CN117781042A - Damping supporting device for casing pipe of electromechanical pipeline - Google Patents

Abstract

The invention discloses an electromechanical pipeline sleeve vibration reduction supporting device, which relates to the field of vibration reduction supporting and comprises a supporting beam, a water pipe fixing frame and a wind pipe fixing frame, wherein the water pipe fixing frame, the water pipe fixing frame and the wind pipe fixing frame are arranged at the top of the supporting beam, and a suspension mechanism and a multifunctional vibration reduction arm are arranged on two sides of the supporting beam. According to the invention, for an environment with a side wall body, the multifunctional vibration reduction arm is downwards arranged with the side wall, the suspension mechanism upwards assists in lifting, for an environment without the side wall body, the multifunctional vibration reduction arm is upwards lifted, the suspension mechanism is obliquely upwards arranged at the outer side, when in use, the vibration conduction with an external wall body is realized through the adjustable vibration absorber and the vibration reduction cylinder, and the elastic coefficients of the adjustable vibration absorber and the vibration reduction cylinder can be adjusted according to requirements.

Description

Damping supporting device for casing pipe of electromechanical pipeline

Technical Field

The invention relates to the technical field of vibration reduction support, in particular to an electromechanical pipeline sleeve vibration reduction support device.

Background

The electromechanical pipeline sleeve is a protective sleeve for water pipelines, lines and air channels which are arranged in a building or a comprehensive pipe gallery, and is usually arranged together for convenient overall management, and is arranged along the same direction after being independently packaged by different types of sleeves, and is mainly hung or supported by a metal piece by top mounting and side mounting.

When in actual use, the line pipeline belongs to a mute pipeline, no noise is generated during operation, but when the pipeline and the branch pipelines are used, the pipeline is easy to shake due to water flow impact and air flow impact, the installed external environment is influenced to a great extent, and a plurality of equipment layers are specially arranged for pipeline arrangement in the prior office buildings; however, because the installation is basically rigid contact, noise appears in the collision of metal parts, simultaneously the pipeline supports the assembly part and adopts the expansion screw to fix in the wall, vibration makes vibration easily through the assembly part conduction on the wall by a wide margin, thereby cause vibration sense and noise conduction to the external environment, influence life production, simultaneously the sleeve pipe adopts the concatenation formula more, the mutual influence of sleeve pipe mutual vibration of different grade type, make concatenation interface position also can appear not hard up because of the vibration, and when carrying out the assembly part installation, because the construction error of building, lead to the different installation point positions in same region, its darkness changes height or distance to have the difference, when actually installing, need cut the polishing to the metal part according to the scene actual conditions, influence the installation progress.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the vibration reduction supporting device for the electromechanical pipeline sleeve, which can solve the problems that the existing pipeline sleeve installation process is basically in rigid contact, noise is generated when metal parts collide with each other, meanwhile, the pipeline support assembly parts are fixed on a wall surface by adopting expansion screws, vibration is easily transmitted to the wall body by the assembly parts due to large-amplitude vibration, so that vibration feeling and noise transmission are caused to the external environment, life production is influenced, meanwhile, the sleeves are spliced, the positions of spliced interfaces are also loosened due to vibration due to mutual vibration of the sleeves, and when the assembly parts are installed, due to construction errors of a building, different installation points in the same area are different in dark rotation height or distance, and the metal parts are required to be cut and polished according to the actual condition of the site, so that the installation progress is influenced.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the vibration reduction supporting device for the electromechanical pipeline sleeve comprises a supporting beam, a water pipe fixing frame, a wire pipe fixing frame and a wind pipe fixing frame, wherein the water pipe fixing frame, the wire pipe fixing frame and the wind pipe fixing frame are arranged at the top of the supporting beam, and a suspension mechanism and a multifunctional vibration reduction arm are arranged on two sides of the supporting beam;

the multi-functional vibration damping arm includes:

the connecting steel sleeves are rotatably arranged at two ends of the supporting beam and can be used for top hoisting or side inclined bracing;

the length adjusting piece comprises an adjusting screw rod arranged in the connecting steel sleeve and an adjusting shock absorber arranged at the end part of the adjusting screw rod;

the installation direction of the adjustable shock absorber is adjusted according to the installation direction of the multifunctional damping arm, and the adjustable shock absorber can adjust the elastic coefficient;

the suspension mechanism includes:

a vibration damping cylinder rotatably provided at an end of the support cross beam;

and the extension rod is connected with the other end of the vibration reduction cylinder in a threaded manner.

