JP2019025218A - Electrolyzed water scatter device - Google Patents

Abstract

To provide an electrolyzed water scatter device which can dispense with useless drainage work when a plug socket is taken out or stuck in temporarily.SOLUTION: When an attachment plug of an electrolyzed water scatter device D is stuck in a plug socket and electricity to control part 30 is started, the control part 30 executes drainage display processing. In the drainage display processing, when a shortage of water sensing part 31 detects non-shortage of water state in a storing water part 14 (S1:Yes), drainage promotion is displayed by a drainage display part 21 (S2). On the other hand, for the display of the drainage display part 21, when a non-drainage operation acceptance part 26 accepts an input enabling generation operation of electrolyzed water by an electrolysis part 17 without draining of the storing water part 14 (S3:Yes), the generation operation of electrolyzed water by an electrolyzed water generation part 5 is enabled without draining of water of the storing water part 14 (S6).SELECTED DRAWING: Figure 7

Description

  The present invention relates to an electrolyzed water spraying device that generates and sprays electrolyzed water.

  In order to remove bacteria (including fungi, viruses, odors, etc.) in the air (including inactivation), electrolyze the water stored in the water storage unit to produce electrolyzed water containing hypochlorous acid and spray it An electrolyzed water spraying device is known (Patent Document 1).

  Conventionally, this type of electrolyzed water spraying device has required the user to drain the water stored in the water storage section when the plug is inserted into an outlet. This is because the state of the water stored in the water storage part is important when removing bacteria in the intake air by hypochlorous acid.

  That is, when the electrolyzed water spraying device is left for a long time without inserting the plug into the outlet, the concentration of chloride ions required for the generation of electrolyzed water in the water stored in the water storage section has decreased. Or the water may be dirty. When electrolysis is performed using such water, a desired amount of hypochlorous acid cannot be generated, or the electrode of the electrolysis part is soiled and the life of the electrode is shortened.

  Therefore, when the plug is inserted into the outlet, the electrolyzed water spray device requests the user to drain water as described above, and does not generate electrolyzed water until the water is drained. It was like that.

JP 2008-29574 A

  However, the conventional electrolyzed water spraying device, for example, even when the plug is temporarily removed from the outlet due to the movement of the device, etc., to the user at the timing when the plug is plugged into the outlet again. Requested the drainage of the water stored in the reservoir. Therefore, even if the state of the water stored in the water storage unit is good, the user has to perform wasteful drainage work, which is inconvenient for the user.

  The present invention has been made to solve the above-described problems, and an object thereof is to provide an electrolyzed water spraying device that can eliminate wasteful drainage work when a temporary outlet is inserted and removed. .

  In order to achieve this object, the electrolyzed water spraying device of the present invention is characterized by the following. That is, the electrolytic spraying apparatus of the present invention includes an electrolyzed water generation unit, a spraying unit, a drought detection unit, a drainage display unit, a non-drainage operation reception unit, and a control unit. The electrolyzed water generation unit includes a water storage unit for storing water and an electrolysis unit that electrolyzes water in the water storage unit to generate electrolyzed water. The spraying unit sprays the electrolyzed water generated by the electrolyzed water generating unit. The drought detection unit detects whether the water storage unit is in a drought state or a non-drought state that is not a drought state. The drainage display unit displays that the drainage of the water storage unit is promoted. The non-drainage operation accepting unit accepts an input indicating that the electrolyzing unit can perform the electrolyzed water generation operation without draining the water storage unit when the drainage display unit prompts drainage. When the drought detection unit detects a non-drought condition at the start of energization to the control unit, the control unit displays a message that prompts drainage through the drainage display unit, and When the non-drainage operation accepting unit accepts the input, the electrolyzed water generating operation can be performed by the electrolyzed water generating unit without draining the water storage unit.

  According to the electrolyzed water spraying device of the present invention, it is possible to accept an input indicating that electrolysis water can be generated by the electrolysis unit without draining the water storage unit when the drainage display unit prompts drainage. A drainage operation reception unit is provided. Then, when the drought detection unit detects a non-drought state at the start of energization to the control unit, the control unit displays a message that prompts drainage through the drainage display unit, and displays the drainage display unit display. On the other hand, when the non-drainage operation accepting unit accepts the input, the electrolyzed water producing operation can be performed by the electrolyzed water producing unit without draining the water storage unit. As a result, when the outlet is temporarily inserted and removed, and the display that prompts drainage by the drainage display unit is displayed, the user generates electrolytic water by the electrolysis unit without draining the water storage unit. If an input indicating that the operation is enabled is performed, the electrolysis water can be generated by the electrolysis section without draining the water storage section. Therefore, it is possible to obtain an effect that unnecessary drainage work can be eliminated when a temporary outlet is inserted and removed.

