CN215445333U - Flexible multilayer pipeline support - Google Patents

Abstract

The utility model relates to the technical field of building construction, in particular to a flexible multilayer pipeline support, which comprises a main pipeline support, a secondary pipeline support I and a secondary pipeline support II; a first pipeline mounting groove for accommodating a half-circle pipeline is formed in the top of the main pipeline support, and second pipeline mounting grooves for accommodating the half-circle pipeline and corresponding to the first pipeline mounting groove one by one are formed in the bottom of the main pipeline support; the trunk line support bottom just is located the radial avris of second pipeline mounting groove is equipped with the grafting arch, trunk line support top just is located the radial avris of first pipeline mounting groove is equipped with the grafting notch. The multilayer pipeline bracket overall structure of this application is compact, and can install the pipeline of arbitrary quantity through the multilayer pipeline bracket of this application, and multilayer pipeline bracket's mounting groove quantity can just in time be the same with the quantity of installing the pipeline for the vacant condition of mounting groove can not appear in multilayer pipeline bracket, has effectively improved pipeline bracket's space utilization.

Description

Flexible multilayer pipeline support

Technical Field

The utility model relates to the technical field of building construction, in particular to a flexible multilayer pipeline support.

Background

Along with the continuous development of society, city building is more and more, and the sewage pipes that are used for waste water discharge's setting quantity is also more and more, and sewage pipes need be the three-dimensional transport of multilayer.

The patent with the application number of CN202020048737.1 discloses a multilayer pipeline gallows, including U font mount and sliding tray support frame (violently establishing between two vertical support bodies of U font mount), U font mount bottom left and right sides position department and intermediate position department are provided with pipeline anchor clamps, and the sliding tray support frame top is equipped with L type solid fixed splint right, can carry out fixed mounting to the pipeline through L type solid fixed splint right and pipeline anchor clamps.

Although the multilayer pipeline supporting and hanging bracket with the structure can realize the fixed installation of multilayer pipelines, the following defects exist, 1. the structure of the U-shaped fixing bracket is fixed, the U-shaped fixing bracket cannot be adjusted adaptively according to the actual installation quantity of the pipelines, and when a small quantity of pipelines are installed, other positions of the U-shaped fixing bracket are all vacant, so that the space waste is caused; when a large number of pipelines are installed, the pipeline installation positions of the U-shaped fixing frames may be insufficient, so that other U-shaped fixing frames need to be arranged, and the operation is troublesome; 2. the whole U-shaped fixing frame is large in size, and the gap between the L-shaped fixing clamp plate pair and the pipeline clamp is large, so that the space utilization rate of the pipeline support hanger is low; 3. the pipeline disassembly and assembly operation is inconvenient.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model provides a flexible multilayer pipeline bracket which can meet the installation requirement of any number of pipelines, has high space utilization rate and is simple and convenient to disassemble and assemble.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a flexible multilayer pipeline support comprises a main pipeline support, a secondary pipeline support I and a secondary pipeline support II;

a first pipeline mounting groove for accommodating a half-circle pipeline is formed in the top of the main pipeline support, and second pipeline mounting grooves for accommodating the half-circle pipeline and corresponding to the first pipeline mounting groove one by one are formed in the bottom of the main pipeline support; the bottom of the main pipeline support and the radial side of the second pipeline mounting groove are provided with inserting protrusions, and the top of the main pipeline support and the radial side of the first pipeline mounting groove are provided with inserting notches;

the bottom of the first secondary pipeline support is provided with a first pipeline installation groove which is used for accommodating a half-circle pipeline and is arranged in one-to-one correspondence with the first pipeline installation groove, and the bottom of the first secondary pipeline support and positioned on one radial side of the first pipeline installation groove are provided with first inserting bulges which are the same as the inserting bulges in structure;

the top of the secondary pipeline support II is provided with a second pipeline installation groove II which is used for accommodating a half-circle pipeline and is arranged in one-to-one correspondence with the second pipeline installation groove, and the top of the secondary pipeline support II and the radial side of the second pipeline installation groove are provided with a second inserting groove opening which has the same structure as the inserting groove opening;

the inserting protrusion of one main pipeline support is detachably connected with the inserting notch of the other main pipeline support or the inserting notch II of the secondary pipeline support II;

the inserting groove opening of the first main pipeline support is detachably connected with the inserting protrusion of the other main pipeline support or the inserting protrusion of the second main pipeline support.

