CN117779969B - Building heat preservation core material connection fixing construction device - Google Patents

Abstract

The invention provides a construction device for connecting and fixing a heat-insulating core material of a building, and particularly relates to the technical field of connecting piece tools, comprising a heat-insulating core material, a steel wire mesh positioned on one side surface of the heat-insulating core material through a connecting and fixing piece, a wedge-shaped structure for limiting the heat-insulating core material, and a pipe positioning structure for positioning cast-in-place concrete and the heat-insulating core material, wherein the wedge-shaped structure and the pipe positioning structure are both connected to the connecting and fixing piece; building templates are respectively arranged on two sides of the heat-insulating core material, the connecting fixing piece is abutted against the building templates, a reinforcement cage is arranged between the heat-insulating core material and one of the building templates, and the reinforcement cage is connected with the connecting fixing piece. The construction device for connecting and fixing the building heat-insulating core material ensures that the steel wire mesh combined heat-insulating core material is stably and accurately arranged in cast-in-place concrete, and ensures the construction safety and the appearance of the outer part of a wall body.

Description

Building heat preservation core material connection fixing construction device

Technical Field

The invention belongs to the technical field of connector tools, and particularly relates to a construction device for connecting and fixing a building heat-insulating core material.

Background

In traditional external wall heat preservation template integration construction, building structure is when pouring the shear wall structure, first needs to install compound heat preservation core at the shear wall structure outer wall, uses compound heat preservation core as the template that the outer wall was pour, carries out the outer wall again in compound heat preservation core outside after pouring, and traditional compound heat preservation core mounting means adopts the mode of monolithic to assemble on-spot adoption bolt and the connection of outer wall inner formworks to install, but has more technical problem:

(1) The integrity is poor, the heat-insulating core material is easy to displace in the concrete pouring process, so that dislocation and large vertical flatness deviation are caused, and the construction efficiency of field later construction operators is influenced by the weight, the size and other factors of the composite heat-insulating core material, so that certain potential safety hazards exist;

(2) The heat-insulating core material is reinforced by adopting a opposite-pull limiting connecting piece, a finished concrete block is adopted as an inner support, a plastic anchor bolt of the heat-insulating core material is arranged in advance, and structural concrete is anchored while pouring; however, the effect is not ideal through the reflection of multiple construction experience, the heat-insulating core material is often punctured by the concrete, the outer wall is uneven, the cross section size of the wall is difficult to ensure, and the quality problems of falling off of the heat-insulating core material of the outer wall can occur in later use due to the factors of the anchor bolt construction process and ageing of the heat-insulating core material.

Therefore, how to stably and accurately install the heat-insulating core material in the shear wall structure becomes a technical problem to be solved in the scheme.

Disclosure of Invention

The invention aims to provide a construction device for connecting and fixing a heat-insulating core material of a building, which solves the technical problem of how to stably and accurately install the heat-insulating core material in a shear wall structure and ensures the construction safety and the appearance of the outer part of the shear wall.

The construction device comprises a heat-insulating core material, a steel wire mesh positioned on one side surface of the heat-insulating core material through a connecting and fixing piece, a wedge-shaped structure for limiting the heat-insulating core material, and a pipe positioning structure for positioning cast-in-place concrete and the heat-insulating core material, wherein the wedge-shaped structure and the pipe positioning structure are both connected to the connecting and fixing piece;

Building templates are respectively arranged on two sides of the heat-insulating core material, the connecting fixing piece is propped against the heat-insulating core material, a reinforcement cage is arranged between the heat-insulating core material and one of the building templates, and the reinforcement cage is connected with the connecting fixing piece.