Preferably, the length adjuster further includes:

the sliding seat is provided with anti-falling sliding grooves at two sides, the inner side wall of the connecting steel sleeve is provided with a guide rail, and the anti-falling sliding grooves slide in a matched manner with the guide rail;

one end of the connecting piece is rotationally connected with the adjusting screw rod, and the other end of the connecting piece is fixedly arranged with the sliding seat;

the fixed block is fixedly welded on the inner wall of the connecting steel sleeve, and the adjusting screw rod is in threaded connection with the inside of the fixed block.

Preferably, the tuned absorber includes:

the sliding shaft is inserted into the sliding seat;

the first vibration reduction spring, the sliding ring and the elastic adjusting piece are all arranged on the outer surface of the sliding shaft;

the first damping spring and the sliding ring are both arranged in the sliding seat in a sliding way;

the elastic adjusting piece is used for pushing the sliding ring to compress the first damping spring.

Preferably, the elastic regulating member includes:

the connecting ring is movably sleeved on the outer surface of the sliding shaft;

the connecting shaft is fixedly arranged between the connecting ring and the sliding ring, a guide chute is formed in the middle of the sliding shaft, and the connecting shaft is arranged in the guide chute in a sliding manner;

the threaded pipe is in threaded connection with the outer surface of the sliding shaft and is in rotary connection with the connecting ring;

the movable sleeve is connected to the outer surface of the threaded pipe in a sliding manner;

the baffle ring is fixedly sleeved on the outer surface of the threaded pipe and is connected in the movable sleeve in a sliding manner;

a locking spring arranged in the movable sleeve, the locking spring is propped against the baffle ring,

the clamping hole is annularly arranged at one side of the connecting ring;

and the clamping column is welded at the tail end of the movable sleeve and is clamped with the clamp Kong Huodong.

Preferably, the multifunctional vibration damping arm further comprises a fixing plate and an inserting piece arranged at the inner bottom of the fixing plate, connecting portions are arranged at two ends of the sliding shaft and are movably hinged with the inserting piece, matching pieces are welded on two sides of the sliding seat, and the connecting pieces and the matching pieces are arranged through bolts.

Preferably, the suspension mechanism further includes:

an extension screw which is screw-coupled to the inside of the extension rod;

a hinge support movably hinged to an end of the extension rod;

a rotation link rotatably provided at an end portion of the support cross beam;

the vibration reduction cylinder comprises:

the bottom end of the cylinder body is welded with a U-shaped frame, and the rotary connecting rod is movably hinged with the U-shaped frame;

the T-shaped pull rod is arranged in the cylinder body, and one end of the T-shaped pull rod is rotationally connected with the extension screw rod;

the second vibration reduction spring is arranged on the outer surface of the T-shaped pull rod;

the adjusting sleeve is arranged on the outer surface of the second damping spring;

the driving screw rod is rotatably connected to the tail end of the adjusting sleeve, and the other end of the driving screw rod is in threaded connection with the U-shaped frame.

Preferably, aluminum alloy supporting bars are arranged at the tops of two sides of the supporting beam, a cross arm rod is arranged at the top of each aluminum alloy supporting bar, a stand column is arranged between the supporting beam and the cross arm rod, and the wire tube fixing frame is arranged on the outer surface of the stand column;

the tuber pipe mount includes:

the upper clamping plate is arranged on the outer surface of the top of the lower clamping plate;

side top rubber blocks which are arranged on two sides of the inner part of the lower clamping plate;

the support studs are welded at the bottom of the lower clamping plate and fixedly arranged with the support cross beam;

and the rubber sleeve is arranged on the outer surface of the top end of the support stud.

Preferably, the water pipe fixing frame comprises:

the gland is arranged at the top of the top seat;

the rubber ring is arranged between the top seat and the gland;

the mounting frame plate is welded at the bottom of the top seat and is mounted on the outer surface of the supporting beam;

an arc-shaped groove which is arranged on the outer wall of the mounting frame plate;

the assembling clamping rods are arranged inside the two ends of the arc-shaped groove in a sliding manner, and are propped against the bottom of the supporting beam;

the sleeve seat is movably sleeved on the outer surface of the assembly clamping rod;

two ends of the two-way screw rod are respectively connected with the interiors of the two groups of sleeve seats in a threaded manner;

the height adapting frame is arranged at the bottom in the mounting frame plate and is used for vertically supporting the top seat.