The multilayer pipeline bracket overall structure of this application is compact, and can install the pipeline of arbitrary quantity through the multilayer pipeline bracket of this application, and multilayer pipeline bracket's mounting groove quantity can just in time be the same with the quantity of installing the pipeline for the vacant condition of mounting groove can not appear in multilayer pipeline bracket, has effectively improved pipeline bracket's space utilization.

Preferably, the insertion projection comprises a first insertion block, a second insertion block and an elastic body;

the first end face of the elastic body in the elastic direction is connected with one side face of the first insertion block, and the second end face of the elastic body in the elastic direction is connected with one side face of the second insertion block;

the top of the first inserting block is provided with a first limiting guide frame along the elastic direction of the elastic body, and the opposite side surface of the first inserting block connected with the elastic body is provided with a first clamping part and a first guide part which are connected with the inserting groove openings in a matched mode;

a second limiting guide frame is arranged at the top of the second inserting block along the elastic direction of the elastic body, and a second clamping part and a second guide part which are matched and connected with the inserting notch are arranged on the opposite side surfaces of the second inserting block connected with the elastic body;

the bottom of the main pipeline bracket is also provided with a first butt joint groove connected with the first limiting guide frame and a second butt joint groove connected with the second limiting guide frame;

the main pipeline bracket is provided with a dismounting hole communicated with the inserting notch in the elastic direction of the elastic body.

Preferably, the first clamping part is a right-angle limiting opening formed at the joint of the top surface and the side surface of the first inserting block; the second clamping portion is a right-angle-shaped limiting opening formed in the joint of the top surface and the side surface of the second inserting block.

Preferably, the first guide portion is an inclined cross section formed on a side surface of the first insertion block; the second guide part is an inclined section formed on the side face of the second insertion block.

Preferably, the cross sections of the first limiting guide frame and the second limiting guide frame are both in a T shape.

Preferably, a first vertical side wall of the main pipeline support is provided with a limit connecting groove axially arranged along the first pipeline mounting groove, and a second vertical side wall of the main pipeline support is provided with a limit connecting bulge axially arranged along the first pipeline mounting groove; and the limiting connecting groove of one main pipeline support is detachably connected with the limiting connecting bulge of the other main pipeline support.

Preferably, the axial first end of the limit connecting groove is closed, the axial second end of the limit connecting groove is opened, and the main pipeline support is provided with a limit screw mounting hole at a position close to the axial second end of the limit connecting groove.

Preferably, the cross section of the limiting connecting groove is trapezoidal.

Preferably, the number of the first pipe installation grooves of the main pipe support is 1 to 4.

Preferably, the main pipeline bracket is provided with finger holding holes.

Advantageous effects

The multilayer pipeline support is compact in overall structure, any number of pipelines can be installed through the multilayer pipeline support, the number of the installation grooves of the multilayer pipeline support can be exactly the same as the number of the pipelines to be installed, the situation that the installation grooves of the multilayer pipeline support are vacant is avoided, and the space utilization rate of the pipeline support is effectively improved; the inserting protrusion and the inserting notch structure enable the multilayer pipeline support to be very simple and convenient to connect and detach, and effectively improve the installation efficiency of the pipeline; this application is through spacing spread groove and the bellied setting of spacing connection for trunk line support horizontal connection is very convenient, and then has made things convenient for the installation of this application multilayer pipeline support to arbitrary quantity pipeline once more.

Drawings

FIG. 1 is a schematic view of a multi-layer pipe support according to the present invention after being connected to a pipe;

FIG. 2 is a schematic structural view of the multi-layered pipe support of FIG. 1;

FIG. 3 is an exploded view of the multi-layered piping bracket of FIG. 2;

FIG. 4 is a schematic structural view of a main conduit bracket according to the present invention;

FIG. 5 is a schematic structural view of the insertion protrusion of the present invention;

FIG. 6 is a schematic structural view of a socket of the present invention;

fig. 7 is a schematic structural view of another embodiment of the main conduit bracket of the utility model.

Detailed Description

The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1 to 4, a flexible multi-layered pipe support includes a primary pipe support 1, a secondary pipe support one 2, and a secondary pipe support two 3.