The connecting and fixing piece comprises a laminating plate, a first clamping seat and a second clamping seat, wherein the first clamping seat and the second clamping seat are fixedly arranged on one side surface of the laminating plate, the second clamping seat is provided with two clamping seats which are mutually perpendicular, and the two clamping seats are connected with the steel wire mesh;

the first clamping seat comprises two limiting plates which are parallel to each other, a first clamping groove is formed between the two limiting plates, and a first through hole is formed in the first clamping groove and in the bonding plate;

the second clamping seat comprises two baffles which are parallel to each other, a second clamping groove is formed between the two baffles, the first clamping seat and the second clamping seat are respectively arranged at the corner end parts of the bonding plates, and the central axes of the first clamping groove and the second clamping groove are parallel to each other.

Clamping strips are respectively arranged on two sides of the second clamping groove in parallel, and are fixed on the inner side of the baffle;

Support blocks are fixedly arranged at two ends of the clamping groove II respectively;

a strip through hole is formed in the second clamping groove and in the bonding plate;

and rib plates are respectively fixed on the outer sides of the two baffles.

The pipe positioning structure comprises a positioning pipe and a limiting connecting piece, wherein the positioning pipe and the limiting connecting piece penetrate through the attaching plate, the limiting connecting piece penetrates through the first through hole, and a hanging lug is arranged on the side part of the limiting connecting piece;

The locating tube passes the laminating board sets up, is close to the one end lateral part of locating tube is provided with ratchet portion, the other end of locating tube is fixed to be provided with the rotating handle.

The pipe positioning structure further comprises an upper communicating pipe, a lower communicating pipe, a slip ring, a fixed pipe, a telescopic column and a supporting plate, wherein the upper communicating pipe and the lower communicating pipe are respectively arranged above and below the limiting connecting piece, the slip ring is arranged at the top end of the upper communicating pipe, one end of the fixed pipe is communicated with the lower side of the positioning pipe, one end of the telescopic column is arranged at the other end of the fixed pipe in a sliding manner, the supporting plate is fixed at the other end of the telescopic column, one end of the telescopic column is provided with a piston, and the piston is embedded in the fixed pipe;

the outside of locating tube and butt joint pipe one end intercommunication, the outside of spacing connecting piece and butt joint pipe two's one end intercommunication, butt joint pipe one's the other end with butt joint pipe two's the other end passes through the breather pipe intercommunication.

The wedge structure includes down fixed plate, bottom vertical connection be in fixed column on the fixed plate down, fix the last fixed plate on fixed column top, slide from top to bottom and set up sliding plate on the fixed column, horizontal pole that the level passed sliding plate, location respectively are in the push plate and the swash plate at horizontal pole both ends, be provided with the inclined plane in the last fixed plate, the swash plate laminating is in on the inclined plane.

The locating pipe with limit connection spare open end outward flange all is provided with the rubber pad, the rubber pad laminating is in building templates's medial surface.

Wherein, spacing connecting piece is steel pipe structure to realize the intercommunication with the registration arm.

The invention achieves the following remarkable effects:

(1) The positioning pipe and the limiting connecting piece in the connecting fixing piece and pipe positioning structure are arranged, so that the following technical effects are realized:

Firstly, the steel wire meshes are fastened on the outer side of the Wen Xincai, and when the heat-insulating core material and the steel wire meshes are buried in concrete, the strength of the shear wall is guaranteed;

Secondly, the ends of the positioning pipe and the limiting connecting piece are abutted against the inner side of the building template, so that a certain distance is kept between the building template and the heat-insulating core material, the thickness of the shear wall is guaranteed when the shear wall structure is poured, and the two building templates are not required to be connected through screw rods in a opposite pulling manner like the prior art;

Thirdly, the fixing piece, the positioning pipe and the limiting connecting piece are connected, and the reinforcing rib is also provided;

Fourthly, due to the shell-shaped structure of the positioning pipe and the limiting connecting piece, when the concrete is poured, because a large amount of heat exists in the concrete, air or water is introduced into the positioning pipe and the limiting connecting piece, and the cooling of the mass concrete is facilitated;

(2) The upper communicating pipe, the lower communicating pipe and the slip ring are arranged, and the following technical effects are achieved:

The upper communicating pipe and the lower communicating pipe which are adjacent up and down are in closed connection through the slip ring, so that the upper communicating pipe and the lower communicating pipe which are adjacent up and down are in butt joint communication, and the pipe positioning structures on a plurality of heat preservation core materials are communicated;

the upper communicating pipe is matched with the wedge-shaped structure to clamp the upper heat-insulating core material, so that the clamping limit of the heat-insulating core material is realized;

In addition, due to the arrangement of the wedge-shaped structure, when the concrete falls on the sliding plate, the sliding plate descends to drive the pushing plate to extrude towards the heat-insulating core material, and the heat-insulating core material is fixed by utilizing the gravity of the concrete, so that the conception is ingenious;

(3) The concrete is provided with the fixed pipe, the telescopic column and the supporting plate, when the concrete falls on the supporting plate, the supporting plate drives the telescopic column to descend, the telescopic column slides downwards in the fixed pipe, at the moment, one ends of the positioning pipe and the limiting connecting piece are contacted with the building template through the rubber pad, the top end of the upper communicating pipe is sealed by the rubber cap, and at the moment, the air pressure in the pipe positioning structure is reduced, so that the building template is assisted to be strongly attached to the positioning pipe and the limiting connecting piece, and shaking of the building template is avoided;

(4) The steel bar frame is arranged, so that the positioning of the heat preservation core material is enhanced, and the strength of the shear wall is enhanced for the shear wall structure with larger thickness.

Drawings

Fig. 1 is a perspective view of a connection and fixation construction apparatus according to the present invention.

Fig. 2 is a front view of the connection and fixation construction apparatus according to the present invention.

FIG. 3 is a schematic view of a connection structure of a connection fixture, a pipe positioning structure, and a wedge structure according to the present invention.

FIG. 4 is a schematic diagram of a connection structure of the connection fixture, the pipe positioning structure, and the wedge structure according to the present invention.

Fig. 5 is a front view of the connecting fixture and wedge structure of the present invention.

Fig. 6 is a perspective view of the connecting fixture and wedge structure of the present invention.

Fig. 7 is a perspective view of a tube positioning structure according to the present invention.

Fig. 8 is a front view of a tube positioning structure according to the present invention.

Fig. 9 is a schematic diagram of a connection structure of a connection fixing member, an insulation core material and a steel wire mesh sheet in the present invention.

Wherein, the reference numerals are as follows: 1. building templates; 2. a heat-insulating core material; 3. a wire mesh sheet; 4. a positioning tube; 41. a first butt joint pipe; 42. a fixed tube; 43. a telescopic column; 44. a supporting plate; 45. a rotating handle; 46. a ratchet part; 5. connecting a fixing piece; 51. a clamping seat I; 52. a first through hole; 53. a second through hole; 54. a second clamping seat; 55. clamping strips; 56. a support block; 57. rib plates; 58. bonding plates; 6. an upper communicating pipe; 61. a lower communicating pipe; 62. a slip ring; 7. a wedge-shaped structure; 71. a pushing plate; 72. a horizontal column; 73. a sloping plate; 74. an upper fixing plate; 75. fixing the column; 76. a sliding plate; 77. a lower fixing plate; 8. a limit connecting piece; 81. a second butt joint pipe; 82. hanging lugs; 9. and (5) a reinforcement cage.

Detailed Description

In order to more clearly describe the technical characteristics of the present solution, the present solution is described below by means of specific embodiments.

Referring to fig. 1-9, a construction device for connecting and fixing a heat-insulating core material of a building comprises a heat-insulating core material 2, a steel wire mesh 3 positioned on one side surface of a Wen Xincai through a connecting and fixing piece 5, a wedge-shaped structure 7 for limiting the heat-insulating core material 2, and a pipe positioning structure for positioning cast-in-place concrete and the heat-insulating core material 2, wherein the wedge-shaped structure 7 and the pipe positioning structure are both connected to the connecting and fixing piece 5;

Building templates 1 are respectively arranged on two sides of the heat preservation core material 2, the connecting fixing piece 5 is abutted against the heat preservation core material 2, a reinforcement cage 9 is arranged between the heat preservation core material 2 and one of the building templates 1, and the reinforcement cage 9 is connected with the connecting fixing piece 5.

