CN210566682U - Novel shock attenuation gallows of tuber pipe - Google Patents

Abstract

The utility model discloses a novel shock attenuation gallows of tuber pipe belongs to engineering installation field, aims at providing a novel shock attenuation gallows of tuber pipe, and its technical scheme main points are including fixed cross arm, fixed cross arm both ends are equipped with the gallows, fixed cross arm is installed in two gallows belows through first bolt, be equipped with first shock attenuation packing ring between fixed cross arm and the gallows, first bolt is worn to establish on first shock attenuation packing ring, two the gallows top is equipped with the channel-section steel with fixed cross arm parallel arrangement, through second bolted connection between channel-section steel and the gallows, be equipped with second shock attenuation packing ring between channel-section steel and the gallows, the second bolt is worn to establish on second shock attenuation packing ring, and the tuber pipe is installed on fixed cross arm, the utility model has the advantages of the effect of shaking is stable, and can improve air conditioner tuber pipe system stability.

Description

Novel shock attenuation gallows of tuber pipe

Technical Field

The utility model relates to an engineering installation field, in particular to novel shock attenuation gallows of tuber pipe.

Background

The air conditioning air pipe system uses the cold and heat generated by the main machine to intensively process the return air (or the mixture of the return air and the fresh air) from the room, such as cooling, heating, humidifying, dehumidifying, purifying and the like, and then sends the air into the room.

An existing air pipe anti-seismic support hanger generally and directly passes through rigid support piece fixed support, when vibration is generated, each support piece is directly easy to collide and pull, the vibration times are increased continuously along with experience, connection between the support pieces is easy to loosen after a long time, stability of the whole support hanger is affected, and anti-seismic effect is poor and service life is shortened.

Chinese patent No. CN208024767U discloses a shock absorbing pipeline hanger, which comprises a fixed cross arm, wherein two ends of the fixed cross arm are welded to lower ends of suspension posts, a sliding fixed cross arm is arranged between the suspension posts at two ends of the fixed cross arm, and a group of spring assemblies are arranged between the sliding fixed cross arm and the fixed cross arm; the top of the sliding fixing cross arm is provided with a hoop.

The prior art scheme among the above-mentioned realizes keeping apart the indoor noise pollution that pipeline vibrations and displacement brought, also prevents to cause the house wall fracture because of the vibrations of fixed bolster simultaneously to ensure central air conditioning's normal operating. Among the above-mentioned technical scheme the gallows of air conditioner water pipe is applicable to the installation and the shock attenuation of air conditioner tuber pipe equally, but the spring that is located between fixed cross arm and the fixed cross arm of slip has fatigue life, and long-term operation must influence its shock attenuation effect, and when spring live time was longer, will influence the vibrations effect of gallows to the tuber pipe.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel shock attenuation gallows of tuber pipe has the shock attenuation effect and stabilizes, and can improve the advantage of air conditioner tuber pipe system stability.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the utility model provides a novel shock attenuation gallows of tuber pipe, includes fixed cross arm, fixed cross arm both ends are equipped with the gallows, fixed cross arm is installed in two gallows belows through first bolt, be equipped with first damping washer between fixed cross arm and the gallows, first bolt is worn to establish on first damping washer, two the gallows top is equipped with the channel-section steel with fixed cross arm parallel arrangement, pass through second bolted connection between channel-section steel and the gallows, be equipped with second damping washer between channel-section steel and the gallows, the second bolt is worn to establish on second damping washer, and the tuber pipe is installed on fixed cross arm.

Through adopting above-mentioned technical scheme, the tuber pipe is installed on fixed cross arm, fixed cross arm is installed in two gallows belows with first bolt, and be equipped with first shock attenuation packing ring between fixed cross arm and the gallows, two gallows are kept away from fixed cross arm one end and are installed in the channel-section steel below through the second bolt, and be equipped with second shock attenuation packing ring between gallows and the channel-section steel, the setting of first shock attenuation packing ring and second shock attenuation packing ring is used for reducing the vibrations that produce between the fixed cross arm at gallows and both ends and the channel-section steel, further reduce the vibrations of tuber pipe, the setting of first shock attenuation packing ring and second shock attenuation packing ring can make the connection at gallows both ends have the absorbing effect all the time, increase the performance of gallows, and reduce the vibrations between gallows and fixed cross arm and the channel-section steel, improve installation stability, further.

Furthermore, the top of the fixed cross arm is provided with an anti-corrosion cushion layer, and the air pipe is arranged on the anti-corrosion cushion layer.

Through adopting above-mentioned technical scheme, anticorrosive bed course can be used for preventing the tuber pipe corrosion on the one hand, improves the corrosion resistance of tuber pipe, and on the other hand can effectively keep apart the vibrations that the tuber pipe produced, prevents that vibrations on the tuber pipe from spreading to fixed cross arm, reduces the propagation of vibrations noise.

