KR101896201B1 - Sink with sterilizing and rinsing water generating system - Google Patents

Abstract

The present invention relates to a sink having a sterilizing and washing water generating system attached thereto, comprising: an inflow portion into which raw water flows from outside; A sterilizing washing water generating device for electrolyzing the raw water introduced from the inflow section to generate sterilizing washing water; A supply part supplying sterilizing washing water generated by the sterilizing water cleaning device or the general water supplied from the inflow part; Operation means for opening said supply portion to acquire said sterilizing wash water or general water; And input means for inputting a first input signal for initiating operation of the sterilizing wash water generating apparatus; And the like.
According to the present invention, the sterilizing and washing water generating system is integrally installed in the lower part of the sink so that the user can easily receive general water and sterilizing washing water according to need by simple operation.

Description

{SINK WITH STERILIZING AND RINSING WATER GENERATING SYSTEM}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sink equipped with a sterilizing and washing water generating system, and more particularly, to a sink for providing a sterilizing and washing water generating system integrally provided in a lower portion of a sink.

Separate proprietary synthetic detergents are used to clean dishes, fruits and vegetables in homes and restaurants, but this is one of the biggest causes of secondary water pollution. In recent years, insecticides and herbicide components are detected in a considerable number of vegetables that are routinely consumed at home, and food poisoning due to contaminated vegetables such as pathogenic Escherichia coli, salmonella, and enteritis Vibrio is a problem, An appropriate level of sterilization cleaning is required.

Accordingly, there is a growing interest in a method and apparatus for producing sterilizing washing water for sterilization and disinfection of kitchens. Such sterilization washing water can be used not only in kitchens but also in sterilization cleaning of bedding, furniture, various electronic products, toys, laundry, and bathrooms at home, and furthermore, sterilization cleaning of various medical instruments is very useful.

Generally, the generation of the sterilized water can be performed using a chemical sterilizing agent typified by chlorine system, ozone, ultraviolet ray, ultrasonic wave, plasma, electrolysis, or the like. In the case of a sterilizing and cleaning apparatus for generating hypochlorous acid using conventional electrolysis, sodium hypochlorite (NaOCl), salt (NaCl), or the like must be additionally added, resulting in a complicated structure of the apparatus. Although chlorine disinfected water is supplied to prevent microbial propagation when water is supplied from a water purification plant, since the concentration of residual chlorine in the supply process of water is very low and the residual chlorine concentration is as low as about 0.2 to 0.7 ppm, This is because a separate facility or device for re-introducing chlorine is required. In addition, in the case of an apparatus for generating sterilizing washing water in the related art, there is a problem that it is inconvenient to use in a home or a workplace since a separate apparatus is purchased and sterilizing washing water is used whenever necessary.

An object of the present invention is to provide a sink capable of supplying sterilizing wash water according to the user's need without having to purchase a separate mechanical device.

Another object of the present invention is to provide a sterilizing wash water generating system capable of ensuring safety and minimizing the maintenance cost.

The problems to be solved by the present application are not limited to the above-described problems, and the matters not mentioned in the present specification can be clearly understood by those skilled in the art from the present specification and the accompanying drawings .

According to an aspect of the present application, there is provided an inflow unit, A sterilizing washing water generating device for electrolyzing the raw water introduced from the inflow section to generate sterilizing washing water; A supply part supplying sterilizing washing water generated by the sterilizing water cleaning device or the general water supplied from the inflow part; Operation means for opening said supply portion to acquire said sterilizing wash water or general water; And input means for inputting a first input signal for initiating operation of the sterilizing wash water generating apparatus; A sink may be provided.

The input means may be installed on the top plate of the sink, and the input means may be a waterproof type push button.

The supply unit is opened by the operating unit, and sterilizing wash water can be supplied through the supply unit when the first input signal is input through the input unit. When the second input signal is inputted from the input means during the supply of the sterilizing washing water, the power to the sterilizing water generating apparatus may be cut off. In addition, when the second input signal is received, general water can be supplied through the supply unit, and when the supply unit is closed by the operation unit, power to the sterilizing water generator can be shut off within a predetermined time.

The supply part may be formed as a single flow path.

