JP6918285B2 - Water spouting device - Google Patents

Description

The present invention relates to a water discharge device, and more particularly to a water discharge device that automatically discharges water when an object to be detected such as a human body is detected.

Conventionally, there has been known a water discharge device that automatically discharges water when a sensor detects an object to be detected such as a human body (for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 2014-43695

In a hand wash basin to which such a water discharge device that automatically discharges water is applied, water is discharged when the sensor detects the object to be detected, and water (sewage) containing dirt generated by hand washing etc. flows into the bowl. To go. However, if the period in which water is not discharged from the water discharge device (that is, the period in which the object to be detected is not detected by the sensor) continues for a long time, the dirt adheres to the bowl and dries, and the dirt is removed. It becomes difficult. In order to suppress this, water is automatically discharged to the bowl when a predetermined period of time elapses after the standby state in which the object to be detected is not detected has elapsed after the water discharge by the detection of the object to be detected is completed. It is advisable to perform after-water discharge to prevent dirt from sticking.

When the sensor detects an object to be detected, the water discharge device for after-water discharge has a raw water flow path for supplying raw water and a functional water flow path for supplying functional water such as electrolyzed water having a sterilization function. In some cases, raw water is supplied from the raw water channel, and when after-water discharge is performed, functional water is supplied from the functional water channel. In this way, by performing after-spouting with functional water having a sterilizing function, dirt adhering to the bowl can be efficiently removed.
However, a water discharge device as in Patent Document 1 detects a hand or the like held in front of the faucet body as an object to be detected by a sensor. Therefore, even when the user is standing in front of the faucet body without holding his hand, such as when the user is washing his hands with soap, the standby state is set, and when the standby state elapses, the functional water is used. After-water discharge may be performed.

In this case, there is a risk that the user cannot wash his / her hand at the timing when he / she wants to use it, or that the user holds his / her hand over the functional water spouted by after-spouting water and the functional water touches his / her hand.

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to prevent after-water discharge from being performed at the timing when the user uses water in a water discharge device that performs after-water discharge using functional water. And.

The water spouting device according to one aspect of the present invention is formed at the tip of the faucet body and has a first spout and a second spout. A second water spouting unit, a human body detection sensor that detects a human body, a raw water spouting means that discharges raw water from the first spout based on the detection of the human body detection sensor, and a function of reforming water. A functional water spouting means that has a functional water generating means for generating water and sprays and spouts the functional water so as to spread at a predetermined angle from the second spout, and a human body detection sensor in the raw water spouting. (1) A water discharge device including a control means for stopping the discharge of raw water when the human body is no longer detected within a predetermined range and then spraying and discharging the functional water for after-water discharge. Is to prohibit the after-water discharge from being performed while the human body detection sensor detects the human body within the second predetermined range, which is farther from the human body detection sensor than the first predetermined range. Prohibition control is performed.

According to the water spouting device configured in this way, even if the human body is not detected within the first predetermined range, after-spouting with the functional water is not performed when the human body is detected within the second predetermined range. .. As a result, after-water discharge is not performed when the user is detected within the second predetermined range, such as when the user is washing his or her hands with soap in the vicinity of the water discharge device. Therefore, it suppresses after-spouting at the timing when the user uses water, and the user cannot wash his / her hand at the timing when he / she wants to use it. It is possible to prevent water from touching the hands.

Further, the water spouting device according to one aspect of the present invention includes a spout, a human body detection sensor for detecting a human body, a raw water spouting means for spouting raw water from the spout based on the detection of the human body detection sensor, and water. It has a functional water generating means for reforming to generate functional water, and the functional water spouting means for discharging the functional water from the spout, and the human body detection sensor within the first predetermined range during the spouting of the raw water. A water discharge device including a control means for stopping the discharge of raw water when the human body is no longer detected and then discharging after-water discharge to discharge the functional water. The control means is the human body detection sensor. While the human body is detected within the second predetermined range, which is farther from the human body detection sensor than the first predetermined range, the after water discharge prohibition control for prohibiting the after water discharge is performed. When the human body detection sensor stops detecting the human body within the second predetermined range during the execution of the after water discharge prohibition control, if the first predetermined time has elapsed from the previous stop of the discharge of raw water, the after water discharge On the other hand, if the first predetermined time has not elapsed since the previous stop of raw water discharge, the after-water discharge is started when the first predetermined time has elapsed since the previous stop of raw water discharge.

According to the water discharge device configured in this way, even if the human body is no longer detected within the second predetermined range when the first predetermined time has not elapsed from the stop of the discharge of the raw water, at least the first from the stop of the discharge of the raw water. 1 After-water discharge is not performed until a predetermined time has elapsed. As a result, after-water discharge is suppressed when the user uses water, and the user cannot wash his / her hand at the timing when he / she wants to use it, or the user holds his / her hand over the functional water discharge due to after-water discharge. It is possible to prevent the functional water from touching the hands.

Further, the water spouting device according to one aspect of the present invention includes a spout, a human body detection sensor for detecting a human body, a raw water spouting means for spouting raw water from the spout based on the detection of the human body detection sensor, and water. It has a functional water generating means for reforming to generate functional water, and the functional water spouting means for discharging the functional water from the spout, and the human body detection sensor within the first predetermined range during the spouting of the raw water. A water discharge device including a control means for stopping the discharge of raw water when the human body is no longer detected and then discharging after-water discharge to discharge the functional water. The control means is the human body detection sensor. While the human body is detected within the second predetermined range, which is farther from the human body detection sensor than the first predetermined range, the after water discharge prohibition control for prohibiting the after water discharge is performed. After the human body detection sensor stops detecting the human body within the second predetermined range during the execution of the after water discharge prohibition control and continues for a second predetermined time, the after water discharge is performed.

According to the water discharge device configured in this way, after water discharge is not performed until at least the second predetermined time elapses after the human body is no longer detected within the second predetermined range. As a result, after-water discharge is suppressed when the user uses water, and the user cannot wash his / her hand at the timing when he / she wants to use it, or the user holds his / her hand over the functional water discharge due to after-water discharge. It is possible to prevent the functional water from touching the hands.

Further, in the water discharge device according to one aspect of the present invention, the control means periodically performs timer water discharge to discharge the raw water or the functional water, and the human body detection sensor detects the human body within the second predetermined range. While doing so, it may be prohibited that the timer water discharge is performed.

According to the water spouting device configured in this way, in addition to the after spouting performed after the spouting of the raw water is stopped, the timer spouting of the raw water or the functional water is periodically performed. In this timer spouting, when the human body is detected within the second predetermined range, the timer spouting is not performed. As a result, it is possible to prevent the timer water discharge from being performed at the timing when the user uses the water.

According to the present invention, in a water discharge device that discharges after-water with functional water, it is possible to suppress that after-water discharge is performed at the timing when the user uses water.

