CN221256171U - Novel reinforcing structure for connecting diagonal bracing with template - Google Patents

Abstract

The utility model discloses a novel reinforcing structure for connecting a diagonal brace with a formwork, which comprises a building formwork and a diagonal brace base, wherein the diagonal brace base is arranged on the bottom surface or a supporting frame on one side of the building formwork, an adjusting supporting component for the diagonal brace is arranged between a supporting hole of the diagonal brace base and a supporting hole of the building formwork, and locking pieces are arranged between two ends of the adjusting supporting component and the supporting holes of the building formwork and the diagonal brace base. According to the utility model, the connecting pin shaft is inserted into the supporting holes on the building template and the diagonal bracing base, the wedge-shaped locking block is inserted to realize installation, and the fastening connection between the diagonal bracing and the template can be realized without too many operation tools and labor force, so that the bracing effect is achieved, the stability of the template is ensured, and the installation is convenient; through rotating the adjusting handle, the adjusting sleeve is driven, and under the screw transmission of opposite directions of rotation of the two end parts, the connecting screw rods of the two end parts are driven to move in opposite directions or in opposite directions, so that the tightening and loosening operation of the building template is realized, the reinforcing effect is achieved, and the template is stable.

Description

Novel reinforcing structure for connecting diagonal bracing with template

Technical Field

The utility model relates to the field of aluminum formwork support, in particular to a novel reinforcing structure for connecting a diagonal brace with a formwork.

Background

The aluminum alloy template can form a complete system, and can finish the construction of concrete structures such as walls, columns, beams, plates, balconies, bay windows, outer decorative lines and the like at one time. The aluminum alloy template system is supported by independent steel, and the inner wall diagonal bracing is reinforced, so that the aluminum alloy template system is very simple and convenient, and can replace the battens and supports of the traditional wood template. Because the relative density of the aluminum alloy material is 1/3 of that of steel, the aluminum alloy template is very light and convenient, and can be completely transported by manpower without using a tower crane. Aluminum alloy templates are the most ideal tool templates at present.

The reinforcing measures matched with the aluminum alloy template wall column mainly comprise screw rods (pull tabs), back ribs (square tubes) and diagonal braces, wherein the connecting method adopts diagonal brace clamping heads to be connected with the transverse back ribs, so that the wall body is adjusted to be vertical, and the flatness of the wall body is ensured; however, some projects can require some unusual practices, for example, pull-tab projects are used all the time, namely, a small inclined strut and a steel wire rope are used for guaranteeing the outlet system of a wall body, but at present, the projects require the use of a long inclined strut, the connection method of the long inclined strut is that a clamping head is connected with a back edge, the pull-tab projects have no double-tube back edge and cannot be connected with the inclined strut clamping head, and therefore, the pull-tab projects need to be analyzed and researched on the basis of the original aluminum alloy template reinforcing system to make a reasonable solution.

The aluminum alloy template is widely applied instead of the traditional template, and the construction quality is ensured by the characteristics of light weight, high strength, large plate width and few joints, and the aluminum alloy template can effectively shorten the construction period, improve the construction quality and reduce unnecessary trouble caused by secondary construction despite relatively higher early investment. In order to ensure the perpendicularity of the aluminum alloy template energy wall column, the template is fixed by adopting a diagonal brace after leveling, particularly the pull-tab project is not disturbed, and the traditional reinforcement is that the stability is ensured by adopting a small diagonal brace and a steel wire rope, so that the operation is inconvenient. Accordingly, a reinforcing structure for connecting a novel diagonal brace with a formwork is provided by a person skilled in the art to solve the problems set forth in the background art.

Disclosure of utility model

The utility model aims to provide a novel reinforcing structure for connecting a diagonal brace with a template, so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The novel reinforcing structure for connecting the diagonal bracing with the formwork comprises a building formwork and a diagonal bracing base, wherein the diagonal bracing base is arranged on the bottom surface or the supporting frame on one side of the building formwork, an adjusting supporting component for the diagonal bracing is arranged between a supporting hole of the diagonal bracing base and a supporting hole of the building formwork, and locking pieces are arranged between two ends of the adjusting supporting component and the supporting holes of the building formwork and the diagonal bracing base;

The locking piece comprises a limiting jacking block, a stud, a locking nut, a plug limiting hole and a wedge locking block, wherein the connecting pin shaft is inserted into a supporting hole of a building template or an inclined strut base, the limiting jacking block is integrally formed at the periphery of the connecting pin shaft, the stud is integrally formed at one end part of the connecting pin shaft, the locking nut is in threaded connection with the periphery of the stud and is positioned at one side of the limiting jacking block, the plug limiting hole is formed at one end part of the connecting pin shaft, and the wedge locking block is inserted into the plug limiting hole.

