CN111005976A - Module assembling type vibration isolation platform - Google Patents

Abstract

The invention discloses a module assembly type vibration isolation platform which comprises a vibration isolation module, a bearing steel frame, a connecting member and a height adjusting member. The vibration isolation module comprises vibration isolation elements, mass blocks and vibration isolation units of different types and series of damping structures, and the load center of the vibration isolation module is consistent with the geometric center of the plane; each vibration source equipment is provided with one or more vibration isolation modules, and the vibration isolation modules are arranged at the lower part and the side surface of the base of the vibration source equipment through a connecting member and a bearing steel frame; the vibration isolation modules form a large-scale vibration source equipment integral vibration isolation platform and a public vibration isolation platform of a plurality of vibration source equipment through the force bearing steel frames and the connecting members, the optimal load of the vibration isolation modules is consistent with the load of the vibration source equipment, the integral vibration isolation module platform formed by the vibration isolation modules, the force bearing steel frames and the connecting members has enough rigidity, and the load borne by the vibration isolation modules is adjusted through the height adjusting members. The method is suitable for various complex working conditions, and is simple in installation and construction and low in modification cost.

Description

Module assembling type vibration isolation platform

Technical Field

The invention relates to a low-frequency vibration structure-borne noise vibration isolation and reduction technology, in particular to a module assembly type vibration isolation platform.

Background

Many electromechanical devices are a source of vibration noise in civil buildings, and the vibration of the vibration source device propagates through solid structure sound generated by the contact of the vibration source device base and the ground building. The important way to eliminate the vibration hazard is mainly to control the transmission of vibration by reducing the technology of vibration isolation, i.e. isolating or weakening the transmission of vibration energy. The whole vibration isolation pedestal is arranged between the vibration source equipment base and the ground, and the vibration of the vibration source equipment is prevented from being transmitted to the solid structure sound of a building structure, so that the purposes of vibration isolation and noise reduction are achieved, and the vibration isolation pedestal is one of important ways for eliminating vibration hazards.

According to the vibration isolation design of HJ 2034-20137.4.2, the 7.4.2.1 vibration isolation design is implemented according to GB50463, GB10070, GB/T50452 and JGJ/T170. 7.4.2.2 the vibration isolation design should be carried out as follows: a) determining a required vibration transmission ratio (or vibration isolation efficiency) and an approximate load and gravity center distribution condition; b) determining the layout form, load, model, size and number of the vibration isolation elements; c) determining static compression amount, frequency ratio and natural frequency of the vibration isolation system; d) checking and calculating vibration isolation parameters, and estimating the noise reduction effect of the vibration isolation design. According to the regulations, the vibration isolation design is considered a lot, and the vibration isolation designers of building design houses are lack, so that the vibration isolation of the equipment forms a difficult point of the current design work, and a lot of troubles are caused.

In practical engineering, when the load and the gravity center of vibration source equipment are unevenly distributed, the arrangement of the integral vibration isolation structure can hardly ensure that each vibration isolation element is in the optimal load range, so that the improvement of vibration isolation efficiency is restricted, and vibration short circuit can be formed to cause vibration isolation failure in serious cases. Especially under the condition of vibration isolation and noise reduction engineering reconstruction, the large-scale integral vibration isolation structure has no effective transportation path and installation space.

Disclosure of Invention

The invention aims to provide a module-assembled vibration isolation platform, which is characterized in that a plurality of vibration isolation platform modules are assembled into a large-scale vibration source equipment integral vibration isolation platform and a public vibration isolation platform of a plurality of vibration source equipment through a force bearing steel frame, a connecting member and a height adjusting member on the basis of modularization and serialization of vibration isolation platforms. Each vibration source equipment is respectively provided with two or more vibration isolation modules, so that the weight of the vibration isolation pedestal is reduced, the transportation and the installation are convenient, the installation and the construction are simple, and the reconstruction cost is low.

The technical scheme adopted by the invention for solving the technical problems is as follows: a module assembly type vibration isolation platform comprises a vibration isolation module, a bearing steel frame, a connecting component and a height adjusting component. The vibration isolation module comprises vibration isolation elements, mass blocks and vibration isolation units of different types and series of damping structures, and the load center of the vibration isolation module is consistent with the geometric center of the plane; each vibration source equipment is provided with one or more vibration isolation modules, and the vibration isolation modules are arranged at the lower part and the side surface of the base of the vibration source equipment through a connecting member and a bearing steel frame; the vibration isolation modules form a large-scale vibration source equipment integral vibration isolation platform and a public vibration isolation platform of a plurality of vibration source equipment through the force bearing steel frames and the connecting members, the optimal load of the vibration isolation modules is consistent with the load of the vibration source equipment, the integral vibration isolation module platform formed by the vibration isolation modules, the force bearing steel frames and the connecting members has enough rigidity, and the load borne by the vibration isolation modules is adjusted through the height adjusting members.

