KR20150102630A - Sterilization Water Generating Device - Google Patents

Abstract

The present invention provides a sterilization water generating device for increasing a production quantity of sterilization water, minimizing electricity consumption, and extending duration time of generated sterilization water. The sterilization water generating device according to an embodiment of the present invention comprises: a pump for supplying water; a bubble nozzle module for generating nano-bubbles in the water provided from the pump; and a hydroxyl group generation module passing through the bubble nozzle module and electrolyzing the water including the nano-bubbles to produce hydroxyl groups in the water including the nano-bubbles and discharge sterilization water including the nano-bubbles and the hydroxyl groups.

Description

[0001] Sterilization Water Generating Device [

The present invention relates to a sterilizing water generating apparatus for generating a sterilizing water in which a hydroxyl group is bonded to a nano bubble.

The sterilized water is artificially treated to have the function of sterilizing the object. When sterilized water is produced by a general method, a sterilizing substance is put into ordinary water, for example, tap water, or water is electrolyzed. This converts the water into sterile water. For example, a sterilizing water generating apparatus that implements an electrolysis method includes a positive electrode and a negative electrode to electrolyze water.

When a voltage is applied to the positive electrode and the negative electrode, the microorganisms contained in the water can be directly oxidized by electrolysis, and the indirect oxidation reaction by various mixed oxidants (MO) The microorganisms contained in water can be sterilized.

The disinfection water generating apparatus according to the electrolysis method is limited in the production amount of the disinfecting water, and when the disinfection water production amount is increased, the power consumption in the positive electrode and the negative electrode is increased and the duration of the generated disinfecting water is limited .

It is an object of the present invention to provide a sterilizing water generating apparatus that increases the production amount of sterilized water, minimizes power consumption, and prolongs the duration of the sterilized water produced.

A sterilizing water generating device according to an embodiment of the present invention includes a pump for supplying water, a bubble nozzle module for generating nano bubbles in water supplied from the pump, and a water containing nano bubbles And a hydroxyl group generating module for generating hydroxyl groups in the water containing the nano bubbles and discharging sterilizing water containing the nano bubbles and the hydroxyl groups.

The pump includes a first pump for supplying water from a water tank through a water supply line and a second pump for supplying air sucked from the first pump and air from the air suction check valve to the bubble nozzle module The sterilizing water generating device according to an embodiment may further include a pressure vessel provided in the water supply line between the second pump and the bubble nozzle module.

Wherein the bubble nozzle module comprises a first housing connected to the second pump side, a second housing connected to the side of the hydroxyl oxide generating module, a third housing coupled between the first housing and the second housing, A first nozzle member provided between the first housing and the third housing and having a mesh structure and a second nozzle member provided between the third housing and the second housing and spaced apart from the first nozzle member, And a second nozzle member.

Wherein the hydroxyl group generating module comprises a first holder connected to the bubble nozzle module side, a second holder coupled to the first holder and connected to the discharge side of the sterilizing water, And a sealing member disposed between the first holder, the first electrode, the second electrode, and the second holder, the first electrode and the second electrode being connected to the power source while the water is distributed.

The sterilizing water generating device according to an embodiment of the present invention includes a water level sensor provided in the water tank for detecting a water level, a water supply solenoid valve provided on an inflow side of the water tank for controlling the inflow of water, A sterilizing water supply solenoid valve provided on a discharge line connected to the discharge side of the discharge line, a pressure sensor provided on the discharge line for detecting the pressure of the sterilizing water, and a sterilizing filter provided on the bypass line connecting the discharge line and the water tank, And a sterilizing water recovery solenoid valve for recovering water to the water tank.

The discharge line may be connected to a water supply of the dental chair to supply sterile water.

As described above, an embodiment of the present invention generates nano bubbles in the bubble nozzle module, generates hydroxide in the water containing nano bubbles in the hydroxyl oxide generating module, and supplies changed sterilization water, thereby increasing the production amount of sterilized water, And the duration of the sterilized water generated can be prolonged.

