CN114017573A - Shock absorption support for industrial pipeline - Google Patents

Abstract

The invention discloses an industrial pipeline damping support, and belongs to the technical field of industrial pipelines. It includes two at least flexible snubber blocks, two at least flexible snubber blocks can splice each other and form the inner chamber that supplies the industry pipeline to pass, fasten mutually through metal connecting piece between two at least flexible snubber blocks, and at least one installing port has all been seted up to the inner peripheral surface of two at least flexible snubber blocks, every but equal fixed mounting has the flexible metal damper who stretches out and draws back in the installing port. The damping support can respectively absorb high-frequency vibration and low-frequency vibration according to the practical application environment condition of the industrial pipeline, so that the damping support has a good damping effect, and is simple in structure, reasonable in design, easy to assemble and suitable for large-scale popularization.

Description

Shock absorption support for industrial pipeline

Technical Field

The invention belongs to the technical field of industrial pipelines, and particularly relates to an industrial pipeline damping support.

Background

In areas where earthquake disasters frequently occur, the damping of pipelines in houses can be said to be the most important, especially gas pipelines, and once the pipelines break, the greater disasters can be caused.

In order to solve the problems, the Chinese patent with the application number of CN201110226949.X and the application date of 2011, 08 and 09 discloses a radial vibration-damping and force-dissipating support for a pressure pipeline, which comprises a lower supporting block and a lower bottom plate, wherein the pressure pipeline is supported on the lower supporting block, the lower supporting block is supported on the lower bottom plate, the radial vibration-damping and force-dissipating support is characterized in that vertical fixing supports are symmetrically arranged on two sides of the lower bottom plate, two radial clamping blocks matched with two sides of the pressure pipeline are respectively connected with corresponding supporting plates, the supporting plates are connected with the corresponding vertical fixing supports through respective fastening connecting pieces, and elastic supporting components are arranged on the fastening connecting pieces and between the vertical fixing supports and the supporting plates. The invention not only can keep the rigidity of the piping system, but also can eliminate the vibration stress generated in the radial direction of the piping system, and can meet the requirement of vibration reduction support of the pressure pipeline;

chinese patent application No. CN202110748491.8, having application date of 2021, 07 Yue 02, discloses a high-pressure damping bracket for eliminating radial pressure of a pressure pipeline, which comprises a lower pressing block positioned above a base, grooves arranged on two side edges of the lower pressing block, two groups of damping components, each group of damping components is respectively positioned at the groove, an upper pressing block positioned above the lower pressing block, a pipeline body arranged between the upper pressing block and the lower pressing block, a graphite ring sleeved outside the pipeline body, two mounting holes arranged above the upper pressing block, two groups of fixing components, and a fixing component arranged inside each mounting hole, through the shock attenuation of two sets of damper assembly to briquetting down, two sets of fixed subassemblies set up in the top of last briquetting, strengthen the fixed of briquetting and briquetting down, strengthen the centre gripping to the pipeline body, just can radially carry out the shock attenuation to the horizontal direction of water pipe.

Although the technical scheme can play a role in damping the industrial pipeline, the device structure is complex and is not suitable for large-scale popularization in practical application.

Disclosure of Invention

1. Problems to be solved

Aiming at the problems that the industrial pipeline damping support in the prior art is complex in structure and not suitable for large-scale popularization, the invention provides the industrial pipeline damping support, which ensures that the structure is simplified and the assembly is easy, and simultaneously ensures that the damping performance of the damping support is good.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

The utility model provides an industry pipeline shock absorber support, includes two at least flexible snubber blocks, two at least flexible snubber blocks can splice each other and form the inner chamber that supplies industry pipeline to pass, fasten mutually through metal connecting piece between two at least flexible snubber blocks, and at least one installing port, every have all been seted up to the inner peripheral surface of two at least flexible snubber blocks equal fixed mounting has the flexible metal damper in the installing port.

The preferable technical scheme is as follows:

according to the shock absorption support for the industrial pipeline, each flexible shock absorption block comprises the arc-shaped groove, and when the at least two flexible shock absorption blocks are mutually spliced, natural arc transition is performed between the inner peripheral surfaces of the arc-shaped grooves between the adjacent flexible shock absorption blocks.

According to the damping support for the industrial pipeline, the mounting openings on the at least two flexible damping blocks are symmetrically arranged.

