KR101796510B1 - Water tank with anti-earthquake structure - Google Patents

Abstract

According to the present invention, provided is a water tank with an earthquake-resistant structure, which comprises: a breakwater type training wall dividing an internal space of a water storage tank into a plurality of water storage spaces, and enabling water storage delivery movement in each water storage space; a flow fixing body formed between a floor portion of the water storage tank and a concrete floor portion, and enabling the water storage tank to be fixated to the concrete floor portion in a state of flowing at a predetermined distance from side to side when vibration occurs from side to side; and a flexible pipe formed between a pipe inside the water storage tank and a pipe outside the water storage tank to absorb vibration when the vibration occurs.

Description

[0001] Water tank with anti-earthquake structure [

The present invention relates to a water tank, and more particularly, to a water tank, a seismic structure applied between a water tank, a water tank and a foundation concrete pipe, and a pipe of a water tank to absorb the vibration when a vibration such as an earthquake occurs, The present invention relates to a water tank having a structure.

Generally, a water tank is a structure that allows water to be sent and received to be stored and supplied to a demand site, and has a structure in which a bottom portion of a water storage tank in which water is stored is fixedly installed on a foundation concrete bottom portion.

However, in the case where the bottom portion of the water storage tank is fixed to the bottom of the concrete, vibration is directly transmitted from the bottom of the concrete water storage tank to the water storage tank when vibration occurs due to an earthquake or surrounding construction due to variation in the crust, There is a problem that the shape is deformed or the piping such as an inlet port and an outlet port is damaged and the function of the water tank is lost.

In order to solve the above problems, a water tank equipped with a vibration damping means, such as the one disclosed in Japanese Patent No. 10-0846308, has been disclosed.

Here, the water tank may include a tank main body having a plurality of unit panels coupled to each other to form a water storage space therein, the water tank being spaced upwardly from the ground surface by a spacing member, And at least one vibration damping means installed at one side of the lower surface to buffer vibration transmitted from the ground to the tank body so that vibration can not be directly transmitted to the tank body.

However, since the conventional water tank has a state in which the tank body is fixed to the vibration damping means fixedly mounted on the ground, when vibrations are generated in the lateral direction from the ground surface, even if the vibration is absorbed to some extent by the vibration damping means, The storage water stored in the tank body is sluzed, so that the tank body, piping, and the like are damaged and the function of the water tank is lost.

It is therefore an object of the present invention to provide a water tank having a seismic resistant structure capable of preventing a slushing phenomenon of stored water caused by an earthquake or the like and preventing breakage of a water tank, .

Another object of the present invention is to provide a floating fixture for fixing a bottom of a water tank and a bottom of a concrete so as to flow in a lateral direction a predetermined distance, and when the vibration occurs due to an earthquake or the like, And to provide a water tank having a seismic structure capable of minimizing the slushing phenomenon and preventing breakage of the water storage tank.

Still another object of the present invention is to provide a water tank having an earthquake-resistant structure that can construct an expansion and contraction pipe between the inside of a water tank of a water tank and a pipe outside the water tank to absorb vibration when an earthquake or the like occurs, .

Meanwhile, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to the present invention, a wave-guiding wall for partitioning an inner space of a water reservoir into a plurality of water storage spaces and allowing storage water to flow in each water storage space; A flow restricting body formed between a bottom portion of the water tank and the concrete bottom so that the water tank can be fixed to the bottom of the concrete in a state in which the water tank is allowed to flow in the lateral direction for a predetermined distance when the vibration is generated in the lateral direction; And an expansion / contraction structure that is formed between a pipe inside the water storage tank and a pipe outside the water storage tank and absorbs the vibration when the vibration is generated.

Here, the wave-guiding wall has a plurality of wave plates installed inside the water reservoir to divide the water storage space of the water reservoir into a plurality of spaces and to prevent sloshing of the stored water when vibration occurs; And a throttle plate having a plurality of holes and configured in the wave plate to allow the stored water flowing into one of the plurality of water storage spaces to be flown into the other water storage space.

It is also preferable that the wave guiding wall is provided so that the guiding plate is pivotable on the central portion of the wave guiding plate so as to be able to open and close the central portion of the wave guiding plate.

Further, the floating fixture includes: a support frame that supports the bottom of the water reservoir with the upper side fixed to the bottom side of the bottom of the water reservoir and the lower side contacting the upper side of the concrete bottom; An anchor bolt fixedly installed at a bottom of the concrete with a predetermined distance from the outer side of the water tank; And a stopper whose one end is fixed to the support frame and the other end is restrained with a predetermined variable displacement to the anchor bolt.