1 is a configuration diagram of a sterilizing water generator according to an embodiment of the present invention.
Fig. 2 is a block diagram for controlling the sterilizing water generator of Fig. 1. Fig.
3 is an exploded perspective view of the bubble nozzle module used in Fig.
4 is a sectional view taken along the line IV-IV in Fig.
FIG. 5 is an exploded perspective view of the hydroxyl oxide generating module used in FIG. 1; FIG.
6 is a cross-sectional view taken along a line VI-VI in Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

1 is a configuration diagram of a sterilizing water generator according to an embodiment of the present invention. 1, the sterilizing water generating device of one embodiment includes a pump 10 for supplying water, a bubble nozzle module 20 for generating nano bubbles in water supplied from the pump 10, ).

The hydroxyl group generating module 30 electrolyzes the water including the nano bubbles via the bubble nozzle module 20 to generate hydroxyl groups in the water containing the nano bubbles to discharge the sterilizing water containing the nano bubbles and the hydroxyl groups . As described above, sterilizing water combining nanobubbles and hydroxyl groups can maximize the bactericidal effect of microorganisms.

The pump 10 is provided with a first pump 11 for supplying water from the water tank 40 and an air sucked from the water supplied from the first pump 11 and the air suction check valve 51, And a second pump 12 for supplying the generated bubble to the bubble nozzle module 20 to be generated.

The first pump 11 generates a required water pressure and the second pump 12 injects a large amount of foam into the water by using the air supplied from the air suction check valve 51 to the water containing the negative ions . For example, the second pump 12 may be driven by a BLDC motor (Brushless DC electric motor).

A water inflow line L1 and a water supply line L2 are connected to the water tank 40 to supply water to the first pump 11. [ A check valve 82 is provided in the water supply line L2 between the water tank 40 and the first pump 11. The discharge line L3 is connected to the hydroxyl group generating module 30 to discharge the generated sterilizing water.

The discharge line L3 can supply sterilized water to various uses. For convenience, in this embodiment, the discharge line L3 is connected to the water supply unit 72 of the dental chair 71 to supply sterilized water. The water supply part 72 is a part for connecting the tap water to the existing dental chair 71.

Therefore, the discharge line L3 can be simply connected to the water supply part 72. [ That is, the sterilizing water generating apparatus of the present embodiment can be easily mounted without changing the configuration of the dental chair 71.

When the sterilizing water generator is applied to the dental chair 71 as described above, after the dental treatment, the oral cavity is washed with sterilized water containing microbubbles and hydroxyl groups, thereby maximizing the sterilizing effect of the oral cavity of the patient.

The sterilizing water generating apparatus of one embodiment further includes a pressure vessel 52 provided in the water supply line L2 between the second pump 12 and the bubble nozzle module 20. [ The pressure vessel 52 maintains a high pressure generated by the driving of the first and second pumps 11 and 12 to supply water of a uniform pressure to the bubble nozzle module 20. The high-pressure water supplied from the pressure vessel 52 contains air bubbles in a large amount and generates nano bubbles while passing through the bubble nozzle module 20.

Fig. 2 is a block diagram for controlling the sterilizing water generator of Fig. 1. Fig. 1 and 2, a pressure sensor 61, a water level sensor 62, a temperature sensor 63, and a power switch 64 are connected to the input terminal of the controller 60 in the sterilizing water generator of the embodiment .

A sterilizing water supply solenoid valve 66, a sterilizing water recovery solenoid valve 67, and a hydroxylation generating module 65 are connected to an output terminal of the control unit 60. The first pump 11, the second pump 12, the water supply solenoid valve 65, (30) is connected.

The first pump 11, the second pump 12, the water supply solenoid valve 65, the sterilizing water supply solenoid valve 66, the sterilizing water recovery solenoid valve 67, And a control signal of the controller 60. [

The control unit 60 controls the output stage to a different set value regardless of the detection signals of the pressure sensor 61, the water level sensor 62 and the temperature sensor 63 connected to the input stage and the control signal of the power switch 64 And a timer 68 for allowing the user to perform the operation.

