CN219530054U

CN219530054U - Multi-pipeline anti-seismic bracket

Info

Publication number: CN219530054U
Application number: CN202320309901.3U
Authority: CN
Inventors: 李文灿; 唐荣蓉; 贾得明
Original assignee: Jiangsu Xingyang Energy Technology Co ltd
Current assignee: Jiangsu Xingyang Energy Technology Co ltd
Priority date: 2023-02-24
Filing date: 2023-02-24
Publication date: 2023-08-15
Anticipated expiration: 2033-02-24

Abstract

The utility model discloses a multi-pipeline anti-seismic bracket which comprises a cross beam C-shaped steel, a main hanging component and an inclined strut component, wherein the main hanging component and the inclined strut component are arranged at two ends of the cross beam C-shaped steel, a pipe clamp is arranged on the cross beam C-shaped steel, and a -shaped fixing piece is arranged on the pipe clamp; the both ends of shape mounting are provided with the fixed orifices, and shape mounting opening is placed downwards on pipe clamp and crossbeam C shaped steel, and the both ends of shape mounting stretch out the bottom surface of crossbeam C shaped steel until the fixed orifices is not sheltered from to fix the pipe clamp on crossbeam C shaped steel through the fixed orifices. According to the -shaped fixing piece provided by the utility model, when a plurality of pipelines are arranged in parallel, the distance between the pipelines is relatively close, and when enough space is not available between the pipelines, the space which is enough under the cross beam C-shaped steel is utilized for fixing connection, so that the -shaped fixing piece is free from shielding of other components during fixing, the pipeline clamp is fixed in a mode of extending hands between the pipelines to screw bolts, and the operation is very convenient and quick.

Description

Multi-pipeline anti-seismic bracket

Technical Field

The utility model relates to a multi-pipeline anti-seismic bracket.

Background

The anti-vibration support limits the displacement of the auxiliary electromechanical engineering facilities, controls the vibration of the facilities and transmits the load to various components or devices on the bearing structure. When supporting circular pipeline, need use the pipe clamp to fix the pipeline, but when having a plurality of pipeline parallel arrangement and the distance between the pipeline is comparatively closely, the operable space between the pipeline is less, and the pipe clamp is not good to install fixedly.

Disclosure of Invention

The utility model mainly aims to provide a multi-pipeline anti-seismic bracket, which solves the problem that a pipe clamp is not easy to install and fix due to smaller operable space between pipelines when a plurality of pipelines are arranged in parallel and the distance between the pipelines is relatively close.

The aim of the utility model can be achieved by adopting the following technical scheme:

the multi-pipeline anti-seismic bracket comprises a beam C-shaped steel, a main hanging component and an inclined strut component, wherein the main hanging component and the inclined strut component are arranged at two ends of the beam C-shaped steel, a pipe clamp is arranged on the beam C-shaped steel, and a -shaped fixing piece is arranged on the pipe clamp;

the both ends of shape mounting are provided with the fixed mouth, shape mounting opening is placed downwards on pipe clamp and crossbeam C shaped steel, the bottom surface of crossbeam C shaped steel is stretched out to the both ends of shape mounting until the fixed mouth is not sheltered from, and passes through the fixed mouth is fixed the pipe clamp on crossbeam C shaped steel.

Preferably, the pipe clamp is provided with three pipeline ports, and fixed ends for connecting -shaped fixing pieces are arranged at two ends of the pipe clamp and between two adjacent pipeline ports.

Preferably, the fixing end is provided with an inserting hole, and the bottom surface of the transverse plate of the -shaped fixing piece is provided with an inserting column.

Preferably, an insulating rubber pad is arranged on the inner side of the pipeline opening, and a rubber gasket is arranged between the -shaped fixing piece and the pipe clamp.

Preferably, the main assembly that hangs includes long screw rod, main C shaped steel and V type stiffening member that hangs, the main assembly that hangs is provided with two sets of, two sets of the main assembly that hangs sets up respectively at the both ends of crossbeam C shaped steel perpendicularly.

