CN211738259U - Pipeline support - Google Patents

Abstract

The utility model provides a pipeline bracket, which comprises an inclined column (201) and a supporting beam (202), wherein the first end of the inclined column (201) is connected with a structural beam (205) of a building, and the second end of the inclined column (201) is connected with a structural column (206) of the building; the support beam (202) is arranged in a space surrounded by the inclined column (201), the structural beam (205) and the structural column (206), the first end of the support beam (202) is connected with the structural column (206), the second end of the support beam (202) is connected with the inclined column (201), and the upward surface of the support beam (202) serves as a bearing surface for bearing a pipeline (212). The utility model discloses can solve the inside various professional pipe arrangement complicacies of industry factory building, lead to the crisscross collision of pipeline trend, problem that occupation space is big.

Description

Pipeline support

Technical Field

The utility model relates to a pipe bracket especially relates to a pipe bracket that is arranged in the industry factory building in fields such as various electronics, chemical industry.

Background

The pipeline bracket is suitable for places with pipeline laying, and in industrial plants in the fields of electronics, chemical engineering and the like, because the equipment is numerous and the matched pipelines are complicated and complicated, the pipelines tend to collide in a staggered manner, and the occupied space is large.

Patent CN109812624A discloses in 2019.05.28 a welding-free pipe bracket fixing device for steel structure column, as shown in fig. 1, mainly include cross arm 1, lower cross arm 2, bracing 3, splint 4, pull rod 5, high-strength bolt 6, wooden support 7, wooden support clamp 8, wherein, steel structure column 9 both sides are connected into a whole by bracing 3 and upper cross arm 1, lower cross arm 2 respectively, the rethread cross arm 1, lower cross arm 2 welds with splint 4 respectively, both sides splint 4 pass through pull rod 5 symmetric connection, constitute the inverted trapezoid support of symmetry, pull rod 5 forms the framework with inverted trapezoid and wraps steel structure column 9. The pipeline bracket occupies a large area and influences the use space in a factory building.

There is therefore a need for a space-saving and easy-to-implement pipe rack.

SUMMERY OF THE UTILITY MODEL

In view of the above prior art's shortcoming, the utility model aims to provide a pipeline bracket for solve the inside various professional pipe arrangements of current industry factory building and to have the complicacy of complicacy, lead to the crisscross collision of pipeline trend, problem that occupation space is big.

To achieve the above and other related objects, an embodiment of the present invention provides a duct support including an oblique column and a supporting beam, wherein a first end of the oblique column is connected to a structural beam of a building, and a second end of the oblique column is connected to a structural column of the building; the supporting beam is arranged in a space defined by the inclined column, the structural beam and the structural column, the first end of the supporting beam is connected with the structural column, the second end of the supporting beam is connected with the inclined column, and the upward surface of the supporting beam serves as a bearing surface for bearing a pipeline. A supporting beam is arranged in a space enclosed by a structural beam, a structural column and an inclined column of a building to bear a pipeline, so that the pipeline arrangement is neat, and the problems of complicated arrangement of various pipelines in an industrial factory building, staggered collision of the pipeline trends and large occupied space are solved. The pipeline bracket is designed by means of the structure of the building, and the bracket is simple in structure, so that the raw materials are saved, the labor cost is reduced, and the manufacturing period is shortened.

Preferably, at least one of the following technical features is also included:

1) the first end of batter post is fixed and is equipped with first anchor slab, first anchor slab with the structure roof beam is connected through first crab-bolt. Adopt crab-bolt, anchor slab to realize being connected of batter post and structure roof beam in this embodiment, joint strength is high, and the wholeness is good, construction convenience.

2) The structure beam is pre-buried with bolts, and the first end of batter post is connected with the structure beam through pre-buried bolts. Adopt buried bolt's connected mode in this embodiment, prefabricate the crab-bolt in structural beam and structural column in advance, can practice thrift support installation time, and joint strength is high.

3) The first end of the batter post is bent and extended to form a connecting part, and the first end of the batter post is connected with the structural beam through a bolt through the connecting part. This embodiment adopts support body structure and is connected with the structure roof beam, and the wholeness is good, and joint strength is high.