Preferably, the adjusting support assembly comprises an adjusting sleeve, two adjusting handles fixed at the middle symmetrical position of the adjusting sleeve and connecting screws arranged at two ends of the adjusting sleeve, the connecting screws at two ends of the adjusting sleeve are connected with the adjusting sleeve through threads, the two connecting screws are opposite to the rotating direction of the threaded connection of the adjusting sleeve, and one end of the connecting screw, far away from the adjusting sleeve, is connected with a supporting hole of a building template or a diagonal bracing base.

Preferably, the diagonal bracing base and the supporting hole on the building template are positioned between the wedge-shaped locking block and the limiting top block, and the connecting screw rod in the adjusting supporting assembly is arranged between the limiting top block and the locking nut at the periphery of the connecting pin shaft.

Preferably, one end of the limiting ejector block is cylindrical, and the other end of the limiting ejector block is hexagonal.

When the support device is installed, the installation can be realized by only inserting the connecting pin shaft in the locking piece into the supporting holes on the building template and the diagonal bracing base and then inserting the wedge-shaped locking piece, and the fastening connection between the diagonal bracing and the template can be realized without too many operation tools and labor force, so that the bracing effect is achieved, the stability of the template is ensured, and the installation is extremely convenient.

According to the utility model, the adjusting handle is rotated to drive the adjusting sleeve, and under the transmission of threads with opposite rotation directions at the two ends, the connecting screw rods at the two ends can be driven to move in opposite directions or in opposite directions, so that the tightening and loosening operations of the building template are realized, the reinforcing effect is achieved, and the template is stable.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a locking member according to the present utility model;

fig. 3 is a schematic structural view of a locking member according to the present utility model.

In the figure: 1. building templates; 2. a diagonal bracing base; 3. adjusting the support assembly; 301. adjusting a handle; 302. an adjusting sleeve; 303. connecting a lead screw; 4. a locking member; 401. a connecting pin shaft; 402. inserting limit holes; 403. wedge-shaped locking blocks; 404. a limiting top block; 405. a stud; 406. and (5) locking the nut.

Detailed Description

Referring to fig. 1 to 3, in the embodiment of the utility model, a novel reinforcing structure for connecting a diagonal brace with a formwork comprises a building formwork 1 and a diagonal brace base 2, wherein the diagonal brace base 2 is arranged on the bottom surface or a supporting frame on one side of the building formwork 1, an adjusting supporting component 3 for diagonal brace is arranged between a supporting hole of the diagonal brace base 2 and a supporting hole of the building formwork 1, and locking pieces 4 are arranged between two end parts of the adjusting supporting component 3 and the supporting holes of the building formwork 1 and the diagonal brace base 2;

the locking piece 4 comprises a limiting top block 404 which is inserted into a supporting hole of the building template 1 or the inclined support base 2 and is formed by integrally forming a connecting pin shaft 401 on the periphery of the connecting pin shaft 401, a stud 405 which is integrally formed on one end part of the connecting pin shaft 401, a locking nut 406 which is connected on one side of the limiting top block 404 on the periphery of the stud 405 in a threaded manner, an inserting limiting hole 402 which is formed on one end part of the connecting pin shaft 401, and a wedge-shaped locking block 403 which is inserted into the inserting limiting hole 402.

Through adopting above-mentioned technical scheme, can be when installing this reinforced structure, only need insert the connecting pin axle 401 in retaining member 4 in the supporting hole on building templates 1 and bracing base 2, then insert wedge latch segment 403 and can realize the installation, need not too many operating tool and labour, just can reach the fastening connection between bracing and the template to play the bracing effect and guarantee that the template is firm, the installation is very high-efficient convenient.

The adjusting and supporting assembly 3 comprises an adjusting sleeve 302, two adjusting handles 301 fixed at symmetrical positions in the middle of the adjusting sleeve 302 and connecting lead screws 303 arranged at two ends of the adjusting sleeve 302, the connecting lead screws 303 at two ends of the adjusting sleeve 302 are connected with the adjusting sleeve 302 through threads, the two connecting lead screws 303 are in opposite rotation directions of the threaded connection with the adjusting sleeve 302, and one end, far away from the adjusting sleeve 302, of the connecting lead screw 303 is connected with a supporting hole of the building template 1 or the diagonal bracing base 2.

