CN114352806A - Anti-seismic support for wiring construction of comprehensive pipeline of basement and construction process - Google Patents

Abstract

The invention provides an anti-seismic support for basement integrated pipeline wiring construction and a construction process. The anti-seismic support for basement integrated pipeline wiring construction comprises a top seat; a base is connected to the top seat through an installation component; The base is formed with an arc-shaped fixing groove, and a wiring member is formed in the arc-shaped fixing groove. The wire routing member is connected with the top seat and the base through an anti-vibration component. It is connected with the base as a whole. On the one hand, it can ensure the connectivity between the three and improve the overall strength; The service life and seismic performance of the device; it can effectively ensure the overall connection strength and seismic performance of the bracket during an earthquake, and further ensure the safety of the building mechanical and electrical engineering system.

Description

Seismic support and construction technology for basement comprehensive pipeline wiring construction

technical field

The invention relates to the technical field of pipeline anti-seismic, in particular to an anti-seismic support for basement integrated pipeline wiring construction and a construction process.

Background technique

At present, there are many kinds of anti-seismic supports for basement integrated pipeline wiring construction in our country, but most of these anti-seismic supports have problems that are inconvenient to use: 1. During an earthquake, the lateral swing is large, which is prone to deviation and shaking, resulting in the anti-seismic effect. Poor, it is not conducive to actual use; 2. It is easy to damage adjacent facilities, causing damage to the mechanical and electrical engineering system of the building, and increasing the difficulty of later maintenance. 3. The horizontal seismic action lacks supporting structures.

SUMMARY OF THE INVENTION

The present invention aims to solve at least one of the technical problems existing in the prior art.

To this end, the first aspect of the present invention provides an anti-seismic support for basement integrated pipeline wiring construction.

A second aspect of the present invention provides a construction process of an anti-seismic support for basement integrated pipeline wiring construction.

The invention provides an anti-seismic support for basement integrated pipeline wiring construction, comprising:

top seat;

The base is connected with the top base through the mounting assembly;

Wherein, the top seat and the base are formed with an arc-shaped fixing groove, a wire routing member is formed in the arc-shaped fixing groove, and the wire routing member is connected with the top seat and the base through an anti-vibration assembly.

The anti-seismic support for basement integrated pipeline wiring construction proposed by the invention includes a top seat, an installation component, a base, an arc-shaped fixing groove, a wiring member and an anti-seismic component. Among them, the top seat and the base are connected by installation components, so as to realize a convenient and quick installation method. The arc-shaped fixing grooves are used to accommodate the wiring pieces, and the wiring pieces are used to place the pipelines. Specifically, the arc-shaped fixing grooves are respectively opened on the top seat and the base, and the relative arrangement of the two forms an installation space for the wiring member, and the radian of the arc-shaped fixing groove and the radian of the wiring member are adapted to ensure the two fully fitted state. The anti-vibration component connects the wiring piece, the top seat and the base into one, on the one hand, it can ensure the connectivity between the three and improve the overall strength; Whether the top seat or the base is subjected to force, it will ensure that the force is transmitted to the anti-seismic components, so as to achieve the effect of shock absorption and protection, improve the service life and anti-seismic performance of the device, and further prevent the pipeline from being damaged by the force. The pipeline forms an effective shock absorption protection. In addition, there are multiple connection points between the top seat and the base, which further ensures the connection force between the top seat and the base, and cooperates with the seismic function of the seismic component to effectively ensure the overall connection strength and seismic performance of the bracket during an earthquake. To further ensure the safety of building mechanical and electrical engineering systems.

According to the above-mentioned technical scheme of the present invention, the anti-seismic support for basement integrated pipeline wiring construction can also have the following additional technical features:

In the above technical solution, the anti-vibration component includes:

a connecting part, connecting the wiring member and the top seat;

The anti-vibration part connects the wiring member and the base.

In this technical solution, the anti-vibration component includes a connecting portion and an anti-vibration portion. The connecting portion is used to ensure the connection between the wiring member and the top seat, and the anti-vibration portion ensures the connection between the wiring member and the base on the one hand; on the other hand, it can also realize the function of anti-seismic. Specifically, when the top seat is subjected to a force, the force is finally transmitted to the anti-vibration part through the connecting part, and the anti-vibration part performs the process of shock absorption and buffering. Or when the belt base is subjected to a force, the force is directly transmitted to the anti-vibration part, and the anti-vibration part directly performs the process of shock absorption and buffering.