Preferably, the height-adapting frame comprises:

the support plate is arranged in the limit groove in a sliding manner;

the worm is rotationally arranged inside the supporting plate;

the worm wheel is rotatably arranged in the supporting plate and meshed with the worm;

the installation screw rod, its fixed mounting is in worm wheel top, the top threaded connection of installation screw rod is in the bottom in the footstock.

Preferably, the using method of the damping support device for the electromechanical pipeline sleeve comprises the following two installation states:

when the wall bodies are supported on two sides of the installation environment in a usable mode, the hanging mechanism is vertically hung, then the matching piece and the connecting piece are detached, the sliding seat is reversely inserted into the connecting steel sleeve, the multifunctional vibration reduction arms on two sides are turned towards the walls on two sides to be installed, so that the lateral supporting installation is achieved, and the hanging mechanism plays an auxiliary hanging role.

And in the second state, when the environment is installed without the side wall body, the two groups of multifunctional damping arms are vertically installed on the ceiling to carry out main suspension support, and at the moment, the two groups of suspension mechanisms extend outwards and are obliquely installed on the ceiling to serve as auxiliary suspension and fixing.

The invention discloses an electromechanical pipeline sleeve vibration reduction supporting device, which has the following beneficial effects:

1. this electromechanical pipeline sleeve pipe damping strutting arrangement still can exist some vibration conduction when water pipe and tuber pipe use and to support on the crossbeam, carry out damping protection through first damping spring and second damping spring this moment, the accessible is kept away from go-between one end promotion simultaneously, make the card post follow card hole inside shift out, then rotatory movable sleeve, make the first damping spring of slip ring compression, thereby adjust the elasticity coefficient of adjusting the shock absorber, then through rotatory drive lead screw, make the adjusting sleeve remove at the surface of T shape pull rod, thereby make the holistic elasticity coefficient of second damping spring by compression or diastole, adjust the vibration cylinder, with this corresponds actual user demand, reduce the vibration conduction when tuber pipe and water pipe use and avoid causing noise and vibration sense to the wall.

2. This electromechanical pipeline sleeve pipe damping strutting arrangement is to the environment that does not have side wall body installation, install two sets of multi-functional damping arms perpendicularly, then extend outside through hanging the mechanism with two sets of suspension, it is fixed as supplementary suspension to incline to install on the ceiling, when there is the wall body available to support to installation environment both sides, can hang the mechanism with hanging and install vertically, then it is inside to connect the steel bushing with the sliding seat reverse insertion, install the other end and the plug-in components of sliding shaft, install the multi-functional damping arm upset of both sides towards both sides wall at this moment, adjust the length of multi-functional damping arm through rotatory accommodate the lead screw, thereby realize different width wall body use, and support angle can be adjusted, thereby realize that multi-mode installation suitability is strong.

3. This electromechanical pipeline sleeve pipe damping strutting arrangement is inside through installing the cable pipe in the spool mount, install the water pipe inside the water pipe mount, install the tuber pipe inside the tuber pipe mount, and through rotatory worm, make the worm wheel drive the installation screw rod rotatory, the installation screw rod is at the interior bottom spiral removal of footstock this moment, thereby make the backup pad slide from top to bottom along the spacing groove, adjust the mounting height of footstock, ensure that the top of water pipe is not contacted with the cross arm pole, the tuber pipe adopts side top rubber piece and rubber sleeve to carry out damping support this moment, and the tuber pipe passes through the rubber circle and damps, make reduce mutual vibration influence between water pipe and the tuber pipe.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the structure of the whole first installation state according to the embodiment of the present invention;

FIG. 2 is a schematic view of the structure of the whole second installation state according to the embodiment of the present invention;

FIG. 3 is a schematic view of the outer surface structure of a multifunctional vibration damping arm according to an embodiment of the present invention;

FIG. 4 is an exploded view showing the internal structure of a multi-functional vibration damping arm according to an embodiment of the present invention;

FIG. 5 is a schematic view of the outer surface structure of a sliding seat according to an embodiment of the present invention;

FIG. 6 is a schematic view of an elastic adjusting member according to an embodiment of the present invention;

FIG. 7 is a schematic view of the outer surface structure of a hoisting mechanism according to an embodiment of the present invention;

FIG. 8 is a cross-sectional view of the internal structure of a damper cylinder according to an embodiment of the present invention;

FIG. 9 is a schematic view of the outer surface structure of a support beam in accordance with an embodiment of the present invention;

FIG. 10 is a schematic view of the outer surface structure of a tube holder according to an embodiment of the present invention;

FIG. 11 is a schematic view of the outer surface structure of a water pipe fixing frame according to an embodiment of the present invention;

FIG. 12 is a schematic view of the bottom structure of a water pipe holder according to an embodiment of the present invention;

fig. 13 is a cross-sectional view showing the internal structure of the height-adapting frame in the embodiment of the present invention.

