CN212423433U - Vibration isolation device based on acoustic black hole structure and ship system - Google Patents

Abstract

The utility model relates to a vibration isolation technical field discloses a vibration isolation device and marine system based on acoustics black hole structure, and wherein the vibration isolation device includes bearing structure, bearing structure is used for setting up between source equipment and the mounting base shakes, the last a plurality of acoustics black hole structure that has constructed of bearing structure, acoustics black hole structural connection has the local subassembly of shaking. The utility model provides a pair of vibration isolation device and marine system based on acoustics black hole structure, through the acoustics black hole structure on the bearing structure, assemble the vibration energy of the source equipment transmission of shaking in acoustics black hole structure, realize the high-efficient gathering of vibration energy, on this basis, through installing local oscillator subassembly in acoustics black hole structure department, can realize the high-efficient absorption of vibration energy to at the vibration transmission in-process of the source equipment of shaking, effectively promote the vibration isolation effect.

Description

Vibration isolation device based on acoustic black hole structure and ship system

Technical Field

The utility model relates to a vibration isolation technical field especially relates to a vibration isolation device and marine system based on acoustics black hole structure.

Background

The power machine is the most important vibration noise source of the ship, the violent vibration can cause the fatigue damage of the structure, induce the mechanical failure and reduce the performance and the safe reliability of the power machine, more importantly, the vibration of the power machine is transmitted to the ship body through the vibration absorber, the vibration of the ship body causes the underwater radiation noise, the excessive radiation noise can influence the sound self-guidance and guidance of the underwater ship, and is easy to expose itself, the self sound stealth is reduced, and the power machine becomes an important factor influencing the ship concealment and the vitality.

The vibration isolation technology is considered as a main technical means for controlling vibration transmission of mechanical equipment, however, the traditional vibration isolation technology has certain limitations. In order to improve the low-frequency vibration isolation effect, the vibration absorber needs to have low enough rigidity, and simultaneously has larger static rigidity in order to ensure certain bearing capacity and stability, so that the traditional passive vibration isolation technology can effectively isolate medium-high frequency vibration of mechanical equipment, but has poor control effect on the low-frequency vibration, and for a ship, underwater radiation noise generated by the low-frequency vibration has vital influence on the concealment and vitality of the ship due to the fact that the propagation distance is long and the attenuation is not easy. Theoretically, the active vibration isolation technology can effectively control low-frequency vibration, but because the active control system is an electromechanical integrated system, the system is complex and expensive, and is influenced and limited by various factors such as installation space, weight and the like, the engineering application of the active vibration isolation technology in the field of domestic ships faces great difficulty at present.

The traditional vibration isolation technology at present has the problems of poor control effect on low-frequency vibration and incapability of meeting the vibration isolation requirement of ship mechanical equipment.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a vibration isolation device and marine system based on acoustics black hole structure for solve or partially solve present traditional vibration isolation technique and exist relatively poor to low frequency vibration control effect, can not satisfy the problem that boats and ships mechanical equipment vibration isolation needs.

An embodiment of the utility model provides an isolation mounting based on acoustics black hole structure, including bearing structure, bearing structure is used for setting up between vibration source equipment and mounting base, the last a plurality of acoustics black hole structure that has constructed of bearing structure, acoustics black hole structural connection has local oscillator subassembly.

On the basis of the scheme, the plurality of acoustic black hole structures are uniformly distributed on the supporting structure.

On the basis of the scheme, the upper surface and the lower surface of the acoustic black hole structure are respectively provided with a damping coating.

On the basis of the scheme, the upper surface and the lower surface of the acoustic black hole structure are respectively concave, and the thickness of the acoustic black hole structure is continuously increased from the middle to the edge.

On the basis of the scheme, a supporting platform with uniform thickness is formed in the middle of the acoustic black hole structure.

On the basis of the scheme, the local oscillator component is connected to the supporting platform.

On the basis of the scheme, the local oscillator component is connected above or below the acoustic black hole structure.

On the basis of the scheme, the local oscillator component comprises a supporting spring and a mass block, wherein one end of the supporting spring is connected with the acoustic black hole structure, and the other end of the supporting spring is connected with the mass block.

