A mobile steel bar processing shed

By designing a mobile rebar processing shed and combining the shed body with track components, the continuous sliding hoisting and processing of finished rebar products was achieved, solving the problem of transporting finished rebar products under a fixed shed and improving the operational efficiency of the construction site.

CN224451889UActive Publication Date: 2026-07-03ZHAOQING CONSTR ENG

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHAOQING CONSTR ENG
Filing Date
2025-08-06
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

The existing steel bar processing shed is a fixed structure, which means that the finished steel bars need to be moved outside the shed by manpower or equipment before being hoisted. The hoisting process is disconnected from the processing process, resulting in low efficiency.

Method used

Design a mobile steel bar processing shed that combines the shed body with a track assembly. The shed body can slide along the track, and a crane can directly lift finished steel bars inside the shed. Processing personnel can continue working inside the shed after it has been moved.

Benefits of technology

It improved the efficiency of steel bar processing and hoisting, reduced the input of human resources, ensured the continuity of hoisting and processing, and improved the overall operational efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application relates to the technical field of rebar processing and proposes a mobile rebar processing shed, including a shed body and a track assembly. The shed body has two locations, each including a roof, with supports installed on opposite sides of the roof. The track assembly includes two parallel supports, each with parallel slide rails laid on it. Each support has several sliding elements at its bottom, and the supports on both sides of the roof are slidably connected to the slide rails of the two supports via these sliding elements. This application facilitates the processing and hoisting of rebar in the rebar processing shed.
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Description

Technical Field

[0001] This application relates to the technical field of steel bar processing, and in particular to a mobile steel bar processing shed. Background Technology

[0002] During construction, most steel bars need to be straightened, bent, and welded on the construction site. To prevent safety hazards caused by falling objects from heights on the construction site, steel bar processing points are usually equipped with steel bar processing sheds.

[0003] Currently, most steel bar processing sheds at construction sites are fixed structures. After the steel bars are processed inside the shed, they must first be moved manually or by forklift to a designated storage area outside the shed. Once a certain quantity has been accumulated, a crane will enter the storage area to lift and transport the finished steel bars to the designated location.

[0004] Regarding the aforementioned technologies, finished steel bars need to be moved out of the processing shed before they can be hoisted, requiring additional manpower and equipment. The crane cannot directly connect to the finished products in the processing shed, resulting in a disconnect between the hoisting and processing stages. The overall operational efficiency is relatively limited, therefore, there is room for improvement. Utility Model Content

[0005] To facilitate the processing and hoisting of steel bars inside the steel bar processing shed, this application provides a mobile steel bar processing shed.

[0006] This application provides a mobile steel bar processing shed, which adopts the following technical solution:

[0007] A mobile steel bar processing shed includes a shed body and a track assembly;

[0008] The shed is provided in two places, and the shed includes a roof, with supports installed on both opposite sides of the roof.

[0009] The track assembly includes two parallel supports, each of which is provided with parallel slide rails.

[0010] The bottom of each support is provided with several sliding parts, and the supports on both sides of the canopy are slidably connected to the slide rails of the two supports through the sliding parts.

[0011] By adopting the above technical solution, the positions of the two sheds can be adjusted along two sliding rails. When the steel bars inside the shed are processed, the processing shed can be moved along the two sliding rails so that the crane can lift the processed steel bars. At the same time, the processing personnel can continue to carry out welding work in the moved shed. Compared with the traditional steel bar processing shed, which requires the steel bars to be moved out before the lifting operation, this method facilitates steel bar processing and lifting, and effectively improves the efficiency of steel bar processing and lifting.

[0012] Preferably, the sliding member includes a track wheel, which is rotatably connected to the bottom of the bracket. An annular limiting groove is formed on the outer periphery of the track wheel, and the annular limiting groove is sleeved on the corresponding slide rail.

[0013] By adopting the above technical solution, the track wheel can roll along the corresponding slide rail, effectively reducing the friction between the support and the slide rail. At the same time, the annular limiting groove can limit the track wheel, preventing it from leaving the slide rail, which helps to improve the stability and safety of the shed's movement.

[0014] Preferably, the slide rail is fixed to the corresponding support by a number of connecting components. Each connecting component includes two connecting lugs, which are respectively connected to opposite sides of the slide rail. Each connecting lug is fixed to the support by expansion bolts.

[0015] By adopting the above technical solution, the slide rail is firmly fixed on the support, ensuring the stability of the slide rail during the operation of the mobile steel bar processing shed, avoiding the impact of the shed's movement due to the slide rail loosening, and enabling the shed to slide stably and smoothly on the slide rail.

