CN212429975U - Pipeline gallows structure with adjustable - Google Patents

Abstract

An adjustable pipeline hanger structure comprises a hanger, a connecting assembly, a vertical support, a first cross support, a second cross support and a first pipeline support; the hanger comprises a hanging rod and a cross arm; a connecting rod is penetrated in the hanging rod; the upper part of the connecting rod is provided with an anti-seismic component; the connecting component connects the connecting rod with the floor slab; the hanger rod is provided with a first horizontal slot; the cross arm is inserted in the first horizontal slot; a first vertical slot is arranged on the cross arm; the vertical support is inserted in the first vertical slot; a second horizontal slot is arranged on the vertical support; the first cross brace is connected between the hanging rod and the vertical brace, and two ends of the first cross brace are inserted into the first horizontal slot and the second horizontal slot; the first pipeline support is inserted on the first cross arm and/or the cross arm; two ends of the second cross brace are inserted into the corresponding first horizontal slots; the second cross brace is spliced with a bridge clamping piece; the cross arm is also inserted with a second pipeline support. The utility model provides a technical problem of the pipe adjustment of being not convenient for when traditional gallows and piping erection accomplish.

Description

Pipeline gallows structure with adjustable

Technical Field

The utility model belongs to the pipeline installation field, in particular to pipeline gallows structure with adjustable.

Background

The comprehensive supporting and hanging technology is suitable for places with various centralized pipeline arrangement and limited space. Especially for the parts with concentrated pipelines such as public walkways and the like of construction projects such as office buildings, hotels, shopping malls and the like, the comprehensive support and hanging frame is a unified support and hanging system which integrates support and hanging frames of various specialties such as air conditioners, fire fighting, strong electricity, weak electricity and the like in the installation project, and the comprehensive planning design is integrated. The comprehensive support and hanger in the prior art is formed by combining and welding steel materials such as channel steel, angle steel and the like, and the method has the following two types: 1. the horizontal position of the pipeline is not conveniently adjusted when the supporting and hanging frame is installed, and after the pipeline is adjusted, the cross arm needs to be newly processed to open a hole and then can fix the pipeline; 2. the height adjustment of the pipeline is not convenient for when the installation of the supporting and hanging frame is completed, after the pipeline is adjusted upwards, steel needs to be added to the original cross arm again to fix the pipeline, and after the pipeline is adjusted downwards, the supporting and hanging frame needs to be processed again, so that the length is increased, and materials are wasted.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a pipeline gallows structure with adjustable will solve traditional gallows and the technical problem of the pipe adjustment of being not convenient for when piping erection accomplishes.

In order to achieve the above purpose, the utility model adopts the following technical scheme.

An adjustable pipeline hanger structure comprises a hanger, a connecting assembly, a vertical support, a first cross support, a second cross support and a first pipeline support; the hanger comprises a hanging rod and a cross arm; the hanger rods are arranged in a group at intervals along the transverse direction, and each hanger rod is penetrated with a connecting rod; the upper part and the lower part of the connecting rod are respectively provided with a thread; the lower end of the connecting rod exceeds the bottom of the suspender and is fixed by a bottom nut; the upper end of the connecting rod exceeds the top of the suspender, and an anti-seismic component is arranged on the upper part of the connecting rod and the part of the connecting rod exceeding the suspender; the connecting assembly connects the connecting rod with the floor slab; first horizontal slots are formed in one side face of the hanging rod at intervals along the vertical direction; the cross arm is arranged between the two hanging rods at the most edge part, and two ends of the cross arm are correspondingly inserted into the first horizontal slot; first vertical slots are arranged on the cross arm at intervals along the transverse direction, and the lower end of the suspender positioned in the middle position is inserted into the corresponding first vertical slot and is fixed by a bottom nut; the vertical support is arranged between the adjacent suspension rods on the left side; the lower end of the vertical support is inserted into a first vertical slot of the cross arm; second horizontal slots are formed in the left side face of the vertical support at intervals along the vertical direction; the second horizontal slot is arranged corresponding to the first horizontal slot; the first cross brace is detachably connected between the hanger rod at the leftmost side and the vertical brace, and two ends of the first cross brace are respectively inserted into the first horizontal slot and the second horizontal slot; the first pipeline support is detachably connected to the first cross arm and/or the cross arm; the second cross arm is detachably connected between the adjacent suspension rods on the right side and is positioned above the cross arm, and two ends of the second cross arm are respectively inserted into the corresponding first horizontal slots; the second cross brace is detachably connected with a bridge clamping piece; and a second pipeline support is detachably connected to the cross arm below the second cross arm.

