CN220416440U - Connection structure of heating power pipeline and pipeline support - Google Patents

Abstract

The utility model discloses a connection structure of a heating pipeline and a pipeline bracket, which comprises the following components: heating power pipeline and pipeline support, heating power pipeline pass through coupling assembling axial slidable mounting on the pipeline support, coupling assembling includes: the bracket is fixedly arranged on the sliding support, the bracket and the outer edge of the heating pipeline are fixedly arranged together, and the sliding support is slidably arranged on the pipeline bracket. In the technical scheme, the connecting component is slidably arranged in the axial direction of the pipeline support, and absorbs and counteracts the tensile force of the pipeline support caused by thermal expansion and contraction of the heating pipeline, so that the influence of the tensile force on the pipeline support is reduced. The problem that the thermal pipeline and the pipeline support are damaged due to expansion and contraction of the thermal pipeline in the related art is solved, and the purposes of maintaining the stability and safety of the pipeline equipment are finally achieved.

Description

Connection structure of heating power pipeline and pipeline support

Technical Field

The utility model relates to the technical field of pipeline installation and connection, in particular to a connection structure of a heating pipeline and a pipeline bracket.

Background

In the use process of thermal pipelines such as factory production workshops and heating, the thermal pipelines have a trend of moving along the axial direction of the pipelines due to the fact that the temperature of fluid conveyed in the pipelines is high and expansion caused by heat and contraction caused by cold frequently occur. The heating power pipeline and the pipeline support are usually fixedly connected in a welded mode, so that the pipeline support and the heating power pipeline can be damaged to a certain extent in the long term, stability and use of equipment are not facilitated, and certain potential safety hazards are caused.

Therefore, a technical scheme is needed to be designed, so that the thermal pipeline can overcome the influence of expansion caused by heat and contraction caused by cold, and the thermal pipeline cannot damage the thermal pipeline and the pipeline bracket due to axial expansion caused by the thermal pipeline, thereby prolonging the service lives of the thermal pipeline and the pipeline bracket and avoiding the occurrence of safety accidents.

Disclosure of Invention

The utility model provides a connecting structure of a heating pipeline and a pipeline bracket, which aims to solve the problems in the prior art.

In order to achieve the above object, the present utility model provides a connection structure of a thermal pipeline and a pipeline bracket, including: heating power pipeline and pipeline support, heating power pipeline pass through coupling assembling axial slidable mounting on the pipeline support, coupling assembling includes: the bracket and the sliding support are fixedly arranged on the sliding support, the bracket and the outer edge of the heating pipeline are fixedly arranged together, and the sliding support is slidably arranged on the pipeline support.

Further, the sliding support comprises a support bottom plate and side plates, the side plates are symmetrically and fixedly arranged at two ends of the support bottom plate respectively, the upper ends of the two side plates support and fixedly mount brackets, and long holes are formed in the support bottom plate.

Further, a bolt is arranged in a long hole formed in the support base plate, and the end part of the bolt is connected with the pipeline bracket.

Further, the pipeline bracket is a portal frame; connecting seats are respectively arranged at two ends of the pipeline bracket; the pipeline bracket is provided with a connecting hole for being connected with a bolt.

Further, the connection hole is a through hole.

Further, the connecting hole is a threaded hole.

Further, the sliding support is connected with the bracket through welding; the bracket is connected with the heating pipeline through welding.

Further, the bracket is an arc-shaped plate structure which is suitable for the heating power pipeline.

Further, at least two groups of heating power pipelines are arranged on each pipeline bracket.

The utility model has the advantages and positive effects that:

1. the connecting structure of the heating power pipeline and the pipeline support is characterized in that the connecting component is arranged between the heating power pipeline and the pipeline support, so that when the heating power pipeline moves axially due to the temperature of fluid flowing in the pipeline, the connecting component can slide relatively with the pipeline support along the axial direction of the heating power pipeline under the pulling of the heating power pipeline, thereby absorbing and counteracting the pulling force of the heating power pipeline caused by expansion caused by heat and contraction caused by cold, avoiding the damage of the heating power pipeline and the pipeline support, ensuring the stability and safety of pipeline equipment, and being simple in structure and easy to operate.

2. This heating power pipeline and pipeline bracket's connection structure, the bracket be with heating power pipeline adaptation's arc structure for heating power pipeline is more convenient when coupling assembling fixed connection, and the connection effect is better.

3. The connecting structure of the heating power pipeline and the pipeline support is characterized in that a long hole is formed in a base plate of the support, and the long hole direction is arranged along the axial direction of the heating power pipeline, so that the heating power pipeline and the connecting assembly can slide relatively with the pipeline support along the axial direction of the pipeline when the heating power pipeline moves axially.

