JP2012021352A - Automatic faucet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an automatic faucet allowing improvement of both water conservation and user convenience.SOLUTION: An automatic faucet 2 switching between water discharge and cutoff by detecting a human body includes: a faucet body 4 for discharging hot/cold water; two sensors 6 and 8 that are arranged sandwiching the faucet body 4 and on both sides thereof so that each part of body-detection zones of the sensors overlaps each other in a direction of water-discharging from the faucet body 4; an electromagnetic valve 26 for switching between the discharge and cutoff from the faucet body 4; and a control section 24 for controlling the electromagnetic valve 26 so as to start discharging water when the two sensors 6 and 8 both detect a human body, continue the discharge even if either of the two sensors 6 and 8 no longer detects a human body, and cut off water when the two sensors 6 and 8 both no longer detect a human body.

Description

  The present invention relates to an automatic faucet that detects a human body or the like and switches between water discharge and water stoppage.

  2. Description of the Related Art Conventionally, there has been known an automatic faucet in which an infrared sensor that detects a human body is attached to a faucet provided in a washroom or the like so that water can be automatically discharged and stopped by detecting the human body. Japanese Patent Laid-Open No. 2004-92219 (Patent Document 1) describes an automatic faucet. In this automatic faucet, two detection sensors are provided a little apart from each other at the lower part of the water discharge port, and water discharge starts when both of these detection sensors detect a human body. This prevents the start of water discharge due to erroneous detection.

JP 2004-92219 A

  In the automatic faucet described in Patent Document 1, as described above, water discharge is started when both of the two detection sensors detect a human body, and when either one of the detection sensors stops detecting a human body, the water discharge is stopped. ing. For this reason, although water can be saved by preventing erroneous detection, there is a problem that even when the user intends to continue water discharge, water is easily stopped, and the user's usability is poor.

  Therefore, the present invention has been made to solve the above-described problems of the prior art, and an object thereof is to provide an automatic water faucet that can achieve both water saving and improved user convenience.

In order to achieve the above object, the present invention is an automatic water faucet that switches between water discharge and water stop by detecting a human body, and is disposed on both sides of the water faucet body and the water faucet body. And two detection sensors provided so that a part of each human body detection region overlaps in the direction of water discharge from the faucet body, an electromagnetic valve for switching water discharge and water stop from the water faucet body, and two When both detection sensors detect a human body, water discharge starts, and even if one of the two detection sensors no longer detects a human body, water discharge continues, and when both of the two detection sensors stop detecting a human body. And a control unit that controls the electromagnetic valve so as to stop water discharge.
In the present invention configured as described above, the detection region of the two detection sensors overlaps in the water discharge direction of the faucet body, and when the two detection sensors detect the presence of a human body, water discharge starts. Only one detection sensor can detect the presence of a human body and suppress wasteful water discharge that is performed against the user's intention.
According to the present invention, both of the two detection sensors are not detected even if one of the two detection sensors is in a non-detection state after the start of water discharge while suppressing unnecessary water discharge contrary to the user's intention. Since the water discharge is continued until the state is reached, the water is less likely to be stopped against the user's will and the usability of the automatic water faucet can be improved.

In the present invention, preferably, the two detection sensors are formed such that a detection region in which only one of the two detection sensors detects a human body is formed outside the portion where the detection regions of the two detection sensors overlap. It is characterized by being arranged in.
In the present invention configured in this way, the detection area of only one of the two detection sensors is formed on the outer side in the horizontal direction of the portion where the detection areas of the two detection sensors overlap. Even when the user's finger or the like moves outward in the horizontal direction from the portion where the detection areas of the two detection sensors overlap, the user's finger or the like can be detected by one of the detection areas of the two detection sensors. Accordingly, after the start of water discharge, water discharge is continued even when the user's fingers or the like are displaced in the horizontal direction, so that the usability of the automatic water faucet can be improved.

In the present invention, preferably, after the start of water discharge, the control unit continues water discharge even if any one of the two detection sensors no longer detects a human body, and when the two detection sensors stop detecting a human body together. The first control mode for stopping water discharge and the second control mode for stopping water discharge when any one of the detection sensors no longer detects a human body are characterized by being switched and executed.
In the present invention configured as described above, even if one of the two detection sensors is in a non-detection state, water is continuously discharged until both of the detection sensors are in a non-detection state. Since the first control mode that can improve the flow rate and the second control mode that can stop water discharge and save water when one detection sensor enters the non-detection state, the detection state of the two detection sensors after the start of water discharge Therefore, it is possible to achieve both water saving and improved usability.