The sterilizing water producing apparatus comprises an electrolytic bath for electrolyzing raw water to produce hypochlorous acid; A control unit for controlling the operation of the electrolytic bath; And a sensor for detecting the flow of the raw water flowing into the inflow portion. The sensor may further have a function of detecting the chlorine concentration remaining in the raw water. In addition, the controller may control the amount of current applied to the electrolytic bath according to the residual chlorine concentration detected by the sensor.

The sterilizing washing water producing apparatus may further include an automatic air vent for automatically discharging gas generated in the electrolytic bath.

The sterilizing water washing apparatus may further include a temperature sensor for preventing overheating of the electrolytic bath.

The solution of the problem of the present application is not limited to the above-mentioned solutions, and the solutions which are not mentioned are to be clearly understood by those skilled in the art to which the present invention belongs It will be possible.

According to the present invention, the sterilizing and washing water generating system is integrally installed in the lower part of the sink so that the user can easily receive general water and sterilizing washing water according to need by simple operation.

In addition, according to the present application, it is possible to provide a sink equipped with a sterilizing washing water generating system that secures safety and minimizes the maintenance cost.

The effects of the present application are not limited to the effects described above, and effects not mentioned can be clearly understood by those skilled in the art from the present specification and the accompanying drawings.

1 is a perspective view of a sink equipped with a sterilizing water cleaning system according to an embodiment of the present invention.
Fig. 2 is a block diagram showing a schematic configuration of the sink shown in Fig. 1. Fig.
3 is a front view of a sink equipped with a sterilizing washing water generating system according to an embodiment of the present invention.
4 is a plan view of a sink equipped with a sterilizing water cleaning system according to an embodiment of the present invention.
5 and 6 are flowcharts for explaining a process of supplying sterilizing washing water or general water to a sink equipped with the sterilizing washing water generating apparatus 200 according to an embodiment of the present invention.
7 is a block diagram showing a schematic configuration of a sterilizing washing water producing system according to an embodiment of the present invention.
8 to 10 are views showing the configuration of an electrode according to an embodiment of the present invention.
11 is a view showing an electrolytic bath with an automatic air vent according to another embodiment of the present invention.
12 is a view showing an electrolytic bath with a temperature sensor according to another embodiment of the present invention.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to be illustrative of the present invention and not to limit the scope of the invention. Should be interpreted to include modifications or variations that do not depart from the spirit of the invention.

Although the terms used in the present invention have been selected in consideration of the functions of the present invention, they are generally used in general terms. However, the present invention is not limited to the intention of the person skilled in the art to which the present invention belongs . However, if a specific term is defined as an arbitrary meaning, the meaning of the term will be described separately. Accordingly, the terms used herein should be interpreted based on the actual meaning of the term rather than on the name of the term, and on the content throughout the description.

The drawings attached hereto are intended to illustrate the present invention easily, and the shapes shown in the drawings may be exaggerated and displayed as necessary in order to facilitate understanding of the present invention, and thus the present invention is not limited to the drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of known configurations or functions related to the present invention will be omitted when it is determined that the gist of the present invention may be obscured.

Hypochlorous acid is a typical disinfectant and is the only disinfectant recognized as a food additive at home and abroad. In particular, in the case of a sterilizing washing water producing apparatus for producing hypochlorous acid using chlorine ion (Cl < - >) remaining in raw water, sterilizing washing water can be easily produced by a general electrolysis method of water.

Scheme 1:

Cathode: 2H ₂ O? 2H ₂ + 4OH-

Positive electrode: 2H ₂ O → O ₂ + 4H +, Cl ₂ + H ₂ 0 → HOCL + HCL

As a result of electrolysis of water as shown in Reaction Scheme 1, hydrogen gas is generated at the cathode. At the anode, simultaneously with the generation of the oxygen gas, the chlorine ion (2Cl-) in the water reacts with water to generate hypochlorous acid (HOCl). That is, it is possible to maintain the sterilizing power persistence by electrolyzing H ₂ O to produce hypochlorous acid (HCOL). In the present specification, general water may be water supplied from a water purification plant or the like, and the concentration of chlorine ions is at least 0.7 ppm.

