TW200811058A - Electrolytic water generating device - Google Patents

Abstract

To provide a small, inexpensive, simple, and safe device which is capable of generating slightly acidic electrolytic water being convenient for use as safe and effective sterilizing water, and which comprises a vessel for generated electrolytic water integrated with an electrolytic bath for a small scale production, easily installed, needing no complicated control or component. The device comprises two parts of an attachable/detachable raw water vessel into which a batch-processing electrolytic bath 3 having no membrane is incorporated inside and a stand 2 which the vessel is attached to. The stand includes a power source 22, a control mechanism, an operation part, and a display part.

Description

200811058 (1) Description of the Invention [Technical Field of the Invention] The present invention relates to a batch type electrolytic hydrochloric acid to produce a device. [Prior Art] The chlorate ion solution obtained by electrolysis and electrode oxidation of a chloride ion solution has been used as a bactericide in the past, and is inconvenient because of a highly toxic fungicide circulating in the market, so it is widely used. use. Among these, the reason why the liquidity is slightly acidic to strong acid is rapidly caused by the effect and the concern that chloroform is not generated, and the slightly acidic electrolyzed water has a wide range of effects. The characteristics of preservative and less adverse effects on the use environment, and the large-scale food industry as the center, therefore, gradually become the main biocide status. Moreover, as the person who generates the sterilizing water by electrolysis, there are the following. Patent Document 1 discloses a technique for sterilizing a strong acidic liquid obtained by the anode side by using a diaphragm type electrolytic cell which partitions the anode and the cathode. Since the pH of the sterilizing water by the above-mentioned method is extremely low, there is a poor stability containing sterilizing, and in an open state, the effect is rapidly disappeared, and chlorine gas is generated to adversely affect the environment, and half of the sterilizing water is wasted. Hypochlorous acid or the second time it has been required to be preserved equal to its rapidity has only recently begun to spread. In particular, it is well-received and well-received to consolidate its work as a method. At present, it has a conductive diaphragm solution, and the state of the process has obtained a fraction of hypochlorous acid, which is due to the production of raw water, -4- 200811058 ( 2) Electrolytic use of a chlorine ion solution having a relatively low concentration degree, so that the efficiency of electrolysis is not good and it is difficult to mass-produce. Patent Document 2 is the same as that of the first embodiment, and is only carried out by the raw water stored in the container. Therefore, the generated sterilizing water has the same problem as Patent Document 1. Patent Document 3 relates to a method of preparing hydrochloric acid by electrolyzing hydrochloric acid using a diaphragmless electrolytic cell having no separator separating the anode and the cathode, and preparing a high-concentration hypochlorous acid solution, followed by dilution with raw water. This method of φ does not waste water, and the generated sterilizing water is in the slightly acidic range because of the pH ,, so the hypochlorite is stable and the preservation of the effect is good, and the chlorine gas generated adversely affects the environment. It is slight. Further, since a higher concentration of hydrochloric acid is electrolyzed, the efficiency of electrolysis is better. However, this method is a high-priced device and is not suitable for small-scale production because it requires a variety of control mechanisms to be continuously produced while diluting hydrochloric acid to an appropriate concentration in the apparatus. Patent Document 4 is for the purpose of small-scale use and is proposed by the inventors of the present invention. However, in the same manner as in the case of the patent document 3, the patent document 4 electrolyzes hydrochloric acid in a diaphragmless electrolytic cell, and the electrolytic solution after the electrolysis is added to the raw water to be diluted to prepare the same sterilizing water as in Patent Document 3. In this method, the electrolytic cell is separated from the container for storing the raw water, the hydrochloric acid diluted to a certain concentration is pre-injected into the electrolytic cell, and the electrolytic cell is inserted into a container immersed in the raw water for performing electrolysis. After the completion of the electrolysis, the electrolytic cell is raised first, and after the valve of the electrolytic cell is opened, an internal electrolytic solution is added to the raw water in the container to be diluted to prepare the sterilization water. However, this method has the disadvantage of requiring cumbersome operations as described above. In the Japanese Patent Application No. 2001-244444 [Patent Document 3] Japanese Patent Application No. 8-309920 [Patent Document 4] Japanese Patent Application No. 2002-382890 [Draft of the Invention] It is an object of the present invention to provide an electrolyzed water having a slightly acidic range and having a slightly acidic range as a sterilization water; For the purpose of scale utilization; and a device that can generate electrolyzed water at a low price and can be easily and safely produced. In order to solve the conventional problems, the present invention provides a batch type generating device constructed as follows. This device can be easily set by using a batch type, and since it is not required to be as complicated as the continuous type of control and parts, it is inexpensive and can be miniaturized. In addition, integrating the electrolytic cell with the water-generating container in order to pay attention to the convenience of use is an important point for solving the conventional problem, that is, the device is fixed with a batch-type diaphragmless electrolytic cell. The outer contour of the batch type non-diaphragm electrolytic cell which is assembled and fixed in the container, which is composed of the raw water storage container and the table portion on which the container is mounted, is a frame formed of a water-impermeable material. On the upper side of the frame, an injection port of the raw material liquid is provided, and a cover is provided to prevent the gas in the electrolysis from leaking out. Further, in order to allow the gas