CN218208169U - Pipeline shock absorption support for house - Google Patents

Abstract

The utility model relates to a pipeline shock absorber support that house was used uses in pipeline support's field, and it includes link, connecting rod and coupling spring, and the one end of link is fixed on the girder steel that is used for constituting building structure, and the other end of link is worn to locate by the connecting rod, and on the connecting rod was located to the coupling spring cover, coupling spring supported the inner wall tight in the link through the bolt, still included the mounting panel for the pipeline of transmission is fixed in through damper assembly on the mounting panel, the mounting panel is fixed in through fixed subassembly on the connecting rod. This application has the difficult condition that takes place not hard up and drop when reducing the pipeline vibration, reduces the possibility that the pipeline dropped, the higher effect of security.

Description

Pipeline shock absorption support for house

Technical Field

The application relates to the field of pipeline brackets, in particular to a pipeline damping bracket for a house.

Background

The pipeline support is a structural member used for aerial laying of a pipeline and supporting the pipeline. Pipe racks are used in most applications for laying pipes, also known as pipe supports, pipe sections, etc.

Chinese patent with publication number CN203686366U discloses a pipeline shock absorption support for can having enough to meet need formula house, it includes the connecting rod, the connecting rod upper end penetrates in the link, the link passes through bolt and nut connection on house steel skeleton, damping spring and adjusting nut embolia the connecting rod upper end in proper order, the backing plate is placed at the damping spring both ends, damping spring settles at the link inboard, the connecting rod lower extreme has the pipe hoop through bolted connection, the pipeline is worn to locate in the pipe hoop.

In view of the above-mentioned related technologies, the inventor thinks that the fluid in the pipe will cause the pipe vibration due to the large flow rate change during the transmission process, so the bolt for fixing the pipe clamp needs to resist the pipe vibration while bearing the gravity of the pipe, and therefore the pipe is easy to loosen and even fall off, so that the pipe may fall off from the steel skeleton, and the safety is low.

SUMMERY OF THE UTILITY MODEL

In order to improve the bolt still need resist the vibration of pipeline when bearing the gravity of pipeline, the problem of the condition that easily takes place not hard up or even drops, this application provides a pipeline shock absorber support that house was used.

The application provides a pipeline shock absorber support that house was used adopts following technical scheme:

the utility model provides a pipeline shock attenuation support that house was used, includes link, connecting rod and coupling spring, and the one end of link is fixed on the girder steel that is used for constituting building structure, and the other end of link is worn to locate by the connecting rod, and on the connecting rod was located to the coupling spring cover, coupling spring supported tightly in the inner wall of link through the bolt, still included the mounting panel for the pipeline of transmission is fixed in through damper, on the mounting panel, the mounting panel is fixed in through fixed subassembly on the connecting rod.

By adopting the technical scheme, the damping assembly can weaken the vibration transmitted from the pipeline to the mounting plate, thereby reducing the influence of the pipeline vibration on the fixing assembly and improving the fixing effect of the fixing assembly on the mounting plate and the connecting rod; fixed subassembly can bear the weight of pipeline, consequently still can make the mounting panel support the pipeline when damper appears becoming flexible or damaging, makes the pipeline be difficult for dropping, and the security is higher.

Optionally, shock-absorbing component includes a pair of shock attenuation staple bolt, a plurality of shock attenuation arc board, attenuator and damping spring, and is a pair of the both ends of shock attenuation staple bolt are all fixed mutually through shock attenuation bolt, one of them the shock attenuation staple bolt is fixed in through buffering subassembly on the mounting panel, it is a pair of to wear to locate for the pipeline of transmission the shock attenuation staple bolt encloses to establish the region of formation in, and is a pair of all be equipped with a plurality of shock attenuation grooves on the inner wall of shock attenuation staple bolt, the attenuator is located in the shock attenuation groove, the one end of attenuator is fixed in on the diapire of shock attenuation groove, the other end is fixed in on the shock attenuation arc board, the damping spring cover is located on the attenuator, the attenuator will the shock attenuation arc board is supported tightly on the outer wall of the pipeline that is used for the transmission.