The vibration isolation module types comprise a basic vibration isolation module adopting a primary vibration isolation technology (the vibration isolation efficiency is less than 90 percent), a high-efficiency vibration isolation module adopting a secondary vibration isolation technology (the vibration isolation efficiency is less than 95 percent) and a composite vibration isolation module adopting a secondary vibration isolation technology and particle damping energy dissipation technology for integration (the vibration isolation efficiency is more than or equal to 95 percent). On the premise of classifying different parameters and frequency spectrum characteristics of vibration source equipment, passively-controlled vibration isolation pedestals with different parameters are arranged. The vibration isolation pedestals of different types can meet the requirement of vibration isolation efficiency of respective vibration source equipment under the most severe working condition. Therefore, vibration isolation design procedures are simplified, designers select vibration isolation pedestals of corresponding categories according to vibration source equipment parameters and frequency spectrum characteristics, a fool type vibration isolation design mode is formed, the problem of vibration solid propagation noise of large-volume and wide-area equipment in a civil building can be solved, vibration isolation design efficiency can be effectively improved, and the setting cost of a vibration isolation structure is reduced. On the basis of setting up different types of vibration isolation pedestals according to vibration source characteristic classification, further with the vibration isolation pedestal modularization. The vibration isolation module comprises a complete vibration isolation unit of a vibration isolation element, a mass block and a damping structure, and the load center of the vibration isolation module is consistent with the geometric center of a plane. And the mass center of gravity of the vibration isolation module is reduced by adopting the embedded structure.

The vibration isolation module series is defined according to the working load of the vibration source equipment, the load range has the vibration isolation modules with the level difference relation, a series covering the working load range of the main vibration source equipment is formed, the damping characteristics of the vibration isolation modules of the same series are consistent, and the elastic modulus of the built-in vibration isolation elements is consistent. The vibration isolation modules in the series have a certain load range, and simultaneously, a certain proportion of allowance is crossed.

When the gravity center distribution of the vibration source equipment load is unbalanced, the vibration isolation modules are arranged discontinuously according to the gravity center distribution of the vibration source equipment load, and the distribution of the vibration isolation modules is consistent with the gravity center distribution of the vibration source equipment load.

When the distance between the vibration source equipment base and the terrace meets the height of the vibration isolation module, the vibration isolation module is arranged at the bottom of the vibration source equipment base. When the distance between the vibration source equipment base and the terrace is not enough to arrange the vibration isolation module, the vibration isolation module is arranged on the side surface of the vibration source equipment base through the bearing steel frame and the connecting member. The whole vibration isolation module platform can be larger than the vibration source equipment base, and the structure shapes of the assembled public vibration isolation platform consisting of the plurality of vibration isolation modules are set according to the distribution conditions of the equipment, and comprise a square shape, a strip-shaped flat shape, a T-shaped shape, an L-shaped shape, a U-shaped shape, a square-shaped shape and the like.

The invention has the beneficial effects that:

1. the vibration isolation design workload is reduced, and the vibration isolation module is selected to be installed according to the effective load of vibration source equipment and the requirement of vibration isolation efficiency, so that the vibration isolation device is suitable for various complex working conditions;

2. each vibration source device is provided with one or more vibration isolation modules, so that the weight of the vibration isolation pedestal is reduced, and the transportation and the installation are facilitated; particularly under the condition of vibration isolation and noise reduction engineering reconstruction, the large integral vibration isolation structure has no effective transportation path and installation space;

3. the vibration isolation module is produced and processed in a workshop, so that the product quality is improved, and the vibration isolation efficiency is ensured;

4. the field assembly operation reduces the workload of the field operation, is beneficial to improving the working efficiency, and has simple installation and construction and low modification cost;

5. reduces the construction waste on the construction site, thereby being more environment-friendly and meeting the requirement of green buildings.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a side construction view of a first embodiment of the present invention.

Fig. 2 is a top view of the structure of fig. 1.

Fig. 3 is a side view of the second embodiment of the present invention.

Fig. 4 is a top configuration view of fig. 3.

In the figure, 1, a vibration isolation module, 2, a force bearing steel frame, 3, a connecting component, 4, a height adjusting component, 5, a vibration source equipment base and 6, a terrace are arranged.

