CN210344536U - Stainless steel pipeline support - Google Patents

Abstract

The utility model discloses a stainless steel pipeline support, including upper portion connection structure, middle part bearing structure, inferior part connection structure, upper portion insulation construction and lower part insulation construction, wherein: the middle supporting structure is arranged around the outer wall of the stainless steel pipeline, provides heat preservation for the surrounding position and provides support for the upper connecting structure and the lower connecting structure; the upper connecting structure and the lower connecting structure are symmetrically arranged on the upper side and the lower side of the middle supporting structure and respectively comprise a connecting piece and an end part heat insulating layer, the heat insulating layers are arranged on the upper side and the lower side of the middle supporting structure, one part of the connecting piece is welded on the stainless steel pipeline and is in close contact with the heat insulating layers, and the connecting piece is made of stainless steel materials; the upper heat-insulating structure and the lower heat-insulating structure respectively wrap the upper connecting structure and the lower connecting structure. Through the utility model discloses, can avoid the pipeline electrochemical corrosion problem of conventional method of doing things when providing fixed stay for stainless steel pipeline.

Description

Stainless steel pipeline support

Technical Field

The utility model relates to a pipeline fixing device especially relates to a stainless steel pipeline support.

Background

The stainless steel pipeline is used for a domestic water system, comprises a domestic water hot water system, has large expansion amount, needs to be fixedly supported due to long length of the pipeline, and generally adopts a carbon steel bracket. Therefore, the utility model provides a new stainless steel pipeline support can enough realize the fixed stay to stainless steel pipeline, can avoid producing the produced electrochemical corrosion's of traditional doing the way problem again.

SUMMERY OF THE UTILITY MODEL

In order to realize the purpose of the utility model, the following technical scheme is adopted to realize:

the utility model provides a stainless steel pipeline support, includes upper portion connection structure, middle part bearing structure, inferior part connection structure, upper portion insulation construction and lower part insulation construction, wherein: the middle supporting structure is arranged around the outer wall of the stainless steel pipeline at a preset position, provides heat preservation for the surrounding position and provides support for the upper connecting structure and the lower connecting structure; the upper connecting structure and the lower connecting structure are symmetrically arranged on the upper side and the lower side of the middle supporting structure and respectively comprise a connecting piece and an end part heat insulating layer, the end part heat insulating layers are arranged on the upper side and the lower side of the middle supporting structure, one part of the connecting piece is welded on the stainless steel pipeline and is in close contact with the end part heat insulating layers, and the connecting piece is made of stainless steel; the upper heat-insulating structure and the lower heat-insulating structure respectively wrap the upper connecting structure and the lower connecting structure.

The pipe bracket, wherein: the connecting pieces of the upper connecting structure and the lower connecting structure comprise reinforcing plates, wing plates and supporting plates, and the upper connecting structure and the lower connecting structure also comprise limiting bolts; the middle supporting structure comprises a first supporting cross arm, a second supporting cross arm and a middle heat insulating layer; the upper heat-insulating structure and the lower heat-insulating structure comprise pipeline supporting heat-insulating layers, pipeline heat-insulating layers and pipeline heat-insulating shells.

The pipe bracket, wherein: the reinforcing plate, the wing plates, the supporting plate and the limiting bolt are made of stainless steel materials which are the same as the pipeline, the reinforcing plate, the wing plates and the supporting plate are welded into a whole to form a connecting piece, and the reinforcing plate is welded on the stainless steel pipeline; the first supporting cross arm and the second supporting cross arm are made of carbon steel and are connected with each other in a welding mode.

The pipe bracket, wherein: the reinforcing plate is an arc-shaped plate, the curvature of the reinforcing plate is the same as that of the stainless steel pipeline, the side wall of the wing plate is welded on the outer convex surface of the reinforcing plate, the lower wall of the wing plate is welded on the supporting plate, the positions of the supporting plate on the two sides of the wing plate are respectively provided with a threaded hole, and the limiting bolt is installed in the threaded holes; the end heat-insulating layer comprises two same end heat-insulating layer half plates, the half plates are roughly integrally in an isosceles right triangle shape, a semicircular notch is arranged at the center of the bevel edge, the diameter of the semicircular notch is the same as the diameter of the cross section of the pipeline, and the two half plates are folded to form a folding round hole to surround the outer wall of the stainless steel pipeline.

