CN212984341U - Built-in structure for assembled wall heat-insulation integrated structure - Google Patents

Abstract

The utility model discloses a built-in structure for an assembled wall heat-preservation integrated structure, which comprises a built-in plate, wherein one surface of a heat-preservation plate of the assembled wall heat-preservation integrated structure is the inner surface of the heat-preservation plate, and the built-in plate covers the whole inner surface of the heat-preservation plate or covers the part of the inner surface of the heat-preservation plate; when the internal plate covers the whole inner surface of the insulation board, the internal plate is a plate body which is fixedly connected with the insulation board; when the built-in plate covers the part of the inner surface of the insulation board, the built-in plate comprises a flat plate and a connecting plate, the flat plate is parallel and is attached to the inner surface of the insulation board, and the connecting plate is parallel and is attached to the inner surface of the insulation board and/or is perpendicular to the flat plate and is attached to the side surface of the wall body of the assembly type wall body insulation integrated structure. Therefore, the built-in plate can protect the heat preservation plate. When pouring is carried out, the heat insulation plate is directly contacted with the built-in plate, so that the heat insulation plate is well protected.

Description

Built-in structure for assembled wall heat-insulation integrated structure

Technical Field

The utility model relates to a housing construction engineering technical field, concretely relates to built-in structure for assembled wall body heat preservation integral structure.

Background

At present, the concept of prefabricated building has become a leading research subject in the field of building engineering technology, and is a building constructed by prefabricating some or all of the components of a building in a factory, transporting the prefabricated components to a construction site, and assembling the components in a reliable connection manner. This construction method is preferred because some of the previous site works are "moved" into the factory, and the destructive influence of the site works on the environment can be reduced.

Based on "assembled" building theory, some building modes that a lot of adoption this theory and go on have appeared at home and abroad, in site operation, need arrange the assembled wall body earlier, and then build prefabricated template, the wall body, form the space between prefabricated template and the heated board, pour into a mould in this space again and form stand or crossbeam, realize the fixed connection with the assembled wall body, and stand or crossbeam are as building partly, also need to be covered by the heated board, therefore, when carrying out the cast-in-place, if not protect the heated board, the heated board can be damaged in the pouring.

Therefore, how to provide a built-in structure capable of protecting the heat-insulating plate becomes a technical problem which needs to be solved urgently by the technical personnel in the field.

Disclosure of Invention

In order to solve the technical problem, the utility model provides a built-in structure for assembled wall body heat preservation integral structure.

The built-in structure for the assembly type wall body heat-insulation integrated structure comprises a built-in plate, wherein one surface of the heat-insulation plate of the assembly type wall body heat-insulation integrated structure is an inner surface of the heat-insulation plate, and the built-in plate covers the whole inner surface of the heat-insulation plate or covers the part of the inner surface of the heat-insulation plate:

when the built-in plate covers the whole inner surface of the heat insulation plate: the built-in plate is a plate body, the plate body is fixedly connected with the heat insulation plate, a protruding plate is arranged on one surface of the plate body, which is far away from the heat insulation plate, and the protruding plate can be embedded into the wall body of the assembly type heat insulation integrated structure or attached to the side surface of the wall body of the assembly type heat insulation integrated structure during assembly;

when the built-in plate covers the part of the inner surface of the heat insulation plate: the built-in plate comprises a flat plate and a connecting plate, the flat plate is parallel to and attached to the inner surface of the heat-insulation plate, the connecting plate is parallel to and attached to the inner surface of the heat-insulation plate and/or perpendicular to the flat plate and attached to the side face of the wall body of the assembly type wall body heat-insulation integrated structure.

Preferably, when the built-in plate covers a part of the inner surface of the heat-insulating plate:

the built-in plate further comprises an assembly connecting piece, the assembly connecting piece is of a plate-shaped structure formed by extending one side end of the flat plate in a direction perpendicular to the flat plate to a direction far away from the heat insulation plate, a plurality of riveting holes are formed in the assembly connecting piece, and when the integrated structure is assembled, the adjacent assembly connecting pieces penetrate through the riveting holes of the two assembly connecting pieces simultaneously through screws to be fixedly connected.

