CN216840008U - Multifunctional device for isolating vibration and noise - Google Patents

Abstract

The utility model relates to the technical field of devices for isolating vibration or earthquake energy under the action of environmental vibration or earthquake, in particular to a multifunctional device for isolating vibration and noise; the anti-pulling mechanism comprises a connecting cover, a pressing plate and a plurality of limiting bolts, the connecting cover is installed on the elastic body, the limiting bolts are annularly installed on the pressing plate, the pressing plate is fixedly connected with the connecting cavity, the self-insulation pre-stressed rubber ring is arranged between the connecting cavity and the connecting cover to form a closed space, and the vertical damping system comprises a damping cylinder and damping liquid; the vibration isolation and absorption structure has the functions of isolating vibration, absorbing vibration energy well, reducing secondary noise of buildings, providing enough vertical support rigidity and resisting drawing.

Description

Multifunctional device for isolating vibration and noise

Technical Field

The utility model relates to a device technical field of vibration or seismic energy is kept apart under environmental vibration or the earthquake effect specifically is a multi-functional device of vibration and noise isolation.

Background

Environmental vibrations are one of the seven well recognized public harms. With the rapid development of modern industry and the continuous expansion of urban scale, urban subway rail transit increasingly becomes an important means for solving urban traffic. While the trend of building urban subways is not obvious, the problems of vibration and noise caused by the operation of the subways are gradually shown. In recent years, the subway transportation system in China is developed rapidly, and urban subways penetrate through city centers, so that the urban subway transportation system bears the main traffic task of urban transportation, and simultaneously influences the building production (such as a precision laboratory, a precision machine room, a semiconductor industrial production workshop, a bioengineering production workshop and the like) around the line, the safety of ancient buildings and the residential environment. How to reduce the micro resonance generated by external disturbance has important significance in the anti-vibration design of buildings.

The influence of vibration on buildings, equipment and facilities is mainly vertical vibration, at present, various vibration isolation devices can effectively solve the vibration problem, but do not have the anti-pulling capacity, and under the action of an earthquake mainly involving horizontal vibration, the vibration isolation devices cannot provide enough safety guarantee for the buildings, the equipment or the facilities, and the buildings, the equipment and the facilities have the risk of overturning and dumping.

How to make the vibration isolation support effectively isolate vertical vibration to can provide sufficient safety guarantee under the earthquake effect, be the difficult point in vibration control field at present.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-functional device of vibration and noise isolation, have keep apart vibration, absorption vibration energy effectual, reduce building secondary noise, provide enough vertical support rigidity and have the function that the tensile was pulled out.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a vibration and noise isolated multifunctional device comprises a set of elastic bodies, corresponding connecting cavities, a set of anti-pulling mechanisms, self-insulation prestressed rubber rings and a vertical damping system, wherein the elastic bodies are annular and are arranged on the connecting cavities, the elastic bodies have the functions of adjusting frequency and isolating vibration response, each anti-pulling mechanism comprises a connecting cover, a pressing plate and a plurality of limiting bolts, the connecting covers are arranged on the elastic bodies, the limiting bolts are annularly arranged on the pressing plates, the pressing plates are fixedly connected with the connecting cavities, and the anti-pulling mechanisms have the functions of preventing the device from being separated and limiting the structure from swinging; the self-insulation prestressed rubber ring plays roles in isolating and transmitting load to the movable part and the fixed part of the device; the vertical damping system plays a role in absorbing vibration energy, a gap exists between a limiting bolt and a connecting cover in a normal working state, when the device deforms too much, the limiting bolt on a pressing plate limits the vertical movement of the connecting cover, a self-insulation pre-stress rubber ring is arranged between a connecting cavity and the connecting cover to form a closed space, the vertical damping system comprises a damping cylinder and damping liquid, the damping liquid is filled in the closed space formed by the connecting cavity, the connecting cover and the self-insulation pre-stress rubber ring, the self-insulation pre-stress rubber ring generates pre-stress through extrusion deformation of the connecting cavity and the connecting cover, a boss is arranged on the inner side of the lower end of the self-insulation pre-stress rubber ring, and the boss is used for hooking the outer edge of the connecting cover during installation; the damping cylinder is arranged at the bottom of the center of the connecting cover, is arranged in the inner circle of the elastic body and is soaked in damping liquid, a through hole is formed in the connecting cover, a middle bolt is arranged in the through hole, and the middle bolt is a bolt with a vent hole.