According to the industrial pipeline damping support, the number of the flexible damping blocks is two, the outer molded surface of each flexible damping block is rectangular, the inner peripheral surface of each flexible damping block is semi-circular, the end parts of the two flexible damping blocks, which abut against each other, are provided with notches, and one of the mounting openings is formed between the notches of the two flexible damping blocks when the two flexible damping blocks are spliced with each other.

According to the industrial pipeline damping support, the number of the flexible damping blocks is four, the flexible damping blocks are arranged in an array relative to an industrial pipeline, and at least one mounting hole is formed in the center of the inner peripheral surface of each flexible damping block.

According to the shock absorption support for the industrial pipeline, the flexible shock absorption block is a rubber elastic block or a silica gel elastic block.

An industrial pipe shock absorbing mount as set forth above, said metal shock absorber comprising:

the profile of the supporting plate is attached to the industrial pipeline and is used for elastically abutting against the outer peripheral surface of the industrial pipeline;

the connecting rod is fixedly connected with the bottom surface of the supporting plate;

the pressing plate is fixedly connected with the bottom end of the connecting rod;

the spring is pressed at the bottom of the pressure plate;

the spring and the pressing plate are both arranged inside the mounting cylinder, and the bottom of the spring is fixedly connected with the bottom of the mounting cylinder;

wherein, when the spring is in an unstressed state, the supporting plate extends out of the mounting opening.

An industrial pipe shock absorber support as set forth above, said metal shock absorber further comprising:

the bottom plate is fixedly arranged at the bottom of the mounting cylinder and is fixedly connected with the bottom surface of the mounting opening;

the arc-shaped fin plates are symmetrically arranged on two sides of the mounting cylinder;

and the fixed wing plate is fixedly connected with the arc-shaped wing plate, the fixed wing plate at least comprises a bending part, and the fixed wing plate is embedded in the flexible damping block to form a whole with the flexible damping block.

According to the shock absorption bracket for the industrial pipeline, the top surface and the bottom surface of each flexible shock absorption block are provided with the convex blocks.

According to the industrial pipeline damping support, the metal connecting pieces are at least provided with two groups, each group of elastic connecting pieces comprises metal spiral springs, the metal spiral springs are sleeved between the convex blocks of the two flexible damping blocks on the same side, and certain fastening force is applied to the flexible damping blocks.

3. Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

(1) the damping support can respectively absorb high-frequency vibration and low-frequency vibration according to the practical application environment condition of the industrial pipeline, so that the damping support has a good damping effect;

(2) the damping support can be assembled by only the flexible damping block and the metal connecting piece in the assembling process, the assembling process is very convenient and fast, and the damping support is suitable for large-scale popularization.

Drawings

FIG. 1 is a schematic view of the overall structure of an industrial pipe shock-absorbing support according to the present invention;

FIG. 2 is a schematic view of the structure of the metal damper of the present invention;

in the figure: 100. a flexible shock-absorbing block; 110. an installation port; 120. an arc-shaped slot; 130. a bump; 200. a metal connecting member; 300. a metal damper; 310. a support plate; 320. a connecting rod; 330. pressing a plate; 340. a spring; 350. mounting the cylinder; 360. a base plate; 370. an arc-shaped fin plate; 380. a fixed wing plate; 381. a bending part; 400. an industrial pipeline.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clear, the present application will be further described in detail with reference to the accompanying drawings.

In order to facilitate understanding of the shock absorbing mount provided in the embodiments of the present application, an application scenario thereof will be described first. The damping support that this application embodiment provided can use in the industry pipeline for fix and install the industry pipeline, can also play absorbing effect simultaneously. Of course, in practical applications, the shock absorbing bracket is also applicable to other functional components sensitive to vibration, and meanwhile, the shock absorbing bracket can also be applied to environments (such as street sides, construction sites and the like) with obvious vibration.

In order to facilitate clear understanding of the technical solutions of the present application, the following description will specifically describe a shock absorbing bracket provided in the embodiments of the present application with reference to the accompanying drawings.

The terminology used in the following examples is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the specification of the present application and the appended claims, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, such as "one or more", unless the context clearly indicates otherwise. It should also be understood that in the following embodiments of the present application, "at least one", "one or more" means one, two or more. The term "and/or" is used to describe an association relationship that associates objects, meaning that three relationships may exist; for example, a and/or B, may represent: a alone, both A and B, and B alone, where A, B may be singular or plural. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

Reference throughout this specification to "one embodiment" or "some embodiments," or the like, means that a particular feature, structure, or characteristic described in connection with the embodiment is included in one or more embodiments of the present application. Thus, appearances of the phrases "in one embodiment," "in some embodiments," "in other embodiments," or the like, in various places throughout this specification are not necessarily all referring to the same embodiment, but rather "one or more but not all embodiments" unless specifically stated otherwise. The terms "comprising," "including," "having," and variations thereof mean "including, but not limited to," unless expressly specified otherwise.

