CN213390229U - A hang in midair piping lane for laying pipeline in room - Google Patents

Abstract

The utility model relates to the technical field of supporting pipes, cables or protective pipes, in particular to a suspension pipe gallery for laying pipes indoors, which is used for suspending pipes under a ceiling with a roof beam; the roof beam comprises a plurality of hanging beams which are horizontally arranged in parallel, and the hanging beams are hung below the roof beam through hanging columns; auxiliary beams are arranged between every two adjacent hanging beams at intervals along the length direction of the hanging beams, and two ends of each auxiliary beam are fixedly connected with the hanging beams; the pipeline bracket parallel to the auxiliary beam is anchored on the upper surface of the hanging beam. The utility model discloses in, hang the hanging beam and the auxiliary girder that are ladder form and arrange through hanging the post under the roof beam, then lay the pipeline on the auxiliary girder, directly transmit the weight of pipeline for the roof beam, compare in on the ceiling with expansion bolts fixed pipeline gallows, perhaps fixed pipeline gallows on the purlin, the intensity restriction that receives very reduces, can lay various large size pipelines without restriction, like cooling water pipeline.

Description

A hang in midair piping lane for laying pipeline in room

Technical Field

The utility model relates to a pipe, cable or pillar's support technical field, especially relate to a pipe gallery suspends in midair for laying the pipeline in indoor.

Background

Centrally located piping is common knowledge in today's various fields of piping. The idea is embodied whether the underground comprehensive pipe gallery specially built in municipal construction, the pipeline layer specially reserved in the residential area building process or the pipe gallery specially built in the chemical plant building process.

There are many reasons for selecting the concentrated arrangement of the pipelines in the construction. In addition to pursuing convenience in management and maintenance. Most of which are safety aspects. Some pipelines carry high-temperature or corrosive fluids, and some pipelines carry fluids with unpleasant odor, and the field personnel need to be isolated from the vicinity of the pipelines so as to prevent the pipelines from being damaged by collision in the working process and causing leakage or prevent the field personnel from being damaged by inevitable trace leakage.

Such outdoor scene like chemical plant, the land used is relatively free, builds the piping lane and does not basically receive the building constraint. The centralized arrangement of the pipes in the room is more limited. When a building is constructed and changed, pipelines such as water, electricity and heating in a residential area need to be moved up and down to the building body.

However, the number of water, electricity and heating pipelines in the residential area is small, and the pipelines are easy to change. The laying of pipes in plants which must be built indoors due to the need for a stable external environment is a problem. The common pipeline laying method includes building an iron stand against a wall to lay a pipeline and hanging the pipeline under a ceiling by a pipeline hanger. When hanging the pipeline with the pipeline gallows under the ceiling, the pipeline gallows is perhaps fixed in the concrete of ceiling with expansion bolts, or welds under the purlin, but is limited by intensity, can only hang some pipeline that the diameter is thinner like this.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pipe gallery suspends in midair for laying the pipeline in indoor.

The technical problem to be solved is that: when the pipeline is hung by the pipeline hanging bracket under the ceiling, the strength of the ceiling is limited, and only a few thin pipelines can be hung.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a suspension pipe gallery for laying pipes indoors is used for suspending pipes under a ceiling with roof beams; the roof beam comprises a plurality of hanging beams which are horizontally arranged in parallel, wherein the hanging beams are hung under the roof beam through hanging columns; auxiliary beams are arranged between every two adjacent hanging beams at intervals along the length direction of the hanging beams, and two ends of each auxiliary beam are fixedly connected with the hanging beams;

and the pipeline bracket parallel to the auxiliary beam is anchored on the upper surface of the hanging beam.

Further, the lower surface of the hanging beam is anchored with a pipeline hanging bracket parallel to the auxiliary beam.

Furthermore, the hanging beam, the hanging column and the auxiliary beam are all I-shaped steel.