The top of the main pipeline support 1 is provided with a first pipeline mounting groove 1-1 for accommodating a semi-circle pipeline 4, and the bottom of the main pipeline support 1 is provided with a second pipeline mounting groove 1-2 for accommodating the semi-circle pipeline 4 and corresponding to the first pipeline mounting groove 1-1 one by one. The main pipe support 1 bottom just is located the radial avris of second pipeline mounting groove 1-2 is equipped with grafting arch 1-3, main pipe support 1 top just is located the radial avris of first pipeline mounting groove 1-1 is equipped with grafting notch 1-4.

The bottom of the first secondary pipeline support 2 is provided with a first pipeline mounting groove 2-1 for accommodating a half-circle pipeline 4 and corresponding to the first pipeline mounting groove 1-1 one by one, and the bottom of the first secondary pipeline support 2 is provided with a first inserting bulge 2-2 which has the same structure as the first inserting bulge 1-3 and is located on the radial side of the first pipeline mounting groove 2-1.

The top of the secondary pipeline support II 3 is provided with a pipeline mounting groove II 3-1 which is used for accommodating a half-circle pipeline 4 and is arranged in one-to-one correspondence with the second pipeline mounting groove 1-2, and the top of the secondary pipeline support II 3 is arranged on the radial side of the pipeline mounting groove II 2-1 and is provided with a splicing notch II 3-2 which has the same structure as the splicing notch 1-4.

The inserting protrusion 1-3 of one main pipeline support 1 is detachably connected with the inserting notch 1-4 of the other main pipeline support 1 or the inserting notch two 3-2 of the secondary pipeline support two 3.

The inserting notch 1-4 of one main pipeline support 1 is detachably connected with the inserting protrusion 1-3 of the other main pipeline support 1 or the inserting protrusion 2-2 of the secondary pipeline support 2.

When the pipeline 4 is installed through a multilayer pipeline support (for example, two layers of pipelines need to be installed, and each layer is provided with three pipelines), a main pipeline support 1 with three first pipeline installation grooves 1-1 and three second pipeline installation grooves 1-2 is selected, a secondary pipeline support 2 with three pipeline installation grooves one 2-1 is selected, and a secondary pipeline support 3 with three pipeline installation grooves two 3-1 is selected; then, the second secondary pipeline support 3 is placed on the ground, and the three first-layer pipelines 4 are sequentially placed in the three pipeline mounting grooves two 3-1 (the lower half circle of each pipeline 4 is just positioned in the corresponding pipeline mounting groove two 3-1); then, three second pipeline mounting grooves 1-2 of the main pipeline support 1 are sleeved on the upper half circle of the pipeline 4, and the inserting protrusions 1-3 of the main pipeline support 1 are inserted into the inserting notches two 3-2 of the secondary pipeline support two 3 to realize the connection of the secondary pipeline support two 3, the pipeline 4 and the main pipeline support 1; then, the three pipelines 4 on the second layer are sequentially placed in three first pipeline mounting grooves 1-1 of the main pipeline support 1 (the lower half circle of the pipeline 4 is just positioned in the first pipeline mounting groove 1-1), the three pipeline mounting grooves one 2-1 of the secondary pipeline support one 2 are sleeved on the upper half circle of the pipeline 4, and meanwhile, the inserting protrusions one 2-2 of the secondary pipeline support one 2 are inserted into the inserting notches 1-4 of the main pipeline support 1 so as to realize the connection of the secondary pipeline support one 2, the pipelines 4 and the main pipeline support 1.

If a larger number of pipes 4 are to be installed, the main pipe bracket 1 may be selected in an appropriate number and in an appropriate number of first pipe installation grooves 1-1 according to actual conditions. The multilayer pipeline bracket overall structure of this application is compact, and can install the pipeline of arbitrary quantity through the multilayer pipeline bracket of this application, and multilayer pipeline bracket's mounting groove quantity can just in time be the same with the quantity of installing the pipeline for the vacant condition of mounting groove can not appear in multilayer pipeline bracket, has effectively improved pipeline bracket's space utilization.