Preferably, a sealing plate is arranged at the bottom of the hanging rod; the sealing plate is provided with a first through hole which penetrates through the connecting rod.

Preferably, the connecting assembly comprises an expansion bolt and a connecting plate; the connecting plate is C-shaped and comprises an upper transverse section, a vertical section and a lower transverse section; the upper transverse section is provided with an upper connecting hole; the upper transverse section is attached to the bottom surface of the floor slab and is connected with the floor slab through expansion bolts penetrating through the corresponding upper connecting holes; the lower transverse section is provided with a lower connecting hole; the upper end of the connecting rod is arranged in the lower connecting hole of the lower transverse section in a penetrating way; the anti-seismic assembly is crimped on top of the lower cross section.

Preferably, the anti-seismic assembly comprises a spring, a lower end plate and an upper end plate; the lower end plate is connected to the bottom of the spring, and a second through hole penetrating through the connecting rod is formed in the lower end plate; the upper end plate is connected to the top of the spring; the anti-seismic assembly is sleeved on the position, exceeding the lower transverse section, of the connecting rod, the lower end plate is fixedly connected with the lower transverse section, and the upper end plate is fixedly connected with the top end of the connecting rod.

Preferably, the first cross brace is provided with second vertical slots at intervals along the transverse direction; the first pipeline support is used for penetrating a water pipe and comprises a supporting plate and a first insertion block; the supporting plate is semicircular, and a hole penetrating through the water pipe is formed in the middle of the plate surface of the supporting plate; the first inserting blocks are connected to the bottom of the supporting plate at intervals and are arranged corresponding to the first vertical slots or the second vertical slots; the first inserting block is inserted into the first vertical slot or the second vertical slot.

Preferably, third vertical slots are arranged on the second cross brace at intervals along the transverse direction; the bridge clamping pieces are arranged on two sides of a bridge to be installed and comprise clamping sections at the upper part and inserting sections at the lower part; one side of the clamping section, which is close to the bridge frame to be installed, is a vertical surface, and one side of the clamping section, which is far away from the bridge frame to be installed, is an inclined surface; the inserting sections are inserted into the corresponding third vertical slots.

Preferably, the second pipeline support is used for supporting and connecting an air pipe and comprises a bottom plate, a limiting block and a second insertion block; the bottom plate is horizontally arranged on the cross arm; the second insertion blocks are connected to the bottom of the bottom plate at intervals, and the first insertion blocks and the second vertical slots are arranged correspondingly; the second inserting block is inserted into the second vertical slot; the two limiting blocks are connected to the top of the bottom plate at intervals and positioned on two sides of the air pipe to be installed; the vertical tangent plane of the second plug-in block is a right triangle, one side of the second plug-in block, which is close to the air pipe to be installed, is a vertical plane, and one side of the second plug-in block, which is far away from the air pipe to be installed, is an inclined plane.

Preferably, the groove body depth of the first horizontal slot is 80 mm-120 mm, the height of the vertical side face in the groove is 80 mm-120 mm, and the height of the notch is 40 mm-60 mm; the distance between the adjacent first horizontal slots is 80 mm-120 mm.

Compared with the prior art, the utility model has the following characteristics and beneficial effect.

