KR101925241B1 - Water dispensing device for dosing medicine of water treatment facility - Google Patents

Abstract

The present invention relates to a water distribution device which employs a novel scheme while being used as a component of a quantitative chemical input apparatus maintaining the residual chlorine amount in various water treatment facilities to ensure the safety of drinking water by significantly improving the water distribution device structure for stabilizing the inflowing water flowing irregularly or forming vortices, thereby enabling more precise, effective, and uniform water distribution efficiency. According to the present invention, the water distribution device includes: a vortex phenomenon stabilization control means (100) for controlling and stabilizing the vortex phenomenon; a quantitative water distribution device (200) which distributes the water supply to be used in a water tank and in a disinfectant input water mill; a water arrangement chamber water supply discharging means (300) for flowing a part of the distributed water supply to the water tank to be used as the water arrangement chamber water supply; and an impeller type water mill (400) for accurately calculating the chlorine input amount. Water supply inlet pipes (110) are formed on the lower part of the vortex phenomenon stabilization control means (100) to flow the water supply including ground water, valley water, and spring water into the quantitative chemical input apparatus. On the upper end of the water supply inlet pipes (110), a direct water pressure resistance plate (120) is formed to eliminate the vortices through three courses. A center guide plate (120) and a fine porous mesh type vortex elimination plate (140) are also formed. A water filling space unit (150) is allocated on the upper part of the fine porous mesh type vortex elimination plate (140).

Description

Technical Field [0001] The present invention relates to a water dispensing device for dosing medicine for a water treatment facility,

The present invention relates to a water dispensing apparatus for stabilizing inflow water (ground water, valley water, spring water, etc.) fluctuating vortexes, etc., in a constitution of a chemical dosing device for ensuring safe usability of drinking water by maintaining a residual chlorine amount in various water treatment facilities And a water dispensing apparatus for dispensing water to be supplied to the water dispenser for uniformly distributing water to be supplied to the disinfectant dispenser, will be.

Water treatment facilities (10, such as a simple water supply system that uses ground water, valleys, and spring water as pumps for drinking water, etc.), which are usually installed in rural areas, remote areas, and island areas where water purification facilities are weak and management and operation systems are poor, (11) for storing a certain amount of water (ground water, valley water, spring water, etc.), a disinfectant storage tank (12) for allowing disinfectant to be inserted into the water tank for safety of drinking water, And a water intake tank 13 for supplying water to each household's tap water.

In addition, in the water tank 11, when the disinfectant is supplied for maintaining the residual chlorine amount, it is common to install a medicine quantitative automated dosing device so that even if there is no separate manager, the safety standard can be met.

However, the conventional medicine dosing automation input device is not only inconvenient for manufacturing and operation because it is unnecessarily complicated in structure, but also minimizes water pressure and vortex of inflow water (ground water, valley water, spring water, etc.) It is not easy to stabilize the amount of chlorine, and it is also difficult to expect a precise adjustment of the amount of disinfection amount and the residual chlorine amount always set on the basis thereof.

The already known patent registration No. 10-1510114 (a device for inserting automatic disinfectant for non-electric power sources) has a structure in which "the inflow water W supplied from the inflow water inlet 121 of the valley and the inflow water from the groundwater inflow pipe 122, Vortex prevention means (20) for allowing the inflow water (W) flowing into the inflow chamber (21) to flow stably without swinging by the water inflow means (12) A downward flow chamber 22 formed between the first passage member 25 and the second passage member 26 provided at equal intervals on one side of the chamber 21, And an open flow chamber 24 formed outside the tertiary passage member 27. The upper flow chamber 23 and the open passage chamber 24 are formed with a plurality of water bottles and a hole 251 at the upper portion thereof, A second passing member 26 having a plurality of water troughs and holes 261 at the bottom and a plurality of watertight troughs 271 And the vehicle passing member 27 so that the inflow water W is stably passed through the water tank and the holes 251, 261 and 271 to be supplied into the water tub 11, (30) for supplying a part of the inflow water to the aberration (40) in the entire inflow amount of the inflow water (W), wherein the water equalizing supply means (30) A plurality of water pipes 27 are provided at upper portions of the third passage member 27 rising up to one side of the upward flow chamber 23 so as to be relatively smaller in size than the water holes 271 through which the inflow water W of the upward flow chamber 23 passes, The outlet member 31 having the outlet hole 32 of the third passage member 27 is provided above the middle portion of the third passage member 27 and the opening chamber 24 outside the third passage member 27, (34) that communicates with the water outlet hole (32) by means of the water inlet port (33), and the movable water waiting chamber (34) Be movable (W '), but is a structure "having drip holes 35 that are dropping,

This is a means for preventing the vortex phenomenon and it is merely to use multi-stage partition walls such as the first passage member 25, the second passage member 26 and the third passage member 27, It is difficult to expect that the inflow water which is swung by the vortex and swiftly stabilizes the inflow water so that the water can be precisely distributed can not be expected. Therefore, the safety of the drinking water is not perfect.

