KR200406164Y1 - Vibration Isolation Air Mount for Precise and High Efficiency Vibration Control - Google Patents

Abstract

The present invention is a technology belonging to a mechanical component is a vibration preventing device, that is, a vibration isolator that prevents the vibration generated in the machine is transmitted to the surroundings, or the surrounding vibration of the machine installed location to the machine.

The air mount of the present invention consists of an air bellows, an air reservoir, a load support pipe and a load transmission device, which can make the natural frequency very low below 1 Hz, and thus the vibration transmission rate is very low, that is, the dustproof effect is very low. I can make it big. And because this air mount has a load acting on the lower end of the mount, even if an eccentric load is applied to the mount, this load is almost evenly distributed on the air bellows top plate, so that the machine can always be safely supported and even if a lateral load is applied to the mount. The load bearing tube is in close contact with the upper life of the compressed air cylinder and is not pushed to the side more than a certain time. In other words, it is a dustproof air mount that is very safe against eccentric loads and lateral loads.

Vibration, Dustproof, Air Mount, Spring Constant

Description

Vibration Isolation Air Mount for Precise Vibration Control

1 illustrates a problem of a conventional air mount.

2 is an air mount of the basic configuration of the present invention.

3 is an air mount further comprising a safety stopper and a protective outer cylinder to the air mount of the basic configuration.

      The present invention is a technology belonging to a mechanical component is a vibration preventing device, that is, a vibration isolator that prevents the vibration generated in the machine is transmitted to the surroundings, or the surrounding vibration of the machine installed location to the machine.

Rotating machines such as motors, fans and pumps and reciprocating machines such as internal combustion engines inevitably cause vibrations during operation, and when the vibrations generated from these machines are transmitted to the surroundings, they cause anxiety and discomfort to humans and damage to life. Not only can cause damage to the building structure in which the machine is installed, it can cause the malfunction of the precision equipment and control system installed nearby, reduce the accuracy of vibration-sensitive precision measuring equipment, optical equipment and precision processing equipment, It may be a cause. In addition, when vibration is transmitted to the building structure, it may cause structure pollution (Structure Borne Noise) to cause noise pollution.

The air mount of the present invention is installed in the lower part of the machine causing vibration in order to remove the adverse effects of the vibration is a vibration blocking air mount to block the propagation of the vibration generated from the machine to the surroundings.

Dust-proofing of the machine elastically supports the machine with rubber pads, rubber mounts, spring mounts, air mounts, etc. to prevent the excitation force generated during the operation of the machine from being transmitted to the structure, or vice versa. It's a way to block things.

All elastic materials can be used as dust-proof materials. Among the elastic materials, metal springs have excellent linearity and physical properties are hardly affected by the surrounding environment such as temperature, so the dust-proofing effect can be predicted in the design relatively accurately, and the dust-proofing effect is maintained with certainty. do. In addition, since a dustproof system having a relatively low natural frequency of about 2 Hz can be configured, a relatively high dustproof efficiency can be obtained, which is most commonly used for general machine dustproofing. However, due to the surging phenomenon of the spring itself, high frequency vibration is not blocked well, which can lead to structural transmission.As the damping rate of the material itself is low, the transient response time is long and the vibration is greatly amplified. It is difficult to fix to the structure to be installed and the support is unstable.

Among the elastic materials, rubber can be made into various shapes, and it is easy to fix with other parts because of excellent adhesion with metal. And because the internal damping rate is very large, the vibration amplification is not large, the transient response time is short, and no surging occurs. However, in the case of a typical rubber mount, the spring constant cannot be lowered below a certain level, so that the dustproofing efficiency is low and the material properties of the material change with time and the external environment, so that the dustproofing effect is not constant.

Among the elastic materials, the air mount has a high damping rate against micro and shock vibrations, a large amplitude of vibrations, and a short transient response time. In addition, it is possible to configure a dustproof system having a natural frequency of 1Hz or less, which can increase the dustproof effect compared to other dustproof materials.

However, conventional air mounts are generally manufactured in a bellows shape having fixing plates at the upper and lower sides. Despite the above-described advantages, safety of the air mounts is insufficient when subjected to an eccentric load as shown in FIG. 1A), and FIG. 1B). As in the case of the lateral load, the resistance is insufficient. In addition, when the air mount is loaded by the weight of the equipment, the bellows are compressed and its internal air volume is reduced, so that the linear mount is lost and nonlinear characteristics are not exhibited due to the static deformation proportional to the external load. In this case, the spring constant of the mount will not be able to maintain the value considered in the design of the anti-vibration system, so the anti-vibration effect is different from the prediction.