It is a perspective view of the electrolyzed water spraying device concerning a 1st embodiment of the present invention. It is a perspective view of the same electrolyzed water spraying apparatus. (A) is the schematic diagram which showed the display part typically, (b) is the schematic diagram which showed typically the operation part in a door. It is sectional drawing of the same electrolyzed water spraying apparatus. It is sectional drawing of the same electrolyzed water spraying apparatus. It is a functional block diagram of the electrolyzed water spraying device. It is a flowchart which shows the waste_water | drain display process performed by the control part of the same electrolyzed water spraying apparatus. It is a functional block diagram of the electrolyzed water spraying apparatus which concerns on 2nd Embodiment of this invention. It is a flowchart which shows the waste_water | drain display process performed by the control part of the same electrolyzed water spraying apparatus. It is a functional block diagram of the electrolyzed water spraying apparatus which concerns on 3rd Embodiment of this invention. It is a flowchart which shows the waste_water | drain display process performed by the control part of the same electrolyzed water spraying apparatus.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described with reference to the accompanying drawings.

(First embodiment)
First, with reference to FIGS. 1-7, the electrolyzed water spraying apparatus D which concerns on 1st Embodiment of this invention is demonstrated. FIG. 1 is a perspective view of the electrolyzed water spraying device D, and is a view of the electrolyzed water spraying device D viewed from the front side. FIG. 2 is a perspective view of the electrolyzed water spray device D, and is a view of the electrolyzed water spray device D viewed from the front side with the opening / closing part 3 of FIG. 1 opened.

  As shown in FIGS. 1 and 2, the electrolyzed water spraying device D includes a substantially box-shaped main body case 1, and has a substantially rectangular intake port 2 on both side surfaces of the main body case 1. On the top surface of the main body case 1, an openable / closable air outlet 6 is provided. 1 and 2, the air outlet 6 is in a closed state.

  A display unit 20 is provided on the top side of the main body case 1. FIG. 3A is a schematic diagram schematically showing the display unit 20. The display unit 20 is provided with a plurality of lamps for indicating the state of the electrolyzed water spraying device D and giving various instructions to the user depending on the lighting state. For example, the drainage display unit 21 and the drainage cancellation invalid display are provided. Part 22.

  The drainage display part 21 displays that the drainage of the water storage part 14 mentioned later is promoted. Depending on the lighting state of the drainage display unit 21, the user can be prompted to drain the water storage unit.

  The drainage cancellation invalid display unit 22 displays that the drainage cancellation operation by the user is invalid. The lighting state of the drainage cancellation invalid display unit 22 can notify the user that the drainage cancellation operation is invalid. While the display by the drainage cancellation invalid display unit 22 is performed, even if the user performs a drainage cancellation operation described later, the operation is invalidated.

  Returning to FIG. 2, an openable opening / closing part 3 is provided on the first main body side surface 1 </ b> A that is the right side surface (one side surface of the main body case 1) as viewed from the front surface side of the main body case 1. . An intake port 2 on one side surface of the main body case 1 is provided in the opening / closing part 3. When the opening / closing part 3 is opened, a vertically long rectangular opening 4 appears. From the opening 4, a water storage unit 14, a water supply unit 15, a tablet charging case 18 a and the like, which will be described later, can be taken out.

  In the main body case 1, an in-door operation unit 25 that can be operated by the user through the opening 4 is provided. FIG. 3B is a schematic view schematically showing the in-door operation unit 25. The in-door operation unit 25 is provided with a plurality of operation buttons for the user to make various inputs to the electrolyzed water spraying device D. For example, a non-drainage operation accepting unit 26 is provided.

  The non-drainage operation accepting unit 26, when the drainage display unit 21 displays that the drainage of the water storage unit 14 is promoted, the drainage of the water storage unit 14 is not performed and the electrolyzed water by the electrolysis unit 17 described below is not drained. The button is configured to accept an input from the user to enable the generation operation.