In the above technical solution, the connecting portion includes:

a connecting block, one end of which is connected to the arc-shaped fixing groove of the top seat;

The first arc-shaped block is connected to the other end of the connection block and connected to the wiring member.

In this technical solution, the connecting part includes a connecting block and a first arc-shaped block. The connecting block is used as a connecting structure to connect the top seat and the first arc-shaped block together, and the first arc-shaped block has an arc-shaped structure, which can be well adapted to the shape of the arc-shaped fixing groove and the wiring member, so as to ensure the tightness connection to improve connectivity. In addition, an anti-slip structure may be provided at the connection between the first arc-shaped block and the wiring member, and the anti-slip structure may be an anti-slip pad or the like, which is not specifically limited. As a result, deflection of the first arc-shaped block when the force is applied is avoided.

In the above technical solution, the anti-vibration portion includes:

a first buffer spring, one end of which is connected to the arc-shaped fixing groove of the base;

The second arc-shaped block is connected to the other end of the first buffer spring and connected to the wiring member.

In this technical solution, the anti-vibration part includes a first buffer spring and a second arc-shaped block. The first buffer spring, as the main anti-seismic structure, consumes the received force through its own characteristics, thereby realizing the function of buffer protection. In addition, the first buffer spring can also be replaced by other elastic structures, such as spring rods, rubber blocks, etc., as long as the structures that can achieve buffering and shock resistance fall within the protection scope of the technical solution. Of course, the number of the first buffer springs is not specifically limited, and is determined according to actual working conditions. The above elastic structures can all appear in this technical solution, that is, all or part of the first buffer spring, spring rod, and rubber block are arranged in the arc-shaped fixing groove of the base, so as to achieve better anti-vibration effect. The shape of the second arc-shaped block is adapted to the arc-shaped fixing groove of the base and the shape of the wire routing member, so as to ensure a tight connection and further achieve efficient force transmission. Of course, an anti-skid structure can also be provided at the connection between the second arc-shaped block and the wiring member, and the anti-skid structure can be an anti-skid pad, etc., thereby avoiding the deflection of the second arc-shaped block when subjected to a force.

In the above technical solution, it also includes:

a limit groove, which is formed in the arc-shaped fixing groove of the base;

One end of the limit rod is connected to the second arc-shaped block, and the other end extends to the limit slot.

In the technical solution, a limit groove and a limit rod are also included. The limit groove and the limit rod cooperate with each other, which can effectively limit the position of the anti-seismic component, and prevent the structure from shifting or shaking during an earthquake, thereby reducing lateral swing and improving the anti-seismic effect. The limit groove is arranged in the vertical direction, and the part of the limit rod should extend into the limit groove, so as to form an effective limit fit.

In the above technical solution, the installation component includes:

a positioning groove, formed on the base;

a positioning rod, which is arranged on the top seat and penetrates through the positioning groove;

The second buffer spring is sleeved on the positioning rod and connected to the top seat and the base.

In this technical solution, the installation assembly includes a positioning groove, a positioning rod and a second buffer spring. The positioning groove and the positioning rod cooperate with each other to realize the connection between the top seat and the base. The overall structure is simple and easy to disassemble. The second buffer spring can assist the anti-vibration component and further improve the anti-vibration performance of the bracket.

In the above technical solution, it also includes:

a threaded rod, arranged on the positioning rod;

The installation nut is screwed to the threaded rod.

In this technical solution, a threaded rod and a mounting nut are also included. Tightening between the top seat and the base is achieved by rotating the mounting nut mounted on the threaded rod. The fastening process is simple and convenient, and the installation effect is improved.

In the above technical solution, it also includes:

The installation block is arranged on the top seat.

In the technical solution, an installation block is also included. The mounting block is used to ensure the connection between the bracket and the fixed surface. The connection method is not specifically limited, and can be various connection methods such as bolt connection and clip connection.

In the above technical solution, the mounting block is formed with mounting holes.

In this technical solution, the mounting block is formed with mounting holes. The bolt connection between the bracket and the fixing surface is realized by passing the bolt through the installation hole, and the connection method is simple and the connection force is strong.

The present invention also provides a construction process of an anti-seismic support for basement integrated pipeline wiring construction, applying the anti-seismic support for basement integrated pipeline wiring construction described in any of the above technical solutions, including the following steps:

Assemble the top seat and base;

Tighten the top seat and the base by rotating the mounting nut installed on the threaded rod;

Install the anti-seismic support for basement integrated pipeline wiring construction on the fixed surface through the mounting holes on the mounting block.