The air mount used for the purpose of blocking vibration has many advantages and disadvantages as described above, and thus cannot be used for highly safety equipment or equipment requiring precise vibration control.

The present invention provides a new type of anti-vibration air mount that is safe against lateral loads and eccentric loads while maintaining all the advantages of the anti-vibration air mount described above, and maintains linearity in a wide area in a load-strain relationship. There is this.

The air mount of the present invention has an air bellows 10 having upper and lower fixing plates 11 and 13, as shown in FIG. Located in the lower portion of the air bellows, the air reservoir 20 is fixed to the lower fixing plate of the air bellows; A pipe 32 having one end blocked on a plate-shaped support plate 31 having a hole formed therein, wherein the support plate 30 is coupled to the upper fixing plate of the air bellows; In addition, the load supporting rods 42 are vertically attached to the center of the load supporting plate 41 supporting or fixing the dust-proof equipment, and the load supporting rods 40 are inserted into the pipes of the load supporting tubes. Consists of

In addition to the basic configuration, as shown in FIG. 3, a stopper 33 may be attached to the lower end of the load support tube to prevent the load support tube from rising upward with an abnormally high internal air pressure, and The outer cylinder 50 may be installed around the air bellows to prevent damage and improve aesthetics.

Commonly used air mounts consist of an upper fixing plate, a lower fixing plate, and an elastic membrane, which are integrally molded and manufactured. The upper and lower fixing plates are machined with screw holes to attach the bracket to be fixed to the dustproof equipment and the floor of the installation site, and the upper fixing plate has an inlet for injecting air.

The air bellows 10 used in the present invention is similar to the conventional air mount, but the hole through which the load support tube can be penetrated in the upper fixing plate 11 and the lower fixing plate 13 is processed. This air bellows does not require its own air inlet. The elastic membrane 12 may be made of an elastic material such as natural rubber or synthetic rubber, and may be molded by inserting a tire cord made of metal yarn or fiber into the rubber membrane to withstand high internal pressure. The upper and lower fixing plates 11 and 13 are made of metal material such as steel and aluminum, and the closed screw holes necessary for fixing the air bellows are processed.

The air storage cylinder 20 has a cylindrical shape and is made of a metal material such as steel or aluminum. In the upper plate 21 of the air reservoir, a hole having the same size as the hole drilled in the lower fixing plate 13 of the air bellows is machined, and the pipe 32 of the load supporting pipe 30 passes through the hole. And the lower plate 23 is assembled with a bolt in the lower portion of the cylindrical body 22, the fixing hole that can be fixed to the bottom of the dustproof equipment is installed on the bottom. The upper plate 21 can be joined by bolts or welded around the front surface of the cylinder body in such a way that airtightness is maintained, and the lower plate 23 can be joined by bolts in a way that airtightness is maintained in the cylindrical body. It is possible to assemble the bellows 10 and the stopper 33. The cylindrical body 22 side of the air reservoir is provided with an air inlet 24 similar to the air inlet of a car tire.

The load supporting pipe 30 is a shape in which an opening of a pipe 32 whose one end is blocked is attached to a disc-shaped support plate 31 having a hole in the center thereof, and is made of a metal material such as steel or aluminum. The support plate and the pipe may be joined by welding the entire circumference so that air does not leak, or may be screwed so that airtightness is maintained. The supporting plate 31 of this load supporting tube is bolted in such a manner that airtightness is maintained on the upper fixing plate 11 of the air bellows.

 The load transmission device 40 is composed of a load support plate 41 for supporting or fixing the dustproof target equipment and a load support rod 42 fixed perpendicularly to the center of the support plate to transfer the load of the equipment to the lower end of the load support tube. It is made of metal materials such as steel and aluminum. Load supporting plates and load supporting rods may be welded or screwed together. This load supporting rod 42 is inserted into the pipe 32 of the load supporting tube. There is sufficient clearance between the load-bearing rod and the inner wall of the pipe so that the load of the equipment is not transferred to the side wall of the pipe or welding occurs due to corrosion.

Since the elastic membrane of the air bellows is made of a soft material such as rubber, it may be damaged by external impact or contact with sharp objects. In order to prevent such damage, a cylindrical protective cover 50 may be installed. The upper surface 51 of this protection device is machined with a hole such that the load supporting rod of the load transmission device can move smoothly, and the side cylinder 52 is fixed to the compressed air cylinder with a screw or the like.

The function of this air mount is as follows.