Preferably, when the connecting plate is parallel to and attached to the inner surface of the heat-insulating plate:

the heat insulation board is characterized in that a plurality of first connecting rods extending in the direction perpendicular to the surface direction of the connecting plate away from the heat insulation board are arranged on the connecting plate, and can be embedded into the wall body to connect the built-in board with the wall body.

Preferably, the connecting plate is perpendicular to the flat plate and attached to the side face of the wall body of the assembly type wall body heat preservation integrated structure:

the length of the connecting plate is the same as the thickness of the wall body along the direction perpendicular to the surface of the flat plate, a plurality of anchoring parts are arranged on the connecting plate and are perpendicular to the surface of the connecting plate and extend along the direction towards the side face of the wall body, the anchoring parts can be embedded into the wall body during assembly, and a plurality of grooves or holes are formed in the connecting plate.

Preferably, the connecting plate is parallel to and attached to the inner surface of the heat-insulation plate and the inner surface of the heat-insulation plate perpendicular to the flat plate and attached to the side surface of the wall body of the assembly-type wall body heat-insulation integrated structure:

the connecting plate comprises a first connecting plate and a second connecting plate, the first connecting plate is parallel to and attached to the inner surface of the heat-insulating plate, the second connecting plate is vertical to the flat plate and is attached to the side face of the wall body of the assembly type wall body heat-preservation integrated structure, the first connecting plate is provided with a plurality of second connecting rods which extend in the direction perpendicular to the surface of the first connecting plate and far away from the heat-insulating plate, the second connecting rods can be embedded into the wall body to connect the built-in plate with the wall body, the second connecting plate is provided with a plurality of anchoring pieces which are all vertical to the surface of the second connecting plate and extend along the direction towards the side surface of the wall body, the anchoring pieces can be embedded into the wall body, and a plurality of grooves or holes are further formed in the second connecting plate.

Preferably, the built-in plate is provided with a plurality of third connecting rods, a plurality of fourth connecting rods and a plurality of fifth connecting rods, the third connecting rods are perpendicular to the surface direction of the flat plate and are arranged in the direction far away from the heat insulation plate, the third connecting rods can be embedded into the columns or the beams formed by casting, the fourth connecting rods are perpendicular to the surface direction of the flat plate and are arranged in the direction far away from the heat-insulation plate, the free end of the fourth connecting rod is provided with external threads, when in assembly, the free end of the fourth connecting rod can penetrate through the prefabricated template and is matched with a nut to fix the prefabricated template, the fifth connecting rods are arranged along the direction inclined to the surface of the flat plate and far away from the heat-insulating plate, when in assembly, the free ends of the fifth connecting rods can be embedded into the wall body, and the fifth connecting rods can be embedded into the stand columns or the cross beams formed by pouring.

Preferably, the built-in plate is formed of a metal material or a non-metal material.

Preferably, the built-in plate is made of concrete.

The utility model provides a built-in structure for assembled wall body heat preservation integral structure has following technological effect:

as is well known, during on-site construction, an assembled wall needs to be assembled first, and then an upright column or a cross beam is formed by on-site pouring to realize fixed connection with the assembled wall, and the upright column or the cross beam, which is a part of a building, needs to be covered by an insulation board, so that the insulation board needs to reserve a position so as to insulate the upright column or the cross beam; for this reason, when carrying out the cast in situ, if do not protect the heated board, the casting may damage the heated board, and "sandwich" wall body among the prior art, because the setting of side fascia, it can support the heated board, the deformation of heated board during so can avoiding the casting. The applicant provides the built-in structure, namely the external wall panel is built in, but the defects of the arrangement of the external wall panel in the prior art cannot be caused, and the built-in structure comprises a built-in panel which covers the whole inner surface of the heat insulation panel or the part of the inner surface of the heat insulation panel;

therefore, the built-in plate can protect the heat preservation plate. When pouring is carried out, the heat insulation plate is directly contacted with the built-in plate, so that the heat insulation plate is well protected.