4. The connecting structure of the heating power pipeline and the pipeline support is connected with the pipeline support through the mounting bolt in the long hole, so that the heating power pipeline and the pipeline support are ensured to be in sliding connection, and meanwhile, the connecting structure has the advantages of detachability and simplicity and convenience in installation.

5. The connecting structure of the heating power pipeline and the pipeline support is characterized in that the bracket is connected with the heating power pipeline and the bracket is connected with the sliding support through welding, so that the connecting effect is firm and stable, and the pipeline is safe and reliable to use.

6. According to the connecting structure of the heating power pipeline and the pipeline support, at least two groups of heating power pipelines are arranged on each pipeline support, and two or more groups of heating power pipelines are arranged on each pipeline support, so that materials are saved.

7. The connecting structure of the heating power pipeline and the pipeline bracket has the advantages of simple structure, detachability, firm and stable connection, easy manufacture, simple and convenient installation, safety, reliability and the like.

Drawings

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

FIG. 2 is a schematic view of the structure of the connecting assembly of the present utility model;

FIG. 3 is a top view of FIG. 2;

fig. 4 is a schematic structural view of a pipe bracket according to the present utility model.

Description of the reference numerals

1. A thermodynamic conduit; 2. a bracket; 3. a sliding support; 301. a support base plate; 301a, long holes; 302. a side plate; 4. a bolt; 5. a conduit bracket; 501. a connection hole; 502. a connecting seat; 6. and (3) a nut.

Detailed Description

The following describes the embodiments of the present application in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the disclosure, are not intended to limit the disclosure.

In the technical solutions disclosed in the present application, unless otherwise indicated, terms of orientation such as "up, down, left and right" are generally defined with reference to the direction of the drawing plane of the corresponding drawing. In addition, in the description with reference to the drawings, the same reference numerals in different drawings denote the same elements.

According to the connection structure of the heating power pipeline and the pipeline bracket provided by the utility model, as shown in fig. 1, the connection structure comprises: the heating power pipeline 1 and pipeline support 5, heating power pipeline 1 is through coupling assembling axial slidable mounting on pipeline support 5, and coupling assembling includes: the bracket 2 and the sliding support 3 are fixedly arranged on the sliding support 3, the bracket 2 and the outer edge of the heating pipeline 1 are fixedly arranged together, and the sliding support 3 is slidably arranged on the pipeline bracket 5.

In the technical scheme, the connecting component is arranged between the heating power pipeline 1 and the pipeline bracket 5, so that when the heating power pipeline 1 moves axially due to the temperature of fluid flowing in the pipeline, the connecting component can slide relatively with the pipeline bracket 5 along the axial direction of the heating power pipeline 1 under the pulling of the heating power pipeline 1, thereby absorbing and counteracting the pulling force of the heating power pipeline 1 caused by expansion caused by heat and contraction caused by cold, avoiding the damage to the heating power pipeline 1 and the pipeline bracket 5, ensuring the stability and safety of pipeline equipment, and the structure is simple and easy to operate.

In the present embodiment, as shown in fig. 2 and 3, the slide mount 3 includes a mount base 301 and side plates 302, the side plates 302 are symmetrically fixed to both ends of the mount base 301, upper end portions of the two side plates 302 support the fixing bracket 2, and long holes 301a are formed in the mount base 301. The support base plate 301 is provided with a long hole 301a, the sliding support 3 is slidably mounted with the pipe support 5 through the long hole 301a, and the direction of the long hole 301a is arranged along the axial direction of the thermal power pipe 1, so that when the thermal power pipe 1 moves axially, the thermal power pipe 1 and the connecting assembly can slide relatively with the pipe support 5 along the axial direction of the pipe, namely, the direction of the long hole 301a.

Further, in some embodiments, as shown in fig. 1, 2 and 3, a bolt 4 is mounted in a long hole 301a formed in the support base 301, and an end of the bolt 4 is connected to the pipe bracket 5. The bolts 4 may be detachably screwed to the pipe bracket 5, or may be fixedly connected by welding, for example.

Still further, in some embodiments, as shown in fig. 4, the duct support 5 is a gantry, which is structurally stable and can firmly fix the heat distribution duct 1 to a wall surface or to a wall surface of a roof. Preferably, the pipe bracket 5 is a channel steel portal frame, and the two ends are respectively provided with a connecting seat 502, and the pipe bracket 5 is also provided with a connecting hole 501 for being in threaded connection with the bolt 4. The connecting seat 502 is used for connecting the pipeline bracket 5 with the wall surface; the connection holes 501 are used for the connection of the bolts 4 with the pipe bracket 5, so that the sliding support 3 and the pipe bracket 5 are slidably connected in a detachable or non-detachable manner in the present structure.