It is a perspective view of the hand wash basin to which the water discharge device in this embodiment is applied seen from diagonally above. It is a perspective view which (A) the water discharge device in this embodiment was seen from diagonally below, and is (B) the cross-sectional view of IIB-IIB in FIG. 2 (A). It is a vertical cross-sectional view of the second water discharge part seen along the flow direction of water in this embodiment. It is a figure which showed the water discharge range of the 2nd water discharge part and the irradiation range of LED in this embodiment. It is a figure for demonstrating the arrangement relation of the 1st water discharge part, the 2nd water discharge part, and a sensor in this embodiment. It is a block diagram which shows schematic the functional structure of the water discharge device in this embodiment. It is a time chart which shows the basic control in this embodiment. It is a time chart which shows the 1st control example in 1st Embodiment of this invention. It is a time chart which shows the 2nd control example in 1st Embodiment of this invention. It is a time chart which shows the 3rd control example in this embodiment. It is a flowchart which shows the control flow performed by the controller in 1st Embodiment of this invention. It is a time chart which shows the 4th control example in 2nd Embodiment of this invention. It is a flowchart which shows the control flow performed by the controller in 2nd Embodiment of this invention. It is a block diagram which shows schematic the functional structure of the water discharge device in another embodiment of this invention. It is a block diagram which shows schematic the functional structure of the water discharge device in another embodiment of this invention.

<Overall configuration>
First, the overall configuration of the water discharge device according to the present embodiment will be described with reference to FIG. FIG. 1 is a perspective view of a hand wash basin to which the water discharge device according to the present embodiment is applied, as viewed from diagonally above.

As shown in FIG. 1, the hand wash basin 5 mainly has a water discharge device 1 that automatically discharges water and stops water discharge according to a detection state of a detected object such as a human body, and water is discharged from the water discharge device 1. It has a bowl 3 that receives water and drains it from a drain port (not shown).

<Configuration of water discharge device>
Next, the details of the water discharge device according to the present embodiment will be described with reference to FIGS. 2 to 6. FIG. 2 is a perspective view of (A) a water discharge device in the present embodiment as viewed from diagonally below, and (B) is a sectional view taken along line IIB-IIB in FIG. 2 (A).

As shown in FIG. 2A, the water discharge device 1 has a faucet main body 11 which is a curved tubular member. As shown in FIGS. 2A and 2B, the tip of the faucet main body 11 has a first water spouting portion 12 configured to discharge foam from the first spouting port 12a. , A nozzle-shaped second water discharge unit 13 configured to perform spray water discharge (in other words, mist water discharge) from the second water discharge port 13a, a sensor 14 for detecting an object to be detected, and an LED for irradiating light (in other words, mist water discharge). Light Emitting Diode) 15 and the like are arranged. Specifically, the sensor 14, the first spout 12a, the LED 15, and the second spout 13a are arranged in this order from top to bottom at the tip of the faucet body 11. .. Further, inside the faucet main body 11, it is connected to a first water discharge unit 12, and is connected to a raw water flow path 17 that supplies raw water toward the first water discharge unit 12 and a second water discharge unit 13. A functional water flow path 18 for supplying functional water (electrolyzed water described later) toward the second water discharge portion 13 is provided.

Here, the first water discharge unit 12 mixes air with a filter as foam discharge, and discharges foam-like water in which bubbles are contained in the water flow to be discharged. On the other hand, the second spouting portion 13 is wider than the cross-sectional area (diameter) of the second spouting port 13a so that the water spreads from the second spouting port 13a at a predetermined angle as spray water spouting. Discharge in the form of mist so that the water spreads over the area. Further, the second water discharge unit 13 sprays and discharges water at a flow rate smaller than that of the first water discharge unit 12, and also sprays and discharges water at a flow rate faster than that of the first water discharge unit 12. In one example, the first water spouting unit 12 foams water at 2 liters per minute, and the second water spouting unit 13 sprays water at 0.3 liters per minute.

Next, with reference to FIG. 3, the principle of spray water discharge of the second water discharge portion in the present embodiment will be described. FIG. 3 is a vertical cross-sectional view of the second water discharge portion viewed along the water flow direction in the present embodiment.

As shown in FIG. 3, in the second water discharge portion 13, the water flowing in from the inflow port 13b provided at the upper end creates a straight flow (see arrow A11) in the internal flow path 13d and also causes an internal flow. Water flowing from the slit portion 13c formed on the outer peripheral surface of the upper end portion of the path 13d creates a swirling flow (see arrow A12) in the internal flow path 13d. Due to the synergistic effect of such a straight flow and a swirling flow, spray water is sprayed in a full cone shape from one second spout 13a at the lower end of the internal flow path 13d. Specifically, water is discharged over a range larger than the cross-sectional area (diameter) of the second spout 13a. In this case, water spreads and is discharged from the second water discharge port 13a at a discharge angle θ. In the foam spouting by the first spouting portion 12 described above, water is discharged in a range substantially the same as the cross-sectional area (diameter) of the first spouting port 12a, so that the second spouting port of the second spouting portion 13 is discharged. The discharge angle θ from 13a is larger than the discharge angle from the first water discharge port 12a of the first water discharge unit 12.

Next, with reference to FIG. 4, the relationship between the water discharge range of the second water discharge unit and the LED irradiation range in the present embodiment will be described. FIG. 4 is a diagram showing a water discharge range and an LED irradiation range of the second water discharge unit in the present embodiment.

As shown in FIG. 4, in the present embodiment, in order to notify the user of the water discharge range R11 of the water sprayed and discharged by the second water discharge unit 13 by the light from the LED 15, the light irradiation range R12 by the LED 15 is set. The installation angle of the LED 15 and the irradiation range of the LED 15 are set so as to substantially match the water discharge range R11 by the second water discharge unit 13. For example, the LED 15 is arranged so that the central axis of the LED 15 is substantially parallel to the central axis of the second water discharge portion 13.

Next, with reference to FIG. 5, the arrangement relationship between the first water discharge unit, the second water discharge unit, and the sensor in the present embodiment will be described. FIG. 5 is a diagram for explaining the arrangement relationship between the first water discharge unit, the second water discharge unit, and the sensor in the present embodiment.

The sensor 14 in this embodiment is a sensor using infrared rays. The sensor 14 emits an infrared emission wave as a propagating wave, and the emitted propagating wave is reflected by an object to be detected such as a user's hand. The reflected reflected wave is received.
The sensor 14 is not limited to the sensor using infrared rays as in the present embodiment, and may be, for example, a radio wave sensor, an electrostatic sensor, a photoelectric sensor using other than infrared rays, or the like.

As shown in FIG. 5, in the present embodiment, the second spout 13a of the second spout 13 is arranged behind the first spout 12a of the first spout 12, and the second spout 13a is arranged. The water dripping from the water spout 12a of 1 does not cover the second water spout 13a. In this case, the second spout 13a of the second spout 13a also prevents the water sprayed from the second spout 13a from being applied to the first spout 12a of the first spout 12. It is arranged. In addition, the second spout 13a of the second spout 13 is arranged so as to spray water toward the vicinity of the drain port of the bowl 3 (not shown in FIG. 5). Further, in the present embodiment, the sensor 14 is transmitted from the second spout 13a of the second spout 13 so that the hand can be appropriately detected by the sensor 14 even if the person does not reach so far. Is also arranged on the front side. In other words, the second spout 13a is arranged on the rear side of the sensor 14. By doing so, the water sprayed from the second spout 13a is less likely to be applied to a part of the user's arm or body that he / she does not want to get wet.