Preferably, the built-in plates are also provided with assembly connecting pieces, and the structure can realize the connection and fixation between the adjacent built-in plates during assembly.

As preferred, the connecting plate is parallel and laminating heated board internal surface and/or perpendicular to dull and stereotyped and laminating assembled wall body heat preservation integrated configuration's wall body side, provides multiple built-in structure's concrete setting, and the homoenergetic realizes the stable connection of built-in structure and wall body.

Preferably, the third connecting rod, the fourth connecting rod and the fifth connecting rod are arranged, so that the connecting strength of the built-in structure and other buildings is improved; meanwhile, the fourth connecting rod can be connected with the prefabricated template.

Preferably, the built-in structure can be made of metal materials or nonmetal materials, and can be selected and used according to specific working conditions.

Drawings

Fig. 1 is a schematic structural diagram of a built-in structure for an assembled wall insulation integrated structure provided by the present invention, and also shows a positional relationship between the built-in structure and an insulation board;

fig. 2 is a schematic structural diagram of a first specific embodiment of a built-in structure for an assembled wall insulation integrated structure provided by the present invention, and further shows a positional relationship among the built-in structure, an insulation board and a wall body;

fig. 3 is a schematic structural diagram of a second specific embodiment of the built-in structure for the assembled wall insulation integrated structure provided by the present invention, and further shows the positional relationship among the built-in structure, the insulation board and the wall;

fig. 4 is a schematic structural diagram of a third specific embodiment of the built-in structure for the assembled wall insulation integrated structure provided by the present invention, and further shows the positional relationship among the built-in structure, the insulation board and the wall body;

the reference numerals in fig. 1-4 are as follows:

1 built-in board, 11 flat boards, 12 connecting plates, 121 first connecting plates, 122 second connecting plates, 2 insulation boards, 3 walls, 4 assembly connecting pieces, 5 riveting holes, 6 first connecting rods, 7 anchoring pieces, 8 second connecting rods, 9 third connecting rods, 10 fourth connecting rods and 13 fifth connecting rods.

Detailed Description

As shown in fig. 1-4, fig. 1 is a schematic structural diagram of a built-in structure for an assembly type wall insulation integrated structure provided by the present invention, and also shows a positional relationship between the built-in structure and an insulation board;

fig. 2 is a schematic structural diagram of a first specific embodiment of a built-in structure for an assembled wall insulation integrated structure provided by the present invention, and further shows a positional relationship among the built-in structure, an insulation board and a wall body;

fig. 3 is a schematic structural diagram of a second specific embodiment of the built-in structure for the assembled wall insulation integrated structure provided by the present invention, and further shows the positional relationship among the built-in structure, the insulation board and the wall;

fig. 4 is a schematic structural diagram of a third specific embodiment of the built-in structure for the assembly type wall insulation integrated structure provided by the present invention, further showing the position relationship of the built-in structure, the insulation board and the wall.

The utility model provides a built-in structure for assembled wall body heat preservation integral structure, including built-in board 1, the one side of assembled wall body heat preservation integral structure's heated board 2 is the heated board internal surface, and built-in board 1 covers whole or the cover of heated board internal surface the part of heated board internal surface:

as shown in fig. 1, when the internal plate 1 covers the entire inner surface of the heat-insulating plate: the built-in plate 1 is a plate body which is fixedly connected with the heat insulation plate 2; the connection between the two can adopt various connection methods, such as a reinforcing bar connector, or gluing, and the connection belongs to the prior art and is not described in more detail in the application. At the moment, one surface of the plate body, which is far away from the heat insulation plate 2, is provided with a raised plate, and during assembly, the raised plate can be embedded into the wall body 3 of the assembly type heat insulation integrated structure or attached to the side surface of the wall body 3 of the assembly type heat insulation integrated structure. When the convex plate is arranged in a protruding manner at one side end of the plate body, the convex plate can be attached to the side surface of the wall body 3, and after the convex plate is attached, the convex plate can be fixedly connected with the wall body in a viscose mode and the like; when the convex plate is arranged by being protruded from the surface of the plate body, the convex plate can be embedded into the wall body 3.