Example 1

As shown in fig. 1, the embodiment provides an industrial pipeline 400 shock absorption support, which includes at least two flexible shock absorption blocks 100, where the at least two flexible shock absorption blocks 100 can be mutually spliced to form an inner cavity for the industrial pipeline 400 to pass through, the at least two flexible shock absorption blocks 100 are fastened together through a metal connecting member 200, at least one mounting opening 110 is formed on an inner circumferential surface of each of the at least two flexible shock absorption blocks 100, and an elastically telescopic metal shock absorber 300 is fixedly mounted in each of the mounting openings 110.

Specifically, when the industrial pipe 400 is vibrated, the direction of the vibration is arbitrary. When vibration is transmitted from the industrial pipe 400 to the shock-absorbing bracket for the industrial pipe 400 provided in the present embodiment, the shock-absorbing bracket for the industrial pipe 400 provided in the present embodiment mainly absorbs vibration from both the vertical direction and the horizontal direction based on the force resolution principle. From the components and parts of absorbing vibration, flexible snubber block 100, metal connecting piece 200 and metal bumper shock absorber 300 all can carry out the shock attenuation to the vibration in this embodiment to realize the multi-angle, multi-direction weakening effect to the vibration. In addition, considering that the vibration generally has a wider vibration frequency, in order to further enhance the absorption effect of the vibration, in the embodiment provided in the present application, the flexible damping mass 100 and the metal damper 300 may perform targeted absorption of the vibration with different frequencies. Specifically, the metal damper 300 is matched with the metal connecting piece 200 to absorb high-frequency vibration, the flexible damping block 100 is used for absorbing low-frequency vibration, and under the combined action of the flexible damping block 100 and the metal damper 300, the damping support in the embodiment can have a good damping effect.

In specific implementation, each flexible damping block 100 comprises an arc-shaped groove 120, and when the at least two flexible damping blocks 100 are mutually spliced, natural arc transition is performed between the inner peripheral surfaces of the arc-shaped grooves 120 between the adjacent flexible damping blocks 100, so that the industrial pipeline 400 can smoothly extend into an inner cavity formed by splicing when the flexible damping blocks 100 are mutually spliced.

It should be noted that, in this embodiment, when the industrial pipeline 400 and the cavity formed by the at least two flexible damping blocks 100 after being assembled with each other are assembled with each other, a clearance fit can be provided between the two to ensure that the vibration of the industrial pipeline 400 can be completely transmitted to the flexible damping blocks 100.

More specifically, for the flexible damper block 100, the flexible damper block 100 may be a rubber elastic block or a silicone elastic block. The flexible damping block 100 in this embodiment is mainly used to absorb vibration (or reduce displacement) well through its own elastic deformation, so as to achieve the damping effect.

By utilizing the characteristics of the vibration itself, in order to achieve the effect of attenuating the vibration from multiple angles and directions, the mounting openings 110 of the at least two flexible damping blocks 100 are arranged symmetrically.

In a more specific embodiment, two flexible damping blocks 100 are provided, the outer profile of the flexible damping block 100 is rectangular, the inner circumferential surface of the flexible damping block 100 is semi-circular, the end portions of the two flexible damping blocks 100 abutting against each other are provided with notches, and one of the mounting openings 110 is formed between the notches of the two flexible damping blocks 100 when the two flexible damping blocks 100 are spliced with each other.

When the two flexible damping blocks 100 are arranged, the two flexible damping blocks 100 are provided with the notches at the end parts abutted against each other, and the vibration can be weakened at least in the longitudinal direction by utilizing the mounting opening 110 formed when the two notches are spliced; meanwhile, the center of the inner circumferential surfaces of the two flexible damping blocks 100 can be provided with a mounting opening 110, so that the vibration is weakened in the transverse direction, the complexity of the device is reduced as much as possible, the processing difficulty and the cost are reduced, and the damping effect of the device is ensured as much as possible.

