CN221206619U - Equipment mounting bracket for fire-fighting construction - Google Patents

Abstract

The utility model relates to the field of fire engineering, in particular to a device mounting bracket for fire construction. Technical problems: the fire-fighting pipeline is easy to shake along with the mounting bracket under the influence of an earthquake, so that the directions of the forces received on the fire-fighting pipes are different, the fire-fighting pipeline can be slightly distorted under the influence of shearing force, and the joint of the fire-fighting pipes can be leaked. The technical scheme is as follows: the equipment mounting bracket for the fire-fighting construction comprises a transverse force unloading assembly, a longitudinal force unloading assembly and a fixing assembly. According to the utility model, the fixing component is arranged for fixing the bracket, the clamping component is arranged for clamping the fire-fighting pipeline, and the double force unloading device is arranged, so that the fire-fighting pipeline is not involved in swinging together when the mounting bracket swings due to an earthquake, and thus the force unloading and the shock absorption are completed, meanwhile, the fire-fighting pipeline is prevented from being slightly distorted due to shearing force, and is in a relatively static state, and the joint of the fire-fighting pipeline is prevented from leaking.

Description

Equipment mounting bracket for fire-fighting construction

Technical Field

The utility model relates to the field of fire engineering, in particular to a device mounting bracket for fire construction.

Background

According to the requirements of fire safety law, fire-fighting equipment for fire extinguishment must be installed in a building, and a fire-fighting pipeline is an essential piece of equipment in the fire-fighting equipment and is used for delivering fire-fighting water and gas. A large number of fire-fighting pipelines are required to be installed in the fire-fighting engineering so as to ensure the safety of residents when a fire disaster occurs in a building body. The fire-fighting pipeline is formed by connecting a plurality of fire-fighting pipes, the total length of the fire-fighting pipeline is longer, and when the fire-fighting pipeline is affected by an earthquake, the fire-fighting pipeline easily shakes along with the mounting bracket, so that the directions of the forces received on the fire-fighting pipes are different, the fire-fighting pipeline can slightly twist under the influence of shearing force, and the joint of the fire-fighting pipes can leak.

Disclosure of utility model

In order to overcome the problem that the fire-fighting pipeline is easy to shake along with the mounting bracket under the influence of an earthquake, the directions of the forces received by the fire-fighting pipes are different, so that the fire-fighting pipeline can slightly twist under the influence of shearing force, and the joint of the fire-fighting pipes is leaked.

The technical scheme of the utility model is as follows: the equipment mounting bracket for the fire-fighting construction comprises a transverse force-unloading assembly, a longitudinal force-unloading assembly, a fixing assembly and a clamping assembly; the transverse force unloading assembly is provided with a longitudinal force unloading assembly for unloading force; the longitudinal force unloading assembly is provided with a fixing assembly for fixing the bracket; the transverse force unloading assembly is provided with a clamping assembly for fixing the fire-fighting pipeline.

Preferably, the transverse force unloading assembly and the longitudinal force unloading assembly are used for unloading force, and the fixing assembly is used for fixing the bracket; the clamping assembly is used for clamping the fire fighting pipeline.

Preferably, the transverse force unloading assembly comprises a transverse slide bar, a first clamping block, a first sliding block, a first pulley, a spring, a guide rod, a first fixed block, a second sliding block and a second pulley; the two sides of the transverse sliding strip are provided with first clamping blocks; a first sliding block is arranged in the transverse sliding strip; the front end and the rear end of the first sliding block are provided with first pulleys; springs are arranged on two sides of the first sliding block; the spring is internally provided with a guide rod. The first clamping block is used for limiting the transverse sliding strip, and the transverse sliding strip is used for accommodating the first sliding block; the first pulley assists the first slider to displace, and the spring is used for enabling the first slider to reset.