By adopting the technical scheme, the damper and the damping spring can weaken the vibration transmitted to the mounting plate by the pipeline and reduce the influence of the pipeline vibration on the fixed assembly; the shock absorption arc plate moves under the stretching of the shock absorption spring, so that pipelines of different specifications can be fixed and damped, and the applicability is good.

Optionally, the buffering subassembly includes buffer tube, cushion socket, buffer beam and buffer spring, buffer tube is fixed in on the buffer socket, the buffer socket is fixed in on the mounting panel, one of them is fixed in to the one end of buffer beam on the shock attenuation staple bolt, the other end of buffer beam extends to in the buffer tube, buffer spring locates in the buffer tube, buffer spring's one end is fixed in on the buffer socket, buffer spring's the other end is fixed in on the buffer beam.

Through adopting above-mentioned technical scheme, when the pipeline drives the vibration staple bolt vibration because of vibrating too big, buffer spring can play the cushioning effect, further weakens the pipeline transmission to the vibration of mounting panel, reduces the pipeline vibration to fixed subassembly's influence.

Optionally, a first limiting plate is arranged at one end, close to the mounting plate, of the buffer rod, a second limiting plate is arranged at the inner edge, close to one end of the hoop, of the buffer sleeve, one end, far away from the buffer seat, of the buffer spring is fixed to the first limiting plate, and the first limiting plate abuts against the second limiting plate.

Through adopting above-mentioned technical scheme, under buffer spring's effect, limiting plate one supports tightly in limiting plate two, therefore the buffer beam is difficult for slipping in the buffering cover, makes on damping component can be fixed in the mounting panel, has improved damping component's stability.

Optionally, the fixing assembly comprises a fixing plate and a pair of fixing wrap angles, the fixing plate is clamped on the edge of the mounting plate, the connecting rod is connected to the fixing plate, the fixing wrap angles are correspondingly arranged at two ends of the fixing plate one to one, and the fixing wrap angles are coated on corners of the mounting plate.

Through adopting above-mentioned technical scheme, the back is gone up at the border of mounting panel to the fixed plate joint, and fixed cornerite is further spacing fixed to the mounting panel, therefore the mounting panel is difficult not hard up break away from in the fixed plate, even if consequently when damper appears becoming flexible or when damaging, the mounting panel still can support the pipeline under the fixed of fixed plate, makes the pipeline be difficult for dropping, and the security is higher.

Optionally, a plurality of reinforcing ribs are arranged at the connection position of the connecting rod and the fixing plate.

Through adopting above-mentioned technical scheme, the steadiness that connecting rod and fixed plate are connected can be promoted to the stiffening rib, therefore the mounting panel when bearing pipeline weight, and the fixed plate is difficult for the fracture to break away from in the connecting rod to further promote the security that the mounting panel supported the pipeline.

Optionally, be equipped with the holding tank on the mounting panel, be equipped with the protective layer in the holding tank, the protective layer includes protection pad and a plurality of protection gasbag, and is a plurality of protection gasbag interval is located the holding tank bottom, protection pad is located a plurality of on the protection gasbag, the cushion socket is located on the protection pad.

Through adopting above-mentioned technical scheme, the protective layer can further weaken the pipeline on the one hand and transmit the vibration to the mounting panel, reduces the pipeline vibration to fixed subassembly's influence, and the wearing and tearing that on the other hand reducible buffer base and mounting panel produced because of pipeline vibration prolong the life of buffer base and mounting panel.

Optionally, a plurality of shock attenuation arc boards all are equipped with the buffer layer towards one side of the pipeline that is used for the transmission, the shock attenuation arc board will the buffer layer supports tightly on the outer wall of the pipeline that is used for the transmission.

