KR100886156B1 - Cylindrical water tank to induce swirling water - Google Patents

Abstract

The present invention relates to a flow-induced cylindrical water tank, and more particularly, a plurality of cylindrical flow-guided walls are formed in a concentric shape inside the cylindrical outer wall to partition the storage space in a concentric shape, and the roof is coupled to the top of the reservoir. A main body; Water supply means for supplying water to the water storage body; Water discharging means for discharging water supplied to the water main body; It is installed to communicate with the outside of the storage body from the perforated provided on the bottom surface of each storage space formed in the water storage body, and includes a cleaning pipe coupled to the valve.

Therefore, water flowing from the inner reservoir of the reservoir to the bottom of the reservoir formed between the outer diameter surface of the circulating induction wall and the inner diameter surface of the other circulating induction wall flows back along the circulating induction wall and then again when the water level rises. By overflowing to the bottom of the reservoir, the residence time until the final drainage is increased, and the disinfection effect is increased by increasing the residence time of the disinfectant. Provide a flow-inducing cylindrical reservoir that allows freedom.

Description

Cylindrical water tank to induce swirling water}

1 is a partially cutaway perspective view showing the structure of a flow-inducing cylindrical reservoir according to the present invention.

Figure 2 is a side cross-sectional view showing the structure of the flow guide type cylindrical reservoir according to the present invention.

Figure 3 is a plan sectional view showing the structure of the flow guide type cylindrical reservoir according to the present invention.

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

101: flow guide wall 102: roof

103: water body 104: bottom surface

105: small box 106: small pipe

107: acquisition pipe 108: overflow hole

109: Wolyu induction pipe 110: auxiliary opening

111 discharge pipe 112 discharge pipe

113: overflow pipe 114: cleaning home

The present invention relates to a flow-guided cylindrical water tank, and more particularly, to a flow-induced cylindrical water tank which increases the residence time of the water and frees the water supply required by the consumer while cleaning each storage space individually. will be.

In general, water from the wells including groundwater or agricultural water is transferred from the wells collected to the reservoirs installed at predetermined positions through the supply pipe, and the water contained and stored in the reservoirs is discharged or supplied when needed by the consumer side. have.

However, in the related art, when the raw water of the well is pumped and supplied to the reservoir by the motor pump, the supply pipe is generally supplied to the reservoir through a supply pipe connected to the motor pump, and the supply pipe is generally not penetrated into the bottom of the reservoir to supply the raw water. Penetrated to the top to feed the raw water.

The reason for this is that, as is well known, after supplying the supply pipe to the lower part of the reservoir, when raw water is supplied, the water level inside the reservoir increases as the raw water is supplied to the reservoir, and the increase of the water level increases the water pressure inside the reservoir. .

Therefore, as the pressure increases, the motor pump needs to supply the raw water with the pressure of the increased pressure, so that the motor pump may be overloaded and eventually rupture.

For this reason, since the supply pipe is allowed to penetrate the upper part of the reservoir, and then supplies the raw water, the motor pump only needs to work as much as the potential energy applied from the place where the motor pump is located to the upper part of the reservoir, thereby solving the problem of rupture. It will be possible.

On the other hand, conventional reservoirs or water storage facilities are concrete storage tanks buried underground, which is difficult to maintain and repair such as immediate response to leakage and inflow of sewage, and on the inner wall surface of the storage tank made of concrete As molds occur and the life of the storage tank approaches the end of life, it acts as a major culprit of water pollution and at the same time, does not provide the consumer with reliability for clean water.

In addition, the conventional water and sewage water treatment system takes a lot of land, as well as requires a long production time compared to the manufacturing cost has an uneconomical disadvantage.

In addition, since the conventional reservoir and storage tanks are formed in a rectangular shape, most of the water storage is generated in the corners, and even if the purified water is contaminated, the water may be contaminated and there is a disadvantage in that it is not easy to control the residual chlorine concentration.

Accordingly, the eradication of bacteria is very difficult, and excessive disinfectant is inevitably introduced, and an excessive concentration of disinfectant may be combined with organic substances to generate carcinogens.

In order to solve the above problems, the present invention, after the appropriate amount of disinfectant is added, it is preferable that the disinfectant stays in the reservoir for as long as possible to disinfect the harmful elements contained in the raw water, The purpose of the present invention is to provide a flow-induced cylindrical water tank that removes the suspended state of fine sediments at a source to supply safe water to each customer.