Additional aspects and advantages of the present invention will become apparent in the description section that follows, or will be learned by practice of the present invention.

Description of drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily understood from the following description of embodiments taken in conjunction with the accompanying drawings, wherein:

Fig. 1 is the front view of the anti-seismic support for basement integrated pipeline wiring construction of the present invention;

Fig. 2 is the sectional view of the anti-seismic support for basement integrated pipeline wiring construction of the present invention;

FIG. 3 is a partial enlarged view at A of FIG. 2 .

Among them, the corresponding relationship between the reference numerals and the component names in Fig. 1 to Fig. 3 is:

1. Top seat; 2. Base; 3. Arc-shaped fixing slot; 4. Mounting block; 5. Anti-vibration component; 501, Connecting block; 502, First arc-shaped block; 503, First buffer spring; 504, Second Arc block; 505, limit groove; 506, limit rod; 6, installation component; 601, positioning groove; 602, positioning rod; 603, second buffer spring; 604, threaded rod; 605, installation nut; 7, wiring pieces.

Detailed ways

In order to understand the above objects, features and advantages of the present invention more clearly, the present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments. It should be noted that the embodiments of the present application and the features in the embodiments may be combined with each other in the case of no conflict.

Many specific details are set forth in the following description to facilitate a full understanding of the present invention. However, the present invention can also be implemented in other ways different from those described herein. Therefore, the protection scope of the present invention is not limited by the specific implementation disclosed below. example limitations.

1 to 3 , the anti-seismic support for basement integrated pipeline wiring construction and the construction process provided according to some embodiments of the present invention will be described below.

Some embodiments of the present application provide an anti-seismic support for basement integrated pipeline wiring construction.

As shown in FIG. 1 to FIG. 3 , the first embodiment of the present invention proposes an anti-seismic support for basement integrated pipeline wiring construction, including a top seat 1; a base 2, which is connected to the top seat 1 through a mounting assembly 6; wherein , the top seat 1 and the base 2 are formed with an arc-shaped fixing groove 3, and a wire routing member 7 is formed in the arc-shaped fixing groove 3, and the wire routing member 7 passes through the anti-vibration assembly 5 and the top seat 1. , the base 2 is connected.

The anti-seismic support for basement integrated pipeline wiring construction proposed by the present invention includes a top seat 1 , an installation component 6 , a base 2 , an arc-shaped fixing groove 3 , a wiring member 7 and an anti-seismic component 5 . Among them, the top seat 1 and the base 2 are connected by the installation component 6, so as to realize a convenient and quick installation method. The arc-shaped fixing slot 3 is used for accommodating the wiring member 7 . Specifically, the arc-shaped fixing grooves 3 are respectively opened on the top seat 1 and the base 2, and the relative arrangement of the two forms an installation space for the wiring member 7, and the radian of the arc-shaped fixing groove 3 is suitable for the radian of the wiring member 7. Matching, so as to ensure that the two are completely fit. The anti-vibration assembly 5 connects the wiring member 7, the top seat 1 and the base 2 as a whole. On the one hand, it can ensure the connectivity between the three and improve the overall strength; on the other hand, it can realize the wiring member 7, the base 2 and the top seat. The anti-vibration connection between 1, whether the top seat 1 or the base 2 is subjected to a force, will ensure that the force is transmitted to the anti-vibration component 5, so as to realize the effect of shock absorption and protection, and improve the service life and anti-vibration performance of the device. In addition, there are multiple connection points between the top seat 1 and the base 2, which further ensures the connection force between the top seat 1 and the base 2, and cooperates with the anti-seismic function of the anti-seismic component 5, which can effectively ensure the overall connection of the bracket during an earthquake. The strength and seismic performance further ensure the safety of building mechanical and electrical engineering systems.

The second embodiment of the present invention proposes an anti-seismic support for basement integrated pipeline wiring construction, and on the basis of the first embodiment, the anti-seismic component 5 includes: a connecting part, which connects the wiring member 7 and all the The top seat 1 ; the anti-vibration part, connecting the wiring member 7 and the base 2 .

In this embodiment, the anti-vibration assembly 5 includes a connecting portion and an anti-vibration portion. The connecting portion is used to ensure the connection between the wiring member 7 and the top base 1 , and the anti-vibration portion ensures the connection between the wiring member 7 and the base 2 on the one hand; on the other hand, it can also realize the function of anti-seismic. Specifically, when the top seat 1 is subjected to a force, the force is finally transmitted to the anti-vibration part through the connecting part, and the anti-vibration part performs the process of shock absorption and buffering. Or when the belt base 2 is subjected to a force, the force is directly transmitted to the anti-vibration part, and the anti-vibration part directly performs the process of shock absorption and buffering.