As shown in fig. 2 to 4, when the internal plate 1 covers a portion of the inner surface of the insulation board: the built-in plate 1 comprises a flat plate 11 and a connecting plate 12, the flat plate 11 is parallel and attached to the inner surface of the heat-insulation plate, the connecting plate 12 is parallel and attached to the inner surface of the heat-insulation plate and/or perpendicular to the flat plate 11 and attached to the side surface of the wall body 3 of the assembly type wall body heat-insulation integrated structure.

As is well known, during on-site construction, an assembled wall needs to be assembled first, and then an upright column or a cross beam is formed by on-site pouring to realize fixed connection with the assembled wall, and the upright column or the cross beam, which is a part of a building, needs to be covered by an insulation board, so that the insulation board needs to reserve a position so as to insulate the upright column or the cross beam; for this reason, when carrying out the cast in situ, if do not protect the heated board, the casting may damage the heated board, and "sandwich" wall body among the prior art, because the setting of side fascia, it can support the heated board, the deformation of heated board during so can avoiding the casting. However, in the present application, a built-in structure is provided to protect the insulation board, and the applicant provides a built-in structure, which is equivalent to a built-in external wall panel, but does not bring about the disadvantages of the arrangement of the external wall panel in the prior art, wherein the built-in structure includes a built-in panel 1, and the built-in panel 1 covers the whole inner surface of the insulation board or the part of the inner surface of the insulation board;

thus, the built-in board 1 can protect the heat insulating board 2. When pouring is carried out, the heat insulation plate 2 is directly contacted with the built-in plate 1, and further, the heat insulation plate 2 is well protected.

The utility model discloses in, built-in board 1 covers during the part of heated board internal surface:

the built-in plate 1 further comprises an assembly connecting piece 4, the assembly connecting piece 4 is a plate-shaped structure formed by extending one side end of the flat plate 11 in a direction perpendicular to the flat plate 11 in a direction far away from the heat insulation plate 2, a plurality of riveting holes 5 are formed in the assembly connecting piece 4, and when the integrated structure is assembled, the adjacent assembly connecting pieces 4 penetrate through the riveting holes 5 of the two assembly connecting pieces 4 simultaneously through screws to be fixedly connected.

The built-in boards 1 are also provided with assembly connecting pieces 4, and the structure can realize the connection and fixation between the adjacent built-in boards 1 during assembly.

The connecting plate 12 is parallel to and attached to the inner surface of the insulation board and/or the side surface of the wall body 3 which is perpendicular to the flat plate 11 and attached to the assembly type wall body insulation integrated structure, specific arrangement of various built-in structures is provided, and stable connection of the built-in structures and the wall body 3 can be achieved.

As shown in fig. 2, in the first embodiment, when the connection plate 12 is parallel to and attached to the inner surface of the heat insulating board (substantially in the shape of a straight line):

the connecting plate 12 is provided with a plurality of first connecting rods 6 which extend along the direction perpendicular to the surface of the connecting plate 12 and far away from the direction of the heat insulation plate 2, and the plurality of first connecting rods 6 can be embedded into the wall body 3 so as to connect the built-in plate 1 with the wall body 3. And the thickness of the flat plate 11 is limited to be smaller than that of the wall body 3, so that the subsequent on-site pouring is facilitated.

As shown in fig. 3, in the second embodiment, the connecting plate 12 is perpendicular to the flat plate 11 and attached to the side surface (substantially in an "L" shape) of the wall 3 of the fabricated wall insulation integrated structure:

the length of the connecting plate 12 is the same as the thickness of the wall 3 along the direction perpendicular to the surface of the flat plate 11, a plurality of anchoring pieces 7 are arranged on the connecting plate 12, the anchoring pieces 7 are perpendicular to the surface of the connecting plate 12 and extend along the direction towards the side surface of the wall 3, and the anchoring pieces 7 can be embedded into the wall 3 during assembly. The connecting plate 12 is further provided with a plurality of grooves or holes, and the grooves or holes are used for matching with reinforcing steel bars extending out from the wall 3 in an assembled mode to realize fixed connection.

