CN220668586U - Vibration reduction buffer mechanism - Google Patents

Abstract

The utility model discloses a vibration reduction and buffering mechanism, in particular to the technical field of vibration reduction and buffering, which comprises a vibration reduction mechanism installation base plate which is a metal member, wherein a vibration reduction supporting block is arranged in the middle of the upper end of the vibration reduction mechanism installation base plate, a pipeline installation base is arranged outside the upper end of the vibration reduction mechanism installation base plate, and a pipeline supporting block is arranged in the middle of the upper end of the pipeline installation base plate. When the natural gas pipeline vibration reducing device is in actual use, the natural gas pipeline can be reduced to be contacted with the inner walls of the pipeline supporting block and the pipeline fixing block through the arranged vibration reducing pad, so that the natural gas pipeline is damaged, and meanwhile, the natural gas pipeline can be conveniently supported in the corresponding arrangement state of the vibration reducing assembly, the vibration reducing damping rod, the vibration reducing installation block, the vibration reducing spring and the vibration reducing connection block.

Description

Vibration reduction buffer mechanism

Technical Field

The utility model relates to the technical field of vibration reduction and buffering, in particular to a vibration reduction and buffering mechanism.

Background

The natural gas pipeline refers to a pipeline for conveying natural gas (including associated gas produced by an oil field) from a mining place or a treatment factory to a city gas distribution center or an industrial enterprise user, which is also called a gas pipeline, the natural gas pipeline is generally installed and fixed through a mounting frame, when the mounting frame or the pipeline is impacted by external force, the natural gas pipeline is easy to vibrate, the natural gas pipeline is damaged, the natural gas pipeline wall is possibly broken when serious, the natural gas pipeline vibration damper is described in the publication No. (CN 216813406U), the vibration damper is installed at a designated position through a fixing bolt, a mounting ring is sleeved on the outer wall of the natural gas pipeline, after the natural gas pipeline is impacted by force, a second spring is compressed, the mounting frame drives a connecting sleeve to slide downwards along a second mounting rod, so that the impact on the natural gas pipeline is damped and buffered, the size of the natural gas pipeline is reduced, the natural gas pipeline is protected, the natural gas pipeline is prevented from being damaged, and the safety of the natural gas pipeline in use is improved.

When the device is used, the natural gas pipeline can be effectively supported and fixed, natural vibration caused by natural removal is reduced, the natural gas pipeline is prevented from being damaged, the structure of the device is complex, the spring is easily compressed downwards by self gravity when the natural gas pipeline is subjected to gravity, the natural gas pipeline easily generates the problem of jumping up and down, and the internal structure of the device is easily damaged by the complex structure.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, an embodiment of the present utility model provides a vibration damping buffer mechanism, which aims to solve the technical problems: how to increase the buffer structure and adjust the effect of natural gas pipeline buffering shock attenuation.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the damping buffer mechanism comprises a damping mechanism mounting bottom plate which is a metal member, wherein a damping supporting block is arranged in the middle of the upper end of the damping mechanism mounting bottom plate, a pipeline mounting base is arranged outside the upper end of the damping mechanism mounting bottom plate, a pipeline supporting block is arranged in the middle of the upper end of the pipeline mounting base, and a pipeline fixing block is arranged on the upper side end face of the pipeline supporting block;

the side tip of shock attenuation supporting shoe and one side of pipeline installation base lower extreme all are equipped with the shock attenuation installation piece, the inboard of shock attenuation installation piece is equipped with damper, damper's inside is equipped with the shock attenuation damping pole, damper's outer terminal surface is equipped with damping spring, one side terminal surface of shock attenuation damping pole is equipped with spacing mounting panel, the outside terminal surface of spacing mounting panel is equipped with the shock attenuation connecting block.

In a preferred embodiment, a side end part of the damping mechanism mounting bottom plate is provided with a mounting sliding hole, and a first mounting screw is arranged in the mounting sliding hole;

the upper end of the damping mechanism mounting bottom plate is provided with a damping support sliding rod on one side of the damping support block, the upper end face of the damping support sliding rod is provided with a limiting support block, and the end part of the side face of the pipeline mounting base is provided with a limiting sliding hole.