Through adopting above-mentioned technical scheme, the shock-absorbing layer can further weaken the vibration of pipeline on the one hand, and on the other hand also can support the shock attenuation arc board tightly in the pipeline outer wall when damping spring, reduces the wearing and tearing that shock attenuation arc board and pipeline produced because of rigid connection, prolongs the life of shock attenuation arc board and pipeline.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the damping assembly can weaken the vibration transmitted to the mounting plate by the pipeline, so that the influence of the pipeline vibration on the fixing assembly is reduced, and the fixing effect of the fixing assembly on the mounting plate and the connecting rod is improved; the fixing component can bear the weight of the pipeline, so that the mounting plate can still support the pipeline when the damping component is loosened or damaged, the pipeline is not easy to fall off, and the safety is high;

2. the damper and the damping spring can weaken the vibration transmitted to the mounting plate by the pipeline and reduce the influence of the pipeline vibration on the fixed assembly; the shock absorption arc plate moves under the stretching of the shock absorption spring, so that pipelines with different specifications can be fixed and absorbed, and the applicability is good;

3. the fixed plate joint is back on the border of mounting panel, and fixed cornerite is further spacing fixed to the mounting panel, therefore the mounting panel is difficult not hard up to break away from in the fixed plate, even if consequently when damper assembly appears not hard up or damage, the mounting panel still can support the pipeline under the fixed of fixed plate, makes the pipeline difficult drop, and the security is higher.

Drawings

Fig. 1 is a schematic view of a pipe shock absorbing bracket for a house in an embodiment of the present application.

Fig. 2 is a sectional view of a pipe shock absorbing bracket for a house in an embodiment of the present application.

Reference numerals: 1. a connecting frame; 2. a connecting rod; 3. a connecting spring; 4. a steel beam; 5. a pipeline; 6. mounting a plate; 61. accommodating grooves; 7. a shock absorbing assembly; 71. a damping hoop; 711. a damping groove; 72. a shock absorbing arc plate; 73. a damper; 74. a damping spring; 75. a shock absorbing bolt; 8. a fixing assembly; 81. a fixing plate; 82. fixing a wrap angle; 9. a buffer assembly; 91. a buffer sleeve; 92. a buffer seat; 93. a buffer rod; 94. a buffer spring; 10. a first limiting plate; 11. a second limiting plate; 12. reinforcing ribs; 13. a protective layer; 131. a protection pad; 132. a protective airbag; 14. and a shock absorption layer.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses pipeline shock absorber support that house was used. Referring to fig. 1 and 2, the pipeline damping support comprises a connecting frame 1, a connecting rod 2, a connecting spring 3 and a mounting plate 6, wherein the connecting frame 1 is made of U-shaped steel, one end of the connecting frame 1 is fixed on a steel beam 4 of a house through a bolt, the connecting rod 2 penetrates through the other end of the connecting frame 1, the connecting spring 3 is sleeved on a part, located in the connecting frame 1, of the connecting rod 2, gaskets are sleeved on two ends of the connecting spring 3 on the connecting rod 2, a bolt is connected to one end, close to the steel beam 4, of the connecting rod 2 in a threaded manner, and the connecting spring 3 is abutted to the connecting frame 1 through the bolt; the mounting plate 6 is fixed between the two connecting rods 2 through a fixing component 8, and the pipeline 5 is fixed on the mounting plate 6 through a damping component 7. Therefore, the fixing component 8 and the damping component 7 can bear the weight of the pipeline 5 and weaken the vibration of the pipeline 5 respectively, so that the possibility that the pipeline 5 falls off from the steel beam 4 due to the fact that the pipeline 5 is fixed and damped by a single structure at the same time to cause structural loosening and damage can be reduced, and the safety of the whole pipeline damping support for fixedly supporting the pipeline 5 is improved.