Preferably, the bottom end of the long screw rod is inserted into the cross beam C-shaped steel and fixed on the cross beam C-shaped steel, and the main crane C-shaped steel is fixed on the long screw rod through the V-shaped stiffening piece.

Preferably, the diagonal bracing assembly comprises longitudinal diagonal bracing C-shaped steel and lateral diagonal bracing C-shaped steel, the longitudinal diagonal bracing C-shaped steel is provided with two, the two longitudinal diagonal bracing C-shaped steel is respectively obliquely arranged at the rear side of the main hanging assembly, first anti-seismic hinges are arranged at two ends of the longitudinal diagonal bracing C-shaped steel, and the longitudinal diagonal bracing C-shaped steel is connected to the long screw rod through the first anti-seismic hinges.

Preferably, the side direction bracing C shaped steel is provided with one, side direction bracing C shaped steel slope sets up the left outside at the main subassembly that hangs, the both ends of side direction bracing C shaped steel all are provided with the second antidetonation hinge, side direction bracing C shaped steel passes through second antidetonation hinge connection on long screw rod.

Preferably, the first end covers are arranged at the two ends of the cross beam C-shaped steel, the second end covers are arranged at the two ends of the longitudinal diagonal support C-shaped steel, and the third end covers are arranged at the two ends of the lateral diagonal support C-shaped steel.

The beneficial technical effects of the utility model are as follows:

according to the -shaped fixing piece provided by the utility model, when a plurality of pipelines are arranged in parallel, the distance between the pipelines is relatively close, and when enough space is not available between the pipelines, the space which is enough under the cross beam C-shaped steel is utilized for fixing connection, so that the -shaped fixing piece is free from shielding of other components during fixing, the pipeline clamp is fixed in a mode of extending hands between the pipelines to screw bolts, and the operation is very convenient and quick.

Drawings

FIG. 1 is a schematic view of an anti-seismic bracket according to an embodiment of the utility model;

FIG. 2 is a schematic view of a pipe clamp according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a fastener according to an embodiment of the utility model;

FIG. 4 is a schematic illustration of the mating of a pipe clamp and -shaped fastener of an embodiment of the present utility model;

fig. 5 is a schematic view of a main crane assembly according to an embodiment of the utility model.

In the figure: 1-beam C-shaped steel, 2-main hanging components, 201-long screws, 202-main hanging C-shaped steel, 203-V-shaped stiffening members, 3-diagonal bracing components, 301-longitudinal diagonal bracing C-shaped steel, 302-first anti-seismic hinges, 303-lateral diagonal bracing C-shaped steel, 304-second anti-seismic hinges, 4-pipe clamps, 401-pipeline ports, 402-fixed ends, 403-inserting holes, 5- -shaped fixing members, 501-fixed ports, 502-inserting columns, 6-insulating rubber gaskets, 7-rubber gaskets, 8-first end covers, 9-second end covers, 10-third end covers and 11-pipelines.

Detailed Description

In order to make the technical solution of the present utility model more clear and obvious to those skilled in the art, the present utility model will be described in further detail with reference to examples and drawings, but the embodiments of the present utility model are not limited thereto.

As shown in fig. 1-5, the multi-pipeline anti-seismic bracket provided by the embodiment comprises a beam C-shaped steel 1, a main hanging component 2 and an inclined strut component 3, wherein the main hanging component 2 and the inclined strut component 3 are arranged at two ends of the beam C-shaped steel 1, a pipe clamp 4 is arranged on the beam C-shaped steel 1, and a -shaped fixing piece 5 is arranged on the pipe clamp 4;

the two ends of the -shaped fixing piece 5 are provided with the fixing openings 501, the -shaped fixing piece 5 is downwards placed on the pipe clamp 4 and the beam C-shaped steel 1, the two ends of the -shaped fixing piece 5 extend out of the bottom surface of the beam C-shaped steel 1 until the fixing openings 501 are not shielded, the pipe clamp 4 is fixed on the beam C-shaped steel 1 through the fixing openings 501, when the pipe clamp is used, the pipe clamp 4 is buckled on a pipeline 11, the fixing ends 402 are attached to the beam C-shaped steel 1, the -shaped fixing piece 5 is picked up, the inserting columns 502 are aligned with the inserting holes 403, the -shaped fixing piece 5 is placed on the fixing ends 402, the -shaped fixing piece 5 is fixed through the fixing openings 501 by using bolts, so that the pipe clamp 4 is fixed on the beam C-shaped steel 1, the pipe clamp 4 is fixed by using a space which is large enough below the beam C-shaped steel 1, and the pipe clamp 4 is not fixed by screwing a bolt between the hand extending into the pipeline 11.

