CN220377876U - Novel supporting beam steel bar binding auxiliary frame - Google Patents

Abstract

The utility model discloses a novel supporting beam steel bar binding auxiliary frame, which belongs to the technical field of steel bar binding auxiliary, and comprises a vertical rod structure, a transverse support structure and steel pins, wherein the vertical rod structure is provided with 2 groups, the inner sides of the 2 groups of vertical rod structures are provided with the transverse support structure, the steel pins are vertically inserted into the side surfaces of the vertical rod structure, and the transverse support structure is parallel to the steel pins; the upright structure comprises a first upright, a second upright and a support assembly, one end of the first upright is coaxially sleeved in an inner cavity at the upper end of the second upright, and the lower end of the second upright is fixedly connected with the support assembly; the cross brace structure comprises a cross brace body and cross brace rods, wherein the number of the cross brace rods is 2, the end parts of the 2 cross brace rods are symmetrically sleeved in inner cavities at two ends of the cross brace body, and the cross brace rods are detachably connected with the cross brace body. The problem of among the prior art because the support frame can't height-adjusting need set up again and lead to inconvenient operation to different roof beam heights is solved. Has the advantages of standardizing the binding construction of the reinforcement cage, reducing randomness, improving binding quality, reducing waste and the like.

Description

Novel supporting beam steel bar binding auxiliary frame

Technical Field

The utility model relates to the technical field of reinforcement binding assistance, in particular to a novel support beam reinforcement binding assistance frame.

Background

As the most basic load-bearing member in the construction of underground railways, reinforced concrete beams have a very wide range of applications. And because the reinforced concrete beam has a large weight, and a series of working procedures such as machining and reinforcing steel bar binding are required in the construction process, a stable supporting structure is required to ensure the construction quality and safety. The auxiliary frame can provide stable support and fixation, can accelerate construction speed, improves the efficiency of construction, reduces the security risk in the work progress simultaneously. Therefore, the support beam reinforcement auxiliary frame is an indispensable tool in the construction process of the reinforced concrete beam.

At present, the beam construction is usually supported by adopting a temporary steel pipe rack or a wood rod rack and the like, and the problems that the operation is inconvenient, the height cannot be adjusted, the beam needs to be re-erected for different beam heights and the like generally exist in the supporting measures. Aiming at the situation, the auxiliary device for the reinforced concrete beam reinforcement cage binding construction is researched and developed, and the auxiliary device has the advantages of normalizing reinforcement cage binding construction, reducing randomness, improving binding quality, reducing waste and the like. And the method is applied to engineering practice, and has good economic benefit and social benefit.

Disclosure of Invention

Therefore, the utility model provides a novel supporting beam steel bar binding auxiliary frame, which solves the problem of inconvenient operation caused by height adjustment by a supporting frame method and re-erection aiming at different beam heights in the prior art.

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

the novel support beam steel bar binding auxiliary frame comprises a vertical rod structure, a transverse supporting structure and steel pins, wherein the vertical rod structure is provided with 2 groups, the transverse supporting structure is arranged on the inner side of the vertical rod structure, the steel pins are vertically inserted into the side face of the vertical rod structure, and the transverse supporting structure is parallel to the steel pins.

Further, the pole setting structure includes first pole setting, second pole setting and support subassembly, first pole setting one end coaxial sleeve is in second pole setting upper end inner chamber, second pole setting lower extreme with support subassembly fixed connection.

Further, the stull structure includes stull body and stull pole, the stull pole is provided with 2, 2 the tip symmetry cover of stull pole is located stull body both ends inner chamber, just the stull pole with the stull body can dismantle and be connected.

Further, a plurality of positioning pin holes are further formed in the side face of the vertical rod structure, and the steel pins are inserted into the positioning pin holes.

Further, the support assembly comprises a support and a support rod, wherein the support is arranged at the bottom end of the vertical rod structure, and the support rod is detachably connected to the upper end of the support.