Furthermore, grooves are formed in the upper surface and the lower surface of the elastic body and communicated with the inner circle and the outer circle of the elastic body, and vertical through holes are formed in the grooves and communicated with the grooves in the upper surface and the lower surface of the elastic body.

Furthermore, a surface sealing ring is arranged between the connecting cavity and the pressing plate, and an axial sealing ring is arranged between the pressing plate and the connecting cover.

Furthermore, the upper end face of the connecting cover and the lower end face of the connecting cavity are both provided with connecting holes.

Furthermore, the connecting cavity is circular, a circular containing cavity is processed inside the connecting cavity, a circular concave table matched with the outer diameter of the elastic body is concentrically processed at the bottom of the containing cavity, and the lower end face of the elastic body is arranged on the circular concave table.

Furthermore, the connecting cover is circular, the connecting cover consists of a cover plate and a flange, and meanwhile, a circular concave platform with the same size as the circular concave platform of the connecting cavity and a circular concave cavity matched with the outer diameter of the cylinder of the damping cylinder are concentrically processed on the bottom surface of the cover plate of the connecting cover.

Further, the damping cylinder is composed of a cylinder and a circular ring plate, a threaded through hole is formed in the middle of the damping cylinder, and the upper end portion of the cylinder of the damping cylinder is installed on the circular concave cavity in the bottom face of the connecting cover in an interference fit mode.

Furthermore, the upper end surface of the connecting cavity is provided with a circular groove, the plane O-shaped ring is arranged in the circular groove and protrudes out of a part, and the outermost edge of the upper end surface of the connecting cavity is also provided with a convex spigot.

Further, the inboard processing of clamp plate has the ring slot, axial O type circle is arranged in the ring slot and is projected partly, and the lower terminal surface outermost fringe of clamp plate still processes the concave tang that matches with the protruding tang that connects the chamber simultaneously, the clamp plate passes through the tang cooperation and installs the up end in connecting the chamber concentrically, and is a plurality of fixing bolt will connect chamber and clamp plate fixed connection.

Furthermore, the device can be combined with a horizontal shock isolation device to form a three-way shock isolation/isolation device for use, and the horizontal shock isolation device is arranged on a connecting cover or a connecting hole of a connecting cavity of the device.

Compared with the prior art, the utility model discloses one of following beneficial effect has at least:

1. the multifunctional device that vibration and noise were kept apart that this patent provided can a plurality of combinations use, according to the flexible model quantity of selecting of the load distribution of protected thing and arranging quantity.

2. Vibration isolation effect: the connecting cover connected with the protected object and the connecting cavity connected with the non-protected object or the ground are isolated in a vertical flexible mode through the elastic body. The elastic body mainly plays a role in adjusting the vertical natural frequency of the protected object, and the elastic body isolates vibration through vertical reciprocating deformation of the elastic body.

Because the rubber ring is made of high-molecular elastic materials, the extrusion amount of the rubber ring is controlled within a set range, the vertical rigidity is small, and the transmission of vibration and sound is isolated; the axial O-shaped ring can realize a sealing function, and the vertical rigidity of the rubber ring and the axial O-shaped ring can be ignored relative to the vertical rigidity of the elastic body.

3. Shock insulation: the multifunctional device that vibration and noise were kept apart that this patent provided because it has adjusted the vertical natural frequency of protected thing, consequently still has the function of certain isolation vertical seismic action.

