JP7190290B2 - faucet device - Google Patents

Description

The present invention relates to a faucet device.

Patent Literature 1 discloses a water discharger that switches between water discharge and water stop by driving an electromagnetic valve. This water faucet device includes an operation unit for switching between water discharge and water stop of the water faucet device, and a control unit for controlling the operation of a solenoid valve. The operation unit transmits an operation signal to the control unit when operated by a user. Upon receiving the operation signal, the control unit opens and closes the solenoid valve based on this operation signal. Moreover, this water discharger includes a display section for displaying the operation status of the water discharge operation. This water discharger can inform the user of the operation status of the water discharge operation by lighting the display unit.

JP 2012-158881 A

When the faucet device of Patent Document 1 described above is configured to drive the solenoid valve and the display section using a battery as a power source, the battery needs to be replaced when the battery runs out. For this reason, this faucet device is required to suppress battery consumption so that the frequency of battery replacement is reduced.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described conventional circumstances, and an object of the present invention is to suppress battery consumption in a water faucet device that uses a battery as a power source to drive an electromagnetic valve and a display unit.

The faucet device of the present invention is
a faucet body having a water discharge part;
a solenoid valve provided on a flow path connected to the water discharge section and driven by a battery as a driving source;
a control unit that moves the electromagnetic valve from a closed position that closes the flow path to an open position that opens the flow path based on a predetermined water discharge operation performed on a predetermined operation unit;
a water discharge display unit that lights up using the battery as a driving source in response to an instruction from the control unit when the water discharge operation is performed on the operation unit;
The control unit moves the solenoid valve to the open position based on the water discharge operation being performed on the operation unit, and the water discharge display unit lights up in a predetermined water discharge lighting pattern. It is characterized by carrying out water spouting lighting control to turn on and turn off after the lapse of the first predetermined period.

This water faucet device moves the solenoid valve to the open position and lights the water discharge display section based on the water discharge operation performed on the operation unit. That is, since this faucet device lights up the water discharge display unit when water discharge is started, the lighting of the water discharge display unit allows the user to recognize the start of water discharge.
Further, in this water faucet device, after the water discharge display unit is set in a water discharge lighting state in which the water discharge display unit is lit in a predetermined water discharge lighting pattern based on the water discharge operation being performed on the operation unit, after a first predetermined period has passed, Turn off the light. Therefore, this water faucet device can suppress battery consumption.

Therefore, the water faucet device of the present invention can suppress consumption of the battery that functions as a drive source for the solenoid valve and the display unit.

1 is an explanatory diagram schematically showing the configuration of a faucet device of Example 1. FIG. It is explanatory drawing which expands and shows the various display parts of a faucet apparatus. (A) is a timing chart showing an example of the operation of the discharged water display unit for raw water. 3(B) is a timing chart showing an example of the operation of the discharged water display unit for raw water, which is different from the operation shown in FIG. 3(A). (C) is a timing chart showing an example of the operation of the discharged water display unit for raw water and the replacement display unit for battery.

A preferred embodiment of the present invention will be described.

In the water faucet device of the present invention, the control unit moves the electromagnetic valve to the open position based on the fact that the water stop operation is performed on the operation unit while the water discharge lighting control is being performed. to the closed position, and the water spouting lighting control is stopped so that the water spouting display section is put into the extinguished state.
In this case, the water faucet device turns off the water discharge display unit even before the first predetermined period of time has passed, based on the fact that the water stop operation has been performed. Therefore, the water faucet device can prevent the user from feeling uncomfortable due to the water discharge display portion being in the water discharge lighting state even though water is not being discharged, and furthermore, battery consumption can be further reduced. can be suppressed.

The water faucet device of the present invention may include a battery replacement display section that lights up using the battery as a driving source in response to an instruction from the control section when it is time to replace the battery. The control unit moves the solenoid valve to the open position to perform the water discharge lighting control based on the fact that the water discharge operation is performed on the operation unit at the battery replacement time, and the battery discharge operation is performed. It is possible to perform battery lighting control in which the replacement display unit is put into a battery lighting state in which it is lit in a predetermined battery lighting pattern, and is put into a lighting state of extinguishing after the elapse of the second predetermined period.
In this case, the water faucet device lights the battery replacement display section based on the fact that the operation section is operated to discharge water at the battery replacement time. Therefore, this faucet device can notify the user that it is time to replace the battery. Further, the water faucet device sets the battery replacement display unit to the battery lighting state in which the battery replacement display unit is lit in a predetermined battery lighting pattern based on the water discharge operation performed on the operation unit, and then sets the battery lighting state for a second predetermined period. After the elapse of time, the light is turned off. Therefore, this water faucet device can suppress battery consumption, compared with the case where the battery replacement display unit is once set to the battery lighting state and then the battery lighting state is continued until the battery runs out. .