Further, the other end part of the first vertical rod is also provided with a lifting ring.

Further, the support rod is further provided with a cross brace connecting hole, and the upright rod structure and the cross brace structure are connected through bolts.

The utility model has the following advantages:

1. this application has set up pole setting structure and steel pin, through high adjustment and evenly distributed's location pinhole between first pole setting, second pole setting and the support subassembly, the interval between the high and the steel pin of the auxiliary frame of adjustment as required that can be convenient, better realization is to the support of reinforcing bar roof beam.

2. The application has set up the stull structure, can further adjust the distance between two sets of pole setting structures through stull body and two stull length adjustment, not only carries the going on of a supporting beam reinforcement work, has still improved the stability of whole auxiliary frame.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those of ordinary skill in the art that the drawings in the following description are exemplary only and that other implementations can be obtained from the extensions of the drawings provided without inventive effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the utility model, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present utility model, should fall within the ambit of the technical disclosure.

FIG. 1 is a schematic view of a novel support beam rebar tying auxiliary frame structure provided by the utility model;

fig. 2 is a schematic view of a structure of a vertical rod provided by the utility model;

FIG. 3 is a schematic view of a support assembly according to the present utility model;

FIG. 4 is a schematic view of a cross brace structure provided by the present utility model;

in the figure: 1. a pole setting structure; 11. a first upright; 111. a pull ring is lifted; 12. a second upright; 13. a support assembly; 131. a support; 132. a support rod; 133. a cross brace connecting hole; 14. positioning pin holes; 2. a cross brace structure; 21. a cross brace body; 22. a cross brace; 3. a steel pin; 4. and (5) a bolt.

Detailed Description

Other advantages and advantages of the present utility model will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The application provides a novel supporting beam steel bar binding auxiliary frame, auxiliary frame can provide stable support and fixed to reinforced concrete roof beam, can accelerate construction speed, improves the efficiency of construction, reduces the security risk in the work progress simultaneously. Therefore, the support beam reinforcement auxiliary frame is an indispensable tool in the construction process of the reinforced concrete beam. As shown in fig. 1, the structure of the support beam reinforcement auxiliary frame in this embodiment includes a vertical rod structure 1, a cross brace structure 2 and a steel pin 3. Specifically, the upright post structure 1 has two groups, and every group comprises 3 upright posts, and upright post structure 1 is perpendicular with ground, and the lower extreme links to each other with stull structure 2. The cross brace structure 2 is arranged on the inner side of the upright structure 1 and is parallel to the steel pin 3 for supporting the reinforcing steel bar beam and connecting the upright structures 1 on two sides.

Wherein, the steel pin 3 is inserted from the side of the upright structure 1 and is vertical to the ground, and plays a role of supporting the side-row steel bars. The structural design can provide stable support and fixation, and can ensure that the reinforcing steel bar beam cannot collapse or deform in the construction process.

As shown in fig. 1, the pole structure 1 comprises a first pole 11, a second pole 12 and a support assembly 13, wherein the first pole 11 and the second pole 12 are connected to each other by means of coaxial bushings. Specifically, one end of the first vertical rod 11 is coaxially sleeved in the inner cavity at the upper end of the second vertical rod 12, so that connection of the two vertical rods is realized, the overlapping height of the first vertical rod 11 and the second vertical rod 12 can be adjusted according to the requirement in the connection mode, and then the height of the whole vertical rod structure 1 is adjusted. The lower end of the second upright 12 is connected to the support assembly 13 by a fixed connection to provide support and fixation.

Specifically, screw holes are formed in the first upright 11, the second upright 12 and the support assembly 13, so that the length of each component of the upright structure 1 can be fixed and adjusted by the bolts 4. The pole setting structure 1 is provided with 2, stands in required construction support beam both sides during the use, and such structural design can provide stable support and fixed, guarantees that the reinforcing bar roof beam can not take place to collapse or warp in the work progress, has also made things convenient for the installation and the dismantlement of auxiliary frame simultaneously.