The pipe bracket, wherein: first support cross arm and second support cross arm include two respectively, and wherein two first support cross arms interval predetermined distance parallel arrangement, two second support cross arm interval predetermined distance parallel arrangement, and first support cross arm and second support cross arm setting are just mutually perpendicular in the coplanar, and first support cross arm and second support cross arm welded fastening each other, and the middle part heat insulation layer setting just surrounds stainless steel pipeline in the space between first support cross arm and the second support cross arm.

The pipe bracket, wherein: the second supports the cross arm setting between two first support cross arms, and first support cross arm both ends surpass the second and support the cross arm.

The pipe bracket, wherein: the middle part heat insulation layer includes two the same middle part heat insulation layer half boards, and this half board is whole to be isosceles right triangle, is equipped with a semi-circular notch at the hypotenuse center, and this semi-circular notch diameter is the same with pipeline cross section diameter, and two half boards form a whole circle along the hypotenuse to closing the center, and this whole circle surrounds stainless steel pipeline outer wall.

The pipe bracket, wherein: the oblique edges of the two half plates of the heat insulating layer at the middle part, which are combined, are vertical to the oblique edges of the two half plates of the heat insulating layer at the end part, which are combined.

The pipe bracket, wherein: the pipeline supporting and insulating layer wraps the upper connecting structure and the lower connecting structure; the pipeline heat-insulating layer wraps the pipelines positioned above and below the upper connecting structure and the lower connecting structure; the pipeline heat-insulating shell hoops the pipeline supporting heat-insulating layer and the pipeline heat-insulating layer tightly.

The pipe bracket, wherein: the two middle heat insulating layers are folded at the position of the stainless steel pipeline needing to be fixedly supported and surround the outer wall of the stainless steel pipeline; welding a first supporting cross arm and a second supporting cross arm outside the two folded middle heat insulation layers, and clamping the middle heat insulation layers by the first supporting cross arm and the second supporting cross arm; the two end heat-insulating layer half plates surround the outer wall of the stainless steel pipeline after being involuted at the upper side and the lower side of the middle supporting structure and are abutted against the upper surface and the lower surface of the middle supporting structure; two or four reinforcing plates of the connecting piece are symmetrically welded on the pipe wall of the pipeline at the upper part and the lower part of the heat insulating layer at the upper end part and the lower end part, the supporting plate of the connecting piece is abutted against the heat insulating layer at the end part, and threaded holes at two sides of the supporting plate are screwed in the limiting bolts and are abutted against the heat insulating layer at the end part; the pipeline supporting and insulating layer wraps the upper connecting structure and the lower connecting structure; the pipeline heat-insulating layer wraps the pipelines positioned above and below the upper connecting structure and the lower connecting structure; the pipeline heat-insulating shell hoops the pipeline supporting heat-insulating layer and the pipeline heat-insulating layer tightly.

Drawings

FIG. 1 is a sectional view of a stainless steel pipe support;

FIG. 2 is a front isometric view of a stainless steel pipe support;

fig. 3 is an exploded view of a stainless steel pipeline bracket without an insulating shell.

Detailed Description

As shown in fig. 1 to 3, the support of the pipeline 1 includes an upper connection structure, a middle support structure, a lower connection structure, an upper thermal insulation structure and a lower thermal insulation structure, wherein the upper connection structure and the lower connection structure are symmetrically disposed at the upper and lower sides of the middle support structure, and the upper thermal insulation structure and the lower thermal insulation structure are symmetrically disposed at the upper side of the upper connection structure and the lower side of the lower connection structure.