In the faucet device of the present invention, the second predetermined period may be longer than the first predetermined period.
In this case, the water faucet device can keep the battery replacement display portion showing the more important information in the lighting state for a long time. Therefore, this water faucet device can more reliably inform the user that it is time to replace the battery while suppressing the consumption of the battery.

In the faucet device of the present invention, the control unit sets the water discharge display unit to the water discharge lighting state by the water discharge lighting control, and sets the battery replacement display unit to the battery lighting state by the battery lighting control. When the water stop operation is performed on the operation unit in a state where the water discharge is stopped, the electromagnetic valve is moved from the open position to the closed position, and the water discharge lighting control is stopped to stop the water discharge. The battery lighting state in the battery lighting control can be continued while the display unit is put into the light-out state.
In this case, the water faucet device turns off the water discharge display unit even before the first predetermined period of time has passed, based on the fact that the water stop operation has been performed. On the other hand, this faucet device allows the battery replacement display portion to continue the battery lighting state even if the water stop operation is performed before the second predetermined period elapses. Therefore, the water faucet device can prevent the user from feeling uncomfortable due to the water discharge display portion being in the water discharge lighting state even though water is not being discharged, and further suppresses the consumption of the battery. In addition, it is possible to more reliably inform the user that it is time to replace the battery.

Next, Embodiment 1, which embodies the faucet device of the present invention, will be described with reference to the drawings.

<Example 1>
The faucet device 1 of Example 1 includes a faucet body 10, a raw water on-off valve 40, a purified water on-off valve 42, a constant flow valve 44, and a controller 70, as shown in FIG. The faucet main body 10 is installed on the counter 90 in an upright state. The faucet body 10 has a base portion 12 and a discharge pipe portion 14 .

Base 12 is placed on counter 90 . The base 12 incorporates a mixing valve 20 . A water supply line 80 is connected to the mixing valve 20 , and water from a water supply source pipe is supplied through the water supply line 80 through the stopcock 50 . A hot water supply path 82 is connected to the mixing valve 20 , and hot water from a hot water source pipe is supplied through the hot water supply path 82 through the stop cock 52 . The mixing valve 20 mixes the water supplied from the water supply passage 80 and the hot water supplied from the hot water supply passage 82 in an arbitrary ratio according to the operation of the lever handle 22 described later to produce hot water at an appropriate temperature. 10 to flow out from an outflow channel 84 formed inside.

Base 12 includes a lever handle 22 that operates a mixing valve 20 . The lever handle 22 is rotatable to the left and right, and is operated to rotate left and right to adjust the mixing ratio of water and hot water (the temperature of the mixed water). Further, the lever handle 22 is vertically rotatable, and is rotated vertically to adjust the discharge flow rate of hot water.

The water discharge pipe portion 14 extends upward from the upper portion of the base portion 12 and bends downward toward the front and hangs down. The water discharge pipe portion 14 has a water discharge portion 16 formed with a water discharge port at its tip. The water discharger 16 is connected to the outflow path 84 and discharges water supplied through the outflow path 84 .

The raw water on-off valve 40 is provided on the outflow passage 84 and is driven by a battery 92 as a drive source. The raw water on-off valve 40 is electrically connected to the control unit 70, and in accordance with instructions from the control unit 70, switches between an open position for opening the outflow passage 84 and a closed position for closing the outflow passage 84. Moving.

Note that the battery 92 may be any battery that can be replaced by the user, and may be a dry battery or a storage battery.

A check valve 54 is provided on the water supply line 80 to allow the water to flow toward the mixing valve 20 while preventing the water from flowing in the opposite direction. In addition, a check valve 56 is provided on the hot water supply passage 82 to allow hot water to flow toward the mixing valve 20 while preventing the hot water from flowing in the opposite direction.