In this embodiment, as shown in fig. 2, three pipe openings 401 are provided on the pipe clamp 4, and fixing ends 402 for connecting -shaped fixing pieces 5 are provided at both ends of the pipe clamp 4 and between two adjacent pipe openings 401, and the -shaped fixing pieces 5 are used for fixing at both sides and inside, so that the connection is more stable.

In this embodiment, as shown in fig. 4, the insertion hole 403 is provided on the fixed end 402, and the inserting post 502 is provided on the bottom surface of the transverse plate of the -shaped fixing member 5, so that after the inserting post 502 is inserted into the insertion hole 403, the relative movement between the pipe clamp 4 and the -shaped fixing member 5 can be effectively limited, and the fixing effect can be further improved.

In this embodiment, as shown in fig. 2, an insulating rubber pad 6 is provided on the inner side of the pipe port 401, and a rubber gasket 7 is provided between the shock-absorbing and noise-resisting, -shaped fixing member 5 and the pipe clamp 4, so that the connection is tighter.

In this embodiment, as shown in fig. 5, the main hanging component 2 includes a long screw 201, a main hanging C-shaped steel 202 and a V-shaped stiffener 203, the main hanging component 2 is provided with two groups, the two groups of main hanging components 2 are respectively vertically arranged at two ends of the beam C-shaped steel 1, the bottom end of the long screw 201 is inserted in the beam C-shaped steel 1 and fixed on the beam C-shaped steel 1, the main hanging C-shaped steel 202 is fixed on the long screw 201 through the V-shaped stiffener 203, and the main hanging component 2 plays a role of bearing.

In this embodiment, as shown in fig. 1, the diagonal bracing assembly 3 includes a longitudinal diagonal bracing C-shaped steel 301 and a lateral diagonal bracing C-shaped steel 303, the longitudinal diagonal bracing C-shaped steel 301 is provided with two, the two longitudinal diagonal bracing C-shaped steels 301 are respectively obliquely arranged at the rear side of the main hanging assembly 2, both ends of the longitudinal diagonal bracing C-shaped steel 301 are provided with first anti-seismic hinges 302, the longitudinal diagonal bracing C-shaped steel 301 is connected to the long screw 201 through the first anti-seismic hinges 302, and the longitudinal diagonal bracing C-shaped steel 301 is used for resisting longitudinal horizontal earthquake forces.

In this embodiment, as shown in fig. 1, a lateral diagonal brace C-shaped steel 303 is provided, the lateral diagonal brace C-shaped steel 303 is obliquely arranged at the left outer side of the main hanging assembly 2, two ends of the lateral diagonal brace C-shaped steel 303 are both provided with second anti-seismic hinges 304, the lateral diagonal brace C-shaped steel 303 is connected to the long screw 201 through the second anti-seismic hinges 304, and the lateral diagonal brace C-shaped steel 303 is used for resisting lateral horizontal earthquake forces.

In this embodiment, as shown in fig. 1, first end caps 8 are disposed at two ends of the beam C-shaped steel 1, second end caps 9 are disposed at two ends of the longitudinal diagonal-strut C-shaped steel 301, and third end caps 10 are disposed at two ends of the lateral diagonal-strut C-shaped steel 303, so as to protect the cuts of the beam C-shaped steel 1, the longitudinal diagonal-strut C-shaped steel 301 and the lateral diagonal-strut C-shaped steel 303.

To sum up, in this embodiment, the -shaped fixing piece 5 provided in this embodiment can be arranged in parallel on a plurality of pipelines 11, and the distance between the pipelines 11 is relatively close, when there is not enough space between the pipelines 11, the space enough below the beam C-shaped steel 1 is utilized to perform fixed connection, so that the -shaped fixing piece 5 is free from shielding of other components during fixing, the pipe clamp 4 is fixed without using a mode of tightening bolts by extending hands between the pipelines 11, and the operation is very convenient and fast.