The upper connecting structure and the lower connecting structure comprise reinforcing plates 2, wing plates 3, supporting plates 4, limiting bolts 5 and end heat insulating layers 6; the middle supporting structure comprises a first supporting cross arm 7, a second supporting cross arm 8 and a middle heat insulating layer 9; the upper thermal insulation structure and the lower thermal insulation structure both comprise a pipeline supporting thermal insulation layer 10, a pipeline thermal insulation layer 11 and a pipeline thermal insulation shell 12. Wherein the pipeline 1, the reinforcing plate 2, the wing plate 3, the supporting plate 4 and the limiting bolt 5 are made of stainless steel (with the same model) with the same material; the first supporting cross arm 7 and the second supporting cross arm 8 are made of carbon steel; the pipeline supporting heat-insulating layer 10 and the pipeline heat-insulating layer 11 are made of rubber and plastic materials, and the pipeline heat-insulating shell 12 is made of aluminum plates, stainless steel plates or galvanized steel plates.

The reinforcing plate 2 is an arc-shaped plate, the curvature of the reinforcing plate is the same as that of the pipeline 1, the side wall of the wing plate 3 is welded on the outer convex surface of the reinforcing plate 2, the lower wall of the wing plate 3 is welded on the supporting plate 4, the reinforcing plate 2, the wing plate 3 and the supporting plate 4 form a connecting piece, the positions of the supporting plate 4 on the two sides of the wing plate 3 are respectively provided with a threaded hole, and the limiting bolt 5 is installed in the threaded holes; the end heat-insulating layer 6 is made of an anti-corrosion wood board or hard polyurethane and comprises two identical end heat-insulating layer 6 half boards, the half boards are roughly shaped like isosceles right triangles, a semicircular notch is formed in the center of the bevel edge, the diameter of the semicircular notch is identical to that of the cross section of the pipeline 1, the two half boards are oppositely combined along the bevel edge to form a square, and the center of the two half boards forms a whole circle.

The first supporting cross arms 7 and the second supporting cross arms 8 respectively comprise two, preferably channel steel, wherein the two first supporting cross arms 7 are arranged in parallel at intervals of preset distance in opposite directions of notches, the two second supporting cross arms 8 are arranged in parallel at intervals of preset distance in opposite directions of notches, the first supporting cross arms 7 and the second supporting cross arms 8 are arranged in the same plane and are mutually vertical, the second supporting cross arms 8 are arranged between the two first supporting cross arms 7, and two ends of the first supporting cross arms 7 exceed the second supporting cross arms 8; first support cross arm 7 and second support cross arm 8 are welded fastening each other, and the center forms square hole. Middle part heat insulation layer 9 sets up between this square hole, and middle part heat insulation layer 9 adopts anticorrosive wood block or hard polyurethane, including two the same middle part heat insulation layer 9 half boards, and this half board is roughly shaped as isosceles right triangle, is equipped with a semi-circular notch at the hypotenuse center, and this semi-circular notch diameter is the same with 1 cross section diameter of pipeline, and two half boards form the square along the hypotenuse to closing the back periphery, and the center forms a whole circle. The oblique edges of the two half plates of the middle heat-insulating layer 9 which are jointed are vertical to the oblique edges of the two half plates of the end heat-insulating layer 6 which are jointed.

The upper heat-insulation structure and the lower heat-insulation structure respectively wrap the upper connecting structure, the lower connecting structure and the pipeline 1, and the pipeline supporting heat-insulation layer 10 wraps the upper connecting structure and the lower connecting structure; the pipeline heat-insulating layer 11 wraps the pipelines positioned above and below the upper connecting structure and the lower connecting structure; the pipeline heat-insulating shell 12 is hooped tightly on the pipeline supporting heat-insulating layer 10 and the pipeline heat-insulating layer 11, and the pipeline heat-insulating shell 12 can be fixed by rivets when being hooped tightly.

When the stainless steel pipeline bracket is installed, the two middle heat-insulating layers 9 are firstly folded at the positions of the pipeline 1 which need to be fixedly supported; welding a first supporting cross arm 7 and a second supporting cross arm 8 outside the two folded middle heat-insulating layers 9, and clamping the middle heat-insulating layers 9; the upper and lower sides of the middle supporting structure are respectively abutted with two same half plates of the end heat-insulating layer 6 of the middle part after being closed, the upper and lower surfaces of the middle supporting structure are respectively abutted with two or four reinforcing plates 2 of a connecting piece on the upper and lower parts of the heat-insulating layer 6 of the upper and lower end parts, the support plate 4 is abutted with the heat-insulating layer 6 of the end part at the welding position, and the limit bolts 5 are screwed in from the threaded holes on the two sides of the support plate 4 to be abutted with the heat-insulating layer 6 of the end part, so that the pipeline 1 at the fixed supporting position can be ensured to obtain good heat-insulating effect while the pipeline 1 is fixedly supported; then, the upper connecting structure and the lower connecting structure are wrapped by a pipeline supporting and insulating layer 10; the pipelines positioned above and below the upper connecting structure and the lower connecting structure are wrapped by pipeline heat-insulating layers 11; the pipe support insulating layer 10 and the pipe insulating layer 11 are tightened with the pipe insulating casing 12, thereby providing good insulation to the pipe.