The water supply channel 80 branches off from a position downstream of the check valve 54 into a purified water channel 86 . The purified water channel 86 has a downstream end connected to the outflow channel 84 at a position downstream of the raw water on-off valve 40 . A water purification cartridge 94 functioning as a water purifier is provided on the water purification channel 86 . Note that, hereinafter, the water purified by the water purification cartridge 94 is also referred to as “purified water”, and the unpurified water is also referred to as “raw water”.

The water purification cartridge 94 has a predetermined expiration date, and must be replaced when the expiration date (for example, one year from the start of use) is reached. In addition, the water purification cartridge 94 has an upper limit to the flow rate of water that can be purified, and when the flow rate of purified water reaches the upper limit (for example, 10000 L), the purification capacity decreases. Therefore, the water purification cartridge 94 needs to be replaced when the flow rate of purified water reaches the upper limit or shortly before.

The purified water on-off valve 42 and the constant flow valve 44 are provided on the purified water channel 86 . The clean water on-off valve 42 is driven by a battery 92 as a drive source. The water purification on-off valve 42 is electrically connected to the control unit 70, and according to instructions from the control unit 70, between an open position that opens the water purification channel 86 and a closed position that blocks the water purification channel 86. Moving.

As shown in FIG. 2, the water faucet device 1 includes a raw water operating portion 60A operated to discharge raw water and a purified water operating portion 60B operated to discharge purified water. Each of the raw water operation section 60A and the purified water operation section 60B is configured as a proximity sensor that detects, for example, a human body. Each of the raw water operation section 60A and the purified water operation section 60B is provided above a portion of the discharge pipe section 14 that curves downward and hangs down, and the upper side of the discharge pipe section 14 is a detection area. The raw water operation section 60A is arranged in front of the purified water operation section 60B, and the detection area of the raw water operation section 60A is provided in front of the detection area of the purified water operation section 60B. The raw water operation unit 60A is electrically connected to the control unit 70, and outputs a detection signal to the control unit 70 based on detection of a human body or the like.

The faucet device 1 includes a raw water discharge display portion 62A and a purified water discharge display portion 62B. The raw water discharge display portion 62A is a display portion for notifying the user that raw water has been discharged, and the purified water discharge display portion 62B is a display for notifying the user that purified water has been discharged. Department. The raw water discharge display portion 62A is arranged near the front side of the raw water operation portion 60A, and the purified water discharge display portion 62B is arranged near the rear side of the purified water operation portion 60B. The discharged water display unit 62A for raw water is configured as a display device incorporating a light emitting element 63A such as an LED, and the discharged water display unit 62B for purified water is configured as a display device incorporating a light emitting element 63B such as an LED.

The raw water discharge display section 62A lights up in response to an instruction from the control section 70 when the raw water operation section 60A is operated to discharge water. Here, the water discharge operation for the raw water operation section 60A is an operation of holding a hand or the like over the raw water operation section 60A when the raw water on-off valve 40 and the purified water on-off valve 42 are in the closed position.

The purified water discharge display section 62B lights up in response to an instruction from the control section 70 based on the water discharge operation performed on the purified water operation section 60B. Here, the water discharge operation for the purified water operating portion 60B is an operation of placing a hand or the like over the purified water operating portion 60B when the raw water on-off valve 40 and the purified water on-off valve 42 are in the closed positions.

The faucet device 1 includes a battery replacement display portion 64A and a water purification cartridge replacement display portion 64B. The battery replacement display portion 64A is a display portion for notifying the user that the battery 92 replacement time has come. It is a display unit that notifies to. The battery replacement display section 64A is arranged in the vicinity of the raw water operation section 60A, and the water purification cartridge replacement display section 64B is arranged in the vicinity of the water purification operation section 60B.

The battery replacement display section 64A has a light emitting element 65A such as an LED, and a display panel 66A covering the light emitting element 65A. The battery replacement display section 64A is electrically connected to the control section 70, and lights up in response to an instruction from the control section 70 when it is time to replace the battery 92. FIG. When the light emitting element 65A lights up, the battery replacement display section 64A displays information 68A indicating that it is time to replace the battery 92 by light transmitted through the display panel 66A.

The control unit 70 monitors the output voltage of the battery 92, and determines that it is time to replace the battery 92 when the output voltage of the battery 92 becomes less than a predetermined first voltage value. The first voltage value is a voltage value that is lower than the output voltage of the battery 92 when it is not in use.