[0016] Preferably, both ends of the slide rail extend to the corresponding ends of the support; both ends of the support are vertically provided with a stop block, which is set higher than the slide rail.

[0017] By adopting the above technical solution, the end of the slide rail is blocked and limited by the stop block, so as to prevent the subsequent shed from leaving the slide rail during the sliding process.

[0018] Preferably, each of the blocks is provided with a first connector, and the bracket is provided with a first connecting part at one end opposite to the block, and the first connector and the first connecting part are connected and cooperated.

[0019] By adopting the above technical solution, after the canopy is moved to the end of the slide rail and abuts against the stop block, the first connecting piece on the stop block is connected to the first connecting part on the bracket to limit the canopy and prevent accidental contact with the canopy during subsequent use, which could cause the canopy to collide with the stop block.

[0020] Preferably, the first connector includes a first support tube vertically disposed on the corresponding stop block, and a first connecting rod passing through the first support tube;

[0021] The first connecting part includes a first connecting tube vertically disposed on the corresponding bracket. The first connecting tube is disposed below the first supporting tube and is used for the first connecting rod to pass through.

[0022] By adopting the above technical solution, when connecting the canopy support and the stop block, after moving the first connecting pipe to below the first support pipe, the first connecting rod is passed to the first support pipe and the first connecting pipe, so that the connection and cooperation between the first connecting part and the first connecting piece can be realized.

[0023] Preferably, the top end of the first connecting rod is bent to form a first bend, and the first bend overlaps the top end of the first support tube.

[0024] By adopting the above technical solution, the first connecting rod is limited by the first bending part to prevent it from detaching from the first support tube, thus making it less likely for the first connecting rod to be lost.

[0025] Preferably, a second connecting part and a second connecting piece are respectively provided at the near end of the support on the same side of two adjacent sheds, and the second connecting part and the second connecting piece are connected and cooperated.

[0026] By adopting the above technical solution, when adjacent sheds need to be spliced, the second connector can be used to connect and cooperate with the second connecting part to connect the two adjacent sheds together, thereby limiting and fixing the two sheds and preventing expansion and displacement of the two sheds during subsequent use, which is conducive to improving the splicing stability of adjacent sheds.

[0027] In summary, this application includes at least one of the following beneficial technical effects:

[0028] 1. The shed body slides on the slide rail of the track assembly via sliding parts. In actual use, after the steel bar processing is completed, the shed body can be moved along the slide rail so that the crane can lift the processed steel bar away. At the same time, the construction personnel can continue to process steel bars in the moved shed body.

[0029] 2. By setting the blocks at both ends of the support, the movement path of the shed is limited by the blocks, which helps to prevent the shed from moving excessively and causing it to deviate from the slide rail.

[0030] 3. By setting the first connecting part and the first connecting piece, after the entire shed body is moved to the end of the slide rail, the first connecting part and the first connecting piece are used to fix the shed body on the stop block, thus limiting the subsequent displacement of the shed body and the collision with the stop block. Attached Figure Description

[0031] Figure 1 This is a schematic diagram of the overall structure of the movable steel reinforcement shed, as shown in Embodiment 1.

[0032] Figure 2 This is a schematic diagram of the structure of the shed used in Example 1.

[0033] Figure 3 This is a schematic diagram of the state of adjacent sheds separated, as shown in Example 1.

[0034] Figure 4 yes Figure 1 Enlarged schematic diagram of part A in the middle.

[0035] Figure 5 This is a schematic diagram of Embodiment 1 illustrating the second connector and the second connection part between adjacent shed supports.

[0036] Explanation of reference numerals in the attached figures:

[0037] 1. Shed body; 11. Shed roof; 111. Support frame; 112. Corrugated steel sheet; 12. Bracket; 121. Column; 122. Horizontal bar; 123. Scissor brace; 124. Diagonal brace; 13. Track wheel; 2. Track assembly; 21. Support; 22. Slide rail; 3. Stop block; 31. Base; 4. First connecting part; 5. First connecting piece; 51. First support pipe; 52. First connecting rod; 41. First connecting pipe; 42. First connecting block; 6. Second connecting part; 7. Second connecting piece. Detailed Implementation

[0038] The following is in conjunction with the appendix Figure 1-5 This application will be described in further detail.

[0039] This application discloses a mobile steel bar processing shed.