The sterilizing and washing water producing system of the present invention is a sterilizing and washing water producing system which is integrally provided in the lower part of a sink for washing vegetables, fruits, dishes or the like at home or business or for washing various medical instruments and the like in hospitals, In order to facilitate the use of the sterilizing wash water. Hereinafter, a sink equipped with a sterilizing water cleaning system according to an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a perspective view of a sink equipped with a sterilizing and washing water generating system according to an embodiment of the present invention, and FIG. 2 is a block diagram showing a schematic configuration of a sink shown in FIG. 3 is a front view of a sink equipped with a sterilizing and washing water generating system according to an embodiment of the present invention, and FIG. 4 is a plan view of the sink shown in FIG.

2 and 3, a sink 1 equipped with a sterilizing and washing water producing system according to an embodiment of the present invention includes an inflow unit 100, a sterilizing and washing water producing apparatus 200, a supplying unit 300, An input unit 400, an input unit 500, and the like.

The inflow section 100 is a passage through which raw water flows from the outside, and can be connected to a pipe through which raw water flows. The raw water is water used for process water, water, water reservoir, Guam water pipe, bottled tap water, village water supply, small water supply facility, ground water, spring water, drinking water, swimming pool and ballast water. Generally, raw water introduced from the outside may be supplied to the hot water valve 20 and the cold water valve 30, and the sterilizing water producing system according to an embodiment of the present invention may be connected to the cold water valve 30.

The sterilizing and washing water producing apparatus 200 is an apparatus for electrolyzing raw water introduced from the outside through the inlet 100 to generate sterilizing washing water. Here, the sterilizing wash water may be water containing sterilizing and / or cleaning ions or salts such as hypochlorous acid. At this time, hypochlorous acid can be generated using the chlorine ion (Cl < - >) remaining in the raw water, and the general electrolysis method described above can be applied.

The sterilization and washing water producing apparatus 200 may include an electrolytic bath 210, a controller 220, a rectifier 230, a sensor 240, and the like. The electrolytic bath 210 is an apparatus for electrolyzing raw water to produce hypochlorous acid. The controller 220 controls the overall operation of the sterilization water generator 200. The rectifier 230 is configured to supply power to the sterilizing water generator 200. The sensor 240 may be configured to detect the flow of raw water flowing into the inflow section 100 and may further include a function of detecting the chlorine concentration remaining in the raw water. The detailed configuration of the sterilizing water washing apparatus 200 will be described later in detail.

The supply unit 300 is a unit for supplying the sterilizing wash water generated by the sterilizing water cleaning apparatus 200 or the general water supplied from the inflow unit 100 as it is. The supplying unit 300 may be connected to one side of the sterilizing and washing water producing apparatus 200 and connected to the faucet installed on the upper part of the sink 1 to supply water. In addition, the supply part 300 may provide sterilizing washing water or general water. At this time, it is not necessary to separately provide a valve means for switching the supply path of the water to selectively provide sterilizing washing water or ordinary water. In other words, the supply part 300 can be formed as a single flow path, and it is possible to provide a small-sized sterilizing water cleaning system with a safe and low manufacturing cost by allowing sterilizing water or general water to be supplied through one flow path .

The operating means 400 may be configured to open the supplying portion 300 to acquire the sterilizing washing water or the general water. As shown in Figs. 3 and 4, for example, the operating means 400 may be in the form of a handle for starting supply of water from the faucet of the sink 1, adjusting the supply amount, and stopping the supply . The user can adjust the supply of water as needed by operating the operating means (400). For example, when the user operates the operating means 400 to use water, the supplying portion 300 may be opened.

The input unit 500 may be configured to start the operation of the sterilizing water washing apparatus 200. [

3 and 4, the input means 500 may be installed on the top plate of the sink 1 and may be provided in the form of at least one button. The input means 500 may be provided in various forms for the convenience of the user, and may be provided in the form of a push button, for example. Hereinafter, for convenience of explanation, it is assumed that the input means 500 is provided in the form of a push button. In addition, the input means 500 may be waterproof. In the case of the sink (1), since it can always be exposed to a large amount of moisture in use, the waterproof function of a certain level or more is required for the durability of the product.

Also, the input unit 500 may be connected to the controller 220 of the sterilizing washing water generator 200.