In the figure: 1. a support beam; 2. a water pipe fixing frame; 21. a top base; 22. a gland; 23. a rubber ring; 24. mounting a frame plate; 25. a limit groove; 26. a height adapting frame; 261. a support plate; 262. installing a screw; 263. a worm wheel; 264. a worm; 27. an arc-shaped groove; 28. assembling a clamping rod; 29. a sleeve seat; 210. a two-way screw rod; 3. a conduit fixing frame; 4. an air pipe fixing frame; 41. an upper clamping plate; 42. a lower clamping plate; 43. a side-top rubber block; 44. supporting the stud; 45. a rubber sleeve; 5. a suspension mechanism; 51. an extension rod; 52. extending the screw; 53. a vibration damping cylinder; 531. a cylinder; 532. a T-shaped pull rod; 533. a second damper spring; 534. an adjusting sleeve; 535. a U-shaped frame; 536. driving a screw rod; 54. rotating the connecting rod; 55. a hinged support; 6. a multifunctional damping arm; 61. connecting a steel sleeve; 62. a length adjusting member; 621. a connecting piece; 622. a sliding seat; 623. a mating member; 624. an adjustable shock absorber; 6241. a sliding shaft; 6242. a first damper spring; 6243. a slip ring; 6244. an elastic adjusting member; 62441. a connecting ring; 62442. a connecting shaft; 62443. a movable sleeve; 62444. a baffle ring; 62445. a locking spring; 62446. a clamping hole; 62447. a clamping column; 62448. a threaded tube; 6245. a guide chute; 625. adjusting a screw rod; 626. a fixed block; 627. an anti-falling chute; 63. an insert; 64. a fixing plate; 65. a guide rail; 7. an aluminum alloy support bar; 8. a column; 9. and a cross arm rod.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1: according to the vibration damping supporting device of the electromechanical pipeline sleeve shown in the accompanying drawings 1-13, the vibration damping supporting device comprises a supporting beam 1, a water pipe fixing frame 2, a water pipe fixing frame 3 and a wind pipe fixing frame 4 which are arranged at the top of the supporting beam 1, and a suspension mechanism 5 and a multifunctional vibration damping arm 6 are arranged on two sides of the supporting beam 1.

The multifunctional damping arm 6 includes:

the connecting steel sleeves 61 are rotatably arranged at two ends of the supporting beam 1, and the connecting steel sleeves 61 can be used for top hoisting or side inclined bracing;

a length adjusting member 62, the length adjusting member 62 including an adjusting screw 625 installed inside the connecting steel bushing 61 and an adjusting damper 624 provided at an end of the adjusting screw 625;

the installation direction of the adjusting type damper 624 is adjusted according to the installation direction of the multifunctional damper arm 6, and the adjusting type damper 624 can adjust the elastic coefficient;

the suspension mechanism 5 includes:

a damper cylinder 53 rotatably provided at an end of the support beam 1;

an extension rod 51 screwed to the other end of the damper cylinder 53.

The length adjustment member 62 further includes:

the sliding seat 622, the two sides of the sliding seat 622 are provided with anti-slip grooves 627, the inner side wall of the connecting steel sleeve 61 is provided with a guide rail 65, and the anti-slip grooves 627 slide in cooperation with the guide rail 65;

a connecting piece 621, one end of which is rotatably connected to the adjusting screw 625, and the other end of which is fixedly installed to the sliding seat 622;

and a fixing block 626 fixedly welded to the inner wall of the connection steel bushing 61, and an adjusting screw 625 is screw-coupled to the inside of the fixing block 626.

The tuned absorber 624 includes:

a sliding shaft 6241 inserted into the sliding seat 622, a rubber ring being provided between the sliding seat 622 and the sliding shaft 6241;

a first damper spring 6242, a sliding ring 6243, and an elastic regulating member 6244, all of which are provided on the outer surface of the sliding shaft 6241;

the first damping spring 6242 and the sliding ring 6243 are both slidably disposed within the sliding seat 622;

the elastic regulating member 6244 serves to push the sliding ring 6243 to compress the first damper spring 6242.