The water purification cartridge replacement display section 64B has a light emitting element 65B such as an LED, and a display panel 66B covering the light emitting element 65B. The water purification cartridge replacement display section 64B is electrically connected to the control section 70, and lights up in response to an instruction from the control section 70 when it is time to replace the water purification cartridge 94. FIG. The water purification cartridge replacement display section 64B displays information 68B indicating that it is time to replace the water purification cartridge 94 by light transmitted through the display panel 66B when the light emitting element 65B is lit.

Note that the control unit 70 monitors the energization time after the water purification cartridge 94 is installed (after replacement), and this energization time is before the expiration date (for example, one year) of the water purification cartridge 94 for a predetermined period (for example, 14 days before), it is determined that it is time to replace the water purification cartridge 94 . In addition, the control unit 70 monitors the flow rate of the water purification channel 86, and when the integrated value of the flow rate after the water purification cartridge 94 is installed (after replacement) reaches a predetermined threshold value (for example, 9600 L), the water purification cartridge It is determined that it is time to replace 94.

The discharged water display portion 62A for raw water and the discharged water display portion 62B for purified water are lit in different colors. The battery replacement display portion 64A and the water purification cartridge replacement display portion 64B are illuminated in different colors. The raw water discharge display portion 62A and the battery replacement display portion 64A are lit in the same color (red). The purified water discharge display portion 62B and the purified water cartridge replacement display portion 64B are illuminated in the same color (blue).

The controller 70 comprises a microcontroller. Further, the control unit 70 includes the raw water on-off valve 40, the water purification on-off valve 42, the raw water discharge display portion 62A, the water purification discharge display portion 62B, the battery replacement display portion 64A, the water purification cartridge replacement display portion 64B, and the like. are connected together, and have a drive circuit that drives each device individually.

Next, the operation of the faucet device 1 will be described with reference to FIG. In addition, below, the operation|movement which the faucet apparatus 1 performs in a predetermined standby state is demonstrated. Here, the standby state means that the raw water on-off valve 40 and the purified water on-off valve 42 are both arranged in the closed position, and the raw water discharge display section 62A, the purified water discharge display section 62B, the battery replacement display section 64A, and the purified water display section 62A are displayed. This refers to a state in which all of the cartridge replacement display portions 64B are turned off.

First, with reference to FIGS. 3(A) and 3(B), the lighting operation of the raw water discharge display section 62A will be described.
In the standby state, the control unit 70 determines whether or not the raw water operation unit 60A has been operated to discharge water. When the raw water operation unit 60A detects a human body or the like under the condition that the raw water on-off valve 40 and the purified water on-off valve 42 are closed, the control unit 70 causes the raw water operation unit 60A to perform a water discharge operation. determined to have been done. When the control unit 70 determines that the raw water operation unit 60A has been operated to discharge water, the control unit 70 moves the raw water on-off valve 40 to the open position, and sets the raw water discharge display unit 62A to a predetermined lighting pattern for raw water discharge. , and after a first predetermined period of time (for example, 5 seconds) has elapsed, water discharge lighting control is performed (see FIG. 3A). As a result, the faucet device 1 turns on the raw water discharge display section 62A while discharging water (discharging raw water).

Here, the lighting pattern is a pattern defined by the lighting color, whether the lighting is continuous or blinking, the blinking cycle in the case of blinking, the proportion of the ON time in the blinking cycle (duty ratio), and the like. . The lighting pattern for raw water discharge is red, and has a duty ratio of 20%.

After moving the raw water on-off valve 40 to the open position, the control unit 70 repeatedly determines whether or not the water stop operation has been performed. The control unit 70 determines that the water stop operation has been performed when the raw water operation unit 60A detects a human body or the like while the raw water on-off valve 40 is in the open position. When the first predetermined period elapses without the water stopping operation being performed, the control unit 70 turns off the raw water discharge display unit 62A while maintaining the raw water on-off valve 40 at the open position, and terminates the discharge lighting control. (See FIG. 3(A)). After that, when the control unit 70 determines that the water stopping operation has been performed, the control unit 70 moves the raw water on-off valve 40 to the closed position. As a result, the faucet device 1 stops water.