4. The drawing resistance function is as follows: the limiting bolt, the pressing plate and the connecting cover form an anti-pulling mechanism, and the anti-pulling limiting effect of the vibration isolation support can be realized. When the anti-pulling mechanism isolates vibration, a certain gap is formed between the lower end surface of the limiting bolt and the upper end surface of the flange of the connecting cover, the pressing plate and the connecting cover are in a separated state, and the vibration isolation support is in an isolated vibration state; when the protected object is subjected to earthquake action, the anti-pulling mechanism plays an anti-pulling limiting role, and the functions are described in two aspects, namely, the vertical earthquake action increases the vertical movement amplitude of the vibration isolation support, and the pressing plate and the limiting bolt of the vibration isolation support can limit the upward movement amplitude of the connecting cover; secondly, under the action of a horizontal earthquake, the protected object has a large swing reaction, so that part of the vibration isolation support can be in a pulled state, and the pressing plate and the limiting bolt of the vibration isolation support can limit the upward movement amplitude of the connecting cover, thereby playing a role of resisting swing on the whole structure.

5. Integral type protection isolation measure: the rubber ring is arranged between the connecting cover and the connecting cavity and is in a prestressed state formed by moderate extrusion, so that the vibration isolation support realizes an integrated protection and isolation function and cuts off a transmission path of vibration and noise inside the vibration isolation support. Meanwhile, the rubber ring enables the vibration isolation support to achieve the purpose of integration, and under the action of an earthquake, the rubber ring can also achieve horizontal load transmission between the connecting cover and the connecting cavity.

6. Vertical vibration fast attenuation damping: the inner cavity of the vibration isolation support is filled with viscous damping liquid, a damping cylinder is fixedly connected to the connecting cover, and a plurality of damping liquid flow channels are arranged on the upper end face and the lower end face of the elastic body. In the vertical reciprocating deformation process of the elastic body, the connecting cover vertically reciprocates along with the elastic body, and at the moment, the damping cylinder fixedly connected with the connecting cover vertically reciprocates in viscous damping fluid to generate damping force; meanwhile, in the vertical reciprocating deformation process of the elastomer soaked in the viscous damping fluid, the expansion and contraction deformation of the elastomer and the deformation of the damping fluid flow channel also enable the damping fluid to move to generate damping force. The viscous damping fluid provides damping force and simultaneously converts kinetic energy into heat energy, dissipates vibration energy and accelerates vibration attenuation. Meanwhile, the velocity and the hysteresis of the viscous damping fluid also improve the anti-swing function of the vibration isolation support.

7. The multifunctional device for isolating vibration and noise provided by the patent can be combined with the existing horizontal vibration isolation support such as a horizontal rubber support and a sliding plate support to form a three-dimensional vibration isolation (vibration) support. Details are given in example 2, example 3 and example 4 of this patent. The three-dimensional vibration isolation (vibration) supports can be flexibly combined to form a three-dimensional vibration isolation (vibration) system.

Drawings

Fig. 1 is a schematic structural view of embodiment 1 of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a schematic view of an elastomer structure;

FIG. 4 is a top view of an elastomer;

FIG. 5 is a top view taken along line A-A of FIG. 4;

FIG. 6 is a schematic view of a rubber ring structure;

FIG. 7 is a schematic view of a connection structure of a rubber ring and a connection cover;

FIG. 8 is a state diagram in use of embodiment 1;

FIG. 9 is a view showing a state of use of a limit bolt in accordance with embodiment 1;

FIG. 10 is a view showing a state in which a stopper bolt of embodiment 1 is used, shown in FIG. 2;

FIG. 11 is a view showing a state of use of a stopper bolt according to example 1;

FIG. 12 is a schematic structural view of example 2;

FIG. 13 is a schematic view showing a structure of a lead rubber holder according to example 2;

FIG. 14 is a schematic structural view of example 3;

FIG. 15 is a schematic view showing a structure of a lead rubber holder according to example 3;

FIG. 16 is a schematic structural view of example 4.

Description of the drawings: 1-connecting cover, 2-connecting cavity, 3-pressing plate, 4-damping cylinder, 5-elastomer, 6-rubber ring, 7-plane O-shaped ring, 8-axial O-shaped ring, 9-middle bolt, 10-fixing bolt, 11-limiting bolt, 12-horizontal rubber support upper connecting plate, 13-horizontal rubber support, 14-horizontal rubber support lower connecting plate, 15-polytetrafluoroethylene plate and 16-sliding plate.

