KR20140044095A - A method and device for mixing of fluoride gargle water - Google Patents

Abstract

The present invention relates to a method and a device for mixing a fluoride gargle. The present invention always maintains the concentration of a fluoride gargle used as a gargle, prevents noise and vibration generated when the fluoride gargle is mixed, easily manufactures and installs a fluoride gargle mixing device without a separate mixer and a driving motor driving the same, and mixing the fluoride gargle in the uniform concentration inside a mixing tank by circulating the fluoride gargle to a supply path selection valve through a fluoride concentration detection unit.

Description

METHOD AND APPARATUS FOR COMBINING FLUORINE WIPO Patent Application WO /

The present invention is characterized in that the fluorine solution and the raw water in the fluorine mixing section are mixed with each other in the primary mixing and stirring tank and the concentration of the fluorine fluoride solution used as the rinsing liquid by the secondary mixing is always constant More particularly, the present invention relates to a method and apparatus for mixing a high-purity fluoride (raw water) supplied through a raw water supply pipe through a fluorine-containing supply unit in a raw water / fluorine mixing unit And a supply flow rate sensing unit for supplying a supply flow rate to the inside of the agitating tank, wherein a plurality of circular supply passages are provided inside the agitating tank, and the injection nozzles are arranged in the circumferential direction of the agitating tank A fluorocarbon solution which is installed at an angle and is sprayed in the circumferential direction inside the stirring tank The liquid is stirred by centrifugal force to uniformly secondary-mix the liquid, and a drain passage selecting valve is provided below the stirring tank to discharge the fluorine liquid solution stirred and rotated by the centrifugal force through the discharge tube, The fluorine solution and the raw water are mixed in the fluorine mixing unit and mixed with the centrifugal force of the fluorocarbon solution through the injection nozzle in the mixing tank by the circulating supply to the supply channel selecting valve through the concentration detecting unit, The concentration of the fluoride solution to be used as a saliva solution can be maintained at a constant level through secondary mixing by rotation stirring. In each of the circular supply channels formed in a plurality of the stirring vessels, Are installed at a plurality of inclined angles so that a separate stirrer is not required at all, Thereby making it possible to prevent the noise and vibration generated during the stirring of the fluorine liquid solution and to prevent the need for a separate stirrer and a driving motor for driving the same The fluorine purifying solution which is rotated and agitated by the centrifugal force in the inside of the agitating tank is supplied to a fluorine concentration detector through a fluorine concentration sensing section through a drainage channel selecting valve provided under the stirring tank, The present invention relates to a method and apparatus for mixing a fluorocarbon-like liquid solution in a circulating tank.

Fluorine, which is generally known, has a trace amount of less than about 0.2 ppm in the water of rivers and lakes. This type of fluorine has a phenol phenol component that sterilizes germs in the mouth, (Toothpaste) containing fluoride in 1000 ~ 1500ppm (toothpaste) or containing about 0.8ppm as a part of tap water fluoridation business and containing trace amount of less than 1ppm which does not affect the human body. As a result, fluorine is contained in water in the range of 500 to 1250 ppm, and the fluoride chelating solution business or the fluorine gel application business is being carried out.

Meanwhile, in order to supply the fluorine solution as described above, an agitator is configured to prevent the fluorine of the fluorine solution stored in the agitator from being precipitated, and the agitator is periodically operated to maintain the concentration of the fluorine solution constant A fluorine solution supply device constituted by a stirrer is known from Korean Patent Registration No. 10-1046531.

1, a discharge cock 11 for discharging a fluorine solution is provided on the front side of the main body 10 of the fluorine solution supply device, and fluorine A fluorine powder and a raw water supply pipe 20 for connecting the supply hole 12 and the injection port 32 are communicated and the fluorine powder and the raw water supply pipe 20 are connected to each other, A stirrer 31 for supplying and mixing fluorine powder and raw water and diluting the fluorine powder and the raw water is connected to the stirrer control means 40. The stirrer 30 is provided with an injection port on one side and a discharge port on the other side, 31) for supplying the fluorine powder and the raw water through the injection port and discharging the fluorine solution diluted by the stirrer through the discharge port. The fluorine solution discharged by the discharge port of the stirring bar (30) The discharge tube 21 It consists of a cylindrical configuration that speech.