On the other hand, if the control unit 70 determines that the water stop operation has been performed before the first predetermined period of time has elapsed (while the raw water discharge display unit 62A is in the water discharge lighting state), the control unit 70 moves the raw water on-off valve 40 to the closed position. , the discharge water lighting control is stopped, and the raw water discharge display portion 62A is turned off (see FIG. 3B).

Next, the lighting operation of the discharged raw water display section 62A and the battery replacement display section 64A will be described with reference to FIG. 3(C).
In the standby state, the control unit 70 determines whether or not the raw water operation unit 60A has been operated to discharge water. When the control unit 70 determines that the raw water operation unit 60A has been spouted, the control unit 70 moves the raw water on-off valve 40 to the open position, and turns the raw water spout display unit 62A into the spouting lighting state described above. In addition to performing battery lighting control, the battery replacement display unit 64A is set to a battery lighting state in which the battery replacement display unit 64A is lit in a predetermined battery lighting pattern, and after a second predetermined period (for example, 10 seconds) elapses, the battery lighting control is performed to set it to a light-off state. . As a result, the controller 70 causes the raw water discharge display section 62A and the battery replacement display section 64A to light up while discharging water (discharging raw water).

The battery lighting pattern differs from the raw water discharge lighting pattern only in the duty ratio. That is, the battery lighting pattern has a larger duty ratio (50%) than the raw water discharge lighting pattern, the same lighting color (red) as the raw water discharge lighting pattern, and the same period (1 second) as the raw water discharge lighting pattern. It has a lighting pattern that blinks at. Also, the second predetermined period is longer than the first predetermined period.

After moving the raw water on-off valve 40 to the open position, the control unit 70 repeatedly determines whether or not the water stop operation has been performed. When the first predetermined period elapses without the water stopping operation being performed, the control unit 70 ends the water discharge lighting control while maintaining the raw water on-off valve 40 at the open position, and turns off the raw water discharge display unit 62A. state. Furthermore, when the second predetermined period elapses without the water stopping operation being performed, the control unit 70 terminates the battery lighting control while maintaining the raw water on-off valve 40 at the open position, and the battery replacement display unit 64A is displayed. is turned off. After that, when the water stopping operation is performed, the control unit 70 moves the raw water on-off valve 40 to the closed position. As a result, the faucet device 1 stops water.

On the other hand, the control unit 70 performs the water stop operation before the first predetermined period elapses (while the raw water discharge display section 62A is in the water discharge lighting state and the battery replacement display section 64A is in the battery lighting state). Then, the raw water on-off valve 40 is moved to the closed position, the water discharge lighting control is stopped, and the raw water discharge display section 62A is turned off. continue. After that, when the second predetermined period elapses, the control unit 70 puts the battery replacement display unit 64A in the off state, and ends the battery lighting control.

Further, in the standby state, the faucet device 1 causes purified water to be discharged and lights the purified water discharge display section 62B when a water discharge operation is performed on the purified water operation section 60B. More specifically, the faucet device 1 causes the purified water to be discharged when a water discharge operation is performed on the purified water operation section 60B, and also causes the purified water discharge display section 62B to display a predetermined lighting pattern for purified water discharge. It is set to a lighting state in which it is lit, and is set to an extinguished state after a predetermined period of time has elapsed.

Here, the lighting pattern for clean water spouting is a lighting pattern that differs from the lighting pattern for raw water spouting only in the lighting color. That is, the lighting pattern for clean water discharge has a different lighting color (blue) from the lighting pattern for raw water discharge, the same duty ratio (20%) as the lighting pattern for clean water discharge, and the same period (1 second) as the lighting pattern for clean water discharge. ), the lighting pattern is flashing.

Furthermore, when it is time to replace the battery 92, the water faucet device 1 also lights up the battery replacement display section 64A when the water purifying operation section 60B is operated to discharge water.

The operations of the water purification on-off valve 42, the water purification discharge display unit 62B, and the battery replacement display unit 64A when the water discharge operation is performed on the water purification operation unit 60B are the same as those for raw water except for the above-described lighting pattern for water discharge. Since the operations of the raw water on-off valve 40, the raw water discharge display section 62A, and the battery replacement display section 64A are the same as when the operation section 60A is operated to discharge water, the description thereof will be omitted.

