KR101928388B1 - Apparatus of accurate flowmeter for injecting chemicals to water treatment plant - Google Patents

Abstract

The present invention relates to a minute flow rate control device for precisely injecting a medicine stored in a chemical storage tank into a water treatment plant, which is fastened between a medicine storage tank and a water treatment plant. The present invention relates to a medicine delivery pipe for delivering medicines introduced from a medicine storage tank to a water treatment plant, a minute flow meter connected to the middle of the medication delivery pipe for measuring the amount of medication delivered to the medication delivery pipe, An inline pump connected to the counter-circulation pipe for circulating the medicine in the reverse direction, and a circulation pump for circulating the drug through the counter-circulation pipe to block or contaminate the inside of the chemical- And a control unit for controlling the flow rate of the fluid.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a microfluidic device for precisely injecting a medicine stored in a medicine storage tank into a water treatment plant,

The present invention relates to a microfluidic device.

A water purification technology for improving water quality of raw water has been known. Water treatment techniques include various processes. For example, common water treatment techniques include water withdrawal processes, flocculation and flocculation processes, sedimentation processes to float suspensions, filtration processes to filter out fine particles, and disinfection processes to sterilize bacteria and microorganisms.

Various chemical agents are used in such a water treatment process. However, according to the related art, it is very difficult to clean the piping in which chemicals are introduced when the pipes are clogged or contaminated. In addition, when the washing water is poured into the pipe, it is necessary to dispose of the full chemical in the pipe.

Accordingly, the inventor of the present invention has studied for a long time to solve such a problem, developed through trial and error, and finally completed the present invention.

An object of the present invention is to provide a minute flow rate control device capable of cleaning the inside of a pipe without throwing away a full medicine inside the pipe.

On the other hand, other unspecified purposes of the present invention will be further considered within the scope of the following detailed description and easily deduced from the effects thereof.

In order to accomplish the above object, the present invention provides a minute flow rate control apparatus for precisely injecting a medicine stored in a medicine storage tank into a water treatment plant, which is fastened between a medicine storage tank and a water treatment plant,

A chemical transfer pipe for transferring the chemical introduced from the chemical storage tank to the water treatment plant;

A micro flow meter which is fastened in the middle of the chemical transfer piping to measure the amount of the chemical transferred to the chemical transfer piping;

Reverse circulation piping connecting the chemical feed pipe connected to the downstream end of the minute flow meter and the chemical feed pipe connected to the front end of the minute flow meter;

An inline pump connected to the counter-circulation pipe to circulate the medicine; And

And a control unit for circulating the medicine through the circulation pipe to remove clogging or contamination inside the medicine transfer pipe.

In a preferred embodiment, a first valve formed in a drug delivery line connected to the front of the micro flow meter;

Further comprising a second valve formed in the chemical feed pipe connected to the downstream end of the micro flow meter,

The control unit blocks the first valve and the second valve to secure a closed circulation path including the micro flow meter and then operates the in-line pump to circulate the medicine in the reverse direction along the closed circulation path to prevent clogging or contamination inside the chemical transfer pipe It is better to remove it.

In a preferred embodiment, the apparatus further comprises a shielding box for preventing the outflow of the drug,

The chemical transfer pipe, micro flow meter, reverse circulation pipe, and in-line pump may be installed inside the shield box.

In a preferred embodiment, the apparatus further comprises a sensing sensor for sensing drug outflow within the shielding box,

The control unit may detect whether the medicine has leaked through the sensing box.

In a preferred embodiment, a discharge port for discharging the medicine to the outside is formed at the lower end of the shield box.

In a preferred embodiment, it is preferable that the apparatus further comprises a fixed amount discharge pump for supplying the medicine stored in the medicine storage tank to the minute flow rate control device.

According to the present invention, the inside of the pipe can be easily cleaned. The micro flow meter has a problem that the medicine can not be smoothly supplied when the micro pipe is clogged or contaminated because the medicine is flowed through the narrow pipe. However, according to the present invention, it is possible to easily clean the inside of the pipe without replacing the pipe or inserting the washing water into the inside of the pipe. Further, since no separate washing water is supplied, there is an effect that the medicine present in the piping is not discarded.

On the other hand, even if the effects are not explicitly mentioned here, the effect described in the following specification, which is expected by the technical features of the present invention, and its potential effects are treated as described in the specification of the present invention.

1 is a diagram showing a schematic configuration of a water treatment system of the present invention.
2 is a view showing a preferred embodiment of the microfluidic control device of the present invention.
3 is a view showing a preferred embodiment in which the minute flow rate control device of the present invention cleans the interior of the piping.
* The accompanying drawings illustrate examples of the present invention in order to facilitate understanding of the technical idea of the present invention, and thus the scope of the present invention is not limited thereto.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the subject matter of the present invention.