The elastic regulating member 6244 includes:

a connecting ring 62441 movably coupled to an outer surface of the sliding shaft 6241;

the connecting shaft 62442 is fixedly arranged between the connecting ring 62441 and the sliding ring 6243, the middle part of the sliding shaft 6241 is provided with a guide chute 6245, and the connecting shaft 62442 is arranged in the guide chute 6245 in a sliding way;

a threaded tube 62448 screwed onto the outer surface of the sliding shaft 6241, the threaded tube 62448 being rotatably connected to the connection ring 62441;

a movable sleeve 62443 slidably coupled to an outer surface of the threaded tube 62448;

a baffle ring 62444 fixedly sleeved on the outer surface of the threaded pipe 62448, and the baffle ring 62444 is slidably connected inside the movable sleeve 62443;

a locking spring 62445, which is disposed inside the movable sleeve 62443, the locking spring 62445 being abutted against the retainer ring 62444,

a blocking hole 62446 annularly provided at one side of the connection ring 62441;

the clamping column 62447 is welded at the tail end of the movable sleeve 62443, and the clamping column 62447 is movably clamped with the clamping hole 62446.

The multifunctional damping arm 6 further comprises a fixing plate 64 and an insert 63 arranged at the inner bottom of the fixing plate 64, connecting portions are arranged at two ends of the sliding shaft 6241 and are movably hinged with the insert 63, matching pieces 623 are welded on two sides of the sliding seat 622, and the connecting pieces 621 are mounted with the matching pieces 623 through bolts.

The suspension mechanism 5 further includes:

an extension screw 52 screwed to the inside of the extension rod 51;

a hinge support 55 movably hinged to an end of the extension rod 51;

a rotation link 54 rotatably provided at an end of the support beam 1;

the damper cylinder 53 includes:

a cylinder 531, the bottom end of which is welded with a U-shaped frame 535, and a rotary connecting rod 54 is movably hinged with the U-shaped frame 535;

the T-shaped pull rod 532 is arranged in the cylinder 531, one end of the T-shaped pull rod 532 is rotationally connected with the extension screw 52, a rubber ring is arranged on the inner wall of the top end of the cylinder 531, and the sliding shaft 6241 is in contact with the rubber ring to realize sliding speed reduction;

a second damper spring 533 provided on an outer surface of the T-shaped tension rod 532;

an adjusting sleeve 534 provided on an outer surface of the second damper spring 533;

and a driving screw 536 rotatably connected to the end of the adjusting sleeve 534, and the other end of the driving screw 536 is screw-connected to the U-shaped frame 535.

Aluminum alloy supporting bars 7 are arranged at the tops of two sides of the supporting beam 1, a cross arm rod 9 is arranged at the top of the aluminum alloy supporting bars 7, a stand column 8 is arranged between the supporting beam 1 and the cross arm rod 9, and a wire tube fixing frame 3 is arranged on the outer surface of the stand column 8;

the duct fixing frame 4 includes:

an upper clamping plate 41 and a lower clamping plate 42, the upper clamping plate 41 being mounted on the top outer surface of the lower clamping plate 42;

side top rubber blocks 43 mounted on both sides of the inside of the lower clamping plate 42;

the support studs 44 are welded at the bottom of the lower clamping plate 42, and the support studs 44 are fixedly arranged with the support beam 1;

and a rubber sleeve 45 arranged on the outer surface of the top end of the support stud 44.

The water pipe fixing frame 2 includes:

a top seat 21 and a gland 22, the gland 22 being mounted on top of the top seat 21;

a rubber ring 23 provided between the top base 21 and the gland 22;

a mounting frame plate 24 welded to the bottom of the top base 21, the mounting frame plate 24 being mounted to the outer surface of the support beam 1;

an arc-shaped groove 27 opened to the outer wall of the mounting bracket plate 24;

the assembling clamping rods 28 are arranged inside the two ends of the arc-shaped groove 27 in a sliding manner, and the assembling clamping rods 28 are propped against the bottom of the supporting beam 1;

a socket 29 movably sleeved on the outer surface of the assembly clamping rod 28;

two-way screw 210, its both ends are threaded to connect to two sets of seats 29 inside separately;

a height-adapting frame 26 provided at the inner bottom of the mounting frame plate 24, the height-adapting frame 26 being for vertically supporting the top chassis 21.