On the basis of the scheme, the upper surface of the supporting structure is connected with an upper-layer vibration isolator used for being connected with vibration source equipment, and the lower surface of the supporting structure is connected with a lower-layer vibration isolator used for being connected with a mounting base.

An embodiment of the utility model provides a still ship system, including the above-mentioned vibration isolation device based on acoustics black hole structure, still include vibration source equipment, mounting base and boats and ships casing, vibration isolation device locates vibration source equipment with between the mounting base, the mounting base is fixed in the boats and ships casing.

The embodiment of the utility model provides a pair of vibration isolation device and marine system based on acoustics black hole structure, through the acoustics black hole structure on the bearing structure, assemble the vibration energy of vibration source equipment transmission in acoustics black hole structure, realize the high-efficient gathering of vibration energy, on this basis, through installing local oscillator subassembly in acoustics black hole structure department, can realize the high-efficient absorption of vibration energy to at the vibration transmission in-process of vibration source equipment, effectively promote the vibration isolation effect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is an overall connection schematic diagram of a vibration isolation device based on an acoustic black hole structure according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an acoustic black hole structure in an embodiment of the present invention;

fig. 3 is a schematic diagram illustrating the distribution of the acoustic black hole structure on the support structure according to an embodiment of the present invention;

fig. 4 is a schematic cross-sectional view of a support structure according to an embodiment of the present invention.

Description of reference numerals:

wherein, 1, a vibration source device; 2. an upper vibration isolator; 3. a support structure; 4. an acoustic black hole structure; 5. a damping coating; 6. a local oscillator assembly; 6a, a mass block; 6b, a support spring; 7. a lower layer vibration isolator; 8. mounting a base; 9. a hull of the vessel; 10. a support platform; 11. areas of smoothly varying thickness.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1, the embodiment of the utility model provides a vibration isolation device based on acoustics black hole structure, this vibration isolation device include bearing structure 3, and bearing structure 3 is used for setting up between source equipment 1 and the mounting base 8 that shakes, is constructed a plurality of acoustics black hole structure 4 on bearing structure 3, refers to fig. 2, and acoustics black hole structure 4 is connected with local oscillator subassembly 6.

An acoustic black hole structure 4 is configured and formed on the support structure 3 for gathering vibration energy transmitted from the vibration source apparatus 1. A local oscillator assembly 6 is connected to the acoustic black hole structure 4 for absorbing the vibration energy gathered by the acoustic black hole structure 4. The vibration energy transferred by the source device 1 is concentrated by the acoustic black hole structure 4 in the support structure 3.

The utility model provides a vibration isolation mounting based on acoustics black hole structure, through acoustics black hole structure 4 on the bearing structure 3, assemble the vibration energy of vibration source equipment 1 transmission in acoustics black hole structure 4, realize the high-efficient gathering of vibration energy, on this basis, through installing local oscillator subassembly 6 in acoustics black hole structure 4 department, can realize the high-efficient absorption of vibration energy to in the vibration transmission in-process of vibration source equipment 1, effectively promote the vibration isolation effect.

The supporting structure 3 is arranged to meet the requirement of static rigidity for stably supporting the vibration source equipment 1, and the acoustic black hole structure 4 is arranged on the supporting structure 3 to realize efficient gathering and absorption of vibration energy, so that the control effect of low-frequency vibration can be improved, the supporting rigidity requirement can be met, the vibration isolation requirement can be met, and the vibration isolation requirement of ship mechanical equipment can be met. Further, the acoustic black hole structure 4 is formed on the support structure 3, the support structure 3 is processed on the basis of the support structure 3 to form the acoustic black hole structure 4, and the acoustic black hole structure 4 and the support structure 3 are integrated, so that the static rigidity of the support structure 3 is further increased.

Further, the supporting structure 3 may be a steel plate, or may be made of other materials, so as to meet the requirement of supporting rigidity, and is not limited specifically.

On the basis of the above embodiment, further, with reference to fig. 3, several acoustic black hole structures 4 are evenly distributed on the support structure 3. The vibration source device 1 can uniformly and fully absorb the vibration energy transmitted by the vibration source device, and is favorable for ensuring the vibration isolation effect.

