CN215038754U

CN215038754U - Stair reinforcement frame

Info

Publication number: CN215038754U
Application number: CN202120510056.7U
Authority: CN
Inventors: 吴文春; 余志平
Original assignee: Sichuan Jiye Residential Technology Co ltd
Current assignee: Sichuan Jiye Residential Technology Co ltd
Priority date: 2021-03-10
Filing date: 2021-03-10
Publication date: 2021-12-07
Anticipated expiration: 2031-03-10

Abstract

The utility model discloses a stair reinforcement frame, including skeleton, first angle adjusting part, second angle adjusting part, first reinforcing bar position adjusting part, second reinforcing bar position adjusting part, zero ladder adjusting part, a plurality of reinforcing bar locating levers and removal subassembly, first angle adjusting part installs the first end of skeleton, second angle adjusting part installs the second end of skeleton, first reinforcing bar position adjusting part and second reinforcing bar position adjusting part all slidable mounting on the skeleton, and lie in between first angle adjusting part and the second angle adjusting part; zero ladder adjustment assembly slidable mounting is in on the skeleton, it is a plurality of the reinforcing bar locating lever welding is in on the skeleton, it installs to remove the subassembly the bottom of skeleton. The utility model provides high unity and ligature efficiency with specification stair component steel reinforcement cage for its angle and position can swiftly be fixed a position to assembly type structure stair component steel reinforcement cage ligature.

Description

Stair reinforcement frame

Technical Field

The utility model relates to a building engineering construction technical field, concretely relates to stair reinforcement frame.

Background

A large number of building parts of the fabricated building are produced and processed in a workshop, and prefabricated components are assembled on site, so that the cast-in-place operation on site is greatly reduced. Currently, with the advance of prefabricated buildings, prefabricated stairways have become one of the most common prefabricated parts in the residential industry. The preparation process generally comprises the steps of binding a reinforcement cage and then pouring to form the prefabricated staircase.

Stair cages are more complex than conventional prefabricated cages, and stair cages typically include a main body and a hoop mesh connected to both ends of the main body, wherein the main body includes an upper layer of mesh and a lower layer of mesh, and the mesh is typically formed by longitudinally and transversely connecting longitudinal bars and transverse bars in a crisscross manner. The stirrup net at the two ends forms an upper step platform and a lower step platform of the stair after being poured. The stair has direct relation with the reinforcement cage inside the stair to a great extent, and the reinforcement binding space of the reinforcement cage, the size requirement of the framework and the like are important technical parameters. It is usually necessary to design a stair reinforcement frame to assist the reinforcement work of the stair.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a stair reinforcement frame has improved unity and ligature efficiency with specification stair component steel reinforcement cage, has solved the technical problem of how swiftly fix a position its angle and position of assembled building stair component steel reinforcement cage ligature.

The purpose of the utility model is realized through the following technical scheme:

a stair reinforcement frame comprises a framework, a first angle adjusting assembly, a second angle adjusting assembly, a first reinforcement position adjusting assembly, a second reinforcement position adjusting assembly, a zero ladder adjusting assembly, a plurality of reinforcement positioning rods and a moving assembly, wherein the first angle adjusting assembly is installed at the first end of the framework, the second angle adjusting assembly is installed at the second end of the framework, and the first reinforcement position adjusting assembly and the second reinforcement position adjusting assembly are both installed on the framework in a sliding mode and located between the first angle adjusting assembly and the second angle adjusting assembly; zero ladder adjusting part slidable mounting is in on the skeleton, it is a plurality of the reinforcing bar locating lever welding is in on the skeleton, it installs to remove the subassembly the bottom of skeleton.

Further, the skeleton includes chassis and support, the leg joint is in the top of chassis, the removal subassembly is installed on the chassis.

Further, first angle adjustment subassembly includes tail ladder regulating plate and angle adjustment plate, angle adjustment plate with the first end of support is articulated, tail ladder regulating plate installs angle adjustment plate's end.

Further, the second angle adjusting assembly comprises a first ladder adjusting plate and an angle adjusting rod, the angle adjusting rod is hinged to the second end of the support, the first ladder adjusting plate is installed on the angle adjusting rod, and the angle adjusting rod is a manual telescopic adjusting rod.

Furthermore, the first steel bar position adjusting assembly is slidably mounted on the support and comprises a first transverse adjusting rod and two first vertical adjusting rods, the two first vertical adjusting rods are mounted on two sides of the support through a first connecting plate, the first transverse adjusting rod is bridged between the two first vertical adjusting rods, and adjusting holes are formed in the first connecting plate, the side wall of the first end of the support and the first vertical adjusting rods.