In a preferred embodiment, the side end of the pipeline fixing block is provided with a mounting lug plate, the end face of the mounting lug plate is provided with a second mounting screw, and the inner side end faces of the pipeline fixing block and the pipeline supporting block are provided with shock absorption pads;

the outer end face of the damping mechanism installation base plate in the overlooking direction and the outer end face of the pipeline installation base plate in the overlooking direction are arranged in a coplanar state, and the outer end face of the pipeline supporting block in the overlooking direction is matched with the outer end face of the installation lug plate in the overlooking direction.

In a preferred embodiment, the number of the installation slide holes, the first installation screws, the damping support slide bars and the limiting support blocks is multiple, and the two sides of the vertical central axis of the damping mechanism installation bottom plate in the overlooking direction are arranged in an array state;

the outer end face of the damping support sliding rod is matched with the inner end face of the limiting sliding holes, the number of the limiting sliding holes is multiple, the end face of the pipeline installation base is arranged in an array state, and the limiting sliding holes are arranged in a strip-shaped state in the overlooking direction.

In a preferred embodiment, the number of the installation lugs is multiple, and the installation lugs are arranged in a mirror image state on two sides of the vertical central axis of the pipeline fixing block in the overlooking direction;

the number of the second mounting screws is multiple, the end faces in the overlooking direction of the mounting ear plates are arranged in an array state, and the shock pads are all rubber members.

In a preferred embodiment, the number of the damping mounting blocks and the damping components is multiple, and the damping mounting blocks and the damping components are arranged in a mirror image state on two sides of a vertical central axis of the damping support block in the main view direction;

the quantity of spacing mounting panel and shock attenuation connecting block all is equipped with two, and presents mirror image state setting in the both sides of the central axis of the direction of shock assembly owner's view.

The utility model has the technical effects and advantages that:

when the vibration-reducing device is in actual use, the natural gas pipeline can be reduced to be contacted with the inner walls of the pipeline supporting block and the pipeline fixing block through the vibration-reducing pad, so that the natural gas pipeline is damaged, meanwhile, the natural gas pipeline can be conveniently supported in the corresponding arrangement state of the vibration-reducing assembly, the vibration-reducing damping rod, the vibration-reducing mounting block, the vibration of the natural gas pipeline can be reduced, the vibration-reducing effect on the natural gas pipeline is improved, and meanwhile, the pipeline mounting base can be prevented from generating larger deflection when the pipeline vibrates in the corresponding arrangement state of the vibration-reducing supporting sliding rod, the limiting supporting block and the vibration-reducing connecting block, so that the position of the pipeline mounting base can be limited.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic view of the overall bottom structure of the present utility model.

Fig. 3 is a schematic diagram of the overall front view structure of the present utility model.

Fig. 4 is a schematic diagram of the overall connection structure of the present utility model.

FIG. 5 is an enlarged schematic view of the shock absorbing assembly of the present utility model.

The reference numerals are: 1 damper installation bottom plate, 2 damping support blocks, 3 first installation screw, 4 pipeline installation base, 5 damping support slide bar, 6 installation slide hole, 7 pipeline support blocks, 8 pipeline fixed blocks, 9 spacing mounting plates, 10 spacing support blocks, 11 second installation screw, 12 shock pads, 13 damper components, 14 damping installation blocks, 15 spacing slide hole, 16 installation otic placode, 17 damping rod, 18 damping spring, 19 damping connecting block.