In the above technical scheme, the adjusting handle 301 can be rotated to drive the adjusting sleeve 302, and under the transmission of threads with opposite rotation directions at two ends, the connecting screws 303 at two ends can be driven to move towards the opposite directions or back to realize the tightening and loosening operations on the building template 1, so that the adjusting is convenient.

Wherein, the supporting holes on the diagonal bracing base 2 and the building template 1 are positioned between the wedge-shaped locking block 403 and the limiting top block 404, and the connecting screw 303 in the adjusting and supporting component 3 is arranged between the limiting top block 404 and the locking nut 406 at the periphery of the connecting pin 401.

In the above technical scheme, the connection parts of the adjusting support assembly, the diagonal bracing base 2 and the building template 1 are axially distributed on the connecting pin shafts 401, so that a radial acting force is provided at the lock nut 406 after the building template 1 is tightly braced by the adjusting support assembly 3, so that the lock nut 406 is unbalanced in acceptance, and the vibration anti-drop effect can be achieved.

One end of the limiting top block 404 is cylindrical, and the other end of the limiting top block 404 is hexagonal, so that the limiting top block 404 can be clamped conveniently.

When the reinforcing structure is installed, the installation can be realized only by inserting the connecting pin shafts 401 in the locking pieces 4 into the supporting holes on the building template 1 and the diagonal bracing base 2 and then inserting the wedge-shaped locking pieces 403, one ends of the locking pieces 4 are connected with the wedge-shaped locking pieces 403, the other ends of the locking pieces are connected with the locking nuts 406, one ends of the connecting pieces are connected with the aluminum template through the wedge-shaped locking pieces 403, the locking nuts 406 at the other ends are connected with the connecting lead screws 303 on the adjusting and supporting assembly 3, the adjusting and supporting assembly 3 is connected with the diagonal bracing base 2, the diagonal bracing base 2 is connected with a concrete structure through embedded parts or expansion wires, the adjusting handles 301 are rotated to drive the adjusting sleeves 302, and the connecting lead screws 303 at the two ends can be driven to move oppositely or reversely under the screw transmission of opposite directions, so that the supporting and releasing operation of the building template 1 is realized, the reinforcing effect is achieved, and the template is stable.

Claims (4)

1. Novel reinforced structure that bracing and template are connected, including building templates (1) and bracing base (2), its characterized in that: the diagonal bracing base (2) is arranged on the bottom surface or the supporting frame at one side of the building template (1), an adjusting and supporting component (3) for diagonal bracing is arranged between a supporting hole of the diagonal bracing base (2) and a supporting hole of the building template (1), and locking pieces (4) are arranged between two ends of the adjusting and supporting component (3) and the supporting holes of the building template (1) and the diagonal bracing base (2);

The locking piece (4) comprises a connecting pin shaft (401) inserted into a supporting hole of the building template (1) or the inclined support base (2), a limiting top block (404) integrally formed on the periphery of the connecting pin shaft (401), a stud (405) integrally formed on one end of the connecting pin shaft (401), a locking nut (406) which is in threaded connection with the periphery of the stud (405) and is positioned on one side of the limiting top block (404), an inserting limiting hole (402) formed on one end of the connecting pin shaft (401) and a wedge-shaped locking block (403) inserted into the inserting limiting hole (402).

2. The reinforcing structure for connecting a novel diagonal brace with a formwork according to claim 1, wherein: the adjusting and supporting assembly (3) comprises an adjusting sleeve (302), two adjusting handles (301) fixed at middle symmetrical positions of the adjusting sleeve (302) and connecting screws (303) arranged at two ends of the adjusting sleeve (302), wherein the connecting screws (303) at two ends of the adjusting sleeve (302) are connected with the adjusting sleeve (302) through threads, the two connecting screws (303) are opposite in rotation direction with the adjusting sleeve (302) in threaded connection, and one end, far away from the adjusting sleeve (302), of the connecting screws (303) is connected with a supporting hole of a building template (1) or an inclined support base (2).

3. The reinforcing structure for connecting a novel diagonal brace with a formwork according to claim 2, wherein: the support holes on the diagonal bracing base (2) and the building template (1) are positioned between the wedge-shaped locking blocks (403) and the limiting top blocks (404), and the connecting screw rod (303) in the adjusting support assembly (3) is arranged between the limiting top blocks (404) and the locking nuts (406) at the periphery of the connecting pin shaft (401).

4. The reinforcing structure for connecting a novel diagonal brace with a formwork according to claim 1, wherein: one end of the limiting top block (404) is cylindrical, and the other end of the limiting top block (404) is hexagonal cylindrical.