CN214995804U - Fine-adjustable cantilever formwork device - Google Patents

Abstract

The utility model discloses a cantilever formwork device capable of fine adjustment, which comprises two tripods, a set of formwork system, a plurality of I-shaped wood, scaffold boards and two embedded parts, wherein the tripods are made of profile steel; i-shaped wood and a scaffold board are laid on the tripod to form an operation platform; in the die carrier system, a vertical main back edge with an adjustable triangular support is arranged behind a transverse main back edge; the stupefied bottom installation micromatic setting of vertical main back of the body to be connected with the tripod platform, the movable scaffold frame of taking the truckle is installed at the back.

Description

Fine-adjustable cantilever formwork device

Technical Field

The utility model belongs to the technical field of the construction, concretely relates to cantilever die carrier device that can finely tune.

Background

The traditional method for setting up the floor scaffold wastes time and labor, has low efficiency, and a common cantilever tripod can be used as an operation platform, but the structure is threaded through a split screw to increase the risk of water leakage. The cantilever formwork system device is mainly used in industrial buildings, the concrete frame beam or the shear wall is higher in height, the rigidity of the formwork support structure is high, the turnover efficiency is high, and the space below can be saved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cantilever die carrier device that can finely tune.

In order to achieve the above object, the utility model provides a cantilever die carrier device that can finely tune, a serial communication port, include:

the device comprises two tripods (1), wherein first I-shaped wood (3) and scaffold boards (4) are paved on the two tripods (1), and the first I-shaped wood (3) is connected with the scaffold boards (4) through clamps (2) to form an operation platform; the two tripods (1) are connected with embedded parts (9) in structural concrete (8);

the template (11), the said template (11) is connected with second I-shaped timber (17), horizontal main back arris (15); the vertical main back edge (13) is connected with the transverse main back edge (15), and the transverse main back edge (15) is placed on the adjusting seat (12); the bottom of the vertical main back ridge (13) is connected with the fine adjustment device (10), and the back of the vertical main back ridge is connected with one end of the adjustable inclined strut (6);

the movable scaffold (7) with the caster wheels is fixedly connected with the vertical main back ridge (13); the other end of the adjustable inclined strut (6) is connected with the movable scaffold (7) with the caster; the movable scaffold (7) with the caster wheels can move along with the fine adjustment of the vertical main back ridge (13), and is a steel bar binding platform.

Preferably, the two tripods (1) are provided with guard rails (5).

Preferably, the formwork (11) is a wood formwork.

Preferably, the vertical main back edge (13) and the transverse main back edge (15) are made of double-groove steel.

More preferably, the vertical main back edge (13) and the transverse main back edge (15) are made of double-spliced 10# channel steel.

Preferably, the outer side of the embedded part (9) close to the structural concrete (8) is a detachable climbing cone, and the two tripods (1) are connected with the embedded part (9) in a buckling mode.

Preferably, the fine adjustment means is a fine adjustment gear (10).

Preferably, the movable scaffold with the caster (7) is fixedly connected with the vertical main back ridge (13) through a first fastener (14).

Preferably, the transverse main back edge (15) and the vertical main back edge (13) are connected through a second fastener (16).

Preferably, the first I-beam (3) and the scaffold board (4) are connected through a clamp (2).

Drawings

FIG. 1 is a schematic view of a finely adjustable cantilever formwork mounting structure at a reinforcement bar binding stage;

FIG. 2 is a schematic view of a mounting structure of a finely adjustable cantilever formwork at a formwork mounting stage;

figure 3 is a schematic diagram of horizontal fine tuning of the scaffold.

In the figure, 1, two tripods, 2, a clamp, 3, a first I-shaped wood, 4, a scaffold board, 5, a protective railing, 6, an adjustable inclined strut, 7, a movable scaffold with a caster, 8, a concrete structure, 9, an embedded part, 10, a fine adjustment gear, 11, a template, 12, an adjusting seat, 13, a vertical main back ridge, 14, a first fastener, 15, a transverse main back ridge, 16, a second fastener, 17 and a second I-shaped wood are arranged.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 and fig. 2, it is the utility model discloses a cantilever formwork system device that can finely tune is at the mounting structure sketch map of reinforcement stage and template installation stage. The utility model discloses a cantilever die carrier system device that can finely tune includes tripod 1, anchor clamps 2, first I-beam 3, scaffold board 4, protection railing 5, adjustable bracing 6, the portable scaffold frame 7 of taking the truckle, built-in fitting 9, fine setting gear 10, template 11, adjusts seat 12, the stupefied 13 of vertical main back of the body, fastener 14, the stupefied 15 of horizontal main back of the body, fastener 16, second I-beam 17.

A diagonal draw bar is arranged between two tripods 1 to prevent the tripods from deforming. An operation platform is formed by erecting and fixing a first I-shaped wood 3, a scaffold board 4 and a guard rail 5 between two tripods 1. The first I-beam 3 is connected with the scaffold board 4 through the clamp 2. The first i-beam 3 may be two or more. And supporting legs are arranged at the bottoms of the inner sides of the two tripods 1, so that the integral operating platform can be conveniently abutted against a structural wall.

The embedded part 9 is embedded in the structural concrete 8, and a detachable climbing cone is arranged on the outer side of the concrete. The tripod 1 is connected with the embedded part 9, preferably connected in a buckling mode, and is convenient to mount and dismount.