The control unit 60 drives or stops the first pump 11 and the second pump 12 according to the set value of the timer 68 and controls the water supply solenoid valve 65, the sterilized water supply solenoid valve 66, The number-of-times solenoid valve 67 can be opened and closed, and the hydroxyl oxide generating module 30 can be turned on and off.

When the dental chair 71 is not used for a long time, sterilized water including nano bubbles and hydroxyl groups can be reduced to water. In order to prevent this, nano bubbles and hydroxyl groups may be additionally generated in sterilized water or water by controlling the configurations in which the control unit 60 is connected to the output terminal in accordance with the set value of the timer 68.

Also, a foot switch 73 provided on the dental chair 71 may be connected to an input terminal of the control unit 60. The control unit 60 includes a first pump 11, a second pump 12, a water supply solenoid valve 65 and a sterilizing water supply solenoid valve 66 The sterilizing water recovery solenoid valve 67, and the hydroxyl oxide generating module 30, as shown in FIG.

First, configurations connected to an input terminal of the control unit 60 will be described. The pressure sensor 61 is installed in the discharge line L3 to detect the pressure of the sterilizing water and the control unit 60 controls the first and second pumps 11 and 12 in accordance with the detection signal, Lt; / RTI >

The pressure sensor 61 senses the pressure change of the discharge line L3 to enable the operation of the sterilizing water generating device even when a small amount of sterilized water is used in the dental chair 71 according to the sensitivity of the pressure sensor 61 .

A pressure gauge 83 is provided in the discharge line L3. Therefore, even if the controller 60 fails, the user can see the pressure gauge 83 and visually confirm the pressure of the discharge line L3. That is, the user can visually check the pressure of the sterilizing water discharged into the discharge line L3 and manually turn on / off the power switch 64. [

The water level sensor 62 is provided in the water tank 40 to detect the water level of the water tank and the control unit 60 controls the amount of water flowing into the water tank 40 according to the detection signal. For example, the water level sensor 62 may be configured as a water level plotter.

The temperature sensor 63 is disposed in the vicinity of the motor of the pump 10 within the sterilizing water generator to detect the temperature around the motor that drives the pump 10, 1, the second pump 11, 12, or the sterilizing water generating apparatus as a whole.

The power switch 64 controls driving of the sterilizing water generating device as a whole, and the controller 60 can start or end the driving of the sterilizing water generating device in accordance with the control signal of the power switch 64.

Next, configurations connected to the output terminal of the control unit 60 will be described. The water supply solenoid valve 65 is provided on the inflow side of the water tank 40 and is controlled in accordance with a detection signal of the water level sensor 62 to intercept the inflow of water supplied from the outside to the water tank 40.

The sterilizing water supply solenoid valve 66 is provided in the discharge line L3 connected to the discharge side of the hydroxyl oxide generating module 30 and interrupts sterilizing water discharged to the discharge line L3. For example, the pressure sensor 61 detects a change in the pressure in the discharge line L3 due to the use or nonuse of sterile water in the dental chair 71, and accordingly, the control unit 60 controls the sterilizing water supply solenoid valve 66).

That is, when the pressure sensor 61 detects a pressure drop in the discharge line L3 due to the use of the sterilizing water in the dental chair 71, the controller 60 opens the sterilizing water supply solenoid valve 66, .

Conversely, when the pressure sensor 61 detects a pressure rise in the discharge line L3 due to the sterilized water not being used in the dental chair 71, the controller 60 closes the sterilizing water supply solenoid valve 66, .

The sterilizing water recovery solenoid valve 67 is provided in the bypass line L4 connecting the discharge line L3 and the water tank 40 and is controlled by the pressure sensor 61 to recover sterilized water into the water tank 40 do. When the sterilizing water recovery solenoid valve 67 is opened, the generated sterilizing water is circulated, so that the sterilizing water can be maintained in the sterilizing water generator without being reduced to water.

