KR101301349B1 - Dynamic Absorber - Google Patents

Abstract

The present invention is very easy and quick to adjust the weight according to the frequency domain and to accurately set the required weight according to the frequency domain can more easily and effectively control the vibration in the wide frequency range as well as the manufacturing cost The present invention relates to a copper reducer capable of greatly reducing the number of steps.

The copper reducer may include: a pair of support plates fixedly installed at both ends of the upper surface of the support plate serving as a base and serving as a leaf spring; Vibration damping agents attached to both sides of the pair of support plates to absorb and suppress vibration; A heavy material enclosure installed at an upper end of the pair of support plates such that both ends of the lower surface are supported by the pair of support plates, and a heavy weight entrance and exit is formed at one side of the upper surface; And a liquid weight material filled in the weight enclosure according to a frequency region through the weight entrance and exit according to a frequency range. The liquid weight material may include any one selected from water or a liquid metal. Mercury can be used.

Copper Reducer, Liquid Weights, Damping Agents, Heavy Loads, Vibration, Ships

Description

Dynamic Absorber

The present invention relates to a copper reducer, and more particularly, it is possible to adjust the weight according to the frequency domain very easily and quickly, and to easily set the required weight according to the frequency domain so that vibration of a wide frequency range is easier. The present invention relates to a copper reducer capable of controlling and effectively reducing manufacturing costs.

Hereinafter, a background art and a problem thereof will be described with reference to the accompanying drawings.

In general, as the regulations on vibration and noise are being tightened, interest in dust protection is increasing, and the necessity for the development of dustproof devices is increasing.

In particular, in ships, structures such as bridge wings, radar masts, and foremasts are significant in weight and long in width, and are highly likely to resonate with the source. These vibrations not only impair the vessel's habitability, but also affect the navigational equipment, making it a major obstacle to stable navigation.

In order to solve such a vibration problem, a dynamic reducer may be installed. The dynamic reducer attaches a small mass-spring-damper system to a large vibrating body that vibrates at a constant frequency of a mechanical structure. It is a way to reduce.

The principle of the copper reducer as described above is to reduce the vibration of the vibrating body by appropriately tuned and attached to the natural frequency of the vibrating body vibrating at a constant frequency consisting of a mass-spring-damper system.

The vibration reducer is effectively used in a machine or structure that has a small frequency and attenuation resonating. If the insulator cannot be installed or there is a limit to the insulator, it is difficult to change the insulation in a mechanical system that has already been installed or in local vibration mode. A method of attaching a copper reducer is usefully used when reducing vibration.

The theoretical background of the copper reducer is to add another degree of freedom to the main system, and to design the natural frequency of the copper reducer to be the same as the vibration excitation frequency of the main system. It is a method to reduce vibration energy of main structure through dynamic reducer through mass, stiffness, and damping based on the theoretical background such as making the direction of movement of additional system vibrate in the opposite direction of the main system. The mass, stiffness and damping of the copper reducer, properly tuned according to the weight, frequency and damping of the structure, must be achieved.

In the conventionally developed dynamic reducer, a dynamic reducer is constructed by using a mass spring using the method of elastic damping means, but damping is not sufficient because the damping of the spring itself is considerably low, and the effect is only limited in a limited frequency range. There was a problem seeing.

Therefore, in recent years, a structure is installed in a place where excessive vibration occurs due to resonance with a vibration source, and thus, a dynamic reducer using a plate and rubber for effectively controlling vibration in a wide frequency range has been developed and used.

1 is a front view illustrating a conventional dynamic reducer capable of effectively controlling vibration in a wide frequency range.

Referring to FIG. 1, a conventional copper reducer 1 capable of effectively controlling vibration in a wide frequency range is fixed to a support plate 10 serving as a base, and has a pair of support plates 11 serving as a leaf spring. And a vibration damper 12 attached to both sides of the support plate 11 to absorb and suppress vibrations, and a plurality of weight plates 130 to easily vary the weight, to which the vibration damper 12 is attached. It consists of a weight plate set 132 that is stacked on the upper end of the support plate 11 by the required weight.