In some embodiments, the connection holes 501 are through holes, and in actual installation, as shown in fig. 2 and 3, the bolts 4 need to be equipped with corresponding nuts 6 to achieve a threaded connection of the connection assembly to the pipe support 5, which connection is a detachable connection.

In other embodiments, the connection hole 501 may also be a threaded hole (not shown), in which case the connection hole 501 is self-threaded, as shown in fig. 1, and only needs to be directly mounted with a separate bolt 4 to connect the connection assembly with the pipe bracket 5, and the connection is also a detachable connection.

In the embodiment, the bracket 2 is connected with the heating pipeline 1 through welding; the bracket 2 is connected with the sliding support 3 through welding, and the bracket 2 is connected with the heating power pipeline 1 and the bracket 2 is connected with the sliding support 3 through welding, so that the connection effect is firm and stable, and the pipeline is ensured to be used safely and reliably.

In the present embodiment, as shown in fig. 1 and 2, the bracket 2 has an arcuate plate structure adapted to the heat pipe 1. The bracket 2 is of an arc-shaped plate structure which is suitable for the heating power pipeline 1, so that the heating power pipeline 1 is more convenient to fixedly connect with the connecting component, and the connecting effect is better.

In the present embodiment, as shown in fig. 4, at least two sets of heat pipes 1 are mounted per pipe bracket 5. Two or more sets of heat pipes 1 are installed per pipe support 5, which saves material.

The preferred embodiments of the present application have been described in detail above with reference to the accompanying drawings, but the present application is not limited to the specific details of the above embodiments, and various simple modifications can be made to the technical solution of the present application within the scope of the disclosed technical concept, and all the simple modifications belong to the protection scope of the present application. For example, the number of the heat pipes 1 mounted on each pipe bracket 5 may be changed from two to three.

It should be further noted that the specific features described in the above embodiments may be combined in any suitable manner, such as the connecting hole 501 being a threaded blind hole, without contradiction. In order to avoid unnecessary repetition, the various possible combinations are not described in detail.

Furthermore, any combination of the various embodiments of the present application may be made without departing from the spirit of the present disclosure, which should also be considered as disclosed herein.

Claims (8)

1. A connection structure of a thermostatic pipe and a pipe support, comprising: heating power pipeline (1) and pipeline support (5), its characterized in that: the heating power pipeline (1) is axially and slidably mounted on the pipeline bracket (5) through a connecting assembly, and the connecting assembly comprises: the bracket (2) and the sliding support (3) are fixedly arranged on the sliding support (3), the bracket (2) and the outer edge of the heating pipeline (1) are fixedly arranged together, and the sliding support (3) is slidably arranged on the pipeline bracket (5);

the sliding support (3) comprises a support bottom plate (301) and side plates (302), the side plates (302) are symmetrically and fixedly arranged at two ends of the support bottom plate (301), the upper end parts of the two side plates (302) are fixedly supported by the bracket (2), and long holes (301 a) are formed in the support bottom plate (301).

2. The connection structure of a thermodynamic pipe and a pipe support according to claim 1, wherein: the bolt (4) is arranged in the long hole (301 a) formed in the support base plate (301), and the end part of the bolt (4) is connected with the pipeline bracket (5).

3. The connection structure of a thermostatic pipe and a pipe bracket according to claim 2, wherein: the pipeline bracket (5) is a portal frame; connecting seats (502) are respectively arranged at two ends of the pipeline bracket (5); the pipeline bracket (5) is provided with a connecting hole (501) for connecting with the bolt (4).

4. A connection structure of a thermodynamic pipe and a pipe support according to claim 3, characterized in that: the connecting hole (501) is a through hole.

5. A connection structure of a thermodynamic pipe and a pipe support according to claim 3, characterized in that: the connecting hole (501) is a threaded hole.

6. The connection structure of a thermodynamic pipe and a pipe support according to claim 1, wherein: the sliding support (3) is connected with the bracket (2) through welding; the bracket (2) is connected with the heating pipeline (1) through welding.

7. The connection structure of a thermodynamic pipe and a pipe support according to claim 1, wherein: the bracket (2) is of an arc-shaped plate structure which is matched with the heating power pipeline (1).

8. The connection structure of a thermodynamic pipe and a pipe support according to claim 1, wherein: at least two groups of heating pipelines (1) are arranged on each pipeline bracket (5).