CN219035796U - Multitube door-type lateral anti-seismic support and hanger - Google Patents

Abstract

The utility model discloses a multi-pipe door type lateral anti-seismic support and hanger, which relates to the field of pipeline installation and comprises a first cross beam and a second cross beam, wherein the first cross beam and the second cross beam are connected through two connecting structures, anti-seismic structural members are respectively connected to two sides of the top surface of the first cross beam, the two anti-seismic structural members are respectively connected with a wall surface and are used for supporting and lifting the first cross beam, and a reinforcing structure for wall surface connection is arranged between the two anti-seismic structural members; the anti-seismic structural member comprises channel steel respectively, wherein two ends of the channel steel are respectively hinged with anti-seismic connecting seats, one end of the channel steel is hinged with one end of the first cross beam through a bolt, and the other end of the channel steel is hinged with the wall surface through an expansion bolt.

Description

Multitube door-type lateral anti-seismic support and hanger

Technical Field

The utility model relates to the field of pipeline installation, in particular to a multi-pipe door type lateral anti-seismic support and hanger.

Background

In the existing pipeline installation support, the pipeline system is directly fixed at the design position through the support, so that the influence of factors such as earthquake on the pipeline is not considered, earthquake force can be applied to the pipeline systems in the earthquake occurrence process, the earthquake force can act on the pipeline systems along the horizontal direction, and then the pipeline is damaged in a moving way. Therefore, in order to reduce the influence of earthquake acting force on the pipeline system, further protect the pipeline system and increase the service life of the pipeline system, an anti-seismic support and hanger for protecting the pipeline system to a certain extent is designed.

Disclosure of Invention

The utility model aims to provide a multi-pipe door type lateral anti-seismic support and hanger which can play a role in shock absorption and protection on a pipeline system when an external earthquake occurs, so that the service life of the pipeline system is prolonged, the maintenance frequency is reduced, and the cost is saved; meanwhile, the hanger system is simple in design structure, low in manufacturing cost, and economical and practical.

The aim of the utility model is realized by the following technical scheme:

the multi-pipe door type lateral anti-seismic support and hanger comprises a first cross beam and a second cross beam, wherein the first cross beam and the second cross beam are connected through two connecting structures, anti-seismic structural members are respectively connected to two sides of the top surface of the first cross beam, the two anti-seismic structural members are respectively connected with a wall surface and used for supporting and lifting the first cross beam, and a reinforcing structure for wall surface connection is arranged between the two anti-seismic structural members;

the anti-seismic structural member comprises channel steel respectively, wherein anti-seismic connecting seats are hinged to two ends of the channel steel respectively, the anti-seismic connecting seats hinged to one end of the channel steel are connected with one end of the first cross beam through bolts, and the anti-seismic connecting seats hinged to the other end of the channel steel are connected with a wall surface through expansion bolts.

Preferably, the reinforcement structure comprises a reinforcement rod, one end of the reinforcement rod is connected with the first cross beam through a bolt, and the other end of the reinforcement rod is connected with the wall surface through an expansion bolt.

Preferably, the two connection structures are symmetrically arranged between the first beam and the second beam respectively, the two connection structures comprise connection screws and fixing seats, the fixing seats are connected with one side, far away from the channel steel, of one end of the first beam through bolts, one end of each connection screw is connected with the fixing seat, and the other end of each connection screw is connected with the second beam.

Preferably, two support rods are respectively arranged between the two connecting screws, the two support rods are symmetrically arranged between the first cross beam and the second cross beam, one ends of the two support rods respectively movably penetrate through the first cross beam and the end heads are in threaded connection with the second cross beam.

Preferably, a clamping plate is movably arranged between the connecting screws, close to the same side, of the supporting rod, and the clamping plate is movably connected with the supporting rod and the connecting screws through nuts respectively.

Preferably, a limiting plate is arranged between the two supporting rods, and the limiting plate is movably connected with the two supporting rods through bolts respectively.

Preferably, one end of the second beam, which is far away from the first beam, is respectively connected with a plurality of pipeline hoops for connecting pipelines through bolts.