Fluorine powder and raw water supplied through the fluorine powder and the raw water supply pipe 20 are introduced into the inside of the agitation barrel 30 through the injection port 32. At this time, The stirrer 31 is supplied with the fluorine powder and the raw water by the fluorine powder and the raw water supply pipe 20 and is operated under the control of the stirrer control means 40 to dilute the fluorine powder and the raw water by mixing.

In addition, the fluorine solution diluted by the stirrer 31 is discharged through the discharge port, and the discharged fluorine solution is delivered to the discharge cock 11 through the discharge pipe 21 to supply the fluorine solution to the user .

However, in the case of the above-described fluorine solution supply device, after the stirrer 31 for stirring the fluorine powder and the raw water is provided in the inside of the stirring barrel 30 and connected to the stirrer control means 40, It is difficult to maintain the concentration of the fluorine powder and the raw water flowing into the cylinder 30 in a uniform state at all times and the operation of the stirrer 31 provided inside the stirring cylinder 30 causes extremely noises and vibrations There is a great disadvantage that it occurs.

In addition, the stirring bar 30 can not accurately maintain and stir the flow rate of the fluorine powder and raw water flowing into the inside thereof, thereby making it impossible to detect the concentration of fluorine contained in the raw water, The structure of the fluorine solution supply device according to the provision of the separate stirrer 31 is complicated.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a fluorine- It is possible to maintain the concentration of the fluoride liquid solution used as the liquid in the mouth constantly at a constant level through the secondary mixing by using a separate stirring device and a driving motor for driving the same. The fluorine flush liquid solution, which is easily swirled in the inside of the stirring tank by centrifugal force, is circulated through the fluorine concentration sensing unit to the supply flow rate selection valve through the drainage channel selection valve provided at the lower side of the stirring tank, And a method of mixing a fluoride brush solution The.

In addition, in the present invention, a plurality of injection nozzles are provided at each of a plurality of circular supply passages provided in the stirring tank in a circumferential direction of the stirring tank at an angle of several angles, and no centrifugal force is required The present invention also provides a fluorine toothpaste solution mixing device capable of preventing noise and vibration generated during stirring of a fluoride solution.

Technical Solution According to an aspect of the present invention, there is provided a fluorine purifying solution mixing method comprising:

The raw water supplied through the raw water supply pipe is supplied to the raw water and fluorine mixed portion through the raw water supply opening / closing valve;

The high purity fluorine supplied through the fluoride quantitative supply unit is supplied to the raw water and the fluorine mixed portion and mixed with the raw water first;

The fluorocarbon solution being primarily mixed in the raw water and the fluorine mixed portion is supplied to the inside of the stirring tank as a supply pump through the supply flow rate selection valve and the supply flow rate sensing portion;

Injecting a fluorine purifying solution in a circumferential direction inside the agitating tank, the injection nozzle having a plurality of layers arranged in a plurality of layers inside the agitating tank and being inclined at a predetermined angle in the circumferential direction of the agitating tank;

The fluorocarbon solution is rotated and agitated by a centrifugal force by injection through the injection nozzles of the respective circumferential supply flow paths, and the fluorocarbon solution is secondarily mixed in a uniform state;

A drainage flow path shutoff valve and a drainage flow path selection valve are provided on the lower side of the stirring tank to determine whether the fluorine purifying solution which is rotationally stirred by the centrifugal force is selectively discharged through the discharge pipe or the fluorine concentration reaches the target value through the pipe, And a step of circulating the fluorine concentration to the supply flow rate selection valve through a fluorine concentration sensing unit for determining whether the fluorine concentration is continuously maintained for a predetermined time, and allowing the fluoride concentration solution to be mixed again in the stirring tank. And by mixing methods.