1. In the utility model, the hanging rod and the cross arm, the first cross arm and the second cross arm are spliced through the slots, the vertical support and the cross arm and the first cross arm are spliced through the slots, the first pipeline support and the cross arm and the first cross arm are spliced through the slots, the second pipeline support and the cross arm are spliced through the slots, and the bridge clamp and the second cross arm are spliced through the slots; the design of the connecting structure of the utility model is convenient for adjusting the position in the later period; additionally, the utility model provides a on the horizontal slot of first horizontal slot owner and second respectively evenly distributed right trapezoid slot, the right angle part is located above, and the below is to the closed angle and presss from both sides the groove, avoids the easy atress landing after the concatenation.

2. The utility model provides a set up the spring between jib and the connecting plate, play absorbing effect.

3. The utility model provides a component is prefabricated standard component, but the construction adjustment after being convenient for to the height of cross arm, first stull and second stull is all adjustable, and the practicality is extensive, practical value is high.

4. The utility model provides a first pipeline holds in the palm, the second pipeline holds in the palm and the transverse position of crane span structure fastener is adjustable, can adjust according to the concrete trend of pipeline in the work progress, convenient operation, the efficiency of construction is high.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 is a schematic front view of an adjustable pipeline hanger structure according to the present invention.

Fig. 2 is a schematic view of the bottom node structure of the middle suspension rod of the present invention.

Fig. 3 is a schematic structural view of the middle vertical support of the present invention.

Fig. 4 is a schematic view of the connection structure of the boom and the connection plate of the present invention.

Fig. 5 is a schematic structural diagram of the first pipeline bracket of the present invention.

Fig. 6 is a schematic structural diagram of a second pipeline support of the present invention.

Fig. 7 is a schematic structural diagram of the bridge clamping member of the present invention.

Fig. 8 is a schematic structural view of a first cross brace in the present invention.

Fig. 9 is a schematic structural diagram of the cross arm of the present invention.

Fig. 10 is a schematic structural view of a second wale in the present invention.

Fig. 11 is a schematic structural diagram of the middle connection plate of the present invention.

Reference numerals: 1-vertical support, 2-first cross support, 2.1-second plug end, 3-first pipeline support, 3.1-supporting plate, 3.2-first plug block, 4-hanging rod, 5-cross arm, 5.1-first plug end, 6-connecting rod, 7-bottom nut, 8-floor, 9-first horizontal slot, 10-first vertical slot, 11-second horizontal slot, 12-second cross support, 12.1-third plug end, 13-bridge clamp, 13.1-clamp section, 13.2-plug section, 14-second pipeline support, 14.1-bottom plate, 14.2-limiting block, 14.3-second plug block, 15-sealing plate, 16-first perforation, 17-expansion bolt, 18-connecting plate, 18.1-upper cross section, 18.2-lower cross section, 18.3-vertical section, 19-upper connecting hole, 20-spring, 21-lower cross section, 21-upper end plate, 22-lower end plate, 23-vertical end plate, 24-vertical gasket, 26-vertical slot, 26-vertical connecting hole, 27-lower connecting hole.