The beneficial effects of the utility model are as follows: the support hanger is used for hoisting and fixing a pipeline system, and can be used for carrying out shock absorption protection on the pipeline system which is hoisted and fixed when an earthquake occurs, so that the maintenance frequency is reduced, and the cost is saved. The support and hanger comprises a first beam and a second beam in specific design, wherein the first beam and the second beam are connected through two connecting structures, the first beam and the second beam are connected through the two connecting structures, and meanwhile, the connecting structures are of a door-shaped structure and can also be used for hoisting and limiting a pipeline system; simultaneously, the two sides of the top surface of the first cross beam are respectively connected with anti-seismic structural members, and the two anti-seismic structural members are respectively used for being connected with a wall surface and used for supporting and lifting the first cross beam; and a reinforcing structure for wall surface connection is arranged between the two anti-seismic structural members, the first cross beam and the wall surface are connected in a reinforcing way through the reinforcing structure, and the reinforcing structure is used for stably supporting the first cross beam and the second cross beam to hoist and fix pipelines; in the design, the anti-seismic structure of design includes the channel-section steel respectively, and the both ends of channel-section steel are articulated respectively to have anti-seismic connecting seat, and bolted connection is passed through to the one end of the articulated anti-seismic connecting seat of channel-section steel one end first crossbeam, and the articulated anti-seismic connecting seat of channel-section steel other end passes through expansion bolts and is connected with the wall, and the channel-section steel passes through the anti-seismic connecting seat at both ends and is connected first crossbeam and wall to keep certain movable connection, can play certain shock attenuation protection's effect when the earthquake takes place, and then protect the pipe-line system on this gallows. Through the support and hanger, the shock absorption protection effect on the pipeline system can be achieved when an external earthquake occurs, the service life of the pipeline system is prolonged, the maintenance frequency is reduced, and the cost is saved; meanwhile, the hanger system is simple in design structure, low in manufacturing cost, and economical and practical.

Drawings

FIG. 1 is a schematic structural view of a multi-tube portal lateral anti-seismic support hanger of the utility model;

FIG. 2 is an exploded schematic view of a structural part of a multi-tube portal lateral anti-seismic support hanger of the utility model;

FIG. 3 is a schematic view of a connection structure of a first cross beam and a second cross beam of a multi-tube portal lateral anti-seismic support and hanger;

fig. 4 is a schematic diagram of a channel steel connection structure of a multi-pipe door type lateral anti-seismic support and hanger;

in the figure, 1-first crossbeam, 2-second crossbeam, 3-channel steel, 4-reinforcing rod, 5-connecting screw, 6-fixing base, 7-bracing piece, 8-splint, 9-limiting plate, 10-pipeline hoop, 31-antidetonation connecting seat.

Detailed Description

For the purpose of making the technical solution and advantages of the present utility model more apparent, the present utility model will be described in further detail with reference to the accompanying drawings and examples. It should be understood that the particular embodiments described herein are illustrative only and are not intended to limit the utility model, i.e., the embodiments described are merely some, but not all, of the embodiments of the utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present utility model. It is noted that relational terms such as "first" and "second", and the like, are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

As shown in fig. 1 to 4, a multi-pipe portal lateral anti-seismic support and hanger comprises a first cross beam 1 and a second cross beam 2, wherein the first cross beam 1 and the second cross beam 2 are connected through two connecting structures, anti-seismic structural members are respectively connected to two sides of the top surface of the first cross beam 1 and are respectively connected with a wall surface and used for supporting and lifting the first cross beam 1, and a reinforcing structure for wall surface connection is arranged between the two anti-seismic structural members; the anti-seismic structure comprises channel steel 3 respectively, anti-seismic connecting seats 31 are hinged at two ends of the channel steel 3 respectively, the anti-seismic connecting seats 31 hinged at one end of the channel steel 3 are connected with one end of the first cross beam 1 through bolts, and the anti-seismic connecting seats 31 hinged at the other end of the channel steel 3 are connected with a wall surface through expansion bolts. The support hanger is used for hoisting and fixing a pipeline system, and can be used for carrying out shock absorption protection on the pipeline system which is hoisted and fixed when an earthquake occurs, so that the maintenance frequency is reduced, and the cost is saved. The support and hanger comprises a first beam 1 and a second beam 2 in specific design, wherein the first beam 1 and the second beam 2 are connected through two connecting structures, the first beam 1 and the second beam 2 are connected through the two connecting structures, and meanwhile, the connecting structures are of a door-shaped structure and can also carry out hoisting limiting on a pipeline system; simultaneously, the two sides of the top surface of the first cross beam 1 are respectively connected with anti-seismic structural members, and the two anti-seismic structural members are respectively used for being connected with a wall surface and used for supporting and lifting the first cross beam 1; a reinforcing structure for wall surface connection is arranged between the two anti-seismic structural members, the first cross beam 1 is in reinforcing connection with the wall surface through the reinforcing structure, and the reinforcing structure is used for stably supporting the first cross beam 1 and the pipelines for hoisting and fixing the first cross beam 1 and the second cross beam 2; in the design, the anti-seismic structure of design includes channel-section steel 3 respectively, the both ends of channel-section steel 3 are articulated respectively to have anti-seismic connecting seat 31, the articulated anti-seismic connecting seat 31 of channel-section steel 3 one end passes through bolted connection with the one end of first crossbeam 1, the articulated anti-seismic articulated seat 31 of channel-section steel 3 other end passes through expansion bolts and is connected with the wall, channel-section steel 3 is connected first crossbeam 1 and wall through the anti-seismic connecting seat 31 at both ends to keep certain movable connection, can play certain shock attenuation protection's effect when the earthquake takes place, and then protect the pipe-line system on this gallows.