Furthermore, the upper ends of the suspension posts are fixedly connected with the roof girder through a connecting plate, and the lower ends of the suspension posts are fixedly connected with the suspension girder through an end plate with a ribbed plate; and the auxiliary beam is fixedly connected with the hanging beam through a connecting plate.

Further, the hanging beam is grounded through a lead.

Further, the pipeline bracket and the pipeline hanger are also provided with pipe clamps for preventing the pipeline from shaking.

Furthermore, purlins are arranged between the auxiliary beams.

The utility model relates to a pipe gallery suspends in midair for laying pipeline indoor compares with prior art, has following beneficial effect:

the utility model discloses in, hang the hanging beam and the auxiliary girder that are ladder form and arrange through hanging the post under the roof beam, then lay the pipeline on the auxiliary girder, directly transmit the weight of pipeline for the roof beam, compare in on the ceiling with expansion bolts fixed pipeline gallows, perhaps fixed pipeline gallows on the purlin, the intensity restriction that receives very reduces, can lay various large size pipelines without restriction, like cooling water pipeline.

Drawings

Fig. 1 is a schematic structural view of a suspension pipe gallery for laying pipes indoors according to the present invention;

FIG. 2 is a schematic view of a connection structure of a suspension post and a suspension beam;

fig. 3 is a schematic structural view in the use state of the present invention.

The system comprises a roof beam 1, a hanging column 2, a hanging beam 3, an auxiliary beam 4, a pipeline bracket 5 and a pipeline hanger 6.

Detailed Description

As shown in fig. 1, a suspended pipe gallery for laying pipes indoors for hanging pipes under a ceiling with roof girders 1; the roof beam comprises a plurality of hanging beams 3 which are horizontally arranged in parallel, wherein the hanging beams 3 are hung below a roof beam 1 through hanging columns 2; auxiliary beams 4 are arranged between two adjacent lifting beams 3 at intervals along the length direction of the lifting beams 3, and two ends of each auxiliary beam 4 are fixedly connected with the lifting beam 3;

the weight of the pipes is thus directly transferred to the roof girder 1, and the roof girder 1 has a very large strength margin and is able to carry pipes of very large diameter, including cooling water pipes. Generally, two suspension beams 3 are sufficient, and if there are many pipes, there may be some more suspension beams 3.

The pipeline support 5 parallel to the auxiliary beam 4 is anchored on the upper surface of the hanging beam 3, and pipelines are not directly laid on the auxiliary beam 4, because a plurality of auxiliary pipe fittings such as pipeline compensators, pipe clamps, valves, blind plates, elbows and the like are required to be arranged when the pipelines are laid, and the installation of the pipe fittings is influenced when the pipelines are directly laid on the auxiliary beam 4.

As shown in fig. 3, the lower surface of the hanging beam 3 may be provided with a pipe hanger 6 for hanging some thin pipes. Even a layer of springboard is arranged on the pipeline hanger 6 to form a passage for inspection/overhaul.

Purlins can be arranged between the auxiliary beams 4 to form a channel for workers to inspect/overhaul pipelines; the purlins are arranged, one of the purlins is used for increasing the strength of the grids of the auxiliary beams 4, and the other purlins are used for increasing fixing points conveniently when short pipelines are laid so as to overcome large gaps between the auxiliary beams 4. It is of course also possible to provide wooden boards, steel gangboards or steel sheets to form channels for workers to inspect/repair the pipeline.

The hanging beam 3, the hanging columns 2 and the auxiliary beam 4 are all made of I-shaped steel, and the flange plates of the hanging beam 3 and the auxiliary beam 4 are horizontally arranged. The suspension posts 2 can be made of thick steel bars. However, it is preferable that the suspension beam 3 and the auxiliary beam 4 are made of i-steel with a flange plate horizontally disposed or channel steel with a downward opening, because the suspension beam 3 and the auxiliary beam 4 need to have sufficient bending strength. In addition, the hanging beam 3 with the end part close to the door beam can also be connected to the door beam, and the hanging beam 3 with the end part close to the wall can also be connected to the wall. If the side of the hanging beam 3 is close to the wall or the door beam, the hanging beam 3 can be omitted, and the auxiliary beam 4 can be directly connected to the wall or the door beam.

