CN216643290U - Comprehensive arrangement support for electromechanical pipelines - Google Patents

Abstract

The utility model discloses a comprehensive arrangement support for electromechanical pipelines, which uniformly arranges and fixes a plurality of electromechanical pipelines adjacent to each other, and comprises support beams for uniformly supporting all the electromechanical pipelines, wherein force bearing beams fixed on a wall surface are vertically arranged on the support beams at intervals, and an adjusting and fastening device matched with each electromechanical pipeline is detachably arranged on the support beams. Through the comprehensive arrangement support, a plurality of adjacent electromechanical pipelines are separated and arranged to be supported, and the pressure bearing capacity of the electromechanical pipelines is improved. And through the cooperation of adjusting the backup pad with first screw thread adjusting sleeve, can be effectual with the electromechanical pipeline of different overall dimensions stabilize on the supporting beam of the support of should arranging to improve electromechanical pipeline and resist the ability of external force effect, connect adjacent electromechanical pipeline through second screw thread adjusting sleeve simultaneously, further improve whole electromechanical pipeline and support the fastening and resist the ability of external force, and finally guarantee electromechanical pipeline normal use, reduce the maintenance number of times.

Description

Comprehensive arrangement support for electromechanical pipelines

Technical Field

The utility model relates to the technical field of electromechanical pipeline supporting, in particular to a comprehensive arrangement support for electromechanical pipelines.

Background

The electromechanical pipelines comprise pipeline types such as a spray pipeline, a fire fighting pipeline, a strong electric bridge frame, a weak spot bridge frame and the like, are usually accessed into the interior of a building from the outside, and are arranged along a specified route in the interior of the building. In order to improve the regularity of the arrangement of a plurality of electromechanical pipelines, the electromechanical pipelines are generally uniformly converged and distributed from the outside to the inner side of the building, and then are routed from the inner side of the building along a specified line. Because a plurality of electromechanical pipelines are gathered at the wall, under the pipeline (specifically for letting in pipelines such as fluidic spray piping and fire-fighting pipeline) pressurized condition, cause great rocking of this type of pipeline easily, there is the pipeline to leak to contact adjacent pipeline easily, cause the influence each other, the pipeline receives long-time rocking of external force can also cause the wall to ftracture simultaneously, consequently need frequent the electromechanical pipeline department of assembling to overhaul the operation usually, increase and overhaul number of times and cost.

Disclosure of Invention

In view of the above problems, the present invention is directed to provide a comprehensive arrangement support for electromechanical pipelines, which can achieve an external separation supporting effect on a plurality of adjacent electromechanical pipelines, avoid the problem of mutual contact influence between adjacent electromechanical pipelines under the action of an external force, further improve the supporting force of the electromechanical pipelines, and reduce the overhaul operations on the pipelines.

In order to achieve the purpose, the technical scheme adopted by the utility model is as follows: the utility model provides a support of arranging is synthesized of electromechanical pipeline which characterized in that: the comprehensive arrangement support is used for uniformly arranging and fixing a plurality of electromechanical pipelines which are adjacent in position and comprises supporting beams which are used for uniformly supporting all the electromechanical pipelines, force bearing beams which are fixed on a wall surface are vertically arranged on the supporting beams at intervals, the electromechanical pipelines are divided into adjacent force bearing beams and are supported by the supporting beams, and the supporting beams are also detachably provided with adjusting and fastening devices which are matched with the electromechanical pipelines.

Preferably, the supporting beam is provided with strip-shaped through holes perpendicular to the electromechanical pipelines and along the length direction of the supporting beam, the adjusting and fastening device is a U-shaped hoop which independently wraps each electromechanical pipeline and penetrates through each strip-shaped through hole, and fastening nuts which are tightly attached to the outer surface of the supporting beam are sleeved at two ends of each U-shaped hoop which penetrate through each strip-shaped through hole.

Preferably, adjust fastener still including the cover establish on the both sides pole portion of U type staple bolt and be located adjust the backup pad between electromechanical pipeline and the supporting beam, and be located adjust between backup pad and the supporting beam the cover is equipped with in proper order and pushes up tightly on the both sides pole portion of U type staple bolt adjust the first screw thread adjusting sleeve of backup pad and supporting beam.

Preferably, a second threaded adjusting sleeve is sleeved on the rod part of each adjacent U-shaped hoop, which extends out of the supporting beam, and is close to the supporting beam.