Detailed Description

In a first embodiment shown in fig. 1 and 2, a module-assembled vibration isolation platform comprises a vibration isolation module (1), a force bearing steel frame (2), a coupling member (3) and a height adjusting member (4). The vibration isolation module (1) comprises vibration isolation elements, mass blocks and vibration isolation units of different types and series of damping structures, and the load center of the vibration isolation module (1) is consistent with the geometric center of a plane; each vibration source equipment is provided with one or more vibration isolation modules (1), and the vibration isolation modules (1) are arranged at the lower part and the side surface of the base of the vibration source equipment through a force bearing steel frame (2) and a connecting member (3); the vibration isolation module comprises a plurality of vibration isolation modules (1), a bearing steel frame (2) and a connecting member (3), wherein the vibration isolation modules form a large vibration source equipment integral vibration isolation platform and a public vibration isolation platform of a plurality of vibration source equipment, the optimal load of the vibration isolation modules (1) is consistent with the load of the vibration source equipment, the integral vibration isolation module (1) platform formed by the vibration isolation modules (1), the bearing steel frame (2) and the connecting member (3) has enough rigidity, and the load borne by the vibration isolation modules (1) is adjusted through a height adjusting member (4).

The types of the vibration isolation modules (1) comprise a basic vibration isolation module (the vibration isolation efficiency is less than 90%) adopting a primary vibration isolation technology, a secondary vibration isolation module (the vibration isolation efficiency is less than 95%) adopting a secondary vibration isolation technology and a composite vibration isolation module (the vibration isolation efficiency is more than or equal to 95%) adopting a secondary vibration isolation technology and particle damping energy dissipation technology integration.

The series of vibration isolation modules (1) is defined according to the working load of vibration source equipment, the load range of the vibration isolation modules (1) has a level difference relation, a series covering the working load range of the main vibration source equipment is formed, the damping characteristics of the vibration isolation modules (1) in the same series are consistent, and the elastic modulus of the built-in vibration isolation elements is consistent.

When the gravity center distribution of the vibration source equipment load is unbalanced, the vibration isolation modules (1) are arranged discontinuously according to the gravity center distribution of the vibration source equipment load, and the distribution of the vibration isolation modules (1) is consistent with the gravity center distribution of the vibration source equipment load.

When the distance between the vibration source equipment base (5) and the terrace (6) meets the requirement of setting the height of the vibration isolation module (1), the vibration isolation module (1) is arranged between the bottom of the vibration source equipment base (6) and the terrace (6).

In a second embodiment shown in fig. 3 and 4, when the distance between the vibration source equipment base (5) and the floor (6) is not enough to arrange the vibration isolation module (1), the vibration isolation module (1) is arranged on the side surface of the vibration source equipment base (5) through the force bearing steel frame (2) and the connecting member (3).

It will be appreciated that many variations may be made to the above-described embodiments without departing from the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a module assembled vibration isolation platform, includes vibration isolation module, load steelframe, hookup component and height adjustment component, characterized by: the vibration isolation module comprises vibration isolation elements, mass blocks and vibration isolation units of different types and series of damping structures, and the load center of the vibration isolation module is consistent with the geometric center of the plane; each vibration source equipment is provided with one or more vibration isolation modules, and the vibration isolation modules are arranged at the lower part and the side surface of the base of the vibration source equipment through a connecting member and a bearing steel frame; the vibration isolation modules form a large-scale vibration source equipment integral vibration isolation platform and a public vibration isolation platform of a plurality of vibration source equipment through the force bearing steel frames and the connecting members, the optimal load of the vibration isolation modules is consistent with the load of the vibration source equipment, the integral vibration isolation module platform formed by the vibration isolation modules, the force bearing steel frames and the connecting members has enough rigidity, and the load borne by the vibration isolation modules is adjusted through the height adjusting members.

2. The modular mount vibration isolation platform of claim i, wherein: the vibration isolation module types comprise a basic vibration isolation module adopting a primary vibration isolation technology (the vibration isolation efficiency is less than 90 percent), a secondary vibration isolation module adopting a secondary vibration isolation technology (the vibration isolation efficiency is less than 95 percent) and a composite vibration isolation module adopting a secondary vibration isolation technology and particle damping energy dissipation technology for integration (the vibration isolation efficiency is more than or equal to 95 percent).

3. The modular mount vibration isolation platform of claim i, wherein: the vibration isolation module series is defined according to the working load of the vibration source equipment, the load range has the vibration isolation modules with the level difference relation, a series covering the working load range of the main vibration source equipment is formed, the damping characteristics of the vibration isolation modules of the same series are consistent, and the elastic modulus of the built-in vibration isolation elements is consistent.

4. The modular mount vibration isolation platform of claim i, wherein: when the gravity center distribution of the vibration source equipment load is unbalanced, the vibration isolation modules are arranged discontinuously according to the gravity center distribution of the vibration source equipment load, and the distribution of the vibration isolation modules is consistent with the gravity center distribution of the vibration source equipment load.

5. The modular mount vibration isolation platform of claim i, wherein: when the distance between the vibration source equipment base and the terrace is not enough to arrange the vibration isolation module, the vibration isolation module is arranged on the side surface of the vibration source equipment base through the bearing steel frame and the connecting member.

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