Example 2

Substantially the same as in example 1. As a modification of the damper bracket according to embodiment 1, this embodiment is different from embodiment 1 in that four flexible damper blocks 100 are provided, the flexible damper blocks 100 are arranged in an array with respect to an industrial pipe 400, and at least one mounting hole 110 is provided at a central position of an inner circumferential surface of the flexible damper block 100.

More specifically, the flexible damper blocks 100 in the present embodiment may be disposed directly above, directly to the left, directly below, and directly to the right of the industrial pipe 400, respectively. By damping the industrial pipe 400 from four directions, up, down, left, and right, the attenuation of vibration in the lateral and longitudinal directions is also achieved.

Example 3

Substantially the same as in example 1. Except that, as shown in fig. 2, the metal damper 300 includes:

a support plate 310, a profile of which is attached to the industrial pipe 400, for elastically abutting against an outer circumferential surface of the industrial pipe 400;

the connecting rod 320, the said connecting rod 320 is fixedly connected with bottom surface of the bearing plate 310;

the pressing plate 330 is fixedly connected with the bottom end of the connecting rod 320;

the spring 340, the spring 340 is pressed on the bottom of the pressure plate 330;

the spring 340 and the pressure plate 330 are both arranged inside the mounting cylinder 350, and the bottom of the spring 340 is fixedly connected with the bottom of the mounting cylinder 350;

wherein, when the spring 340 is in an unstressed state, the support plate 310 extends out of the mounting opening 110.

In this embodiment, the metal damper 300 is designed to attenuate high frequency vibration, when vibration does not occur, the supporting plate 310 extends out of the mounting opening 110 and abuts against the industrial pipe 400, when vibration occurs, the vibration is sequentially transmitted to the spring 340 through the supporting plate 310, the connecting rod 320, and the pressing plate 330, and the spring 340 is elastically deformed by itself to achieve a damping effect on the vibration. It should be noted that, in this embodiment, the vibration is divided into two types of vibrations, which are high-frequency vibration and low-frequency vibration, and the scheme adopted correspondingly is that the metal damper 300 and the metal connecting member 200 are respectively adopted to absorb the high-frequency vibration, and the flexible damping block 100 is used to absorb the low-frequency vibration. How to ensure that the structure is simplified as much as possible to facilitate assembly in a practical industrial environment is a problem to be solved. Based on this, in this embodiment, further, the metal damper 300 further includes:

the bottom plate 360 is fixedly arranged at the bottom of the mounting cylinder 350, and is fixedly connected with the bottom surface of the mounting opening 110;

the arc-shaped fin plates 370, the arc-shaped fin plates 370 are symmetrically arranged on two sides of the mounting cylinder 350;

the fixed wing plate 380 is fixedly connected with the arc-shaped wing plate 370, the fixed wing plate 380 at least comprises a bending part 381, and the fixed wing plate 380 is embedded in the flexible damping block 100 and forms a whole with the flexible damping block 100.

It should be noted that in the present embodiment, the flexible damping block 100 is made of a flexible material, such as rubber or silicone, and the metal damper 300 is made of a metal material, such as alloy. At this time, the metal damper 300 is embedded in the mounting opening 110 of the flexible damper block 100 through a conventional process, and it is still impossible to ensure that the integration of the metal damper 300 and the flexible damper block 100 is not separated from each other when vibration occurs. Based on this, in this embodiment, on the basis of the prior art, by virtue of the matching relationship between the bottom plate 360 and the bottom surface of the mounting opening 110 and the matching relationship between the fixed wing plate 380 and the flexible damping block 100, and further providing the bent portion 381 on the fixed wing plate 380 to improve the relative fixing effect of the bracket and the flexible damping block 100, the metal damper 300 and the flexible damping block 100 can be integrated together, and it is ensured that the integration of the metal damper 300 and the flexible damping block 100 cannot be separated from each other when vibration occurs; meanwhile, by means of the synergistic effect of the metal damper 300 and the flexible damping block 100, the vibration of the industrial pipeline 400 is further weakened, and the damping effect of the device is improved as much as possible.

Example 4

Substantially the same as in example 1. The difference is that in the present embodiment, the top surface and the bottom surface of each flexible damper block 100 are further provided with a protrusion 130. And, the metal connecting member 200 is provided with at least two sets, each set of the elastic connecting member includes a metal coil spring 340, and the metal coil spring 340 is sleeved between the convex blocks 130 of the two flexible damping blocks 100 on the same side and applies a certain fastening force to the flexible damping blocks 100.