Detailed Description

As shown in fig. 1-11, the adjustable pipeline hanger structure comprises a hanger, a connecting assembly, a vertical support 1, a first cross support 2, a second cross support 12 and a first pipeline support 3; the hanging bracket comprises a hanging rod 4 and a cross arm 5; the hanger rods 4 are arranged in a group at intervals along the transverse direction, and each hanger rod 4 is provided with a connecting rod 6 in a penetrating way; the upper part and the lower part of the connecting rod 6 are respectively provided with a thread; the lower end of the connecting rod 6 exceeds the bottom of the suspender 4 and is fixed by a bottom nut 7; the upper end of the connecting rod 6 exceeds the top of the suspender 4, and an anti-seismic component is arranged on the upper part of the connecting rod 6 and the part exceeding the suspender 4; the connecting assembly connects the connecting rod 6 with the floor slab 8; first horizontal slots 9 are vertically arranged on one side surface of the suspender 4 at intervals, the top surfaces of the first horizontal slots 9 are horizontal planes, and the bottom surfaces of the first horizontal slots 9 are inclined planes which are gradually inclined downwards from outside to inside; the cross arm 5 is arranged between the two hanger rods 4 at the extreme edge part, and two ends of the cross arm 5 are provided with first inserting ends 5.1 which are matched with the first horizontal slot 9; the first inserting ends 5.1 at two sides of the cross arm 5 are correspondingly inserted into the first horizontal slot 9; first vertical slots 10 are arranged on the cross arm 5 at intervals along the transverse direction, and the lower end of the suspender 4 positioned in the middle position is inserted into the corresponding first vertical slot 10 and is fixed by a bottom nut 7; the vertical support 1 is arranged between the adjacent suspension rods 4 on the left side; the lower end of the vertical support 1 is inserted into a first vertical slot 10 of the cross arm 5; second horizontal slots 11 are arranged on the left side surface of the vertical support 1 at intervals along the vertical direction; the second horizontal slot 11 is arranged corresponding to the first horizontal slot 9, and the shape of the second horizontal slot 11 is adapted to the shape of the first horizontal slot 9; the first cross brace 2 is connected between the leftmost suspender 4 and the vertical brace 1, and two ends of the first cross brace 2 are provided with second inserting ends 2.1 which are matched with the first horizontal slot 9; the second inserting ends 2.1 at two sides of the first cross brace 2 are respectively inserted into the first horizontal slot 9 and the second horizontal slot 11; the first pipeline support 3 is detachably connected to the first cross arm 2 and/or the cross arm 5; the second cross arm 12 is connected between the adjacent suspension rods 4 on the right side and is positioned above the cross arm 5; a third inserting end 12.1 which is matched with the first horizontal slot 9 is arranged at the two ends of the second cross brace 12; the third inserting ends 12.1 at the two sides of the second cross brace 12 are respectively inserted into the corresponding first horizontal slots 9; the second cross brace 12 is detachably connected with a bridge clamping piece 13; a second pipeline support 14 is detachably connected to the cross arm 5 below the second cross arm 12.

In this embodiment, a sealing plate 15 is disposed at the bottom of the suspension rod 4; a first through hole 16 is formed in the closing plate 15 to pass through the connecting rod 6.

In this embodiment, the connecting assembly includes an expansion bolt 17 and a connecting plate 18; the connecting plate 18 is C-shaped and comprises an upper transverse section 18.1, a vertical section 18.3 and a lower transverse section 18.2; the upper transverse section 18.1 is provided with an upper connecting hole 19; the upper transverse section 18.1 is attached to the bottom surface of the floor slab 8 and is connected with the floor slab 8 through expansion bolts 17 penetrating through corresponding upper connecting holes 19; the lower transverse section 18.2 is provided with a lower connecting hole 27; the upper end of the connecting rod 6 is arranged in a lower connecting hole 27 of the lower transverse section 18.2 in a penetrating way; the seismic assembly is crimped on top of the lower cross section 18.2.

In this embodiment, the anti-vibration assembly includes a spring 20, a lower end plate 21 and an upper end plate 22; the lower end plate 21 is connected to the bottom of the spring 20, and a second through hole penetrating through the connecting rod 6 is formed in the lower end plate 21; the upper end plate 22 is connected to the top of the spring 20; the anti-seismic component is sleeved on the part of the connecting rod 6 exceeding the lower transverse section 18.2, the lower end plate 21 is fixedly connected with the lower transverse section 18.2, and the upper end plate 22 is fixedly connected with the top end of the connecting rod 6.