Further, when the pipeline system is hoisted and fixed, the support and the hanger are firstly installed at the designated position. In order to facilitate the installation and fixation with a wall surface or a floor, the support and hanger is provided with a first beam 1 and a second beam 2, the first beam 1 and the second beam 2 are connected through two connecting structures, the two sides of the top surface of the first beam 1 are respectively connected with anti-seismic structural members, the two anti-seismic structural members are respectively connected with the wall surface and used for supporting and lifting the first beam 1, and a reinforcing structure for wall surface connection is arranged between the two anti-seismic structural members; the anti-seismic structural part comprises a channel steel 3, wherein anti-seismic connecting seats 31 are respectively hinged at two ends of the channel steel 3, the anti-seismic connecting seat 31 hinged at one end of the channel steel 3 is connected with one end of the first cross beam 1 through bolts, and the anti-seismic connecting seat 31 hinged at the other end of the channel steel 3 is connected with a wall surface through expansion bolts; the reinforced structure that sets up includes the bar 4 that adds, and the one end of bar 4 is connected with first crossbeam 1 through the bolt, and the other end of bar 4 passes through expansion bolts and is connected with the wall. The channel steel 3 that 1 top surface both ends of first crossbeam are connected through antidetonation connecting seat 31 respectively and are connected with 1 crossbeam, and the other end of 1 top surface both ends articulated channel steel 3 respectively is also connected through antidetonation connecting seat 31 respectively, pass through expansion bolts with wall or building ground simultaneously and be connected between its two channel steels 3 and 1 crossbeam, and then can reduce the earthquake effort when the earthquake takes place, protect the piping system of installing on 1 crossbeam and the 2 crossbeam of second. In order to increase the connection reliability, firmness and safety between the support and the wall surface or the floor surface, the first cross beam 1 is reinforced and connected with the wall surface or the floor surface through the reinforcement rod 4. In the implementation process, at least two reinforcement bars 4 can be arranged, and the reinforcement bars are close to one channel steel 3 on the same side, so that firm and safe connection is ensured.

Further, after the hanger is installed and fixed, the pipe systems each requiring the hanging and fixing are then placed on the hanger. In order to realize the fixed placement of the pipeline system of the support and hanger, the first beam 1 and the second beam 2 of the support and hanger are connected by two connecting structures; the two connecting structures are symmetrically arranged between the first beam 1 and the second beam 2 respectively, each connecting structure comprises a connecting screw 5 and a fixed seat 6, the fixed seat 6 is connected with one side of one end, far away from the channel steel 3, of the first beam 1 through bolts, one end of the connecting screw 5 is connected with the fixed seat 6, and the other end of the connecting screw 5 is connected with the second beam 2; two supporting rods 7 are respectively arranged between the two connecting screws 5, the two supporting rods 7 are symmetrically arranged between the first beam 1 and the second beam 2, one ends of the two supporting rods 7 respectively movably penetrate through the first beam 1, and the ends of the two supporting rods are in threaded connection with the second beam 2; a clamping plate 8 is movably arranged between the connecting screw rods 5 of the supporting rods 7 close to the same side, and the clamping plate 8 is movably connected with the supporting rods 7 and the connecting screw rods 5 through nuts respectively; a limiting plate 9 is arranged between the two support rods 7, and the limiting plate 9 is respectively and movably connected with the two support rods 7 through bolts; and a plurality of pipe hoops 10 for connecting pipes are connected to the ends of the second cross members 2, which are far from the first cross members 1, respectively, by bolts. The pipeline system respectively passes through the connecting screw rod 5 of the connecting structure and the supporting rod 7 close to the connecting screw rod 5 at the same side, and nuts used for adjusting the limiting plate 9 on the connecting screw rod 5 and the supporting rod 7 are then adjusted, so that the clamping plate 8 of the pipeline system limits the pipeline system passing through the connecting screw rod 5 and the supporting rod 7 at the same side, and loose displacement is avoided; here, the two connection structures are connected to the first beam 1 and the second beam 2 to form a "door" structure, and the hoisting pipe can be fixed. In the implementation process, as the number of the pipeline systems is more than two, the pipeline of the pipeline system can also pass through the space between the two support rods 7, and then the nuts on the two support rods 7 for adjusting the limiting plates 9 are used for limiting the pipeline passing through the space between the two support rods 7 by the limiting plates 9; and the pipeline can also pass through the pipeline hoop 10 on the bottom end surface of the second cross beam 2, and the pipeline is connected with the support hanger in a hoisting way through the pipeline hoop 10. The support and hanger can hoist and fix a plurality of different pipeline systems simultaneously, can save hoisting and fixing materials and save cost. In terms of the integral design of the support and hanger, the support and hanger can play a role in shock absorption and protection of the pipeline system when an external earthquake occurs, so that the service life of the pipeline system is prolonged, the maintenance frequency is reduced, and the cost is saved; meanwhile, the hanger system is simple in design structure, low in manufacturing cost, and economical and practical.