The utility model has the beneficial effects that: through the comprehensive arrangement support, a plurality of adjacent electromechanical pipelines are separated, arranged and supported, and the pressure bearing capacity of the electromechanical pipelines is improved. And through the cooperation of adjusting the backup pad with first screw thread adjusting sleeve, can be effectual with the electromechanical pipeline of different overall dimensions stabilize on the supporting beam of the support of should arranging to improve electromechanical pipeline and resist the ability of external force effect, connect adjacent electromechanical pipeline through second screw thread adjusting sleeve simultaneously, further improve whole electromechanical pipeline and support the fastening and resist the ability of external force, and finally guarantee electromechanical pipeline normal use, reduce the maintenance number of times.

Drawings

FIG. 1 is a schematic view of the assembly of the integrated distribution frame and the electromechanical pipeline of the present invention.

FIG. 2 is a top view of the support beam of FIG. 1 according to the present invention.

FIG. 3 is an enlarged view of the utility model at A in FIG. 1.

FIG. 4 is an enlarged view of the utility model at B in FIG. 1.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the following further describes the technical solution of the present invention with reference to the drawings and the embodiments.

Referring to fig. 1-4, the comprehensive arrangement support for the electromechanical pipelines uniformly arranges and fixes a plurality of electromechanical pipelines 10 (including pipelines such as spray pipelines, fire pipelines, strong electric bridges, weak point bridges and the like) which are adjacent in position, and comprises support beams 1 which uniformly support all the electromechanical pipelines 10, force bearing beams 2 fixed on a wall surface are vertically arranged on the support beams 1 at intervals, and the electromechanical pipelines 10 are divided between the adjacent force bearing beams 2 and supported by the support beams 1. When the pipeline is specifically arranged and operated, according to the distance between adjacent electromechanical pipelines and the whole quantity, a plurality of bearing beams 2 are vertically welded on one side of a supporting beam 1, then the bearing beams 2 sequentially penetrate between the adjacent electromechanical pipelines 10 at different positions, the electromechanical pipelines are separated, then the end parts of the bearing beams 2 are fixed on the wall surface (preferably on each), galvanized steel plates 8 are welded on the end parts of the bearing beams 2, the bearing beams 2 are fixed on the wall surface through expansion bolts), finally, the comprehensive arrangement support is integrally fixed on the wall surface, and the pipeline is prevented from shaking to cause pipeline leakage or breakage due to impact of external force (including impact of water flow pressure in a spray pipeline and a fire-fighting pipeline) through the supporting beam 1 and one side surface of the electromechanical pipelines 10.

Since the shape, structure and size of each electromechanical pipeline 10 are uniform, and it cannot be completely guaranteed that the same side surface of each electromechanical pipeline 10 can be contacted with the support beam 1 to obtain effective support, in order to adapt to the support of electromechanical pipelines 10 with different shapes and sizes, an adjusting and fastening device matched with each electromechanical pipeline 10 is detachably arranged on the support beam 1. By means of which the electromechanical lines 10 of each different physical size can be cultivated and supported firmly on the supporting beam 1, against the influence of external forces by means of the supporting beam 1.

Specifically, as shown in fig. 2, a strip-shaped through hole 1a is formed in the support beam 1 perpendicular to the direction of the electromechanical pipelines 10 and along the length direction of the support beam 1, the adjusting and fastening device is a U-shaped hoop 3 (such as an arc-shaped hoop and a rectangular hoop shown in fig. 1) which individually wraps each electromechanical pipeline 10 and penetrates through the strip-shaped through hole 1a, and fastening nuts 4 which are tightly attached to the outer surface of the support beam 1 are respectively sleeved at two ends of the U-shaped hoop 3 which penetrates through the strip-shaped through hole 1 a. The U-shaped anchor ear 3 which is adaptive to each structure and size is wrapped on the electromechanical pipeline 10, the rod parts at two sides of the U-shaped anchor ear 3 penetrate through the strip-shaped through hole 1a, the penetrating end part is sleeved with the fastening nut 4 to tighten the U-shaped anchor ear 3, and then the electromechanical pipeline and the supporting beam 1 are fastened relatively.

Specifically, as shown in fig. 3, adjust fastener still including the cover establish on the both sides pole portion of U type staple bolt 3 and be located adjust the backup pad 5 between electromechanical pipeline 10 and the supporting beam 1, and be located adjust between backup pad 5 and the supporting beam 1 the cover is equipped with in proper order and pushes up on the both sides pole portion of U type staple bolt 3 adjust the backup pad 5 and support beam 1's first screw thread adjusting sleeve 6 (specific structure is including hugging closely first screw thread outer tube 61 of adjusting the backup pad 5 and hugging closely supporting beam 1's first screw thread inner tube 62). During operation, firstly wrap the U-shaped hoop 3 on the electromechanical pipeline 10, then, the adjusting support plate 5 is sleeved on the rod parts at two sides, the adjusting support plate 5 is made to be close to one side of the electromechanical pipeline close to the support beam 1, then, the rod parts at two sides penetrate through the strip-shaped through holes 1a, the U-shaped hoop 3 is tightened through the fastening nuts 4, finally, the first thread outer cylinder and the first thread inner cylinder are rotated, the first thread adjusting sleeve 6 is integrally extended and sequentially pushed on the bottom surface of the adjusting support plate 5 and the top surface of the support beam 1 respectively, and through the supporting effect of the support beam 1, the first thread adjusting sleeves 6 at two sides push the adjusting support plate tightly and cling to the side wall of the electromechanical pipeline 10 close to the support beam 1, so that the stable supporting effect of the support beam 1 on the electromechanical pipelines 10 with different appearance sizes is realized.