Further, in the present embodiment, the orientation relationship between the sensor 14 and the second water discharge unit 13 is set so that the sensor 14 does not detect the water sprayed from the second water discharge port 13a of the second water discharge unit 13. It is adopted. Specifically, since the detection accuracy of the sensor 14 decreases as the distance from the sensor 14 increases, the directional range R13 corresponding to the detection direction A23 regarding the detection of the object to be detected by the sensor 14 (the range including the detection range of the sensor 14). The sensor 14 and the second water discharge unit 13 intersect with the water discharge range R11 of the second water discharge unit 13 at a distant position on the front side. The relationship of orientation with is adopted. Specifically, the sensor 14 is arranged so that the detection direction A23 of the sensor 14 faces in a direction away from the water discharge direction A22 of the second water discharge unit 13. In other words, the line L13 (typically corresponding to the central axis of the sensor 14) along the detection direction A23 of the sensor 14 extends vertically from the center of the second spout 13a of the second spout portion 13. The sensor 14 is arranged so as not to intersect the line L12 (typically corresponding to the central axis of the second water discharge portion 13) on the front side.

Further, in the present embodiment, the first water spouting unit 12 and the second water spouting unit 13 are provided so that the water sprayed from the second spouting port 13a of the second water spouting unit 13 is less likely to be applied to the user. The orientation relationship is adopted. Specifically, the first water discharge unit 12 and the second water discharge unit 12 so that the water discharge direction A21 of the first water discharge unit 12 and the water discharge direction A22 of the second water discharge unit 13 face each other. Each of 13 is arranged. In other words, a line L11 (typically corresponding to the central axis of the first spouting portion 12) extending in the vertical direction from the center of the first spouting port 12a of the first spouting portion 12 and a second spouting portion The first spout portion so that the line L12 (typically corresponding to the central axis of the second spout portion 13) extending vertically from the center of the second spout 13a of 13 does not intersect on the front side. Each of the 12 and the second water discharge portion 13 is arranged.

Next, the functional configuration of the water discharge device according to the present embodiment will be described with reference to FIG. FIG. 6 is a block diagram schematically showing the functional configuration of the water discharge device according to the present embodiment.

As shown in FIG. 6, in the water discharge device 1 in the present embodiment, a common flow path 21 is connected to the upstream side of both the raw water flow path 17 and the functional water flow path 18 (see FIG. 2 and the like) described above. Raw water such as general tap water (city water) (in this specification, this water is appropriately referred to as "raw water" to distinguish it from electrolyzed water) is supplied to the common flow path 21. On the common flow path 21, in order from the upstream side, a water stop valve 22 for blocking the flow of raw water in the common flow path 21, a filter 23 for removing foreign substances mixed in the raw water, and a constant flow rate on the secondary side. A constant flow rate valve 24 is provided, and is branched into a raw water flow path 17 and a functional water flow path 18 at the downstream end of the common flow path 21.

The raw water flow path 17 is provided with a first solenoid valve 25 that switches between the flow and shutoff of raw water in the raw water flow path 17 by opening and closing. When the first solenoid valve 25 is open, the raw water flows into the raw water flow path 17, and the raw water is foamed and discharged from the first water discharge portion 12 connected to the downstream end of the raw water flow path 17. NS.

On the other hand, the functional water flow path 18 is provided with a second solenoid valve 28, a pressure regulating valve 29, a safety valve 30, a check valve 35, and an electrolytic cell 37 in this order from the upstream side. By opening and closing the second solenoid valve 28, the flow and cutoff of raw water in the functional water flow path 18 are switched. When the second solenoid valve 28 is open, raw water flows through the functional water flow path 18, and spray water is discharged from the second water discharge portion 13 connected to the downstream end of the functional water flow path 18. .. The pressure adjusting valve 29 is a valve that adjusts the water pressure to a desired pressure (a pressure suitable for spraying water). The safety valve 30 opens when the pressure in the functional water flow path 18 becomes equal to or higher than a predetermined pressure (for example, when the second spout 13a is blocked and the pressure in the functional water flow path 18 suddenly rises), and the functional water flow flows. It is a valve that allows water in the passage 18 to flow into the raw water flow path 17 via the bypass flow path 31 to reduce the pressure in the functional water flow path 18. The check valve 35 is a valve that prevents backflow of water. When the electrolytic cell 37 is energized, raw water is electrolyzed to generate electrolyzed water (this electrolytic cell 37 corresponds to the "functional water generating means" in the present invention). A filter may be further provided on the downstream side of the electrolytic cell 37.

Further, the water discharge device 1 further includes a controller 40 that controls components in the water discharge device 1 such as the first solenoid valve 25, the second solenoid valve 28, and the electrolytic cell 37 (this controller 40 is the "controller 40" in the present invention. Corresponds to "control means"). The controller 40 operates by the electric power from the AC power source 39, and supplies the electric power of the AC power source 39 to each of the sensor 14, the LED 15, the first solenoid valve 25, the second solenoid valve 28, and the electrolytic cell 37. Take control. Specifically, the controller 40 acquires a sensor signal indicating the detection state of the object to be detected by the sensor 14, controls to switch the LED 15 on / off based on the sensor signal, and opens / closes the first solenoid valve 25. Control to switch, control to switch the opening and closing of the second solenoid valve 28, and control to switch execution / stop of generation of electrolyzed water by the electrolytic cell 37. Further, the controller 40 has a first timer 41 and a second timer 42.

Further, the sensor 14 receives the transmitting unit 14a that transmits an infrared emission wave as a propagating wave and the reflected wave that the propagating wave transmitted by the transmitting unit 14a is reflected by an object to be detected such as a user's hand. It includes a receiving unit 14b. The sensor 14 transmits the output value of the reflected wave received by the receiving unit 14b to the controller 40.
The controller 40 determines the distance between the object to be detected detected by the sensor 14 and the sensor 14 based on the output value of the reflected wave transmitted from the sensor 14. Specifically, based on the output value of the reflected wave transmitted from the sensor 14, when the distance between the sensor 14 and the object to be detected is equal to or greater than the first threshold value, a hand is held near the first water discharge portion 12. It is determined that this is the state in which the sensor 14 is detecting the object to be detected within the first predetermined range. When the distance between the sensor 14 and the object to be detected is less than the first threshold value and greater than or equal to the second threshold value, the object to be detected is placed near the hand wash basin 5 although the hand is not held near the first water discharge portion 12. It is determined that the state of detection, that is, the state in which the sensor 14 detects the object to be detected outside the first predetermined range and within the second predetermined range. Regarding the magnitude relationship between the first threshold value and the second threshold value, the first threshold value> the second threshold value, and the first predetermined range indicates a range in which the distance from the sensor 14 is shorter than that of the second predetermined range.
When the distance between the sensor 14 and the object to be detected is less than the second threshold value, the object to be detected is not detected in the vicinity of the hand wash basin 5, that is, the sensor 14 is within the first predetermined range and the second predetermined object. It is determined that the object to be detected is not detected within the range.