In this embodiment, the first cross brace 2 is provided with second vertical slots 23 at intervals along the horizontal direction; the first pipeline support 3 is used for penetrating a water pipe and comprises a supporting plate 3.1 and a first insertion block 3.2; the supporting plate 3.1 is semicircular, and a hole 24 penetrating through a water pipe is formed in the middle of the plate surface of the supporting plate 3.1; the first inserting blocks 3.2 are arranged in a group and are connected to the bottom of the supporting plate 3.1 at intervals, and the first inserting blocks 3.2 are arranged corresponding to the first vertical slots 10 or the second vertical slots 23; the first plug-in block 3.2 is plugged into the first vertical slot 10 or the second vertical slot 23.

In this embodiment, the second cross brace 12 is provided with third vertical slots 25 at intervals along the horizontal direction; the bridge clamping pieces 13 are arranged on two sides of a bridge to be installed and comprise clamping sections 13.1 at the upper part and inserting sections 13.2 at the lower part; one side of the clamping section 13.1 close to the bridge to be installed is a vertical surface, and one side of the clamping section 13.1 far away from the bridge to be installed is an inclined surface; the plug-in sections 13.2 are plugged into corresponding third vertical slots 25.

In this embodiment, the second pipeline bracket 14 is used for supporting an air receiving pipe, and includes a bottom plate 14.1, a limiting block 14.2 and a second inserting block 14.3; the bottom plate 14.1 is horizontally arranged on the cross arm 5; the second inserting blocks 14.3 are arranged in a group and are connected to the bottom of the bottom plate 14.1 at intervals, and the first inserting blocks 3.2 are arranged corresponding to the second vertical slots 23; the second plug-in block 14.3 is plugged in the second vertical slot 23; two limiting blocks 14.2 are connected to the top of the bottom plate 14.1 at intervals and located on two sides of the air pipe to be installed; the vertical tangent plane of the second inserting block 14.3 is in a right triangle shape, one side of the second inserting block 14.3 close to the air pipe to be installed is a vertical surface, and one side of the second inserting block 14.3 far away from the air pipe to be installed is an inclined surface.

In the embodiment, the depth of the groove body of the first horizontal slot 9 is 80 mm-120 mm, the height of the vertical side surface in the groove is 80 mm-120 mm, and the height of the groove opening is 40 mm-60 mm; the distance between the adjacent first horizontal slots 9 is 80 mm-120 mm.

In this embodiment, the distance between the first vertical slots 10 is not less than 20mm, the distance between the second vertical slots 23 is not less than 20mm, and the distance between the third vertical slots 25 is not less than 20 mm.

In this embodiment, a rubber pad is arranged on the surface of the first pipeline support 3 contacting with the water pipe; a rubber pad is arranged on the surface of the second pipeline support 14, which is in contact with the air pipe; and a rubber pad is arranged on the contact surface of the bridge clamping piece 13 and the bridge.

In this embodiment, the hanger rod 4 is formed by processing a rectangular tube slot with a thick wall of 100mm × 200mm × 2.5 mm; the bottom nut 7 is a double bolt, and a gasket 26 is arranged between the bottom nut 7 of the extreme part suspender 4 and the sealing plate 15; the lower end of the connecting rod 6 in the suspender 4 at the middle position passes through the cross arm 5, the bottom nut 7 is positioned at the bottom of the cross arm 5, and a gasket 26 is also arranged between the bottom nut 7 and the cross arm 5 in a cushioning mode.

In this embodiment, the cross arm 5 is formed by processing a 100mm × 200mm × 2.5mm thick-wall rectangular pipe cutting groove, and the planar dimension of the first vertical slot 10 is 20mm × 20 mm.

In the embodiment, the vertical support 1 is formed by processing a rectangular tube grooving of 100mm × 200mm × 2.5mm, the groove body depth of the second horizontal slot 11 is 80 mm-120 mm, the height of the vertical side surface in the groove is 80 mm-120 mm, and the height of the groove opening is 40 mm-60 mm; the distance between the adjacent first horizontal slots 9 is 80 mm-120 mm.