Preferably, a first fixed block is arranged above the spring; second sliding blocks are arranged on two sides of the upper end face of the first fixed block; and two sides of the second sliding block are provided with second pulleys. The second sliding block and the second pulley assist the transverse sliding bar to slide up and down.

Preferably, the longitudinal force unloading assembly comprises a longitudinal sliding strip, a damper, a second clamping block, a rotating seat and a connecting arm; one side of the first clamping block is provided with a longitudinal sliding bar; a damper is arranged in the longitudinal sliding strip; the front end and the rear end of the damper are provided with second clamping blocks. The longitudinal slide bar is used for limiting the displacement of the transverse slide bar, the damper is used for damping, and the second clamping block is used for limiting the displacement of the transverse slide bar in cooperation with the first clamping block.

Preferably, a rotating seat is arranged at one side and the front end and the rear end of the longitudinal sliding strip; the rotating seat is provided with a connecting arm. The rotating seat is used for connecting the longitudinal sliding bar and the connecting arm.

Preferably, the fixing assembly comprises a fixing strip and a first bolt; the connecting arm is provided with a fixing strip; the fixing strip is provided with a first bolt. The fixing strip is matched with the first bolt to fix the bracket.

Preferably, the clamping assembly comprises a second fixed block, a lower fixed sheet, an upper fixed sheet and a second bolt; a second fixed block is arranged above the first sliding block; the second fixed block is provided with a lower fixed sheet; an upper fixing piece is arranged above the lower fixing piece; the upper fixing piece is provided with a second bolt. The lower fixing piece and the upper fixing piece are both used for clamping the pipeline, and the second bolt is used for fixing the lower fixing piece and the upper fixing piece.

The utility model has the beneficial effects that:

1. through setting up dual force device that unloads, make the installing support shake when rocking because of the earthquake, can not draw in fire control pipeline and rock together to when accomplishing and unloading force and shock attenuation, avoid the fire control pipeline to take place slight distortion because of the shearing force, and make the fire control pipeline be in the state of static relatively, and then prevent that the junction of fire control pipe from taking place to reveal.

2. The fire fighting pipeline is clamped by the lower fixing piece and the upper fixing piece, the lower fixing piece and the upper fixing piece are fixed by the second bolt, the first sliding block can move transversely in the transverse sliding strip during an earthquake, the spring can push the first sliding block to reset the fire fighting pipeline, meanwhile, the transverse sliding strip can move up and down in the longitudinal sliding strip, and the damper is used for damping the transverse sliding strip in the vertical direction, so that the support can not be involved in shaking the fire fighting pipeline together when shaking due to the earthquake, the fire fighting pipeline is in a relatively static state, and deformation and leakage of the fire fighting pipeline are avoided.

Drawings

FIG. 1 shows a schematic view of the overall construction of the present utility model;

FIG. 2 shows a first slider configuration of the present utility model;

FIG. 3 shows a schematic view of the damper construction of the present utility model;

FIG. 4 shows a schematic view of the upper stator construction of the present utility model.