The height-fitting rack 26 includes:

the support plate 261, the outer wall of the mounting frame plate 24 is provided with a limit groove 25, and the support plate 261 is arranged in the limit groove 25 in a sliding manner;

a worm 264 rotatably provided inside the support plate 261;

a worm wheel 263 rotatably provided inside the support plate 261, the worm wheel 263 being engaged with the worm 264;

and the mounting screw rod 262 is fixedly arranged at the top of the worm wheel 263, and the top end of the mounting screw rod 262 is in threaded connection with the inner bottom of the top seat 21.

Working principle: when the device is used, pure hoisting or hoisting and lateral support installation can be selected according to the actual condition of the site;

during pure hoisting, the expansion screws are installed by punching at the top of the installation position, then the two groups of multifunctional damping arms 6 are vertically installed, the fixing plate 64 is installed on the ceiling, at the moment, the two groups of multifunctional damping arms 6 suspend the supporting beam 1, then the connecting piece 621 pulls the sliding seat 622 to slide downwards by rotating the adjusting screw rod 625 clockwise, so that the installation height of the supporting beam 1 is adjusted, then the two groups of suspension mechanisms 5 extend outwards and are obliquely installed on the ceiling to serve as auxiliary suspension and fixing, and the length adjustment is performed by rotating the extending rod 51 before installation, so that the suspension mechanisms 5 and the multifunctional damping arms 6 play a suspension role simultaneously;

then, the cable tube is arranged in the wire tube fixing frame 3, the water tube is arranged in the water tube fixing frame 2, the air tube is arranged in the air tube fixing frame 4, the worm wheel 263 drives the installation screw rod 262 to rotate through the rotating worm 264, at the moment, the installation screw rod 262 moves spirally at the inner bottom of the top seat 21, so that the supporting plate 261 slides up and down along the limit groove 25, the installation height of the top seat 21 is adjusted, the top end of the water tube is ensured not to be contacted with the cross arm rod 9, at the moment, the air tube is subjected to vibration reduction support by adopting the side top rubber block 43 and the rubber sleeve 45, and the water tube is subjected to vibration reduction by adopting the rubber ring 23, so that the mutual vibration influence between the water tube and the air tube is reduced;

meanwhile, when the device is used, a part of vibration still exists when the water pipe and the air pipe are used and is transmitted to the supporting beam 1, at the moment, the supporting beam 1 can vibrate to a certain extent, at the moment, the vibration is transmitted to the suspension mechanism 5 and the multifunctional vibration damping arm 6, at the moment, vibration damping protection is carried out through the first vibration damping spring 6242 and the second vibration damping spring 533, the bottom end of the extension screw 52 and the cylinder 531 slide relatively, a rubber ring is arranged on the inner wall of the top end of the cylinder 531, the sliding shaft 6241 and the sliding seat 622 slide relatively, the rubber ring is arranged between the sliding seat 622 and the sliding shaft 6241, and the vibration is reduced by the rubber ring, so that the vibration is transmitted to an installation wall surface, and noise and vibration feeling caused to the external environment are avoided;

in actual use, the movable sleeve 62443 is pushed towards one end far away from the connecting ring 62441, so that the locking spring 62445 is compressed, at the moment, the clamping post 62447 moves out of the clamping hole 62446, then the movable sleeve 62443 is rotated, so that the movable sleeve 62443 drives the threaded pipe 62448 to rotate, at the moment, the threaded pipe 62448 moves spirally along the sliding shaft 6241 and drives the connecting ring 62441 to slide, the connecting ring 62441 drives the sliding ring 6243 to slide through the connecting shaft 62442, so that the sliding ring 6243 compresses the first damping spring 6242, the integral elastic coefficient is reduced, the first damping spring 6242 is relaxed due to reverse rotation, at the moment, the elastic coefficient is increased, the movable sleeve 62443 is loosened after adjustment is completed, the movable sleeve 62443 moves downwards under the action of the locking spring 62445, so that the clamping post 62447 enters into the clamping hole 62446 to be fixed, at the moment, the threaded pipe 62448 is limited in rotation, and the first damping spring 6242 is prevented from opening the sliding ring 6243;

and to shock absorber 53, accessible rotary drive lead screw 536 for drive lead screw 536 is at the inside spiral removal of U-shaped frame 535, thereby drives adjusting sleeve 534 and removes at the surface of T shape pull rod 532, thereby makes second damping spring 533 compressed or diastole, thereby adjusts the holistic elasticity coefficient of shock absorber 53, with this practical use demand of handling, can effectively reduce the vibration conduction to the wall when tuber pipe and water pipe use when making practical use.