When compressed air is injected into the air inlet 24 installed in the compressed air cylinder of the apparatus, the air is filled in the compressed air cylinder in the direction of the arrow in Fig. 2, and then the upper plate 21 of the compressed air cylinder and the lower fixing plate of the air bellows. The gap between the hole of (13) and the pipe 32 of the load supporting pipe is filled to the inside of the air bellows 10. When a load such as the weight of the dustproof equipment is applied to the load supporting plate 41 of the load transmitting device, the load acts on the lower end of the pipe 32 of the load supporting pipe via the load transmitting rod 42, and the load is applied to the pipe ( 32 is transmitted to the support plate 31 of the load bearing tube and the upper fixing plate 11 of the air bellows joined thereto. Then, the elastic membrane 12 of the air bellows is compressed, and this load is in balance with the pressure of the air in the air bellows 10 and the compressed air cylinder 20. That is, finally, the load of the equipment is supported by the air pressure, and since the air has a compressibility in which the volume changes in proportion to the pressure as a gas, it acts as an elastic body corresponding to the spring element of the dustproof system.

The air mount of the present invention has a relatively large compressed air cylinder compared to the air bellows, so even though the air bellows is squeezed considerably by the external load, there is little change in the volume of the air in the bellows and the entire air reservoir, so there is little change in the load supporting the equipment The spring constant calculated by the load change / displacement change is very low and the linearity is high. That is, it is possible to construct a dustproof system having a very high dustproof efficiency, and the spring constant of the air mount predicted in the design calculation is achieved as it is.

   Dust-proof means to reduce the vibration of castings by blocking the transmission of vibration inevitable force to the surroundings. In other words, dustproofing is a method of elastically supporting a vibration source with a rubber pad, a spring, etc. to block the excitation force from being transmitted to the floor of a building.

  The vibration isolation system consists of mass, spring and damper, and the excitation force from the mass is transmitted to the floor of the building through the spring and damper. The ratio of the transmission force transmitted to the floor with respect to the total excitation force generated is called the transmission ratio (TR).

 Since the damping effect of the material can be neglected in an actual dustproof system, the transfer rate is calculated by the following equation when the damping effect is ignored.

TR = 1 / (r ² -One)

Where r is the frequency ratio, where r = fd / fn. Where fd is the frequency of vibrations in the equipment and fn is the natural frequency of the vibration isolation system. This natural frequency is 1 / (2 * 3.14) * root (k / m). Where m is the mass of the device and k is the spring constant of the elastomer.

To increase the dust-proof effect is to reduce the transmission rate, to reduce the transmission rate, to increase the frequency ratio, to increase the frequency ratio, to lower the natural frequency of the system, to reduce the natural frequency of the system, to increase the mass of the equipment, Therefore, the spring constant of the elastic body to support is made low.

The air mount of the present invention can make the spring constant very low, so that the natural frequency of the dustproof system can be less than 1 Hz, and thus the vibration transmission rate can be made very low, that is, the dustproof effect can be made very large. For example, equipment that generates very low frequency vibrations, such as 5 Hz, is not possible when using other elastic bodies such as metal springs and rubber. However, this air mount achieves a low transmission rate with a frequency ratio of 5/1 = 5 and a transmission rate of 1 / (5 ^2-1 ) = 1/24 = 0.042, so that only the excitation force less than 5% of the vibration excitation generated by the equipment is around. Is passed to.

And because this air mount has a load acting on the lower end of the mount, even if an eccentric load is applied to the mount, this load is almost evenly distributed on the air bellows top plate, so that the machine can always be safely supported and even if a lateral load is applied to the mount. The load bearing tube is in close contact with the upper life of the compressed air cylinder and is not pushed to the side more than a certain time. This is a very safe vibration mount for eccentric and lateral loads.

Claims (3)

Air bellows 10 with upper and lower fixing plates; Located in the lower portion of the air bellows, the air reservoir 20 is fixed to the lower fixing plate of the air bellows; A load supporting pipe 30 having a shape in which a pipe whose one end is blocked is attached to a support plate shaped like a hole, the support plate being coupled to the upper fixing plate of the air bellows; And, the load supporting plate for supporting or fixing the dust-proof target equipment and the load supporting rod is vertically bonded to the center of the load supporting plate, the load supporting device includes a load transmission device 40 is inserted into the pipe of the load supporting pipe Dust mount air mount. The air mount of claim 1, wherein the load support tube has a stopper (33) that restrains the load support tube from rising by more than a predetermined range even when excessive air is injected into the air bellows at its lower end. The anti-vibration air mount according to claim 1 or 2, wherein the air mount for protecting the side and the upper surface of the air bellows is fixed to the side of the air reservoir and has a cylindrical outer cylinder 50 having a lid.

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