Further, a local oscillator module 6 is connected to each acoustic black hole structure 4. So that the local oscillator modules 6 are equally distributed over the support structure 3 as well. Preferably, the acoustic black hole structures 4 are uniformly symmetrically distributed with respect to the vibration source device 1.

The distribution of the acoustic black hole structure 4 and the local oscillator assembly 6 in the supporting structure 3 is in a uniform form, and the supporting structure 3 is made into an artificial phononic crystal structure by utilizing the uniformity of the acoustic black hole structure 4 and the local oscillator assembly 6, and the artificial phononic crystal has the characteristics of a Bragg scattering type phononic crystal and a local resonance type phononic crystal, so that a vibration wide frequency band gap of the supporting structure 3 is obtained, the attenuation amplitude of the vibration amplitude of the supporting structure 3 is effectively increased, and the action range of the vibration band gap of the supporting structure 3 is expanded to a low frequency.

Further, referring to fig. 3, in the present embodiment, the support structure 3 may be rectangular, the outer contour of the acoustic black hole structure 4 may be circular, and the acoustic black hole structures 4 may be uniformly distributed on the support structure 3 in an array. The support structure 3 may also be other shapes, such as circular, square or any other regular irregular shape; the outer contour of the acoustic black hole structure 4 can be any other regular irregular shape to meet the requirement of thickness variation; the acoustic black hole structure 4 can be arranged on the support structure 3 in other ways; and is not particularly limited.

On the basis of the above embodiment, further, referring to fig. 2, the upper and lower surfaces of the acoustic black hole structure 4 are respectively provided with damping coatings 5. The damping coating 5 is used to dissipate the vibrational energy collected by the acoustic black hole structure 4.

On the basis of the above embodiment, further, the upper and lower surfaces of the acoustic black hole structure 4 are concave respectively, and the thickness of the acoustic black hole structure 4 increases continuously from the middle to the edge. The upper and lower surfaces of the acoustic black hole structure 4 are concave compared to the surface of the support structure 3. And is a smooth continuous concave surface. The edge of the acoustic black hole structure 4 is smoothly connected with the surface of the support structure 3.

On the basis of the above embodiment, further, the supporting platform 10 with uniform thickness is formed in the middle of the acoustic black hole structure 4.

On the basis of the above embodiment, further, the local oscillator module 6 is connected to the support platform 10. Forming the support platform 10 in the middle of the acoustic black hole structure 4 may facilitate connection of the local oscillator assembly 6 at the support platform 10. The acoustic black hole structure 4 increases in thickness continuously from the support platform 10 to the edge region.

Specifically, the acoustic black hole structure 4 is composed of an intermediate support platform 10 and a smoothly varying thickness region 11. The thickness of the structure of the smooth variation of thickness region 11 varies exponentially. Referring to fig. 2, specifically, the thickness h (x) ═ epsilonx of the smooth variation area 11^mWherein the index m is more than or equal to 2, and the coefficient epsilon can be selected according to actual conditions and experience. I.e. the surface of the smoothly varying thickness region 11 in fig. 2 is at x₁And x₂Between two points in an exponential function, where x₁The outer side position of the supporting platform 10 is the starting position of the smooth thickness change area 11, x₂Is the end position of the smoothly varying thickness region 11.

The thickness smooth change area 11 enables the local structure impedance of the supporting structure 3 to change smoothly along with the thickness change, the wave speed of the bending wave is reduced along with the change, a large amount of vibration energy is gathered in the middle of the acoustic black hole structure 4, and efficient gathering of the vibration energy is achieved. Furthermore, on one hand, damping coatings 5 are adhered to the upper concave surface and the lower concave surface of the acoustic black hole structure 4, so that the effect of losing vibration energy of the acoustic black hole structure 4 is achieved, and the vibration response of the middle supporting structure 3 at the resonance frequency in the whole frequency domain range can be reduced; on the other hand, the local oscillator assembly 6 is arranged on the support platform 10 in the middle of the acoustic black hole structure 4, so that the effect of transferring and absorbing the vibration energy in the area of the acoustic black hole structure 4 to the local oscillator assembly 6 is achieved, and the vibration response of the support structure 3 can be effectively reduced.