1 is a diagram showing a schematic configuration of a water treatment system of the present invention.

1, the water treatment system may include a chemical storage tank 10, a water treatment plant 20, a central control device 30, a constant-volume pump 40, and a minute flow control device 100 have.

The medicine storage tank 10 stores medicines for purification of water. The medicine stored in the medicine storage tank 10 flows into the minute flow rate control device 100 through the constant-volume discharge pump 40. [ The minute flow rate control device 100 accurately measures the amount of the medicine and puts it into the water treatment plant 20. The flow meter and the water quality meter 21 for measuring the flow rate and the degree of contamination of the raw water may be included in the front end of the water treatment plant 20. The central control unit 30 controls the quantity of the chemicals to be supplied in accordance with the amount of the raw water and the degree of contamination measured by the flow meter and the water quality measuring unit 21. [

The micro flow rate control device 100 is connected between the medicine storage tank 10 and the water treatment plant 20. The minute flow rate control device 100 can be manufactured in a modular fashion that is easy to separate and install. The minute flow rate control device 100 is supplied with the medicine by the constant-volume discharge pump 40 provided separately at the front end. However, in another embodiment, the minute flow control device 100 may be configured to include the constant-rate discharge pump 40. [

2 is a view showing a preferred embodiment of the microfluidic control device of the present invention.

As shown in FIG. 2, the minute flow rate control device 100 precisely measures the amount of the medicine supplied from the dosing pump 40, and then injects the medicine into the water treatment plant.

The minute flow rate control device 100 includes a chemical transfer pipe for transferring the chemical introduced from the chemical storage tank to the water treatment plant. In a preferred embodiment, the chemical delivery piping may include a first pipe 121, a second pipe 123, a third pipe 124, and a fourth pipe 126. One end of the first pipe 121 is connected to the fixed amount discharge pump 40. The other end of the first pipe 121 is connected to the first valve 122. The other end of the first valve 122 is connected to the second pipe 123. The other end of the second pipe 123 is connected to the minute flow meter 110. The other end of the minute flow meter 110 is connected to the third pipe 124. The other end of the third pipe 124 is connected to the second valve 125. The other end of the second valve 125 is connected to the fourth pipe 126.

The minute flow rate control device 100 includes a chemical transfer pipe connected to the downstream end of the minute flow meter 110 and a reverse transfer pipe connecting the chemical transfer pipe connected to the front end of the minute flow meter 110. The reverse circulation piping secures the reverse flow path including the minute flow meter 110 in this manner. In the preferred embodiment, the reverse circulation pipe includes a first reverse circulation pipe 131 branched from the third pipe 124 and a second reverse circulation pipe 133 branched from the second pipe 123. An in-line pump 132 may be installed between the first and second counter-circulation pipes 131 and 133. The inline pump 132 circulates the filled medicine in the circulating pipe with strong pressure.

The micro flow rate control apparatus 100 includes a control unit 140. The control unit 140 may not be able to detect a problem (clogging, or the like) in the chemical delivery piping when the pressure of the chemical increases abnormally or the amount of the chemical supplied from the constant-volume discharge pump 40 is different from the amount of chemical discharged from the micro- Contamination, etc.) has occurred. In this case, the control unit 140 cleans the drug delivery pipe by strongly reversing the medicine through the reverse environment. In more detail, in a preferred embodiment, the controller 140 closes the first valve 122 and the second valve 125 to secure a closed circulation path including the minute flow meter 110, ) Is operated to circulate the medicine along the closed circulation path to remove clogging or contamination inside the chemical transfer pipe.

In a preferred embodiment, the controller 140 opens the first valve 122 and the second valve 125 after cleaning and supplies the medicament to the medicament delivery piping according to a normal method. However, in another embodiment, the control unit 140 may open the medicine discharge valve 134 as occasion demands to discharge chemicals that may contain contaminants in the washing process.

The minute flow rate control apparatus 100 further includes a detection sensor 150 for detecting the outflow of the medicine in the shield box 160. The control unit 140 controls the flow rate of the medicine It is possible to detect whether or not it has been leaked. In a preferred embodiment, the sensing sensor 150 may be located at the bottom of the shield box 160.

The microfluidic device 100 may further include a shield box 160 for preventing external leakage of the medicine. Inside the shield box 160, a chemical transfer pipe, a minute flow meter, a reverse circulation pipe, and an inline pump may be installed in the shield box 160. In a preferred embodiment, the control unit 140 may be installed outside the shield box 160. This is because the control unit 140 does not leak chemicals and maintenance of the control unit 140 is easy. However, the present invention is not limited to this, and the control unit 140 may be installed inside the shield box 160.

In a preferred embodiment, the front surface of the shield box 160 may be formed transparent. So that the administrator can check the state of the device installed in the inside of the shield box 160 through the front surface of the shield box 160 and whether the medicine is leaked or not.