The stopper may include a stopper piece having a length corresponding to a distance between the support frame and the anchor bolt; And a restraining hole formed in an elliptical structure on the other side end of the stopper member and constrained to the head portion of the anchor bolt.

Therefore, according to the present invention, the wave-guiding wall is formed in the water tank water tank, thereby preventing sloshing of stored water due to an earthquake or the like and preventing breakage of the water tank.

In addition, since the flow restricting member is fixed so that the bottom portion of the water tank water tank and the concrete bottom portion are allowed to flow in the left and right direction by a predetermined distance, when the vibration occurs due to an earthquake or the like, the water reservoir is moved in the left- So that breakage of the water tank can be prevented.

In addition, since the expansion pipe is formed between the inside of the water tank of the water tank and the pipe outside the water storage tank, vibration of an earthquake or the like can be absorbed by the expansion and contraction pipe to prevent breakage of the pipe.

On the other hand, the effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view showing a side surface of a water tank having a seismic resistant structure according to an embodiment of the present invention; FIG.
Fig. 2 is a view showing the structure of a wave-like flow-guiding wall in the water tank of Fig. 1; Fig.
3 is a cross-sectional view of the flow structure of the water tank of FIG. 1 in a plan view of a water tank; And
Fig. 4 is a diagram showing a cross-sectional structure of a water tank in the plan view of the expansion and contraction pipe in the water tank of Fig. 1;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4, a water tank having an earthquake-proof structure according to an embodiment of the present invention divides the internal space of the water storage tank 10 into a plurality of water storage spaces, The waterproof wall 10 is formed between the bottom P of the water storage tank 10 and the concrete bottom C so that the water storage tank 10 can move in the left and right direction by a predetermined distance And a piping (IP) inside the water storage tank (10) and a piping (OP) outside the water storage tank (10) An extension pipe 130 for preventing breakage, and the like.

Here, the water storage tank 10 of the present invention is a cylindrical or polyhedral structure having a single or multi-structure water storage space therein, and a stainless steel panel unit can be stacked and assembled, and at least one waveform The upper and lower ends of which are formed with coupling flanges for joining the panel units stacked to each other, so that the facing portions are welded to each other by welding or the like, .

The water tank 10 is formed in a conical shape inclining downward as the roof body R is moved from the center to the edge so as to have a higher length from the edge of the floor P toward the center, So that the transmission can be minimized.

In addition, the roof R has a ventilator and a ventilating duct, so that the outside space introduced through the ventilating duct is forcedly ventilated in the space of the water storage tank 10 during venting through the ventilator, It is preferable that the air is exhausted to the outside.

The side wall of the water storage tank 10 and the roof body R are further provided with a heat insulating and external protective panel so as to protect the water tank and the water stored therein from external impact or temperature.

In addition, the water tank 10 of the present invention includes an internal inflow pipe (IPI) for allowing the stored water to flow into the water storage space, an internal outflow pipe (IPO) for allowing the stored water of the water storage space to flow out to the demand site, An internal overflow pipe (IPO) for overflowing the stored water in the water storage space, and the like.

Here, the internal inflow pipe IPI has a height such that the stored water falls from the predetermined height into the water storage space, and a 'T' shaped spray pipe is formed at the end, so that the stored water flows out in both directions to disperse the water pressure .

 It is preferable that the water storage tank 10 of the present invention has a double tubular structure in which a second water storage tank 12 is formed inside the first water storage tank 11. In this case, It is preferable to have a structure in which an inflow pipe IPI, an internal drain pipe IPD and an internal overflow pipe IPO are installed and an internal outflow pipe IPO is installed in the second water tank 12.

The wave-guiding wall 110 divides the internal space of the water storage tank 10 into a plurality of water storage spaces, allows the storage water to be flown in the water storage spaces, and is stored (stored) when the water storage tank 10 is shaken And is provided between the inner wall surfaces of the water storage tank 10 by welding or the like so as to divide the water storage space of the water storage tank 10 into a plurality of spaces to improve the structural strength and to prevent sloshing A plurality of diaphragms 111 for preventing the diaphragm 111 from flowing into one of the plurality of water storage spaces, Plate 112 and the like.

When the water storage tank 10 has a single tubular structure, only the wave plate 111 may be installed in a '1' character or a '+' character structure, but the water storage tank 10, The inner wall of the first water tank 11 and the inner wall of the second water tank 12 (12) are connected to each other in the case of a double cylinder structure in which the second water tank 12 is formed in the first water tank 11, A plurality of wave diaphragms 111 are installed at a predetermined angle between the outer walls of the first water storage tank 11 and the second water storage tank 12 and at the same time a drift plate 112 is further installed on a wall surface of the second water storage tank 12, The stored water is preferably flowed into another storage space through the flow-through plate 112 formed in the plurality of wave plates 111 and then into the storage space of the second storage water 12 .

