KR102013890B1 - Sterilized Water Generating Apparatus, and Dental Unit Water Providing Device Equipped with Sterilized Water Generating Apparatus - Google Patents

Abstract

Disclosed is a sterilizing water producing apparatus and dental hygiene water supplying equipment having the same. The present invention, the raw water inlet in which raw water is introduced from the outside, a plurality of cylindrical electrode plate is installed inside, the sterilizing water generating unit for generating the sterilization water by electrolyzing the raw water introduced through the raw water inlet, the inside of the cylindrical electrode plate And a sterilizing water supply unit for discharging the sterilizing water generated by the sterilizing water generating unit, and a sterilizing water producing apparatus having a lower portion of the sterilizing water supply unit and a water passage connecting the upper portion of the raw water inlet port, and And a fluid mixing device for mixing the supplied sterilized water with at least one fluid. According to the present invention, it becomes possible to supply sterilizing water and dental hygiene water in a better sterilization state.

Description

Sterilized Water Generating Apparatus, and Dental Unit Water Providing Device Equipped with Sterilized Water Generating Apparatus

The present invention relates to a sterilizing water production apparatus and a dental hygiene water supply equipment having the same, and more particularly, to a sterilizing water production apparatus capable of supplying sterilizing water and dental hygiene water in a better sterilization state and a dental hygiene water having the same Relates to supply equipment.

According to a recent report, a check on the condition of medical water used in dentistry revealed that a large number of general bacteria were detected in a large number of dentists, and that bacteria of about 100 times of tap water were detected.

Specifically, the dental hygiene water supply equipment according to the prior art is to explode the bacteria by removing the chlorine in the tap water in the water purification process, endocrine is continuously secreted from the supply line of the sanitary water, as well as explosive bacteria The bacterial coatings formed by the proliferation have a problem of blocking the supply line of the sanitary water, causing a lot of inconvenience for normal dental care.

Accordingly, it is an object of the present invention to provide a sterilizing water production apparatus capable of supplying sterilizing water and dental hygiene water in a better sterilization state and a dental hygiene water supply equipment having the same.

Sterilizing water production apparatus according to the present invention for achieving the above object, the raw water inlet 210 for entering the raw water from the outside; A sterilizing water generation unit 220 having a plurality of cylindrical electrode plates installed therein and generating sterilizing water by electrolyzing raw water introduced through the raw water inlet 210; A sterilizing water supply unit 230 provided inside the tubular electrode plate and discharging the sterilizing water generated by the sterilizing water generator 220; And a water passage 245 connecting a lower portion of the sterilizing water supply unit 230 and an upper portion of the raw water inlet 210.

Preferably, at least a part of the sterilizing water transferred from the sterilizing water generating unit 220 to the sterilizing water supplying unit 230 is introduced into the raw water inlet 210 through the water passage 245. .

On the other hand, the dental hygiene water supply equipment according to the present invention, the raw water inlet 210 through which raw water is introduced from the outside, a plurality of cylindrical electrode plate is installed therein, by electrolyzing the raw water introduced through the raw water inlet 210 Sterilization water generating unit 220 for generating sterilizing water, a sterilizing water supply unit 230 provided in the inside of the cylindrical electrode plate, discharging the sterilizing water generated in the sterilizing water generating unit 220, and the sterilizing water Sterilizing water production apparatus including a water supply port 245 connecting the lower portion of the supply unit 230 and the upper portion of the raw water inlet 210; And a fluid mixing device for mixing the sterilizing water supplied from the sterilizing water production device with at least one fluid.

According to the present invention, there is provided a sterilizing water production apparatus capable of supplying sterilizing water and dental hygiene water in a better sterilization state and a dental hygiene water supply equipment having the same.

1 is a view showing the structure of the apparatus for producing sterilized water and dental hygiene water supply equipment having the same according to an embodiment of the present invention, and
2 is a view showing the structure of the fluid mixing module in FIG.

Hereinafter, with reference to the drawings will be described the present invention in more detail. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a view showing the structure of the sterilizing water production apparatus 200 and the dental hygiene water supply equipment having the same according to an embodiment of the present invention. Referring to FIG. 1, another embodiment of the dental hygiene water supply equipment includes a sterilizing water production device 200 and a fluid mixing device 100.

First, the sterilizing water production apparatus 200 includes a raw water inlet 210, a sterilizing water generator 220, a sterilizing water supply 230, a lower housing 240, and an upper housing 250.

Raw water is introduced into the raw water inlet 210 from outside, and the sterilizing water generator 220 generates sterilized water through electrolysis using raw water introduced into the raw water inlet 210.

Specifically, the plurality of cylindrical electrode plates 221, 222, 223 are installed in the sterilizing water generator 220, and upper ends of the plurality of cylindrical electrode plates 221, 222, 223 are installed in a coupling groove provided in the upper housing 250. Lower ends of the two cylindrical electrode plates 221, 222, and 223 are installed in a coupling groove provided in the lower housing 240.

