KR101691325B1 - Sloshing Reduction type water tank - Google Patents

Abstract

The present invention relates to a storage tank capable of storing a fluid such as water, and more particularly, to a water tank having an excessive sloshing reduction means capable of suppressing excessive sloshing of water stored in a storage tank thereof. According to the present invention, there is provided a water tank capable of storing and using water in a large amount constantly comprising: a sloshing reduction device installed in an inner space of the water tank in a longitudinal direction and in a transverse direction on upper and side walls so as to prevent the flow of water contained in the water tank, thereby reducing an effect of excessive water sloshing; and a fixing structure for installing the sloshing reduction device in the water tank.

Description

{Sloshing Reduction type water tank}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water tank capable of storing water, and more particularly, to a water tank having a swirling reduction device therein so as to suppress excessive swelling of water.

Generally, a water tank is a storage tank used as a means for storing drinking water, washing water and other living water. However, in recent years, a prefabricated water tank has been widely used to facilitate construction. The prefabricated water tank is constructed by assembling square panels of square bodies usually made of SMC (sheet molding compound) or stainless steel at the construction site. Such water tanks are problematic in the case of an earthquake. The swelling phenomenon is caused by the relatively long period of vibration in which the liquid stored in the water tank is transmitted from the outside. Unless countermeasures against this swelling phenomenon are taken, the liquid water in the water tank may repeatedly collide with the side wall of the water tank or the ceiling to damage the water tank. The influencing factors of the occurrence of water swelling phenomenon are mainly affected by the depth of storage liquid and the natural frequency of swelling to the water tank, but there is no study on other influencing factors. Such a technology related to the water tank is formed in various shapes including the Japanese Patent Laid-Open Publication No. 2008-503703. The configuration as anticipated in the prior art has a substantial effect on the storage tank as a whole, but the apparent capacity is reduced, so that the fluid flow energy of the swirling phenomenon is dispersed and the destruction of the storage tank due to the swirling phenomenon is alleviated. However, the technique described in Japanese Patent Laid-Open Publication No. 2008-503703 does not reduce the phenomenon of swelling, but disperses the flow energy of the liquid, and the fluid can move through the opening in the lower space of the cell, The fluid can not be moved at all in the upper space where it occurs. Therefore, when a large earthquake occurs and the swelling phenomenon becomes very large, if all the flow energy acts on the inner wall, the flow energy of the liquid is not reduced, and the wall may be destroyed.

In order to solve such a problem, the present invention is aimed at effectively reducing the swelling phenomenon by forming a swirling reduction device in a water tank and a swirling reduction device that is easy to install in a water tank.

SUMMARY OF THE INVENTION The present invention has been developed in order to overcome the above problems, and it is an object of the present invention to provide a water tank which is capable of effectively reducing the swelling phenomenon when water stored in a water tank is excessively swollen by external vibration such as an earthquake And a water tank to which the abatement device is applied.

According to an aspect of the present invention, there is provided a water tank capable of preventing excessive rattling, comprising: a water tank in which a storage space is formed to store a liquid such as water; And a diaphragm which can prevent the diaphragm from leaking out.

According to the present invention, the diaphragm is formed in a cruciform cross shape inside the water tank storage space, and is formed so as to be rotatably restored to the side wall of the water tank, thereby preventing excessive flow of water due to natural disaster such as earthquake. And it is advantageous in that structural stability of the water tank can be improved by effectively suppressing the flow of water in the event of a transient phenomenon.

When the diaphragm is welded or bolted to a vertical stiffener and a horizontal stiffener in a water tank in the form of a unit plate, there is an advantage that a water transient prevention device for water can be installed in a water tank which is conventionally installed and in use.

In addition, according to the present invention, it is possible to supply the drinking water safely while maintaining the maintenance of the water tank by suppressing the phenomenon of excessive transient due to natural disasters such as earthquake and subsidence, and thus can advantageously use the water tank in a stable manner will be.

1 is a perspective view of a water tank according to the present invention;
Fig. 2 is a perspective view of a vertical wave plate and a columnar view of a water tank according to the present invention.
3 is a perspective view of a water tank according to the present invention,
4 is a perspective view of an auxiliary column of a water tank according to the present invention.
5 is a perspective view of a central column of a water tank according to the present invention.
FIG. 6 is a perspective view of a unit damper plate of a water tank according to the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Like reference numerals are used for like elements in describing each drawing. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, a water tank according to the present invention will be described in detail with reference to the accompanying drawings.

The present invention can protect the external vibration including the earthquake transmitted to the water tank and reduce the vibration effectively, and can prevent the water tank from being damaged even when sudden large vibration such as an earthquake occurs.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view showing an overall shape of the present invention.