The above object is, a plurality of cylindrical flow guide walls 101 are formed concentrically in the cylindrical outer wall (103a) partitions the reservoir space 104 in a concentric shape, the roof 102 is coupled to the reservoir A main body 103; Water supply means for supplying water to the water storage body (103); Water discharging means for discharging water supplied to the water storage body (103); Small holes are installed to communicate with the outside of the reservoir body 103 from the provided hole 105 punched in the bottom surface 103b of each reservoir space 104 formed in the reservoir body 103, the valve 106a is coupled It is achieved by the flow guide type cylindrical water reservoir, characterized in that it comprises a tube (106).

Here, the circulating induction wall 101 is fixed to the center of the circulating induction wall 101 having a larger inner diameter than the circulating induction wall 101 having a larger inner diameter than the circulating induction wall 101 having a large inner diameter. The means for supplying the water penetrates upwardly from the bottom surface 103b adjacent to the flow-inducing wall 101 of the storage space 104 formed at the center of the water storage body 103, and then stands up from the top to the bottom. It extends in a '∩' shape to the surface 103b, the lower opening 107a is open in a clockwise or counterclockwise direction, the opposite end of the opening 107a is a remotely installed pump (not shown) An inlet pipe (107) connected to an inlet pipe (not shown) connected to the inlet pipe; One end is connected to the plurality of overflow holes 108 formed on the outer diameter surface of the circulating induction wall 101 to extend to the bottom surface 103b adjacent to the outer diameter surface of the circulating induction wall 101, 109a is formed in an open direction in a clockwise or counterclockwise direction so that water from the storage space 104 inside the flow guide wall 101 flows into the storage space 104 outside the flow guide wall 101. 109).

In addition, the auxiliary opening part 110 coupled to the water outlet in the same direction as the opening direction of the opening 109a on the top of at least one opening 109a of the water inlet pipe 107 and the overflow induction pipe 109. It is preferable to include.

In addition, the plurality of overflow induction pipes 109 formed on any one of the flow guide walls 101 are preferably formed to be biased on one side of the outer diameter surface at a ratio of 3: 1.

In addition, one end of the water discharge means, each of which is installed at a predetermined height in the bottom surface 103b of each of the storage space 104 formed in the water storage body 103, the valve 111a is coupled to each other end It comprises a discharge pipe 111 is piped to the outlet pipe 112 connected to the customer side.

Then, one end penetrates into the bottom surface 103b of the reservoir space 104c formed at the outermost portion of the reservoir body 103 and is installed upright to a predetermined height, and the other end is over joined to the outlet pipe 112. It further includes a flow pipe 113, the longitudinal direction along the bottom surface 103b from the small provision 105 to collect the water contained in each storage space 104 of the reservoir body 103 to the small provision 105 It is preferable to further include a cleaning groove 114 extending to.

Hereinafter, the configuration and operation of the present invention will be described with reference to FIGS. 1 to 3.

First, as illustrated in FIG. 1, by forming a plurality of cylindrical flow guide walls 101 spaced apart at regular intervals according to the manufacturer's intention in the inner reservoir space 104 of the reservoir body 103 having a cylindrical shape, A reservoir space 104 capable of storing water can be partitioned between each flow guide wall 101 and the flow guide wall 101.

That is, as shown in FIG. 1, the flow guide wall 101 having a smaller inner diameter is installed and fixed to the center point of the reservoir body 103, and the flow guide wall having a smaller inner diameter ( At the position spaced outward from 101, a cylindrical flow guide wall 101 having an inner diameter larger than that of the small flow guide wall 101 is fixed.

Therefore, a plurality of cylindrical flow guide walls 101 having different inner diameters are installed and fixed in the same shape and direction as concentric circles, and thus, the outer diameters of the stand up flow guide walls 101 may be fixed. Each storage space 104 may be formed in the inner diameter.

In addition, the roof 102 is coupled to the upper portion of the flow guide wall 101 and the reservoir body 103. According to the manufacturing procedure, the auxiliary equipment for supplying and draining water to the reservoir space 104 is installed. It is then desirable to join the roof 102.

The auxiliary facilities for water supply and drainage to the water storage space 104, the water supply means, the water discharge means and each storage space formed by the circulating induction wall 101 in the storage body 103 ( The cleaning pipe 106 is installed so as to communicate with the outside of the water storage body 103 from the small provision 105 drilled on the bottom surface 103b of the 104.

The water supply means penetrates upwardly from the bottom surface 103b adjacent to the inner surface of the flow guide wall 101a having the smallest inner diameter configured to form the storage space 104 at the center of the water storage body 103. The inlet pipe 107 is installed so that the bar upright, the inlet pipe 107 is extended to a predetermined height upward as shown in Figure 2 and then bent into a '∩' shape that is a U-turn (U Turn) shape Again, it extends to the bottom surface 103b.