Further, the second steel bar position adjusting assembly is fixedly installed on the support and comprises a second transverse adjusting rod and two second vertical adjusting rods, the two second vertical adjusting rods are installed on two sides of the support through a second connecting plate, and the second transverse adjusting rod is bridged between the two second vertical adjusting rods.

Further, the first end of the bracket comprises a first side plate and a second side plate, and the first side plate is connected with the second side plate in a sliding mode.

Further, zero ladder adjustment assembly includes zero ladder adjustment pole, zero ladder adjustment pole slidable mounting in the second end of support.

Further, a strip-shaped groove is formed in the top wall of the second end of the support, and the zero-ladder adjusting rod is installed in a matched mode with the strip-shaped groove.

Further, the moving assembly comprises a plurality of universal wheels, and the universal wheels are fixedly mounted on the base frame.

The utility model has the advantages that:

the utility model discloses a stair reinforcement frame, its first angle adjustment subassembly is installed and is used for adjusting the angle of steel reinforcement cage tail ladder at the first end of skeleton, and second angle adjustment subassembly is installed and is used for adjusting the angle of the first ladder of steel reinforcement cage at the second end of skeleton, and first steel reinforcement position adjustment subassembly and second steel reinforcement position adjustment subassembly all can adjust the position and the height of steel reinforcement cage, thereby the length of the first end of skeleton can be adjusted and make the length of steel reinforcement cage adjust, through above-mentioned subassembly, can adjust the angle, length, height and the position of steel reinforcement cage to the required component of production, place every main muscle and stirrup again to required constant head tank in, through artifical ligature shaping steel reinforcement cage. The utility model provides high unity and ligature efficiency with specification stair component steel reinforcement cage for its angle and position can swiftly be fixed a position to assembly type structure stair component steel reinforcement cage ligature.

Drawings

FIG. 1 is one of the schematic diagrams of the overall structure of the stair reinforcement binding rack of the present invention;

fig. 2 is a second schematic view of the overall structure of the stair reinforcement binding frame of the present invention;

in the figure, 1-framework, 101-underframe, 102-support, 2-first angle adjusting component, 201-tail ladder adjusting plate, 202-angle adjusting plate, 3-second angle adjusting component, 301-first ladder adjusting plate, 302-angle adjusting rod, 4-first reinforcing steel bar position adjusting component, 401-first transverse adjusting rod, 402-first vertical adjusting rod, 5-second reinforcing steel bar position adjusting component, 501-second transverse adjusting rod, 502-second vertical adjusting rod, 6-zero ladder adjusting component, 601-zero ladder adjusting rod, 7-reinforcing steel bar positioning rod, 8-moving component, 801-universal wheel, 9-first connecting plate, 10-adjusting hole, 11-second connecting plate, 12-strip-shaped groove, 13-first side plate, 14-second side panel.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1

The utility model provides a technical scheme:

referring to fig. 1-2, a stair reinforcement binding frame comprises a framework 1, a first angle adjusting assembly 2, a second angle adjusting assembly 3, a first reinforcement position adjusting assembly 4, a second reinforcement position adjusting assembly 5, a zero-ladder adjusting assembly 6, a plurality of reinforcement positioning rods 7 and a moving assembly 8, wherein the first angle adjusting assembly 2 is installed at a first end of the framework 1, the second angle adjusting assembly 3 is installed at a second end of the framework 1, and the first reinforcement position adjusting assembly 4 and the second reinforcement position adjusting assembly 5 are both installed on the framework 1 in a sliding manner and are located between the first angle adjusting assembly 2 and the second angle adjusting assembly 3; zero ladder adjusting part 6 slidable mounting is in on the skeleton 1, it is a plurality of reinforcing bar locating lever 7 welds and is in on the skeleton 1, remove the subassembly 8 and install the bottom of skeleton 1.

In this embodiment, first angle adjusting part 2 installs the angle that the first end of skeleton 1 is used for adjusting steel reinforcement cage tail ladder, and second angle adjusting part 3 installs the angle that the second end of skeleton 1 is used for adjusting the first ladder of steel reinforcement cage, and the position and the height of steel reinforcement cage can all be adjusted to first steel reinforcement position adjusting part 4 and second steel reinforcement position adjusting part 5, thereby the length of the first end of skeleton 1 can be adjusted and make the length of steel reinforcement cage can be adjusted.