Detailed Description

As shown in fig. 1 to 14, in order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

As shown in the attached drawings 1-2, the multifunctional device for isolating vibration and noise comprises a connecting cover 1, a connecting cavity 2, a pressure plate 3, a damping cylinder 4, an elastic body 5, a rubber ring 6, a plane O-shaped ring 7, an axial O-shaped ring 8, a middle bolt 9, a fixing bolt 10 and a limiting bolt 11.

The upper end surface of the connecting cover 1 is provided with a connecting hole, and the vibration isolation support is connected and installed with a protected object through the connecting hole of the connecting cover 1. The lower end face of the connecting cavity 2 is provided with a connecting hole, and the vibration isolation support is connected with a non-protective object or the ground through the connecting hole of the connecting cavity 2.

As shown in fig. 3, 4 and 5, the elastic body 5 is circular rubber, cross orthogonal grooves are formed on the upper end surface and the lower end surface of the elastic body 5 to serve as viscous damping fluid flow passages, and vertical connecting holes are formed in the grooves corresponding to the upper end surface and the lower end surface to connect the grooves at the upper end and the lower end surface.

The connecting cavity 2 is circular in shape, and a circular containing cavity is processed inside the connecting cavity. The bottom of the containing cavity is concentrically provided with a circular concave platform matched with the outer diameter of the elastic body 5, the lower end face of the elastic body 5 is arranged on the circular concave platform, and the cavity wall of the circular concave platform limits the horizontal movement of the elastic body 5.

As shown in fig. 6, the lower end of the cross section of the rubber ring 6 is provided with a small boss extending inward.

As shown in fig. 1, the connecting cover 1 is circular in shape, the connecting cover 1 is composed of a cover plate and flanges, and meanwhile, a circular concave platform with the same size as the circular concave platform of the connecting cavity 2 and a circular concave cavity matched with the outer diameter of the cylinder of the damping cylinder 4 are concentrically processed on the bottom surface of the cover plate of the connecting cover 1.

The damping cylinder 4 consists of a cylinder and a circular ring plate, a threaded through hole is formed in the middle of the damping cylinder 4, and the upper end of the cylinder of the damping cylinder 4 is arranged on a circular concave cavity in the bottom surface of the connecting cover 1 in an interference fit mode.

As shown in fig. 1 and 7, the rubber ring 6 is sleeved outside the flange of the connecting cover 1, the small boss of the rubber ring 6 hooks the bottom of the flange of the connecting cover 1, and at this time, the outer diameter of the rubber ring 6 is slightly larger than the inner diameter of the circular cavity of the connecting cavity 2. The connecting cover 1 is connected with the rubber ring 6 and is installed in the circular containing cavity of the connecting cavity 2, and the rubber ring 6 can be extruded and deformed in the installation process because the outer diameter of the rubber ring 6 is slightly larger than the inner diameter of the circular containing cavity of the connecting cavity 2. After the installation is finished, the circular concave table at the bottom surface of the cover plate of the connecting cover 1 is sleeved on the elastic body 5, and the cavity wall of the circular concave table also limits the horizontal movement of the elastic body 5.

As shown in fig. 1, an annular groove is formed in the upper end surface of the connecting cavity 2, the planar O-ring 7 is arranged in the annular groove and protrudes out of the annular groove, and a male end is formed in the outermost edge of the upper end surface of the connecting cavity 2.

The pressing plate 3 is circular in shape, the diameter of the outer circle is the same as that of the outer circle of the connecting cavity 2, and the diameter of the inner circle is slightly larger than the outer diameter of the cover plate of the connecting cover 1. The inside of clamp plate 3 is processed and is had the ring slot, axial O type circle 8 is arranged in the ring slot and is protruded partly, and the outer fringe of the lower terminal surface of clamp plate 3 still is processed the concave tang that matches with the protruding tang of connecting chamber 2 simultaneously.

