CN212804586U - Multidirectional bearing support system - Google Patents

Abstract

The utility model provides a multidirectional bearing support system, it can bear four ascending pipelines of side simultaneously, increases the application flexibility, can be being used for most piping erection place, connects stably. It includes the vertical steel of being connected with the building, the connecting piece, horizontal steel, vertical steel passes through the connecting piece and is connected with horizontal steel, horizontal steel is the channel-section steel, horizontal steel is equal opening from top to bottom, horizontal steel includes first to fourth horizontal steel, the connecting piece includes first to fourth connecting piece, first connecting piece, the third connecting piece is installed respectively in horizontal steel top, the second connecting piece, the fourth connecting piece is installed respectively in horizontal steel below, first connecting piece is connected with first horizontal steel and fourth horizontal steel, the second connecting piece is connected with first horizontal steel and second horizontal steel, the third connecting piece is connected with horizontal steel of second and third horizontal steel, the fourth connecting piece is connected with horizontal steel of third and fourth horizontal steel.

Description

Multidirectional bearing support system

Technical Field

The utility model relates to a pipeline mounting structure technical field specifically is a multidirectional bearing support system.

Background

The existing C-shaped steel light steel bracket system is usually combined in a way that C-shaped steel is fixedly connected with diversified accessories, due to the diversification of the fitting structure and type, various connecting structures can be formed by combining, for example, a patent with publication number CN205371829U discloses a multi-layer pipe support and hanger convenient for assembly, the high-strength heavy square steel section bar is spliced by a vertical channel steel connected with a base and a transverse channel steel connected to the vertical channel steel through a connecting piece to form a plane mounting structure, a pipe clamp used for connecting a pipeline is arranged on the transverse channel steel, the same patent with the publication number of CN209101000U discloses a high-strength heavy square steel section bar and a connecting structure with the section bar, the transverse square steel and the vertical square steel are connected through the connecting piece to support the pipeline, however, these support structures are only suitable for the situation where the pipes are in a relatively small number of uniform directions, and are not suitable for the situation where the pipes are distributed in a staggered manner.

In addition, a patent that publication number is CN205371186U discloses a three-dimensional connecting piece, it includes first transverse connection arm, second transverse connection arm and vertical connecting arm, vertical connecting arm is used for connecting vertical channel-section steel, first transverse connection arm and second transverse connection arm are used for connecting two horizontal channel-section steels of perpendicular setting, simultaneously can also set up third transverse connection arm as required and be used for connecting third horizontal channel-section steel, adopt such connecting piece preparation support also can only form the support of two directions or three-way, and because the connecting piece needs to be connected with the opening part of channel-section steel, the horizontal channel-section steel opening that adopts this kind of structure all can only be towards a direction, also produce certain restriction to suitable occasion, when only connecting two horizontal channel-section steels simultaneously, the connecting piece can only support at horizontal channel-section steel bottom and lateral part, lead to horizontal channel-section steel connection unstable.

SUMMERY OF THE UTILITY MODEL

To the problem that current pipeline bearing support can not extend to four directions, the utility model provides a multidirectional bearing support system, it can bear four ascending pipelines of side simultaneously, increases the application flexibility, can be being used for most piping erection place, connects stably.

The technical scheme is as follows: the utility model provides a multidirectional bearing support system, its includes vertical steel, connecting piece, the horizontal steel of being connected with the building, the connecting piece includes vertical linking arm, first transverse connection arm and second transverse connection arm, vertical steel passes through the connecting piece with horizontal steel is connected, horizontal steel is the channel-section steel, horizontal steel is equal opening from top to bottom, its characterized in that: the transverse steel comprises a first transverse steel, a second transverse steel, a third transverse steel and a fourth transverse steel, the first transverse steel, the second transverse steel, the third transverse steel and the fourth transverse steel sequentially surround the vertical steel, the connecting piece comprises a first connecting piece, a second connecting piece, a third connecting piece and a fourth connecting piece, the first connecting piece and the third connecting piece are respectively installed above the transverse steel, the second connecting piece and the fourth connecting piece are respectively installed below the transverse steel, the first connecting piece is connected with the first transverse steel and the fourth transverse steel, the second connecting piece is connected with the first transverse steel and the second transverse steel, and the third connecting piece is connected with the second transverse steel and the third transverse steel, the fourth connecting piece is connected with the third transverse steel and the fourth transverse steel.