  Here, as described above, the water storage unit 14 is stored in the main body case 1, and the opening / closing unit 3 restricts contact with the water storage unit 14 stored in the main body case 1. That is, unless the opening / closing part 3 is opened, the state of the water storage part 14 cannot be confirmed or drainage cannot be performed. On the other hand, the non-drainage operation accepting unit 26 is provided at a position where the input / output unit 3 can accept an input only when the opening / closing unit 3 is in an open state in which contact with the water storage unit 14 is possible. Therefore, the user can operate the non-drainage operation reception unit 26 after confirming the state of the water storage unit 14 from the opening 4 and determining whether or not the water stored in the water storage unit 14 can be used continuously. Thereby, although the state of the water stored in the water storage unit 14 is in a bad state, it is possible to suppress the operation of the non-drainage operation reception unit 26 due to the user's assumption.

  FIG. 4 is a cross-sectional view of a central portion of the electrolyzed water sprayer D viewed from the front, and is a view of the electrolyzed water sprayer D viewed from the right side. FIG. 5 is a cross-sectional view of the right side of the electrolyzed water spraying device D as viewed from the front, as viewed from the right side of the electrolyzed water spraying device D. FIG. 6 is a functional block diagram showing main functions of the electrolyzed water spraying device D in blocks.

  As shown in FIGS. 2, 4, 5, and 6, the electrolyzed water spray device D includes an electrolyzed water generating unit 5, a water supply unit 15, an electrolysis promoting tablet charging unit 18, a spraying unit 19, A path 8 and a control unit 30 are provided. The electrolyzed water generation unit 5 includes a water storage unit 14 and an electrolysis unit 17.

  The water storage unit 14 has a box shape with an open top, and has a structure capable of storing water. The water reservoir 14 is disposed at the lower part of the main body case 1, is detachable from the main body case 1 by sliding in the horizontal direction, and can be taken out from the opening 4. The water storage unit 14 stores the water supplied from the water supply unit 15.

  The water storage unit 14 includes a drought detection unit 31 and a drainage detection unit 32. The drought detection unit 31 detects whether the water storage unit 14 is in a drought state or a non-drought state that is not a drought state. Specifically, the drought detection unit 31 detects that the water storage unit 14 is in a drought state when the water level in the water storage unit 14 becomes a specified value or less.

  The drainage detection unit 32 detects drainage from the water storage unit 14. Specifically, the drainage detection unit 32 detects that the drainage of the water storage unit 14 has been performed when the inside of the water storage unit 14 is in a drought state from a non-drought state. It should be noted that an operation button for inputting that the user has performed drainage is provided in the electrolyzed water spraying device D, and that the drainage detection unit 32 has drained the water storage unit 14 when the operation button is operated. It may be detected.

  The electrolysis unit 17 includes an electrode member (not shown), and the electrode member is installed so as to be immersed in the water in the water storage unit 14. The electrolysis unit 17 energizes this electrode member to electrochemically electrolyze water containing chloride ions in the water storage unit 14 to generate electrolyzed water containing active oxygen species. Here, the active oxygen species are oxygen molecules having an oxidation activity higher than that of normal oxygen and related substances. For example, active oxygen species include superoxide anions, singlet oxygen, hydroxy radicals, so-called active oxygen in a narrow sense such as hydrogen peroxide, and so-called broad-active oxygen such as ozone, hypochlorous acid (hypohalous acid), etc. Is included.

  The electrolysis unit 17 includes a current period for energizing the electrode member for electrolysis and a time after the current supply is stopped, that is, a non-energization time period during which the current is not energized, as one period. Electrolyzed water is generated by repeating the process. By providing a non-energization time for the electrode member, the life of the electrode member can be extended. If the energization time is made longer than the non-energization time, electrolyzed water containing a larger amount of active oxygen species per cycle is generated. Further, if the non-energization time is made longer than the energization time, the generation of active oxygen species per cycle can be suppressed. Furthermore, if the amount of electric power during the energization time is increased, electrolyzed water containing a larger amount of active oxygen species is generated.