The preferred embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the specific details of the embodiments in the above description, and various simple modifications can be made to the technical solutions of the present utility model within the scope of the technical concept of the present utility model, and all the simple modifications belong to the protection scope of the present utility model. In addition, the specific features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various possible combinations are not described further. Furthermore, the foregoing description of the preferred embodiment of the utility model is provided for the purpose of limiting the utility model, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model, and at the same time, any combination between the various embodiments of the present utility model should be considered as the disclosure of the present utility model as long as it does not deviate from the idea of the present utility model.

Claims (7)

1. The multi-pipe door type lateral anti-seismic support and hanger is characterized by comprising a first cross beam (1) and a second cross beam (2), wherein the first cross beam (1) and the second cross beam (2) are connected through two connecting structures, anti-seismic structural members are respectively connected to two sides of the top surface of the first cross beam (1), the two anti-seismic structural members are respectively used for being connected with a wall surface and used for supporting and lifting the first cross beam (1), and a reinforcing structure for wall surface connection is arranged between the two anti-seismic structural members;

the anti-seismic structural member comprises channel steel (3) respectively, anti-seismic connecting seats (31) are hinged at two ends of the channel steel (3) respectively, the anti-seismic connecting seats (31) hinged at one end of the channel steel (3) are connected with one end of the first cross beam (1) through bolts, and the anti-seismic connecting seats (31) hinged at the other end of the channel steel (3) are connected with a wall surface through expansion bolts.

2. A multi-pipe portal side anti-seismic support and hanger according to claim 1, wherein the reinforcement structure comprises a reinforcement bar (4), one end of the reinforcement bar (4) is connected with the first cross beam (1) through a bolt, and the other end of the reinforcement bar (4) is connected with a wall surface through an expansion bolt.

3. The multi-pipe door type lateral anti-seismic support and hanger according to claim 1, wherein two connecting structures are symmetrically arranged between a first beam (1) and a second beam (2), each connecting structure comprises a connecting screw (5) and a fixing base (6), the fixing base (6) is connected with one side, far away from one end of the channel steel (3), of the first beam (1) through bolts, one end of the connecting screw (5) is connected with the fixing base (6), and the other end of the connecting screw (5) is connected with the second beam (2).

4. A multi-pipe portal-type lateral anti-seismic support and hanger according to claim 3, characterized in that two supporting rods (7) are respectively arranged between the two connecting screws (5), the two supporting rods (7) are symmetrically arranged between the first cross beam (1) and the second cross beam (2), one ends of the two supporting rods (7) respectively movably penetrate through the first cross beam (1) and the end heads are in threaded connection with the second cross beam (2).

5. The multi-pipe door type lateral anti-seismic support and hanger according to claim 4, wherein a clamping plate (8) is movably arranged between the connecting screws (5) of the supporting rods (7) close to the same side, and the clamping plate (8) is movably connected with the supporting rods (7) and the connecting screws (5) through nuts respectively.

6. The multi-pipe door type lateral anti-seismic support hanger according to claim 4, wherein a limiting plate (9) is arranged between the two support rods (7), and the limiting plate (9) is movably connected with the two support rods (7) through bolts respectively.

7. A multi-pipe portal side anti-seismic support and hanger according to claim 1, characterized in that the ends of the second cross beam (2) remote from the first cross beam (1) are respectively connected with a plurality of pipe hoops (10) for connecting pipes by bolts.

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