Here, the opening 107a at the end of the inlet pipe 107 reaching the bottom surface 103b is opened toward the clockwise or counterclockwise direction as shown in FIGS. 1 and 2 to open the inlet pipe 107. When water supplied by a pump installed remotely from the water storage body 103 is discharged to the opening portion 107a, the water is discharged along the opening direction, thereby gradually rotating circularly along the inner surface of the cylindrical flow guide wall 101a. Will go up.

And, except for the flow guide wall 101a which forms the storage space 104 in the center of the reservoir body 103, the storage space formed inside each of the flow guide wall 101 in the upper portion of the flow guide wall 101 Overflow holes 108 are formed to allow the water of the 104 to flow into the storage space 104 formed on the outside, and the overflow hole 108 formed on the outer diameter surface of the circulating induction wall 101 is provided in the overflow flow induction pipe. 109 is formed to extend to the bottom surface 103b adjacent to the outer diameter surface of the circulating induction wall 101 formed.

At this time, the opening 109a at the lower end of the overflow induction pipe 109 is also opened in a clockwise or counterclockwise direction, from the storage space 104 inside the flow guide wall 101 to the storage space 104 outside. The overflowed water allows the reservoir to flow in a circular flow in the outer reservoir 104.

Here, the number of the overflow induction pipe 109 formed in any one of the flow guide wall 101b is formed at least three times or more than the number of the flow induction pipe 109 formed in the flow guide wall 101a provided inside. By making it possible, the water stored in the inner reservoir 104 may be smoothly flowed into the outer reservoir 104.

On the other hand, the plurality of overflow induction pipes 109 formed in the flow guide wall 101, when viewed in plan view the cylindrical flow guide wall 101, as shown in Figure 3 divided into two semi-circular region, the left side The overflow induction pipe 109 is formed so that the number installed in any one of the semicircle and the right semicircle area is biased, and in the opposite semicircle area, a relatively small number of the overflow induction pipe 109 can be installed. It is desirable to allow the flow of water discharged to 109 to be directed in a direction of either clockwise or counterclockwise.

In addition, at least one auxiliary opening part 110 is installed at a position spaced upwardly from the lower opening 109a of each of the overflow induction pipes 109, and the opening direction of the auxiliary opening part 110 is the overflow induction pipe 109. By making it be the same as the direction of the opening part 109a, it is preferable to reinforce the circulating induction of the water discharged | emitted to the overflow induction pipe 109.

On the other hand, the discharge means of the water, so that one end of the discharge pipe 111 is penetrated to the bottom surface 103b of each storage space 104 formed inside each of the water storage body 103, the discharge pipe 111 of the The other end of the valve 111a is coupled, and then coupled with the outlet pipe 112 connected to the customer side, so that the water stored at the same time or separately in each storage space 104 can be discharged.

At this time, one end of the discharge pipe 111 that penetrates to the bottom surface 103b of the storage space 104 is projected higher than the bottom surface 103b as shown in FIG. 2, thereby being deposited on the bottom surface 103b. It is preferable to prevent the precipitate from being discharged through the discharge pipe 111 and supplied to the consumer.

Meanwhile, as shown in FIGS. 1 and 2, the reservoir 104 formed at the outermost portion of the reservoir body 103 is relatively higher than the discharge pipe 111 from the bottom surface 103b of the reservoir 104. When the water stored in the outermost reservoir space 104 is higher than a predetermined level by standing up and installing the flow pipe 113, it is preferable to discharge the water into the overflow pipe 113 to be combined with the outlet pipe 112. .

In addition, the water provided on the bottom surface 103b of the bottom surface 103b of each storage space 104 of the water storage body 103 is provided with water (as shown in FIGS. 1 and 2). Water used when cleaning the reservoir space 104 by forming the sweep groove 114 to extend in the longitudinal direction along the bottom surface 103b at the top edge of the provision 105 to be easily collected into 105 It is preferable to be able to be easily collected to the cleaning groove 114.

According to the present invention having the above-described configuration, when the purified water from the raw resin or the well is pumped in the pump and supplied to the inlet pipe 107 along the supply pipe, the opening in the inlet pipe 107 and the auxiliary opening 110 are clockwise. Or it is discharged to the discharge direction along the inner diameter surface of the innermost flow guide wall 101a while being discharged to the bottom surface 103b in the counterclockwise direction.

As described above, when the water level of the discharged water is increased, the sediment contained in the water discharged from the opening 109a is settled while flowing back along the bottom surface 103b, and some of the precipitates which are not precipitated and float or flow back. Is gradually settled to the bottom surface 103b while continuously floating or flowing in the innermost first reservoir space 104a and flowing along the overflow hole 108 and the overflow induction pipe 109 of the innermost flow guide wall 101a. Some of the sediment overflowed with the purified water is discharged to the bottom surface 103b of the second reservoir space 104b, so that it precipitates on the bottom surface 103b rather than flowing or floating.