In the present invention, preferably, when the two detection sensors are both in the state of detecting a human body, the control sensor that first detects the human body is set as a priority detection sensor, and the priority detection sensor is When the human body is no longer detected, the water discharge is stopped even if the other detection sensor detects the human body, and when the priority detection sensor detects the human body, the other detection sensor does not detect the human body. However, the electromagnetic valve is controlled so that water discharge continues until the priority side detection sensor no longer detects the human body.
In the present invention configured as above, the priority detection sensor is set according to the detection order until the two detection sensors both detect the presence of the human body, and the control is switched according to the detection state of the priority detection sensor. Therefore, it is possible to achieve both water saving in which water discharge unintended by the user is suppressed and usability improvement in which water discharge is continued.

In the present invention, preferably, after the water discharge is started, the control unit stops water discharge in the second control mode, and then the two detection sensors again detect the human body and start water discharge within a predetermined mode switching period. When the re-watering operation is performed, the control mode is switched to the first control mode.
In this invention comprised in this way, after two detection sensors will be in a detection state and both start water discharge, if one detection sensor will be in a non-detection state, water discharge will be stopped. If the two detection sensors are both in the detection state again and start water discharge within the predetermined mode switching period after the water discharge stops, it can be estimated that the user continues to work for water discharge. It becomes possible to switch to the first control mode in which the water discharge is continued until it becomes, thereby improving the usability of the user.

In the present invention, preferably, the control unit switches the control mode to the first control mode when the re-watering operation is repeated a plurality of times within a predetermined mode determination period.
In the present invention configured as described above, after the water discharge is stopped in the second control mode, the re-water discharge operation in which the two detection sensors again detect the human body and start the water discharge within the predetermined mode switching period. When the control mode is repeated a plurality of times within a predetermined mode determination period, the control mode is switched to the first control mode. Accordingly, it is possible to more reliably estimate the user's continuation of work for the purpose of water discharge, and it is possible to suppress unnecessary water discharge continuation while improving the user-friendliness.

  According to the automatic faucet of the present invention, it is possible to achieve both water saving and improvement in user convenience.

1 is a perspective view showing a wash basin using an automatic faucet according to a first embodiment of the present invention. 1 is a block diagram showing an entire automatic faucet according to a first embodiment of the present invention. It is a time chart which shows the detection sensor state of the automatic faucet and timing of water discharge by a 1st embodiment of the present invention. It is a time chart which shows the detection sensor state of the automatic faucet by the 2nd Embodiment of this invention, and the timing of water discharge. It is a time chart which shows the detection sensor state of the automatic faucet by the 3rd Embodiment of this invention, and the timing of water discharge. It is a time chart which shows the detection sensor state of the automatic faucet and timing of water discharge by 4th Embodiment of this invention.

Hereinafter, an automatic faucet according to an embodiment of the present invention will be described with reference to the accompanying drawings.
FIG. 1 is a perspective view showing a wash basin equipped with an automatic faucet according to the first embodiment of the present invention.

As shown in FIG. 1, an automatic faucet 2 according to an embodiment of the present invention is installed on a washstand 1. The automatic faucet 2 is configured to detect a human body, an object, and the like by the first detection sensor 6 and the second detection sensor 8 and switch between water discharge and water stop from the faucet body 4. In addition, the automatic water tap of this embodiment can be installed in places where water discharge is required, such as a kitchen other than the washstand.
Next, the configuration of the automatic faucet 2 according to the first embodiment of the present invention will be described with reference to FIGS. 1 to 3.
FIG. 2 is a block diagram showing the entire automatic faucet 2 according to the embodiment of the present invention.
As shown in FIGS. 1 and 2, the automatic faucet 2 includes a faucet body 4, first and second detection sensors 6 and 8 disposed on both sides of the faucet body 4, and an electromagnetic valve 26. And a control unit 24 that controls the electromagnetic valve 26 based on detection signals from the first detection sensor 6 and the second detection sensor 8.
The faucet body 4 is configured to discharge hot water supplied from the water supply pipe 28 and passing through the electromagnetic valve 26 toward the front lower region.
The first detection sensor 6 is an infrared sensor that detects the presence of a human body, particularly a human hand, and an object within a human body detection area. The first detection sensor 6 includes a first light projecting element 16 that projects infrared light, and a first light receiving element 18 that receives the infrared light reflected by the hand or the like. When the first detection sensor 6 reflects the infrared light projected from the first light projecting element 16 by a human body or the like and the first light receiving element 18 receives reflected light having a predetermined intensity or more, the first detection sensor 6 sends a detection signal to the control unit 24. Is configured to output. The first detection sensor 6 is disposed on one side of the faucet body 4 at a predetermined interval from the faucet body 4, and is inserted into a first detection region 10 that extends in the water discharge direction in the lower region of the faucet body 4. It is configured to detect a finger or the like that has been put out. As the first detection sensor 6, another type of sensor such as a photoelectric sensor having a certain detection area with respect to a human body or the like can be used.
The second detection sensor 8 is the same infrared detection sensor as the first detection sensor 6, and is disposed on the opposite side of the faucet body 4 from the first detection sensor 6. The second detection sensor 8 includes a second light projecting element 20 that projects infrared light and a second light receiving element 22 that receives the infrared light reflected by the hand or the like. When the second detection sensor 8 reflects the infrared light projected from the second light projecting element 20 by a human body or the like and the second light receiving element 22 receives reflected light having a predetermined intensity or more, the second detection sensor 8 sends a detection signal to the control unit 24. Is configured to output. The second detection sensor 8 is configured to detect a finger or the like that is pushed out to the second detection region 12 that spreads in the direction of water discharge in the region below the faucet body 4.