Furthermore, the top of the anticorrosion cushion layer is provided with an elastic layer, the top of the elastic layer is provided with a plurality of pairs of elastic bulges, and the air pipe is positioned at the tops of the elastic bulges.

Through adopting above-mentioned technical scheme, the elastic layer is located anticorrosive bed course top, and the elastic bulge at elastic layer top is contradicted in the tuber pipe bottom, and the elastic layer improves the frictional force of tuber pipe and bottom, and the elastic bulge on the elastic layer can increase the frictional force of tuber pipe and elastic layer simultaneously, prevents that the tuber pipe installation is unstable.

Furthermore, the elastic layer top is equipped with the ferrule, the ferrule includes first connecting piece and second connecting piece, the mounting hole that supplies the tuber pipe installation is formed in the relative one side concatenation of first connecting piece and second connecting piece, first connecting piece and second connecting piece are all connected with fixed cross arm through the third bolt.

Through adopting above-mentioned technical scheme, the ferrule plays the fixed action to the tuber pipe, and the ferrule divide into two parts, and first connecting piece and the mutual concatenation installation of second connecting piece, the tuber pipe is installed in the mounting hole that first connecting piece and second connecting piece splice, and first connecting piece and second connecting piece pass through third bolt fixed mounting on fixed cross arm, improve the installation stability of tuber pipe to reduce because the unstable vibrations noise that produces of tuber pipe installation.

Furthermore, a first mounting block is arranged at the top of the first connecting piece, a second mounting block is arranged at the top of the second connecting piece, and the first mounting block and the second mounting block are fixedly connected through a fourth bolt.

Through adopting above-mentioned technical scheme, screw up the fourth bolt on first installation piece and second installation piece, make the top of first connecting piece and second connecting piece be close to make first connecting piece and second connecting piece fixed the tuber pipe, prevent that the tuber pipe vibrations from transmitting to the ferrule on, producing vibrations noise.

Furthermore, a first elastic pad is arranged between the first mounting block and the second mounting block, and the fourth bolt penetrates through the first elastic pad.

Through adopting above-mentioned technical scheme, first cushion sets up between first installation piece and second installation piece, and the setting of first cushion can reduce the vibrations between first installation piece and the second installation piece, reduces the production of noise.

Furthermore, a rubber pad is arranged on the inner side wall of the mounting hole and abuts against the outer side wall of the air pipe.

Through adopting above-mentioned technical scheme, the rubber pad sets up on the mounting hole inner wall, and when the tuber pipe was installed in the mounting hole, the extrusion of tuber pipe lateral wall just contradicted on the rubber pad, reduces vibrations and friction between tuber pipe and the ferrule to reduce the production of vibrations noise.

Further, the channel-section steel is installed on the building structure board, just be connected through locking bolt between channel-section steel and the building structure board, be equipped with the second cushion between channel-section steel and the building structure board, locking bolt wears to establish on the second cushion.

Through adopting above-mentioned technical scheme, the channel-section steel passes through the locking bolt to be installed on the building structure board, and is equipped with the second cushion between channel-section steel and the building structure board, completely cuts off the vibrations that produce on the gallows of being connected below channel-section steel, the fixed cross arm on the gallows and the tuber pipe on the fixed cross arm to reduce the vibrations friction between channel-section steel and the building structure board, prevent simultaneously because vibrations cause the locking bolt not hard up, the channel-section steel installation is unstable.

To sum up, the utility model discloses following beneficial effect has:

1. through the arrangement of the first damping washer arranged between the fixed cross arm and the hanging bracket and the second damping washer arranged between the channel steel and the hanging bracket, the effects of reducing vibration and reducing vibration noise can be achieved;

2. through the arrangement of the anti-corrosion cushion layer, the effects of effectively isolating the vibration generated by the air pipe and reducing the sound pollution to the surrounding environment can be achieved;

3. the rubber pad that sets up in the mounting hole through first connecting piece and second connecting piece concatenation formation can play and reduce the vibrations in the tuber pipe and transmit the ferrule on, further reduces the effect of vibrations noise.

Drawings

FIG. 1 is a general schematic view of a novel damping hanger for embodying an air duct in the embodiment;

FIG. 2 is a schematic cross-sectional view of a shock absorbing hanger installed on a building structural panel;

fig. 3 is an enlarged view at a in fig. 2.