As described above, when the water in the first reservoir space 104a flows into the second reservoir space 104b, the water flows again in the discharge direction of the opening 109a of the overflow induction pipe 109. It is repeatedly performed up to the reservoir space 104c formed at the outermost side of the.

Therefore, the water flowing into the reservoir 104 is gradually filled from the bottom surface 103b, and thus the sedimentation is performed first rather than floating, so that the purification effect can be excellent.

The water of the present invention as described above is operated so that the water stored in the outermost storage space (104c) can be supplied to the customer, each of the storage space (104) or by individually storing the storage space ( In the case where 104 is to be operated, both the discharge pipe 111, the supply 105, and the clean pipe 106 are installed in each storage space 104, so that the water in any one storage space 104 After discharging, the valve 111a coupled to the discharge pipe 111 of the corresponding storage space 104 is closed and the valve 111a coupled to the discharge pipe 111 of the adjacent storage space 104 is opened to each customer. It is possible to clean or repair the reservoir space 104 in which all the water is discharged while allowing the water to be continuously supplied.

According to the present invention, first, since the openings of the water inlet pipe and the overflow induction pipe are guided to the bottom surface of the storage space, the water stored in each storage space is filled with water from the bottom surface to the overflow hole and the overflow induction pipe. By being overflowed and repeated until this process is discharged, the residence time of the water and the disinfectant can be increased, thereby increasing the disinfection effect.

Second, by discharging water to the bottom of the reservoir, sediment contained in the water can be prevented from floating from the bottom to the top, and the water discharged from the reservoir to flow over to the next reservoir or to be supplied to the consumer It can be discharged at a certain level or higher, thereby preventing and preventing the inclusion of sediment in the water.

Third, since the stored water flows from the inner reservoir space to the outer reservoir space, the hydraulic pressure acting on the circulating induction wall acts on each circulating induction pipe individually so that it can maintain a structurally stable state and thus has excellent durability.

Fourth, since the water discharged to the bottom surface of the reservoir space has a continuous flow in the clockwise or counterclockwise direction, the occurrence of the shooter is prevented in advance.

Fifth, it is easy to maintain and repair by the individual operation of the storage space so that the stored water can be supplied to the consumer side while discharging the water stored in the storage space or cleaning each storage space.

Claims (8)

A plurality of cylindrical flow guide walls are formed concentrically in the cylindrical outer wall to partition the reservoir into concentric shapes, and the water reservoir body having a roof coupled to the top; Water supply means for supplying water to the water storage body; Water discharging means for discharging water supplied to the water main body; It is installed to each communicate so as to communicate with the outside of the reservoir body from the perforations provided in the bottom surface of each reservoir space formed in the reservoir body, and comprises a cleaning pipe coupled to the valve, The water supply means, After standing up from the bottom surface adjacent to the circulating induction wall of the water storage body formed in the center of the water storage body, it stands up and extends in a '∩' shape from the top to the bottom surface, and the opening at the bottom is clockwise or counterclockwise. It is open in the direction, the opposite end of the opening and the inlet pipe is connected to the inlet pipe connected to the remotely installed pump; One end is connected to a plurality of moonholes formed on the outer diameter surface of the circulating induction wall to extend to the bottom surface adjacent to the outer diameter surface of the circulating induction wall, and the opening at the bottom is open in a clockwise or counterclockwise direction to induce the flow A swirl-flow-inducing cylindrical water tank, comprising: a flow-inducing pipe for allowing water in the storage space inside the wall to flow into the storage space outside the flow-inducing wall. The method of claim 1, The flow guide wall is, A circulating induction cylindrical water tank, characterized in that a circulating induction wall having a smaller inner diameter is installed and installed inside the circulating induction wall having a larger inner diameter toward the center point. delete The method of claim 2, At least one opening of the inlet pipe and the overflow induction pipe further comprises an auxiliary open portion coupled to the discharge water is discharged in the same direction as the opening direction of the opening. delete The method of claim 1, The water discharge means, One end is penetrated at a predetermined height from the bottom surface of each water storage space formed in the water storage body, and each other end is a flow-inducing cylinder, characterized in that it comprises a discharge pipe coupled to the water outlet pipe is coupled to the customer side coupled to the valve Reservoir. The method of claim 6, One end penetrates to the bottom surface of the water storage space formed at the outermost part of the water storage body and is installed upright to a predetermined height, and the other end has a flow-through cylinder further comprising an overflow pipe joined to the water outlet pipe. Reservoir. delete

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