Detailed Description

The utility model provides a vibration reduction buffer mechanism, which is shown in figures 1, 2 and 3, and comprises a vibration reduction mechanism mounting bottom plate 1 which is a metal material component, wherein a vibration reduction supporting block 2 is arranged in the middle of the upper end of the vibration reduction mechanism mounting bottom plate 1, a pipeline mounting base 4 is arranged outside the upper end of the vibration reduction mechanism mounting bottom plate 1, a pipeline supporting block 7 is arranged in the middle of the upper end of the pipeline mounting base 4, a pipeline fixing block 8 is arranged on the upper end surface of the pipeline supporting block 7, a mounting slide hole 6 is formed in the side end part of the vibration reduction mechanism mounting bottom plate 1, a first mounting screw 3 is arranged in the mounting slide hole 6, the vibration reduction mechanism mounting bottom plate 1 can be conveniently mounted and fixed, a vibration reduction supporting slide rod 5 is arranged at one side of the vibration reduction supporting block 2 at the upper end of the vibration reduction mechanism mounting bottom plate 1, a limit supporting block 10 is arranged at the upper end surface of the vibration reduction supporting slide rod 5, the outer end surface of the vibration reduction mechanism mounting bottom plate 1 in the overlook direction and the outer end surface of the pipeline mounting base 4 in the overlook direction are arranged in a coplanar state, a plurality of vibration reduction mechanism mounting slide rods 10 are arranged in the two sides of the vibration reduction mechanism mounting bottom plate 1 in the overlook direction, and the vibration reduction mechanism is arranged in the vertical array mode.

As shown in fig. 4 and 5, the side end of the shock-absorbing support block 2 and one side of the lower end of the pipe installation base 4 are respectively provided with a shock-absorbing installation block 14, the inner side of the shock-absorbing installation block 14 is provided with a shock-absorbing component 13, the inner side of the shock-absorbing component 13 is provided with a shock-absorbing damping rod 17, the outer end face of the shock-absorbing damping rod 17 is provided with a shock-absorbing spring 18, one side end face of the shock-absorbing damping rod 17 is provided with a limit installation plate 9, the outer end face of the limit installation plate 9 is provided with a shock-absorbing connection block 19, the side end of the pipe installation base 4 is provided with a limit sliding hole 15, the side end of the pipe fixing block 8 is provided with an installation lug plate 16, the end face of the installation lug plate 16 is provided with a second installation screw 11, which can be convenient for installing and fixing a natural gas pipe, the inner end faces of the pipe fixing block 8 and the pipe support block 7 are provided with shock-absorbing pads 12, the natural gas pipeline can be prevented from generating friction with the inner walls of the pipeline fixing block 8 and the pipeline supporting block 7 when vibration occurs, so that the surface of the pipeline is worn, and the service life of the pipeline is influenced, the outer end face of the pipeline supporting block 7 in the overlooking direction is matched with the outer end face of the installation lug plate 16 in the overlooking direction, the outer end face of the damping supporting sliding rod 5 is matched with the inner end face of the limiting sliding hole 15, the number of the limiting sliding holes 15 is multiple, the end face of the pipeline installation base 4 is in array state, the limiting sliding hole 15 is in strip state in the overlooking direction, the number of the installation lug plates 16 is multiple, the two sides of the vertical central axis of the pipeline fixing block 8 in the overlooking direction are in mirror image state, the number of the second installation screws 11 is multiple, the end face of the installation lug plate 16 in the overlooking direction is in array state, the shock pad 12 is the rubber material component, the quantity of shock attenuation installation piece 14 and damper 13 all is equipped with a plurality ofly, and presents mirror image state setting in the both sides of the vertical central axis of the direction of looking mainly at shock attenuation supporting shoe 2, the quantity of spacing mounting panel 9 and damper connecting block 19 all is equipped with two, and presents mirror image state setting in the both sides of the central axis of the direction of looking mainly at damper 13.

The working principle of the utility model is as follows:

when the vibration-damping device is used, a worker fixes the vibration-damping mechanism mounting base plate 1 through the first mounting screws 3, then installs the natural gas pipeline on the inner sides of the pipeline supporting block 7 and the pipeline fixing block 8, then installs the natural gas pipeline stably through the second mounting screws 11, when the natural gas pipeline vibrates, the vibration-damping pad 12 can avoid abrasion of the pipeline and the inner walls of the pipeline supporting block 7 and the pipeline fixing block 8, and meanwhile the vibration-damping component 13 can reduce vibration generated by the pipeline.