In this embodiment, rubber gaskets are respectively padded between the first pipeline support 3 and the cross arm 5 and between the first pipeline support 3 and the first cross arm 2; a rubber gasket is arranged between the bridge clamping piece 13 and the second cross brace 12 in a cushioning manner; a rubber gasket is padded between the second pipeline support 14 and the cross arm 5.

The adjustable pipeline hanger structure comprises the following steps.

And step one, load calculation of the electromechanical pipeline is carried out.

And step two, drawing a comprehensive layout of the engine electric pipelines, and determining the lengths of the suspender 4, the cross arm 5, the first cross arm 2, the vertical arm 1 and the second cross arm 12 and the positions of the first vertical slot 10, the first horizontal slot 9, the second horizontal slot 11, the second vertical slot 23 and the third vertical slot 25.

And step three, assembling the hanging bracket.

And step four, fixing the connecting plate 18 on the floor slab 8.

And step five, mounting a hanging bracket.

And step six, installing the vertical support 1 and the first cross support 2.

And step seven, installing the first cross arm 2 and the first pipeline support 3 on the cross arm 5.

And step eight, installing the water pipe in the first pipeline support 3.

And step nine, mounting the second cross brace 12 and the bridge clamping piece 13.

And step ten, mounting the bridge.

Step eleven, installing a second pipeline support 14 and an air pipe until the construction is finished.

Claims (8)

1. An adjustable pipeline hanger structure comprises a hanger, a connecting assembly, a vertical support (1), a first cross support (2), a second cross support (12) and a first pipeline support (3); the hanging bracket comprises a hanging rod (4) and a cross arm (5); the method is characterized in that: the hanger rods (4) are arranged in a group at intervals along the transverse direction, and each hanger rod (4) is provided with a connecting rod (6) in a penetrating way; the upper part and the lower part of the connecting rod (6) are respectively provided with a thread; the lower end of the connecting rod (6) exceeds the bottom of the suspender (4) and is fixed by a bottom nut (7); the upper end of the connecting rod (6) exceeds the top of the suspender (4), and an anti-seismic component is arranged on the upper part of the connecting rod (6) and the part exceeding the suspender (4); the connecting assembly connects the connecting rod (6) with the floor (8); a first horizontal slot (9) is formed in one side surface of the hanger rod (4) at intervals along the vertical direction; the cross arm (5) is arranged between the two hanger rods (4) at the most edge part, and two ends of the cross arm (5) are correspondingly inserted into the first horizontal slot (9); first vertical slots (10) are arranged on the cross arm (5) at intervals along the transverse direction, and the lower end of the suspender (4) positioned in the middle position is inserted into the corresponding first vertical slot (10) and is fixed by a bottom nut (7); the vertical support (1) is arranged between the adjacent suspension rods (4) on the left side; the lower end of the vertical support (1) is inserted into a first vertical slot (10) of the cross arm (5); second horizontal slots (11) are arranged on the left side surface of the vertical support (1) at intervals along the vertical direction; the second horizontal slot (11) is arranged corresponding to the first horizontal slot (9); the first cross brace (2) is detachably connected between the leftmost suspender (4) and the vertical brace (1), and two ends of the first cross brace (2) are respectively inserted into the first horizontal slot (9) and the second horizontal slot (11); the first pipeline support (3) is detachably connected to the first cross arm (2) and/or the cross arm (5); the second cross arm (12) is detachably connected between the adjacent suspension rods (4) on the right side and is positioned above the cross arm (5), and two ends of the second cross arm (12) are respectively inserted into the corresponding first horizontal slots (9); a bridge clamping piece (13) is detachably connected to the second cross brace (12); a second pipeline support (14) is detachably connected to the cross arm (5) below the second cross arm (12).

2. The adjustable pipeline hanger structure of claim 1, wherein: a sealing plate (15) is arranged at the bottom of the hanger rod (4); the sealing plate (15) is provided with a first through hole (16) which penetrates through the connecting rod (6).