The pressing plate 3 is concentrically mounted on the upper end surface of the connecting cavity 2 through a spigot, and the connecting cavity 2 and the pressing plate 3 are fixedly connected through a plurality of fixing bolts 10. At this time, the plane O-ring 7 is deformed by the plane pressing action of the pressing plate 3 to reach a sealing state, and the axial O-ring 8 is deformed by the axial surface pressing action of the outer edge of the cover plate of the connecting cover 1 to reach a sealing state.

As shown in fig. 1, the lower end surface of the limit bolt 11 is a plane rather than a pointed end. The pressing plate 3 is further circularly provided with a threaded through hole, the pressing plate 3 is arranged on the connecting cavity 2, the plurality of limiting bolts 11 are arranged on the pressing plate 3, and the lower end face of each limiting bolt 11 abuts against the flange of the connecting cover 1.

As shown in fig. 1, a countersunk through hole is further processed at the central position of the cover plate of the connection cover 1, and the damping cylinder 4 in interference fit with the bottom surface of the connection cover 1 is also provided with a threaded through hole in the middle, so that viscous damping fluid is filled as an oil filling hole at the central position of the connection cover 1, and after the viscous damping fluid is filled into the middle position of the elastomer 5 from the connection cover 1, the viscous damping fluid flows to the periphery of the vibration isolation support through the cross-shaped orthogonal groove arranged on the lower end surface of the elastomer 5. The annular plate of the damping cylinder 4 is completely immersed in the viscous damping fluid.

As shown in fig. 1, after the viscous damping fluid is poured, the middle bolt 9 is placed in the countersunk through hole of the connecting cover 1 and is fastened with the damping cylinder 4 through threads. The middle bolt 9 is provided with a T-shaped vent hole.

As shown in fig. 8, the upper part of the vibration isolation support is connected with a protected object through the connecting cover 1, and after the lower part is connected with a non-protected object or the ground through the connecting cavity 2, the weight of the protected object acts on the end face 1, namely the upper load in fig. 7, and simultaneously, the non-protected object or the ground applies a reaction force to the bottom of the connecting cavity 2, namely the supporting load in fig. 7. Therefore, the elastic body 5 is deformed under the upper load and the supporting load, as shown in fig. 7, the thickness thereof is compressed, and the outside and the inside are swollen. The connection cap 1 also moves downward following the compression of the elastic body 5, at which time the lower end surface of the stopper bolt 11 is separated from the connection cap 1, as shown in fig. 9.

At this time, all the stopper bolts 11 are removed, thread paste is filled on the surface of each stopper bolt 11, and re-screwed to re-abut against the flange of the coupling cap 1, and a set torque is applied to each stopper bolt 11, as shown in fig. 10. After this step is completed, each of the stopper bolts 11 is loosened by a predetermined angle. So that each of the stopper bolts 11 is moved upward by the same distance as shown in fig. 11. And after the thread adhesive is cured, the vibration isolation support enters a use state.

Example 2

The vibration and noise isolation multifunctional device provided by the patent can be combined with a horizontal rubber support at the bottom of a connecting cavity 2 to form a three-dimensional vibration isolation (vibration) support I type, as shown in attached figures 12 and 13. Fig. 13 shows a horizontal rubber mount of the type shown as a lead rubber mount, but this embodiment is equally applicable to lead-free rubber mounts.

Horizontal rubber support upper junction plate 11 arranges horizontal rubber support 12 up end in, through fastening bolt and horizontal rubber support 12 up end fixed connection, horizontal rubber support lower junction plate 13 arranges horizontal rubber support 12 down end in, through fastening bolt and horizontal rubber support 12 lower end fixed connection.

The threaded hole is processed to the multi-functional device's that this patent provided vibration and noise are kept apart 2 bottom surfaces of connecting chamber. The horizontal rubber support upper connecting plate 11 is fixedly connected with the connecting cavity 2 through a fastening bolt to form the three-dimensional vibration isolation (vibration) support I type. The horizontal rubber support lower connecting plate 13 is installed and connected with a non-protected object or the ground, and the upper end face of the connecting cover 1 is installed and connected with a protected object.