The last points to be described are: in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other under the condition of no conflict;

finally: the foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (6)

1. A vibration damping buffer mechanism, comprising:

the damping mechanism mounting base plate (1) is a metal member, a damping supporting block (2) is arranged in the middle of the upper end of the damping mechanism mounting base plate (1), a pipeline mounting base (4) is arranged outside the upper end of the damping mechanism mounting base plate (1), a pipeline supporting block (7) is arranged in the middle of the upper end of the pipeline mounting base (4), and a pipeline fixing block (8) is arranged on the upper side end face of the pipeline supporting block (7);

the side tip of shock attenuation supporting shoe (2) and one side of pipeline installation base (4) lower extreme all are equipped with shock attenuation installation piece (14), the inboard of shock attenuation installation piece (14) is equipped with damper (13), the inside of damper (13) is equipped with shock attenuation damping rod (17), the outer terminal surface of shock attenuation damping rod (17) is equipped with damping spring (18), one side terminal surface of shock attenuation damping rod (17) is equipped with spacing mounting panel (9), the outside terminal surface of spacing mounting panel (9) is equipped with shock attenuation connecting block (19).

2. A vibration damping buffer mechanism according to claim 1 wherein: the side end part of the damping mechanism installation bottom plate (1) is provided with an installation sliding hole (6), and a first installation screw (3) is arranged in the installation sliding hole (6);

the upper end of damper mounting base plate (1) is equipped with shock attenuation support slide bar (5) in one side of shock attenuation supporting shoe (2), the upside terminal surface of shock attenuation support slide bar (5) is equipped with spacing supporting shoe (10), the side tip of pipeline mounting base (4) is equipped with spacing slide hole (15).

3. A vibration damping buffer mechanism according to claim 1 wherein: the side end part of the pipeline fixing block (8) is provided with a mounting lug plate (16), the end surface of the mounting lug plate (16) is provided with a second mounting screw (11), and the inner side end surfaces of the pipeline fixing block (8) and the pipeline supporting block (7) are provided with a shock pad (12);

the outer end face of the damping mechanism mounting base plate (1) in the overlook direction and the outer end face of the pipeline mounting base (4) in the overlook direction are arranged in a coplanar state, and the outer end face of the pipeline supporting block (7) in the overlook direction is matched with the outer end face of the mounting lug plate (16) in the overlook direction.

4. A vibration damping buffer mechanism according to claim 2 wherein: the number of the installation sliding holes (6), the first installation screws (3), the damping support sliding rods (5) and the limiting support blocks (10) is multiple, and the damping mechanism installation base plate (1) is arranged in an array state on two sides of a vertical central axis in the overlooking direction;

the outer end face of the shock attenuation support slide bar (5) is matched with the inner end face of the limiting slide hole (15), the number of the limiting slide holes (15) is multiple, the end face of the pipeline installation base (4) is arranged in an array state, and the limiting slide hole (15) is arranged in a strip-shaped state in the overlooking direction.

5. A vibration damping buffer mechanism according to claim 3 wherein: the number of the mounting ear plates (16) is multiple, and the mounting ear plates are arranged in a mirror image state on two sides of a vertical central axis of the pipeline fixing block (8) in the overlooking direction;

the number of the second mounting screws (11) is multiple, the end faces of the mounting lug plates (16) in the overlooking direction are arranged in an array state, and the shock pads (12) are all made of rubber materials.

6. A vibration damping buffer mechanism according to claim 1 wherein: the number of the damping mounting blocks (14) and the damping assemblies (13) is multiple, and the damping mounting blocks and the damping assemblies are arranged in a mirror image state on two sides of a vertical central axis of the damping support block (2) in the main view direction;

the number of the limiting mounting plates (9) and the number of the damping connecting blocks (19) are two, and mirror image state setting is shown on two sides of the central axis of the main view direction of the damping component (13).