  The water supply unit 15 is installed on the right side surface of the main body case 1 when viewed from the front, has a structure that can be detached from the water storage unit 14, and can be taken out from the opening 4. The water supply unit 15 is attached to a tank holding unit 14 a provided on the bottom surface of the water storage unit 14. The water supply unit 15 includes a water supply tank 15a for storing water, and a lid 15b provided at an opening (not shown) of the water supply tank 15a. An opening / closing part (not shown) is provided at the center of the lid 15b. When the opening / closing part is opened, water in the water supply tank 15a is supplied to the water storage part 14.

  Specifically, when the water supply unit 15 is attached to the tank holding unit 14a of the water storage unit 14 with the opening of the water supply tank 15a facing downward, the tank holding unit 14a opens the opening / closing unit. That is, when the water supply unit 15 containing water is attached to the tank holding unit 14 a, the opening / closing unit is opened to supply water to the water storage unit 14, and water is accumulated in the water storage unit 14. When the water level in the water storage unit 14 rises and reaches the lid 15b, the opening of the water supply unit 15 is sealed with water, so that the water supply is stopped and water remains in the water supply unit 15 so that the water level in the water storage unit 14 remains. When the water level drops, the water inside the water supply tank 15a is supplied to the water storage unit 14. That is, the water level in the water reservoir 14 is kept constant.

  In addition, the electrolyzed water spraying apparatus D does not need to have the water supply tank 15a as the water supply part 15. FIG. In this case, when the water supply line is pulled from the tap water to the electrolyzed water spraying device D and the water level in the water storage unit 14 is lowered, the water supply is maintained until the water level in the water storage unit 14 rises to a predetermined position. Water may be supplied.

  The electrolysis-promoting tablet loading unit 18 includes a tablet loading case 18a, a tablet loading member (not shown) provided in the tablet loading case 18a, and a tablet loading cover 18b provided detachably on the upper portion of the tablet loading case 18a. It has. The tablet insertion case 18a is configured to be removable from the opening 4. The user can load the electrolysis-promoting tablet into the tablet insertion case 18a by removing the tablet insertion cover 18b from the taken-out tablet insertion case 18a.

  The electrolysis-promoted tablet loading unit 18 rotates the tablet loading member when the electrolysis-promoted tablet is loaded into the water storage unit 14. When the tablet loading member rotates, the electrolysis-promoted tablet falls to the water storage unit 14 through a drop opening (not shown) on the bottom surface of the tablet loading case 18a. The electrolysis-promoting tablet loading unit 18 counts the number of electrolysis-promoting tablets dropped from the tablet loading case 18a to the water storage unit 14, and determines that one electrolysis-promoting tablet has dropped from the tablet loading case 18a to the water storage unit 14. Stop the rotation of the tablet insertion member. The electrolysis-promoting tablet dissolves in the water in the water storage unit 14, whereby water containing chloride ions is generated in the water in the water storage unit 14. An example of the electrolysis-promoting tablet is sodium chloride.

  In addition, the electrolyzed water spraying apparatus D does not need to have the electrolysis promotion tablet injection | throwing-in part 18. FIG. In this case, the electrolyzed water spraying device D may notify the user of the insertion of the electrolysis-promoting tablet by display or pronunciation, and may cause the user to directly input the electrolysis-promoting tablet into the water storage unit 14.

  The spraying unit 19 includes a blower unit 7 and a filter unit 16. The blower unit 7 is provided at the center of the main body case 1 and includes a motor unit 9, a fan unit 10 rotated by the motor unit 9, and a scroll-shaped casing unit 11 surrounding them. The motor unit 9 is fixed to the casing unit 11.

  The fan unit 10 is a sirocco fan, and is fixed to a rotating shaft 9 a extending in the horizontal direction from the motor unit 9, and the motor unit 9 is fixed to the casing unit 11. A rotation shaft 9 a of the motor unit 9 extends from the front side of the main body case 1 to the back side. The casing portion 11 includes a discharge port 12 on the upper surface side of the main body case 1 of the casing portion 11, and has a suction port 13 on the rear surface side of the main body case 1 of the casing portion 11. The air volume of the blower 7 is determined every air volume unit time (for example, 5 minutes) according to temperature, humidity, and gas odor level. Based on the determined air volume, the rotation amount of the motor unit 9 is controlled.

