connection, improve heat preservation intermediate layer 3's wholeness.

The internal through rod comprises a first through rod 41 and a second through rod 51, the first through rod 41 penetrates through the first fixed clamping piece 4 and is fixedly connected with the first fixed clamping piece 4, and the second through rod 51 penetrates through the second fixed clamping piece 5 and is fixedly connected with the second fixed clamping piece 5; one end of the first through rod 41 penetrates through the inner wall 1, the other end of the first through rod 41 penetrates through the heat insulation interlayer 3, and a plug cavity is formed in the other end of the first through rod 41; one end of the second through rod 51 penetrates through the outer wall 2, and the other end of the second through rod 51 is inserted into the insertion cavity at the end of the first through rod 41 and is fixedly connected with the first through rod 41.

In the present application, the internal through rod is composed of a first through rod 41 and a second through rod 51. When inside lead to the pole fixed, earlier pass through heat preservation intermediate layer 3 with the one end of pole one 41 for fixed clamping piece 4 laminates in the seam crossing of two adjacent heated boards 31, can wear out from heat preservation intermediate layer 3's opposite side surface after the tip that leads to pole one 41 passes heat preservation intermediate layer 3, then will lead to pole two 51 and pass through heat preservation intermediate layer 3's tip from leading to pole one 41 and peg graft in leading to pole one 41, make fixed clamping piece two 5 laminate in the seam crossing of two adjacent heated boards 31, lead to pole one 41 and lead to pole two 51 to pass through frictional force fixedly. Compare and set up the backup pad in the seam crossing unilateral of two adjacent heated boards 31 and support, make fixed clamping piece one 4, fixed clamping piece two 5 can press from both sides the seam crossing of two adjacent heated boards 31 and press from both sides fixedly through the grafting frictional force between the two 51 through leading to pole one 41 and the lead to pole in this application, have better supporting effect.

The first through rod 41 and the second through rod 51 are both hollow inside, and the first through rod 41 and the second through rod 51 are communicated with each other and filled with foaming heat-preservation glue.

This application is pouring the in-process, and the tip that leads to pole one 41 and lead to pole two 51 generally contradicts on the template 12 of pouring of inner wall 1, outer wall 2, and inside lead to pole takes place to remove in the axial when can preventing to pour like this, improves the fixed degree that the seam crossing of two adjacent heated boards 31 is pressed from both sides tightly. However, during casting, the concrete presses on the casting template 12 to deform the casting template 12 so that the ends of the first through-rod 41 and the second through-rod 51 are not in contact with each other. Therefore, the first through rod 41 and the second through rod 51 are arranged to be hollow inside, a steel bar can penetrate through the first through rod 41 and the second through rod 51 during pouring, and the end portion of the steel bar can penetrate through the pouring template 12 and is fixed by a pressing sheet or a nut at the end portion, so that deformation of the pouring template 12 is reduced, and movement of the first through rod 41 and the second through rod 51 is also reduced. After the pouring is finished, foam rubber can be poured at two ends of the first through rod 41 and the second through rod 51 to seal the first through rod 41 and the second through rod 51.

An annular fixing tooth 42 is arranged on the surface of one end, inserted into the first through rod 41, of the second through rod 51, and an annular groove matched with the fixing tooth 42 is arranged on the inner surface of an insertion cavity at the end part of the first through rod 41.

In this application, through the cooperation of fixed tooth 42 and ring channel for lead to two 51 and lead to the grafting firmness of pole 41 higher, so that fixed clamping piece 4, fixed clamping piece two 5 can have sufficient contact pressure with the seam crossing surface of two adjacent heated boards 31.

One end of the first through rod 41 inserted into the heat insulation interlayer 3 is conical, and the conical bottom end face of one end of the first through rod 41 inserted into the heat insulation interlayer 3 faces the first fixed clamping piece 4.

In this application, will lead to one 41 one ends of pegging graft in heat preservation intermediate layer 3 to set up to the taper shape, can conveniently pass heat preservation intermediate layer 3 with the tip that leads to one 41 when the operation, reduce the construction degree of difficulty.

The end parts of the heat insulation plates 31 are provided with tongue-and-groove protrusions 32, and the end parts of two adjacent heat insulation plates 31 are fixedly inserted through the tongue-and-groove protrusions 32; the internal channel passes through the tongue-and-groove protrusion 32.

In this application, set up tongue-and-groove arch 32 at the tip of heated board 31, make things convenient for heated board 31 to splice the location to increased the area of contact of two adjacent heated board 31 seams department, thereby increased the length that the thick liquid passageway was run to the concrete, reduced the concrete and run the possibility of thick liquid.

A steel bar support 7 is arranged in the inner wall 1, pouring cushion blocks 8 are respectively arranged on two sides of the heat-insulating interlayer 3, and the pouring cushion blocks 8 are bound and fixed with the steel bar support 7; one end of the pouring cushion block 8 is attached to the heat-insulating interlayer 3.