In addition, the present invention is characterized in that a wastewater discharge pipe is communicated with the drainage passage selector valve provided below the stirring tank to discharge the wastewater from the stirring vessel.

In addition, in the fluorine purifying solution mixing apparatus of the present invention,

A raw water supply pipe to which raw water is supplied is communicated with a raw water and a fluorine mixed portion via a raw water supply opening and closing valve. A high purity fluoride is supplied to one side of the raw water and the fluorine mixed portion, The fluorine fluoride supply portion is communicated and communicated with the raw water and the other side of the fluorine mixed portion through a piping provided with a supply pump so as to supply the primary fluorine fluoride solution to the inside of the stirring tank, A plurality of spray nozzles are provided in the periphery of the stirring tank, and a plurality of spray nozzles are provided in the periphery of the spray nozzle, In the circumferential direction of the stirring tank so as to inject the fluorine solution in the circumferential direction. Wherein the flushing liquid solution injected by the injection nozzles provided at the periphery of each of the circular supply flow channels is rotated and agitated by a centrifugal force and a drainage flow passage shutoff valve and a drainage passage selection valve are provided through a pipe at a lower side of the stirring tank, And a discharge pipe through which the fluorine purifying solution discharged by rotation is stirred is communicated under the drainage passage selection valve through a drainage flow rate sensing unit, and a fluorine concentration solution is supplied to one side of the drainage passage selection valve through a pipe, And a waste water outlet pipe for discharging wastewater in the stirring tank is communicated at the other side of the drainage passage selecting valve in communication with the supply passage selecting valve so as to be mixed again in the stirring tank. .

According to the method and apparatus for mixing a fluoride solution, the fluoride solution and the raw water are mixed with each other in the primary mixing chamber and the secondary chamber of the mixing chamber by the centrifugal rotary stirring of the fluoride solution through the injection nozzle. The concentration of the fluoride solution is always kept constant. In each of the circular supply channels formed in the agitating tank, a plurality of spray nozzles are inclined at a predetermined angle in the circumferential direction of the stirring tank, It is possible to prevent the noise and vibration generated during the stirring of the fluorine liquid solution by the centrifugal force that the fluorine liquid solution is sprayed without any need of the stirrer, It is possible to easily manufacture and install the fluorocarbon solution mixing device And the fluorine flush liquid solution which is rotated and stirred in the inside of the stirring tank by centrifugal force is circulated and supplied to the supply flow rate selection valve through the flue concentration sensing unit through the drainage channel selection valve provided at the lower side of the stirring tank, It can be mixed with stirring at a high concentration.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be understood by those skilled in the art that it is easy to know.

1 is a front cross-sectional view of a fluorine solution supply device provided with a conventional stirrer.
2 is a schematic structural view of a fluorocarbon saline solution mixing apparatus according to the present invention.
3 is a planar view of a circular supply passage provided inside a stirring tank of a fluorocarbon solution solution mixing apparatus and an injection nozzle provided in the periphery thereof.
4 is a flow chart for mixing a fluoride purifying solution according to the present invention.

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

FIG. 2 is a schematic structural view of a fluorocarbon brush solution mixing apparatus according to the present invention. FIG. 3 is a plan view of a circular supply passage provided in a stirring tank of a fluorocarbon solution mixing apparatus and a spray nozzle installed in the circumference thereof. The raw water and the fluorine mixed portion 130 are communicated with the raw water and the fluorine mixed portion 130 via the raw water supply opening and closing valve 120. The raw water and the fluorine mixed portion 130 are connected to each other through a pipe P The fluorine quantitative supply unit 140 is communicated with the fluorine compound supply unit 140 so that the fluorine compound is supplied and primary mixing is performed together with the raw water.