In this embodiment, the metal coil spring 340 mainly plays two roles. Firstly, by means of the fastening force of the metal spiral spring 340 to the flexible damping block 100 when the metal spiral spring deforms, the two flexible damping blocks 100 can be assembled together; meanwhile, the whole damping support can be assembled only by the two flexible damping blocks 100 and the two metal spiral springs 340 in the assembling process, so that the assembly is convenient and quick; secondly, when facing some high-frequency vibrations with large intensity and long persistence on the industrial pipeline 400, the problem of shock absorption can not be solved well only by the metal shock absorber 300, and at the moment, the weakening effect of the high-frequency vibrations can be further improved by means of the deformation of the metal coil spring 340.

The examples described herein are merely illustrative of the preferred embodiments of the present invention and do not limit the spirit and scope of the present invention, and various modifications and improvements made to the technical solutions of the present invention by those skilled in the art without departing from the design concept of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides an industry pipeline shock absorber support, its characterized in that includes two at least flexible snubber blocks, two at least flexible snubber blocks can splice each other and form the inner chamber that supplies industry pipeline to pass, fasten mutually through metal connecting piece between two at least flexible snubber blocks, and at least one installing port has all been seted up to the inner peripheral surface of two at least flexible snubber blocks, every but equal fixed mounting has the flexible metal damper in the installing port.

2. The industrial pipe shock absorbing bracket as set forth in claim 1, wherein: each flexible damping block is provided with an arc-shaped groove, and the inner peripheral surfaces of the arc-shaped grooves between the adjacent flexible damping blocks are in natural arc transition when the at least two flexible damping blocks are mutually spliced.

3. The industrial pipe shock absorbing bracket as set forth in claim 1, wherein: the mounting openings on the at least two flexible damping blocks are arranged symmetrically.

4. The industrial pipe shock absorbing bracket as set forth in claim 3, wherein: the flexible damping blocks are arranged in two numbers, the outer molded surfaces of the flexible damping blocks are rectangular, the inner peripheral surfaces of the flexible damping blocks are semi-circular, the end parts of the two flexible damping blocks which are abutted against each other are provided with notches, and one of the mounting openings is formed between the notches of the two flexible damping blocks when the two flexible damping blocks are spliced with each other.

5. The industrial pipe shock absorbing bracket as set forth in claim 3, wherein: the flexible shock absorption blocks are four in number, the flexible shock absorption blocks are arranged in an array mode relative to the industrial pipeline, and at least one mounting hole is formed in the center of the inner peripheral surface of each flexible shock absorption block.

6. The industrial pipe shock absorbing bracket as set forth in claim 1, wherein: the flexible damping block is a rubber elastic block or a silica gel elastic block.

7. The industrial pipe shock absorbing bracket as set forth in claim 1, wherein: the metal damper includes:

the profile of the supporting plate is attached to the industrial pipeline and is used for elastically abutting against the outer peripheral surface of the industrial pipeline;

the connecting rod is fixedly connected with the bottom surface of the supporting plate;

the pressing plate is fixedly connected with the bottom end of the connecting rod;

the spring is pressed at the bottom of the pressure plate;

the spring and the pressing plate are both arranged inside the mounting cylinder, and the bottom of the spring is fixedly connected with the bottom of the mounting cylinder;

wherein, when the spring is in an unstressed state, the supporting plate extends out of the mounting opening.

8. The industrial pipe shock mount of claim 7, wherein: the metal damper further includes:

the bottom plate is fixedly arranged at the bottom of the mounting cylinder and is fixedly connected with the bottom surface of the mounting opening;

the arc-shaped fin plates are symmetrically arranged on two sides of the mounting cylinder;

and the fixed wing plate is fixedly connected with the arc-shaped wing plate, the fixed wing plate at least comprises a bending part, and the fixed wing plate is embedded in the flexible damping block to form a whole with the flexible damping block.

9. The industrial pipe shock absorbing bracket as set forth in claim 1, wherein: the top surface and the bottom surface of each flexible shock absorption block are provided with protruding blocks.

10. The industrial pipe shock mount of claim 9, wherein: the metal connecting pieces are at least provided with two groups, each group of elastic connecting pieces comprises metal spiral springs, and the metal spiral springs are sleeved between the convex blocks of the two flexible damping blocks on the same side and apply certain fastening force to the flexible damping blocks.

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