In this application, support the both sides of heat preservation intermediate layer 3 and inlayer wall body 1, outer wall body 2 through pouring the cushion 8 and pour the interval of mould. The pouring cushion block 8 is formed by pouring concrete which is the same as the inner wall 1 and the outer wall 2 in advance, and is connected with the inner wall 1 and the outer wall 2 into a whole after pouring.

An inner steel bar rod 81 is arranged in the pouring cushion block 8, and the end part of the inner steel bar rod 81 protrudes out of the surface of the pouring cushion block 8 and is inserted into the heat-insulating interlayer 3.

In this application, pour inside reinforcing bar pole 81 that uses of cushion 8 and improve intensity to in heat preservation intermediate layer 3 was pricked into to the tip of inside reinforcing bar pole 81, the fixed relative position of pouring cushion 8 and heat preservation intermediate layer 3.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art should also understand that the changes, modifications, additions or substitutions made within the scope of the present invention should belong to the protection scope of the present invention.

Claims (9)

1. The utility model provides a cast-in-place composite wall with interior intermediate layer which characterized in that: the concrete-poured and molded inner wall body (1) and the outer wall body (2) are included, and the inner wall body (1) and the outer wall body (2) are arranged in parallel; a heat-insulating interlayer (3) is arranged between the inner wall (1) and the outer wall (2), and the heat-insulating interlayer (3) is formed by splicing a plurality of heat-insulating plates (31) into a plate shape; a first fixing clamping piece (4) and a second fixing clamping piece (5) are respectively arranged on two sides of a joint of two adjacent heat insulation plates (31), the first fixing clamping piece (4) and the second fixing clamping piece (5) are attached to the surface of the heat insulation plates (31), an internal through rod is arranged between the first fixing clamping piece (4) and the second fixing clamping piece (5), and penetrates through the heat insulation interlayer (3), the first fixing clamping piece (4) and the second fixing clamping piece (5) and is fixed with the first fixing clamping piece (4) and the second fixing clamping piece (5); the two ends of the internal through rod respectively penetrate through the inner wall body (1) and the outer wall body (2), and the end faces of the two ends of the internal through rod are respectively positioned on the same plane with the surfaces of the inner wall body (1) and the outer wall body (2).

2. The cast-in-place composite wall with internal sandwich as claimed in claim 1, wherein: the surface of the heat-insulation interlayer (3) facing the outer wall body (2) is attached with a metal net (6), and the metal net (6) is fixed with the heat-insulation interlayer (3) in an adhesive mode through weather-resistant glue.

3. The cast-in-place composite wall with internal sandwich as claimed in claim 1, wherein: the internal through rod comprises a first through rod (41) and a second through rod (51), the first through rod (41) penetrates through the first fixed clamping piece (4) and is fixedly connected with the first fixed clamping piece (4), and the second through rod (51) penetrates through the second fixed clamping piece (5) and is fixedly connected with the second fixed clamping piece (5); one end of the first through rod (41) penetrates through the inner wall (1), the other end of the first through rod (41) penetrates through the heat insulation interlayer (3), and an insertion cavity is formed in the other end of the first through rod (41); one end of the second through rod (51) penetrates through the outer wall body (2), and the other end of the second through rod (51) is inserted into the insertion cavity at the end part of the first through rod (41) and fixedly connected with the first through rod (41).

4. The cast-in-place composite wall with internal interlayers of claim 3, wherein: the first through rod (41) and the second through rod (51) are both hollow, and the first through rod (41) and the second through rod (51) are communicated with each other and filled with foaming heat-preservation glue.

5. The cast-in-place composite wall with internal interlayers of claim 3, wherein: an annular fixed tooth (42) is arranged on the surface of one end, inserted into the first through rod (41), of the second through rod (51), and an annular groove matched with the fixed tooth (42) is arranged on the inner surface of an insertion cavity at the end part of the first through rod (41).

6. The cast-in-place composite wall with internal interlayers of claim 3, wherein: one end of the first through rod (41) inserted in the heat insulation interlayer (3) is conical, and the conical bottom end face of one end of the first through rod (41) inserted in the heat insulation interlayer (3) faces the first fixed clamping piece (4).

7. The cast-in-place composite wall with internal sandwich as claimed in claim 1, wherein: the end parts of the heat insulation plates (31) are provided with tongue-and-groove bulges (32), and the end parts of two adjacent heat insulation plates (31) are fixedly inserted through the tongue-and-groove bulges (32); the internal through-bar passes through the tongue-and-groove protrusion (32).

8. The cast-in-place composite wall with internal sandwich as claimed in claim 1, wherein: a steel bar support (7) is arranged in the inner wall (1), pouring cushion blocks (8) are respectively arranged on two sides of the heat-insulating interlayer (3), and the pouring cushion blocks (8) are bound and fixed with the steel bar support (7); one end of the pouring cushion block (8) is attached to the heat-insulating interlayer (3).

9. The cast-in-place composite wall with internal sandwich as claimed in claim 8, wherein: an internal reinforcing steel bar rod (81) is arranged in the pouring cushion block (8), and the end part of the internal reinforcing steel bar rod (81) protrudes out of the surface of the pouring cushion block (8) and is inserted into the heat-insulating interlayer (3).

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