The sterilized water is discharged to the discharge line L3 and the remaining sterilized water is recovered to the water tank 40 via the bypass line L4 and the sterilizing water recovery solenoid valve 67. [ Therefore, sterilized water having micro bubbles and hydroxyl groups is recycled by the pump 10 to add nano bubbles and hydroxyl groups in the bubble nozzle module 20 and the hydroxyl oxide generation module 30. [

A safety valve 81 is provided in front of the sterilizing water recovery solenoid valve 67 of the bypass line L4. For example, the safety valve 81 sets the maximum pressure in the sterilizing water generator, and when the maximum pressure is set to 6 kgf / cm ² , the pressure of the discharge line L3 does not exceed the maximum pressure.

FIG. 3 is an exploded perspective view of the bubble nozzle module used in FIG. 1, and FIG. 4 is a sectional view taken along the line IV-IV of FIG. Referring to FIGS. 3 and 4, the bubble nozzle module 20 is formed so as to form nano bubbles while allowing water containing air to pass therethrough at a high pressure.

Nano bubbles become negatively charged, and bacteria and microorganisms become positively charged. Thus, as bacteria and microorganisms are attracted to the nano bubble, the nano bubble may be destroyed by itself or by physical impact. As the nanobubble is destroyed, hydroxyl radicals are generated, and the water containing nanobubbles instantaneously becomes ultra-high temperature. Thus, bacteria and microorganisms can be sterilized.

The bubble nozzle module 20 includes a first housing 21 connected to the pump 10 side, that is, to the side of the second pump 12 and the pressure vessel 52, a second housing 21 connected to the side of the hydroxyl generator module 30, (22), and a third housing (23) coupling both sides between the first housing (21) and the second housing (22).

The bubble nozzle module 20 includes a first nozzle member 24 provided between the first housing 21 and the third housing 23 and having a mesh structure and a second nozzle member 24 having a third housing 23 and a second housing And a second nozzle member 25 provided between the first nozzle member 24 and the second nozzle member 25 and having a nozzle hole 251.

The first housing 21 has an end 211 therein to support one side of the first nozzle member 24 and the third housing 23 is inserted into the first housing 21 to be connected to the first nozzle member 24 And a small-diameter portion 231 for supporting the other side of the base portion 24.

The third housing 23 has a large diameter portion 232 connected to the small diameter portion 231 to support the second nozzle member 25 with the small diameter portion 231. The second housing 22 has a small diameter portion 221 which is inserted into the large diameter portion 232 and supports the other side of the second nozzle member 25.

The first housing 21, the third housing 23 and the second housing 22 are formed by the steps 211, the small diameter portion 231, the large diameter portion 232 and the small diameter portion 221, 2 nozzle members 24 and 25, and can be connected to each other by forming a coupling structure.

FIG. 5 is an exploded perspective view of the hydroxyl oxide generating module used in FIG. 1, and FIG. 6 is a cross-sectional view taken along line VI-VI of FIG. Referring to FIGS. 5 and 6, the hydroxyl group generating module 30 is configured to generate hydroxyl groups in the water containing nano bubbles via the bubble nozzle module 20 with an electric member.

The hydroxyl group generating module 30 finally electrolyzes water to generate a hydroxyl group (OH < ^- & gt ^; ) to finally output sterilizing water containing nano bubbles and hydroxyl groups.

The hydroxyl group generating module 30 includes a first holder 31 connected to the bubble nozzle module 20 side, a second holder 32 connected to the discharge side of the sterilizing water and connected to the first holder 31, A first electrode 33 and a second electrode 34 and sealing members 35 provided between the first and second holders 31 and 32. The second holder 32 is connected to the discharge line L3.

The first electrode 33 and the second electrode 34 are disposed on the inner side of the first holder 31 and the second holder 32 to be connected to a power source while circulating water. For example, the voltage (V) is applied to the first electrode 33 and the second electrode 34 is grounded.

The sealing member 35 is provided between the first holder 31 and the first electrode 33 and is disposed between the first electrode 33 and the second electrode 34. The sealing member 35 is disposed between the second electrode 34 and the first electrode 33, 2 holder (32).

The first and second electrodes 33 and 34 are spaced apart from each other by a sealing member 35 disposed between them and cause electrolysis between them by a voltage V applied thereto. At this time, hydroxide (OH ^- ) is generated in the water containing nano bubbles.