Through the utility model discloses, can avoid the pipeline electrochemical corrosion problem of conventional method of doing things when providing fixed stay for stainless steel pipeline, can provide good heat preservation effect to the pipeline is whole again.

It should be noted that the above-mentioned embodiments can make those skilled in the art understand the present invention more fully, but not limit the present invention in any way, for example, in the present invention, "first", "second", etc. and some words indicating orientation, such as "upper", "lower", etc., do not have specific meanings, but are merely convenient for description to facilitate understanding of the application. Therefore, although the present invention has been described in detail, those skilled in the art should understand that they can still make modifications or equivalent substitutions to the present invention, and in any case, all technical solutions and modifications which do not depart from the spirit and scope of the present invention should be covered by the protection scope of the present invention.

Claims (11)

1. The utility model provides a stainless steel pipeline support, includes upper portion connection structure, middle part bearing structure, inferior part connection structure, upper portion insulation construction and lower part insulation construction, its characterized in that: the middle supporting structure is arranged around the outer wall of the stainless steel pipeline at a preset position, provides heat preservation for the surrounding position and provides support for the upper connecting structure and the lower connecting structure; the upper connecting structure and the lower connecting structure are symmetrically arranged on the upper side and the lower side of the middle supporting structure and respectively comprise a connecting piece and an end part heat insulating layer, the end part heat insulating layers are arranged on the upper side and the lower side of the middle supporting structure, one part of the connecting piece is welded on the stainless steel pipeline and is in close contact with the end part heat insulating layers, and the connecting piece is made of stainless steel; the upper heat-insulating structure and the lower heat-insulating structure respectively wrap the upper connecting structure and the lower connecting structure.

2. The conduit bracket of claim 1, wherein: the connecting pieces of the upper connecting structure and the lower connecting structure comprise reinforcing plates, wing plates and supporting plates, and the upper connecting structure and the lower connecting structure also comprise limiting bolts; the middle supporting structure comprises a first supporting cross arm, a second supporting cross arm and a middle heat insulating layer; the upper heat-insulating structure and the lower heat-insulating structure comprise pipeline supporting heat-insulating layers, pipeline heat-insulating layers and pipeline heat-insulating shells.

3. The conduit bracket of claim 2, wherein: the reinforcing plate, the wing plates, the supporting plate and the limiting bolt are made of stainless steel materials which are the same as the pipeline, the reinforcing plate, the wing plates and the supporting plate are welded into a whole to form a connecting piece, and the reinforcing plate is welded on the stainless steel pipeline; the first supporting cross arm and the second supporting cross arm are made of carbon steel and are connected with each other in a welding mode.

4. The conduit bracket of claim 3, wherein: the reinforcing plate is an arc-shaped plate, the curvature of the reinforcing plate is the same as that of the stainless steel pipeline, the side wall of the wing plate is welded on the outer convex surface of the reinforcing plate, the lower wall of the wing plate is welded on the supporting plate, the positions of the supporting plate on the two sides of the wing plate are respectively provided with a threaded hole, and the limiting bolt is installed in the threaded holes; the end heat-insulating layer comprises two same end heat-insulating layer half plates, the half plates are roughly integrally in an isosceles right triangle shape, a semicircular notch is arranged at the center of the bevel edge, the diameter of the semicircular notch is the same as the diameter of the cross section of the pipeline, and the two half plates are folded to form a folding round hole to surround the outer wall of the stainless steel pipeline.