Wherein the cross brace structure 2 comprises a cross brace body 21 and a cross brace bar 22, see fig. 4 in detail. The number of the cross braces 22 is 2, the end parts of the 2 cross braces 22 are symmetrically sleeved in the inner cavities at the two ends of the cross brace body 21, and the cross braces 22 are detachably connected with the cross brace body 21. The cross brace structure 2 comprises a cross brace body 21 and cross brace bars 22, wherein the cross brace bars 22 are arranged in two, and preferably, the cross brace bars 22 are all made of 50 cm long steel pipes, the cross brace body 21 can also be made of steel pipes, the diameter of the cross brace body is larger than that of the cross brace bars 22, so that the end parts of the two cross brace bars 22 are symmetrically sleeved in inner cavities at two ends of the cross brace body 21.

Meanwhile, the cross brace 22 and the cross brace body 21 are connected in a detachable connection mode. Such a design facilitates the mounting and dismounting of the cross brace structure 2, and at the same time facilitates the use and maintenance of the auxiliary frame. The cross brace body 21 and the cross brace 22 are also provided with bolt 4 holes, which can be fixed with the two cross brace 22 through bolts 4, and the length of the cross brace can be adjusted according to the size of the constructed beam. The function of the cross brace structure 2 is to connect and fix the upright structure 1, so that the upright structure is kept in a stable state in the auxiliary binding process, and the subsequent construction can be conveniently carried out. The provision of the cross brace 22 can enhance the rigidity and stability of the cross brace structure 2 and support the reinforcing bar beam, thereby ensuring the quality and safety of construction.

In particular, the side of the upright structure 1 is also provided with a plurality of positioning pin holes 14, and the function of these positioning pin holes 14 is to position and fix the steel pins 3 of the auxiliary frame. Specifically, the steel pin 3 can be inserted into the positioning pin hole 14 on the side surface of the upright structure 1, so that the fixation and positioning of the side-row steel bars are realized. The stability and the rigidity of auxiliary frame can be strengthened to such design scheme, guarantees the safety and the quality in the work progress. Meanwhile, the connection mode between the cross brace 22 and the upright structure 1 adopts a detachable mode and is connected through the bolts 4, so that the structure of the auxiliary frame can be conveniently detached and cleaned after construction is completed.

As shown in fig. 2 and 3, the stand assembly 13 includes a stand 131 and a stand bar 132, and the stand 131 is provided at the bottom end of the upright structure 1 for supporting and fixing the structure of the entire auxiliary frame. The holder bar 132 is detachably coupled to the upper end of the holder 131 to facilitate the assembly and disassembly of the holder assembly 13. The support rod 132 functions to enhance stability and rigidity of the support 131, thereby ensuring reliability of support. The support 131 has a larger area, which increases the stability to the whole pole structure 1. When the auxiliary frame is not needed, the support assembly 13 is also relatively easy to disassemble, and only the support rod 132 is required to be disassembled. The design of the support assembly 13 can provide stable support and fixation, ensures that the reinforcing steel bar beam cannot collapse or deform in the construction process, and simultaneously facilitates the installation and the disassembly of the auxiliary frame.

As shown in fig. 1, the other end portion of the first upright 11 is further provided with a lifting tab 111, and the lifting tab 111 functions to facilitate the installation and removal of the auxiliary frame and to assist the binding of the reinforced concrete beam. During the installation of the auxiliary frame, the first upright 11 can be pulled up by the pull ring 111 so as to be fixed in a desired position together with the other uprights. When the auxiliary frame is disassembled, the first upright rod 11 can be pulled up through the lifting ring 111, so that the whole auxiliary frame structure can be disassembled conveniently. The lifting ring 111 is arranged to facilitate the use and maintenance of the auxiliary frame, and improve the construction efficiency and quality.