In one example, the first and second electrodes 33 and 34 have a plurality of ribs 332 and 342 extending in one direction and spaced apart in a direction crossing the inside of the circular rims 331 and 341. Water containing nano bubbles may pass through the ribs 332 and 342.

The plurality of sealing members 35 have ribs 352 formed inside the circular rim 351 in directions intersecting with each other. Water containing nano bubbles can pass through the ribs 352 and minimizes disturbance of water flow between the first and second electrodes 33, 34.

The through bolt 36 is inserted from the outside of the first holder 31 and is connected to the first holder 31, the sealing member 35, the second electrode 34, the sealing member 35, the first electrode 33, The sealing member 35 and the second holder 32 and is fastened to the outside of the second holder 32 with the nut 37. [ therefore The hydroxyl group generating module 30 is assembled.

Water containing nano bubbles flows into the first holder 31 and is discharged to the second holder 32 by the electrolytic action of the first electrode 33 and the second electrode 34, do.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And it goes without saying that the invention belongs to the scope of the invention.

10: Pump 11, 12: First and second pumps
20: bubble nozzle module 21: first housing
22: second housing 23: third housing
24: first nozzle member 25: second nozzle member
30: hydroxyl group generating module 31: first holder
32: second holder 33: first electrode
34: second electrode 35: sealing members
36: Through bolt 37: Nut
40: water tank 51: air intake check valve
52: pressure vessel 60:
61: pressure sensor 62: water level sensor
63: temperature sensor 64: power switch
65: Water supply solenoid valve 66: Sterile water supply solenoid valve
67: sterile water recovery solenoid valve 68: timer
71: dental chair 72: water supply part
73: Foot switch 81: Safety valve
82: Non-return check valve 83: Pressure gauge
211: stage 221, 231:
232: large-diameter portion 331, 341, 351: rim
332, 342, 352: ribs 251: nozzle holes
L1: Water inflow line L2: Water supply line
L3: Discharge line

Claims (6)

A pump for supplying water;
A bubble nozzle module for generating nano bubbles in water supplied from the pump; And
A bubble nozzle module for electrolyzing water including the nano bubbles to generate hydroxyl groups in the water containing the nano bubbles and discharging sterilizing water containing the nano bubbles and the hydroxyl groups,
And a sterilizing water generating device.
The method according to claim 1,
The pump includes:
A first pump for supplying water from the water tank through a water supply line, and
A second pump for supplying water from the first pump and air sucked from the air suction check valve to the bubble nozzle module;
/ RTI >
And a pressure vessel provided in the water supply line between the second pump and the bubble nozzle module
Sterilizing water generating device.
3. The method of claim 2,
The bubble nozzle module includes:
A first housing connected to the second pump side,
A second housing connected to the hydroxyl group generating module side,
A third housing coupled between the first housing and the second housing,
A first nozzle member provided between the first housing and the third housing, the first nozzle member having a mesh structure,
A second nozzle member provided between the third housing and the second housing and spaced apart from the first nozzle member,
And a sterilizing water generating device.
The method of claim 3,
The hydroxyl group generating module includes:
A first holder connected to the bubble nozzle module side,
A second holder coupled to the first holder and connected to the discharge side of the sterilizing water,
A first electrode and a second electrode which are disposed on the inner side of the first holder and the second holder and are connected to a power source while circulating water,
A sealing member provided between the first holder, the first electrode, the second electrode, and the second holder,
And a sterilizing water generating device.
3. The method of claim 2,
A water level sensor provided in the water tank for detecting the water level,
A water supply solenoid valve provided on an inflow side of the water tank and controlled by the water level sensor to control the inflow of water,
A sterilizing water supply solenoid valve provided in a discharge line connected to the discharge side of the hydroxyl oxide generating module,
A pressure sensor installed in the discharge line for detecting the pressure of sterilized water,
A sterilizing water recovery solenoid valve provided in a bypass line connecting the discharge line and the water tub and controlled by the pressure sensor to recover sterilized water into the water tub;
And a sterilizing water generating device.
6. The method of claim 5,
The discharge line
A sterilization water generator connected to a water supply part of a dental chair to supply sterilized water.

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