Electromechanical pipeline hoisting support

By designing a horizontally movable base and locking bolt connecting pipe clamps, the problem of the inability to adjust existing electromechanical pipeline hoisting supports was solved, improving installation efficiency and stability and reducing management costs.

CN224469838UActive Publication Date: 2026-07-07TIANYUAN CONSTR GROUP

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TIANYUAN CONSTR GROUP
Filing Date
2025-06-18
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The existing electromechanical pipeline hoisting supports cannot be adjusted, resulting in cumbersome and inefficient installation, and they cannot adapt to the pipeline layout needs of different areas, increasing management costs.

Method used

Design an electromechanical pipeline hoisting bracket, which connects pipe clamps through a laterally movable base and locking bolts, adjusts the spacing between adjacent pipe clamps, ensures stability by combining guide grooves and locking bolts, and uses rubber pads and adjusting screw sleeves to enhance the fixing strength and bracket strength.

Benefits of technology

It enables flexible adjustment of the bracket, improves installation efficiency, enhances stability and strength, and reduces management costs.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224469838U_ABST
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Abstract

The utility model provides a kind of electromechanical pipeline hoisting support, it is related to electromechanical pipeline hoisting field, the scheme used is: including cross arm, still include, boom assembly, the boom assembly is respectively arranged in the cross arm both ends;Pipe card, the pipe card is the U type structure with opening downward, both sides of the pipe card are provided with support leg;Movable seat, the movable seat is provided with m, m=2n, n≥1, and n is integer, the movable seat is used to with the support leg connection, the movable seat is the U type structure with opening downward, the movable seat is straddled on the cross arm, the movable seat can be moved along the cross arm, locking bolt is provided on the movable seat, locking bolt can be abutted on the cross arm.The utility model can adjust movable seat position according to the arrangement of pipeline, to adjust pipe card spacing, and adopt appropriate diameter pipe card, use flexible.
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Description

Technical Field

[0001] This utility model relates to the field of electromechanical pipeline hoisting, and in particular to an electromechanical pipeline hoisting bracket. Background Technology

[0002] The installation of electromechanical pipelines utilizes supports and hangers for support. Currently, these supports and hangers are generally made of various types of steel, cut, ground, and welded on-site before being installed as a whole or in parts. However, existing supports and hangers are not adjustable, making the installation process cumbersome and inconvenient, significantly increasing the workload of workers and reducing installation efficiency. Furthermore, existing supports and hangers cannot be structurally adjusted according to actual installation needs, and cannot be quickly assembled and disassembled during operation, resulting in low practicality.

[0003] In the prior art, the hoisting support includes a crossbeam with a suspension rod at both ends. The ends of the suspension rods are connected to a concrete beam or steel structure. U-shaped pipe clamps are bolted to the crossbeam and used to connect to pipelines to fix them. In many scenarios, multiple pipe clamps are often installed on the crossbeam for hoisting multiple pipelines.

[0004] Using the above technical solutions, in construction sites with complex pipeline layouts, there are often different pipeline layouts in different areas, and the diameters of the pipes and the spacing between adjacent pipes are also different. Since the position of the U-shaped pipe clamps on the crossarm cannot be adjusted, it is impossible to adjust them according to the pipeline situation. Different sizes of hoisting brackets are required, which results in the need for a large number of types of accessories for pipeline laying, increasing management costs. If they are made on-site, it will greatly affect hoisting efficiency. Utility Model Content

[0005] To address the technical problem of inflexible use of pipeline hoisting supports in the prior art, this utility model provides an electromechanical pipeline hoisting support that can adjust the position and type of pipe clamps according to the pipeline conditions, making it more flexible to use.

[0006] The technical solution adopted by this utility model to solve the above-mentioned technical problems is: an electromechanical pipeline hoisting bracket, including a crossarm and a suspension rod assembly, wherein the suspension rod assembly is respectively disposed at both ends of the crossarm;

[0007] Pipe clamp, the pipe clamp has a U-shaped structure with the opening facing downwards, and the pipe clamp is provided with support feet on both sides; movable seat, the movable seat is provided with m, m=2n, n≥1, and n is an integer, the movable seat is used to connect with the support feet, the movable seat has a U-shaped structure with the opening facing downwards, the movable seat straddles the crossarm, the movable seat can move along the crossarm, the movable seat is provided with a locking bolt, the locking bolt can abut against the crossarm.