Example 2: on the basis of embodiment 1, the device can also be installed in a lateral support manner, when the wall bodies are supported on two sides of the installation environment, the suspension mechanism 5 can be vertically suspended and installed according to the state shown in fig. 1, then the multifunctional damping arms 6 on two sides are turned towards the wall bodies on two sides to be installed, the lengths of the multifunctional damping arms 6 are adjusted through rotating the adjusting screw 625, so that the wall bodies with different widths can be used, the supporting angle can be adjusted, and the device needs to be used for disassembling the matching piece 623 and the connecting piece 621 when the lateral support installation is carried out, then the sliding seat 622 is reversely inserted into the connecting steel sleeve 61, then the other end of the sliding shaft 6241 is installed with the plug-in unit 63, so that vibration is damped by compressing the first damping spring 6242 when in use, and at the moment, the first damping spring 6242 and the second damping spring 533 are damped from the upper side and the lower side, so that the installation fixing effect and the vibration damping effect are better.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing embodiments, which have been described in the foregoing description merely illustrates the principles of the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The vibration reduction supporting device for the electromechanical pipeline sleeve comprises a supporting beam (1) and a water pipe fixing frame (2), a water pipe fixing frame (3) and a wind pipe fixing frame (4) which are arranged at the top of the supporting beam (1), and is characterized in that a suspension mechanism (5) and a multifunctional vibration reduction arm (6) are arranged on two sides of the supporting beam (1);

the multi-functional damping arm (6) comprises:

the connecting steel sleeves (61) are rotatably arranged at two ends of the supporting cross beam (1), and the connecting steel sleeves (61) can be used for top hoisting or side inclined bracing;

a length adjusting member (62), wherein the length adjusting member (62) comprises an adjusting screw rod (625) arranged inside the connecting steel sleeve (61) and an adjusting shock absorber (624) arranged at the end part of the adjusting screw rod (625);

the installation direction of the adjustable shock absorber (624) is adjusted according to the installation direction of the multifunctional shock absorber arm (6), and the adjustable shock absorber (624) can adjust the elastic coefficient;

the suspension mechanism (5) comprises:

a vibration damping cylinder (53) rotatably provided at the end of the support beam (1);

and an extension rod (51) which is connected with the other end of the vibration reduction cylinder (53) in a threaded manner.

2. The electromechanical line bushing vibration damping support device according to claim 1, characterized in that said length adjustment member (62) further comprises:

the sliding seat (622), slip-off preventing grooves (627) are formed in two sides of the sliding seat (622), a guide rail (65) is arranged on the inner side wall of the connecting steel sleeve (61), and the slip-off preventing grooves (627) slide in a matched mode with the guide rail (65);

one end of the connecting piece (621) is rotationally connected with the adjusting screw rod (625), and the other end of the connecting piece (621) is fixedly arranged with the sliding seat (622);

and the fixing block (626) is fixedly welded on the inner wall of the connecting steel sleeve (61), and the adjusting screw rod (625) is in threaded connection with the inside of the fixing block (626).

3. The electromechanical line pipe vibration damping support device according to claim 2, wherein the tuned vibration damper (624) comprises:

a sliding shaft (6241) inserted into the sliding seat (622);

the first vibration reduction spring (6242), the sliding ring (6243) and the elastic adjusting piece (6244) are all arranged on the outer surface of the sliding shaft (6241);

the first damping spring (6242) and the sliding ring (6243) are both arranged in the sliding seat (622) in a sliding way;

the elastic adjustment member (6244) is for pushing the sliding ring (6243) to compress the first damper spring (6242).

4. An electromechanical line pipe vibration damping support device according to claim 3, characterised in that the resilient adjustment member (6244) comprises:

a connecting ring (62441) movably sleeved on the outer surface of the sliding shaft (6241);

the connecting shaft (62442) is fixedly arranged between the connecting ring (62441) and the sliding ring (6243), a guide chute (6245) is formed in the middle of the sliding shaft (6241), and the connecting shaft (62442) is arranged in the guide chute (6245) in a sliding manner;

a threaded tube (62448) which is screwed to the outer surface of the sliding shaft (6241), the threaded tube (62448) being rotatably connected to the connecting ring (62441);

a movable sleeve (62443) which is slidably connected to the outer surface of the threaded tube (62448);

the baffle ring (62444) is fixedly sleeved on the outer surface of the threaded pipe (62448), and the baffle ring (62444) is connected inside the movable sleeve (62443) in a sliding manner;

a locking spring (62445) arranged inside the movable sleeve (62443), wherein the locking spring (62445) is abutted against the baffle ring (62444);

a clamping hole (62446) which is annularly arranged at one side of the connecting ring (62441);

and the clamping column (62447) is welded at the tail end of the movable sleeve (62443), and the clamping column (62447) is movably clamped with the clamping hole (62446).