Preferably, at least one of the following technical features is also included:

1) and a second anchor plate is fixedly arranged at the second end of the batter post, and the second anchor plate is connected with the structural post through a second anchor bolt. Adopt crab-bolt, anchor slab to realize being connected of batter post and structure post in this embodiment, joint strength is high, and the wholeness is good, construction convenience.

2) The structure post is provided with an embedded bolt, and the second end of the oblique post is connected with the structure post through the embedded bolt. Adopt buried bolt's connected mode in this embodiment, prefabricate the crab-bolt in structural beam and structural column in advance, can practice thrift support installation time, and joint strength is high.

3) The second end of the batter post is bent and extended to form a connecting part, and the second end of the batter post is connected with the structural column through a bolt through the connecting part. This embodiment adopts support body structure and structure post to be connected, and the wholeness is good, and joint strength is high.

Preferably, the support beam is provided with a limiting part for limiting the rolling of the pipeline. Spacing portion is used for restricting the pipeline roll in this embodiment, avoids influencing the arrangement of other pipelines, and the pipeline is concentrated to be placed in the space that structure roof beam, structure post and batter post enclose, arranges conveniently neatly, saves space.

Preferably, at least one of the following technical features is also included:

1) the first end of the supporting beam is fixed with a third anchor plate, and the third anchor plate is connected with the structural column through a third anchor bolt. Adopt crab-bolt, anchor slab to realize being connected of batter post and structure post in this embodiment, joint strength is high, and the wholeness is good, construction convenience.

2) The embedded bolt is arranged on the structural column, and the first end of the supporting beam is connected with the structural column through the embedded bolt. Adopt buried bolt's connected mode in this embodiment, prefabricate the crab-bolt in structural beam and structural column in advance, can practice thrift support installation time, and joint strength is high.

3) The first end of the supporting beam is bent and extended to form a connecting part, and the first end of the supporting beam is connected with the structural column through a bolt through the connecting part. This embodiment adopts support body structure and structure post to be connected, and the wholeness is good, and joint strength is high.

Preferably, at least one of the following technical features is also included:

1) the second end of the support beam is connected with the inclined column in a welding mode; the welding connection is adopted, the cutting and construction can be carried out on site according to actual conditions, the flexibility is high, materials are saved, the construction period is short, and the labor cost is low.

2) The second end of the supporting beam and the inclined column are respectively provided with a through hole, a bolt penetrates through the through hole to be connected with the second end of the supporting beam and the inclined column, and a nut is connected with the bolt through threads to fix the second end of the supporting beam and the inclined column. And the bolt connection is adopted, so that the disassembly, the assembly and the maintenance are convenient.

Preferably, the batter post and the support beam are section steel. The section steel has light weight, metal saving, high hardness and stable structure.

Preferably, the support beam is provided in plurality. The size of the pipeline support and the number of the supporting beams can be adjusted differently according to the size and the number of the pipelines, and the placing number of the pipelines is increased by arranging a plurality of supporting beams.

Preferably, all the support beams are arranged in parallel. The parallel arrangement of the supporting beams can realize the tidy arrangement of the pipelines and has stable structure.

Drawings

Fig. 1 is a schematic structural diagram of a welding-free pipe bracket fixing device for a steel structural column in the prior art.

Fig. 2 is a schematic cross-sectional view of a pipe support according to an embodiment of the present invention.

Fig. 3 is an enlarged view of the connection between the batter post and the structural beam or the structural post in fig. 2.

Fig. 4 is a schematic cross-sectional view of a pipe support according to another embodiment of the present invention.

1 upper cross arm

2 lower cross arm

3 diagonal bracing

4 Splint

5 draw bar

6 high-strength bolt

7 wooden support

8 wooden support clamp

9 steel structure column

10 pipeline

201 inclined column

202 support beam

203 first anchor bolt

204 first anchor plate

205 structural beam

206 structural column

207 second anchor plate

208 second anchor bolt

209 limit part

210 third anchor bolt

211 third anchor plate

212 pipe

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

As shown in fig. 2, the present embodiment provides a pipe bracket, which includes an inclined pillar 201 and a support beam 202, wherein a first end of the inclined pillar 201 is connected to a structural beam 205 of a building, and a second end of the inclined pillar 201 is connected to a structural pillar 206 of the building; the support beam 202 is arranged in a space enclosed by the inclined column 201, the structural beam 205 and the structural column 206, a first end of the support beam 202 is connected with the structural column 206, a second end of the support beam 202 is connected with the inclined column 201, and the upward surface of the support beam 202 serves as a bearing surface for a bearing pipeline 212.