[0040] A mobile steel bar processing shed, as shown in the reference Figure 1 and Figure 2 The system includes a canopy 1 and a track assembly 2. The canopy 1 has two sections. The canopy 1 includes a canopy roof 11, and supports 12 are installed on both sides of the canopy roof 11. The track assembly 2 includes two parallel supports 21, and slide rails 22 are laid parallel on each support 21. Several sliding parts are provided at the bottom of each support 12. The supports 12 on both sides of the canopy roof 11 are slidably connected to the slide rails 22 of the two supports 21 through the sliding parts, so that the canopy 1 can move along the track.

[0041] Reference Figure 1 and Figure 3 Once the steel bars are processed, the shed 1 is moved to a suitable position along the slide rail 22 so that the crane can directly lift the processed steel bars without having to move them outside the shed; at the same time, the processing personnel can continue to process the steel bars inside the steel bar processing shed.

[0042] Reference Figure 1 and Figure 2The roof 11 includes a support frame 111, with corrugated steel sheets 112 fixed to the bottom of the support frame 111. The support frame 12 includes two uprights 121, both vertically welded to the bottom of the support frame 111. Diagonal braces 124 are welded between the uprights 121 and the support frame 111 to reinforce them. A transverse brace 122 is welded between the two uprights 121, located at the bottom of the uprights 121. A scissor brace 123 is also welded between the two uprights 121 to improve the overall structural stability of the support frame 12.

[0043] Reference Figure 1 and Figure 4 The sliding element includes a track wheel 13 rotatably connected to the bottom of the transverse rod 122. The rotation axis of the track wheel 13 is perpendicular to the length direction of the slide rail 22. An annular limiting groove is formed on the outer circumference of the track wheel 13, which engages with the corresponding slide rail 22. This design effectively reduces the friction between the sliding element and the slide rail 22, making the sliding of the bracket 12 smoother and more stable. Simultaneously, the annular limiting groove on the outer circumference of the track wheel 13 limits its movement, preventing it from disengaging from the slide rail 22 during rolling.

[0044] Reference Figure 1 and Figure 4 The support 21 is made of cast concrete and has a pre-embedded steel reinforcement structure to improve its overall strength. The slide rail 22 is fixed to the corresponding support 21 by several connecting components. The connecting components are evenly distributed along the length of the slide rail 22. Specifically, each connecting component includes two connecting ears, which are respectively connected to opposite sides of the slide rail 22. The connecting ears are fixed to the support 21 by expansion bolts to securely fix the slide rail 22 to the corresponding support 21.

[0045] Reference Figure 1 and Figure 4 The slide rail 22 extends to the corresponding supports 21 at both ends. Each support 21 has a vertically mounted stop 3 at both ends. In this embodiment, the stop 3 is made of channel steel. A base 31 is vertically connected to the bottom of the stop 3, and the base 31 is fixed to the ground with expansion bolts. The stop 3 is positioned higher than the slide rail 22. When the canopy 1 moves along the slide rail 22 to the end of the slide rail 22, the stop 3 can limit the slide rail 22, preventing the canopy 1 from sliding out of the slide rail 22.

[0046] Reference Figure 1 and Figure 4Each stop block 3 is equipped with a first connecting piece 5, and the bracket 12 is equipped with a first connecting part 4 at the end facing the stop block 3. The first connecting piece 5 and the first connecting part 4 are connected and cooperate. When the canopy 1 moves along the slide rail 22 to the stop block 3, the first connecting piece 5 on the stop block 3 and the first connecting part 4 on the bracket 12 can be connected and cooperated to limit the connection of the canopy 1, preventing the operator from accidentally touching the canopy 1 during subsequent use, which would cause the bracket 12 of the canopy 1 to collide with the stop block 3.

[0047] Reference Figure 1 and Figure 4 Specifically, the first connecting member 5 includes a first support tube 51 vertically disposed on the corresponding stop block 3, and the first support tube 51 is vertically welded to the inner side of the corresponding stop block 3. A first connecting rod 52 is inserted through the first support tube 51, and the top end of the first connecting rod 52 is bent to form a first bend, which overlaps the top end of the first support tube 51. The first bend limits the first connecting rod 52 to prevent it from sliding out of the first support tube 51. The first connecting part 4 includes a first connecting tube 41 vertically disposed inside the corresponding bracket 12, and the first connecting tube 41 is set lower than the first support tube 51. The first connecting tube 41 is used for the first connecting rod 52 to pass through. A first connecting block 42 is welded to the outer periphery of the first connecting tube 41. The end of the first connecting block 42 away from the first connecting tube 41 is vertically hinged to the inner side of the end column 121 of the corresponding bracket 12, so that the first connecting tube 41 can swing.