As shown in fig. 4, in the third embodiment, the connecting plate 12 is parallel to and attached to the inner surface of the insulation board and the side surface (approximately "T" shaped) of the wall 3 perpendicular to the flat plate 11 and attached to the assembled wall insulation integrated structure:

the connecting plate 12 comprises a first connecting plate 121 and a second connecting plate 122, the first connecting plate 121 is parallel to and attached to the inner surface of the heat-insulating plate, the second connecting plate 122 is perpendicular to the flat plate 11 and attached to the side surface of the wall 3 of the assembly type wall heat-preservation integrated structure, the first connecting plate 121 is provided with a plurality of second connecting rods 8 which extend in the direction perpendicular to the surface of the first connecting plate 121 and far away from the heat-insulating plate 2, and when the heat-insulating plate is assembled, the second connecting rods 8 can be embedded into the wall 3 to connect the built-in plate 1 and the wall 3, the second connecting plate 122 is provided with a plurality of anchoring parts 7, the anchoring parts 7 are perpendicular to the surface of the second connecting plate 122 and extend along the direction towards the side surface of the wall body 3, and the anchoring parts 7 can be embedded into the wall body 3 during assembly. The second connecting plate 122 is further provided with a plurality of grooves or holes, and in an assembled manner, the grooves or holes are used for matching with reinforcing steel bars extending out from the inside of the wall body 3 to realize fixed connection.

In the utility model, a plurality of third connecting rods 9, a plurality of fourth connecting rods 10 and a plurality of fifth connecting rods 15 are arranged on the built-in plate 1, the plurality of third connecting rods 9 are perpendicular to the surface direction of the flat plate 11 and are arranged in the direction far away from the heat-insulating plate 2, when assembling, the plurality of third connecting rods 9 can be embedded into the upright post or the cross beam formed by pouring, the plurality of fourth connecting rods 10 are perpendicular to the surface direction of the flat plate 11 and are arranged in the direction far away from the heat-insulating plate, the free end of the fourth connecting rod is provided with an external thread, when assembling, the free end of the fourth connecting rod 10 can pass through the prefabricated template and be matched with a nut to fix the prefabricated template, the plurality of fifth connecting rods 13 are arranged in the direction far away from the heat-insulating plate 2 along the direction inclined to the surface of the flat plate 11, when assembling, the free ends of the plurality of fifth connecting rods, the fifth connecting rods 13 can be embedded in the columns or beams formed by casting.

The third connecting rod 9, the fourth connecting rod 10 and the fifth connecting rod 13 are arranged, so that the connecting strength of the built-in structure and other buildings is improved; meanwhile, the fourth connecting rod 10 can be connected with the prefabricated template.

Further, the built-in plate 1 is made of metal or nonmetal materials and can be selectively used according to specific working conditions.

Specifically, the built-in plate 1 may be made of concrete.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the protection scope of the present invention is defined by the claims. Various modifications and equivalent arrangements of the disclosed embodiments will be apparent to those skilled in the art and may be made without departing from the spirit and scope of the present invention.

Claims (8)

1. A built-in structure for assembled wall body heat preservation integral structure, its characterized in that, including built-in board, the one side of heated board of assembled wall body heat preservation integral structure is the heated board internal surface, built-in board covers the whole or the part that covers the heated board internal surface of heated board internal surface:

when the built-in plate covers the whole inner surface of the heat insulation plate: the built-in plate is a plate body, the plate body is fixedly connected with the heat insulation plate, a protruding plate is arranged on one surface of the plate body, which is far away from the heat insulation plate, and the protruding plate can be embedded into the wall body of the assembly type heat insulation integrated structure or attached to the side surface of the wall body of the assembly type heat insulation integrated structure during assembly;

when the built-in plate covers the part of the inner surface of the heat insulation plate: the built-in plate comprises a flat plate and a connecting plate, the flat plate is parallel to and attached to the inner surface of the heat-insulation plate, the connecting plate is parallel to and attached to the inner surface of the heat-insulation plate and/or perpendicular to the flat plate and attached to the side face of the wall body of the assembly type wall body heat-insulation integrated structure.