Referring to fig. 2, specifically, the shock absorbing assembly 7 includes a pair of shock absorbing hoops 71, a plurality of shock absorbing arc plates 72, a damper 73 and a shock absorbing spring 74, two ends of the pair of shock absorbing hoops 71 are fixed by shock absorbing bolts 75, one of the shock absorbing hoops 71 is fixed on the mounting plate 6 by the buffer assembly 9, and the pipeline 5 is inserted into a clamping space formed by the pair of shock absorbing hoops 71; all be equipped with a plurality of shock attenuation grooves 711 along the circumference of pipeline 5 on a pair of shock attenuation staple bolt 71, a plurality of dampers 73 one-to-one sets up in a plurality of shock attenuation grooves 711, the one end of damper 73 is fixed in on the diapire of shock attenuation groove 711, the other end extends shock attenuation groove 711 and is fixed mutually with shock attenuation arc plate 72, damping spring 74 cover is located on damper 73, and damping spring 74 supports tightly between the diapire of shock attenuation groove 711 and shock attenuation arc plate 72, shock attenuation arc plate 72 supports tightly on the outer wall of pipeline 5 under damping spring 74's effort.

Therefore, damping spring 74 and attenuator 73 can weaken the produced vibration of pipeline 5, and the vibration that reduces pipeline 5 is transmitted to mounting panel 6, reduces the influence of pipeline 5 vibration to fixed subassembly 8 to promote the fixed effect of fixed subassembly 8 to mounting panel 6 and connecting rod 2, make fixed subassembly 8 be difficult for leading to pipeline 5 to drop because of not hard up the damage, the security is higher.

In addition, since the shock absorbing arc plate 72 can move under the expansion and contraction of the shock absorbing spring 74, the pipes 5 of different specifications can be fixed and damped, and the applicability of the whole shock absorbing assembly 7 is improved.

In the embodiment of the application, in order to enable the shock absorption assembly 7 to have a good shock absorption effect on the pipeline 5, the number of the dampers 73, the shock absorption springs 74 and the shock absorption arc plates 72 is set to be six, and certainly, the shock absorption effect can be further enhanced by continuously adding the dampers; in addition, the shock-absorbing layer 14 is bonded on one side, facing the pipeline 5, of the six shock-absorbing arc plates 72, and the shock-absorbing layer 14 is made of polyethylene materials, so that the shock-absorbing and corrosion-resisting performances are better, the service life is longer, the vibration of the pipeline 5 can be further weakened, meanwhile, the abrasion of the shock-absorbing arc plates 72 and the pipeline 5 due to rigid connection is reduced, and the service lives of the shock-absorbing arc plates 72 and the pipeline 5 are prolonged.

Referring to fig. 2, the buffering assembly 9 includes a buffering sleeve 91, a buffering seat 92, a buffering rod 93 and a buffering spring 94, specifically, the buffering seat 92 is fixed on the mounting plate 6, the buffering sleeve 91 is welded on the buffering seat 92, one end of the buffering rod 93 is welded on the shock-absorbing hoop 71, the other end of the buffering rod extends into the buffering sleeve 91 and is integrally formed with a limiting plate one 10, one end of the buffering sleeve 91 close to the shock-absorbing hoop 71 is provided with a limiting plate two 11 along the inner edge, the buffering spring 94 is disposed in the buffering sleeve 91, and one end of the buffering rod is fixed on the buffering seat 92, the other end of the buffering rod is fixed on the limiting plate one 10, the limiting plate one 10 abuts against the limiting plate two 11 under the effect of the buffering spring 94. Therefore, when the vibration amplitude of the pipeline 5 is large, and the vibration damping hoop 71 vibrates, the buffer rod 93 can slide in the buffer sleeve 91, so that the buffer spring 94 extends and retracts in a reciprocating manner to play a buffer role, the vibration transmitted to the mounting plate 6 by the pipeline 5 is further weakened, and the influence of the vibration of the pipeline 5 on the fixing component 8 is reduced; in addition, two 11 limiting plates can carry on spacingly to connecting rod 2, make buffer beam 93 be difficult for breaking away from in buffer tube 91 when sliding to be fixed in whole damper 7 on mounting panel 6, improved damper 7's stability.