In detail, the plurality of cylindrical electrode plates 221, 222, and 223 may include a first cylindrical electrode plate 221, a second cylindrical electrode plate 222, and a third cylindrical electrode plate 223. They are arranged in concentric circles with a distance between them.

In other words, the first cylindrical electrode plate 221 is installed, the second cylindrical electrode plate 222 is installed inside the first cylindrical electrode plate 221, and the second cylindrical electrode plate 222 is formed inside the second cylindrical electrode plate 222. 3 Install the cylindrical electrode plate 223.

The first cylindrical electrode plate 221 and the third cylindrical electrode plate 223 form a positive electrode or a negative electrode by applying a positive electrode and a negative electrode or a negative electrode and a positive electrode, and receive power from the outside. The electrode terminal of the positive electrode or the negative electrode contacts the upper end portions of the first cylindrical electrode plate 221 and the second cylindrical electrode plate 222 to penetrate the upper housing 250 in the upper direction and be exposed to the outside. .

When at least three electrodes are used, two electrodes, a positive electrode and a negative electrode, are applied to the first cylindrical electrode plate 221 and the third cylindrical electrode plate 222 and the second cylindrical electrode plate ( No current is applied to 222.

Specifically, when a current is applied to the first cylindrical electrode plate 221 and the third cylindrical electrode plate 222, an induction current is formed in the adjacent second cylindrical electrode plate 222 to serve as an electrode without a separate current supply. Because you can do it.

In the present invention, a diaphragm electrolysis method that generates various radicals by a chemical reaction occurring during electrolysis using an electrolyte in tap water without using a diaphragm can be used.

The cylindrical electrode plates 221, 222, 223 in the present invention are composed of three, but may be composed of at least two or more in order to maximize the length of the flow path through which water flows.

The sterilizing water generated by the sterilizing water generating unit 220 as described above is supplied to the sterilizing water supply unit 230 which is a cylindrical space inside the sterilizing water generating unit 220, and the sterilizing water supply unit 230 is provided at an upper portion thereof. It is supplied to the fluid mixing device 100 through the outlet 235.

On the other hand, the raw water introduced into the raw water inlet 210 due to the gas such as oxygen generated during the generation of sterilizing water increases its volume, thereby causing a bottleneck in discharging the sterilizing water to the outside through the outlet. .

The bottleneck around the water extraction unit 235 generally forms a vortex in the sterilizing water supply unit 230, and the vortex in the sterilizing water supply unit 230 inhibits the smooth discharge of the sterilizing water.

Thus, in the present invention, in order to solve the problems caused by the generation of the vortex as described above, the water outlet 245 is formed in the lower housing 240, the water outlet 245 as shown in Figure 1 is a sterilizing water supply ( 230 and performs a function of connecting the lower portion and the upper portion of the raw water inlet 210.

Accordingly, the sterilizing water that is not discharged from the sterilizing water supply unit 230 through the water extraction unit 235 moves to the lower portion of the sterilizing water supply unit 230, and is re-transmitted to the raw water inlet 210 through the water passage 245. It will flow in.

Specifically, oxygen and hydrogen are generated through the electrolysis process in the sterilizing water generator 220, and bubbles are concentrated in the upper part of the sterilizing water supply unit 230 due to the gas generated as described above.

On the other hand, the sterilized water that cannot be discharged through the water outlet 235 due to a bottleneck around the water outlet 235 is caused by the pressure due to the volume expansion caused by bubbles formed on the upper portion of the water sterilization water supply 230. It moves to the lower portion of the sterilizing water supply unit 230, and is re-introduced into the raw water inlet 210 through the water passage 245.

As such, the sterilized water re-introduced into the raw water inlet 210 is mixed with the raw water introduced from the outside and the raw water inlet 210 and then subjected to the sterilization process in the sterilized water generator 220 again.

Thus, according to the present invention, it is possible to minimize the generation of the vortex of the sterilizing water in the sterilizing water supply unit 230, it is possible to smoothly supply the sterilizing water to the fluid mixing device 100.

In addition, according to the present invention by allowing the raw water introduced into the raw water inlet 210 to be mixed with the sterilized water introduced through the water inlet 245, pre-sterilization treatment for the raw water is possible, the raw water inlet 210 Further sterilization treatment in the sterilization water generator 220 with respect to the sterilized water re-introduced can be further improved to improve the sterilization treatment state of the sterilization water supplied to the fluid mixing device 100.

On the other hand, in the practice of the present invention, the water inlet 245 is a valve for flowing the fluid in only one direction, it is preferable to implement as a check valve (check valve, non-return valve) that prevents the flow in the reverse direction something to do.