  The filter unit 16 is a member that brings the electrolytic water stored in the water storage unit 14 into contact with the room air that has flowed into the main body case 1 by the air blowing unit 7. The filter unit 16 is configured in a cylindrical shape, and a filter 16a having a hole through which air can flow is arranged in a circumferential portion, and one end of the filter unit 16 is immersed in electrolyzed water stored in the water storage unit 14 so that the water is retained. In addition, the filter 16a is rotatably incorporated in the water storage section 14 with the center axis of the filter 16a as the center of rotation. And the filter part 16 is rotated by the drive part (not shown), and has a structure which contacts electrolyzed water and room air continuously.

  The air passage 8 communicates the air inlet 2 and the air outlet 6, and includes a filter portion 16, a blower portion 7, and an air outlet 6 in order from the air inlet 2. When the fan unit 10 is rotated by the motor unit 9, the external air sucked from the air inlet 2 and entered into the air passage 8 is sequentially supplied to the electrolyzed water spraying device D through the filter 16 a, the air blowing unit 7, and the air outlet 6. It is blown out to the outside. Thereby, the electrolyzed water produced | generated in the water storage part 14 is spread | diffused outside. In addition, the electrolyzed water spraying device D does not necessarily have to spray electrolyzed water itself, and even if it sprays active oxygen species derived from electrolyzed water (including volatilization) generated as a result, the electrolyzed water spraying is performed. include.

  The control unit 30 is provided, for example, on the back side of the operation panel provided on the top surface of the main body case 1 (see FIG. 1), and controls the electrolyzed water spray device D. The control part 30 will perform a waste_water | drain display process, if the insertion plug of the electrolyzed water spraying apparatus D is inserted into an electrical outlet, and the energization to the control part 30 is started.

  FIG. 7 is a flowchart showing this drainage display processing. In this drainage display process, first, based on the detection result of the drought detection unit 31, it is determined whether the water storage unit 14 is in a drought state or a non-drought state (S1). As a result, when the water storage unit 14 is in a non-drought state (S1: Yes), in the drainage display process, a display to the effect that the drainage display unit 21 prompts drainage of the water storage unit 14 is performed (S2). At this time, the drainage display process does not allow the electrolyzed water generation operation by the electrolysis unit 17. Thereby, it can suppress that the production | generation operation | movement of the electrolyzed water by the electrolysis part 17 is performed in the state where the water of the water storage part 14 is bad.

  Next, in the drainage display process, the non-drainage operation accepting unit 26 is operated, and it is determined whether an input indicating that the electrolyzing unit 17 can perform the electrolyzed water generation operation without draining the water storage unit 14 is accepted ( S3). As a result, when there is no operation to the non-drainage operation accepting unit 26 and the input is not accepted (S3: No), in the drainage display process, based on the detection result of the drainage detection unit 32, It is determined whether or not there is an implementation (S4).

  As a result, in the drainage display process, if drainage is not performed (S4: No), the process returns to S3. If drainage is performed (S4: Yes), the display of the drainage display unit 21 is turned off (S5). ), The process proceeds to S6, the normal operation is controlled, and the electrolyzed water can be generated.

  On the other hand, as a result of the determination in S3, there is an operation to the non-drainage operation accepting unit 26, and an input indicating that the electrolyzed water generation operation by the electrolyzing unit 17 can be performed without draining the water storage unit 14 is accepted. (S3: Yes) In the drainage display process, the process of S4 is skipped and the process proceeds to S5. In the drainage display process, the display of the drainage display unit 21 is turned off in the process of S5 (S5), the process proceeds to the process of S6, and the normal operation is controlled to enable the electrolysis water generation operation. To do.

  Further, when the water storage unit 14 is in a drought state (S1: No), it is not necessary to promote drainage of the water storage unit 14, so that the process proceeds to S6 and normal operation is controlled to generate electrolyzed water. Enable operation.

  As described above, in the electrolyzed water spray device D according to the first embodiment, the control unit 30 executes the drainage display process, and thus has the following effects. That is, when the drought detection unit 31 detects a non-drought state in the water storage unit 14 when the plug of the electrolyzed water spraying device D is inserted into an outlet and energization of the control unit 30 is started, The display of prompting drainage is performed via the drainage display unit 21. On the other hand, when the non-drainage operation accepting unit 26 accepts an input indicating that the electrolyzing unit 17 can perform the electrolyzed water generation operation without draining the water storage unit 14 with respect to the display of the drainage display unit 21. The electrolyzed water generating unit 5 can perform the electrolyzed water generation operation without draining the water storage unit 14.