[0008] This utility model connects the crossarm and pipe clamps through a laterally movable base, which can adjust the spacing between two adjacent pipe clamps as needed to meet various usage requirements and improve the flexibility of this hoisting support. Furthermore, by using locking bolts for positioning, there is no need to open holes or slots, thus ensuring the strength of the crossarm.

[0009] Furthermore, guide grooves are provided on both sides of the crossarm along its length. The movable seat includes a support part, and movable parts are provided at both ends of the support part. The movable parts are provided with locking bolts, and guide protrusions are provided on the inner wall of the movable parts. The guide protrusions can move along the guide grooves.

[0010] By setting a guide groove, this utility model ensures smooth movement of the movable seat and, in conjunction with the locking bolt, prevents the movable seat from shifting under force, thus ensuring the stability of the entire pipeline hoisting.

[0011] Furthermore, the angle between the moving part and the supporting part is α, where 80°≤α≤85°.

[0012] This invention sets the angle between the moving part and the supporting part to an acute angle to achieve anti-deformation treatment, thus preventing the moving seat from deforming and detaching from the guide groove after long-term use.

[0013] Furthermore, the support portion is provided with mounting screw holes, and rubber pads are provided on the inner walls of both the support portion and the pipe clamp.

[0014] This invention, by incorporating a rubber pad, can ensure the fixation strength with various pipelines of similar diameters.

[0015] Furthermore, the boom assembly includes a sliding sleeve, which is movably fitted onto the end of the crossarm. A positioning hole 1 is horizontally provided through the sliding sleeve, and multiple positioning holes 2 are provided along the length of the end of the crossarm. The same positioning screw passes through the positioning hole 1 and one of the positioning holes 2.

[0016] This invention can adjust the position of the lifting rod assemblies at both ends according to the width of the multiple pipelines being hoisted, thereby enhancing the strength of the entire hoisting support and preventing the lifting rod assemblies from being too far from the stress-bearing position of the crossarm, which could lead to bending deformation of the crossarm over long-term use.

[0017] Furthermore, the boom assembly also includes an upper screw and a lower screw, which are connected by an adjusting sleeve. The lower screw is mounted on the sliding sleeve, and the end of the upper screw is provided with a mounting plate.

[0018] This utility model, by setting an adjusting screw sleeve, can adjust the position of the crossarm to meet the hoisting requirements of pipelines of various diameters.

[0019] Furthermore, the top surface of the crossarm is provided with a straight groove hole, which is opposite to the mounting screw hole of the support part. A support rod is also provided through the straight groove hole. Limiting nuts are respectively provided on the support rod and on both sides of the top of the crossarm. A pipe clamp is also provided on the top of the support rod.

[0020] This invention, by setting a straight slot hole, avoids the need for bolts used to connect the movable seat and the pipe clamp. On the other hand, it can also set a support rod for connecting pipelines with smaller diameters and larger differences.

[0021] Furthermore, the crossarm is made of channel steel, the crossarm opening faces downward, the channel wall of the crossarm protrudes inward to form a guide groove, and a reinforcing plate is provided on the inner surface of the top of the crossarm.

[0022] This invention enhances the strength of the crossbeam and delays its deformation by using an inner protrusion to form a guide groove and a reinforcing plate.