Conventional copper reducer 1 as described above by controlling the number of the weight plate 130 by adjusting the weight of the weight plate set 13 can effectively control the vibration in a wide frequency range, but the weight plate set 13 In order to adjust the weight of), a plurality of operators need not only a lot of work such as placing the weight plate 130 on the upper end of the support plate 11 or removing the weight plate 130 stacked on the upper end of the support plate 11. There is a problem that the weight control of the weight plate set 13 is very difficult and takes a long time by selecting and stacking the weight plate 130 having various weights.

In addition, in order to adjust the weight of the weight plate set 13 according to the frequency domain, there is a problem in that a large manufacturing cost is required by providing the weight plate 130 of various weights.

Therefore, an object of the present invention, it is possible to control the weight according to the frequency domain very easily and quickly, and to accurately set the required weight according to the frequency domain can be more easily and effectively control the vibration of the wide frequency domain In addition, to provide a copper reducer that can significantly reduce the manufacturing cost.

The present invention for achieving the above object is a pair of support plates fixedly installed at both ends of the upper surface of the base plate to be a base to serve as a leaf spring; Vibration damping agents attached to both sides of the pair of support plates to absorb and suppress vibration; A heavy material enclosure installed at an upper end of the pair of support plates such that both ends of the lower surface are supported by the pair of support plates, and a heavy weight entrance and exit is formed at one side of the upper surface; And a liquid weight material filled in the weight enclosure according to the frequency region through the weight entrance and exit according to the frequency region.

Here, it is preferable to use the liquid weight thing which is any one selected from water or a liquid metal.

In addition, it is preferable to use mercury as said liquid metal.

As described above, the copper reducer according to the embodiment according to the present invention is provided with a weight housing in the upper end of the pair of support plates installed on both ends of the upper surface of the support plate, the weight required in accordance with the frequency range in the weight housing By filling only as much liquid weight as possible, the weight setting of the weight enclosure according to the frequency range can be made very quickly and easily, and the work maneuver for this is drastically reduced, and it has various weights to set the required weight of the heavy enclosure. Since there is no need to manufacture the weight plate, the manufacturing cost is also greatly reduced, and by accurately setting the weight of the required weight enclosure according to the frequency range, it is effective to control the vibration in the wide frequency range more effectively than the conventional copper reducer. It is a useful invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. For convenience of description, the same reference numerals are given to the same parts as those of the conventional copper reducer.

2 is a perspective view of a copper reducer according to an embodiment of the present invention.

As shown in FIG. 2, the copper reducer 1 according to the embodiment of the present invention includes a support plate 10, a pair of support plates 11, a vibration damper 12, a weight enclosure 13, and a liquid weight product. It consists of.

The support plate 10 of the copper reducer 1 configured as described above is formed in a square flat plate shape and used as a base.

The support plate 11 is fixed to both ends of the upper surface of the support plate 10 to be used as a base to function as a leaf spring.

The vibration damper 12 is attached to both side surfaces of the pair of support plates 11 to absorb and suppress vibration.

The heavy material housing 13 is formed in a hexahedral shape, and a heavy weight door 130a is formed at one side of the upper surface thereof so that both ends of the lower surface are supported by the pair of support plates 11. It is installed at the top.

The liquid weight is filled into the weight enclosure 13 by the required weight according to the frequency region through a weight entrance 130 formed at one side of the upper surface of the weight enclosure 13.

Here, a variety of liquids may be used as the liquid weight, but water or a liquid metal is preferably used among liquids, and more preferably, a liquid metal such as mercury, which has a higher specific gravity than water, is used as the liquid weight.

Again, referring to Figure 2 will be described the operation and effect of the copper reducer according to an embodiment of the present invention.