Patent Registration No. 10-1510114 (Automatic disinfectant dispensing device)

In the present invention, the inflow water (ground water, valley water, spring water, etc.) which comes in a swinging motion including extremely irregular and strong water pressure and vortex is constructed as a multi-stage partition wall Water treatment facility that is more effective in stabilizing hydraulic pressure and vortex and enhancing precision of water distribution, such as not only stabilizing water but also vortexing by using micro-porous network, The present invention has been completed as a technical problem with a focus on providing a distribution apparatus.

According to an aspect of the present invention, there is provided a vortex phenomenon stabilization control apparatus comprising: a vortex phenomenon stabilization control unit that can more effectively control a vortex phenomenon; (200) for distributing water in two directions so that the water can be used as the same water by sending water to the water tank and the others to the aquarium for the disinfectant, A), the vortex stabilization control means (100) comprises a water inflow pipe (110) for introducing water such as ground water, valley water, spring water and the like at the lower side, And a fine mesh network vortex destruction plate 140. The fine vortex destruction plate 140 is formed of a water pressure direct resistance plate 120, a center induction plate 130 and a fine mesh network vortex destruction plate 140, Top Is designed with a water chaohreum space 150 is assigned structure.

As described above, the water distribution device for dosing the chemical in the water treatment facility of the present invention can be installed in the inflow water (ground water, valley water, spring water, etc.) through the vortex phenomenon stabilization control means 100, Since the irregular water pressure and eddy current are controlled and sent to the next water quantitative distribution apparatus 200 in a horizontally stabilized state, the reliability of the water distribution operation performed in the water quantity distribution apparatus 200 is increased, And it is possible to do that.

1 shows a basic structure of a general water treatment facility 10
2 is a schematic view showing a water distribution device A for dosing a chemical in a water tank 11 of a water treatment facility 10
FIG. 3 is an external perspective view of a water dispensing apparatus A for dosing a medicine to which the present invention is applied
4 is a partial enlarged view of Fig. 3
5 is a front cross-sectional view of the water distribution apparatus for injecting a chemical quantity (A) to which the vortex phenomenon stabilization control means 100, the water quantity distribution apparatus 200, the water tissue discharge unit 300,
FIG. 6 is a plan view of a water dispensing apparatus A for dosing according to the present invention,
7 is a partially enlarged view of Fig. 6
8 is a partially enlarged view of Fig. 5
9 is a side cross-sectional view of the vortex phenomenon stabilization control means 100 in the water dispensing apparatus A for dosing according to the present invention
10 is an enlarged view of a part of Fig. 7 and Fig. 8
11 is a cross-sectional view taken along the line II-II in Fig. 5, and Fig. 11 is a cross-
Fig. 12 is an enlarged view of "
Fig. 13 is a right side view of the enlarged view of Fig. 11

The water dispensing apparatus for dosing the chemical in the water treatment facility of the present invention will be described in more detail with reference to the accompanying drawings.

That is, the present invention provides a water treatment system comprising a water tank 11 for containing a predetermined amount of water (ground water, valley water, spring water, etc.), a disinfectant storage tank 12 for inserting disinfectant for safety of drinking water, A water treatment facility (ground water, valley water, spring water, etc.), which is made up of a water intake tank (13) for supplying disinfectant to the water and supplying water of which the amount of residual chlorine has been adjusted to a predetermined amount, Etc., 10) Among them,