In the figure, 1, a cross arm is fixed; 11. a hanger; 111. a first bolt; 112. a first cushion ring; 13. channel steel; 131. a second bolt; 132. a second cushion washer; 14. an anti-corrosion cushion layer; 15. an elastic layer; 151. an elastic bulge; 2. a pipe hoop; 21. a first connecting member; 22. a second connecting member; 23. mounting holes; 231. a rubber pad; 24. a third bolt; 241. a first elastic pad; 25. a first mounting block; 26. a second mounting block; 27. a fourth bolt; 271. a second elastic pad; 3. a building structural panel; 31. locking the bolt; 4. and (7) an air pipe.

Detailed Description

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

Example (b):

the utility model provides a novel shock attenuation gallows of tuber pipe, as shown in fig. 1 and fig. 2, including fixed cross arm 1, fixed cross arm 1 both ends are equipped with gallows 11, fixed cross arm 1 is installed in two gallows 11 bottoms through first bolt 111, be equipped with first damping washer 112 between fixed cross arm 1 and the gallows 11, first bolt 111 wears to establish in first damping washer 112, two gallows 11 keep away from fixed cross arm 1 one end be equipped with fixed cross arm 1 parallel arrangement's channel-section steel 13, channel-section steel 13 passes through second bolt 131 with gallows 11 top and is connected, and be equipped with second damping washer 132 between channel-section steel 13 and the gallows 11, second bolt 131 wears to establish on second damping washer 132.

As shown in fig. 1 and 2, the air duct 4 is mounted on top of the fixed cross arm 1, vibration and noise are generated in the air duct 4 and transmitted to the fixed cross arm 1, and the first cushion washer 112 between the fixed cross arm 1 and the hanger 11 can reduce vibration between the fixed cross arm 1 and the hanger 11, prevent vibration from being transmitted to the hanger 11, thereby generating noise or causing the first bolt 111 to be loosened.

As shown in fig. 1 and 2, a second cushion ring 132 is arranged between the hanger 11 and the channel steel 13, the second cushion ring 132 further weakens the vibration of the hanger 11, prevents the vibration of the hanger 11 from being transmitted to the channel steel 13, and simultaneously prevents the vibration of the hanger 11 and the channel steel 13, and the vibration noise is generated by the vibration, so that the stability of the installation of the hanger 11 and the channel steel 13 can be improved while the vibration is reduced.

As shown in fig. 1 and 2, the channel 13 is installed on the building structure plate 3 away from the hanger 11, the channel 13 is installed on the building structure plate 3 through the locking bolt 31, a second elastic pad 271 is arranged between the channel 13 and the building structure plate 3, and the locking bolt 31 is inserted into the second elastic pad 271.

As shown in fig. 1 and 2, the channel steel 13 is installed on the building structure plate 3 through the locking bolt 31, the second elastic pad 271 is installed between the channel steel 13 and the building structure plate 3, the second elastic pad 271 is used for blocking the vibration generated on the channel steel 13 from being transmitted to the building structure plate 3, the building structure plate 3 is prevented from vibrating therewith, meanwhile, the second elastic pad 271 reduces the relative vibration between the channel steel 13 and the building structure plate 3 while weakening the vibration, and the installation between the channel steel 13 and the building structure plate 3 can be more stable.

As shown in fig. 2 and 3, an anti-corrosion cushion layer 14 is fixedly arranged on the top of the fixed cross arm 1, an elastic layer 15 is arranged on the top of the anti-corrosion cushion layer 14, a plurality of pairs of elastic protrusions 151 are arranged on the top of the elastic layer 15, and the air duct 4 is located above the elastic protrusions 151.

As shown in fig. 1 and 2, the anti-corrosion cushion layer 14 may be made of anti-corrosion materials such as glass fiber reinforced plastics and rubber products, and the anti-corrosion cushion layer 14 can effectively isolate the vibration generated by the air duct, and reduce the transmission of the vibration on the air duct 4 to the direction of the fixed cross arm 1, thereby reducing the vibration noise.

As shown in fig. 1 and 2, the elastic layer 15 is used to reduce the external vibration of the air duct, further isolate the air duct 4 from the vibration, protect the air duct 4, and reduce the external friction of the air duct 4.

As shown in fig. 1 and 2, a pipe hoop 2 is arranged at the top of the elastic layer 15 and used for fixing the air pipe 4, the pipe hoop 2 comprises a first connecting piece 21 and a second connecting piece 22, one side of the first connecting piece 21 opposite to the second connecting piece 22 is spliced to form a mounting hole 23 for mounting the air pipe 4, the first connecting piece 21 and the second connecting piece 22 are connected with the fixed cross arm 1 through a third bolt 24, and the two third bolts 24 sequentially penetrate through the elastic layer 15 and the anti-corrosion cushion layer 14 and are connected in the fixed cross arm 1 in a downward extending threaded manner.