In the embodiment, the acoustic black hole structure 4, the damping coating 5 and the local oscillator assembly 6 distributed on the supporting structure 3 are utilized to realize the high-efficiency aggregation, loss and absorption of structural vibration energy, so that the structural vibration is strongly attenuated in the vibration transmission process of the vibration source equipment 1, and the vibration isolation effect is effectively improved. Furthermore, the upper surface and the lower surface of the acoustic black hole structure 4 are both concave surfaces, so that the collection of vibration energy is facilitated, and the vibration isolation effect is improved.

On the basis of the above embodiment, further, referring to fig. 4, the local oscillator module 6 is connected above or below the acoustic black hole structure 4.

On the basis of the above embodiment, further, the local oscillator assembly 6 includes a support spring 6b and a mass 6a, one end of the support spring 6b is connected to the acoustic black hole structure 4, and the other end of the support spring 6b is connected to the mass 6 a.

Referring to fig. 1 and 4, the local oscillator assembly 6 includes a lumped mass 6a and a support spring 6b, and may be installed on the upper or lower portion of the acoustic black hole structure 4 support platform 10 of the support structure 3 in a forward installation manner or a reverse hoisting manner according to installation space conditions. In this embodiment, the local oscillator assembly 6 has an effect of suppressing the low-frequency characteristic line spectrum of the structural vibration, and specifically, for the strongest excitation frequency of the vibration source device 1, the peak value of the strongest low-frequency line spectrum in the support structure 3 can be greatly reduced by reasonably designing the mass of the mass block 6a and the rigidity of the support spring 6b in the local oscillator assembly 6. The specific mass of the mass 6a and the specific stiffness of the support springs 6b can be determined empirically or experimentally in combination with the actual situation.

On the basis of the above embodiment, the upper surface of the supporting structure 3 is connected with the upper-layer vibration isolator 2 for connecting with the vibration source equipment 1, and the lower surface of the supporting structure 3 is connected with the lower-layer vibration isolator 7 for connecting with the mounting base 8.

On the basis of the above embodiments, further, referring to fig. 1, the present embodiment provides a ship system, which includes the vibration isolation device based on the acoustic black hole structure 4 according to any of the above embodiments, and further includes a vibration source device 1, a mounting base 8, and a ship housing 9, where the vibration isolation device is disposed between the vibration source device 1 and the mounting base 8, and the mounting base 8 is fixed to the ship housing 9. The vibration source apparatus 1 in the marine system may be a power plant.

On the basis of the above embodiments, further, in the present embodiment, in order to overcome the defects of the current ship power machine vibration isolation technology, a ship power machine vibration isolation system having low-frequency broadband performance, small additional influence, and low cost is provided. The utility model discloses a vibration isolation device based on acoustics black hole structure 4, its low frequency broadband effect that is used for promoting vibration isolation can be used to the vibration isolation of boats and ships vibration source equipment 1, can effectively promote the low frequency range vibration isolation effect. The vibration isolation device includes: an acoustic black hole structure 4 for collecting vibration energy transmitted by the vibration source apparatus 1; the supporting structure 3 is distributed with uniform acoustic black hole structures 4, is connected with the upper layer vibration isolator 7 and the lower layer vibration isolator 7 and is used as a main channel for transmitting vibration from the vibration source equipment 1 to the ship shell 9; a damping coating 5 for dissipating the vibration energy gathered by the acoustic black hole structure 4; and the local oscillator assembly 6 is used for absorbing the vibration energy gathered by the acoustic black hole structure 4.

This embodiment can realize the high-efficient gathering of vibration energy through acoustics black hole structure 4 at the in-process of vibration source equipment 1 to the transmission of boats and ships casing 9, and damping coating 5 and local oscillator realize high-efficient loss and the absorption of vibration energy to utilize the homogeneity of acoustics black hole structure 4 and local oscillator to obtain the low frequency vibration band gap, reach the purpose of effectively promoting the vibration isolation low frequency broadband effect.