[0023] As can be seen from the above technical solutions, this utility model has the following advantages:

[0024] This utility model provides an electromechanical pipeline hoisting bracket. The crossarm and pipe clamps are connected via a laterally movable base. The spacing between adjacent pipe clamps can be adjusted as needed to meet various usage requirements, improving the flexibility of the hoisting bracket. Furthermore, positioning is achieved using locking bolts, eliminating the need for holes and slots, thus ensuring the strength of the crossarm. The guide groove ensures smooth movement of the movable base and, in conjunction with the locking bolts, prevents the movable base from shifting under stress, ensuring the stability of the entire pipeline hoisting. By setting the angle between the movable part and the support part to an acute angle, anti-deformation treatment is achieved, preventing the movable base from deforming and detaching from the guide groove after long-term use. The installation of rubber pads ensures the fixing strength for pipelines with small diameter differences; the position of the lifting rod assemblies at both ends can be adjusted according to the width of multiple pipelines being lifted, enhancing the overall strength of the lifting support and preventing the crossarm from deflecting due to the distance between the lifting rod assemblies and the stress point; the installation of adjusting sleeves allows for adjustment of the crossarm position to meet the lifting requirements of pipelines with various diameters; the straight groove holes eliminate the need for bolts connecting the moving seat and pipe clamps, and also allow for the installation of support rods to connect pipelines with smaller diameters and larger differences; the use of an inner protrusion forming a guide groove and reinforcing plates enhances the strength of the crossarm and delays its deformation. Attached Figure Description

[0025] To more clearly illustrate the technical solution of this utility model, the drawings used in the description will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0026] Figure 1 This is a structural diagram illustrating a specific embodiment of the present invention. Figure 1 .

[0027] Figure 2 This is a structural diagram illustrating a specific embodiment of the present invention. Figure 2 .

[0028] In the diagram, 1. Hanger assembly; 101. Upper screw; 102. Adjusting sleeve; 103. Lower screw; 104. Sliding sleeve; 105. Mounting plate; 106. Positioning screw; 2. Crossbeam; 201. Guide groove; 202. Positioning hole two; 203. Straight groove hole; 3. Moving seat; 4. Locking bolt; 5. Pipe clamp; 6. Support rod; 7. Pipe clamp. Detailed Implementation

[0029] To make the objectives, features, and advantages of this utility model more apparent and understandable, the technical solutions of this utility model will be clearly and completely described below with reference to the accompanying drawings of the specific embodiments. Obviously, the embodiments described below are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this patent, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this patent.

[0030] like Figure 1 and Figure 2 As shown, this specific embodiment provides an electromechanical pipeline hoisting bracket, including a crossarm 2, a rod assembly 1, a pipe clamp 5, and multiple movable seats 3; specifically, the rod assembly 1 is respectively set at both ends of the crossarm 2; the pipe clamp 5 has a U-shaped structure with the opening facing downwards, and support feet are provided on both sides of the pipe clamp 5;

[0031] There are m movable seats 3, where m = 2n, n ≥ 1, and n is an integer. The movable seats 3 are used to connect with the support legs. The movable seats 3 have a U-shaped structure with the opening facing downwards. The movable seats 3 straddle the crossarm 2 and can move along the crossarm 2. The movable seats 3 are equipped with locking bolts 4, which can abut against the crossarm 2.

[0032] This specific embodiment connects the crossarm 2 and the pipe clamp 5 through a laterally movable seat 3. The spacing between two adjacent pipe clamps 5 can be adjusted according to the hoisting requirements to meet various usage requirements and improve the flexibility of this hoisting support. Furthermore, by using locking bolts 4 for positioning, there is no need to open holes or slots, which ensures the strength of the crossarm 2 and extends its service life.

[0033] like Figure 1 and Figure 2 As shown, to prevent the movable seat 3 from moving up and down under force, in this specific embodiment, guide grooves 201 are respectively provided on both sides of the crossarm 2 along its length direction. The movable seat 3 includes a support part located on the upper part of the crossarm 2. Movable parts are respectively provided at both ends of the support part. The two movable parts are located on both sides of the crossarm 2. The movable parts are provided with locking bolts 4. Guide protrusions are provided on the inner wall of the movable parts. The guide protrusions can move along the guide grooves 201. Furthermore, the included angle between the movable part and the support part is α, 80°≤a≤85°. In this specific embodiment, α is 85°. After setting the included angle between the movable part and the support part to an acute angle, the deformation treatment is achieved, and the movable seat 3 is prevented from deforming and detaching from the guide after long-term use. The support part is provided with mounting screw holes. Rubber pads are provided on the inner walls of the support part and the pipe clamp 5. By providing rubber pads, the fixing strength with various pipelines with small diameter differences can be guaranteed.