Referring to fig. 1, the framework 1 includes a base frame 101 and a bracket 102, the bracket 102 is connected above the base frame 101, and the moving assembly 8 is mounted on the base frame 101.

In this embodiment, the framework 1 is formed by interconnecting the base frame 101 and the bracket 102, so that the reinforcement cage can be stably placed on the framework 1.

Referring to fig. 1, the first angle adjustment assembly 2 includes a tail ladder adjustment plate 201 and an angle adjustment plate 202, the angle adjustment plate 202 is hinged to a first end of the bracket 102, and the tail ladder adjustment plate 201 is mounted at a distal end of the angle adjustment plate 202.

In this embodiment, the angle adjustment plate 202 is rotatable about the first end of the bracket 102, so that the angle of the first angle adjustment assembly 2 with the first end of the bracket 102 is adjustable, thereby enabling the angle of the tail ladder of the reinforcement cage to be adjustable.

Referring to fig. 1, the second angle adjustment assembly 3 includes a first ladder adjustment plate 301 and an angle adjustment rod 302, the angle adjustment rod 302 is hinged to the second end of the bracket 102, the first ladder adjustment plate 301 is mounted on the angle adjustment rod 302, and the angle adjustment rod 302 is an electric telescopic rod or a pneumatic telescopic rod.

In this embodiment, the angle adjusting rod 302 can rotate around the second end of the bracket 102, so that the angle between the second angle adjusting assembly 3 and the second end of the bracket 102 can be adjusted, and thus the angle of the first ladder of the reinforcement cage can be adjusted.

Referring to fig. 1-2, the first steel bar position adjusting assembly 4 is slidably mounted on the bracket 102, the first steel bar position adjusting assembly 4 includes a first transverse adjusting rod 401 and two first vertical adjusting rods 402, the two first vertical adjusting rods 402 are both mounted on two sides of the bracket 102 through a first connecting plate 9, the first transverse adjusting rod 401 is bridged between the two first vertical adjusting rods 402, and the first connecting plate 9, a side wall of the first end of the bracket 102, and the first vertical adjusting rods 402 are all provided with adjusting holes 10.

In this embodiment, the installation position of the first vertical adjustment rod 402 on the first connection plate 9 can be adjusted, so that the height of the first transverse adjustment rod 401 from the bracket 102 can be adjusted, and the height of the reinforcement cage can be adjusted.

In addition, the side wall of the first end of the bracket 102 and the first connecting plate 9 are both provided with adjusting holes 10, so that the mounting position of the first connecting plate 9 on the side wall of the first end of the bracket 102 can be adjusted, and the position of the reinforcement cage can be adjusted. The fixing of the mounting position can be achieved by using fixing elements in the prior art, such as fixing screws.

Referring to fig. 1-2, the second steel bar position adjusting assembly 5 is fixedly installed on the bracket 102, the second steel bar position adjusting assembly 5 includes a second transverse adjusting rod 501 and two second vertical adjusting rods 502, both the two second vertical adjusting rods 502 are installed on both sides of the bracket 102 through a second connecting plate 11, and the second transverse adjusting rod 501 is bridged between the two second vertical adjusting rods 502.

In this embodiment, the height of the second steel bar position adjusting assembly 5 is adjusted in the same manner as the height of the first steel bar position adjusting assembly 4, and therefore, the detailed description thereof is omitted.

Referring to fig. 1-2, a first end of the bracket 102 includes a first side plate 13 and a second side plate 14, and the first side plate 13 is slidably connected to the second side plate 14.

In this embodiment, the first side plate 13 and the second side plate 14 are slidably connected, so that the length of the bracket 102 can be adjusted, and thus the length of the reinforcement cage can be adjusted.

Specifically, a groove may be provided below the first side plate 13, the second side plate 14 is slidably mounted in the groove, and threaded holes are provided in the first side plate 13 and the second side plate 14, and the first side plate and the second side plate are fixed by screws.

Referring to fig. 2, the zero step adjustment assembly 6 includes a zero step adjustment rod 601, and the zero step adjustment rod 601 is slidably mounted at the second end of the bracket 102.

In this embodiment, the zero-step adjusting rod 601 is slidably mounted at the second end of the bracket 102, so that the mounting position of the zero-step adjusting rod 601 at the second end of the bracket 102 can be adjusted, thereby adjusting the mounting position of the zero-step of the reinforcement cage.