generated in the electrolysis to be introduced into the raw water in the container to dissolve it, a line fixed at one end is provided at the upper end of the frame of the electrolytic cell, and the other end of the line is opened near the bottom of the container. For this purpose, in electrolysis, the front end of the line is formed to be immersed in a configuration of -6 - (4) (4) 200811058 in raw water stored in a container. Further, after the electrolysis is finished, in order to allow the electrolyte to be diluted with the raw water, an opening portion having an on-off valve is provided at the bottom of the electrolytic cell, and in operation, the switching operation of the opening and closing valve can be provided outside the raw water container. The switch operating portion is configured to prevent the gas remaining in the electrolytic cell from leaking out and making it easy to handle. In one embodiment, the container and the table are made detachable so that the raw water can be simply supplied and the water produced can be taken out. For this purpose, a power source and a control unit are disposed in the table portion, and when the container is mounted on the table portion, power is supplied to the electrode terminal system of the electrode built in the electrolytic cell and the power supply provided on the table portion The terminals are joined to form a configuration in which electric power can be supplied to the electrolytic cell. Further, for the raw water container, a handle and an injection port are provided to facilitate the easy replenishment of the raw water and the use of the electrolyzed water. Further, in an embodiment, the upper surface of the electrolytic cell is integrally formed with the top plate of the container which is fixed to the container as it is covered, so that the configuration of the raw water container can be simplified, thereby reducing the cost. In addition, in order to ensure safety, by making any of the following configurations: (1) if the container is not mounted on the table, the electrolytic cell is not energized; (2) when the container is mounted on the table, If the weight of the container is not more than a certain amount, the electrolytic cell is not energized; (3) if the resistance between the electrodes of the electrolytic cell is not below 値, the electrolytic cell is not energized; and (4) if the raw material liquid of the electrolytic cell is injected Not in the off state, the electrolysis cell is not energized to solve the conventional problems to achieve the present invention. The effect of the invention is to provide a kind of electrolyzed water which has a slightly acidic range and is highly convenient to use, and is used for small scale 200811058 (5); and it is low cost and can be simple and safe. A device for generating electrolyzed water. Therefore, in many cases and for most people, the slightly acidic electrolyzed water which can be used as a safe and effective fungicide has a great contribution to public health. [Embodiment] Now, the best mode for carrying out the invention will be described. ® First, it is preferable to use a thin hydrochloric acid having a concentration of less than 3% as a raw material liquid because it is easier to keep the pH of the produced electrolyzed water in a slightly acidic range. The apparatus according to the present invention is constituted by a collection of a raw water storage container in which a batch type non-diaphragm type electric solution tank is fixed and a table portion in which the container is mounted. In the stage, at least a DC power source for electrolysis, a control mechanism for electrolysis time and safety, and a notification mechanism such as a lamp and a buzzer are disposed. In order to prevent the power supply terminal of the stage from being exposed, when the raw water storage container is mounted, it is preferable that the convex terminals of the group side of the container are fitted into the concave terminal of the table side, or by the protruding joint arrangement. A structure such as a magnet on both sides of the container side and the side of the table. A sensor for providing a limit switch or the like for sensing the weight of the container is also disposed in a portion of the storage table portion of the raw water storage container, and when the weight of the container is less than or equal to a certain value, the sensor is not The operation, and thus the electrolysis current, is not supplied in such a configuration. The raw water storage container is made of a resin, and is configured to be sealed in a configuration other than an opening provided with a water inlet and a water outlet each having a switch cover. The batch type electrolytic cell is configured to hang down from the top plate of the container, and -8 - (6) (6) 200811058 integrates the upper surface of the electrolytic cell with the top plate of the container to form such a structure. A supply port of the raw material liquid is disposed on a portion including the upper surface of the electrolytic cell and the top plate of the container, and a switch cover is attached to the supply port, and the electrolysis current is not supplied if the cover is not closed. In this way, a safety switch is configured. In addition, a mechanism for operating the on-off valve disposed at the bottom of the electrolytic cell is disposed on the top plate of the container, and at the end of the electrolysis, the switching valve at the bottom of the electrolytic cell is opened by operating the mechanism to dilute and dilute the electrolyte. In the raw water of the impregnation cell. As the mechanism, for example, the valve and the operating mechanism are combined to form a rigid body integrally, and one end of the integrally formed rigid body passes through the top plate of the container to form an operating mechanism, and can be utilized by pressing the operating mechanism. Press down to open the valve. The upper portion of the portion located in the container of the electrolytic cell is combined with the opening of one side of the conduction line, and the gas generated in the electrolytic cell is introduced into the raw water of the immersion electrolytic cell through the pipeline, and the pipeline is connected The other side of the opening is placed at the bottom of the container. As one of the safety control functions, a control mechanism is also added which does not supply the electrolysis current when the resistance of the electrolysis cell is above a certain level. In the apparatus thus constructed, there is further provided a control system that operates as follows: first, a certain amount of raw water is stored