[0034] like Figure 1 and Figure 2 As shown, in this specific embodiment, the boom assembly 1 includes a sliding sleeve 104, which is movably fitted onto the end of the crossarm 2. A positioning hole 1 is horizontally provided through the sliding sleeve 104, and multiple positioning holes 202 are provided along the length of the end of the crossarm 2. The same positioning screw 106 passes through the positioning hole 1 and one of the positioning holes 202, thereby limiting the relative position of the boom assembly 1 and the crossarm 2. With this arrangement, the position of the boom assemblies 1 at both ends can be adjusted according to the width of the multiple pipelines being hoisted, thereby enhancing the strength of the entire hoisting support and preventing the boom assembly 1 and the crossarm 2 from being far apart in terms of stress position, thus preventing the crossarm 2 from bending and deforming during long-term use.

[0035] like Figure 1 and Figure 2 As shown, to further enhance the flexibility of this hoisting support, the hoisting rod assembly 1 also includes an upper screw rod 101 and a lower screw rod 103. The upper screw rod 101 and the lower screw rod 103 are connected by an adjusting sleeve 102. The lower screw rod 103 is mounted on a sliding sleeve 104. An installation plate 105 is provided at the end of the upper screw rod 101. The installation plate 105 is connected to the beam by expansion bolts. By setting the adjusting sleeve 102, the position of the crossarm 2 can be adjusted to meet the hoisting requirements of pipelines of various diameters.

[0036] like Figure 1 and Figure 2 As shown, in some construction scenarios, the diameters of different pipelines vary greatly. In order to enable the hoisting of thinner pipelines, in this specific embodiment, a straight groove hole 203 is provided on the top surface of the crossarm 2. The straight groove hole 203 is opposite to the mounting screw hole of the support part. A support rod 6 is also installed through the straight groove hole 203. Limiting nuts are respectively provided on the support rod 6 and on both sides of the top of the crossarm 2. A pipe clamp 7 is also welded to the top of the support rod 6.

[0037] like Figure 2 As shown, to ensure the strength of the crossarm 2, the crossarm 2 is made of channel steel. The opening of the crossarm 2 faces downward, and the channel wall of the crossarm 2 protrudes inward to form a guide groove 201. A reinforcing plate is provided on the inner surface of the top of the crossarm 2.

[0038] The usage process of this hoisting bracket is as follows:

[0039] Adjust the number and position of the movable seats 3 according to the diameter and spacing of the parallel pipelines. After adjustment, tighten the locking bolts 4 to abut against the crossarm 2, and connect the pipe clamps 5 to the corresponding pipelines. If necessary, insert the support rod 6 from the end of the crossarm 2 from top to bottom and move it to the corresponding position. Adjust the vertical position of the pipe clamps 7 through the two limit nuts to ensure that they can be connected to pipelines with smaller diameters. Slide the hanger assembly 1, move the sliding sleeve 104 to a position close to the pipeline and lock the nut on the positioning screw 106. Rotate the adjusting sleeve 102 to adjust the height of the hanger until it is determined that the mounting plate 105 can be connected to the concrete beam or steel structure.

[0040] As can be seen from the above specific embodiments, this utility model has the following beneficial effects:

[0041] 1. The crossarm 2 and the pipe clamp 5 are connected by the horizontally movable seat 3. The distance between two adjacent pipe clamps 5 can be adjusted as needed to meet various usage requirements and improve the flexibility of this hoisting support. Furthermore, the crossarm 2 is guaranteed by using locking bolts 4 for positioning without the need to open holes or slots.

[0042] 2. By setting the guide groove 201, on the one hand, the smooth movement of the movable seat 3 is ensured, and on the other hand, in conjunction with the locking bolt 4, the movable seat 3 is prevented from moving under force, thus ensuring the stability of the entire pipeline hoisting;

[0043] 3. By setting the angle between the moving part and the supporting part to an acute angle, the deformation is reversed, preventing the moving seat 3 from deforming and detaching from the guide groove 201 after long-term use;

[0044] 4. By setting rubber pads, the fixing strength with various pipelines of similar diameters can be guaranteed;

[0045] 5. The position of the lifting rod assembly 1 at both ends can be adjusted according to the width of the multiple pipelines being hoisted, thereby enhancing the strength of the entire hoisting support and preventing the lifting rod assembly 1 from being too far from the stress position of the crossarm 2, which could cause the crossarm 2 to flex and deform over long-term use.