5. The conduit bracket of claim 4, wherein: first support cross arm and second support cross arm include two respectively, and wherein two first support cross arms interval predetermined distance parallel arrangement, two second support cross arm interval predetermined distance parallel arrangement, and first support cross arm and second support cross arm setting are just mutually perpendicular in the coplanar, and first support cross arm and second support cross arm welded fastening each other, and the middle part heat insulation layer setting just surrounds stainless steel pipeline in the space between first support cross arm and the second support cross arm.

6. The conduit bracket of claim 5, wherein: the second supports the cross arm setting between two first support cross arms, and first support cross arm both ends surpass the second and support the cross arm.

7. The conduit bracket of claim 5, wherein: the middle part heat insulation layer includes two the same middle part heat insulation layer half boards, and this half board is whole to be isosceles right triangle, is equipped with a semi-circular notch at the hypotenuse center, and this semi-circular notch diameter is the same with pipeline cross section diameter, and two half boards form a whole circle along the hypotenuse to closing the center, and this whole circle surrounds stainless steel pipeline outer wall.

8. The conduit bracket of claim 7, wherein: the oblique edges of the two half plates of the heat insulating layer at the middle part, which are combined, are vertical to the oblique edges of the two half plates of the heat insulating layer at the end part, which are combined.

9. The conduit bracket of claim 1 or 5, wherein: the pipeline supporting and insulating layer wraps the upper connecting structure and the lower connecting structure; the pipeline heat-insulating layer wraps the pipelines positioned above and below the upper connecting structure and the lower connecting structure; the pipeline heat-insulating shell hoops the pipeline supporting heat-insulating layer and the pipeline heat-insulating layer tightly.

10. The conduit bracket of claim 1, wherein: the two middle heat insulating layers are folded at the position of the stainless steel pipeline needing to be fixedly supported and surround the outer wall of the stainless steel pipeline; welding a first supporting cross arm and a second supporting cross arm outside the two folded middle heat insulation layers, and clamping the middle heat insulation layers by the first supporting cross arm and the second supporting cross arm; the two end heat-insulating layer half plates surround the outer wall of the stainless steel pipeline after being involuted at the upper side and the lower side of the middle supporting structure and are abutted against the upper surface and the lower surface of the middle supporting structure; two or four reinforcing plates of the connecting piece are symmetrically welded on the pipe wall of the pipeline at the upper part and the lower part of the heat insulating layer at the upper end part and the lower end part, the supporting plate of the connecting piece is abutted against the heat insulating layer at the end part, and threaded holes at two sides of the supporting plate are screwed in the limiting bolts and are abutted against the heat insulating layer at the end part; the pipeline supporting and insulating layer wraps the upper connecting structure and the lower connecting structure; the pipeline heat-insulating layer wraps the pipelines positioned above and below the upper connecting structure and the lower connecting structure; the pipeline heat-insulating shell hoops the pipeline supporting heat-insulating layer and the pipeline heat-insulating layer tightly.

11. The conduit bracket of claim 9, wherein: the two middle heat insulating layers are folded at the position of the stainless steel pipeline needing to be fixedly supported and surround the outer wall of the stainless steel pipeline; welding a first supporting cross arm and a second supporting cross arm outside the two folded middle heat insulation layers, and clamping the middle heat insulation layers by the first supporting cross arm and the second supporting cross arm; the two end heat-insulating layer half plates surround the outer wall of the stainless steel pipeline after being involuted at the upper side and the lower side of the middle supporting structure and are abutted against the upper surface and the lower surface of the middle supporting structure; two or four reinforcing plates of the connecting piece are symmetrically welded on the pipe wall of the pipeline at the upper part and the lower part of the heat insulating layer at the upper end part and the lower end part, the supporting plate of the connecting piece is abutted against the heat insulating layer at the end part, and threaded holes at two sides of the supporting plate are screwed in the limiting bolts and are abutted against the heat insulating layer at the end part; the pipeline supporting and insulating layer wraps the upper connecting structure and the lower connecting structure; the pipeline heat-insulating layer wraps the pipelines positioned above and below the upper connecting structure and the lower connecting structure; the pipeline heat-insulating shell hoops the pipeline supporting heat-insulating layer and the pipeline heat-insulating layer tightly.

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