Reference numerals illustrate: 1. a lateral force unloading assembly; 2. a longitudinal force-unloading assembly; 3. a fixing assembly; 4. a clamping assembly; 101. a transverse slide; 102. a first clamping block; 103. a first slider; 104. a first pulley; 105. a spring; 106. a guide rod; 107. a first fixed block; 108. a second slider; 109. a second pulley; 201. a longitudinal slide; 202. a damper; 203. a second clamping block; 204. a rotating seat; 205. a connecting arm; 301. a fixing strip; 302. a first bolt; 401. a second fixed block; 402. a lower fixing piece; 403. an upper fixing piece; 404. and a second bolt.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1-2, the present utility model provides an embodiment: the equipment mounting bracket for fire-fighting construction comprises a transverse force-unloading assembly 1, a longitudinal force-unloading assembly 2, a fixing assembly 3 and a clamping assembly 4; the transverse force unloading assembly 1 is provided with a longitudinal force unloading assembly 2 for unloading force; the longitudinal force unloading assembly 2 is provided with a fixing assembly 3 for fixing the bracket; the transverse force-unloading assembly 1 is provided with a clamping assembly 4 for fixing the fire-fighting pipeline. The transverse force unloading assembly 1 and the longitudinal force unloading assembly 2 are used for unloading force, and the fixing assembly 3 is used for fixing the bracket; the clamping assembly 4 is used for clamping a fire fighting pipeline. The transverse force unloading assembly 1 comprises a transverse slide bar 101, a first clamping block 102, a first sliding block 103, a first pulley 104, a spring 105, a guide rod 106, a first fixed block 107, a second sliding block 108 and a second pulley 109; the two sides of the transverse sliding bar 101 are provided with first clamping blocks 102; a first sliding block 103 is arranged in the transverse sliding bar 101; the front and rear ends of the first slider 103 are provided with first pulleys 104; springs 105 are arranged on two sides of the first slider 103; a guide rod 106 is provided in the spring 105. The first clamping block 102 is used for limiting the transverse sliding bar 101, and the transverse sliding bar 101 is used for accommodating the first sliding block 103; the first pulley 104 assists the displacement of the first slider 103, and the spring 105 is used to reset the first slider 103. A first fixed block 107 is arranged above the spring 105; second sliding blocks 108 are arranged on two sides of the upper end face of the first fixed block 107; second pulleys 109 are provided on both sides of the second slider 108. The second slider 108 and the second pulley 109 assist the transverse slide 101 to slide up and down. A first fixed block 107 is arranged above the spring 105; second sliding blocks 108 are arranged on two sides of the upper end face of the first fixed block 107; second pulleys 109 are provided on both sides of the second slider 108. The second slider 108 and the second pulley 109 assist the transverse slide 101 to slide up and down.

Referring to fig. 3-4, in the present embodiment, the longitudinal force-unloading assembly 2 includes a longitudinal sliding bar 201, a damper 202, a second clamping block 203, a rotating seat 204, and a connecting arm 205; one side of the first clamping block 102 is provided with a longitudinal sliding bar 201; a damper 202 is arranged in the longitudinal sliding strip 201; the damper 202 is provided at front and rear ends thereof with second stoppers 203. The longitudinal slide 201 is used for limiting the displacement of the transverse slide 101, the damper 202 is used for damping, and the second clamping block 203 is used for limiting the displacement of the transverse slide 101 in cooperation with the first clamping block 102. A rotary seat 204 is arranged at one side and the front and rear ends of the longitudinal sliding strip 201; the swivel base 204 is provided with a connection arm 205. The swivel seat 204 is used to connect the longitudinal slide 201 and the connecting arm 205. The fixing assembly 3 comprises a fixing strip 301 and a first bolt 302; the connecting arm 205 is provided with a fixing strip 301; the fixing strip 301 is provided with a first bolt 302. The fixing bar 301 is engaged with the first bolt 302 to fix the bracket. The clamping assembly 4 comprises a second fixed block 401, a lower fixed sheet 402, an upper fixed sheet 403 and a second bolt 404; a second fixed block 401 is arranged above the first sliding block 103; the second fixing block 401 is provided with a lower fixing piece 402; an upper fixing piece 403 is arranged above the lower fixing piece 402; the upper fixing piece 403 is provided with a second bolt 404. The lower fixing piece 402 and the upper fixing piece 403 are used for clamping the pipeline, and the second bolt 404 is used for fixing the lower fixing piece 402 and the upper fixing piece 403.

In operation, the angles of the connecting arm 205 and the fixing strip 301 are adjusted, the fixing strip 301 is fixed on the wall body by the first bolt 302 to fix the mounting bracket, the fire fighting pipeline is clamped by the lower fixing piece 402 and the upper fixing piece 403, and the three are fixed by the second bolt 404.