Hereinafter, an example of a control method of the sterilizing washing water producing apparatus 200 according to an embodiment of the present invention will be described with reference to FIG. 5 is a flowchart illustrating a process of supplying sterilizing washing water or general water to a sink equipped with the sterilizing washing water producing apparatus 200 according to an embodiment of the present invention.

5, the control unit 220 of the apparatus 200 for generating a sterilizing water according to an exemplary embodiment of the present invention can determine whether a first input signal has been received (S2) The operation of the sterilizing water washing apparatus 200 can be started (S3). The sterilizing washing water generated from the sterilizing water washing apparatus 200 may be supplied through the supplying unit 300 (S4). The control unit 220 may determine whether a second input signal is received during the supply of the sterilizing wash water (S5). If it is determined that the second input signal is received, (S6). ≪ / RTI > Alternatively, if the second input signal is not received, the sterilizing wash water can be continuously supplied through the supply unit 300. If the second input signal is received and the operation of the sterilizing water washing apparatus 200 is stopped, the normal water can be supplied through the supplying unit 300 (S7). Each step will be described in detail below.

The controller 220 may determine whether a first input signal has been received (S2). For example, when the user presses the push button 500 for sterilizing wash water, a first input signal for initiating operation of the sterilizing wash water generator 200 may be received via the controller 220 .

If the first input signal is input through the input unit 500, the control unit 220 may control the sterilizing water cleaning apparatus 200 to start operation (S3). Accordingly, the sterilizing wash water generated from the sterilizing water cleaning apparatus 200 may be supplied through the supply unit 300 (S4).

In addition, the control unit 220 may determine whether a second input signal is received during the supply of the sterilizing wash water (S5). For example, when the push button 500 is pressed again to stop the use of the sterilizing wash water during the supply of the sterilizing wash water, a second input signal for stopping the operation of the sterilizing wash water generating device 200 And may be received via the control unit 220. [ If the second input signal is input through the input unit 500, the control unit 220 may control the sterilizing water washing apparatus 200 to stop operating (S6). Accordingly, the chlorine concentration is reduced to 0.7 ppm or less within a few seconds, so that regular water other than the sterilizing wash water can be supplied (S7).

Hereinafter, an example of a control method of the sterilizing washing water producing apparatus 200 according to another embodiment of the present invention will be described with reference to FIG. FIG. 6 is a flowchart for explaining a control method of the sterilizing and washing water producing apparatus 200 in a sink according to another embodiment of the present invention.

6, the control unit 220 of the apparatus 200 for generating a sterilizing water according to an exemplary embodiment of the present invention can determine whether a first input signal is received (S20) If it is determined that the signal has been received, the operation of the sterilizing water washing apparatus 200 may be started (S30). The sterilizing washing water generated from the sterilizing water washing apparatus 200 may be supplied through the supplying unit 300 (S40). The control unit 220 can check whether the raw water flow is detected from the sensor 240 in step S50 and if the flow of raw water is detected by the sensor 240, . Alternatively, the control unit 220 may determine whether a predetermined time has elapsed when the flow of the raw water by the sensor 240 is not detected (S60). Accordingly, when the predetermined time has elapsed from the first time point when the flow of the raw water by the sensor 240 is not detected, the control unit 220 can control to shut off the power of the sterilizing washing water generating apparatus (S70 ). Alternatively, if the predetermined time has not elapsed since the first time when the flow of the raw water by the sensor 240 is not detected, the control unit 220 detects the flow of the raw water by the sensor 240 in accordance with step S50 Whether or not it is possible. Hereinafter, each step will be described in detail. Since steps S20 to S40 correspond to steps S2 to S4 of FIG. 5 described above, detailed description will be omitted.

If the first input signal is received (S20), the control unit 220 may start the operation of the sterilizing water cleaning apparatus 200 (S30). Accordingly, during the supply of the sterilizing wash water through the supply unit 300 (S40), the control unit 220 can check whether the raw water flow is detected from the sensor 240 (S50). For example, during the supply of the sterilizing wash water, the supply unit 300 may be closed when the user operates the operation means 400 to stop the use of water. At this time, the control unit 220 may determine whether a predetermined time has elapsed when the flow of the raw water by the sensor 240 is not detected (S60). The control unit 220 may control to shut off the power of the sterilizing washing water generator when a predetermined time has elapsed since the first time when the flow of the raw water by the sensor 240 is not detected. When the user stops the supply of water while the push button 500 for stopping the operation of the sterilizing water washing apparatus 200 is stopped during use of the sterilizing water for washing, There is a risk of an explosion or the like. Therefore, when the user operates the operating unit 400 to close the supply unit 300 during the use of the sterilizing water, the controller 220 controls the power supply to the sterilizing water purifier 200 to be shut off within a few seconds can do.