In this manner, the faucet device 1 moves the raw water on-off valve 40 or the purified water on-off valve 42 to the open position based on the water discharge operation to the raw water operation section 60A or the water discharge operation to the purified water operation section 60B. , and the discharged water display section 62A for raw water or the discharged water display section 62B for clean water is turned on. That is, the faucet device 1 lights up the raw water discharge display section 62A or the purified water discharge display section 62B at the start of water discharge. It can be recognized by the user. In addition, when the mixing valve 20 is closed and water is not discharged even though the raw water discharge display section 62A is lit, the user should at least know that the water discharge operation has been normally detected. can be grasped.
Further, the water faucet device 1 displays the discharged water display portion 62A for raw water or the discharged water display portion 62B for purified water based on the operation of discharging water from the operating portion 60A for raw water or the discharging operation from the operating portion 60B for purified water. After the water discharge lighting state in which the light is turned on in the water discharge lighting pattern, the lighting state is turned off after the first predetermined period has elapsed. Therefore, the water faucet device 1 can suppress consumption of the battery 92 .

Therefore, the water faucet device 1 can suppress consumption of the battery 92 functioning as a drive source for the raw water on-off valve 40, the purified water on-off valve 42, the discharged water display section 62A for raw water, and the discharged water display section 62B for purified water.

In addition, even before the first predetermined period of time has passed, the water faucet device 1 displays the raw water discharge display section 62A in the water discharge lighting state or the purified water discharge display, based on the fact that the water stop operation has been performed. The part 62B is turned off. Therefore, the faucet device 1 prevents the user from feeling uncomfortable due to the raw water discharge display section 62A or the clean water discharge display section 62B being in the discharge water lighting state even though no water is being discharged. In addition, consumption of the battery 92 can be further suppressed.

Further, when the battery 92 is replaced, the water faucet device 1 lights the battery replacement display section 64A when the raw water operation section 60A is operated to discharge water or the purified water operation section 60B is operated to discharge water. Therefore, the water faucet device 1 can inform the user that it is time to replace the battery 92 . Further, the faucet device 1 lights the battery replacement display section 64A in a predetermined battery lighting pattern based on the operation of discharging water from the operation section 60A for raw water or the operation of discharging water from the operation section 60B for purified water. After the lighting state for the battery is set, the lighting state is set to the light-out state after the passage of the second predetermined period. Therefore, in the faucet device 1, the consumption of the battery 92 is reduced as compared with the case where the battery replacement display portion 64A is once set to the battery lighting state and then the battery lighting state is continued until the battery 92 runs out. can be suppressed.

In addition, the water faucet device 1 can keep the battery replacement display portion 64A, which indicates information of higher importance, continuously lit for a long time. Therefore, the faucet device 1 can more reliably inform the user that it is time to replace the battery 92 while suppressing consumption of the battery 92 .

Further, even before the first predetermined period of time elapses, the water faucet device 1 has the raw water discharge display section 62A or the purified water discharge display section 62B in the lighting state based on the fact that the water stop operation has been performed. is turned off. On the other hand, the faucet device 1 continues the battery lighting state of the battery replacement display section 64A even if the water stop operation is performed before the second predetermined period elapses. Therefore, the water faucet device 1 prevents the user from feeling uncomfortable due to the raw water discharge display section 62A or the clean water discharge display section 62B being in the water discharge lighting state even though water is not being discharged. In addition, the consumption of the battery 92 can be further suppressed, and the user can be notified more reliably that it is time to replace the battery 92 .