It is further characterized in that:

the inner wall of the connecting piece is provided with a cushion block, and the cushion block is attached to the side wall of the transverse steel;

the vertical steel is square steel, a connecting through hole is formed in the square steel, and the connecting piece is connected with the vertical steel through a first connecting bolt penetrating through the square steel;

the first connecting bolt sequentially penetrates through the vertical connecting arm of the first connecting piece, the vertical steel and the vertical connecting arm of the third connecting piece;

the first connecting bolt sequentially penetrates through the vertical connecting arm of the second connecting piece, the vertical steel and the vertical connecting arm of the fourth connecting piece;

the angle between two adjacent transverse steel materials is 90 degrees;

the top of the vertical steel is connected with a base through a second connecting bolt, the second connecting bolt penetrates through the vertical steel, the upper end of the base is fixed on the steel beam, and the steel beam is connected with a building through a beam clamp.

After having adopted such structure, be connected with four horizontal steel through adopting four connecting pieces, can bear the weight of four ascending pipelines in side at most simultaneously, can be being used for most pipeline installation place, the connecting piece adopts such arrangement form moreover, and the both sides of every horizontal steel all have the connecting piece contact with upper and lower end for connect more stably.

Drawings

FIG. 1 is a view of the structure of the present invention;

FIG. 2 is a view of the connector structure;

FIG. 3 is a perspective view of a connector installation;

fig. 4 is a diagram of the spacer position of the link.

Detailed Description

A multi-directional load-bearing support system as shown in fig. 1-3, which comprises a vertical steel material 2, a connecting member 3, and a horizontal steel material 4 connected to a building 1, specifically, the top of the vertical steel material 2 is connected to a base 7 through a second connecting bolt 6, the second connecting bolt 6 passes through the vertical steel material 2, the upper end of the base 7 is fixed on a steel beam 9, the steel beam 9 is connected to the building 1 through a beam clamp 8, of course, the base 7 can also be directly connected to the building 1, the connecting member 3 comprises a vertical connecting arm 31, a first horizontal connecting arm 32 and a second horizontal connecting arm 33, the vertical steel material 2 is connected to the horizontal steel material 4 through the connecting member 3, the horizontal steel material 4 is a channel steel, the horizontal steel material 4 is open at the upper and lower sides, and has a cross section similar to an "H" shape, and can be a double C-section steel or other similar steel material, and the horizontal steel material 4 specifically comprises the first, A second transverse steel 4-2, a third transverse steel 4-3 and a fourth transverse steel 4-4, wherein the first transverse steel 4-1, the second transverse steel 4-2, the third transverse steel 4-3 and the fourth transverse steel 4-4 are sequentially arranged around the vertical steel 2, the angle between two adjacent transverse steels 4 is preferably 90 degrees, the size of the connecting piece 3 and the position of the transverse connecting piece 3 can also be adjusted according to the use environment requirements, the connecting piece 3 comprises a first connecting piece 3-1, a second connecting piece 3-2, a third connecting piece 3-3 and a fourth connecting piece 3-4, the first connecting piece 3-1 and the third connecting piece 3-3 are respectively arranged above the transverse steel 4, the second connecting piece 3-2 and the fourth connecting piece 3-4 are respectively arranged below the transverse steel 4, the first connecting piece 3-1 is connected with a first transverse steel 4-1 and a fourth transverse steel 4-4, the second connecting piece 3-2 is connected with the first transverse steel 4-1 and the second transverse steel 4-2, the third connecting piece 3-3 is connected with the second transverse steel 4-2 and the third transverse steel 4-3, the fourth connecting piece 3-4 is connected with the third transverse steel 4-3 and the fourth transverse steel 4-4, and the connecting piece 3 is fixed with the transverse steel through an opening above or below the transverse steel. Through adopting above-mentioned structure, can connect four horizontal steel 4 that are located four directions simultaneously, horizontal steel 4 in four directions simultaneously can all connecting tube from top to bottom owing to upper and lower equal opening, is fit for being used for the pipeline crisscross, the intensive place that distributes.