The other end of the raw water and the fluorine mixed portion 130 is communicated with the pipe P provided with the supply pump 150 so that the fluorocarbon solution for primary mixing is supplied to the inside of the stirring tank 180, A supply channel selection valve 160 and a supply flow rate sensing unit 170 are sequentially installed in the pipe P and a circular supply channel 190 is formed in the stirring tank 180 in a plurality of layers, And is communicated with the pipe P, respectively.

A plurality of injection nozzles 200 are arranged at a circumferential direction of the stirring tank 180 at a predetermined angle (for example, The fluorocarbon solution sprayed by the injection nozzle 200 provided at the periphery of each of the circular supply passages 190 is rotated and agitated by a centrifugal force while the lower end of the pipe 180 A drainage flow passage shutoff valve 210 and a drainage passage selection valve 220 are installed through a drainage flow rate sensing part 230 and a drainage flow rate sensing part 230, So that the discharge pipe 240 to be discharged is communicated with the communication pipe.

In addition, a fluorine concentration detecting unit 250 is connected to one side of the drainage passage selecting valve 220 through a pipe P so that the fluorine solution is mixed again into the stirring tank 180 And a waste water discharge pipe 260 for discharging wastewater inside the stirring tank 180 is communicated at the other side of the drainage passage selection valve 220.

The method of mixing the fluorocarbon solution of the present invention having the above-described structure will be described in detail as follows.

2 to 4, the raw water supplied through the raw water supply pipe 110 flows into the raw water and fluorine mixing part 130 through the raw water supply opening / closing valve 120 by a predetermined amount, A fluorine quantitative supply unit 140 is communicated with a pipe P at one side of the raw water and fluorine mixing unit 130 to supply a predetermined amount of high fluorine fluoride to the raw water and fluorine mixing unit 130, To be mixed first.

The fluorocarbon solution to be mixed primarily in the raw water and the fluorine mixed portion 130 is supplied to the stirring tank 180 as the supply pump 150 through the supply flow path selection valve 160 and the supplied flow rate sensing portion 170, A predetermined amount of the fluorine solution is supplied to the inside of the chamber.

In the stirring tank 180, a plurality of layers of circular supply passages 190 are provided. In the periphery of the circular supply passage 190, a plurality of spray nozzles 200 are provided in the stirring tank 180 By a predetermined angle (?) In the circumferential direction of the stirring tank (180) so as to inject the fluorocarbon solution in the circumferential direction inside the circulating flow path (190) by the injection nozzle The injected fluorocarbon solution is agitated in the inside of the stirring tank 180 so that it can be homogeneously and smoothly mixed in the second order by centrifugal force without the need for a separate stirrer.

A drainage flow shutoff valve 210 and a drainage flow selection valve 220 are provided below the agitator 180 so that the fluoride purifying solution rotationally stirred by the centrifugal force selectively flows into the drainage flow rate sensing unit 230, And is circulated and supplied to the supply flow path selection valve 160 through the pipe P through the fluorine concentration sensing unit 250. The flow rate selection valve 160 is connected to the discharge pipe 240 through the discharge pipe 240,

At this time, the fluorine concentration of the gentle solution detected by the fluorine concentration sensing unit 250 is transmitted to the controller, and the controller continuously observes the fluorine concentration. Whether the fluorine concentration of the gentle solution has reached the target value and the fluorine concentration The user is informed of the concentration of fluorine present in the stirring tank 180,

 In addition, the fluorocarbon solution supplied to the supply channel selector valve 160 can be mixed again in the stirring tank 180. At this time, the fluorine concentration sensing unit 250 senses the concentration of the fluorocarbon solution, So that the fluorine of the fixed amount supply unit 140 can be supplied and blocked.

A wastewater discharge pipe 260 is communicated at the other side of the drainage passage selection valve 220 so that wastewater generated by cleaning inside the stirring tank 180 can be smoothly discharged through the drainage passage selection valve 220 So that it can be discharged.

Therefore, the fluorine solution and the raw water are mixed in the primary mixing unit 130 in the fluorine mixing unit 130 and the secondary solution is mixed in the secondary mixing chamber by centrifugal rotation and stirring of the fluorine solution through the injection nozzle 200 The concentration of the fluoride solution is always kept constant.