Referring to fig. 2, the mounting portion corresponding to the buffer seat 92 on the mounting plate 6 is provided with a receiving groove 61, a protection layer 13 is provided in the receiving groove 61, the protection layer 13 includes a protection pad 131 and a plurality of protection airbags 132, the protection airbags 132 are uniformly distributed on the bottom wall of the receiving groove 61, the protection pad 131 is provided above the protection airbags 132, in the embodiment of the present application, the protection airbags 132 are commonly used for buffering and shock absorption airbags in the prior art, the protection pad 131 is made of rubber material, and the buffer seat 92 is actually also provided in the receiving groove 61 and located above the protection pad 131. Therefore, the protective layer 13 can further weaken the vibration transmitted from the pipeline 5 to the mounting plate 6, reduce the influence of the vibration of the pipeline 5 on the fixing component 8, reduce the abrasion of the buffer seat 92 and the mounting plate 6 caused by the vibration of the pipeline 5, and prolong the service life of the buffer seat 92 and the mounting plate 6.

Referring to fig. 1, the fixing assembly 8 includes a pair of fixing plates 81 and a pair of fixing wrap angles 82, in the embodiment of the present application, the fixing assembly 8 includes a pair of fixing plates 81 and four fixing wrap angles 82, the fixing plates 81 are clamped on two opposite sides of the mounting plate 6 one by one and welded on the connecting rods 2 one by one, so as to fix the mounting plate 6 below the steel beam 4; the four fixed wrap angles 82 are wrapped on the four corners of the mounting plate 6 in a one-to-one correspondence manner and are welded and fixed with the fixed plate 81, so that the mounting plate 6 can be limited. Therefore, the fixing plate 81 and the fixing wrap angle 82 can enhance the stability between the mounting plate 6 and the connecting rod 2, so that the mounting plate 6 is not easy to loosen, the bearing capacity of the mounting plate 6 is improved, and the mounting plate 6 can bear the weight of the pipeline 5, the damping assembly 7 and the buffer assembly 9. Therefore, even if the damping assembly 7 is loosened or damaged, the mounting plate 6 can still support the pipeline 5 under the fixation of the fixing plate 81, so that the pipeline 5 is not easy to fall off, and the safety is high.

Besides, a plurality of reinforcing ribs 12 are welded at the connecting part of the connecting rod 2 and the fixing plate 81, and the reinforcing ribs 12 can improve the connection stability of the connecting rod 2 and the fixing plate 81, so that when the mounting plate 6 bears the weight of the pipeline 5, the fixing plate 81 is not easy to break and separate from the connecting rod 2, and the supporting safety of the mounting plate 6 on the pipeline 5 is further improved.

The implementation principle of the pipeline shock absorption support for the house in the embodiment of the application is as follows: the pipeline 5 penetrates through a clamping space formed by the pair of damping hoops 71, the damping spring 74 is sleeved on the damper 73, the damping arc plate 72 is tightly abutted to the outer wall of the pipeline 5 under the action force of the damping spring 74, the damping spring 74 and the damper 73 can weaken the vibration transmitted from the pipeline 5 to the mounting plate 6, reduce the influence of the vibration of the pipeline 5 on the fixing component 8, improve the fixing effect of the fixing component 8 on the mounting plate 6 and the connecting rod 2, and enable the fixing component 8 not to be easily loosened and damaged to cause the pipeline 5 to fall; a pair of fixed plate 81 one-to-one joint is on two relative sides of mounting panel 6, four fixed cornerite 82 one-to-one cladding are on four corners of mounting panel 6, and with fixed plate 81 welded fastening, therefore can be spacing and fixed mounting panel 6 and promote mounting panel 6's stability and bearing capacity, therefore even if when damper 7 appears becoming flexible or damaging, mounting panel 6 still can support pipeline 5 under fixed of fixed plate 81, make pipeline 5 be difficult for dropping, the security is higher.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a pipeline shock absorber support that house was used, includes link (1), connecting rod (2) and coupling spring (3), and the one end of link (1) is fixed on girder steel (4) that are used for constituting building structure, and the other end of link (1) is worn to locate in connecting rod (2), and on connecting rod (2) was located in coupling spring (3) cover, coupling spring (3) supported tightly in the inner wall of link (1) through the bolt, its characterized in that: still include mounting panel (6), be used for pipeline (5) of transmission to be fixed in through damper assembly (7) on mounting panel (6), mounting panel (6) are fixed in through fixed subassembly (8) on connecting rod (2).

