KR19980029670U - Dynamic Absorber - Google Patents

Abstract

The present invention relates to an anti-vibration device, and more specifically, a copper reducer that prevents damage to a device or cracks in a building by coping with a plant such as a large-scale power generation facility or a large ship that is becoming large and high in output. (動 吸 振 器) Dynamic Absorber).

Conventional copper reducers use coil springs as elastic damping means, and not only large coil springs are required but also a method of adjusting mass (using only one mass) to adjust the frequency. Low coefficients have low vibration damping effects and low durability.

In the present invention, the elastic attenuation means is formed by combining two types of unit springs, and the guide rail and the bearing are configured to easily cope with vibration as the weight moving means, making it easy to use at a variable frequency and adding a wide frequency range. It is small in weight and provides a vibration reducer with excellent vibration damping effect and durability.

Description

Dynamic Absorber.

The present invention relates to an anti-vibration device, and more specifically, to a plant such as a large power generation facility or a large ship, which is becoming larger and higher in output, a copper reducer that prevents damage to a device or cracks in a building (動 吸 振 器) Dynamic Absorber).

In modern times, when environmental regulations on vibration and noise are being strengthened, interest in dustproof equipment is increasing. In the large plant, which is a typical vibration environment, the size of the plant is being accelerated, and the output of the plant is accelerating. The importance is getting higher.

As an example of such a large plant with severe vibration, a power plant or a large vessel may be mentioned.

In the case of large ships, bridge wings are installed on both sides of the ship's cockpit, the dock's cockpit, for berthing, docking, etc. Since the required number of ships is almost constant regardless of the size of the ship, the size, especially the width, of the deck house, which is the substructure of the steering room and the bridge wing, is almost constant regardless of the size of the ship. These bridge wings are short enough for one terminal to walk to the outside of the ship, so long structures with very large equipment are supported by the cantilever in the dwelling area, so they have a very large amplitude at the outside. Vibration is inevitably generated, and this vibration has a great effect on the living quarters and is a great obstacle to safety navigation.

In addition, as another example of a large-scale plant, in the case of power generation facilities, regardless of the power generation method, large-sized turbines, pumps, fans, etc., generate oscillating forces, and thus very large vibrations occur in adjacent facilities or buildings. In severe cases, cracks occur frequently in buildings and the like, as well as in case of device damage.

In particular, in the case of a rotating body such as a large pump, the vibration generated by the rotating vibration force resonates with the outer casing of the pump, which develops into a large vibration, and operates with a large vibration in the pump itself, thereby safely operating the equipment. It has a bad effect on.

Static dustproof methods that increase rigidity by reinforcing large pump casings in order to eliminate high vibrations that impair the safe operation of such equipments have increased rigidity even if the pump casing itself is a large structure. Not only is it difficult, but it can also be closer to the resonant zone, causing greater vibrations.

Accordingly, a method of installing a dynamic absorber on the upper part of the pump casing motor is used as a dynamic vibration preventing method.

Dynamic absorbers (Dynamic Absorber) is a vibration damping means to offset the vibration amplitude of the pump by vibrating the weight at a frequency similar to the frequency of the pump casing is gradually adopted in large vessels as well as power generation equipment.

6 is a view illustrating a general configuration of such a conventional copper reducer.

The support plates 12 of the elastic damping ends 10 are respectively placed on both sides of the substrate 30 on which the copper reducer is installed, and the weights 20 are installed to be movable between the support plates 12 so as to allow the weights to be moved. The connecting rod 14 fixed to 20 is configured to connect to the elastic damping means (10).

In the conventional copper reducer, the elastic damping means 10 is constructed by installing a coil spring 13 in the cylinder 11.

However, since the coil spring 13 does not have a damping characteristic, the coil spring 13 may not be used in a variable frequency state in which the frequency of the pump casing changes (4.3 ± 05.Hz) according to the seawater level.

Another problem with copper reducers by coil springs is that they must be large enough to be several centimeters in diameter to be used at high frequencies, for example 8-10 Hz.

By the way, even if such a large coil spring 13 is specially manufactured to constitute the elastic attenuation means 10, after installing it at the site of vibration generation, the characteristic frequency must be adjusted according to the frequency of the coil spring (coil spring ( 13) is a spring coefficient is determined at the time of manufacture, so the adjustment of the frequency is only adjusted by the weight 20, so that adjustment is impossible unless a large unit (only one) of added weight (22) is installed.