The template 11 is connected with a second I-shaped wood 17 and a transverse main back ridge 15; the transverse main back edge 15 is connected with the vertical main back edge 13 with the adjustable triangular supports, and the transverse main back edge and the vertical main back edge are preferably connected through a second fastener 16. The back of the vertical main back ridge 13 is connected with the adjustable inclined strut 6, and the other end of the adjustable inclined strut 6 is connected with the movable scaffold 7 with the caster. The movable scaffold 7 with the caster can be used as a steel bar binding platform. The movable scaffolding 7 with caster is fixedly connected to the main vertical back ridge 13, preferably by means of a first fastener 14. The bottom of the vertical main back ridge 13 is provided with a fine adjustment device 10, and the fine adjustment device 10 is connected with the tripod platform. Under the action of the fine adjustment device, the movable scaffold 7 with the caster can move along with the fine adjustment of the vertical main back ridge 13. The fine adjustment means is preferably a fine adjustment gear. When the fine adjustment device 10 is adjusted, an adaptive wrench is needed. The distance between the template 11 and the structure and the inclination angle of the template 11 can be adjusted by the arrangement of the adjustable inclined strut 6 and the fine adjustment device.

The transverse main back ridge (15) is placed on the adjusting seat (12).

The two tripods 1 are preferably made of section steel; the template 11 is a wood template; the secondary back edges are made of I-shaped wood, and the transverse main back edges 15 and the vertical main back edges 13 are preferably made of double-channel steel, and more preferably made of double-spliced 10# channel steel.

When the lower layer concrete structure 8 is constructed, the embedded part 9 is embedded into the structure, and a screw rod with a nut is installed on the exposed side of concrete.

Step A: two tripods 1, a first I-shaped timber 3, a scaffold board 4 and a guard rail 5 are connected and fixed on the ground through a clamp 2 to form a tripod operating platform.

And B: meanwhile, the template 11, the second I-shaped timber 17 and the transverse main back ridge 15 are pre-assembled on the ground to form a template system, as shown in fig. 1.

And C: the vertical main back ridge 13, the fine adjustment gear 10, the adjustable inclined strut 6, the adjusting seat 12 and the movable scaffold 7 with the caster are installed and fixed on a tripod operating platform.

Step D: and D, integrally hoisting and hanging and buckling the frame body comprising the tripod operating platform formed in the step C on an embedded part (9) in the concrete (8) of the underlying structure.

Step E: in order to guarantee that enough space is reserved for binding the steel bars, as shown in fig. 3, a fine adjustment device 10 is pulled by a wrench to enlarge the reserved space of the structure, and a tripod operating platform and a movable scaffold 7 with casters are used as a platform to begin binding the structural steel bars.

Step F: after the steel bars are bound, hoisting the pre-assembled formwork system (assembled in step a) to be in place, adjusting the fine adjustment device 10 by using a wrench to enable the formwork 11 to be in place to the position required by the design and adjusting the formwork 11 to a proper angle by using the adjustable inclined strut 6, as shown in fig. 2. And after the template 11 is adjusted, the structural concrete can be poured.

The above, only be the embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the present invention, the technical solution and the utility model thereof should be covered within the protection scope of the present invention.

Claims (10)

1. A cantilever formwork device that can finely tune, its characterized in that includes:

the device comprises two tripods (1), wherein first I-shaped wood (3) and scaffold boards (4) are paved on the two tripods (1), and the first I-shaped wood (3) is connected with the scaffold boards (4) through clamps (2) to form an operation platform; the two tripods (1) are connected with embedded parts (9) in structural concrete (8);

the template (11), the said template (11) is connected with second I-shaped timber (17), horizontal main back arris (15); the vertical main back edge (13) is connected with the transverse main back edge (15), and the transverse main back edge (15) is placed on the adjusting seat (12); the bottom of the vertical main back ridge (13) is connected with the fine adjustment device (10), and the back of the vertical main back ridge is connected with one end of the adjustable inclined strut (6);

the movable scaffold (7) with the caster wheels is fixedly connected with the vertical main back ridge (13); the other end of the adjustable inclined strut (6) is connected with the movable scaffold (7) with the caster; the movable scaffold (7) with the caster wheels can move along with the fine adjustment of the vertical main back ridge (13), and is a steel bar binding platform.

2. The finely adjustable cantilever formwork device of claim 1, wherein: and protective railings (5) are arranged on the two tripods (1).

3. The finely adjustable cantilever formwork device of claim 1, wherein: the template (11) is a wood template.

4. The finely adjustable cantilever formwork device of claim 1, wherein: the vertical main back edge (13) and the transverse main back edge (15) are made of double-groove steel.

5. The finely adjustable cantilever formwork device of claim 4, wherein: the vertical main back edge (13) and the transverse main back edge (15) are made of double-spliced 10# channel steel.

6. The finely adjustable cantilever formwork device of claim 1, wherein: the embedded part (9) leans on the structural concrete (8) outside to be detachable and climbs the awl, two pin tripods (1) with embedded part (9) are connected through the mode of buckle.

7. The finely adjustable cantilever formwork device of claim 1, wherein: the fine adjustment device is a fine adjustment gear (10).

8. The finely adjustable cantilever formwork device of claim 1, wherein: the movable scaffold (7) with the caster wheels is fixedly connected with the vertical main back ridge (13) through a first fastener (14).

9. The finely tunable cantilever formwork system apparatus of claim 1, wherein: the transverse main back edge (15) is connected with the vertical main back edge (13) through a second fastener (16).

10. The finely tunable cantilever formwork system apparatus of claim 1, wherein: the first I-shaped wood (3) is connected with the scaffold board (4) through a clamp (2).

Images