Here, the electrolyzed water generated by the electrolytic cell 37 will be described.

The electrolyzed water used in this embodiment may be any water having a sterilizing function obtained by electrolysis. A typical example of electrolyzed water is electrolyzed water containing hypochlorous acid. Generally, clean water or reclaimed water contains chlorine ions, so free chlorine is generated by electrolysis. Free chlorine exists as hypochlorous acid (HClO) in acidity, and in this form, it has about 10 times stronger bactericidal activity than hypochlorite ion (ClO-), which exists in alkaline form. Moreover, even if it is neutral, a strong bactericidal power in the middle can be obtained. Therefore, the water electrolyzed in the continuous electrolysis tank is sterilizing water having a strong sterilizing power.

As mentioned above, commonly used clean water or medium water contains chloride ions, but when used in areas where the chlorine ion concentration is low or when strong bactericidal action is required, salt is used. Chloride ions can be supplemented by adding chlorides such as.

As the electrode used for chlorine generation, one in which a chlorine generation catalyst is supported on a conductive base material or a conductive material made of a chlorine generation catalyst is used. Depending on the type of chlorine generation catalyst, for example, iron-based electrodes such as ferrite, palladium-based electrodes, ruthenium-based electrodes, iridium-based electrodes, platinum-based electrodes, ruthenium-tin-based electrodes, palladium-platinum-based electrodes, and iridium-platinum-based electrodes. , Ruthenium-platinum-based electrodes, iridium-platinum-tantal electrodes, etc. A conductive base material on which a chlorine generation catalyst is supported is advantageous in terms of manufacturing cost because the base material portion that bears the structure can be made of an inexpensive material such as titanium or stainless steel.

In addition to chlorine, it may be hypochlorous acid obtained by electrolyzing water containing halogen ions.

Examples of other electrolyzed water include silver ionized water obtained by using silver as an electrode. It is said that silver ions are adsorbed on the enzyme in the cell membrane of the bacterium and inhibit the action of the enzyme, so that the bacterium cannot sustain its life. It also has the effect of coating the surface of the base material that comes into contact with it, making it difficult for bacteria to grow on the surface of the base material. Since silver ions can coat the surface of the base material to prevent the adhesion of bacteria and have bactericidal activity, the growth of bacteria on the surface of the base material can be effectively suppressed. At that time, by combining with a cleaning method that increases the replacement rate of the drain trap, it is possible to suppress the sliminess and odor of the drain port for a long period of time.

In addition, by using lead dioxide (β type) as an electrode for electrolysis, various types of electrolyzed water such as ozone water that generates high-concentration ozone along with oxygen generation on the anode side can be preferably used. Is.

Further, examples of the sterilized water other than the electrolyzed water include an aqueous solution in which various sterilizing components are dissolved. As the sterilizing component to be dissolved, any of solid, liquid and gas may be used. When a liquid sterilizing component is used, for example, ethanol, alcohols such as isopropanol, hydrogen peroxide, or the like may be applied. When a gas sterilizing component is used, for example, ozone water may be produced by dissolving ozone as fine bubbles in water. When a solid sterilizing component is used, for example, sodium hypochlorite or the like may be applied.

The various sterilized waters described above correspond to the "functional water" in the present invention.
Here, in the present specification, the word "sterilization" not only means to reduce bacteria (in this case, it includes not only the meaning of removing and reducing bacteria but also the meaning of killing and reducing bacteria). It is used as a broad concept that includes the meaning of suppressing the growth of bacteria even if it does not reduce. The "functional water" in the present invention means water in which a sterilizing function in this sense is added to the raw water by reforming the raw water by a predetermined treatment.
In the present embodiment, an example in which electrolyzed water is used as the functional water in the present invention will be described, but the above-mentioned sterilized water other than electrolyzed water may be used instead of the electrolyzed water. Needless to say.

<Control by controller>
Next, with reference to FIG. 7, the basic control executed by the controller according to the embodiment of the present invention will be specifically described. FIG. 7 is a time chart showing basic control in this embodiment.

FIG. 7 shows, in order from the top, a sensor signal supplied from the sensor 14 to the controller 40, a drive signal supplied from the controller 40 to the second solenoid valve 28, and a drive supplied from the controller 40 to the first solenoid valve 25. The signal indicates the water discharge state of the water discharge device 1.
The sensor signal is near-detected when the distance between the sensor 14 and the object to be detected is equal to or greater than the first threshold value, and far-detected when the distance between the sensor 14 and the object to be detected is less than the first threshold value and greater than or equal to the second threshold value. , When the distance between the sensor 14 and the object to be detected is less than the second threshold value, non-detection is performed. Further, the drive signal of the second solenoid valve 28 corresponds to the open / closed state of the second solenoid valve 28, and the drive signal of the first solenoid valve 25 corresponds to the open / closed state of the first solenoid valve 25. do. Further, regarding the water discharge state of the water discharge device 1, the state in which the raw water is foamed from the first water discharge unit 12 (hereinafter referred to as "hand wash water discharge") and the water discharge state after the hand wash water discharge is stopped. In a state where electrolyzed water is sprayed and discharged from the second water discharge unit 13 (hereinafter referred to as "after water discharge") when the water is discharged for a predetermined time, water is discharged from the first water discharge unit 12 and the second water discharge unit 13. It becomes a water stop state that has not been done.

First, at time t11, the sensor signal switches from non-detection to near detection. At this time, the controller 40 energizes the first solenoid valve 25 to open the first solenoid valve 25, and foams the raw water from the first water discharge unit 12, that is, starts the hand wash water discharge. Then, at time t12, the sensor signal switches from near detection to non-detection, that is, the state in which the sensor 14 detects the object to be detected within the first predetermined range is switched to the non-detection state. At this time, the controller 40 stops the energization of the first solenoid valve 25, closes the first solenoid valve 25, and ends the foam discharge from the first water discharge unit 12, that is, the water discharge for hand washing. To finish.

After that, from the time t12 when the foam water discharge as the hand wash water discharge is completed, the sensor signal maintains the non-detection for the first predetermined time T1, that is, the sensor 14 is detected within the first predetermined range and the second predetermined range. At the time t13 in which the non-detection state (water stop state) in which no object is detected continues for the first predetermined time T1, the controller 40 energizes the second solenoid valve 28 and opens the second solenoid valve 28. , The electrolyzed water is sprayed and discharged from the second water discharge unit 13, that is, after-water discharge is started.
This after-spouting is performed in order to prevent the dirt that has flowed out by hand-washing using the above-mentioned hand-washing spouting water from becoming difficult to remove due to drying and sticking to the bowl 3 of the hand-washing basin 5 or the like. ing. That is, after the lapse of the first predetermined time T1 after the hand-washing water spouting is completed, the after-water spouting is performed to wash away the dirt before the dirt caused by the hand-washing water spouting dries and sticks. From such a viewpoint, the first predetermined time T1 is set based on the time until the dirt due to the water spouting for hand washing dries and adheres. For example, the first predetermined time T1 is set to 3 seconds.