<Other Examples>
The present invention is not limited to the first embodiment explained by the above description and drawings, and the following embodiments are also included in the technical scope of the present invention.
(1) In the faucet device of Example 1, when the raw water operation unit detects a human body or the like when both the raw water on-off valve and the purified water on-off valve are in the closed position, the raw water operation unit is operated to discharge water. When the raw water operation unit detects a human body or the like when the raw water on-off valve is in the open position, it is determined that the raw water operation unit has been turned off. However, the faucet device determines that the raw water operation unit has been operated to discharge water when the raw water operation unit detects a human body, etc., and when the raw water operation unit stops detecting a human body, etc., the raw water It may be determined that the operation for stopping the water has been performed on the operation unit. The same applies to the water discharge operation and the water stop operation for the water purification operation unit.
(2) Although the faucet device of Example 1 employs a proximity sensor as an operation unit, a sensor other than a proximity sensor may be employed as an operation unit, or an operation unit (e.g., button) other than a sensor may be employed. may
(3) The faucet device of Example 1 lights up the battery replacement display unit when the raw water operation unit is operated to discharge water, and when the water stop operation is performed, the battery replacement display unit is lit. It is configured so that the is not lit. However, the faucet device lights up the battery replacement display unit not only when the raw water operation unit is operated to discharge water, but also when the raw water operation unit is operated to stop water. may be configured.
(4) In the faucet device of Example 1, the duty ratios of the raw water spouting lighting pattern and the battery lighting pattern are different from each other. may be different. In the faucet device of Example 1, the lighting pattern for water purification and the lighting pattern for battery are different in lighting color and duty ratio. Elements may be different.
(5) In the faucet device of Example 1, the raw water spouting lighting pattern and the battery lighting pattern are different lighting patterns, but they may be the same lighting pattern. In the faucet device of Example 1, the lighting pattern for purified water spouting and the lighting pattern for battery are different lighting patterns, but they may be the same lighting pattern.
(6) In the water faucet device of Example 1, the lighting pattern for raw water discharge and the lighting pattern for purified water discharge are made to have different lighting colors. Elements such as may be different.
(7) In the faucet device of Example 1, the lighting pattern for raw water discharge and the lighting pattern for purified water discharge are different lighting patterns, but they may be the same lighting pattern.
(8) Although the faucet device of Example 1 is configured to be able to discharge purified water, it may be configured not to be able to discharge purified water. In this case, a clean water on-off valve, a clean water operation unit, a clean water discharge display unit, and the like are unnecessary.

DESCRIPTION OF SYMBOLS 1... Water faucet apparatus 10... Water faucet main body 16... Water discharge part 40... Open/close valve for raw water (solenoid valve)
42 ... Water purification on-off valve (solenoid valve)
60A ... Operation unit for raw water (operation unit)
60B ... Operation unit for water purification (operation unit)
62A ... Discharge display part for raw water (discharge display part)
62B... Discharge display part for purified water (discharge display part)
64A...Battery replacement display section 64B...Water purification cartridge replacement display section 70...Control section 84...Outflow path (flow path)
86... Water purification channel (channel)
92...Battery 94...Water purification cartridge

Claims (3)

a faucet body having a water discharge part;
a solenoid valve provided on a flow path connected to the water discharge section and driven by a battery as a driving source;
a control unit that moves the electromagnetic valve from a closed position that closes the flow path to an open position that opens the flow path based on a predetermined water discharge operation performed on a predetermined operation unit;
a water discharge display unit that lights up using the battery as a driving source in response to an instruction from the control unit when the water discharge operation is performed on the operation unit;
The control unit moves the solenoid valve to the open position based on the water discharge operation being performed on the operation unit, and the water discharge display unit lights up in a predetermined water discharge lighting pattern. perform lighting control for water discharge to turn on and turn off after a first predetermined period of time,
Furthermore, a battery replacement display unit that lights up using the battery as a driving source in response to an instruction from the control unit when it is time to replace the battery,
The control unit moves the solenoid valve to the open position to perform the water discharge lighting control based on the fact that the water discharge operation is performed on the operation unit at the battery replacement time, and the battery discharge operation is performed. performing battery lighting control to set the battery replacement display unit to a battery lighting state in which the battery replacement display unit is lit in a predetermined battery lighting pattern, and to set the lighting state to the lighting state after a second predetermined period;
In a situation where the water discharge display unit is set in the water discharge lighting state by the water discharge lighting control and the battery replacement display unit is set in the battery lighting state by the battery lighting control, the operation unit and moving the electromagnetic valve from the open position to the closed position, stopping the water discharge lighting control, and turning the water discharge display unit into the extinguished state. and a faucet device that continues the lighting state for the battery in the lighting control for the battery and switches to the light-out state after the second predetermined period of time has elapsed . The control unit moves the electromagnetic valve from the open position to the closed position based on the water stop operation being performed on the operation unit while the water discharge lighting control is being performed. 2. The faucet device according to claim 1, further comprising: suspending the lighting control for water spouting to bring the water spouting display section into the extinguished state. The faucet device according to any one of claims 1 and 2, wherein the second predetermined period is longer than the first predetermined period .

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