A water tank (100) provided with a diaphragm for preventing the excessive generation of water in the main generation is composed of a cylindrical or hexahedral storage tank having a storage space for storing water, and a water tank + '' Shape so as to form at least one half of the total water storage depth stored in the water tank in order to prevent water from being excessively swollen by dividing the space, The wave plate 200 is constructed as follows.

2, the vertical diaphragm 200 divides the internal storage space of the water tank at right angles so as to divide the main storage diaphragm 200 into the main diaphragm 200, (Not shown). Although not shown in the drawing, the vertical wave plate 200 has the same shape as that of the main wave plate 210 in the inner region of the main wave plate 210, and has a total water storage depth And an auxiliary wave plate 220 is formed so as to cross each other in a '+' shape so as to be formed at 1/4 or more, thereby preventing and suppressing excessive swelling of water. More specifically, the main damping plate 210 has a length of at least 1/2 of the liquid storage depth of the water tank, and the auxiliary damping plate is formed to have a length equal to or longer than 1/4 of the liquid storage depth of the water tank 220 It is possible to suppress the fluid impulsive force due to the water swelling double.

As shown in FIGS. 1 and 3, a door panel 300 may be formed in addition to the vertical wave plate 200. When the water contained in the water tank is filled with water at a level not higher than the water level in the water tank storage space at the inflow or outflow of the water stored in the water tank at the side wall of the water tank 100, In this case, when sudden vibrations such as an earthquake are generated and excessive water is circulating, the water tank 100 may be provided with a plurality of water tubes 100 on the inner sidewall of the water tank 100, The door 300 may be additionally formed to prevent the water from being swirled by the storage depth of the fluid stored in the water tank 100. The door panel 300 is formed to be inclined with respect to the water tank side wall so as not to interfere with the main wave plate 210 and the auxiliary wave plate 220, Direction, wherein the downward inclination angle is formed within a range of 5 DEG to 45 DEG. The door panel 300 is formed to be inclined to the inner side wall of the water tank 100 so that the door panel 300 can be easily opened and closed by the remaining small water droplets remaining after the large swelling of water is primarily reduced by the vertical wave plate 200 The fluid impulsive force can be secondarily reduced.

3, a fixing plate is coupled to the inner side wall of the water tank 100, and the fixing plate is formed with a hole, so that the shock absorbing plate 310 A hinge rotation hole 320 is formed in the hose rotation hole 320 so as to rotate in an outward direction from the inside of the water tank by the fluid impact force of the water, (310), which is coupled between the inner side wall of the water tank (100) and the shock absorbing plate (310) to absorb the fluid impulsive force of the shock absorbing plate And may be formed of a shock-absorbing material 330 that is deformed by strain energy and functions to buffer a fluid impact force.

More specifically, the shock-absorbing member 330 may be formed of an elastic body that can elastically deform the fluid-impacting force to sufficiently resist the fluid-impacting force and dissipate the energy to convert the fluid-impacting energy into strain energy. The elastic body may be made of a material such as a steel spring, a high-damping rubber, or a polyurethane having high compression and high elasticity properties. When a steel spring is applied to the material forming the elastic body, a re-tightening ring 331 is formed at both ends of the steel spring 320 so that the shock absorbing plate 310 and the water tank 100 And can be coupled to or separated from the hook 333. The shock absorbing plate 310 is elastically fastened to the shock absorbing plate 310 by the steel spring 320 so as to be inclined inwardly of the water tank 100 and is excessively transmitted to the water tank, When the water stored in the tank is excessively swirled, the water is deformed by the impact buffer 330 by an amount of energy transmitted to the shock buffer 310, and the energy is dissipated. The shock buffer 330 is restored to its original state so that the shock buffer 310 can be returned to its original state.

As shown in FIG. 2, FIG. 4, and FIG. 6, the means for coupling and fixing the vertical wave plate 200 to the inside of the water tank includes a main wave plate 210, A separate central pillar 410 and auxiliary pillar 420 may be provided for mutual fixation of the secondary damper plates 220. Fastening grooves 411 and 421 are formed in the center column 410 and the auxiliary column 420 so that the wave plate 200 can be engaged with the fastening grooves 411 and 421. A plurality of holes And a coupling pin 440 fitted to the hole 430 is formed to arbitrarily adjust the height when the main wave plate 210 is inserted into the coupling grooves 411 and 421 And both end portions of the main damper plate 210 coupled to the center column 410 and the auxiliary column 420 may be formed in the shape of a fastening groove so as to be fitted into the fastening grooves 411 and 421 . The shape of the fastening grooves 411 and 421 and the protrusions may be circular, square, triangular, trapezoidal, or the like. Although not shown in the figure, the vertical wave plate 200 is formed in a pattern repeatedly protruding and depressing in the vertical and vertical directions, absorbing and dispersing the impact generated by the pressure of the flowing water, It is possible not only to reduce the flow of water through the flow of the water, but also to easily absorb the impact while the wave plate 200 is deformed by the pressure of the flowing water, so that the impact can be efficiently reduced. The following operation can be prepared. As shown in FIG. 6, the wave plate 200 includes a unitary plate 310 coupled between the vertical stiffener 310 and the horizontal stiffener 320 formed therein to reinforce the water tank 100, And may be formed of a wave plate 500. In the center of the unit wave plate 500, a plurality of through holes 510 may be formed in a circular or rectangular shape. The through hole 510 may be formed by alternately connecting the unit wave plate 500 and the diaphragm plate 200 with alternate spaced protrusions. Specifically, a lower surface or an upper surface is connected to one side surface of each of the wave diaphragm 200 and the unit wave plate 500, and the other three side surfaces are formed to be cut so that the lower surface or the upper surface The spaced protrusions 241 are formed and the through holes 242 are formed in the spaces where the protrusions 241 are formed so that the fluid can flow with limited flow.