After that, at the time t14 when a predetermined time elapses from the time t13 when the second solenoid valve 28 is opened, the controller 40 stops the energization of the second solenoid valve 28 and closes the second solenoid valve 28. By valve, the spray water discharge from the second water discharge unit 13 is terminated, that is, the after water discharge is terminated.

(First Embodiment)
Next, the control performed by the controller 40 in the first embodiment of the present invention will be described with reference to FIGS. 8 to 10. 8 to 10 are control examples according to the first embodiment of the present invention, which are performed based on the above-mentioned basic control (see FIG. 7).

FIG. 8 is a time chart showing a first control example according to the first embodiment of the present invention. FIG. 8 shows, in order from the top, a sensor signal supplied from the sensor 14 to the controller 40, a drive signal supplied from the controller 40 to the second solenoid valve 28, and a drive supplied from the controller 40 to the first solenoid valve 25. The signal indicates the water discharge state of the water discharge device 1.
Here, the description of the same control as the basic control described above will be omitted as appropriate. Specifically, the control from time t21 to time t22 and the control from time t24 to time t25 are the same as the basic control, so the description thereof is omitted and only the control from time t22 to time t24 is performed. explain.

In the above-mentioned basic control, after water discharge is executed when the first predetermined time T1 elapses after the hand wash water discharge is executed, but in the first control example, after the hand wash water discharge is executed, the first control is performed. 1 The present invention relates to the control performed when the sensor 14 detects an object to be detected outside the first predetermined range and within the second predetermined range for T1 or more for a predetermined time. Specifically, in the first control example, at the time t22 when the water discharge for hand washing is finished, the sensor 14 does not detect the object to be detected within the first predetermined range, but detects it within the second predetermined range. The sensor signal is in the distance detection state. At the time t23 when the first predetermined time T1 elapses from the time t22 when the water discharge for hand washing is finished, the state where the sensor signal is far detection, that is, the state where the sensor 14 detects the object to be detected within the second predetermined range continues. The controller 40 maintains the closed state of the second solenoid valve 28 without energizing the second solenoid valve 28, that is, maintains the water stop state without starting after-water discharge.

After that, at time t24, the sensor signal is switched from the distance detection to the non-detection, that is, the state in which the sensor 14 detects the object to be detected outside the first predetermined range and within the second predetermined range is switched to the non-detection state. At this time, the controller 40 energizes the second solenoid valve 28 to open the second solenoid valve 28, and sprays electrolyzed water from the second water discharge unit 13, that is, starts after-water discharge.

As described above, in the first control example, when the water stop state continues for the first predetermined time T1 after the execution of the hand washing water discharge, the sensor 14 detects the object to be detected within the second predetermined range. , After-spouting is not performed by spraying electrolyzed water from the second spouting unit 13, and after that, after-spouting is started when the sensor 14 does not detect the object to be detected within the second predetermined range. By doing so, the user is detected in the vicinity of the hand wash basin 5, and when there is a high possibility that the hand wash basin is re-executed, after-water discharge is not performed, and the user is detected in the vicinity of the hand wash basin 5. After-spouting can be performed when it is unlikely that the hand-washing water spouting will be performed again by the user.

Next, FIG. 9 is a time chart showing a second control example according to the first embodiment of the present invention. 9 shows a sensor signal supplied from the sensor 14 to the controller 40, a drive signal supplied from the controller 40 to the second solenoid valve 28, and a drive supplied from the controller 40 to the first solenoid valve 25 in this order from the top. The signal indicates the water discharge state of the water discharge device 1.
Here, the description of the same control as the basic control described above will be omitted as appropriate. Specifically, the control from time t31 to time t32 and the control from time t34 to time t35 are the same as the basic control, so the description thereof will be omitted and only the control from time t32 to time t34 will be described. do.

The second control example is performed when the sensor 14 detects an object to be detected outside the first predetermined range and within the second predetermined range for less than T1 for the first predetermined time after the water discharge for hand washing is executed. Regarding control. Specifically, in the second control example, at the time t32 when the water discharge for hand washing is finished, the sensor 14 does not detect the object to be detected within the first predetermined range, but detects it within the second predetermined range. That is, the sensor signal is in the distance detection state. At the time t33 before the first predetermined time T1 elapses from the time t32 when the water discharge for hand washing is finished, the sensor signal is switched from the distance detection to the non-detection, that is, the sensor 14 is outside the first predetermined range and within the second predetermined range. The state in which the object to be detected is detected is switched to the non-detection state.

After that, at the time t34 when the first predetermined time T1 elapses from the time t32 when the water discharge for hand washing ends, the controller 40 energizes the second solenoid valve 28 to open the second solenoid valve 28, and the second solenoid valve 28 is opened. Electrolyzed water is sprayed and discharged from the water discharge unit 13 of 2, that is, after-water discharge is started.

As described above, in the second control example, when the sensor 14 does not detect the object to be detected within the second predetermined range before the first predetermined time elapses after the execution of the hand wash water discharge, the hand wash water discharge is executed. After that, when the water stop state continues for T1 for the first predetermined time, after-spouting is performed by spraying electrolyzed water from the second spouting unit 13. Until the first predetermined time T1 elapses after the sensor 14 does not detect the object to be detected within the first predetermined range, the user holds his / her hand near the first water spouting portion 12 to re-spout water for hand washing. Likely to be executed. Therefore, in the second control example, the user is not detected in the vicinity of the hand wash basin 5, and after-water discharge can be performed when it is unlikely that the user will perform hand wash water discharge.

Next, FIG. 10 is a time chart showing a third control example in the present embodiment. FIG. 10 shows, in order from the top, a sensor signal supplied from the sensor 14 to the controller 40, a drive signal supplied from the controller 40 to the second solenoid valve 28, and a water discharge state of the water discharge device 1.
Regarding the water discharge state of the water discharge device 1, a state in which electrolyzed water is periodically discharged from the second water discharge unit 13 (hereinafter referred to as "timer water discharge"), from the first water discharge unit 12 and the second water discharge unit 13. The water is stopped without being discharged.

The third control example relates to the control when the timer water discharge for periodically discharging the electrolyzed water from the second water discharge unit 13 is performed separately from the after water discharge described above. Specifically, in the third control example, the controller 40 performs timer water discharge by spraying electrolyzed water from the second water discharge unit 13 between the time t41 and the time t42 when the sensor signal is not detected. .. After that, at the time t43 when the second predetermined time T2 elapses after the execution of the timer water discharge and the sensor signal is not detected, the controller 40 energizes the second solenoid valve 28 and opens the second solenoid valve 28. The valve is valved, and the electrolyzed water is sprayed and discharged from the second water discharge unit 13, that is, the timer water discharge is started. At a time t44 when a predetermined time has elapsed from the start of the timer water discharge, the controller 40 stops the energization of the second solenoid valve 28 and closes the second solenoid valve 28 to close the second solenoid valve 28, thereby causing the second solenoid valve 13 to discharge water. End the spray water discharge from, that is, end the timer water discharge.