2. The built-in structure for an assembled wall insulation integrated structure as claimed in claim 1, wherein when the built-in plate covers part of the inner surface of the insulation plate:

the built-in plate further comprises an assembly connecting piece, the assembly connecting piece is of a plate-shaped structure formed by extending one side end of the flat plate in a direction perpendicular to the flat plate to a direction far away from the heat insulation plate, a plurality of riveting holes are formed in the assembly connecting piece, and when the integrated structure is assembled, the adjacent assembly connecting pieces penetrate through the riveting holes of the two assembly connecting pieces simultaneously through screws to be fixedly connected.

3. The built-in structure for the assembled wall insulation integrated structure as claimed in claim 2, wherein when the connecting plate is parallel to and attached to the inner surface of the insulation board:

the heat insulation board is characterized in that a plurality of first connecting rods extending in the direction perpendicular to the surface direction of the connecting plate away from the heat insulation board are arranged on the connecting plate, and can be embedded into the wall body to connect the built-in board with the wall body.

4. The built-in structure for an assembled wall insulation integrated structure as claimed in claim 2, wherein the connecting plate is perpendicular to the flat plate and attached to the wall side of the assembled wall insulation integrated structure:

the length of the connecting plate is the same as the thickness of the wall body along the direction perpendicular to the surface of the flat plate, a plurality of anchoring parts are arranged on the connecting plate and are perpendicular to the surface of the connecting plate and extend along the direction towards the side face of the wall body, the anchoring parts can be embedded into the wall body during assembly, and a plurality of grooves or holes are formed in the connecting plate.

5. The built-in structure for an assembled wall insulation integrated structure according to claim 2, wherein the connecting plate is parallel to and attached to the inner surface of the insulation board and the wall side perpendicular to the flat plate and attached to the assembled wall insulation integrated structure:

the connecting plate comprises a first connecting plate and a second connecting plate, the first connecting plate is parallel to and attached to the inner surface of the heat-insulating plate, the second connecting plate is vertical to the flat plate and is attached to the side face of the wall body of the assembly type wall body heat-preservation integrated structure, the first connecting plate is provided with a plurality of second connecting rods which extend in the direction perpendicular to the surface of the first connecting plate and far away from the heat-insulating plate, the second connecting rods can be embedded into the wall body to connect the built-in plate with the wall body, the second connecting plate is provided with a plurality of anchoring pieces which are all vertical to the surface of the second connecting plate and extend along the direction towards the side surface of the wall body, the anchoring pieces can be embedded into the wall body, and a plurality of grooves or holes are further formed in the second connecting plate.

6. The built-in structure for the assembled wall body heat preservation integrated structure as claimed in claim 3, 4 or 5, wherein the built-in plate is provided with a plurality of third connecting rods, a plurality of fourth connecting rods and a plurality of fifth connecting rods, the plurality of third connecting rods are perpendicular to the surface direction of the flat plate and are arranged in the direction away from the heat preservation plate, during assembly, the plurality of third connecting rods can be embedded into the columns or beams formed by pouring, the plurality of fourth connecting rods are perpendicular to the surface direction of the flat plate and are arranged in the direction away from the heat preservation plate, the free end of the fourth connecting rod is provided with an external thread, during assembly, the free end of the fourth connecting rod can penetrate through the prefabricated template and can be matched with a nut to fix the prefabricated template, and the plurality of fifth connecting rods are arranged in the direction away from the heat preservation plate along the direction inclined to the surface of the flat plate, during assembly, the free ends of the fifth connecting rods can be embedded into the wall body, and the fifth connecting rods can be embedded into the upright columns or the cross beams formed by pouring.

7. The built-in structure for an assembled wall insulation integrated structure as claimed in claim 1, wherein the built-in plate is made of metal or nonmetal.

8. The built-in structure for an assembled wall insulation integrated structure as claimed in claim 1, wherein the built-in plate is composed of concrete.

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