Referring to fig. 2, a strip-shaped groove 12 is formed in a top wall of the second end of the bracket 102, and the zero-step adjusting rod 601 is installed in cooperation with the strip-shaped groove 12.

In this embodiment, the zero-step adjusting rod 601 slides to a suitable position above the strip-shaped groove 12 on the second end of the bracket 102, and a fixing bolt is adopted to pass through the zero-step adjusting rod 601 and the strip-shaped groove 12, so that the zero-step adjusting rod 601 is fixedly installed at the second end of the bracket 102.

Referring to fig. 1-2, the moving assembly 8 includes a plurality of universal wheels 801, and the plurality of universal wheels 801 are fixedly mounted on the base frame 101.

In this embodiment, the universal wheels 801 are used to allow the frame 1 to move as needed.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims

1. The utility model provides a stair reinforcement frame which characterized in that: the steel bar positioning device comprises a framework (1), a first angle adjusting assembly (2), a second angle adjusting assembly (3), a first steel bar position adjusting assembly (4), a second steel bar position adjusting assembly (5), a zero-ladder adjusting assembly (6), a plurality of steel bar positioning rods (7) and a moving assembly (8), wherein the first angle adjusting assembly (2) is installed at the first end of the framework (1), the second angle adjusting assembly (3) is installed at the second end of the framework (1), and the first steel bar position adjusting assembly (4) and the second steel bar position adjusting assembly (5) are both installed on the framework (1) in a sliding mode and are located between the first angle adjusting assembly (2) and the second angle adjusting assembly (3); zero ladder adjusting part (6) slidable mounting be in on skeleton (1), it is a plurality of reinforcing bar locating lever (7) welding is in on skeleton (1), remove subassembly (8) and install the bottom of skeleton (1).

2. The stair reinforcement tie frame of claim 1, wherein: the framework (1) comprises a base frame (101) and a support (102), the support (102) is connected above the base frame (101), and the moving assembly (8) is installed on the base frame (101).

3. The stair reinforcement tie frame of claim 2, wherein: first angle modulation subassembly (2) include tail ladder regulating plate (201) and angle modulation board (202), angle modulation board (202) with the first end of support (102) is articulated, install tail ladder regulating plate (201) the end of angle modulation board (202).

4. The stair reinforcement tie frame of claim 2, wherein: the second angle adjusting assembly (3) comprises a first ladder adjusting plate (301) and an angle adjusting rod (302), the angle adjusting rod (302) is hinged to be installed at the second end of the support (102), the first ladder adjusting plate (301) is installed on the angle adjusting rod (302), and the angle adjusting rod (302) is a manual telescopic adjusting rod.

5. The stair reinforcement tie frame of claim 2, wherein: the first steel bar position adjusting assembly (4) is slidably mounted on the support (102), the first steel bar position adjusting assembly (4) comprises a first transverse adjusting rod (401) and two first vertical adjusting rods (402), the two first vertical adjusting rods (402) are mounted on two sides of the support (102) through first connecting plates (9), the first transverse adjusting rod (401) is bridged between the two first vertical adjusting rods (402), and adjusting holes (10) are formed in the first connecting plates (9), the side wall of the first end of the support (102) and the first vertical adjusting rods (402).

6. A stair reinforcement cage according to claim 5, wherein: the second steel bar position adjusting assembly (5) is fixedly installed on the support (102), the second steel bar position adjusting assembly (5) comprises a second transverse adjusting rod (501) and two second vertical adjusting rods (502), the two second vertical adjusting rods (502) are installed on two sides of the support (102) through second connecting plates (11), and the second transverse adjusting rod (501) is bridged between the two second vertical adjusting rods (502).

7. A stair reinforcement cage according to claim 5, wherein: the first end of the bracket (102) comprises a first side plate (13) and a second side plate (14), and the first side plate (13) is connected with the second side plate (14) in a sliding mode.

8. The stair reinforcement tie frame of claim 2, wherein: the zero-ladder adjusting assembly (6) comprises a zero-ladder adjusting rod (601), and the zero-ladder adjusting rod (601) is slidably mounted at the second end of the support (102).

9. The stair reinforcement tie frame of claim 8, wherein: a strip-shaped groove (12) is formed in the top wall of the second end of the support (102), and the zero-ladder adjusting rod (601) is installed in a matched mode with the strip-shaped groove (12).

10. The stair reinforcement tie frame of claim 2, wherein: the moving assembly (8) comprises a plurality of universal wheels (801), and the universal wheels (801) are fixedly installed on the base frame (101).