Further, the second predetermined time T2 elapses from the execution of the timer water discharge from the time t43 to the time t44, and at that time, the sensor signal that the sensor 14 detects the object to be detected outside the first predetermined range and within the second predetermined range is far away. At time t45, which is the detection state, the controller 40 maintains the closed state of the second solenoid valve 28 without energizing the second solenoid valve 28, that is, the water is stopped without starting the timer water discharge. To maintain.

After that, at time t46, the sensor signal switches from far detection to non-detection, that is, the sensor 14 switches from the state in which the object to be detected is detected within the first predetermined range and within the second predetermined range to the non-detection state. At this time, the controller 40 energizes the second solenoid valve 28 to open the second solenoid valve 28, and sprays electrolyzed water from the second water discharge unit 13, that is, starts timer water discharge. Then, at the time t47 when a predetermined time elapses from the start of the timer water discharge, the controller 40 stops the energization of the second solenoid valve 28 and closes the second solenoid valve 28 to close the second solenoid valve 28, whereby the second solenoid valve 28 is discharged. The spray water discharge from the unit 13 is terminated, that is, the timer water discharge is terminated.

As described above, in the third control example, the dirt adhering to the bowl 3 and the like is dried and fixed by periodically performing timer water discharge to discharge the electrolyzed water from the second water discharge unit 13 in addition to the after water discharge. By doing so, it is possible to further suppress the difficulty in removing. Further, by performing timer water discharge, the water accumulated in the functional water flow path 18 can be periodically discharged.

Then, when the timer water discharge is performed, when the sensor 14 detects the object to be detected within the second predetermined range, the timer water discharge by the spray water discharge of the electrolyzed water from the second water discharge unit 13 is not performed. After that, when the sensor 14 does not detect the object to be detected within the second predetermined range, the timer water discharge is started. By doing so, the user is detected in the vicinity of the hand wash basin 5, the timer water discharge is not performed when there is a high possibility that the hand wash basin is executed, and the user is detected in the vicinity of the hand wash basin 5. Instead, timer spouting can be performed when it is unlikely that the user will perform hand wash spouting.
The timer water discharge is not limited to electrolyzed water as in the present embodiment, but may be performed using raw water.

Next, with reference to FIG. 11, the control flow performed by the controller according to the first embodiment of the present invention will be described. FIG. 11 is a flowchart showing a control flow performed by the controller according to the first embodiment of the present invention. The control flow shown in FIG. 11 is obtained by applying the first to third control examples (see FIGS. 8 to 10) to the basic control (see FIG. 7).
In the first embodiment, the control flow shown in FIG. 11 is started when the power is turned on to the water discharge device 1, and this control flow is always repeated while the power is turned on. Further, when the power is turned on to the water discharge device 1 for the first time, the controller 40 sets the set time of the second timer 42 to the second predetermined time T2 and starts the timer.

First, the controller 40 determines whether or not the distance between the sensor 14 and the object to be detected is equal to or greater than the first threshold value (step S1). That is, it is determined whether or not the hand is held near the first water discharge portion 12.

In step S1, when the distance between the sensor 14 and the object to be detected is equal to or greater than the first threshold value, that is, the hand is held near the first water discharge unit 12, the controller 40 then causes the first water discharge unit. It is determined whether or not the hand-washing water spouting by the foam spouting of the raw water from No. 12 is being executed (step S2). If the hand-washing water spouting is being executed in step S2, the hand-washing water spouting by the foam spouting of the raw water from the first water spouting unit 12 is continued. When the hand wash water discharge is not being executed in step S2, that is, when the hand is held near the first water discharge unit 12 when the hand wash water discharge is not performed in step S1, the controller 40 is the first. The solenoid valve 25 is energized to open the first solenoid valve 25, and the raw water is foamed and discharged from the first water discharge unit 12, that is, the hand wash water discharge is started (step S3).
On the other hand, in step S1, if the distance between the sensor 14 and the object to be detected is less than the first threshold value, that is, the hand is not held near the first water discharge portion 12, the controller 40 is at that time. It is determined whether or not the hand-washing water spouting by the foam spouting of the raw water from the water spouting unit 12 of 1 is being executed (step S4).

In step S4, when the hand wash water discharge is being executed, the controller 40 stops the energization of the first solenoid valve 25, closes the first solenoid valve 25, and starts from the first solenoid valve 12. The foam spouting of the above is finished, that is, the hand washing spouting is finished (step S5). Further, the controller 40 sets the set time of the first timer 41 to the first predetermined time T1 (for example, 3.0 seconds), and starts the timer (step S6). After completing the processes of steps S5 and 6, the controller 40 determines whether or not the distance between the sensor 14 and the object to be detected is equal to or greater than the second threshold value (step S7). That is, it is determined whether or not the object to be detected is detected in the vicinity of the hand wash basin 5 although the hand is not held near the first water discharge portion 12.
On the other hand, if the hand washing water discharge is not being executed in step S4, the process proceeds to step S7.

In step S7, the distance between the sensor 14 and the object to be detected is equal to or greater than the second threshold value, that is, the object to be detected is detected near the hand wash basin 5 although the hand is not held near the first water discharge unit 12. If this is the case, the controller 40 prohibits after-water discharge and timer water discharge by spraying electrolyzed water from the second water discharge unit 13 (step S8), and ends the control.
On the other hand, in step S7, when the distance between the sensor 14 and the object to be detected is less than the second threshold value, that is, the object to be detected is not detected in the vicinity of the hand wash basin 5, the controller 40 uses the first timer 41. Determines whether or not the set first predetermined time T1 has elapsed since the start of (step S9). That is, it is determined whether or not the first predetermined time T1 has elapsed since the water discharge for hand washing was completed.

In step S9, when the first predetermined time T1 set after the start of the first timer 41 has elapsed, that is, the first predetermined time T1 has elapsed since the end of the hand washing water discharge, the controller 40 has the second The solenoid valve 28 is energized to open the second solenoid valve 28, and electrolyzed water is sprayed and discharged from the second water discharge unit 13, that is, after-water discharge is executed for a predetermined time (step S9). Further, the controller 40 resets the count of the first timer 41 (step S11).
On the other hand, in step S9, the set first predetermined time T1 has not elapsed since the first timer 41 started, that is, the first predetermined time T1 has not elapsed since the hand washing water discharge was completed. In this case, the controller 40 determines whether or not the second predetermined time T2 set after the start of the second timer 42 has elapsed (step S12). That is, it is determined whether or not the second predetermined time T2 has elapsed since the previous timer spouting.