In the meantime, instead of making the flow-regulating plate 112 integrally formed with a plurality of perforations from the lower end to the upper end of the center portion of the diaphragm plate 111, the flow- To be rotatable at a central portion of the wave plate (111) so as to enable cleaning and maintenance of the wave plate (111) by opening and closing a central portion thereof.

Therefore, according to the wave-guiding wall 110, even when slushing of stored water occurs when vibration occurs in the water storage tank 10 due to an earthquake or the like, the wave plate 111 minimizes or suppresses the slushing motion of the water stored in the water storage tank 10 can be prevented from being damaged.

The flow restricting body 120 is formed between the bottom portion P of the water storage tank 10 and the concrete bottom portion C so that the water storage tank 10 can be moved to the concrete bottom portion C The upper side is fixed to the lower side of the bottom part P of the water storage tank 10 and the lower side is in contact with the upper side of the concrete bottom part C, An anchor bolt 122 fixed at a predetermined angle to the concrete bottom C with a predetermined distance from the wall surface of the water tank 10, And a stopper 123 having one end fixed to the supporting frame 121 and the other end restrained by the anchor bolt 122 with a predetermined variable displacement.

Here, the flow fixture 120 is formed by filling sand or rubble in the space between the bottom portion C of the concrete bottom portion C and the bottom portion P of the water storage tank 10 according to the configuration of the support frame 121, Is prevented from being deflected.

The supporting frame 121 is a supporting means for supporting the bottom portion P of the water storage tank 10. The main frame for allowing the weight of the water storage tank 10 to be evenly distributed and the reinforcing frame And the upper side is joined and fixed to the bottom portion P by welding or the like, and the lower side is in contact with the concrete bottom C in a free-end state.

That is, according to the support frame 121, when the vibration is generated in the lateral direction due to the earthquake, the bottom surface of the support frame 121 is formed in the concrete bottom portion C in a free end state, Can be moved.

The anchor bolt 122 is fixed to the concrete bottom C at a predetermined angle with a predetermined distance from the outer surface of the wall of the water storage tank 10. The anchor bolt 122 may be a fixing means such as a chemical anchor bolt A detailed description will be omitted.

The stopper 123 is a variable fixing means in which one end portion is welded to the supporting frame 121 and the other end portion is fixed to the anchor bolt 122 with a predetermined variable displacement. The stopper 123 includes a supporting frame 121 and anchor bolts 122 The stopper piece 123a has a length corresponding to the distance between the stopper piece 123a and the stopper piece 123a and has a lower stepped portion at the other end than the one end as viewed from the side. And includes a restraining hole 123b that is formed in the head portion of the anchor bolt 122.

That is, according to the stopper 123, the bottom surface of the support frame 121 is formed in a free-end state in the concrete bottom portion C so that even if the water storage tank 10 is moved in the vibration direction by the vibration of the earthquake The movement distance is limited to the distance corresponding to the diameter of the slot of the restraining hole 123b so that the water storage tank 10 can be prevented from overturning or moving to an excessive displacement.

Therefore, according to the fluid fixture 120, when the vibration occurs in the water storage tank 10 due to an earthquake or the like, the water storage tank 10 is fixed to the concrete bottom C to be displaceable by a predetermined distance, It is possible to prevent the water storage tank 10 from being damaged.

The expansion and contraction pipe 130 is a pipe connecting member formed between the piping IP inside the water storage tank 10 and the piping OP outside the water storage tank 10 to absorb vibration when the vibration is generated to prevent breakage of the pipes, An external drain pipe OPD outside the water storage tank 10 and an internal drain pipe IPD inside the water storage tank 10 and an external drain pipe OPD outside the water storage tank 10, An internal overflow pipe IPV inside the water storage tank 10 and an external overflow pipe OPV outside the water storage tank 10 and an internal discharge pipe IPO inside the water storage tank 10 and an external discharge pipe outside the water storage tank 10, (OPO).

Here, the expansion and contraction pipe 130 can freely change the direction of the pipe, and it can be constituted by a known means such as a flexible metal pipe, a rubber pipe, a corrugated pipe, and a flexible hose, and a detailed description thereof will be omitted .

In the present invention, when the extension pipe 130 is formed between the pipe IP inside the water storage tank 10 and the pipe OP outside the water storage tank 10 as described above, Is preferably formed in a square shape with a part thereof opened, that is, a concave shape.

When the concrete bottom C has a concave shape, the IPI, the internal drain pipe IPD, and the internal overflow pipe (not shown) inside the water storage tank 10 (OPI), the external drain pipe (OPD), the external overflow pipe (OPV), and the external outlet pipe (OPO) outside the water storage tank (10) So that the connecting operation of the pipes through the extension pipe 130 can be performed more easily.