A slot 511 may be formed on a peripheral edge of the unit wave plate 500 so as to engage with the vertical stiffener 310 and the horizontal stiffener 320 to form a bolt B and a nut N. [ At this time, the vertical stiffener 310 and the horizontal stiffener 320 should be formed with holes to be mutually fastened with the bolts B and the nuts N.

Another method for joining the unit wave plate 500 to the vertical stiffener 310 and the horizontal stiffener 320 is to form the edge surface of the unit wave plate 500 without forming a separate hole, (310) and the horizontal stiffener (320). A plurality of through holes 510 are formed in the unit wave plate 500 and a plurality of lateral walls 520 are formed in the upper and lower portions of the through holes 510 in the longitudinal direction of the unit wave plate 500 . At this time, the horizontal wall 520 may be installed horizontally with respect to the horizontal direction, or may be formed to be inclined downwardly from the horizontal direction, wherein the downward inclination angle is within a range of 1 ° to 45 °. Vertical walls 530 may be formed between the transverse walls 520 and the transverse walls formed at predetermined angles in the transverse and longitudinal directions around the through holes 510 formed in the unit shunt plate 500, The vertical wall 530 may be formed at a constant angle, such as the horizontal wall 520, and the inclination angle may be in a range of 1 ° to 45 °.

When the vertical stiffener 310 and the horizontal stiffener 320 are welded or bolted to each other in the form of the unit damper 500 as described above, water transients can be installed in the conventional water tank There is an advantage.

Although the present invention has been described in connection with certain exemplary embodiments and drawings, it is to be understood that the phraseology and terminology used herein are for the purpose of description and should not be interpreted to limit the scope of the present invention. It must be interpreted in terms of meaning and concept. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only examples of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that water and variations may be present.

100: Water tank part
200: Vertical wave plate
210: Main dampers
300: Sentence wave plate
310: Impact damping plate
320: Hinge rotator
330: shock cushioning material
410: central pillar
420: auxiliary column
411, 421: fastening groove
430: hole
440: fastening pin

Claims (6)

1. A water storage tank for preventing excessive flooding of water,
A vertical wave plate (200) formed in a state of being crossed with a part for allowing the flow of water stored in the water tank (100) and a part for restricting the flow of liquid, a water tank (100) Is formed,
The vertical wave plate 200 includes a main wave plate 210 formed to intersect the inside of the water tank 100 at right angles and a central wave plate 210 having a central portion And a plurality of auxiliary columns (not shown) formed at the ends of the main wave plates 210 and coupled to the main wave plates 210 to couple the main wave plates 210 to each other. 420,
The centering plate 410 and the auxiliary column 420 are formed with coupling grooves 411 and 421 for fixing both ends of the main wave plate 210 and the main wave plate 210 And are connected to each other at both ends of the frame,
A plurality of holes 430 are formed in the inner surfaces of the coupling grooves 411 and 421 and a coupling pin 440 is formed to be inserted into the holes 430 to adjust the insertion depth of the main wave plate 210. And,
A plurality of watertight dampers 300 for reducing the fluid impulsive force due to the remaining water droplets generated after the large water droplet is reduced by the vertical damping plate 200 so as to be inclined to the inner side wall of the water tank 100 ),
The door panel 300 is coupled to the inner side wall of the water tank 100 and is formed with a hinge rotation hole 320 for pivoting by a fluid impact force of water and is provided with a shock absorbing plate 310 And a shock absorbing member 330 coupled between the inner side wall of the water tank 100 and the shock absorbing plate 310 to deform the fluid impinging force into strain energy to buffer the fluid impulsive force,
The unit damper 500 is formed as a unit plate between the vertical stiffener 120 and the horizontal stiffener 130 to reinforce the water tank 100, (520) and a vertical wall (530) formed at an angle of 1 ° to 45 ° in the transverse and longitudinal directions around the through hole (510) formed in a plurality of holes Tank. delete delete delete delete delete

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