In the embodiment, the acoustic black hole structure 4 in the support structure 3 enables the structural impedance to change smoothly along with the change of the thickness, and the energy of the bending wave is converged in the middle of the acoustic black hole structure 4, so that the efficient collection of the vibration energy is realized. On this basis, through pasting damping coating 5 at the upper and lower concave surface of acoustics black hole to at acoustics black hole structure 4 supporting platform 10 installation local oscillator subassembly 6, can realize high-efficient loss and the absorption of vibration energy, thereby at the in-process of vibration source equipment 1 to the transmission of boats and ships casing 9 vibration, effectively promote the vibration isolation effect.

In the embodiment, the distribution of the acoustic black hole structure 4 and the local oscillator component 6 in the support structure 3 is in a uniform form, so that the support structure 3 becomes an artificial phononic crystal structure, and the artificial phononic crystal has the characteristics of both a bragg scattering type phononic crystal and a local resonance type phononic crystal, thereby obtaining a vibration wide frequency band gap of the support structure 3, effectively increasing the attenuation amplitude of the vibration amplitude of the support structure 3, and expanding the action range of the vibration band gap of the support structure 3 to a low frequency.

The local oscillator assembly 6 in the embodiment has the function of inhibiting the structural vibration low-frequency characteristic line spectrum, and aiming at the strongest excitation frequency of the vibration source equipment 1, the peak value of the strongest low-frequency line spectrum in the structure is greatly reduced by reasonably designing the mass of the mass block 6a and the rigidity of the supporting spring 6b in the local oscillator.

The number, size and distribution of the acoustic black hole structures 4 in the supporting structure 3 and design parameters of the local oscillator assembly 6 can be flexibly determined according to excitation characteristics of different vibration source devices 1 while the effect of improving the vibration isolation low-frequency broadband of the ship vibration source device 1 is achieved, and the method is wide in application range, easy to implement and low in cost. The specific number, size and distribution of the acoustic black hole structures 4 can be set according to the excitation characteristics and the supporting rigidity of the actual vibration source device 1, and are not limited specifically.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The vibration isolation device based on the acoustic black hole structure is characterized by comprising a supporting structure, wherein the supporting structure is used for being arranged between vibration source equipment and a mounting base, a plurality of acoustic black hole structures are constructed on the supporting structure, and the acoustic black hole structures are connected with local oscillator components.

2. The acoustic black hole structure-based vibration isolation device according to claim 1, wherein a number of the acoustic black hole structures are uniformly distributed on the support structure.

3. The acoustic black hole structure-based vibration isolation device according to claim 1, wherein the upper and lower surfaces of the acoustic black hole structure are respectively provided with damping coatings.

4. The vibration isolation device based on the acoustic black hole structure according to any one of claims 1 to 3, wherein the upper and lower surfaces of the acoustic black hole structure are concave respectively, and the thickness of the acoustic black hole structure increases continuously from the middle to the edge.

5. The acoustic black hole structure-based vibration isolation device according to claim 4, wherein a supporting platform with a uniform thickness is formed at the middle part of the acoustic black hole structure.

6. The acoustic black hole structure-based vibration isolation device according to claim 5, wherein the local oscillator component is connected to the support platform.

7. The acoustic black hole structure-based vibration isolation device according to any one of claims 1 to 3, wherein the local oscillator component is connected above or below the acoustic black hole structure.

8. The acoustic black hole structure-based vibration isolation device according to any one of claims 1 to 3, wherein the local oscillator assembly comprises a supporting spring and a mass, one end of the supporting spring is connected to the acoustic black hole structure, and the other end of the supporting spring is connected to the mass.

9. The acoustic black hole structure-based vibration isolation device according to any one of claims 1 to 3, wherein an upper vibration isolator for connecting with a vibration source device is connected to the upper surface of the supporting structure, and a lower vibration isolator for connecting with a mounting base is connected to the lower surface of the supporting structure.

10. A marine system comprising the acoustic black hole structure-based vibration isolation apparatus according to any one of claims 1 to 9, further comprising a vibration source device, a mounting base, and a marine hull, wherein the vibration isolation apparatus is disposed between the vibration source device and the mounting base, and the mounting base is fixed to the marine hull.

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