  As a result, when the outlet is temporarily inserted and removed, and the display indicating that the drainage display unit 21 prompts drainage is performed, the user performs electrolysis by the electrolysis unit 17 without draining the water storage unit 14. If the input to enable the water generating operation is performed, the electrolyzed water generating operation by the electrolyzing unit 17 can be performed without draining the water storing unit 14. Therefore, it is possible to obtain an effect that unnecessary drainage work can be eliminated when a temporary outlet is inserted and removed.

  Moreover, in the electrolyzed water spraying apparatus D which concerns on 1st Embodiment, when the control part 30 performs a waste_water | drain display process, it is a case where the waste_water | drain detection by the waste_water | drain detection part 32 cannot be performed, and it is to the non-drainage operation reception part 26 If there is no input, the process of S3 and S4 continues to loop. Thereby, the control unit 30 does not allow the electrolyzed water generation operation by the electrolysis unit 17. As a result, the generation of electrolyzed water is performed in a state where the water in the water storage unit 14 is poor, so that a desired amount of active oxygen species cannot be generated, or dirt is attached to the electrode member, and the life of the electrolysis unit 17 is increased. It can suppress shortening.

(Second Embodiment)
Then, with reference to FIG.8 and FIG.9, the electrolyzed water spraying apparatus D which concerns on 2nd Embodiment of this invention is demonstrated. The electrolyzed water spraying device D according to the second embodiment, when compared with the electrolyzed water spraying device D according to the first embodiment, when the water in the water storage unit 14 may be dirty, the non-drainage operation accepting unit The difference is that the input to 26 is invalidated.

  Hereinafter, the electrolyzed water spraying apparatus D according to the second embodiment will be described focusing on differences from the electrolyzed water spraying apparatus D according to the first embodiment. About the same structure as the electrolyzed water spraying apparatus D which concerns on 1st Embodiment, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  FIG. 8 is a functional block diagram showing detailed functions of the electrolyzed water generating unit 5 in the electrolyzed water spraying apparatus D according to the second embodiment in blocks. The water reservoir 14 is provided with a conductivity detector 33. The conductivity detection unit 33 detects the conductivity of water in the water storage unit 14.

  FIG. 9 is a flowchart showing a drainage display process executed by the control unit 30 when the plug of the electrolyzed water spraying device D is inserted into an outlet and energization of the control unit 30 is started. The difference between the drainage display process and the drainage display process according to the first embodiment is that the process of S11 is executed after the process of displaying that the drainage display part 21 prompts the drainage of the water storage unit 14 in S2. It is a point to be done.

  Specifically, in the process of S11, based on the detection result of the conductivity detector 33, it is determined whether the conductivity of the water in the water storage unit 14 is equal to or lower than the conductivity threshold (S11). As a result, when the said electrical conductivity is below an electrical conductivity threshold value (S11: Yes), the process of S3-S6 same as 1st Embodiment is performed in a waste_water | drain display process.

  On the other hand, if the electrical conductivity of the water in the water storage unit 14 exceeds the electrical conductivity threshold value as a result of the processing of S11 (S11: No), the non-drainage operation accepting unit 26 invalidates the input reception in the drainage display processing. In addition, the fact is displayed on the drainage cancellation invalidity display unit 22 (S22).

  In the drainage display process, it is determined whether or not drainage is performed based on the detection result of the drainage detection unit 32 (S13). If there is no drainage (S13: No), the process of S13 is looped. Keep doing. On the other hand, as a result of the determination in S13, if drainage is carried out (S13: Yes), the drainage display processing performs a drainage cancellation operation invalidation cancellation process for turning off the display by the drainage cancellation invalidity display unit 22 (S14), The process proceeds to S5.

  As described above, in the electrolyzed water spray device D according to the second embodiment, when the conductivity of the water in the water storage unit 14 is high, the electrolyzed water can be generated by the electrolysis unit 17 without draining the water storage unit 14. The input of the non-drainage operation accepting unit 26 that accepts an input to the effect can be made unacceptable. Here, when the electrical conductivity of water is high, there is a possibility that the water in the water reservoir 14 is dirty. Therefore, in such a case, the user can be sure to perform the drainage operation, so that the water state in the water storage unit 14 can be reliably improved. Therefore, the performance of the electrolyzed water spraying device D can be ensured.