That is, the frequency f is different from the spring constant K and the mass M of the weight 20.

Since the spring constant K of the bar coil spring 13 having the relation of cannot be adjusted, it is necessary to adjust the vaginal quantity M of the weight 20 to a large amount of additional weight 22.

The weight 20 is generally made of lead, and the additional weight 22 is made of a plate such as a steel plate fastened by bolts 21 on the lead 20.

In addition, since the damping coefficient of the coil spring 13 is only 5/1000, that is, the elasticity is excessive, the vibration of the weight 20 is not rapidly attenuated, so the displacement of the weight 20 is very large, and thus the elastic attenuation is reduced. There is a problem that the life of the means 10 is shortened.

Therefore, there is a problem that the copper reducer using the coil spring 13 has to be replaced at least several times for 20 years, which is a general life of a large pump.

In addition, the conventional copper reducer uses a caster (Caster: 23) as the vibration guide means of the weight 20, it is difficult for the weight 20 to make a linear movement with respect to the elastic damping means (10) is excessive to the connection 14 The problem of applying a bending warp stress and breaking it is also frequent.

As described above, the conventional copper reducer has a large heavy structure, but the vibration damping effect is not sufficient and its durability is low.

The present invention devised to solve the various problems of the conventional copper reducer as described above is used in a variable frequency, can be applied to a wide frequency range, the rigid structure is sufficient vibration damping effect, not only excellent durability, The purpose is to provide a dynamic absorber (Dynamic Absorber) that can be easily adjusted according to the characteristics of the vibration field.

In order to achieve the object as described above, the present invention is characterized in that the basic structure is configured by combining a plurality of unit springs as the elastic damping means of the copper reducer.

In addition, according to one feature of the present invention is characterized in that the unit spring is configured by combining the disk spring (Disk Spring) and the coil spring.

According to another feature, each unit spring is formed by overlapping two or more disc springs (Disk Spring), it is easy to increase or decrease the unit weight for changing the spring constant (K).

Figure 1 is a front sectional view showing a configuration of the present invention copper reducer.

Figure 2 is a plan view showing a configuration of the present invention copper reducer.

Figure 3 is an enlarged cross-sectional view of an embodiment of the elastic attenuation portion that is the main part of the present invention.

Figure 4 is an enlarged cross-sectional view of another embodiment of the elastic attenuation portion that is the main part of the present invention.

5 is a frequency response curve.

Figure 6 is a cross-sectional view showing a conventional copper reducer configuration.

* Description of the symbols for the main parts of the drawings *

100: elastic damping means 110: support plate

120: between connection 130: ground spring

140: coil spring 200: weight

201: Additional weight 210: Flow plate

220: support 221: side plate

230: boss 240: bearing

300: substrate 310: guide rail

The present invention and the weight 200 is installed so as to vibrate on the substrate 300 by the linear movement of the moving means; A copper reducer having fixed damping means for attenuating vibrations, respectively fixed to the support plates 110 fixed to both sides of the substrate 300 and connected to the weight 200, wherein the elastic damping means 100 ) Has an elastic member configured by combining a plurality of unit springs; The weight 200 is configured as a unit weight so that the weight can be easily changed.

As an embodiment of the present invention, the elastic member of the elastic damping means 100 is configured by combining the unit spring by the dish spring 130 and the coil spring 140.

As another embodiment of the present invention, the elastic member of the elastic damping means 100 may be configured by overlapping a plurality of dish springs 130.

The weight 200 includes a support box 220 formed by assembling and installing the side plate 221 vertically on the movable plate 210 which is movable by a moving means; In the support box 220, n unit weights are variably installed to adjust the weight.

The side plate 221 of the support box 220 is attached with a tuning device (tuning: 1) to enable fine frequency adjustment after installation.

The moving means of the weight 200 includes a guide rail 310 fixed on the substrate 300; Interact with the bearing 240 fixed to the flow plate 210 on which the weight 200 is mounted so as to be easily operated to cope with vibration.

Hereinafter, a detailed configuration of the preferred embodiment of the present invention and its effects and effects will be described in detail with reference to the accompanying drawings.