In the present invention, the connecting ends of the internal inflow pipe IPI, the internal drain pipe IPD, the internal overflow pipe IPV and the internal inflow pipe IPO inside the water storage tank 10 are connected to the water storage tank 10, It is preferable that the bottom portion P of the main body 10 is more rigidly installed through the reinforcing panel.

Therefore, according to the expansion and contraction pipe 130, the connection end portion between the inside of the water storage tank 10 and the outside piping IP, OP is in a flexible state so that the vibration generated by the earthquake is absorbed, The inside piping IP can be prevented from being broken.

Hereinafter, the operation of the water tank having the above-described structure according to the embodiment of the present invention will be described.

A wave guiding wall 110 is formed in the inner space of the water storage tank 10 and a fluid fixing body 120 is installed between the bottom portion P of the water storage tank 10 and the concrete bottom C And an extension pipe 130 is formed between the piping IP in the water storage tank 10 and the piping OP outside the water storage tank 10.

In this state, when vibration occurs in the water storage tank 10 due to an earthquake or the like and sloshing of the storage water occurs, the wave plate 111 of the wave-guiding wall 110, which is partitioned in the storage space inside the water storage tank 10, The slushing motion of the stored water is suppressed, thereby preventing the water storage tank 10 from overturning or shaking.

When vibration is transmitted to the water storage tank 10 due to an earthquake or the like in the above state, the lower side of the water storage tank 10 is displaced by a predetermined distance by the stopper 123 of the flow fixture 120, So that the sinking phenomenon is minimized and overturning of the water storage tank 10 is prevented.

When vibrations are transmitted to the water storage tank 10 due to an earthquake or the like in the state as described above, vibrations are generated by the expansion and contraction pipe 130 connected to the connection ends of the pipes IP and OP inside and outside the water storage tank 10, So that at least the piping IP inside the water storage tank 10 is prevented from being damaged.

Although the present invention has been described with reference to the specific embodiments, various modifications may be made without departing from the scope of the present invention. Accordingly, the scope of the invention is not to be determined by the embodiments described, but should be determined by equivalents of the claims and the claims.

Claims (7)

A wave-guiding wall 110 dividing an internal space of the water storage tank 10 into a plurality of water storage spaces and allowing storage water to flow in each water storage space; The water tank 10 is formed between the bottom P of the water storage tank 10 and the concrete bottom C so that the water storage tank 10 is fixed to the concrete bottom C in a state in which the water storage tank 10 can move in the left- A flow fixture 120; And an expansion pipe (130) formed between the piping (IP) inside the water storage tank (10) and the piping (OP) outside the water storage tank (10)
The wave-shielding wall 110 has a rectangular shape,
A plurality of wave plates (111) installed inside the water storage tank (10) and dividing the water storage space of the water storage tank (10) into a plurality of spaces and preventing sloshing of the stored water when vibration is generated;
And a flow plate (112) formed on the wave plate (111) and having a plurality of pores to allow the stored water flowing into one of the plurality of water storage spaces to flow into another water storage space,
The flow guide plate 112 is rotatably installed at the central portion of the wave plate 111 to enable the operation of opening and closing the central portion of the wave plate 111,
The flow fixture (120)
The upper surface of the bottom portion P of the water storage tank 10 is fixed to the lower surface of the bottom portion P of the water storage tank 10 and the lower surface of the bottom portion P of the water storage tank 10 is in contact with the upper surface of the concrete bottom portion C, (121);
Anchor bolts 122 fixed to the concrete bottom C with a predetermined distance from the outer side of the water tank 10; And
And a stopper (123) having one end fixed to the support frame (121) and the other end restrained with a predetermined variable displacement to the anchor bolt (122). delete 2. The device of claim 1, wherein the wave-guiding wall (110)
When the water storage tank 10 has a double tubular structure in which the second water storage tank 12 is formed in the first water storage tank 11,
A plurality of wave plates 111 are installed at a certain angle between the inner wall of the first water tank 11 and the outer wall of the second water tank 12,
And a flow-guiding plate (112) is provided on a part of a wall surface of the second water tank (12). delete delete The stopper according to claim 1, wherein the stopper (123)
A stopper piece 123a having a length corresponding to the distance between the support frame 121 and the anchor bolt 122;
And a restraining hole (123b) formed in the other end of the stopper piece (123a) in an elliptical shape and confined to the head portion of the anchor bolt (122). 2. The apparatus according to claim 1, wherein the extension pipe (130)
Wherein the water tank is one of a flexible metal pipe, a rubber pipe, a corrugated pipe and a flexible hose.

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