The water tank 11 is provided with a swirling vortex flow channel which allows the water pressure and the vortex contained in the water to be controlled in a stabilized manner in the shortest possible time after flowing water (ground water, valley water, water drawn from spring water, A part of the water stabilized by the vortex phenomenon and stabilized by the vortex phenomenon is directly sent to the water tank while the other part is supplied for checking the amount of chlorine input A water quantitative distribution apparatus 200 for distributing the water to be divided into two bifurcations so as to be used as an equal number in order to drive the water turbine 200, (300) for discharging the water flow of the water supply system immediately to the water tank among the water supply water supply water and the water supply water distributed through the water distribution system (A plurality of buckets arranged in a radial direction by the water for checking the amount of chlorine dispensed through the water quantitative distribution apparatus 200 and automatically rotated according to the weight when the water level is filled in the bucket by a predetermined amount The water dispensing apparatus (A) for injecting a fixed amount of a chemical in a water treatment facility, comprising an impeller type aberrator (400) for precisely estimating the amount of chlorine input through the pump

The vortex stabilization control means (100) comprises a water inflow pipe (110) for inflowing water having a considerable water pressure such as ground water, valley water, spring water, etc. from below to below,

A water pressure direct resistance plate 120 (hereinafter, simply referred to as " water pressure direct resistance plate ") 120 is provided at the upper end of the water inflow pipe 110 which is spaced apart from the water inflow pipe 110, ),

At the upper end of the water pressure direct resistance plate 120, water is dispersed to the center by the water pressure direct resistance plate 120 to calibrate the vortex in the secondary, The center induction plate 130 is guided to the upper portion,

At the upper side of the central guide plate 130, which is spaced apart from the center guide plate 130, the water flowing upward after being guided by the center guide plate 130 is dispersed again and forked. At the same time, The vortex extinguishing plate 140 is formed to be more effectively extinguished by the third order,

The water spraying space unit 150, in which the vortexes whose vortexes have been extinct up to a certain level are gradually elevated to a position of a considerable height, and the water surface is further stabilized, is allocated to the upper part of the micro-porous network vortex extinguishing plate 140 As a characteristic feature.

Hereinafter, each component will be described in more detail.

The front surface of the water pressure direct resistance plate 120 is assigned a front surface 121 to be dispersed below the surface of the water pressure directing plate 120 after the water pressure ejected from the water inflow pipe 110 is directly bumped from the front surface, At both ends, an inclined guide portion 122 is formed which is bent obliquely at a predetermined angle.

The two side water guiding rods 122 are spaced apart from each other by a predetermined distance between the inclined guide portions 122 on both sides of the water pressure direct resistance plate 120 and the inner wall surface of the main body cover 101, (123) can be provided.

In this case, inflow water sprayed with a considerable hydraulic pressure through the water inflow pipe 110 is hit by the water pressure direct resistance plate 120 and is dispersed on both sides, and is guided by the warp inducing portion 122 and the two side water guiding passages 123 The vortex can be considerably calmed (vortex secondary control) in the course of changing direction and guiding it upwards.

In the case of the center induction plate 130, the left and right water leveling plates 131 and 132 are formed on both sides of the central guide plate 130. Since the central water channel and the hole 133 are formed between the left and right water leveling plates 131 and 132,

The water which has been dispersed to both sides by the water pressure direct resistance plate 120 and then rises upwards is hit by the bottom surface of the left and right water leveling plates 131 and 132 and is gathered at the center while receiving resistance, (Vortex secondary control) can be achieved to a considerable extent in this process.

 Particularly, in the case of the fine mesh network vortex extinguishing plate 140 formed on the central guide plate 130,

Since the left and right micro-perforated network units 141 and 142, in which a large number of micropores 141a and 142a are perforated, are provided on one side and the other side except the central clogged portion 143,

(Water in which a certain amount of vortex exists) to be raised up through the central water column and the hole 133 of the central guide plate 130 and dispersed in both directions by the clogged portion 143, It is possible to eliminate the remaining vortices which are still in the course of the process such that the number of micro holes coincide with each other at once, and to cancel the vortices close to extinction and to relax (third-order vortex control).

When the inflow water passes through the vortex stabilization control means 100, even if the water flowing through the water inflow pipe 110 is sprayed with irregular water pressure, the water pressure direct resistance plate 120, the center induction plate 130, The water pressure and vortex phenomenon can be uniformly controlled by the fine mesh network vortex destroying plate 140. As a result, the water quantity distribution apparatus 200 installed on one side of the water boiling space unit 150, So that it is possible to maintain the horizontal state as much as possible and to greatly contribute to ensuring reliability in the subsequent water distribution process.