In the embodiment, the support beam 202 is arranged in the space enclosed by the structural beam 205, the structural column 206 and the inclined column 201 of the building to support the pipeline 212, so that the pipeline 212 is arranged neatly, and the problems of complicated arrangement of various pipelines 212 in the industrial factory building, staggered collision of the pipelines 212 and large occupied space are solved. General structure roof beam 205 and structural column 206 are connected perpendicularly, and both can be T shape or cross, and the pipe bracket in this embodiment is located the junction of structural roof beam and structural column, and make full use of building's own structure designs, and the holistic simple structure of pipe bracket to practice thrift the former material, reduce the human cost, shorten manufacturing period.

Specifically, as shown in fig. 3, in this embodiment, a first end of the batter post 201 is fixedly connected to a first anchor plate 204, the batter post 201 and the first anchor plate 204 can be fixed by welding or bolts, and the first anchor plate 204 is connected to the structural beam 205 by a first anchor bolt 203; the second end of the batter post 201 is fixedly connected with a second anchor plate 207, the batter post 201 and the second anchor plate 207 can be fixed by welding or bolts, and the second anchor plate 207 and the structural post 206 are connected by a second anchor bolt 208. In the embodiment, the inclined column 201 is fixedly connected with the structural beam 205 and the structural column 206 by adopting an anchor plate anchor bolt structure, so that the connecting strength is high, the integrity is good, and the construction is convenient; in addition, the use of first and second anchors 203, 208 facilitates disassembly.

The first anchor bolt 203 and the second anchor bolt 208 may be chemical anchor bolts, such as high-strength chemical anchor bolts, inverted conical chemical anchor bolts and shaped chemical anchor bolts, or structural members such as embedded anchor bolts, and the fixing manner between the first anchor plate and the structural beam 205, and between the second anchor plate 207 and the structural column 206 is not limited to the anchor bolt structure, and may be other fixable connecting manners.

The fixing method of the batter post 201 to the structural beam 205 and the structural post 206 is not limited to this, and both ends of the batter post 201 may be bent and extended to form a connecting portion, and the connecting portion may be fixed to the structural beam 205 and the structural post 206.

In this embodiment, a third anchor plate 211 is fixedly disposed at the first end of the supporting beam 202, specifically, the third anchor plate 211 and the supporting beam 202 can be fixed by welding or bolts, and the third anchor plate 211 is connected to the structural column 206 by a third anchor bolt 210; in this embodiment, the second end of the support beam 202 is fixedly connected to the inclined column 201 by welding or bolts and nuts. The support beam 202 is connected with the structural column 206 through an anchor bolt plate structure, so that the construction is easy, and the overall connection strength is high. Above-mentioned third crab-bolt 210 can be the chemical crab-bolt, also can be the structure spare such as embedded anchor, prefabricates the crab-bolt in structural beam 205 and structural column 206 in advance, can practice thrift the support installation time, and joint strength is high. The fastening between the third anchor plate 211 and the structural column 206 is not limited to an anchor bolt, but may be other fastening means.

The fixing method of the support beam 202 and the structural column 206 is not limited to this, and the end of the support beam 202 may be bent and extended to form a bent portion, and the end may be fixed to the structural column 206 by the bent portion.

In the embodiment, the inclined column 201 and the support beam 202 are made of section steel, and the stability of the pipeline support can be improved by utilizing the high strength of the section steel; in addition, the section steel has light weight and is convenient to implement. The structural steel is adopted, so that the supporting beam 202 and the inclined column 201 can be fixed conveniently, and the supporting beam 202 and the inclined column can be directly welded or fixed through bolts and nuts.