The connecting and fixing piece 5 comprises a bonding plate 58, a first clamping seat 51 and a second clamping seat 54 which are fixedly arranged on one side surface of the bonding plate 58, wherein the second clamping seat 54 is provided with two clamping seats which are mutually perpendicular, and the two clamping seats 54 are connected with the steel wire mesh 3;

The first clamping seat 51 comprises two limiting plates which are parallel to each other, a first clamping groove is formed between the two limiting plates, and a first through hole 52 is formed in the first clamping groove and on the attaching plate 58;

The second clamping seat 54 comprises two parallel baffles, the two baffles form a second clamping groove, the first clamping seat 51 and the second clamping seat 54 are respectively arranged at the corner end parts of the attaching plate 58, and the central axes of the first clamping groove and the second clamping groove are parallel to each other.

Two sides of the second clamping groove are respectively provided with clamping strips 55 in parallel, and the clamping strips 55 are fixed on the inner sides of the baffle plates;

The two ends of the clamping groove II are fixedly provided with supporting blocks 56 respectively;

a strip through hole is formed in the second clamping groove and in the attaching plate 58;

The outer sides of the two baffles are respectively fixed with a rib plate 57.

The pipe positioning structure comprises a positioning pipe 4 and a limiting connecting piece 8 which are arranged through the bonding plate 58, wherein the limiting connecting piece 8 is arranged in the first through hole 52 in a penetrating way, and a hanging lug 82 is arranged on the side part of the limiting connecting piece 8;

The positioning tube 4 passes through the bonding plate 58, a ratchet part 46 is arranged on the outer side part near one end of the positioning tube 4, and a rotating handle 45 is fixedly arranged on the other end of the positioning tube 4.

The pipe positioning structure further comprises an upper communicating pipe 6 and a lower communicating pipe 61 which are respectively arranged above and below the limiting connecting piece 8, a slip ring 62 arranged at the top end of the upper communicating pipe 6, a fixed pipe 42 with one end communicated with the lower side of the positioning pipe 4, a telescopic column 43 with one end slidingly arranged at the other end of the fixed pipe 42, and a supporting plate 44 fixed at the other end of the telescopic column 43, wherein a piston is arranged at one end of the telescopic column 43 and is embedded in the fixed pipe 42;

the outside of the positioning pipe 4 is communicated with one end of the first butt joint pipe 41, the outside of the limiting connecting piece 8 is communicated with one end of the second butt joint pipe 81, and the other end of the first butt joint pipe 41 is communicated with the other end of the second butt joint pipe 81 through a vent pipe.

The wedge-shaped structure 7 comprises a lower fixing plate 77, a fixing column 75 with the bottom end vertically connected to the lower fixing plate 77, an upper fixing plate 74 fixed to the top end of the fixing column 75, a sliding plate 76 arranged on the fixing column 75 in an up-down sliding mode, a horizontal column 72 horizontally penetrating through the sliding plate 76, a pushing plate 71 and a sloping plate 73 respectively positioned at two ends of the horizontal column 72, an inclined face is arranged in the upper fixing plate 74, and the sloping plate 73 is attached to the inclined face.

The outer edges of the opening ends of the positioning pipe 4 and the limiting connecting piece 8 are respectively provided with a rubber pad, and the rubber pads are attached to the inner side surface of the building template 1.

Wherein, spacing connecting piece 8 is steel pipe structure to realize the intercommunication with positioning tube 4.