As shown in fig. 5 and 6, the insertion projection 1-3 includes a first insertion block 1-3-1, a second insertion block 1-3-3, and an elastic body 1-3-5. The first end face of the elastic body 1-3-5 in the elastic direction is connected with one side face of the first insertion block 1-3-1, and the second end face of the elastic body in the elastic direction is connected with one side face of the second insertion block 1-3-3.

The top of the first plug-in block 1-3-1 is provided with a first limiting guide frame 1-3-2 along the elastic direction of the elastic body 1-3-5, and the opposite side surface of the first plug-in block 1-3-1 connected with the elastic body 1-3-5 is provided with a first clamping part and a first guide part which are matched and connected with the plug-in notch 1-4. The first clamping portion is a right-angle limiting opening formed in the joint of the top surface and the side surface of the first inserting block 1-3-1, and a right-angle limiting portion in matched connection with the right-angle limiting opening is arranged inside the inserting groove opening 1-4. The first guide part is an inclined section formed in the side face of the first insertion block 1-3-1.

The top of the second insertion block 1-3-3 is provided with a second limiting guide frame 1-3-4 along the elastic direction of the elastic body 1-3-5, and the opposite side surface of the second insertion block 1-3-3 connected with the elastic body 1-3-5 is provided with a second clamping part and a second guide part which are matched and connected with the insertion groove opening 1-4. The second clamping part is a right-angle limiting opening formed at the joint of the top surface and the side surface of the second insertion block 1-3-3, and a right-angle limiting part in matched connection with the right-angle limiting opening is arranged inside the insertion groove opening 1-4. The second guide part is an inclined section formed on the side surface of the second insertion block 1-3-3.

The bottom of the main pipeline bracket 1 is also provided with a first butt joint groove connected with the first limiting guide frame 1-3-2 and a second butt joint groove connected with the second limiting guide frame 1-3-4. The cross sections of the first limiting guide frame 1-3-2 and the second limiting guide frame 1-3-4 are both T-shaped. The first butt joint groove is matched with the first limiting guide frame 1-3-2 in shape, the cross section of the first butt joint groove is T-shaped, and the axial length of the first butt joint groove is larger than that of the first limiting guide frame 1-3-2, so that the first limiting guide frame 1-3-2 can only move in the first butt joint groove in the axial direction. The shape of the second butt joint groove is matched with that of the second limiting guide frame 1-3-4, the cross section of the second butt joint groove is T-shaped, and the axial length of the second butt joint groove is larger than that of the second limiting guide frame 1-3-4, so that the second limiting guide frame 1-3-4 can only axially move in the second butt joint groove.

The main pipeline bracket 1 is provided with dismounting holes 1-8 communicated with the inserting notches 1-4 in the elastic direction of the elastic bodies 1-3-5. The first insertion block 1-3-1 and the second insertion block 1-3-3 can be conveniently applied with opposite moving force through the disassembly hole 1-8, so that the insertion protrusion 1-3 can be separated from the insertion groove opening 1-4.

The connection and disassembly processes of the insertion projections 1-3 (or the insertion projections I2-2) and the insertion notches 1-4 (or the insertion notches II 3-2) are as follows: when in connection, the inserting protrusion 1-3 is inserted downwards in alignment with the inserting notch 1-4, the inserting notch 1-4 applies a force of moving in opposite directions to the first inserting block 1-3-1 and the second inserting block 1-3-3 through the first guide part and the second guide part, the elastic body 1-3-5 is pressed to be shortened by the opposite movement of the first inserting block 1-3-1 and the second inserting block 1-3-3, and further the length of the whole inserting protrusion 1-3 in the elastic direction of the elastic body 1-3-5 is shortened so as to enter the inserting notch 1-4. After the inserting protrusion 1-3 completely enters the inserting groove 1-4, the opposite force applied by the inserting groove 1-4 to the first guide part and the second guide part is eliminated, the length of the elastic body 1-3-5 is automatically recovered, and the elastic body 1-3-5 applies a force moving back to the first inserting block 1-3-1 and the second inserting block 1-3-3 in the reset process until the first clamping part of the first inserting block 1-3-1 and the second clamping part of the second inserting block 1-3-3 are in limit connection with the limiting part in the inserting groove 1-4. At the moment, the splicing bulges 1-3 are connected with the splicing notches 1-4, namely, the splicing bulges 1-3 are inserted downwards by aligning with the splicing notches 1-4, and the connection operation is very simple and convenient.