To facilitate the placement of more pipes 212, a plurality of support beams 202 may be disposed in the space enclosed by the batter post 201, the structural beams 205 and the structural post 206 in this embodiment. The size of the pipeline support and the number of the support beams 202 can be adjusted differently according to the size and the number of the pipelines 212, the number of the pipelines 212 can be increased by arranging a plurality of support beams 202, all the support beams 202 are arranged in parallel, the pipelines 212 can be arranged neatly, and the structure is stable.

As shown in fig. 2 and 4, in the present embodiment, the supporting beam 202 has a limiting portion 209 for limiting the rolling of the pipeline 212, the limiting portion 209 may be a clip, a buckle, a U-shaped groove, or other structures, and is used to place the pipeline 212, and the pipelines 212 are placed in the pipeline bracket in a centralized manner, so that the arrangement is convenient and neat, and the space is saved.

The support beam 202 may also be welded with a plurality of baffles, and the pipes 212 may be disposed between adjacent baffles, which serve as the limiting portions 209 to prevent the pipes 212 from rolling.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (9)

1. A pipe support, characterized by comprising a batter post (201) and a support beam (202), wherein a first end of the batter post (201) is connected with a structural beam (205) of a building, and a second end of the batter post (201) is connected with a structural post (206) of the building; the supporting beam (202) is arranged in a space enclosed by the inclined column (201), the structural beam (205) and the structural column (206), a first end of the supporting beam (202) is connected with the structural column (206), a second end of the supporting beam (202) is connected with the inclined column (201), and the upward surface of the supporting beam (202) serves as a bearing surface for bearing a pipeline (212).

2. A pipeline bracket according to claim 1, wherein: at least one of the following technical features is also included:

1) a first anchor plate (204) is fixedly arranged at the first end of the batter post (201), and the first anchor plate (204) is connected with the structural beam (205) through a first anchor bolt (203);

2) bolts are embedded in the structural beam (205), and the first end of the oblique column (201) is connected with the structural beam (205) through the embedded bolts;

3) the first end of the batter post (201) bends and extends to form a connecting part, and the first end of the batter post (201) is connected with the structural beam (205) through a bolt through the connecting part.

3. A pipeline bracket according to claim 1, wherein: at least one of the following technical features is also included:

1) a second anchor plate (207) is fixedly arranged at the second end of the oblique column (201), and the second anchor plate (207) is connected with the structural column (206) through a second anchor bolt (208);

2) bolts are embedded in the structural column (206), and the second end of the inclined column (201) is connected with the structural column (206) through the embedded bolts;

3) the second end of the batter post (201) is bent and extended to form a connecting part, and the second end of the batter post (201) is connected with the structural post (206) through a bolt through the connecting part.

4. A pipeline bracket according to claim 1, wherein: the bearing surface of the support beam (202) is provided with a limiting part (209) for limiting the rolling of the pipeline (212).

5. A pipeline bracket according to claim 1, wherein: at least one of the following technical features is also included:

1) the first end of the support beam (202) is fixed with a third anchor plate (211), and the third anchor plate (211) is connected with the structural column (206) through a third anchor bolt (210);

2) bolts are embedded in the structural columns (206), and the first ends of the support beams (202) are connected with the structural columns (206) through the embedded bolts;

3) the first end of the support beam (202) is bent and extended to form a connecting part, and the first end of the support beam (202) is connected with the structural column (206) through a bolt through the connecting part.

6. The conduit bracket of claim 1, wherein: at least one of the following technical features is also included:

1) the second end of the support beam (202) is connected with the inclined column (201) in a welding mode;

2) the second end of the supporting beam (202) and the inclined column (201) are respectively provided with a through hole, a bolt penetrates through the through hole to be connected with the second end of the supporting beam (202) and the inclined column (201), and a nut is connected with the bolt through threads to fix the second end of the supporting beam (202) and the inclined column (201).

7. A pipeline bracket according to claim 1, wherein: the inclined column (201) and the support beam (202) are made of profile steel.

8. A pipeline bracket according to claim 1, wherein: the support beam (202) is provided with a plurality of beams.

9. A pipeline bracket according to claim 8, wherein: all the support beams (202) are arranged in parallel.

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