The specific working process of the invention comprises the following steps:

The back of the connecting and fixing piece 5 is attached to the heat-insulating core material 2, meanwhile, the steel bars on the steel wire meshes 3 are clamped on the clamping seat II 54, the limiting connecting piece 8 and the positioning pipe 4 penetrate through the heat-insulating core material 2 and the connecting and fixing piece 5, the hanging lugs 82 on the limiting connecting piece 8 are clamped in the clamping groove I, the ratchet parts 46 are arranged at one end close to the positioning pipe 4, and the ratchet parts 46 are clamped in the through holes II 53, so that the integrated connection of the heat-insulating core material 2, the connecting and fixing piece 5 and the steel wire meshes 3 is realized.

The heat preservation core material 2 is arranged between two mutually parallel building templates 1, one end of the positioning pipe 4 is contacted with the inner side of one building template 1, the rotating handle 45 is attached to the side face of the heat preservation core material 2, two ends of the limiting connecting piece 8 are respectively contacted with the inner sides of the two building templates 1, and the positions of the two building templates 1 are limited.

The ends of the positioning pipe 4 and the limiting connecting piece 8 are abutted against the inner side of the building template 1, so that a certain distance is kept between the building template 1 and the heat preservation core material 2, and the thickness of the shear wall is guaranteed when the shear wall structure is poured, and the building template 1 is not required to be connected through screw opposite pulling as before.

The connecting fixing piece 5, the positioning pipe 4 and the limiting connecting piece 8 also have the function of reinforcing ribs.

The upper communicating pipe 6 and the lower communicating pipe 61 which are adjacent up and down are connected in a sealing way through the slip ring 62, so that the upper communicating pipe 6 and the lower communicating pipe 61 which are adjacent up and down are connected in a butt joint way, and the pipe positioning structures on a plurality of heat preservation core materials 2 are connected; the upper communicating pipe 6 is matched with the wedge-shaped structure 7 to clamp the upper heat-insulating core material 2, so that the clamping limit of the heat-insulating core material 2 is realized;

In addition, the wedge-shaped structure 7 is arranged, when concrete falls on the sliding plate 76, the sliding plate 76 descends to drive the pushing plate 71 to extrude towards the heat-insulating core material 2, and the heat-insulating core material 2 is fixed by utilizing the gravity of the concrete, so that the conception is ingenious;

The fixing pipe 42, the telescopic column 43 and the supporting plate 44 are arranged, when concrete falls on the supporting plate 44, the supporting plate 44 drives the telescopic column 43 to descend, the telescopic column 43 slides downwards in the fixing pipe 42, at the moment, as one ends of the positioning pipe 4 and the limiting connecting piece 8 are contacted with the building template 1 through rubber pads, the top end of the upper communicating pipe 6 is sealed by rubber caps, and at the moment, the air pressure in the pipe positioning structure is reduced, so that the building template 1 is assisted to be strongly attached to the positioning pipe 4 and the limiting connecting piece 8, and shaking of the building template 1 is avoided.

Remarks: the building template 1 is a temporary supporting structure, is manufactured according to design requirements, enables a concrete structure and a component to be formed according to specified positions and geometric dimensions, keeps the correct positions, bears the dead weight of the building template 1 and external loads acting on the dead weight, and performs template engineering, and is a building template 1 structure for ensuring the quality and construction safety of concrete engineering, accelerating construction progress and reducing engineering cost, and is mainly composed of a panel, a supporting structure and connecting pieces. The building form 1 in this embodiment is shown with only the panel portions labeled, and is described in this context.

The technical features of the present invention that are not described in the present invention may be implemented by or using the prior art, and are not described in detail herein, but the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, but is also intended to be within the scope of the present invention by those skilled in the art.