The three-dimensional vibration isolation (vibration) support I is vertically isolated and dissipated by the multifunctional device for isolating vibration and noise, and also isolates and dissipates part of vertical earthquake action. The horizontal rubber mount 12 acts to adjust the horizontal natural frequency of the protected object in the horizontal direction, isolating and dissipating the horizontal seismic action by its own horizontal reciprocal deformation.

Example 3

The multifunctional vibration and noise isolating device provided by the patent can be combined with a horizontal rubber support on the top surface of a connecting cover 1 to form a three-dimensional vibration isolating (isolating) support II type, as shown in figures 14 and 15. Fig. 15 shows a horizontal rubber mount of the type shown as a lead rubber mount, but this embodiment is equally applicable to lead-free rubber mounts.

Horizontal rubber support upper junction plate 11 arranges horizontal rubber support 12 up end in, through fastening bolt and horizontal rubber support 12 up end fixed connection, horizontal rubber support lower junction plate 13 arranges horizontal rubber support 12 down end in, through fastening bolt and horizontal rubber support 12 lower end fixed connection.

The patent provides a vibration and multifunctional device's that noise is kept apart connection lid 1 top surface processing threaded hole. The upper connecting plate 11 of the horizontal rubber support is fixedly connected with the connecting cavity 2 through a fastening bolt to form the II type of the three-dimensional vibration isolation (vibration) support. The lower connecting plate 13 of the horizontal rubber support is connected with a non-protected object or the ground, and the lower end surface of the connecting cavity 2 is connected with the protected object.

The type II three-dimensional vibration isolation (vibration) support is vertically isolated and dissipated by the multifunctional device for isolating vibration and noise, and also isolates and dissipates part of vertical earthquake action. The horizontal rubber mount 12 acts to adjust the horizontal natural frequency of the protected object in the horizontal direction, isolating and dissipating the horizontal seismic action by its own horizontal reciprocal deformation.

Example 4

The vibration and noise isolation multifunctional device provided by the patent can be combined with a sliding plate support to form a three-dimensional vibration isolation (vibration) support III type on the top surface of a connecting cover 1, as shown in figure 16. The top surface of the connecting cover 1 can be also provided with a circular concave platform, a polytetrafluoroethylene plate 15 (commonly known as a polytetrafluoroethylene plate) is embedded and fixedly arranged on the circular concave platform, the polytetrafluoroethylene plate 15 is circular in shape, and the thickness of the polytetrafluoroethylene plate 15 is larger than the height of the circular concave platform on the top surface of the connecting cover 1. The polytetrafluoroethylene plate 15 is provided with a sliding plate 16, the upper end face of the sliding plate 16 is connected with a protected object in an installing manner, the lower end face of the sliding plate 16 is processed into a high-finish low-friction plane, and the low-friction plane is in contact with the polytetrafluoroethylene plate 15 to form the three-dimensional vibration isolation (vibration) support III type.

The upper end face of the sliding plate 16 is connected with the protected object in a mounting way, and the lower end face of the connecting cavity 2 is connected with the protected object in a mounting way.

The three-dimensional vibration isolation (vibration) support III is vertically isolated and dissipated by the multifunctional device for isolating vibration and noise, and also isolates and dissipates part of vertical earthquake action. At the horizontal upper slide mount the horizontal seismic action is damped by low friction sliding between its slide plate 16 and the teflon plate 15, which itself does not provide horizontal restoring stiffness. The three-dimensional vibration isolation (vibration) support III can be combined with other three-dimensional vibration isolation (vibration) supports with horizontal restoring rigidity for use.

It will be understood by those within the art that, unless otherwise defined, all terms including technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Finally, it should be noted that: the above embodiments are only used for illustrating but not limiting the technical solutions of the present invention, and although the present invention is described in detail with reference to the above embodiments, those skilled in the art should understand that: the present invention may be modified or substituted with equivalents without departing from the spirit and scope of the invention, which should be construed as being limited only by the claims.