As shown in fig. 1 and 2, a first mounting block 25 is disposed at the top of the first connecting member 21, a second mounting block 26 is disposed at the top of the second connecting member 22, the first mounting block 25 is fixedly connected to the second mounting block 26 through a fourth bolt 27, a second elastic pad 271 is disposed between the first mounting block 25 and the second mounting block 26, and the fourth bolt 27 is inserted into the second elastic pad 271.

As shown in fig. 1 and 2, the rubber pad 231 is disposed on the inner sidewall of the mounting hole 23, the rubber pad 231 is extruded on the outer sidewall of the air duct 4, and the rubber pad 231 abuts against the outer sidewall of the air duct 4, so that friction and vibration between the air duct 4 and the pipe clamp 2 can be reduced, and vibration noise can be reduced.

As shown in fig. 1 and 2, after the first connecting piece 21 and the second connecting piece 22 are installed on the fixed pipe hoop 2, the first installation block 25 and the second installation block 26 on the tops of the first connecting piece 21 and the second connecting piece 22 are installed, the first installation block 25 and the second installation block 26 are locked and fixed through the fourth bolt 27, and the second elastic pad 271 between the first installation block 25 and the second installation block 26 plays a role in damping and reducing friction, so that the generation of vibration noise between the first installation block 25 and the second installation block 26 is prevented.

The specific implementation process comprises the following steps: anticorrosion cushion layer 14 is placed in proper order at 1 top of fixed cross arm, elastic layer 15, place tuber pipe 4 at the 15 tops of elastic layer, install on fixed cross arm 1 through first connecting piece 21 and second connecting piece 22, fix spacingly to tuber pipe 4, rethread fourth bolt 27 is fixed spacingly to first installation piece 25 and second installation piece 26, thereby install tuber pipe 4 on fixed cross arm 1, 1 both ends top of fixed cross arm is equipped with gallows 11, install on channel-section steel 13 at two gallows 11 tops, install on building structure board 3 at channel-section steel 13 top.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a novel shock attenuation gallows of tuber pipe, includes fixed cross arm (1), its characterized in that: fixed cross arm (1) both ends are equipped with gallows (11), install in two gallows (11) below through first bolt (111) fixed cross arm (1), be equipped with first shock attenuation packing ring (112) between fixed cross arm (1) and gallows (11), first bolt (111) are worn to establish on first shock attenuation packing ring (112), two gallows (11) top is equipped with channel-section steel (13) with fixed cross arm (1) parallel arrangement, be connected through second bolt (131) between channel-section steel (13) and gallows (11), be equipped with second shock attenuation packing ring (132) between channel-section steel (13) and gallows (11), second bolt (131) are worn to establish on second shock attenuation packing ring (132), and install on fixed cross arm (1) tuber pipe (4).

2. The novel shock absorbing hanger for the air duct according to claim 1, wherein: the top of the fixed cross arm (1) is provided with an anti-corrosion cushion layer (14), and the air pipe is arranged on the anti-corrosion cushion layer (14).

3. The novel shock absorbing hanger for the air duct according to claim 2, wherein: anticorrosive bed course (14) top is equipped with elastic layer (15), elastic layer (15) top is equipped with a plurality of pairs of elastic bulge (151), and tuber pipe (4) are located elastic bulge (151) top.

4. The novel shock absorbing hanger for the air duct according to claim 3, wherein: elastic layer (15) top is equipped with ferrule (2), ferrule (2) are including first connecting piece (21) and second connecting piece (22), first connecting piece (21) and the relative one side concatenation of second connecting piece (22) form mounting hole (23) that supply tuber pipe (4) to install, first connecting piece (21) and second connecting piece (22) all are connected with fixed cross arm (1) through third bolt (24).

5. The novel shock absorbing hanger for the air duct according to claim 4, wherein: the top of the first connecting piece (21) is provided with a first mounting block (25), the top of the second connecting piece (22) is provided with a second mounting block (26), and the first mounting block (25) is fixedly connected with the second mounting block (26) through a fourth bolt (27).

6. The novel shock absorbing hanger for the air duct according to claim 5, wherein: a first elastic pad (241) is arranged between the first mounting block (25) and the second mounting block (26), and the fourth bolt (27) penetrates through the first elastic pad (241).

7. The novel shock absorbing hanger for the air duct according to claim 4, wherein: and a rubber pad (231) is arranged on the inner side wall of the mounting hole (23), and the rubber pad (231) is abutted against the outer side wall of the air pipe (4).

8. The novel shock absorbing hanger for the air duct according to claim 1, wherein: channel-section steel (13) are installed on building structure board (3), just be connected through locking bolt (31) between channel-section steel (13) and the building structure board, be equipped with second cushion (271) between channel-section steel (13) and building structure board (3), establish on second cushion (271) are worn in locking bolt (31).

Images