Claims (3)

1. The construction device for connecting and fixing the heat-insulating core material of the building comprises a heat-insulating core material (2) and is characterized by further comprising a steel wire mesh (3) positioned on one side surface of the heat-insulating core material (2) through a connecting fixing piece (5), a wedge-shaped structure (7) used for limiting the heat-insulating core material (2) and a pipe positioning structure used for positioning cast-in-place concrete and the heat-insulating core material (2), wherein the wedge-shaped structure (7) and the pipe positioning structure are both connected to the connecting fixing piece (5);

Building templates (1) are respectively arranged on two sides of the heat-insulating core material (2), the connecting fixing piece (5) is abutted against the heat-insulating core material (2), a reinforcement cage (9) is arranged between the heat-insulating core material (2) and one of the building templates (1), and the reinforcement cage (9) is connected with the connecting fixing piece (5);

the connecting and fixing piece (5) comprises a bonding plate (58), a first clamping seat (51) and a second clamping seat (54) which are fixedly arranged on one side surface of the bonding plate (58), wherein the second clamping seat (54) is provided with two clamping seats which are mutually perpendicular, and the two clamping seats (54) are connected with the steel wire mesh (3);

The first clamping seat (51) comprises two limiting plates which are parallel to each other, a first clamping groove is formed between the two limiting plates, and a first through hole (52) is formed in the first clamping groove and on the attaching plate (58);

The second clamping seat (54) comprises two baffle plates which are parallel to each other, a second clamping groove is formed by the two baffle plates, the first clamping seat (51) and the second clamping seat (54) are respectively arranged at the corner end parts of the attaching plate (58), and the central axes of the first clamping groove and the second clamping groove are parallel to each other;

two sides of the clamping groove II are respectively provided with clamping strips (55) in parallel, and the clamping strips (55) are fixed on the inner side of the baffle;

Support blocks (56) are fixedly arranged at two ends of the clamping groove II respectively;

a strip through hole is formed in the second clamping groove and in the attaching plate (58);

The outer sides of the two baffles are respectively fixed with a rib plate (57);

the pipe positioning structure comprises a positioning pipe (4) and a limiting connecting piece (8) which are arranged through the attaching plate (58), wherein the limiting connecting piece (8) is arranged in the first through hole (52) in a penetrating mode, and a hanging lug (82) is arranged on the side portion of the limiting connecting piece (8);

The positioning tube (4) passes through the attaching plate (58), a ratchet part (46) is arranged on the outer side part of one end close to the positioning tube (4), and a rotating handle (45) is fixedly arranged on the other end of the positioning tube (4);

The wedge-shaped structure (7) comprises a lower fixing plate (77), a fixing column (75) with the bottom end vertically connected to the lower fixing plate (77), an upper fixing plate (74) fixed to the top end of the fixing column (75), a sliding plate (76) arranged on the fixing column (75) in an up-down sliding mode, a horizontal column (72) horizontally penetrating through the sliding plate (76), a pushing plate (71) and an inclined plate (73) respectively positioned at two ends of the horizontal column (72), an inclined surface is arranged in the upper fixing plate (74), and the inclined plate (73) is attached to the inclined surface.

2. The construction device for connecting and fixing the building heat-insulating core material according to claim 1, wherein the pipe positioning structure further comprises an upper communicating pipe (6) and a lower communicating pipe (61) which are respectively arranged above and below the limit connecting piece (8), a slip ring (62) arranged at the top end of the upper communicating pipe (6), a fixed pipe (42) with one end communicated with the lower side of the positioning pipe (4), a telescopic column (43) with one end slidingly arranged at the other end of the fixed pipe (42), and a supporting plate (44) fixed at the other end of the telescopic column (43), wherein a piston is arranged at one end of the telescopic column (43), and the piston is embedded in the fixed pipe (42);

The outer side of the positioning pipe (4) is communicated with one end of the first butt joint pipe (41), the outer side of the limiting connecting piece (8) is communicated with one end of the second butt joint pipe (81), and the other end of the first butt joint pipe (41) is communicated with the other end of the second butt joint pipe (81) through a vent pipe.

3. The construction device for connecting and fixing the building heat-insulating core material according to claim 1, wherein rubber pads are arranged on the outer edges of the opening ends of the positioning pipes (4) and the limiting connecting pieces (8), and the rubber pads are attached to the inner side surfaces of the building templates (1).