The vertical steel 2 is preferably square steel, a connecting through hole is formed in the square steel, the connecting piece 3 is connected with the vertical steel 2 through a first connecting bolt 5 penetrating through the square steel, when the connecting piece 3 is installed, the first connecting bolt 5 sequentially penetrates through a vertical connecting arm 31 of the first connecting piece 3-1, the vertical steel 2 and a vertical connecting arm 31 of the third connecting piece 3-3, and the other first connecting bolt 5 sequentially penetrates through a vertical connecting arm 31 of the second connecting piece 3-2, the vertical steel 2 and a vertical connecting arm 31 of the fourth connecting piece 3-4; because traditional connected mode is the inslot at vertical C shaped steel with the connecting piece connection, C shaped steel fastens for bolt and hasp with being connected of each accessory, the actual atress only carries out mechanical interlock through hasp and C shaped steel tooth and realizes being connected, the hasp appears sliding easily, arouse the structural instability, the easy installation of hasp is not in place in its installation, with the unmatched scheduling problem of C shaped steel tooth, cause uncertain safety factor, and be connected to on the vertical square steel with connecting piece 3 through the foretell connection structure of this scheme, adopt a bolt to the mode of wearing, the hasp has been solved and has been slided, the installation is not in place the scheduling problem, simultaneously, square steel manufacturing cost is less than C shaped steel, and use cost is reduced.

In addition, as shown in fig. 2 and fig. 4, the inner wall of the connecting piece 3 is provided with a cushion block 34, and the cushion block 34 is attached to the side wall of the transverse steel 4; after the installation, two connecting pieces 3 are connected from top to bottom to same horizontal steel 4, and the cushion 34 of two connecting pieces 3 laminates respectively at the lateral wall of horizontal steel 4, makes horizontal steel 4 by the clamp between two connecting pieces 3, can conveniently keep horizontal steel 4 in the middle of vertical steel 2 like this, prevents its skew.

The above description is only for the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. The utility model provides a multidirectional bearing support system, its includes vertical steel, connecting piece, the horizontal steel of being connected with the building, the connecting piece includes vertical linking arm, first transverse connection arm and second transverse connection arm, vertical steel passes through the connecting piece with horizontal steel is connected, horizontal steel is the channel-section steel, horizontal steel is equal opening from top to bottom, its characterized in that: the transverse steel comprises a first transverse steel, a second transverse steel, a third transverse steel and a fourth transverse steel, the first transverse steel, the second transverse steel, the third transverse steel and the fourth transverse steel sequentially surround the vertical steel, the connecting piece comprises a first connecting piece, a second connecting piece, a third connecting piece and a fourth connecting piece, the first connecting piece and the third connecting piece are respectively installed above the transverse steel, the second connecting piece and the fourth connecting piece are respectively installed below the transverse steel, the first connecting piece is connected with the first transverse steel and the fourth transverse steel, the second connecting piece is connected with the first transverse steel and the second transverse steel, and the third connecting piece is connected with the second transverse steel and the third transverse steel, the fourth connecting piece is connected with the third transverse steel and the fourth transverse steel.

2. A multi-directional load bearing support system according to claim 1, wherein: the inner wall of the connecting piece is provided with a cushion block, and the cushion block is attached to the side wall of the transverse steel.

3. A multi-directional load bearing support system according to claim 1, wherein: the vertical steel is square steel, connecting through holes are formed in the square steel, and the connecting piece is connected with the vertical steel through a first connecting bolt penetrating through the square steel.

4. A multi-directional load bearing support system according to claim 3, wherein: the first connecting bolt sequentially penetrates through the vertical connecting arm of the first connecting piece, the vertical steel and the vertical connecting arm of the third connecting piece.

5. A multi-directional load bearing support system according to claim 4, wherein: the first connecting bolt sequentially penetrates through the vertical connecting arm of the second connecting piece, the vertical steel and the vertical connecting arm of the fourth connecting piece.

6. A multi-directional load bearing support system according to claim 1, wherein: the angle between two adjacent transverse steel materials is 90 degrees.

7. A multi-directional load bearing support system according to claim 1, wherein: the top of the vertical steel is connected with a base through a second connecting bolt, the second connecting bolt penetrates through the vertical steel, the upper end of the base is fixed on the steel beam, and the steel beam is connected with a building through a beam clamp.

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