As described above, the sterilizing and washing water producing apparatus according to the embodiment of the present invention is integrally installed at the lower part of the sink 1 so that the user can easily operate the input means to easily receive general water and sterilizing washing water ≪ / RTI >

Hereinafter, the detailed construction and the electrolysis process of the sterilizing washing water generating system 200 for generating the hypochlorous acid sterilizing washing water according to one embodiment of the present invention will be described in detail with reference to FIGS. 7 to 12. FIG. FIG. 7 is a block diagram showing a schematic configuration of a sterilizing and washing water producing system according to an embodiment of the present invention, and FIGS. 8 to 10 are views showing the configuration of an electrode according to an embodiment of the present invention.

7, the sterilizing and washing water generating system 200 may include an inlet 100, an electrolyzer 210, a controller 220, a rectifier 230, a sensor 240, and the like.

The inflow section 100 is a passage through which raw water flows from the outside, and can be connected to a pipe through which raw water flows. The raw water is water used for process water, water, water reservoir, Guam water pipe, bottled tap water, village water supply, small water supply facility, ground water, spring water, drinking water, swimming pool and ballast water. Generally, raw water introduced from the outside may be supplied to the hot water valve 20 and the cold water valve 30, but the sterilizing water producing system according to an embodiment of the present invention may be connected to the cold water valve 30.

The electrolytic bath 220 is an apparatus for electrolyzing the raw water introduced from the inflow part 100 to generate sterilizing washing water. As shown in FIG. 3, the inlet unit 100 connected to a pipe through which raw water flows may be formed at one side of the electrolytic bath 220.

Referring to FIG. 8, a plurality of first electrodes 221 and second electrodes 223 may be arranged at predetermined intervals in the electrolytic bath 220. The first electrode 221 and the second electrode 223 may be formed in an appropriate number according to the capacity of the sterilizing washing water generating system 200. For example, as shown in FIG. 8, three first electrodes 221 and four second electrodes 223 may be alternately arranged.

The first electrode 221 may be an anode or a cathode and the second electrode may have a polarity opposite to that of the first electrode 223, that is, a cathode or an anode. At this time, the first electrode 221 and the second electrode 113 can be switched to a cathode or an anode each time the operation of the electrolytic bath 220 is started. When the electrode is used for a long time, foreign substances such as K, Ca, and Mg are deposited on the negative electrode (-) of the electrode, thereby increasing the resistance of the electrode and causing current unevenness of the electrode. This degrades the efficiency of electrolysis and shortens the service life of the electrode. Thus, in the related art, the negative electrode (-) and the positive electrode (+) are periodically alternated by using electric relays to prevent the degradation of the function. However, if alternating operation is performed periodically, it may be an impediment to the function and durability of the electrolytic cell due to frequent changes in current flow inside. Therefore, the sterilization and washing water producing system 200 according to the embodiment of the present invention can be alternated at the time of the next reuse after the use of the sterilization washing water in the sink is stopped without alternate operation during operation. Hereinafter, for convenience of explanation, it is assumed that the first electrode 221 is a cathode and the second electrode 223 is a cathode.

The first electrode 221 and the second electrode 223 are insoluble electrodes, and the surface of the first electrode 221 and the second electrode 223 is coated with a Pt group metal oxide. For example, the surfaces of the first electrode 221 and the second electrode 223 may be composed mainly of an iridium (Ir) compound, a ruthenium (Ru) compound, and a tin (Sn) ) Compound, a molybdenum (Mo) compound, a tantalum (Ta) compound, and a zirconium (Zr) compound. Further, for example, a chloride may be used for each element compound of the coating layer, and the thickness of the coating layer may be formed within at least a predetermined thickness. For example, when the thickness of the coating layer is less than 3 占 퐉, the coating layer may be damaged by friction or hydrogen bubbles. Further, for example, when the thickness of the coating layer is more than 10 mu m, there is a possibility that crystal grains or abnormal crystal grains are formed during the thermal decomposition process of the compound to peel off. Therefore, the thickness of the coating layer of the first electrode 221 and the second electrode 223 according to an embodiment of the present invention may be preferably 3 to 10 mu m.