3. The adjustable pipeline hanger structure of claim 1, wherein: the connecting assembly comprises an expansion bolt (17) and a connecting plate (18); the connecting plate (18) is C-shaped and comprises an upper transverse section (18.1), a vertical section (18.3) and a lower transverse section (18.2); the upper transverse section (18.1) is provided with an upper connecting hole (19); the upper transverse section (18.1) is attached to the bottom surface of the floor slab (8) and is connected with the floor slab (8) through expansion bolts (17) penetrating through corresponding upper connecting holes (19); the lower transverse section (18.2) is provided with a lower connecting hole (27); the upper end of the connecting rod (6) is arranged in a lower connecting hole (27) of the lower transverse section (18.2) in a penetrating way; the seismic resistant assembly is crimped on top of the lower cross section (18.2).

4. The adjustable pipeline hanger structure of claim 3, wherein: the anti-seismic assembly comprises a spring (20), a lower end plate (21) and an upper end plate (22); the lower end plate (21) is connected to the bottom of the spring (20), and a second through hole (()) penetrating through the connecting rod (6) is formed in the lower end plate (21); the upper end plate (22) is connected to the top of the spring (20); the anti-seismic component is sleeved on a position, exceeding the lower transverse section (18.2), of the connecting rod (6), the lower end plate (21) is fixedly connected with the lower transverse section (18.2), and the upper end plate (22) is fixedly connected with the top end of the connecting rod (6).

5. The adjustable pipeline hanger structure of claim 1, wherein: second vertical slots (23) are arranged on the first cross brace (2) at intervals along the transverse direction; the first pipeline support (3) is used for penetrating a water pipe and comprises a supporting plate (3.1) and a first insertion block (3.2); the supporting plate (3.1) is semicircular, and a hole (24) penetrating through a water pipe is formed in the middle of the surface of the supporting plate (3.1); the first inserting blocks (3.2) are arranged in a group and are connected to the bottom of the supporting plate (3.1) at intervals, and the first inserting blocks (3.2) are arranged corresponding to the first vertical slots (10) or the second vertical slots (23); the first plug-in block (3.2) is plugged into the first vertical slot (10) or the second vertical slot (23).

6. The adjustable pipeline hanger structure of claim 1, wherein: third vertical slots (25) are arranged on the second cross brace (12) at intervals along the transverse direction; the bridge clamping pieces (13) are arranged on two sides of a bridge to be installed and comprise clamping sections (13.1) at the upper part and inserting sections (13.2) at the lower part; one side, close to the bridge to be installed, of the clamping section (13.1) is a vertical surface, and one side, far away from the bridge to be installed, of the clamping section (13.1) is an inclined surface; the plug-in sections (13.2) are plugged into corresponding third vertical slots (25).

7. The adjustable pipeline hanger structure of claim 1, wherein: the second pipeline support (14) is used for supporting an air receiving pipe and comprises a bottom plate (14.1), a limiting block (14.2) and a second inserting block (14.3); the bottom plate (14.1) is horizontally arranged on the cross arm (5); the second insertion blocks (14.3) are arranged in a group and are connected to the bottom of the bottom plate (14.1) at intervals, and the first insertion blocks (3.2) are arranged corresponding to the second vertical slots (23); the second plug-in block (14.3) is plugged into a second vertical slot (23); two limiting blocks (14.2) are connected to the top of the bottom plate (14.1) at intervals and located on two sides of the air pipe to be installed; the vertical section of the second insertion block (14.3) is in a right-angled triangle shape, one side, close to the air pipe to be installed, of the second insertion block (14.3) is a vertical surface, and one side, far away from the air pipe to be installed, of the second insertion block (14.3) is an inclined surface.

8. The adjustable pipeline hanger structure of claim 1, wherein: the groove body depth of the first horizontal slot (9) is 80 mm-120 mm, the height of the vertical side face in the groove is 80 mm-120 mm, and the height of the groove opening is 40 mm-60 mm; the distance between the adjacent first horizontal slots (9) is 80 mm-120 mm.

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