  In the process of S11, based on the detection result of the conductivity detector 33, it is determined whether the conductivity of the water in the water reservoir 14 is equal to or less than the conductivity threshold. However, the conductivity of the water in the water reservoir 14 is conductive. It may be determined whether it is less than the rate threshold.

  Moreover, in 2nd Embodiment, when the electrical conductivity of the water in the water storage part 14 exceeded an electrical conductivity threshold value, it was made not to receive the input of the non-drain operation | movement reception part 26, When the input is accepted, if the conductivity of the water in the water storage unit 14 exceeds the conductivity threshold value, an indication to prompt drainage of the water storage unit 14 is immediately displayed on the drainage display unit 21. You may do it. Also by this, the effect similar to the electrolyzed water spraying apparatus D of 2nd Embodiment can be acquired.

(Third embodiment)
Then, with reference to FIG.10 and FIG.11, the electrolyzed water spraying apparatus D which concerns on 3rd Embodiment of this invention is demonstrated. The electrolyzed water spraying device D according to the third embodiment invalidates the input to the non-drainage operation accepting unit 26 when the amount of water in the water supply tank 15a is small compared to the electrolyzed water spraying device D according to the first embodiment. It is different in that.

  Hereinafter, the electrolyzed water spraying apparatus D according to the third embodiment will be described focusing on differences from the electrolyzed water spraying apparatus D according to the first embodiment and the second embodiment. About the same structure as the electrolyzed water spraying apparatus D which concerns on 1st Embodiment and 2nd Embodiment, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  FIG. 10 is a functional block diagram showing detailed functions of the electrolyzed water generating unit 5 in the electrolyzed water spraying apparatus D according to the third embodiment in blocks. The water supply tank 15a is provided with a water amount detection unit 34 that detects the amount of water in the water supply tank 15a. The water amount detection unit 34 detects the amount of water in the water supply tank 15a, for example, by measuring the weight of the water supply tank 15a.

  FIG. 11 is a flowchart showing a drainage display process executed by the control unit 30 when the plug of the electrolyzed water spraying device D is inserted into an outlet and energization of the control unit 30 is started. This drainage display process is different from the drainage display process according to the first embodiment in that the process of S21 is executed after the process of displaying that the drainage display part 21 prompts the drainage of the water storage unit 14 in S2. It is a point to be done.

  Specifically, in the process of S21, based on the detection result of the water amount detection unit 34, it is determined whether the water amount in the water supply tank 15a is greater than or equal to the water amount threshold value (S11). As a result, when the amount of water is equal to or greater than the water amount threshold value (S21: Yes), in the drainage display process, the same processes of S3 to S6 as in the first embodiment are executed.

  On the other hand, as a result of the processing of S21, when the amount of water in the water supply tank 15a is less than the water amount threshold (S21: No), the same processing of S12 to S14 as in the second embodiment is executed in the drainage display processing.

  Thereby, in the electrolyzed water spraying apparatus D which concerns on 3rd Embodiment, when the amount of water in the water supply tank 15a is small, the production | generation operation | movement of the electrolyzed water by the electrolysis part 17 is enabled without draining the water storage part 14 The input of the non-drainage operation accepting unit 26 that accepts input can be prevented from being accepted. Here, when the amount of water in the water supply tank 15a is small, since the electrolyzed water spraying device D is left for a long time, the water in the water storage unit 14 volatilizes and the water level in the water storage unit 14 is lowered to replenish it. It is assumed that the water in the water supply tank 15 a is supplied to the water storage unit 14. That is, the state of the water in the water storage unit 14 may be bad. Therefore, in such a case, the user can be sure to perform the drainage operation, so that the water state in the water storage unit 14 can be reliably improved. Therefore, the performance of the electrolyzed water spraying device D can be ensured.

  In the process of S21, based on the detection result of the water amount detection unit 34, it is determined whether the water amount in the water supply tank 15a is equal to or greater than the water amount threshold value, but based on the detection result of the water amount detection unit 34, It may be determined whether the amount of water has exceeded a water amount threshold.