9 (a), one side edge of the first electrode 221 may be formed to be inclined in the first direction. 9 (b), one side edge of the second electrode 223 may be formed to be inclined in a second direction opposite to the first direction. 9 (c) and FIG. 10, external electrodes may be connected to the protruding portions of the first electrode 211 and the second electrode 213. Referring to FIG. The first terminal rod 222 and the second terminal rod 224 may be mounted to maintain a gap between the first electrodes 221 and the second electrodes 223, respectively. The first electrode 221 and the second electrode 223 may be alternately arranged at a predetermined interval. For example, the first electrode 221 and the second electrode 223 may be alternately arranged with a gap of about 0.3 mm Spaced apart.

Therefore, in the sterilizing and washing water producing system 200 according to the embodiment of the present invention, the water introduced from the inflow portion 100 can flow between the first electrodes 221 and the second electrodes 223 A sterilizing wash water can be generated while passing through.

The sensor 240 is configured to detect the flow of raw water flowing into the inflow section 100. As described above, when the flow of the raw water by the sensor 240 is not detected and the predetermined time has elapsed, the control unit 220 can control the power supply to the sterilizing water washing apparatus 200 to be shut off . That is, the sensor 240 may function as a safety sensor to prevent an explosion accident caused by continuous power supply of the electrolytic apparatus when the sterilizing washing water generating apparatus is not used.

In addition, the sensor 240 may be configured to further include a function of detecting the chlorine concentration remaining in the raw water. Particularly, when the sterilizing water cleaning apparatus 200 is implemented in a large capacity, it is necessary to keep the hypochlorite ion concentration of the sterilizing water in a constant level. Therefore, the controller 240 can detect the chlorine concentration remaining in the raw water passing through the pipe, and the controller 220 can supply the chlorine concentration to the electrolyzer 210 according to the chlorine concentration detected by the sensor 240 Can be controlled. For example, when the controller 240 detects that the chlorine concentration remaining by the sensor 240 is lower than a predetermined concentration, the controller 220 may increase the amount of current applied to the electrolyzer 210. Alternatively, for example, the controller 220 may reduce the amount of current applied to the electrolyzer 210, which is detected by the sensor 240 as being higher than a preset concentration.

Meanwhile, the electrolytic cell 210, the controller 220, and the rectifier 230 according to an embodiment of the present invention may be provided in a form accommodated in a case (not shown). The case may be made to have an appropriate size to be accommodated in the countertop (1).

Referring to FIG. 11, an apparatus 200 for generating sterilizing water according to an embodiment of the present invention may further include an automatic air vent 250. The automatic air vent 250 is a device that automatically discharges the gas to the outside.

As described above, when sterilizing wash water generated by the sterilizing water cleaning apparatus 200 is supplied through the supply unit 300 and the user stops using the water by the operation of the operation means 400, 220 can shut off power to the electrolyzer 210 when a predetermined time has elapsed without detecting the flow of raw water by the sensor 240. [ However, there may be a case where a current is continuously applied to the electrolyzer 210 due to an unexpected abnormality such as a malfunction of the apparatus. At this time, when hydrogen (H ₂ ) and oxygen (O ₂ ) gas are generated by the electrolysis process in the electrolyzer 210 and the pressure rises, there is a danger that the electrolyzer 210 may explode. Accordingly, an automatic air vent 250 is further provided at one side of the electrolytic bath 210 to automatically discharge the gas to the outside when an abnormal pressure is generated in the electrolytic bath 210. 11, a silicone packing 251 may be further attached to the automatic air vent 250.

Referring to FIG. 12, the apparatus 200 for generating sterilizing water according to an embodiment of the present invention may further include a temperature sensor 260. The temperature sensor 260 may be a bimetallic temperature sensor for detecting a temperature for preventing overheating of the electrolyzer 210. 12, a metal conduction plate 261 may be attached to the surface of the electrolytic bath 210, and a metal conductive plate 261 may be attached to the surface of the electrolytic bath 210, And may be connected to the control unit 220 for control.