When in disassembly, the first insertion block 1-3-1 and the second insertion block 1-3-3 are only required to be pressed oppositely from the disassembly hole 1-8, so that the length of the insertion bulge 1-3 in the elastic direction of the elastic body 1-3-5 is shortened to be convenient for being disengaged from the insertion notch 1-4, and the disassembly operation is also very simple and convenient.

The structure of the inserting protrusions 1-3 and the inserting notches 1-4 enables the multilayer pipeline support to be very simple and convenient to connect and detach, and effectively improves the installation efficiency of the pipeline 4.

As shown in fig. 7, a first vertical side wall of the main pipeline bracket 1 is provided with a limit connection groove 1-5 axially arranged along the first pipeline installation groove 1-1, and a second vertical side wall of the main pipeline bracket 1 is provided with a limit connection protrusion 1-6 axially arranged along the first pipeline installation groove 1-1. The cross section of the limiting connecting groove 1-5 can be trapezoidal. The number of the first pipe installation grooves 1-1 of the main pipe bracket 1 may be 1 to 4. The limit connecting groove 1-5 of one main pipeline bracket 1 is detachably connected with the limit connecting bulge 1-6 of the other main pipeline bracket 1. The axial first ends of the limiting connecting grooves 1-5 are arranged in a closed mode, the axial second ends of the limiting connecting grooves are arranged in an open mode, and limiting screw mounting holes 1-7 are formed in the positions, close to the axial second ends of the limiting connecting grooves 1-5, of the main pipeline support 1.

When 5 pipelines need to be arranged on one layer of pipeline, two main pipeline supports 1 can be horizontally connected (one main pipeline support 1 is provided with two first pipeline mounting grooves 1-1, and the other main pipeline support 1 is provided with three first pipeline mounting grooves 1-1), during connection, only the limiting connecting bulges 1-6 of the first main pipeline support 1 need to be inserted into the limiting connecting grooves 1-5 of the second main pipeline support 1, then the limiting screws are installed in the limiting screw mounting holes 1-7, the screw heads of the limiting screws can block the axial ends of the limiting connecting bulges 1-6, the axial displacement of the limiting connecting bulges 1-6 in the limiting connecting grooves 1-5 is avoided, and therefore the horizontal connection of the two main pipeline supports 1 is realized.

The installation of the multilayer pipeline support to any number of pipelines is facilitated again by arranging the limiting connecting grooves 1-5 and the limiting connecting bulges 1-6, so that the horizontal connection of the main pipeline support 1 is very convenient.

In addition, the main pipeline support 1 is provided with finger holding holes 1-9, and the finger holding holes 1-9 are arranged to facilitate taking of the main pipeline support 1, so that the multilayer pipeline support is convenient to mount again.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention and do not limit the spirit and scope of the present invention. Various modifications and improvements of the technical solutions of the present invention may be made by those skilled in the art without departing from the design concept of the present invention, and the technical contents of the present invention are all described in the claims.

Claims (10)

1. A flexible multilayer conduit support characterized by: comprises a main pipeline bracket (1), a secondary pipeline bracket I (2) and a secondary pipeline bracket II (3);

a first pipeline mounting groove (1-1) for accommodating a semi-circle pipeline (4) is formed in the top of the main pipeline support (1), and second pipeline mounting grooves (1-2) which are used for accommodating the semi-circle pipeline (4) and are arranged in one-to-one correspondence to the first pipeline mounting grooves (1-1) are formed in the bottom of the main pipeline support (1); inserting protrusions (1-3) are arranged at the bottom of the main pipeline support (1) and on the radial side of the second pipeline mounting groove (1-2), and inserting notches (1-4) are arranged at the top of the main pipeline support (1) and on the radial side of the first pipeline mounting groove (1-1);

the bottom of the first secondary pipeline support (2) is provided with a first pipeline mounting groove (2-1) which is used for accommodating a half-circle pipeline (4) and is arranged in one-to-one correspondence with the first pipeline mounting groove (1-1), and the bottom of the first secondary pipeline support (2) and the radial edge side of the first pipeline mounting groove (2-1) are provided with a first splicing bulge (2-2) which has the same structure as the splicing bulge (1-3);