  Further, when the amount of water in the water supply tank 15a is less than the water amount threshold value, the input of the non-drainage operation accepting unit 26 is not accepted, but when the input of the non-drainage operation accepting unit 26 is accepted, the water supply tank 15a If the amount of water in the tank is less than the water amount threshold, the drainage display unit 21 may immediately display that the water storage unit 14 is drained. Also by this, the effect similar to the electrolyzed water spraying apparatus D of 3rd Embodiment can be acquired.

  As described above, the present invention has been described based on the embodiments, but the present invention is not limited to the above-described embodiments, and various improvements and modifications can be easily made without departing from the spirit of the present invention. It can be guessed. For example, in each embodiment, a part or a plurality of parts of the configuration of the other embodiments are added to the embodiment or replaced with a part or a plurality of parts of the configuration of the embodiment. The embodiment may be modified and configured. Moreover, the numerical value quoted in each said embodiment is an example, and it is naturally possible to employ | adopt another numerical value.

  The electrolyzed water spraying device according to the present invention is useful as an electrolyzed water spraying device that removes bacteria (including inactivation) such as bacteria, fungi, viruses, and odors in the air.

D Electrolyzed water spraying device 1 Main body case 2 Air inlet 3 Opening / closing part 5 Electrolyzed water generating part 6 Air outlet 7 Air blowing part 14 Water storage part 16 Filter part 17 Electrolytic part 19 Spraying part 21 Drainage display part 26 Non-drainage operation acceptance part 30 Control part 31 Drought detection unit 32 Drainage detection unit 33 Conductivity detection unit 34 Water volume detection unit

Claims (7)

An electrolyzed water generating unit having a water storing unit for storing water and an electrolyzing unit for electrolyzing water in the water storing unit to generate electrolyzed water;
A spraying unit for spraying the electrolyzed water generated by the electrolyzed water generating unit;
A drought detection unit for detecting whether the water storage unit is in a drought state or a non-drought state that is not a drought state; and
A drainage display unit for displaying that the drainage of the water storage unit is promoted;
A non-drainage operation accepting unit that accepts an input to enable the electrolyzed water generation operation by the electrolyzing unit without draining the water storage unit when displaying that the drainage display unit prompts drainage;
A control unit,
The controller is
When the drought detection unit detects the non-drought state at the start of energization to the control unit, a display is made to prompt drainage via the drainage display unit,
Electrolyzed water that enables electrolyzed water generation operation by the electrolyzed water generating unit without draining the water storage unit when the non-drainage operation receiving unit receives the input with respect to the display of the drainage display unit Spraying equipment.   2. The electrolyzed water spraying device according to claim 1, wherein the control unit does not allow electrolyzed water generation operation by the electrolyzed water generating unit when performing an indication that drainage is promoted via the drainage display unit. A body case for storing the water reservoir;
An opening / closing part that restricts contact with the water storage part stored in the main body case,
The non-drainage operation acceptance unit is
3. The electrolyzed water spraying device according to claim 1, wherein the electrolysis water spraying device is provided at a position where the input can be received only when the opening / closing portion is in an open state allowing contact with the water storage portion. A drainage detector that detects drainage from the water reservoir,
The controller is
4. The electrolyzed water generating operation by the electrolyzing unit is not allowed when the drainage detecting unit cannot detect the drainage and there is no input to the non-draining operation accepting unit. The electrolyzed water spraying device described in 1. A conductivity detector for detecting the conductivity of water in the water reservoir;
The controller is
5. The electrolyzed water spraying device according to claim 1, wherein when the conductivity detected by the conductivity detector is larger than a conductivity threshold, the input by the non-drainage operation accepting unit is not accepted. A water supply tank for supplying water to the water reservoir;
A water amount detection unit for detecting the amount of water in the water supply tank;
The controller is
The electrolyzed water spraying device according to any one of claims 1 to 5, wherein when the water amount detected by the water amount detection unit is smaller than a water amount threshold value, the input by the non-drainage operation reception unit is not received. A main body case having an air inlet and an air outlet is provided.
The spraying part
A filter part that is immersed in the electrolyzed water in the water storage part to keep the water in contact with the air that has flowed from the air inlet;
The electrolyzed water spraying device according to claim 1, further comprising: an air blowing unit that guides air that has contacted the filter unit to the air outlet.