[0048] When connecting the stop block 3 and the support 12 of the canopy 1, swing the first connecting pipe 41 at the end of the support 12 of the canopy 1 so that the first connecting pipe 41 moves to the bottom of the first support pipe 51 inside the stop block 3, and then insert the first connecting rod 52 into the first support pipe 51 and the first connecting pipe 41 in sequence, so as to realize the connection and fixation between the support 12 of the canopy 1 and the stop block 3.

[0049] Reference Figure 1 and Figure 5 Two adjacent shed bodies 1 have a second connector 7 and a second connecting part 6 respectively at one end of the same side support 12. The second connector 7 and the second connecting part 6 are connected and cooperated. The overall structure of the second connector 7 and the second connecting part 6 is the same as the overall structure of the first connector 5 and the first connecting part 4, and will not be described again.

[0050] When two adjacent canopies 1 need to be connected, the two canopies 1 are moved along the slide rail 22 until they are close to each other. Then, the second connecting piece 7 and the second connecting part 6 at opposite ends of the bracket 12 of the two canopies 1 are connected and fitted to limit the connection of the adjacent canopies 1, improve the integrity of the connection between the two adjacent canopies 1, and prevent the canopies 1 from shaking or colliding with each other. When it is necessary to separate the two canopies 1, the connection between the second connecting part 6 and the second connecting piece 7 is disconnected, and the canopies 1 can be separated.

[0051] The implementation principle of this embodiment is as follows: After the processing personnel complete the steel bar processing in the shed 1, the shed 1 is slid along the two slide rails 22 so that the shed 1 is removed from the processed steel bar. The processing personnel continue to process steel bars in the moved shed 1. At the same time, the hoisting equipment lifts the processed steel bars away, which effectively improves the overall steel bar processing efficiency.

[0052] Example 2

[0053] The difference between Embodiment 2 and Embodiment 1 is that a protective net (not shown in the figure) is laid on the support frame 111 of the roof 11. The protective net covers the support frame 111, and the outer perimeter of the protective net is tied and fixed to the outer perimeter of the support frame 111 by steel wires to securely support the protective net on top of the support frame 111. In this embodiment, the protective net uses an existing close-mesh safety net to buffer debris falling from a height, thereby limiting the direct penetration of falling objects into the roof 11 of the canopy 1 and improving the overall safety of the canopy 1.

[0054] The implementation principle of Example 2 is the same as that of Example 1, so it will not be described again.

[0055] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.

Claims

1. A mobile reinforcing fabrication shed characterised by: Includes the canopy (1) and the track assembly (2); The shed (1) is provided in two places, and the shed (1) includes a shed roof (11). The shed roof (11) is equipped with brackets (12) at both opposite ends. The track assembly (2) includes two parallel supports (21), and each support (21) is provided with a parallel slide rail (22); The bottom of each bracket (12) is provided with several sliding parts, and the brackets (12) on both sides of the canopy (11) are slidably connected to the slide rails (22) of the two supports (21) through the sliding parts; The slide rail (22) is fixed to the corresponding support (21) by a number of connecting components. The connecting components include two connecting ears, which are respectively connected to the opposite sides of the slide rail (22). The connecting ears are fixed to the support (21) by expansion bolts. The slide rail (22) extends to the corresponding supports (21) at both ends; both ends of the supports (21) are vertically provided with blocks (3), and the blocks (3) are set higher than the slide rail (22); Each of the blocks (3) is provided with a first connector (5), and the bracket (12) is provided with a first connecting part (4) at one end opposite to the block (3), and the first connector (5) is connected and cooperated with the first connecting part (4).

2. A mobile reinforcing fabric processing shed according to claim 1 wherein: The sliding component includes a track wheel (13), which is rotatably connected to the bottom of the bracket (12). The track wheel (13) has an annular limiting groove on its outer periphery, which is sleeved on the corresponding slide rail (22).

3. A mobile reinforcing cage fabrication shed according to claim 1 wherein: The first connector (5) includes a first support tube (51) vertically disposed on the corresponding stop (3), and a first connecting rod (52) is inserted inside the first support tube (51); The first connecting part (4) includes a first connecting tube (41) vertically arranged on the corresponding bracket (12). The first connecting tube (41) is arranged lower than the first support tube (51). The first connecting tube (41) is used for the first connecting rod (52) to pass through.

4. A mobile reinforcing cage fabrication shed according to claim 3 wherein: The top end of the first connecting rod (52) is bent to form a first bend, and the first bend overlaps the top end of the first support tube (51).

5. A mobile reinforcing cage fabrication shed according to claim 1 wherein: Two adjacent sheds (1) are provided with a second connecting part (6) and a second connecting piece (7) on the same side of the support (12), respectively. The second connecting part (6) and the second connecting piece (7) are connected and cooperated.