In step S12, when the second predetermined time T2 set after the start of the second timer 42 has elapsed, that is, when the second predetermined time T2 has elapsed since the previous timer spouting, the controller 40 has the second predetermined time. The solenoid valve 28 is energized to open the second solenoid valve 28, and electrolyzed water is sprayed and discharged from the second water discharge unit 13, that is, timer water discharge is executed for a predetermined time (step S13). Further, after resetting the count of the second timer 42 (step S14), the controller 40 sets the set time of the second timer 42 to the second predetermined time T2 (for example, 1 hour) and starts the timer (step). S15).

<Action / effect in the first embodiment>
Next, the action and effect of the water discharge device according to the first embodiment of the present invention will be described.

In the first embodiment of the present invention, the controller 40 is the second when the sensor 14 detects the human body within the second predetermined range (when the distance between the sensor 14 and the human body is equal to or greater than the second threshold value). After-spouting prohibition control is performed to prohibit after-spouting by spraying electrolyzed water from the spouting unit 13. That is, if the object to be detected is detected near the hand wash basin 5 even though the hand is not held near the first water spouting portion 12, after-water spouting is not performed. As a result, it is possible to prevent the user from being able to wash his / her hand at the timing he / she wants to use, or to prevent the user from holding his / her hand over the electrolyzed water spouted by after-water spouting and touching the electrolyzed water with his / her hand. It is possible to prevent the after-water discharge from being performed at the timing of the operation.

Further, when the sensor 14 does not detect the human body within the second predetermined range during the execution of the after-water discharge prohibition control, the controller 40 in the first embodiment becomes less than the second threshold value. When T1 has passed from the end of the previous hand-washing water discharge with raw water, after-water discharge with electrolyzed water is started, while the first predetermined time from the end of the previous hand-washing water discharge with raw water. If the time T1 has not elapsed, after-spouting with electrolyzed water is started when the first predetermined time T1 has elapsed since the previous water discharge for hand washing was completed. As a result, after-spouting with electrolyzed water is not performed until at least the first predetermined time T1 elapses from the end of hand-washing spouting with raw water. It is possible to prevent the user from holding his / her hand over the electrolyzed water and touching the electrolyzed water with his / her hand, and to prevent after-water discharge from being performed at the timing when the user uses the water.

Further, the controller 40 in the first embodiment periodically (every T2 in the second predetermined time) performs timer water discharge to discharge electrolyzed water from the second water discharge unit 13, and the sensor 14 causes the human body to be within the second predetermined range. When it is detected (when the distance between the sensor 14 and the human body is equal to or greater than the second threshold value), timer spouting by spray spouting of electrolyzed water from the second spouting unit 13 is prohibited. As a result, dirt adhering to the bowl 3 can be efficiently removed by timer spouting, and even in timer spouting, the user cannot wash his / her hands at the timing he / she wants to use, or electrolyzed water spouting by timer spouting. It is possible to prevent the electrolyzed water from touching the hand by the user holding his / her hand, and to prevent the timer water discharge from being performed at the timing when the user uses the water.

(Second Embodiment)
Next, the control performed by the controller 40 in the second embodiment of the present invention will be described with reference to FIGS. 12 and 13. FIG. 12 is a control example according to the second embodiment of the present invention, which is performed based on the above-mentioned basic control (see FIG. 7).

FIG. 12 is a time chart showing a fourth control example according to the second embodiment of the present invention. FIG. 12 shows, in order from the top, a sensor signal supplied from the sensor 14 to the controller 40, a drive signal supplied from the controller 40 to the second solenoid valve 28, and a drive supplied from the controller 40 to the first solenoid valve 25. The signal indicates the water discharge state of the water discharge device 1.
Here, the description of the same control as the basic control described above will be omitted as appropriate. Specifically, the control from time t51 to time t52 and the control from time t54 to time t55 are the same as the basic control, so the description thereof is omitted and only the control from time t52 to time t54 is performed. explain.

The fourth control example relates to the control performed when the sensor 14 detects the object to be detected outside the first predetermined range and within the second predetermined range for a predetermined time after executing the hand washing water discharge. Specifically, in the fourth control example, at the time t52 when the water discharge for hand washing is finished, the sensor 14 does not detect the object to be detected within the first predetermined range, but detects it within the second predetermined range. That is, the sensor signal is in the distance detection state. Even when the first predetermined time T1 elapses from the time t52 when the water discharge for hand washing is finished, the state in which the sensor signal is far detection, that is, the state in which the sensor 14 detects the object to be detected within the second predetermined range continues. The controller 40 maintains the closed state of the second solenoid valve 28 without energizing the second solenoid valve 28, that is, maintains the water stop state without starting after-water discharge.

After that, at time t53, the sensor signal switches from far detection to non-detection, that is, the sensor 14 switches from the state in which the object to be detected is detected within the first predetermined range and within the second predetermined range to the non-detection state. Then, at the time t54 when the first predetermined time T1 elapses from the time t53 when the sensor signal is switched from the distance detection to the non-detection, the controller 40 energizes the second solenoid valve 28 and presses the second solenoid valve 28. The valve is opened and the electrolyzed water is sprayed and discharged from the second water discharge unit 13, that is, after-water discharge is started.

As described above, in the fourth control example, when the water stop state continues for the first predetermined time T1 after the execution of the hand washing water discharge, the sensor 14 detects the object to be detected within the second predetermined range. , After-water discharge by spraying electrolyzed water from the second water discharge unit 13 is not performed, and after that, the water stop state is the first predetermined time from the time when the sensor 14 does not detect the object to be detected within the second predetermined range. After water discharge is started when T1 is continued. By doing so, after water discharge is not performed until the first predetermined time T1 elapses after the user leaves the vicinity of the hand wash basin 5, so that after water discharge is performed at the timing when the user uses water. Can be suppressed.

Next, with reference to FIG. 13, the control flow performed by the controller according to the second embodiment of the present invention will be described. FIG. 13 is a flowchart showing a control flow performed by the controller according to the second embodiment of the present invention. The control flow shown in FIG. 13 is obtained by applying the third and fourth control examples (FIGS. 10 and 12) to the basic control (see FIG. 7).
Here, the description of the same control as the control flow (see FIG. 11) in the first embodiment of the present invention described above will be omitted. Specifically, since the control flow from steps S51 to 53 and the control flow from steps S59 to S65 are the same as the control flow in the first embodiment, the description thereof will be omitted, and steps S54 to S54 to step S54 to step S65. Only the control flow up to S58 will be described.

In step S51, if the distance between the sensor 14 and the object to be detected is less than the first threshold value, that is, the hand is not held near the first water discharge unit 12, the controller 40 then causes the first water discharge. It is determined whether or not the hand-washing water spouting by the foam spouting of the raw water from the part 12 is being executed (step S54).

In step S54, when the hand wash water discharge is being executed, the controller 40 stops the energization of the first solenoid valve 25, closes the first solenoid valve 25, and starts the first solenoid valve 12. The foam spouting of the raw water is finished, that is, the hand washing spouting is finished (step S55). After finishing the process of step S55, the controller 40 determines whether or not the distance between the sensor 14 and the object to be detected is equal to or greater than the second threshold value (step S7). That is, it is determined whether or not the object to be detected is detected in the vicinity of the hand wash basin 5 although the hand is not held near the first water discharge portion 12.
On the other hand, if the hand washing water discharge is not being executed in step S54, the process proceeds to step S56.