2. The pipe shock absorbing support for houses according to claim 1, wherein: shock-absorbing component (7) are including a pair of shock attenuation staple bolt (71), a plurality of shock attenuation arc board (72), attenuator (73) and damping spring (74), and it is a pair of both ends of shock attenuation staple bolt (71) are all fixed mutually through shock attenuation bolt (75), and one of them shock attenuation staple bolt (71) are fixed in through buffering subassembly (9) on mounting panel (6), and pipeline (5) for the transmission are worn to locate a pair ofly in shock attenuation staple bolt (71) enclose establishes the region of formation, and is a pair of all be equipped with a plurality of shock attenuation grooves (711) on the inner wall of shock attenuation staple bolt (71), attenuator (73) are located in shock attenuation groove (711), the one end of attenuator (73) is fixed in on the diapire of shock attenuation groove (711), the other end is fixed in on shock attenuation arc board (72), damping spring (74) cover is located on attenuator (73), attenuator (73) will arc board (72) support tightly on the outer wall of pipeline (5) that are used for the transmission.

3. The pipe shock absorbing support for houses according to claim 2, wherein: buffer unit (9) are including buffer tube (91), cushion socket (92), buffer beam (93) and buffer spring (94), buffer tube (91) are fixed in on buffer socket (92), buffer socket (92) are fixed in on mounting panel (6), the one end of buffer beam (93) is fixed in one of them on shock attenuation staple bolt (71), the other end of buffer beam (93) extends to in buffer tube (91), buffer spring (94) are located in buffer tube (91), the one end of buffer spring (94) is fixed in on buffer socket (92), the other end of buffer spring (94) is fixed in on buffer beam (93).

4. The pipe shock absorbing support for houses according to claim 3, wherein: buffer beam (93) are close to the one end of mounting panel (6) is equipped with limiting plate (10), buffer tube (91) are close to the inner edge of staple bolt one end is equipped with limiting plate two (11), buffer spring (94) are kept away from the one end of buffer seat (92) is fixed in on the limiting plate (10), limiting plate one (10) with limiting plate two (11) are inconsistent tight.

5. The pipe shock absorbing support for houses according to claim 1, wherein: fixed subassembly (8) are including fixed plate (81) and a pair of fixed cornerite (82), fixed plate (81) joint in on the border of mounting panel (6), connecting rod (2) connect in on fixed plate (81), it is a pair of fixed cornerite (82) one-to-one is located the both ends of fixed plate (81), fixed cornerite (82) cladding in on the corner of mounting panel (6).

6. The pipe shock absorbing support for houses according to claim 5, wherein: and a plurality of reinforcing ribs (12) are arranged at the joint of the connecting rod (2) and the fixing plate (81).

7. The pipe shock absorbing support for houses according to claim 3, wherein: be equipped with holding tank (61) on mounting panel (6), be equipped with protective layer (13) in holding tank (61), protective layer (13) are including protection pad (131) and a plurality of protection gasbag (132), and are a plurality of protection gasbag (132) interval is located holding tank (61) bottom, a plurality of are located in protection pad (131) on protection gasbag (132), buffer seat (92) are located on protection pad (131).

8. The pipe shock absorbing support for houses according to claim 2, wherein: the shock absorption arc plates (72) are provided with shock absorption layers (14) on one sides facing the pipeline (5) for transmission, and the shock absorption layers (14) are abutted to the outer wall of the pipeline (5) for transmission through the shock absorption arc plates (72).

Images