1 is a front sectional view showing the configuration of the present invention copper reducer, as shown in the drawing, both sides of the substrate 300, the support plate 110 is erected, the elastic attenuation means 100 is installed on the outside of each will be.

As shown in the plan view of FIG. 2, the support plate 110 is configured to be mutually reinforced in the form of a box by a frame of the substrate 300.

A weight 200 made of a heavy object such as lead is installed between the support plates 110. The weight 200 is formed by a side plate 221 integrally installed on the fluid plate 210. ) So that it can be stored.

The boss 230 is extended to the front and rear side plates 221 of the support box 220 so that the connecting rod 120 of the elastic attenuation means 100 is coupled to the boss 230.

The elastic member of the elastic damping means 100 is composed of a combination of a plurality of dish spring 130 and the coil spring 140.

In other words, the present invention uses a combination of the plate spring 130 and the coil spring 140 as a unit spring, and by forming the unit weight to be adjusted by the weight 200 to enable easy increase and decrease, the weight 200 ) Should be installed vertically.

The dish spring 130 is configured as a conical hole in the center so that the connecting rod 120 passes.

The present invention, as shown in the accompanying drawings (frequency response curve: Fig. 5) by adding a damping to the frequency range is widened by the system of the natural frequency changes according to the sea water level, such as a sea water circulation pump disk with added damping effect ( Disk type springs are used for this purpose.

Dish spring 130 applied to the present invention can be adjusted a wide range of the spring constant (K) according to the overlap state, the frequency band to respond by the damping effect (Damping) is wide, to increase or decrease the weight 200 Tuning is easy.

In other words, the aforementioned frequency relation Because it is possible to directly adjust the spring constant (K) as well as the mass (M) in the fine frequency adjustment is possible through the increase or decrease of the additional weight (201), for large frequency adjustment spring constant by the number of the spring spring 130 It is possible to adjust (K) so that it can be used extensively.

On the other hand, when the weight of the weight 200 is a combination of n unit weights having a certain amount of quantity, when fine frequency adjustment is required, the above-described frequency relation It is possible by increasing or decreasing the mass n of M at.

For example, when the desired frequency range is 7 ± 1HZ, it is impossible only by the disc spring 130 but by the increase and decrease of the n weights 200.

In addition, the plate spring 130 has an attenuation coefficient of the elastic damping means constituting each unit spring by overlapping two by about 0.2, that is, 200/1000 is more than 30 times of the coil spring that was only 5/1000, which effectively reduces vibration This damping is a frequency relation As can be seen, it has a frequency band width and can respond to a wide frequency range. Therefore, it is very effective because it can respond well to a device whose frequency value is changed by seawater level change, such as a seawater pump installed around a beach.

In addition, the present invention elastic attenuation means 100 is not generated due to vibration fatigue as in the conventional coil spring, so the elastic attenuation means of the present invention exhibits very excellent durability.

Claims (6)

A weight 200 installed on the substrate 300 so as to be vibrated by a linear movement of the moving means; In the copper reducer having elastic attenuation means which is fixed to the support plate 110 of both sides fixed to the substrate 300, respectively, and connected to the weight 200 to attenuate vibration, The elastic damping means 100 has an elastic member configured by combining a plurality of unit springs; The weight 200 is a dynamic reducer, characterized in that composed of a unit weight so that the weight of the variable for easy adjustment of the frequency. The method of claim 1, The elastic member of the elastic damping means 100 is a copper reducer, characterized in that configured by combining the unit spring by the plate spring (130) and the coil spring (140). The method of claim 1, The elastic member of the elastic damping means 100 is a dynamic reducer, characterized in that a plurality of overlapping plate spring 130. The method of claim 1, The weight 200 includes a support box 220 formed by assembling and installing the side plate 221 vertically on the movable plate 210 which is movable by a moving means; The support box 220 is a dynamic reducer, characterized in that to adjust the weight by allowing the variable weight of the n unit to be installed. The method of claim 4, wherein The side plate 221 of the support box 220 is a frequency tuning (tuning: 1) is attached to the copper reducer, characterized in that fine frequency adjustment is possible after installation. The method of claim 4, wherein The moving means of the weight 200 includes a guide rail 310 fixed on the substrate 300; Dynamic reducer, characterized in that the bearing 240 is fixed to the flow plate 210 on which the weight 200 is mounted is configured to interact easily.