In step S56, the distance between the sensor 14 and the object to be detected is equal to or greater than the second threshold value, that is, the object to be detected is detected near the hand wash basin 5 although the hand is not held near the first water discharge unit 12. If this is the case, the controller 40 prohibits after-water discharge and timer water discharge by spraying electrolyzed water from the second water discharge unit 13 (step S57), and ends the control.
On the other hand, in step S56, when the distance between the sensor 14 and the object to be detected is less than the second threshold value, that is, the object to be detected is not detected in the vicinity of the hand wash device 5, the controller 40 uses the first timer 41. The set time of is set to the first predetermined time T1 (for example, 3.0 seconds), and the timer is started (step S58). After finishing the process of step S58, the controller 40 determines whether or not the first predetermined time T1 set after the start of the first timer 41 has elapsed (step S59). That is, it is determined whether or not the water stop state has continued for the first predetermined time after the object to be detected is no longer detected in the vicinity of the hand wash basin 5 in step S56.

<Action / effect in the second embodiment>
Here, the action and effect of the water discharge device according to the second embodiment of the present invention will be described.

In the second embodiment of the present invention, the controller 40 stops detecting the human body within the second predetermined range during the execution of the after-water discharge prohibition control (the distance between the sensor 14 and the human body is less than the second threshold value). After continuing T2 for the second predetermined time), after-spouting with functional water is performed. That is, after the electrolyzed water is not discharged after the first predetermined time T1 elapses after the object to be detected is no longer detected in the vicinity of the hand wash basin 5. As a result, it is possible to prevent the user from being able to wash his / her hand at the timing he / she wants to use, or to prevent the user from holding his / her hand over the electrolyzed water spouted by after-water spouting and touching the electrolyzed water with his / her hand. It is possible to prevent the after-water discharge from being performed at the timing of the operation.

Although the embodiments of the technology disclosed in the present application have been described above, the technology disclosed in the present application is not limited to the above.

For example, in the above embodiment, two solenoid valves, the first solenoid valve 25 and the second solenoid valve 28, are used to discharge water from the first water discharge unit 12 and water discharge from the second water discharge unit 13. However, as shown in FIG. 14, the solenoid valve 51 and the switching valve 52 were used instead of the first solenoid valve 25 and the second solenoid valve 28 to discharge water from the first water discharge unit 12. The water discharge from the second water discharge unit 13 may be switched.

Further, in the present invention, as shown in FIG. 15, the first water discharge unit 12, the raw water flow path 17, and the first solenoid valve 25 are not provided, and the controller 40 opens / closes and electrolyzes the second solenoid valve 28. By controlling the energization of the tank 37, hand washing water discharge, after water discharge, and timer water discharge may be performed from the second water discharge unit 13. That is, the raw water flow path 17, the functional water flow path 18, the first water discharge part 12 and the second water discharge part 13 are not provided separately, but a common flow path (functional water flow path 18) and a water discharge part (second). The raw water and the functional water may be spouted from the spouting unit 13) of the above.

The elements included in each of the above-described embodiments can be combined as technically possible, and the combination thereof is also included in the scope of the present invention as long as the features of the present invention are included.

1 Water spouting device 3 Bowl 5 Hand wash basin 11 Faucet body 12 First water spouting part (raw water spouting means)
12a First spout (spout)
13 Second water spouting part (functional water spouting means)
13a Second spout (spout)
13b Inflow port 13c Slit part 13d Internal flow path 14 Sensor (human body detection sensor)
14a Transmitter 14b Receiver 15 LED
17 Raw water flow path 18 Functional water flow path 21 Common flow path 22 Water stop valve 23 Filter 24 Constant flow valve 25 First solenoid valve 28 Second solenoid valve 29 Pressure regulating valve 30 Safety valve 35 Check valve 37 Electrolytic cell (functional water generation) means)
39 AC power supply 40 controller (control means)
41 1st timer 42 2nd timer

Claims (4)

A first spout, which is formed at the tip of the faucet body and has a first spout,
A second spout, which is formed at the tip of the faucet body and has a second spout,
A human body detection sensor that detects the human body and
A raw water spouting means for spouting raw water from the first spout based on the detection of the human body detection sensor,
A functional water spouting means having a functional water generating means for reforming water to generate functional water and spraying the functional water so as to spread at a predetermined angle from the second spouting port, and a functional water spouting means.
A control means for stopping the spouting of the raw water when the human body detection sensor no longer detects the human body within the first predetermined range during the spouting of the raw water, and then performing after-spouting of the functional water by spraying.
It is a water spouting device equipped with
The control means
After-water discharge prohibition control that prohibits the after-water discharge while the human body detection sensor detects the human body within the second predetermined range, which is farther from the human body detection sensor than the first predetermined range. Water spouting device to do. With a spout
A human body detection sensor that detects the human body and
A raw water spouting means for spouting raw water from the spout based on the detection of the human body detection sensor,
A functional water spouting means that has a functional water generating means that reforms water to generate functional water and discharges the functional water from the spout.
A control means for stopping the spouting of the raw water when the human body detection sensor no longer detects the human body within the first predetermined range during the spouting of the raw water, and then performing after-spouting of the functional water.
It is a water spouting device equipped with
The control means
After-water discharge prohibition control that prohibits the after-water discharge while the human body detection sensor detects the human body within the second predetermined range, which is farther from the human body detection sensor than the first predetermined range. And
When the human body detection sensor stops detecting the human body within the second predetermined range during the execution of the after water discharge prohibition control, if the first predetermined time has elapsed from the previous stop of the discharge of raw water, the after While the water discharge is started, if the first predetermined time has not elapsed since the previous stop of the raw water discharge, the after water discharge is started when the first predetermined time has elapsed since the previous stop of the raw water discharge. Device. With a spout
A human body detection sensor that detects the human body and
A raw water spouting means for spouting raw water from the spout based on the detection of the human body detection sensor,
A functional water spouting means that has a functional water generating means that reforms water to generate functional water and discharges the functional water from the spout.
A control means for stopping the spouting of the raw water when the human body detection sensor no longer detects the human body within the first predetermined range during the spouting of the raw water, and then performing after-spouting of the functional water.
It is a water spouting device equipped with
The control means
After-water discharge prohibition control that prohibits the after-water discharge while the human body detection sensor detects the human body within the second predetermined range, which is farther from the human body detection sensor than the first predetermined range. And
A water discharge device that discharges after-water after the human body detection sensor stops detecting a human body within the second predetermined range for a second predetermined time during execution of the after-water discharge prohibition control. The control means
Periodically perform timer water discharge to discharge the raw water or the functional water,
The water discharge device according to any one of claims 1 to 3, which prohibits the timer water discharge while the human body detection sensor detects a human body within the second predetermined range.

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