Accordingly, raw water introduced from the outside into the raw water inlet 210 may not flow through the water inlet 245 and may be introduced into the sterilizing water generator 220, and the water outlet 235 from the sterilizing water supply unit 230. Sterilized water that has not been discharged through) moves to the lower portion of the sterilized water supply unit 230 and is re-introduced into the raw water inlet 210 through the water outlet 245.

In addition, the sterilized water re-introduced into the raw water inlet 210 through the water inlet 245 is mixed with the raw water in the raw water inlet 210 and then passes through the water outlet 245 without the sterilized water generator 220. Will be reintroduced to

In addition, in the practice of the present invention, it would be desirable to be able to adjust the size of the water through hole provided in the check valve to form the water outlet 245, accordingly the manager is a bottleneck around the water outlet 235 By adjusting the size of the water supply hole provided in the check valve to be proportional to the amount of the sterilization water that can not be discharged through the water outlet 235, the re-inflow process of the sterilization water through the water outlet 245 is more smooth and efficient It would be desirable to allow this to be done.

In addition, in carrying out the present invention, a flow rate measuring sensor is provided in the water discharge part 235, and a control device (not shown) is inversely proportional to the flow rate measurement value based on the flow rate measurement value received from the flow rate measuring sensor. The control signal may be sent to the check valve so that is adjusted.

That is, the control device generates a control signal based on the flow rate measurement value in the water extraction unit 235 as described above, thereby inversely proportional to the flow rate of the sterilizing water discharged through the water extraction unit 235 (that is, the water extraction unit 235). It can be adjusted to the size of the water supply hole provided in the check valve to be proportional to the amount of sterilized water that can not be discharged through).

On the other hand, the fluid mixing device 100 in Figure 1 is configured by the plurality of fluid mixing modules (100a, 100b, 100c) are installed in a continuous combination, as shown in Figure 2 each fluid mixing module (100a, 100b, 100c) ) Includes a first inlet 110, a second inlet 120, a mixing port 130, and an outlet 140.

The sterilizing water supplied from the sterilizing water production apparatus 200 flows into the first inlet 110, and the sterilizing water introduced into the fluid mixing module 100a, 100b, 100c through the first inlet 110 may be formed. 2 is mixed with a specific gas such as carbon dioxide gas or nitrogen gas introduced from the inlet 120 at the mixing port 130.

On the other hand, the liquid mixed with the gas in the mixing port 130 is supplied to the discharge pipe (not shown) connected to the discharge port 140 through the discharge port 140, the gas mixture discharged to the outside through the discharge port 140 in this way The pulsation causes the liquid to be discharged in a more homogeneous and better mixed form than the usual mixture.

In the state in which a liquid such as water is supplied to the mixing port 130 having the same shape and specification as that of FIG. 2 through the first inlet port 110, the second inlet port 120 is perpendicular to the moving path of the liquid. In the case of forcibly injecting gas, such as carbon dioxide gas, through the outlet 140 of the mixing section 100, the mixture is accompanied by a pulsation (SURGING), experimentally the fact that the mixing efficiency is higher than the conventional mixture It was confirmed.

In addition, in the practice of the present invention, in order to increase the effect of mixing, the gas supplied to the mixing port 130 through the second inlet 120 and mixed with the liquid is a gas such as gas bubbled to a very fine size It would be desirable.

Specifically, the gas such as carbon dioxide gas supplied through the second inlet 120 is separated into fine particles having a micro size while passing through the sintered body, and the gas separated into the fine particles is a liquid introduced through the first inlet 110. By mixing with the mixing port 130, the mixed water discharged through the discharge port 140 may contain micro bubbles by carbon dioxide gas or the like.

According to the experiments in the process of the present invention, when the mixed water is discharged with a pulsation phenomenon, it was confirmed that the mixing efficiency is higher than when the mixed water does not have a pulsation phenomenon.

On the other hand, in order to induce the rotation of the gas from the gas distribution unit (not shown), the second inlet 120 may be formed in a rotation guide pipe structure or may further include a rotation guide member.

In the pulsation phenomenon, the rotating and supplied gas serves to further shorten the pulsation period of the mixed water.

In addition, when the mixed water is discharged in the same direction as the rotation direction of the gas, it is possible to further shorten the pulsation period. In addition, the second inlet 120 may be formed of one or more through structures to provide an effect of increasing the inflow of the gas and the rotation of the gas.

In addition, the pulse period generated by the pulsation phenomenon may be determined according to the shape of the gas inlet pipe of the second inlet 120. In particular, pulses may be generated at short intervals as the angle of the gas introduced corresponding to the shape of the gas inlet pipe increases.

Furthermore, the present invention further proposes a method of selectively mixing a plurality of fluids and solids with water, from mixing one gas and water.