The upper ends of the suspension posts 2 are fixedly connected with the roof beam 1 through a connecting plate, and as shown in figure 2, the lower ends of the suspension posts 2 are fixedly connected with a suspension beam 3 through an end plate with a ribbed plate; the auxiliary beam 4 is fixedly connected with the hanging beam 3 through a connecting plate. The connection between the I-steel, the most common connected mode is the connecting plate, but here 2 lower extremes of davit are through the end plate and the 3 fixed connection of davit that have the floor, consider that davit 3 needs hoist and mount, connect inconveniently through the connecting plate during hoist and mount, consequently the utility model discloses well selection is at 2 lower extreme welding horizontal end plates of davit to set up the floor respectively between two flange boards of end plate and davit 2, then with bolted connection end plate and davit 3. In order to prevent the hanging beam 3 from being damaged by pulling, two stiffening plates are vertically arranged between the flange plates of the hanging beam 3 below the connecting position of the hanging column 2 and the hanging beam 3, and the stiffening plates are connected with the hanging beam 3 in a welding way.

The hanging beam 3 is grounded through a wire.

The pipeline bracket 5 and the pipeline hanger 6 are also provided with pipe clamps for preventing the pipeline from shaking, and the pipeline is fixed through the pipe clamps.

The utility model relates to a pipe gallery suspends in midair for laying pipeline in indoor, it builds the process and includes following step:

the method comprises the following steps: installing a suspension post 2;

step two: installing a hanging beam 3;

step three: mounting an auxiliary beam 4, and arranging purlines or steel gangboards on the inspection route;

step four: the pipeline support 5 and the pipeline hanger 6 are installed on the upper and lower surfaces of the hanging beam 3, and then the pipeline is laid.

The above-mentioned embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.

Claims (7)

1. A suspended pipe gallery for laying pipes indoors for hanging pipes under a ceiling with roof girders (1); the method is characterized in that: the roof beam comprises a plurality of hanging beams (3) which are horizontally arranged in parallel, wherein the hanging beams (3) are hung under a roof beam (1) through hanging columns (2); auxiliary beams (4) are arranged between every two adjacent lifting beams (3) at intervals along the length direction of the lifting beams (3), and two ends of each auxiliary beam (4) are fixedly connected with the lifting beams (3);

and the upper surface of the hanging beam (3) is anchored with a pipeline bracket (5) parallel to the auxiliary beam (4).

2. A suspended pipe gallery for laying pipes indoors according to claim 1, wherein: and a pipeline hanger (6) parallel to the auxiliary beam (4) is anchored on the lower surface of the hanging beam (3).

3. A suspended pipe gallery for laying pipes indoors according to claim 2, wherein: the hanging beam (3), the hanging columns (2) and the auxiliary beam (4) are all made of I-shaped steel.

4. A suspended pipe gallery for laying pipes indoors according to claim 3 wherein: the upper end of the suspension post (2) is fixedly connected with the roof beam (1) through a connecting plate, and the lower end of the suspension post is fixedly connected with the suspension beam (3) through an end plate with a ribbed plate; the auxiliary beam (4) is fixedly connected with the hanging beam (3) through a connecting plate.

5. A suspended pipe gallery for laying pipes indoors according to claim 4 wherein: the hanging beam (3) is grounded through a lead.

6. A suspended pipe gallery for laying pipes indoors according to claim 5 wherein: and pipe clamps for preventing the pipeline from shaking are further arranged on the pipeline bracket (5) and the pipeline hanging bracket (6).

7. A suspended pipe gallery for laying pipes indoors according to claim 6 wherein: purlins are arranged between the auxiliary beams (4).

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