in a container, and a lid is placed on the opening; a certain amount of the raw material liquid is injected into the electrolytic bath. And the tweezers are placed on the injection port; then the container is mounted on the table. After pressing the electrolysis start switch 'to confirm that the raw material injection port is closed, the weight of the container is more than 値, and the electric resistance between the electrolysis electrodes is less than or equal to a certain value, after a certain period of time, the electrolysis kiosk stops electrolysis, by turning on the indicator lamp. And the buzzer sounds to inform the electricity-9- 200811058 (7) The solution is over. Thereafter, the switch operation of the valve disposed at the bottom of the top plate of the container is operated by a person, and the electrolyte is diluted with the electrolyte to form a micro water containing a predetermined sterilizing component in the container. Secondly, in order to make the understanding of the present invention deeper, the preferred embodiment according to the present invention will be described below. However, the description of the preferred embodiment is for illustrative purposes only and not for the invention. Fig. 1 is a side view showing a crucible manufactured by Hokuetsu Co., Ltd. according to an embodiment of the present invention. A cross-sectional view of the raw water container 1 is shown. 2 is a top view of the device shown, and FIG. 3 is a top view as shown in FIG. 1, wherein the top cover portion 19 of the table portion 2 is a perspective view, that is, the top cover of the table portion 2 is removed. The picture in the case of the department 19. Fig. 4 is a view showing a part of the apparatus shown in Fig. 3, in which a sectional view of the raw water container 1 (having a capacity of 2 L) is shown showing a perspective view of the apparatus according to the embodiment of the present invention. Referring to Figures 1 to 5, the top of the raw water container 1 is sealed, and a sliding inlet and outlet 11 is attached to the top plate 20, and a container handle 14 is attached to facilitate replenishment of raw water and use of electrolysis. water. Further, in the electrolytic cell 3, the top plate 20 is joined to the inside of the cell 1. The battery has two electrodes 4, and each of the electrodes 4 is mixed with the electrolytic cell of the arrangement of the electrolysis tank through the connecting rod 21 of the top plate 20 of the electrolysis and raw water container 1, and is used to limit the electrolysis. This [(for example, by, for example, only the device shown in Fig. 1 is shown, the top cross-sectional view of the device is shown. Figure 5 is a top cover 20 with a movable cover for easy access to the raw water) The upper surface of the inner tank 3 of the reservoir 3 is electrically connected to the terminal 8 outside the-10-(8) 200811058 of the vessel 1. Further, the upper portion of the electrolytic tank 3 is connected to one end of the conduction line 5 and the conduit 5 is turned on. The other end is disposed near the bottom of the container. Further, an on-off valve 9 is disposed on the bottom of the electrolytic cell 3, and the switching valve 9 is connected to the operation button 12 on the container via the connecting rod 21. Moreover, a supply port 1A penetrating through the top plate of the container 1 and the hydrochloric acid supply line (not shown) above the electrolytic cell 3 is provided on the top plate 20 of the container 1. In addition, the table portion 2 is formed with a receiving container φ 1 base portion 18 and the top The portion 19, and when the container 1 is mounted on the table portion 2, the container 1 is sandwiched between the top cover portion 19 of the table portion 2 and the base portion 18. The top cover portion 19 is provided with a terminal 8 for the electrolytic cell 3. A supply terminal 6 for connecting the electric power of the electrolytic cell 3. The terminal 6 of the top cover portion 19 and the terminal 8 of the electrolytic cell 3 are magnetic forces of a magnet (not shown) which are arranged in a pairwise combination In addition, the device is also provided with a mechanism (not shown) for sensing the lid of the hydrochloric acid supply port 1 . An operation panel 13 is also provided at the bottom of the table portion 2, and the operation panel 13 is provided. The matching φ is provided with an operation switch for the limit switch 7 for sensing the weight of the container, the electrolysis start and stop switch 15 , 16 , the display lamp 17 , etc. Further, the device has a power source for electrolysis and Control device (not shown) ° This device uses 7 ml of 1.1% hydrochloric acid as a raw material, and electrolyzes at 5 V, 3 A for 10 minutes to generate 2 L of slightly acidic electrolyzed water. Therefore, the present invention can realize A low-cost, safe, slightly acidic electrolyzed water generating device for home use. The foregoing detailed description of the embodiment of the electrolyzed water generating apparatus of the present invention shows that the present invention provides a novel electrolyzed water generating apparatus which can effectively improve the disadvantages of the conventional electrolyzed water generating apparatus and provide the disinfecting water as it is effective -11 - 200811058 (9); The use of electrolyzed water with a slightly acidic range in the slightly acidic range for the purpose of small-scale utilization; and the electrolyzed water produced at a low cost and in a simple and safe manner is a novel The design of sexuality and progress should conform to the application requirements of the patent and apply in accordance with the law. [Simplified description of the schema] φ In order to enable the reviewing committee to further understand the advantages, features and other purposes of the present invention, Details are given below. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a side elevational view of a device in accordance with an embodiment of the present invention. Fig. 2 is a top view showing the apparatus as shown in Fig. 1. Fig. 3 is a top view showing the apparatus shown in Fig. 1 in the case where the top cover portion 19 of the table portion 2 is removed. Figure 4 is a partial cross-sectional view showing the apparatus as shown in Figure 3. φ Figure 5 is a perspective view showing the apparatus according to an embodiment of the present invention. [Symbol description of main components] 1 : Raw water container 2 : Table 3 : Electrolyzer 4 : Electrode 5 : Conduction line 6 : Power supply terminal • 12- (10) 200811058 7 : Limit switch 8 : Terminal 9 : On-off valve