In addition, the dentist using the dental hygiene water supply equipment according to the present invention through the second inlet (120a, 120b, 120c) in Figure 1 according to the treatment purpose, such as various gases such as oxygen, and various therapeutic drugs The liquid can be selectively injected.

That is, in the present invention, as shown in FIG. 1, the fluid mixing modules 100a, 100b, and 100c of FIG. 2 may be continuously connected, and different materials may be introduced into each of the fluid mixing modules 100a, 100b, and 100c. It would be desirable.

That is, as shown in FIG. 1, the outlet 140a of the first mixing module 100a and the first inlet 110b of the second mixing module 100b are screwed together, and the outlet 140b of the second mixing module 100b is screwed together. ) And the first inlet 110c of the third mixing module 100c are screwed together to manufacture the fluid mixing device in FIG. 1.

Meanwhile, as described above, the material introduced into the first inlet 120a of the first mixing module 100a, the material introduced into the second inlet 120b of the second mixing module 100b, and the third mixing module The material introduced into the second inlet 120c of the 100c may be variously selected by the user.

Therefore, in the present invention, by using the above-mentioned pulsation phenomenon, the mixing efficiency of the washing water and a specific substance (gas, liquid, or solid) can be very high, and various therapeutic substances can be mixed according to the dentist's choice. Effect is provided.

Furthermore, the dentist may stop the supply of some of the plurality of substances and only control the supply of certain substances, and by adjusting the dosage of the plurality of substances, the dentist may produce the optimum mixture for the treatment of the individual patient. There will be.

Therefore, although not shown, the present invention may further include a control unit that can control at least one of whether or not to supply each of the substances supplied to the plurality of fluid mixing modules 100a, 100b, and 100c.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

While the above has been shown and described with respect to preferred embodiments and applications of the present invention, the present invention is not limited to the specific embodiments and applications described above, the invention without departing from the gist of the invention claimed in the claims Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

100: fluid mixing device, 110: first inlet,
120: second inlet, 130: mixing sphere,
140: outlet, 210: raw water inlet,
220: sterile water generation unit, 230: sterile water supply unit,
240: lower housing, 245: water outlet,
250: upper housing.

Claims (3)

Raw water inlet 210 through which raw water is introduced from the outside;
A sterilizing water generation unit 220 having a plurality of cylindrical electrode plates installed therein and generating sterilizing water by electrolyzing raw water introduced through the raw water inlet 210;
A sterilizing water supply unit 230 provided inside the tubular electrode plate and discharging the sterilizing water generated by the sterilizing water generator 220;
A water passage 245 connecting a lower portion of the sterilizing water supply unit 230 and an upper portion of the raw water inlet 210;
A flow rate sensor provided at an upper portion of the sterilizing water supply unit 230 and installed in the water extracting unit 235 through which sterilizing water is discharged; And
A control device for transmitting a control signal to the check valve so that the size of the water through hole provided in the check valve forming the water outlet 245 is adjusted based on the flow rate measurement value received from the flow rate measuring sensor.
Including;
The control device discharges through the water extraction unit 235 by transmitting a control signal to the check valve to adjust the size of the water passage hole in inverse proportion to the flow rate measurement value of the sterilizing water discharged through the water extraction unit 235. Sterilizing water production apparatus that the size of the water through hole is adjusted in proportion to the amount of sterilizing water that can not be.
The method of claim 1,
At least a portion of the sterilized water transferred from the sterilized water generator 220 to the sterilized water supply unit 230 is a sterilized water production apparatus that is introduced into the raw water inlet 210 through the water outlet (245).
Raw water inlet 210 through which raw water is introduced from the outside, and a plurality of cylindrical electrode plates are installed therein, and the sterilizing water generator 220 which generates sterilized water by electrolyzing raw water introduced through the raw water inlet 210, It is provided inside the cylindrical electrode plate, the sterilizing water supply unit 230 for discharging the sterilized water generated in the sterilizing water generating unit 220, and the lower portion of the sterilizing water supply unit 230, and the raw water inlet 210 Sterilizing water production apparatus including a water passage 245 connecting the upper portion of the; And
Fluid mixing device for mixing the sterilizing water supplied from the sterilizing water production device with at least one fluid
Including;
The sterilizing water production apparatus,
A flow rate sensor provided at an upper portion of the sterilizing water supply unit 230 and installed in the water extraction unit 235 through which the sterilizing water is discharged; And
A control device for transmitting a control signal to the check valve so that the size of the water through hole provided in the check valve forming the water outlet 245 is adjusted based on the flow rate measurement value received from the flow rate measuring sensor.
More,
The control device discharges through the water extraction unit 235 by transmitting a control signal to the check valve to adjust the size of the water passage hole in inverse proportion to the flow rate measurement value of the sterilizing water discharged through the water extraction unit 235. Dental hygiene water supply equipment in which the size of the water through hole is adjusted in proportion to the amount of sterilizing water that can not be.

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