Claims (9)

1. A vibration and noise isolated multifunctional device is characterized in that: comprises a set of elastic bodies (5) and corresponding connecting cavities (2), a group of anti-drawing mechanisms, self-insulating prestressed rubber rings (6) and a vertical damping system, the appearance of the elastic body (5) is annular and is arranged above the connecting cavity (2), the anti-pulling mechanism comprises a connecting cover (1), a pressing plate (3) and a plurality of limiting bolts (11), the connecting cover (1) is arranged on the elastic body (5), the limiting bolts (11) are annularly arranged on the pressing plate (3), the pressing plate (3) is fixedly connected with the connecting cavity (2), a self-insulation prestress rubber ring (6) is arranged between the connecting cavity (2) and the connecting cover (1) to form a closed space, the vertical damping system comprises a damping cylinder (4) and damping liquid, the damping fluid is filled in a closed space formed by the connecting cavity (2), the connecting cover (1) and the self-insulation prestressed rubber ring (6); the damping cylinder (4) is arranged at the bottom of the center of the connecting cover (1), is arranged in the inner circle of the elastic body (5) and is soaked in damping liquid, a through hole is formed in the connecting cover (1), a middle bolt (9) is arranged in the through hole, and the middle bolt (9) is a bolt with a vent hole.

2. A vibration and noise isolating multifunctional device according to claim 1, wherein: grooves are formed in the upper surface and the lower surface of the elastic body (5), the grooves are communicated with the inner circle and the outer circle of the elastic body (5), meanwhile, vertical through holes are formed in the grooves, and the vertical through holes are communicated with the grooves in the upper surface and the lower surface of the elastic body (5).

3. A vibration and noise isolated multifunctional device according to claim 1, wherein: a surface sealing ring is arranged between the connecting cavity (2) and the pressing plate (3), and an axial sealing ring is arranged between the pressing plate (3) and the connecting cover (1).

4. A vibration and noise isolated multifunctional device according to claim 1, wherein: connecting holes are processed on the upper end surface of the connecting cover (1) and the lower end surface of the connecting cavity (2).

5. A vibration and noise isolated multifunctional device according to claim 1, wherein: the connecting cavity (2) is circular in shape, a circular containing cavity is processed inside the connecting cavity, a circular concave table matched with the outer diameter of the elastic body (5) is concentrically processed at the bottom of the containing cavity, and the lower end face of the elastic body (5) is arranged on the circular concave table.

6. A vibration and noise isolated multifunctional device according to claim 1, wherein: the connecting cover (1) is circular in shape, the connecting cover (1) is composed of a cover plate and flanges, and meanwhile, a circular concave platform with the same size as the circular concave platform of the connecting cavity (2) and a circular concave cavity matched with the outer diameter of the cylinder of the damping cylinder (4) are concentrically processed on the bottom surface of the cover plate of the connecting cover (1).

7. A vibration and noise isolating multifunctional device according to claim 1, wherein: damping cylinder (4) comprise drum and ring plate, and the centre is provided with the screw thread through-hole, and the interference of the drum upper end of damping cylinder (4) is installed on the round cavity of connecting lid (1) bottom surface, and it has the ring stria to connect chamber (2) up end processing, and plane O type circle (7) are arranged in the ring stria and are salient partly, and the outer fringe of connecting chamber (2) up end still is processed simultaneously has protruding tang.

8. A vibration and noise isolated multifunctional device according to claim 1, wherein: the inboard processing of clamp plate (3) has the ring stria, and axial O type circle (8) are arranged in the ring stria and are projected partly, and the lower terminal surface outermost edge of clamp plate (3) still processes the concave tang that matches with the protruding tang that connects chamber (2) simultaneously, clamp plate (3) join in marriage the upper end face of installing at connection chamber (2) with heart through the tang, and a plurality of fixing bolt (10) will connect chamber (2) and clamp plate (3) fixed connection.

9. A vibration and noise isolated multifunctional apparatus according to any one of claims 1-8, wherein: the device can also be combined with a horizontal shock isolation device to form a three-way shock isolation/isolation device for use, and the horizontal shock isolation device is arranged on a connecting hole of a connecting cover (1) or a connecting cavity (2) of the device.

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