In order to further improve the resistance of each electromechanical pipeline 10 when being impacted by external force, a second threaded adjusting sleeve 7 is sleeved on the rod part of each adjacent U-shaped hoop 3 extending out of the supporting beam 1. Specifically, as shown in fig. 4, the second thread adjusting sleeve 7 includes a second thread outer cylinder 71 sequentially sleeved on the outer end portion of the adjacent U-shaped hoop 3 extending out of the supporting beam 1 and a double-threaded screw 72 connected between the symmetrical second thread outer cylinders 71, the second thread outer cylinders on both sides are tightened and closed by rotating the adjusting double-threaded screw, and the adjacent U-shaped hoops 3 are correspondingly connected into an integrated structure, so as to improve the resistance of the single electromechanical pipeline 10 when being impacted by external force.

The principle of the utility model is as follows: according to the distance between adjacent electromechanical pipelines and the whole quantity, a plurality of force-bearing beams 2 are vertically welded on one side of a supporting beam 1, then the force-bearing beams 2 sequentially pass through the adjacent electromechanical pipelines 10 at different positions, the electromechanical pipelines are separated, then the end part of each force-bearing beam 2 is fixed on the wall surface, then a U-shaped hoop which is adaptive to the appearance specifications of different electromechanical pipelines 10 is selected to correspondingly wrap the electromechanical pipelines, an adjusting supporting plate is sleeved on the rod parts at the two sides of the U-shaped hoop 3 before penetrating into a strip-shaped through hole 1a of the supporting beam 1 and is positioned between the electromechanical pipelines 10 and the supporting beam, then the rod part of the U-shaped hoop 3 passes through a strip-shaped perforation 1a of the supporting beam 1 and is tightened and fixed through a fastening nut 4, then a first thread adjusting sleeve 6 is rotated to enable the two ends of the U-shaped hoop to be sequentially pressed against the surfaces of the adjusting supporting plate 5 and the supporting beam 1, and the electromechanical pipelines are stably supported, and finally, the second thread adjusting sleeve 7 is sleeved on the adjacent U-shaped anchor ear to enable the adjacent U-shaped anchor ears 3 to be connected into an integral structure.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a support of arranging is synthesized of electromechanical pipeline which characterized in that: synthesize and arrange the support and arrange a plurality of electromechanical pipelines (10) that the position is adjacent in unison fixedly, it is including supporting all in unison a supporting beam (1) of electromechanical pipeline (10) supporting beam (1) is gone up the interval and is provided with bearing roof beam (2) that are fixed in on the wall perpendicularly, electromechanical pipeline (10) are cut apart to adjacent between bearing roof beam (2) and pass through supporting beam (1) supports it is provided with every still detachable on supporting beam (1) the regulation fastener of electromechanical pipeline (10).

2. A comprehensive deployment frame for electromechanical pipelines, according to claim 1, characterized in that: the supporting beam (1) is vertical to the direction of the electromechanical pipelines (10) and is provided with strip-shaped through holes (1a) along the length direction of the supporting beam (1), the adjusting and fastening device is a U-shaped hoop (3) which independently wraps each electromechanical pipeline (10) and penetrates through each strip-shaped through hole (1a), and two ends of the U-shaped hoop (3) penetrating through each strip-shaped through hole (1a) are respectively sleeved with a fastening nut (4) tightly attached to the outer surface of the supporting beam (1).

3. A comprehensive deployment frame for electromechanical pipelines, according to claim 2, characterized in that: adjust fastener still establishes including the cover just be located on the both sides pole portion of U type staple bolt (3) regulation backup pad (5) between electromechanical pipeline (10) and a supporting beam (1), and be located adjust backup pad (5) and a supporting beam (1) between the both sides pole portion of U type staple bolt (3) is gone up to overlap and is equipped with in proper order to push up tightly adjust backup pad (5) and a supporting beam (1) first screw thread adjusting sleeve (6).

4. A comprehensive deployment frame for electromechanical pipelines, according to claim 3, characterized in that: and a second thread adjusting sleeve (7) is sleeved on the rod part of each adjacent U-shaped hoop (3) extending out of the supporting beam (1).

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