the top of the secondary pipeline support II (3) is provided with a pipeline mounting groove II (3-1) which is used for accommodating a half-circle pipeline (4) and is arranged in one-to-one correspondence with the second pipeline mounting groove (1-2), and the top of the secondary pipeline support II (3) and the radial side edge of the pipeline mounting groove II (2-1) are provided with a splicing notch II (3-2) which has the same structure as the splicing notch (1-4);

the inserting protrusion (1-3) of one main pipeline support (1) is detachably connected with the inserting notch (1-4) of the other main pipeline support (1) or the inserting notch (3-2) of the secondary pipeline support (3);

the inserting groove opening (1-4) of one main pipeline support (1) is detachably connected with the inserting protrusion (1-3) of the other main pipeline support (1) or the inserting protrusion (2-2) of the secondary pipeline support (2).

2. A flexible multilayer piping bracket according to claim 1, wherein: the insertion projection (1-3) comprises a first insertion block (1-3-1), a second insertion block (1-3-3) and an elastic body (1-3-5);

the first end face of the elastic body (1-3-5) in the elastic direction is connected with one side face of the first insertion block (1-3-1), and the second end face of the elastic body in the elastic direction is connected with one side face of the second insertion block (1-3-3);

a first limiting guide frame (1-3-2) is arranged at the top of the first plug-in block (1-3-1) along the elastic direction of the elastic body (1-3-5), and a first clamping part and a first guide part which are matched and connected with the plug-in notch (1-4) are arranged on the opposite side surfaces of the first plug-in block (1-3-1) connected with the elastic body (1-3-5);

a second limiting guide frame (1-3-4) is arranged at the top of the second inserting block (1-3-3) along the elastic direction of the elastic body (1-3-5), and a second clamping part and a second guide part which are matched and connected with the inserting groove opening (1-4) are arranged on the opposite side surfaces of the second inserting block (1-3-3) connected with the elastic body (1-3-5);

the bottom of the main pipeline bracket (1) is also provided with a first butt joint groove connected with the first limiting guide frame (1-3-2) and a second butt joint groove connected with the second limiting guide frame (1-3-4);

the main pipeline support (1) is provided with dismounting holes (1-8) communicated with the inserting notches (1-4) in the elastic direction of the elastic bodies (1-3-5).

3. A flexible multilayer piping bracket according to claim 2, wherein: the first clamping part is a right-angle limiting opening formed at the joint of the top surface and the side surface of the first insertion block (1-3-1); the second clamping part is a right-angle limiting opening formed at the joint of the top surface and the side surface of the second insertion block (1-3-3).

4. A flexible multilayer piping bracket according to claim 2, wherein: the first guide part is an inclined section formed on the side surface of the first plug-in block (1-3-1); the second guide part is an inclined section formed on the side surface of the second insertion block (1-3-3).

5. A flexible multilayer piping bracket according to claim 2, wherein: the cross sections of the first limiting guide frame (1-3-2) and the second limiting guide frame (1-3-4) are both in a T shape.

6. A flexible multilayer piping bracket according to claim 1, wherein: a first vertical side wall of the main pipeline support (1) is provided with a limiting connecting groove (1-5) axially arranged along the first pipeline mounting groove (1-1), and a second vertical side wall of the main pipeline support (1) is provided with a limiting connecting bulge (1-6) axially arranged along the first pipeline mounting groove (1-1); the limiting connecting groove (1-5) of one main pipeline support (1) is detachably connected with the limiting connecting bulge (1-6) of the other main pipeline support (1).

7. A flexible multilayer piping bracket according to claim 6, wherein: the axial first end of the limiting connecting groove (1-5) is closed and arranged, the axial second end of the limiting connecting groove is opened, and a limiting screw mounting hole (1-7) is formed in the position, close to the axial second end of the limiting connecting groove (1-5), of the main pipeline support (1).

8. A flexible multilayer piping bracket according to claim 7, wherein: the cross section of the limiting connecting groove (1-5) is trapezoidal.

9. A flexible multilayer piping bracket according to claim 7, wherein: the number of the first pipeline mounting grooves (1-1) of the main pipeline support (1) is 1-4.

10. A flexible multilayer piping bracket according to claim 1, wherein: the main pipeline support (1) is provided with finger holding holes (1-9).

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