The third embodiment of the present invention proposes an anti-seismic support for basement integrated pipeline wiring construction, and on the basis of any of the above embodiments, the connecting portion includes: a connecting block 501, one end of which is connected to the arc of the top seat 1 The first arc-shaped block 502 is connected to the other end of the connecting block 501 and is connected to the wiring member 7 .

In this embodiment, the connecting portion includes a connecting block 501 and a first arc-shaped block 502 . The connecting block 501 is used as a connecting structure to connect the top seat 1 and the first arc-shaped block 502 together, and the first arc-shaped block 502 has an arc-shaped structure, which can be well adapted to the arc-shaped fixing slot 3 and the wiring member 7 shape, thus ensuring a tight connection and improving connectivity. In addition, an anti-skid structure may be provided at the connection between the first arc-shaped block 502 and the wiring member 7, and the anti-skid structure may be an anti-skid pad or the like, which is not specifically limited. Thus, deflection of the first arc-shaped block 502 when subjected to a force is avoided.

The fourth embodiment of the present invention proposes an anti-vibration support for basement integrated pipeline wiring construction, and on the basis of any of the above embodiments, the anti-vibration portion includes: a first buffer spring 503, one end of which is connected to the base 2 The arc-shaped fixing slot 3 ; the second arc-shaped block 504 is connected to the other end of the first buffer spring 503 and is connected to the wiring member 7 .

In this embodiment, the anti-vibration portion includes a first buffer spring 503 and a second arc-shaped block 504 . The first buffer spring 503, as the main structure for anti-vibration, consumes the received force through its own characteristics, so as to realize the function of buffer protection. In addition, the first buffer spring 503 can also be replaced by other elastic structures, such as spring rods, rubber blocks, etc., as long as the structures that can achieve buffering and shock resistance fall within the protection scope of this technical solution. Of course, the number of the first buffer springs 503 is not specifically limited, and is determined according to actual working conditions. The above elastic structures can all appear in this embodiment, that is, the first buffer spring 503 , the spring rod, and the rubber block are all or partially arranged in the arc-shaped fixing groove 3 of the base 2 , so as to achieve a better anti-vibration effect. The shape of the second arc-shaped block 504 is adapted to the shape of the arc-shaped fixing groove 3 of the base 2 and the shape of the wire routing member 7 , thereby ensuring a tight connection and further achieving efficient force transmission. Of course, an anti-skid structure can also be provided at the connection between the second arc-shaped block 504 and the wiring member 7, and the anti-skid structure can be an anti-skid pad or the like, thereby avoiding the deflection of the second arc-shaped block 504 when subjected to a force.

The fifth embodiment of the present invention proposes an anti-seismic support for basement integrated pipeline wiring construction, and on the basis of any of the above embodiments, it further includes: a limiting groove 505 , an arc-shaped fixing groove formed in the base 2 3. A limit rod 506, one end is connected to the second arc-shaped block 504, and the other end extends to the limit slot 505.

In this embodiment, a limit groove 505 and a limit rod 506 are also included. The limiting slot 505 and the limiting rod 506 cooperate with each other, which can effectively limit the position of the anti-seismic component 5 to prevent the structure from shifting or shaking during an earthquake, thereby reducing lateral swing and improving the anti-seismic effect. The limiting grooves 505 are arranged in the vertical direction, and part of the limiting rod 506 should extend into the limiting grooves 505 to form an effective limiting fit.

The sixth embodiment of the present invention proposes an anti-seismic support for basement integrated pipeline wiring construction, and on the basis of any of the above embodiments, the installation assembly 6 includes: a positioning groove 601 formed in the base 2; positioning A rod 602 is disposed on the top seat 1 and penetrates through the positioning groove 601 ; a second buffer spring 603 is sleeved on the positioning rod 602 and connects the top seat 1 and the base 2 .

In this embodiment, the mounting assembly 6 includes a positioning groove 601 , a positioning rod 602 and a second buffer spring 603 . The positioning groove 601 and the positioning rod 602 cooperate with each other to realize the connection between the top seat 1 and the base 2 . The overall structure is simple and easy to disassemble. The second buffer spring 603 can assist the anti-vibration assembly 5 to further improve the anti-vibration performance of the bracket.