During an earthquake, the first sliding block 103 can transversely displace in the transverse sliding bar 101, the spring 105 can push the first sliding block 103 to reset the fire-fighting pipeline, meanwhile, the transverse sliding bar 101 can also vertically displace in the longitudinal sliding bar 201, and the damper 202 absorbs shock of the transverse sliding bar 101 in the vertical direction, so that the support can not be involved in the shaking of the fire-fighting pipeline when shaking due to the earthquake, and the fire-fighting pipeline is in a relatively static state, and deformation and leakage of the fire-fighting pipeline are avoided.

Through the steps, the fixing component 3 is arranged to be used for fixing a support, the clamping component 4 is arranged to be used for clamping a fire-fighting pipeline, and the double force unloading device is arranged to enable the mounting support not to be involved in shaking the fire-fighting pipeline together when shaking due to an earthquake, so that the force unloading and shock absorption are completed, the fire-fighting pipeline is prevented from being slightly distorted due to shearing force, the fire-fighting pipeline is enabled to be in a relatively static state, and leakage is prevented from occurring at the joint of the fire-fighting pipeline.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (7)

1. The equipment mounting bracket for fire-fighting construction comprises a transverse force-unloading assembly (1); the method is characterized in that: the device also comprises a longitudinal force unloading assembly (2), a fixing assembly (3) and a clamping assembly (4); a longitudinal force unloading assembly (2) for unloading force is arranged on the transverse force unloading assembly (1); a fixing component (3) for fixing the bracket is arranged on the longitudinal force unloading component (2); the transverse force unloading assembly (1) is provided with a clamping assembly (4) for fixing the fire-fighting pipeline.

2. The equipment mounting bracket for fire construction according to claim 1, wherein: the transverse force unloading assembly (1) comprises a transverse slide bar (101), a first clamping block (102), a first sliding block (103), a first pulley (104), a spring (105), a guide rod (106), a first fixed block (107), a second sliding block (108) and a second pulley (109); the two sides of the transverse sliding strip (101) are provided with first clamping blocks (102); a first sliding block (103) is arranged in the transverse sliding bar (101); the front end and the rear end of the first sliding block (103) are provided with first pulleys (104); springs (105) are arranged on two sides of the first sliding block (103); a guide rod (106) is arranged in the spring (105).

3. The equipment mounting bracket for fire construction according to claim 2, wherein: a first fixed block (107) is arranged above the spring (105); second sliding blocks (108) are arranged on two sides of the upper end face of the first fixed block (107); two sides of the second sliding block (108) are provided with second pulleys (109).

4. The equipment mounting bracket for fire construction according to claim 2, wherein: the longitudinal force unloading assembly (2) comprises a longitudinal sliding bar (201), a damper (202), a second clamping block (203), a rotating seat (204) and a connecting arm (205); one side of the first clamping block (102) is provided with a longitudinal sliding strip (201); a damper (202) is arranged in the longitudinal sliding strip (201); the front end and the rear end of the damper (202) are provided with second clamping blocks (203).

5. The equipment mounting bracket for fire construction according to claim 4, wherein: a rotary seat (204) is arranged at one side and the front and rear ends of the longitudinal sliding strip (201); the rotating seat (204) is provided with a connecting arm (205).

6. The equipment mounting bracket for fire construction according to claim 5, wherein: the fixing component (3) comprises a fixing strip (301) and a first bolt (302); the connecting arm (205) is provided with a fixing strip (301); the fixing strip (301) is provided with a first bolt (302).

7. The equipment mounting bracket for fire construction according to claim 5, wherein: the clamping assembly (4) comprises a second fixed block (401), a lower fixed piece (402), an upper fixed piece (403) and a second bolt (404); a second fixed block (401) is arranged above the first sliding block (103); a lower fixing piece (402) is arranged on the second fixing block (401); an upper fixing piece (403) is arranged above the lower fixing piece (402); the upper fixing piece (403) is provided with a second bolt (404).