On the other hand, the water quantitative distribution apparatus 200 includes a first horizontal distribution conveying passage 210 for guiding the horizontal movement of water from one side thereof when the water overflows from the water seam space 150 ;

A plurality of "- " -shaped dividers 220 are provided at the tip of the first-order distribution horizontal transfer path 210 so as to be separated from each other by a predetermined ratio with respect to the total flow amount flowing through the first horizontal distribution path 210 for distribution. A plurality of small-size feed paths 221 are provided, each of which is divided into a very small width between the "- " -shaped partitions 220,

The plurality of "-" type partition 220, which belongs to the right side drainage section 231 occupying about 80% or more of the plurality of small amount conveyance paths 221 that are respectively divided, are configured to be in the open state, The flow blocking wall 234 is formed on the rear side of the plurality of "-" shaped partition 220 belonging to the water side drain part 232 occupying less than about 20% of the rest, And a water distributing device 230 for distributing the water into two parts, that is, the water is allowed to flow downward through the water-side supply hole 233 formed in the bottom surface thereof.

In the lower part of the first horizontal distribution conveying path 210 including the primary sorting device 230, a predetermined amount of water, which has been distributed to the lower part through the water-side supply hole 233, A secondary dispenser 240 is installed to allow some of the water to flow out to the water tank side and a part of the water to flow into the impeller type water turbine 400 to be used as water for checking the amount of chlorine input.

At this time, the secondary dispensing apparatus 240 is provided with a secondary distribution fusion water storage tube 241 having a constant capacity size below the horizontal transfer path 210 for primary distribution, and the secondary distribution water storage tube 241 A plurality of secondary distribution holes 242 are formed in the middle portion of the side surface of the first distribution hole 242 while maintaining a predetermined gap therebetween, The water discharge port 243 is formed so that only the water flowing out from the impeller-type aberration 400 can be used as water for checking the amount of chlorine input.

Further, an opening state of the aeration-side supply hole 233 is adjusted according to a user's operation to be distributed downward through the aeration-side supply hole 233 on the bottom surface of the point where the aeration-side supply hole 233 is formed An additional water supply side opening / closing control device 250 for controlling the amount of water in the water supply side can be additionally provided,

At this time, the aerator-side supply hole opening / closing control device 250 includes a rail plate 251 having a slide groove 251a on the bottom surface of the first-level distribution horizontal conveying path 210 in which the aberration-side supply hole 233 is formed And the slide groove 251a constitutes a front and rear slide operation plate 252 which can vary the degree of opening of the aberration-side supply hole 233 in accordance with the forward and backward movement of a predetermined distance. The front and rear slide operation plates 252 A manual or automatic operation unit 253 is provided for adjusting the forward and backward movement of the front and rear slide actuating plates 252.

At this time, the manual or automatic operation unit 253 may be manually adjusted by manually turning the bolt 253-1, and may be automatically adjusted by applying a pneumo-hydraulic cylinder (not shown) It is also possible to configure it.

If the amount of water distributed downwardly can be arbitrarily adjusted by using the aft-side supply hole opening / closing control device 250, water (ground water, valley water, etc.), which can be changed from time to time according to circumstances (drought, , Water column, etc.) (the amount of inflow, the pressure of water, etc.).

A: Water dispensing apparatus for dosing medicine 100: Vortex phenomenon stabilization control means
110: water inlet pipe 120: water pressure direct resistance plate
130: central guide plate 140: fine mesh network vortex extinguishing plate
150: water boiler space part 200: water quantity distribution device
300: water supply means for water supply to the water in the watertight room 400: impeller type water turbine

Claims (7)

(11) which holds a certain amount of water, a disinfectant storage tank (12) which allows the disinfectant to be inserted into the water tank for the safety of drinking water, and a certain amount of residual water adjusted to the amount of residual chlorine, Of the water treatment facility (10) comprising the water intake tank (13)
The vortex phenomenon stabilization control means (100) is provided with a vortex phenomenon stabilization control means (100) for controlling the water pressure and the vortex contained in the water after flowing the water upward from below, Some of the water which is installed at one side of the upper end of the control means 100 and smoothly stabilized from the vortex phenomenon is directly sent to the water tank while the other water is supplied to the water tank A water quantity distributing device 200 for distributing the water in the water quantity distributing device 200 and a water quantity distributing device 200 disposed at one side of the water quantity distributing device 200, (300) for discharging the water supply water from the water tank to the water tank immediately after the water supply water supply device (200) In the medicine amount Water dispensing apparatus (A) for input of a water treatment facility comprising an impeller-type aberration 400, while to enable accurately estimate the chlorine input rotation by the water for the chlorine allocation amount is checked,