[0046] 6. By setting the adjusting sleeve 102, the position of the crossarm 2 can be adjusted to meet the hoisting requirements of pipelines of various diameters;

[0047] 7. By setting the straight slot hole 203, on the one hand, the bolts used to connect the movable seat 3 and the pipe clamp 5 are avoided; on the other hand, the support rod 6 can be set to connect pipelines with smaller diameters and larger differences.

[0048] 8. By using an inner protrusion to form a guide groove 201 and a reinforcing plate, the strength of the crossbeam 2 can be enhanced and its deformation can be delayed.

[0049] The above description of the disclosed embodiments enables those skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the present invention. Therefore, the present invention is not to be limited to the embodiments shown herein, but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A hoisting support for electromechanical pipelines, comprising a crossbeam (2), characterized in that, It also includes, The suspension rod assembly (1) is respectively disposed at both ends of the crossarm (2); Pipe clamp (5), the pipe clamp (5) has a U-shaped structure with the opening facing downwards, and the pipe clamp (5) is provided with support feet on both sides; The movable seat (3) is provided with m units, where m = 2n, n ≥ 1, and n is an integer. The movable seat (3) is used to connect with the support leg. The movable seat (3) has a U-shaped structure with the opening facing downward. The movable seat (3) straddles the crossbeam (2). The movable seat (3) can move along the crossbeam (2). The movable seat (3) is provided with a locking bolt (4). The locking bolt (4) can abut against the crossbeam (2).

2. The electromechanical pipeline hoisting bracket as described in claim 1, characterized in that, The crossbeam (2) has guide grooves (201) on both sides along its length. The movable seat (3) includes a support part, and movable parts are provided at both ends of the support part. The movable parts are provided with the locking bolts (4). The inner wall of the movable parts is provided with guide protrusions, which can move along the guide grooves (201).

3. The electromechanical pipeline hoisting bracket as described in claim 2, characterized in that, The angle between the moving part and the supporting part is α, where 80°≤α≤85°.

4. The electromechanical pipeline hoisting bracket as described in claim 3, characterized in that, The support part is provided with mounting screw holes, and the inner walls of the support part and the pipe clamp (5) are both provided with rubber pads.

5. The electromechanical pipeline hoisting bracket as described in any one of claims 1-4, characterized in that, The boom assembly (1) includes a sliding sleeve (104), which is movably fitted onto the end of the crossarm (2). A positioning hole 1 is horizontally provided on the sliding sleeve (104), and a plurality of positioning holes 202 are provided along the length of the end of the crossarm (2). The same positioning screw (106) passes through the positioning hole 1 and one of the positioning holes 202.

6. The electromechanical pipeline hoisting bracket as described in claim 5, characterized in that, The boom assembly (1) further includes an upper screw (101) and a lower screw (103), the upper screw (101) and the lower screw (103) are connected by an adjusting sleeve (102), the lower screw (103) is disposed on the sliding sleeve (104), and the end of the upper screw (101) is provided with a mounting plate (105).

7. The electromechanical pipeline hoisting bracket as described in claim 2, characterized in that, The top surface of the crossarm (2) is provided with a straight groove hole (203), which is opposite to the mounting screw hole of the support part. A support rod (6) is also provided through the straight groove hole (203). Limiting nuts are provided on the support rod (6) and on both sides of the top of the crossarm (2). A pipe clamp (7) is also provided on the top of the support rod (6).

8. The electromechanical pipeline hoisting bracket as described in claim 7, characterized in that, The crossarm (2) is made of channel steel. The crossarm (2) has an opening facing downwards. The channel wall of the crossarm (2) protrudes inwards to form a guide groove (201). A reinforcing plate is provided on the inner surface of the top of the crossarm (2).