As described above, when sterilizing wash water generated by the sterilizing water cleaning apparatus 200 is supplied through the supply unit 300 and the user stops using the water by the operation of the operation means 400, 220 can shut off power to the electrolyzer 210 when a predetermined time has elapsed without detecting the flow of raw water by the sensor 240. [ However, there may be a case where a current is continuously applied to the electrolyzer 210 due to an unexpected abnormality such as a malfunction of the apparatus. Accordingly, when the temperature inside the electrolytic bath 210 continuously increases, the electrolytic bath 210 may be ruptured due to overheating. The temperature sensor 250 may further include a temperature sensor 250 disposed on one side of the electrolyzer 210. When the temperature sensor 250 detects that the internal temperature of the electrolyzer 210 exceeds a preset safe use temperature, The control unit 220 may be designed to shut off power to the electrolyzer 210. For example, when the temperature of the inside of the electrolytic cell 210 is detected to be higher than 40 degrees by the temperature sensor 250, the controller 220 may cut off the power to the electrolytic cell 210.

Therefore, according to the present application, it is possible to provide a sterilizing washing water generating system capable of ensuring safety and minimizing the maintenance cost.

In the sink equipped with the sterilizing water producing system according to the present invention described above, the steps constituting each embodiment are not essential, and therefore, each embodiment can selectively include the above-described steps. Moreover, each step constituting each embodiment is not necessarily performed according to the order described, and the step described later may be performed before the step described earlier. It is also possible that each step is repeatedly performed during operation.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And will be apparent to those skilled in the art. Further, the embodiments described herein may be constructed by selectively combining all or a part of each embodiment, and the steps constituting each embodiment may be used individually or in combination with the steps constituting the other embodiments It is possible. It is therefore to be understood that such changes or modifications fall within the scope of the appended claims.

1: sink 100: inlet
200: sterilizing washing water producing device 210: electrolytic bath
220: control unit 230: rectifier
240: sensor 250: automatic air vent
260: temperature sensor 300:
400: operating means 500: input means

Claims (13)

An inflow portion into which raw water flows from outside;
A sterilizing washing water generating device for electrolyzing the raw water introduced from the inflow section to generate sterilizing washing water;
A supply part supplying sterilizing washing water generated by the sterilizing water cleaning device or the general water supplied from the inflow part;
Operation means for opening said supply portion to acquire said sterilizing wash water or general water; And
Input means for inputting a first input signal for initiating operation of the sterilizing water washing apparatus; / RTI >
The sterilizing wash water generating apparatus comprises:
An electrolytic cell for electrolyzing raw water to produce hypochlorous acid;
A control unit for controlling the operation of the electrolytic bath; And
And a sensor for detecting the flow of the raw water flowing into the inflow portion, wherein the sensor further comprises a function of detecting the concentration of chlorine remaining in the raw water.
The method according to claim 1,
Wherein the input means is installed on a top plate of a sink.
The method according to claim 1,
Wherein the input means is a push button of a waterproof type.
The method according to claim 1,
Wherein the supply unit is opened by the operating unit and the sterilizing wash water is supplied through the supply unit when the first input signal is inputted through the input unit.
5. The method of claim 4,
Wherein when the second input signal is inputted from the input means during the supply of the sterilizing washing water, power to the sterilizing washing water generating apparatus is cut off.
6. The sink as set forth in claim 5, wherein, when the second input signal is received, general water is supplied through the supply unit.
The sink as set forth in claim 4, wherein, when the supplying unit is closed by the operating unit, power to the sterilizing washing-water generating unit is shut off within a predetermined time.
The sink according to claim 1, wherein the supply portion is formed as a single flow path.
delete delete The method according to claim 1,
Wherein the control unit controls the amount of current applied to the electrolytic bath in accordance with the residual chlorine concentration detected by the sensor.
The method according to claim 1,
Wherein the sterilizing water producing device further comprises an automatic air vent for automatically discharging gas generated in the electrolytic bath.
The method according to claim 1,
Wherein the sterilizing washing water generating apparatus further comprises a temperature sensor for preventing overheating inside the electrolytic bath.

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