1 0 : Supply port 1 1 : Inlet and outlet 12 : Switch valve operation button 1 3 : Operation panel 1 4 : Raw water container handle 1 5 : Switch 1 6 : Switch 17 : Display lamp 1 8 : Base portion 19 : Top cover portion 20 : Top plate 21: connecting rod

-13

Claims (1)

200811058 (1) X. Patent application scope 1 · An electrolyzed water generating device consists of a container for storing raw water, a batch-type non-diaphragm electrolytic cell fixed to the inside of the container, and one for mounting The base portion of the container is characterized in that: the outer contour of the electrolytic cell is formed into a frame formed of a water-impermeable material; and a raw material liquid with a cover attached is disposed on the upper surface of the frame of the electrolytic cell a pipeline is disposed at an upper end of the frame of the electrolytic cell, one end of the pipeline is fixed, and the other end of the pipeline is open near the bottom of the vessel to allow gas and liquid to communicate with each other Between the interior of the electrolytic cell and the interior of the vessel, and during electrolysis, the opening of the pipeline disposed near the bottom of the vessel is immersed in the raw water stored in the vessel; at the bottom of the vessel, Providing an opening portion provided with an on-off valve, and the switching operation of the on-off valve is implemented by using a switch operation portion disposed outside the container; When the container is mounted on the stage, an electrode terminal for supplying electric power to an electrode housed in the electrolytic cell is engaged with a power supply terminal disposed at the stage to form electric power to be supplied to the electrolytic cell. status. 2. The electrolyzed water generating device according to claim 1, wherein the container is provided with a handle and an injection port. 3. The electrolyzed water generating device according to claim 1 or 2, wherein the upper surface of the electrolytic cell is integrated with a top plate of the container which is fixed to be attached to the container Formed. The electrolyzed water generating device according to any one of claims 1 to 3, wherein when the container is not mounted on the table portion, the The cell is not energized. 5. The electrolyzed water generating apparatus according to any one of claims 1 to 4, wherein when the container is mounted on the table portion, if the weight of the container is not more than a certain value, the The cell is not energized. The electrolyzed water generating apparatus according to any one of claims 1 to 5, wherein the electrolytic cell is not energized if the electric resistance between the electrodes of the electrolytic cell is not equal to or less than a certain value. The electrolysis water generating apparatus according to any one of claims 1 to 6, wherein the electrolytic cell is not energized if the injection port of the raw material liquid of the electrolytic cell is not in a closed state. -15-