As shown in fig. 2, the support rod is further provided with a cross brace connecting hole 133, and the upright structure 1 and the cross brace structure 2 are connected by bolts 4. The connecting mode has the advantages of convenience in disassembly, high construction efficiency and the like. In the connecting process, proper specifications and number of bolts 4 are required to be selected so as to ensure the firmness and stability of the connection. Meanwhile, the correct fastening torque is required to be adopted when the bolt 4 is fastened, and checking and adjustment are performed to ensure the quality of the connection of the bolt 4.

The application process of the embodiment of the utility model is as follows:

1. first, the lengths of the upright structure 1 and the wale structure 2 are adjusted according to the required specifications of the support beam, and the fixing bolts 4 are tightened to be kept stable.

2. Two groups of upright structures 1 are erected on two sides of a required supporting beam, hooping of the beam is sleeved in a main reinforcement in advance, a transverse support structure 2 is connected and fixed with a support assembly 13, and then the main reinforcement is firstly placed on the transverse support structure 2.

3. According to the number and the interval of the side bar of the support beam, the steel pins 3 are inserted into the positioning pin holes 14 of the upright structures 1 at the two sides, and the side bar is put on the steel pins 3.

4. Pushing the auxiliary frame to move forwards, and binding the main reinforcements and stirrups at the rear.

5. And (4) repeating the step until the supporting beam is bound, and removing the auxiliary frame.

The safety is needed to be paid attention to in the whole process, and all connecting points and bolt fastening moments are ensured to meet the requirements. Meanwhile, the support beam is required to be adjusted according to actual conditions so as to ensure the stability and safety of the support beam.

While the utility model has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the utility model and are intended to be within the scope of the utility model as claimed.

Claims (7)

1. The utility model provides a novel supporting beam reinforcement auxiliary frame, its characterized in that, including pole setting structure (1), stull structure (2) and steel pin (3), pole setting structure (1) is provided with 2 groups, and 2 groups pole setting structure (1) inboard is installed stull structure (2), steel pin (3) are inserted perpendicularly and are located pole setting structure (1) side, just stull structure (2) are parallel with steel pin (3).

2. The novel support beam steel bar binding auxiliary frame as claimed in claim 1, wherein the vertical rod structure (1) comprises a first vertical rod (11), a second vertical rod (12) and a support assembly (13), one end of the first vertical rod (11) is coaxially sleeved in an inner cavity at the upper end of the second vertical rod (12), and the lower end of the second vertical rod (12) is fixedly connected with the support assembly (13).

3. The novel support beam reinforcement auxiliary frame as claimed in claim 1, wherein the cross brace structure (2) comprises a cross brace body (21) and cross brace rods (22), the number of the cross brace rods (22) is 2, the end parts of the 2 cross brace rods (22) are symmetrically sleeved in inner cavities at two ends of the cross brace body (21), and the cross brace rods (22) are detachably connected with the cross brace body (21).

4. The novel support beam steel bar binding auxiliary frame as claimed in claim 1, wherein a plurality of positioning pin holes (14) are further formed in the side face of the upright structure (1), and the steel pins (3) are inserted into the positioning pin holes (14).

5. The novel support beam reinforcement auxiliary frame as claimed in claim 2, wherein the support assembly (13) comprises a support (131) and a support rod (132), the support (131) is arranged at the bottom end of the upright structure (1), and the support rod (132) is detachably connected to the upper end of the support (131).

6. The novel support beam reinforcement auxiliary frame as claimed in claim 2, wherein the other end portion of the first upright (11) is further provided with a lifting ring (111).

7. The novel supporting beam steel bar binding auxiliary frame as claimed in claim 5, wherein a cross brace connecting hole (133) is further formed in the supporting seat rod (132), and the upright rod structure (1) and the cross brace structure (2) are connected through bolts (4).