The vortex stabilization control means (100) comprises a water inflow pipe (110) for inflowing a water having a considerable water pressure downward from below,
A water pressure direct resistance plate 120 is provided at the upper end of the water inflow pipe 110, which is spaced apart from the water inflow pipe 110. The water pressure direct resistance plate 120 is adapted to directly counter the water pressure ejected from the water inflow pipe, And,
At the upper end of the water pressure direct resistance plate 120, water is dispersed to the center by the water pressure direct resistance plate 120 to calibrate the vortex in the secondary, The center induction plate 130 is guided to the upper portion,
At the upper side of the central guide plate 130, which is spaced apart from the center guide plate 130, the water flowing upward after being guided by the center guide plate 130 is dispersed again and forked. At the same time, The vortex extinguishing plate 140 is formed to be more effectively extinguished by the third order,
The water spraying space unit 150, in which the vortexes whose vortexes have been extinct up to a certain level are gradually elevated to a position of a considerable height, and the water surface is further stabilized, is allocated to the upper part of the micro-porous network vortex extinguishing plate 140 Wherein the water dispensing apparatus for dosing the chemical in the water treatment facility is provided.
The method according to claim 1,
The water pressure direct resistance plate (120)
A front surface hitting surface 121 is provided on the bottom surface so that the water pressure sprayed from the water inflow pipe 110 can be directly scattered from the front surface,
At both ends of the front surface (121), an inclined guide portion (122) bent obliquely at a predetermined angle is formed,
The two side water guiding passages 123 are provided between the slope guiding portions 122 and the inner wall of the main body cover 101 so that the water dispersed on both sides of the main body cover 101 can be upwardly moved A water distribution device for dosing chemicals in a water treatment facility.
The method according to claim 1,
The central guide plate (130)
And left and right water floor panels 131 and 132 are respectively formed on both sides thereof,
And a central water channel and a hole (133) are formed between the left and right water floors (131, 132).
The method according to claim 1,
The fine mesh network vortex extinguishing plate (140)
Wherein a plurality of micropores (141a, 142a) are formed on one side and the other side of the microporous membrane (141, 142) except for the central clogged portion (143). Water distribution device.
The method according to claim 1,
The water quantitative distribution apparatus (200)
A first horizontal distribution conveying path 210 for guiding the water to be horizontally received from one side of the water seoing space 150 when the water overflows sideways;
A plurality of "- " -shaped dividers 220 are provided at the tip of the first-order distribution horizontal transfer path 210 so as to be separated from each other by a predetermined ratio with respect to the total flow amount flowing through the first horizontal distribution path 210 for distribution. A plurality of small-size feed paths 221 are provided, each of which is divided into a very small width between the "- " -shaped partitions 220,
A plurality of "- " type partitions 220 belonging to the right side drainage part 231 occupying 80% or more out of the plurality of small amount conveyance paths 221 separated from each other are constructed in the open state, While the flow blocking wall 234 is formed on the rear side of the several "-" shaped partition 220 belonging to the water side drain part 232 occupying less than 20% of the remaining water, (230) for dividing the water into two parts so as to be able to flow downward through an aft-side supply hole (233) formed in the bottom surface of the water tank Distribution device.
6. The method of claim 5,
In the lower portion of the first horizontal distribution conveying passage 210,
When a certain amount of water is discharged through the aeration-side supply hole 233, a part of the water flows out to the water tank side and a part of the water flows into the side of the impeller type aberration 400, A secondary dispensing device 240 is provided for use as check water,
The secondary dispensing apparatus (240)
A secondary distribution fusion water bottle 241 having a constant volume size is provided below the horizontal transfer path 210 for primary distribution and a predetermined gap is maintained in the middle point of one side of the secondary dispersion fusion water bottle 241 A plurality of secondary distribution holes 242 are formed in the impeller-type aberration 400, and water flowing out from the corresponding secondary distribution holes is formed only on the outer side of the plurality of secondary distribution holes 242 (243) for allowing the water to be used as water for checking the amount of chlorine input.
The method according to claim 6,
At the bottom surface of the horizontal transfer path 210 for primary distribution at the point where the aberration-side supply hole 233 is formed,
Side supply hole opening / closing control device (250) capable of arbitrarily adjusting or setting the opening state of the aft-side side supply hole (233) according to a user's operation. Water dispensing device for dosing.

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