On the other hand, a discharge port 161 and an external discharge valve 162 for discharging medicines to the outside may be formed at the lower end of the shield box.

3 is a view showing a preferred embodiment in which the minute flow rate control device of the present invention cleans the interior of the piping.

As can be seen from Fig. 3, the micro flow rate control device of the present invention can automatically clean the inside of the chemical transfer pipe. In a preferred embodiment, the control unit 140 detects an abnormal condition such as a pressure of the medicine is increased through a pressure gauge or a flow rate of the medicine is reduced through the micro flow meter.

The control unit 140 closes the first valve 122 and the second valve 125 to secure a closed circulation path including the micro flow meter 110. [

The control unit 140 operates the in-line pump 132 to circulate the medicine along the closed circulation path to remove clogging or contamination inside the chemical transfer pipe. In this case, the direction of circulating the medicine may be counterclockwise in FIG. 3, that is, reverse to the direction in which the medicine is discharged in the minute flow meter. When the medicine is circulated in the reverse direction in this way, the flow rate of the circulating drug is not counted by the medicine put into the water treatment plant. That is, since the minute flowmeter circulates backwards, it is not counted by the medicine put into the water treatment plant. Therefore, it is not necessary to separately request the correction amount of the chemical dosing amount to the central control room. However, the cleaning direction of the present invention is not limited thereto.

When the washing is completed, the controller 140 opens the first valve 122 and the second valve 125 to normally supply the medicine to the water treatment plant.

As described above, cleaning the piping according to the present invention is quick because it is not necessary to replace the piping. In addition, since it is not necessary to empty the inside of the piping, waste of chemicals can be reduced. On the other hand, if the medicine that has already passed through the micro-flow meter is discarded without being input to the water treatment plant, an error occurs in the amount of the medicine to be supplied to the water treatment plant. According to the present invention, such an error does not occur.

[Other Embodiments]

In another embodiment, when the dosing pump is installed outside the shielding box, a collecting part for collecting the leaking medicine at the lower end of the dosing pump may be provided. The piping connected to the collecting part is connected to the inside of the shielding box so that the discharged medicine can be collected into the shielding box.

In another embodiment, a scalpel cylinder may be provided between the drug storage tank and the metered dose dispensing pump. A lock valve may be formed between the measuring cylinder and the medicine storage tank. When the lock valve is closed and the dosing pump is started, the medicine stored in the measuring cylinder flows into the minute flow rate control device. By comparing the amount of the medicine reduced in the measuring cylinder, the amount of the medicine discharged from the metering pump, and the amount of the medicine discharged from the micro flow control device, it is possible to invert the outflow of the medicine and the outflow position.

The scope of protection of the present invention is not limited to the description and the expression of the embodiments explicitly described in the foregoing. It is again to be understood that the present invention is not limited by the modifications or substitutions that are obvious to those skilled in the art.

Claims (6)

There is provided a minute flow rate control apparatus which is connected between a chemical storage tank and a water treatment plant to supply medicine stored in a chemical storage tank from a constant quantity discharge pump and inject precisely into a water treatment plant,
A first pipe connected at one end to the metering pump;
A first valve installed at the other end of the first pipe;
A second pipe connected at one end to the first valve and having a smaller diameter than the first pipe;
A micro flow meter connected to the other end of the second pipe to measure the amount of the medicine to be transferred from the medicine storage tank to the water treatment plant;
A third pipe connected at one end to the minute flow meter and having a diameter smaller than that of the first pipe;
A second valve installed at the other end of the third pipe;
A fourth pipe connected at one end to the second valve and connected at the other end to the water treatment plant;
A first reverse circulation pipe branching from the third pipe and a second reverse circulation pipe branched from the second pipe;
An inline pump disposed between the first and second reverse circulation lines for circulating the medicine in the reverse direction; And
And a controller for circulating the chemical through the first and second reverse circulation piping to remove clogging or contamination inside the chemical transfer piping. The method according to claim 1,
The control unit blocks the first valve and the second valve to secure a closed circulation path including the micro flow meter and then operates the in-line pump to circulate the medicine along the closed circulation path to remove clogging or contamination inside the chemical transfer pipe Flow control device. The method according to claim 1,
Further comprising a shielding box for preventing external leakage of the drug,
Wherein the first to fourth pipes, the minute flow meter, the first reverse circulation pipe, the second reverse circulation pipe, and the inline pump are installed inside the shield box. The method of claim 3,
Further comprising a sensing sensor for sensing a drug outflow in the shielding box,
Wherein the control unit detects whether or not the medicine has flowed out through the detection box through the detection box. The method of claim 3,
And a discharge port for discharging the medicine to the outside is formed in the lower end of the shield box. The method according to claim 1,
Further comprising a chemical discharge valve disposed in the second reverse circulation line and capable of discharging chemicals containing contaminants in a cleaning process.

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