The seventh embodiment of the present invention provides an anti-seismic support for basement integrated pipeline wiring construction, and on the basis of any of the above-mentioned embodiments, it further includes: a threaded rod 604, which is arranged on the positioning rod 602; an installation nut 605, It is screwed to the threaded rod 604 .

In this embodiment, a threaded rod 604 and a mounting nut 605 are also included. Fastening between the top seat 1 and the base 2 can be achieved by rotating the mounting nut 605 mounted on the threaded rod 604 . The fastening process is simple and convenient, and the installation effect is improved.

The eighth embodiment of the present invention provides an anti-seismic support for basement integrated pipeline wiring construction, and on the basis of any of the above-mentioned embodiments, it further includes: an installation block 4 arranged on the top seat 1 .

In this embodiment, a mounting block 4 is also included. The mounting block 4 is used to ensure the connection between the bracket and the fixed surface, and the connection method is not specifically limited, and can be various connection methods such as bolt connection and clip connection.

The ninth embodiment of the present invention provides an anti-seismic support for basement integrated pipeline wiring construction, and on the basis of any of the above-mentioned embodiments, the mounting block 4 is formed with mounting holes.

In this embodiment, the mounting block 4 is formed with mounting holes. The bolt connection between the bracket and the fixing surface is realized by passing the bolt through the installation hole, and the connection method is simple and the connection force is strong.

The tenth embodiment of the present invention proposes a construction process of an anti-seismic support for basement integrated pipeline wiring construction, and on the basis of any of the above embodiments, the basement integrated pipeline wiring construction described in any of the above embodiments is applied Use the anti-vibration support, including the following steps:

Assemble the top seat and base;

Tighten the top seat and the base by rotating the mounting nut installed on the threaded rod;

Install the anti-seismic support for basement integrated pipeline wiring construction on the fixed surface through the mounting holes on the mounting block.

In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or instance. Furthermore, the particular features, structures, materials or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention shall be included within the protection scope of the present invention.

Claims (10)

1. an anti-seismic support for basement integrated pipeline wiring construction, is characterized in that, comprises: top seat; The base is connected with the top base through the mounting assembly; Wherein, the top seat and the base are formed with an arc-shaped fixing groove, a wire routing member is formed in the arc-shaped fixing groove, and the wire routing member is connected with the top seat and the base through an anti-vibration assembly. 2. The anti-seismic support for basement integrated pipeline wiring construction according to claim 1, wherein the anti-seismic component comprises: a connecting part, connecting the wiring member and the top seat; The anti-vibration part connects the wiring member and the base. 3. The anti-seismic support for basement integrated pipeline wiring construction according to claim 2, wherein the connecting part comprises: a connecting block, one end of which is connected to the arc-shaped fixing groove of the top seat; The first arc-shaped block is connected to the other end of the connection block and connected to the wiring member. 4. The anti-seismic support for basement integrated pipeline wiring construction according to claim 3, wherein the anti-seismic part comprises: a first buffer spring, one end of which is connected to the arc-shaped fixing groove of the base; The second arc-shaped block is connected to the other end of the first buffer spring and connected to the wiring member. 5. The anti-seismic support for basement integrated pipeline wiring construction according to claim 4, characterized in that, further comprising: a limit groove, which is formed in the arc-shaped fixing groove of the base; One end of the limit rod is connected to the second arc-shaped block, and the other end extends to the limit slot. 6. The anti-seismic support for basement integrated pipeline wiring construction according to any one of claims 1 to 5, wherein the installation assembly comprises: a positioning groove, formed on the base; a positioning rod, which is arranged on the top seat and penetrates through the positioning groove; The second buffer spring is sleeved on the positioning rod and connected to the top seat and the base. 7. The anti-seismic support for basement integrated pipeline wiring construction according to any one of claims 1 to 5, characterized in that, further comprising: a threaded rod, arranged on the positioning rod; The installation nut is screwed to the threaded rod. 8. The anti-seismic support for basement integrated pipeline wiring construction according to any one of claims 1 to 5, characterized in that, further comprising: The installation block is arranged on the top seat. 9 . The anti-seismic support for basement integrated pipeline wiring construction according to claim 8 , wherein the mounting block is formed with mounting holes. 10 . 10. A construction technique of an anti-seismic support for basement integrated pipeline wiring construction, applying the anti-seismic support for basement integrated pipeline wiring construction as claimed in claim 9, characterized in that, comprising the steps: Assemble the top seat and base; Tighten the top seat and the base by rotating the mounting nut installed on the threaded rod; Install the anti-seismic support for basement integrated pipeline wiring construction on the fixed surface through the mounting holes on the mounting block.

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