110 ... Raw water supply pipe 120 ... Supply opening / closing valve
130 ... raw water and fluorine mixing part 140 ... fluorine quantitative supply part
150 ... Feed pump 160 ... Feed flow selector valve
170 ... Feed flow rate sensing unit 180 ... Stirring tank
190 ... Circular feed passage 200 ... Injection nozzle
210 ... Drain line shutoff valve 220 ... Drain line select valve
230 ... drainage flow rate sensing part 240 ... discharge pipe
250 ... fluorine concentration sensing part 260 ... wastewater discharge pipe
P ... piping

Claims (3)

In the method of mixing the fluoride toothpaste solution,
The raw water supplied through the raw water supply pipe is supplied to the raw water and the fluorine mixed portion through the raw water supply opening / closing valve;
The high purity fluoride supplied through the fluoride quantitative supply unit is supplied to the raw water and fluorine mixed portion and mixed with the raw water first;
The fluorocarbon solution being primarily mixed in the raw water and the fluorine mixed portion is supplied to the inside of the stirring tank as a supply pump through the supply flow rate selection valve and the supply flow rate sensing portion;
Injecting a fluorine purifying solution in a circumferential direction inside the agitating tank, the injection nozzle having a plurality of layers arranged in a plurality of layers in the agitating tank and inclined at a predetermined angle in the circumferential direction of the agitating tank;
The fluorocarbon solution is rotated and agitated by a centrifugal force by injection through the injection nozzles of the respective circumferential supply flow paths, and the fluorocarbon solution is secondarily mixed in a uniform state;
A drainage flow path shutoff valve and a drainage flow path selection valve are provided on the lower side of the stirring tank to determine whether the fluorine purifying solution which is rotationally stirred by the centrifugal force is selectively discharged through the discharge pipe or the fluorine concentration reaches the target value through the pipe, And a step of circulating the fluorine concentration to the supply flow rate selection valve through a fluorine concentration sensing unit for determining whether the fluorine concentration is continuously maintained for a predetermined time, and allowing the fluoride concentration solution to be mixed again in the stirring tank. Mixing method.

The method of mixing a fluorine-containing solution according to claim 1, wherein a wastewater discharge pipe is communicated to a drainage passage selector valve provided below the stirring tank to discharge wastewater from the stirring tank.
In the fluoride toothpaste solution mixing apparatus,
A raw water supply pipe to which raw water is supplied is communicated with a raw water and a fluorine mixed portion via a raw water supply opening and closing valve. A high purity fluoride is supplied to one side of the raw water and the fluorine mixed portion, The fluorine fluoride supply portion is communicated and communicated with the raw water and the other side of the fluorine mixed portion through a piping provided with a supply pump so as to supply the primary fluorine fluoride solution to the inside of the stirring tank, A plurality of spray nozzles are provided in the periphery of the stirring tank, and a plurality of spray nozzles are provided in the periphery of the spray nozzle, In the circumferential direction of the stirring tank so as to inject the fluorine solution in the circumferential direction. Wherein the flushing liquid solution injected by the injection nozzles provided at the periphery of each of the circular supply flow channels is rotated and agitated by a centrifugal force and a drainage flow passage shutoff valve and a drainage passage selection valve are provided through a pipe at a lower side of the stirring tank, A discharge pipe through which the fluorine purifying solution which is rotated and stirred through the drainage flow rate sensing unit is communicated is communicated below the drainage passage selection valve. The fluorine concentration reaches to the target value through the pipe at one side of the drainage passage selection valve The fluorine concentration solution is communicated with the supply flow rate selection valve so as to mix again with the inside of the stirring tank through the fluorine concentration sensing section for determining whether the fluorine concentration is continuously maintained for a predetermined time, And a waste water discharge pipe for discharging the wastewater in the stirring tank is communicated Consisting of fluorine tooth care solution mixing apparatus.

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