As shown in FIG. 2, the copper reducer 1 according to the exemplary embodiment of the present invention includes a pair of support plates 11 serving as leaf springs at both ends of the upper surface of the support plate 10. A damping agent 12 is attached to both sides of the support plate 11 so as to absorb the vibration transmitted to the support plate 11, and a heavy material entrance or exit on one side of the upper surface of the pair of support plates 11. 130 is provided with a heavy-weight housing 13 in the form of a hexahedral, and the inside of the heavy-weight housing 13 is filled with a liquid weight of the weight that can effectively absorb the vibration according to the frequency region through the heavy weight entrance 130 Make sure you put it in.

That is, in the conventional copper reducer, in order to effectively control the vibration in a wide frequency region, the frequency is provided by installing a weight plate set in which a plurality of weight plates are stacked on the upper surfaces of a pair of support plates to have a necessary weight according to the frequency region. In order to adjust the weight of the weight plate set according to the area, not only a lot of work manpower and time are consumed, but also a weight plate having various weights must be manufactured and the weight plate set must be selected and stacked according to the required frequency according to the frequency range. This very demanding and takes a long time as well as a lot of manufacturing costs, but in the copper reducer 1 according to an embodiment of the present invention, a pair of hexahedral shape provided with a weight entrance 130 on the upper surface of the pair of support plates 11 The heavy material enclosure of the 13 is installed, and the heavy material filled in the heavy material enclosure 13 By using a liquid weight such as water or mercury, not only can the weight of the weight enclosure 13 necessary for the frequency domain be set very quickly and easily, but also the weight of the weight enclosure 13 required according to the frequency domain is accurately set. By doing so, there is an effect that can effectively control the vibration of a wide frequency range than the conventional copper reducer.

In addition, the copper reducer 1 according to the present invention simply sets the weight of the heavy material enclosure 13 according to the frequency domain by simply filling the heavy weight container 13 with the weight of the liquid according to the required weight. Not only is the work man-hours drastically reduced, but it is not necessary to manufacture a weight plate having various weights in order to set the required weight of the weight enclosure 13, and thus the manufacturing cost can also be significantly reduced compared to the conventional copper reducer.

As described above, the weight reduction operation according to the frequency domain can be performed very easily and quickly so that the vibration reducer 1 according to the embodiment according to the present invention can effectively control the vibration in the wide frequency range, and the weight is considerable. It is preferable to be installed in structures such as bridge wings, radar masts, and foremasts of ships that are long in length and highly likely to resonate with the source.

As described above, the copper reducer 1 according to the exemplary embodiment of the present invention includes a heavy material container 13 installed at an upper end of a pair of support plates 11 installed at both ends of the upper surface of the support plate 10, By filling only the liquid weight of the weight enclosure 13 according to the frequency region required by the weight enclosure 13, the weight setting of the weight enclosure 13 according to the frequency domain can be made very quickly and easily. In addition, since it is not necessary to manufacture a weight plate having various weights in order to set the required weight of the weight body 13, the manufacturing cost is also greatly reduced, and the weight of the weight body 13 required according to the frequency range can be accurately set. By doing so, there is an effect that can effectively control the vibration in a wide frequency range than conventional copper reducers.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

1 is a front view for explaining a conventional dynamic reducer to effectively control the vibration of a wide frequency range.

Figure 2 is a perspective view of a copper reducer according to an embodiment according to the present invention.

<Description of the symbols for the main parts of the drawings>

(1): copper reducer (10): support plate

(11): support plate (12): vibration damper

(13): heavy material enclosure

Claims (3)

A pair of supporting plates fixedly installed at both ends of the upper surface of the supporting plate serving as a base and serving as a leaf spring; Vibration damping agents attached to both sides of the pair of support plates to absorb and suppress vibration; A heavy material enclosure installed at an upper end of the pair of support plates such that both ends of the lower surface are supported by the pair of support plates, and a heavy weight entrance and exit is formed at one side of the upper surface; And And a liquid weight material filled in the weight enclosure according to the frequency range through the weight entrance and exit. The method of claim 1, The liquid weight, copper reducer, characterized in that any one selected from water or liquid metal. The method of claim 2, The liquid metal is copper reducer, characterized in that mercury.

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