The above description is merely a further embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto, and any person skilled in the art will be able to apply equivalents and modifications according to the technical solution and the concept of the present utility model within the scope of the present utility model disclosed in the present utility model.

Claims

1. A multi-channel anti-seismic bracket, characterized in that: the novel lifting device comprises a beam C-shaped steel (1), a main lifting assembly (2) and an inclined strut assembly (3), wherein the main lifting assembly (2) and the inclined strut assembly (3) are arranged at two ends of the beam C-shaped steel (1), a pipe clamp (4) is arranged on the beam C-shaped steel (1), and a -shaped fixing piece (5) is arranged on the pipe clamp (4);

the fixing device is characterized in that fixing openings (501) are formed in two ends of the -shaped fixing piece (5), the -shaped fixing piece (5) is downwards placed on the pipe clamp (4) and the beam C-shaped steel (1), two ends of the -shaped fixing piece (5) extend out of the bottom surface of the beam C-shaped steel (1) until the fixing openings (501) are not shielded, and the pipe clamp (4) is fixed on the beam C-shaped steel (1) through the fixing openings (501).

2. A multi-channel seismic bracket as defined in claim 1, wherein: be provided with three pipeline mouth (401) on pipe clamp (4), both ends and adjacent two pipeline mouth (401) between pipe clamp (4) all are provided with stiff end (402) that are used for connecting shape mounting (5).

3. A multi-conduit seismic bracket according to claim 2, wherein: the fixed end (402) is provided with an inserting hole (403), and the bottom surface of the transverse plate of the -shaped fixing piece (5) is provided with an inserting column (502).

4. A multi-conduit seismic bracket according to claim 2, wherein: an insulating rubber pad (6) is arranged on the inner side of the pipeline opening (401), and a rubber gasket (7) is arranged between the -shaped fixing piece (5) and the pipe clamp (4).

5. A multi-channel seismic bracket as defined in claim 1, wherein: the main assembly (2) that hangs includes long screw rod (201), main C shaped steel (202) and V type stiffening member (203), main assembly (2) that hangs is provided with two sets of, two sets of main assembly (2) that hang are vertical setting respectively in the both ends of crossbeam C shaped steel (1).

6. A multi-channel seismic bracket as defined in claim 5, wherein: the bottom end of the long screw rod (201) is inserted into the beam C-shaped steel (1) and fixed on the beam C-shaped steel (1), and the main crane C-shaped steel (202) is fixed on the long screw rod (201) through the V-shaped stiffening piece (203).

7. A multi-channel seismic bracket as defined in claim 1, wherein: the inclined strut assembly (3) comprises longitudinal inclined strut C-shaped steel (301) and lateral inclined strut C-shaped steel (303), the longitudinal inclined strut C-shaped steel (301) is provided with two inclined strut C-shaped steel (301) respectively arranged on the rear side of the main hanging assembly (2) in an inclined mode, first anti-seismic hinges (302) are arranged at two ends of the longitudinal inclined strut C-shaped steel (301), and the longitudinal inclined strut C-shaped steel (301) is connected to the long screw rod (201) through the first anti-seismic hinges (302).

8. A multi-conduit seismic bracket according to claim 7, wherein: the side direction bracing C shaped steel (303) is provided with one, side direction bracing C shaped steel (303) slope sets up the left side in main hanging subassembly (2), the both ends of side direction bracing C shaped steel (303) all are provided with second antidetonation hinge (304), side direction bracing C shaped steel (303) are connected on long screw rod (201) through second antidetonation hinge (304).

9. A multi-conduit seismic bracket according to claim 7, wherein: the novel cross beam is characterized in that first end covers (8) are arranged at two ends of the cross beam C-shaped steel (1), second end covers (9) are arranged at two ends of the longitudinal diagonal support C-shaped steel (301), and third end covers (10) are arranged at two ends of the lateral diagonal support C-shaped steel (303).