5. An electromechanical pipeline sleeve vibration damping support device according to claim 3, characterized in that the multifunctional vibration damping arm (6) further comprises a fixed plate (64) and an insert (63) arranged at the inner bottom of the fixed plate (64), both ends of the sliding shaft (6241) are provided with connecting parts, the connecting parts are used for being movably hinged with the insert (63), both sides of the sliding seat (622) are welded with matching pieces (623), and the connecting pieces (621) and the matching pieces (623) are arranged through bolts.

6. An electromechanical line pipe vibration-damping support device according to claim 1, characterized in that the suspension mechanism (5) further comprises:

an extension screw (52) which is screwed into the extension rod (51);

a hinge support (55) movably hinged to an end of the extension rod (51);

a rotation link (54) which is rotatably provided at the end of the support beam (1);

the damper cylinder (53) includes:

the bottom end of the cylinder (531) is welded with a U-shaped frame (535), and the rotary connecting rod (54) is movably hinged with the U-shaped frame (535);

the T-shaped pull rod (532) is arranged in the cylinder (531), and one end of the T-shaped pull rod (532) is rotationally connected with the extension screw (52);

a second damper spring (533) provided on the outer surface of the T-shaped tie rod (532);

an adjustment sleeve (534) provided on the outer surface of the second damper spring (533);

and the driving screw rod (536) is rotatably connected to the tail end of the adjusting sleeve (534), and the other end of the driving screw rod (536) is in threaded connection with the U-shaped frame (535).

7. The vibration reduction supporting device for the electromechanical pipeline sleeve according to claim 1, wherein aluminum alloy supporting bars (7) are arranged at the tops of two sides of the supporting beam (1), a cross arm rod (9) is arranged at the top of each aluminum alloy supporting bar (7), a stand column (8) is arranged between the supporting beam (1) and the cross arm rod (9), and the line pipe fixing frame (3) is arranged on the outer surface of the stand column (8);

the air duct fixing frame (4) comprises:

an upper clamping plate (41) and a lower clamping plate (42), wherein the upper clamping plate (41) is arranged on the top outer surface of the lower clamping plate (42);

side top rubber blocks (43) mounted on both sides of the inside of the lower clamping plate (42);

the support studs (44) are welded at the bottom of the lower clamping plate (42), and the support studs (44) are fixedly arranged with the support cross beam (1);

and the rubber sleeve (45) is arranged on the outer surface of the top end of the supporting stud (44).

8. The electromechanical line pipe vibration-damping support device according to claim 1, characterized in that the water pipe holder (2) comprises:

a top seat (21) and a gland (22), wherein the gland (22) is arranged at the top of the top seat (21);

a rubber ring (23) which is arranged between the top seat (21) and the gland (22);

the mounting frame plate (24) is welded at the bottom of the top seat (21), and the mounting frame plate (24) is mounted on the outer surface of the supporting beam (1);

an arc-shaped groove (27) which is arranged on the outer wall of the mounting frame plate (24);

the assembling clamping rods (28) are arranged inside the two ends of the arc-shaped groove (27) in a sliding manner, and the assembling clamping rods (28) are propped against the bottom of the supporting cross beam (1);

the sleeve seat (29) is movably sleeved on the outer surface of the assembly clamping rod (28);

two ends of the two-way screw rod (210) are respectively connected with the interiors of the two groups of sleeve seats (29) in a threaded manner;

and the height adapting frame (26) is arranged at the inner bottom of the mounting frame plate (24), and the height adapting frame (26) is used for vertically supporting the top seat (21).

9. The electromechanical line bushing vibration damping support device according to claim 8, characterized in that said height-adapting frame (26) comprises:

the support plate (261) is provided with a limit groove (25) on the outer wall of the mounting frame plate (24), and the support plate (261) is arranged in the limit groove (25) in a sliding mode;

a worm (264) rotatably provided inside the support plate (261);

a worm wheel (263) rotatably provided inside the support plate (261), the worm wheel (263) being engaged with the worm (264);

the installation screw rod (262) is fixedly arranged at the top of the worm wheel (263), and the top end of the installation screw rod (262) is connected with the inner bottom of the top seat (21) in a threaded manner.