The first detection region 10 in which a finger or the like is detected by the first detection sensor 6 and the second detection region 12 in which a finger or the like is detected by the second detection sensor 8 overlap in the direction of water discharge from the faucet body 4 and overlap. A detection area 14 is configured.
The overlap detection area 14 is an area where the first detection area 10 and the second detection area 12 overlap, and is expanded three-dimensionally. In FIG. 1, the regions of the first detection region 10 and the second detection region 12 are conceptually illustrated as regions of the figure cut along a certain cross section including the first detection sensor 6 and the second detection sensor 8 and extending in the left-right direction. Is shown in
In addition, the first detection region 10 and the second detection region 12 do not overlap outside the overlap detection region 14 in the horizontal direction, and only the first detection sensor 6 detects a human body, and a second detection sensor. A single detection area 15b in which only 8 detects a human body is formed.

  The light projecting elements of the first detection sensor 6 and the second detection sensor 8 are configured to project infrared light in a predetermined light projecting axis direction, and the intensity of the infrared light deviates from the light projecting axis. Decrease according to. In the present embodiment, a region that spreads in a substantially conical shape with the light projection axis as the central axis, in which the intensity of infrared rays on the light projection axis decreases by half, functions as a detection region of each detection sensor. In addition, the detection area can be changed according to the directivity of the light projecting element, the threshold value for determining the detection of a human body or the like based on the infrared light received by the light receiving element.

The control unit 24 is configured to control opening and closing of the electromagnetic valve 26 based on detection signals input from the first detection sensor 6 and the second detection sensor 8. Specifically, the control unit 24 can be configured by a microprocessor, a memory, a program for operating these, and the like (not shown above).
The solenoid valve 26 is connected between a water supply pipe 28 for supplying hot water and the faucet body 4 and is configured to be opened and closed by a control signal from the control unit 24.

Next, with reference to FIG. 3, the operation of the automatic faucet 2 of the present embodiment will be described.
FIG. 3 is a time chart showing the state of the automatic faucet detection sensor and the timing of water discharge according to the first embodiment of the present invention. In FIG. 3, the horizontal axis indicates the time axis T, and the vertical axis indicates the detection state (detection or non-detection) of the first detection sensor 6 and the second detection sensor 8 and water discharge from the faucet body 4 in order from the top. Each state (water discharge or water stoppage) is shown.

As shown in FIG. 3, first, at time T <b> 1, when the user presents a finger to the single detection region 15 a where only the first detection sensor 6 detects the finger, the first detection sensor 6 detects the finger. Since the second detection sensor 8 is in a non-detection state, water discharge from the faucet body 4 remains unstarted.
Next, when the user moves his / her finger to the overlap detection area 14 at time T2, the first detection sensor 6 remains in the detection state and the second detection sensor 8 is in the detection state. A control signal is sent to the electromagnetic valve 26 to open it. Thereby, water discharge from the faucet body 4 is started.
When the user moves his / her finger again to the single detection region 15a at time T3, the first detection sensor 6 is in the detection state and the second detection sensor 8 is in the non-detection state, but water is discharged from the faucet body 4. Will continue.
When the user moves his / her finger out of the single detection area 15a at time T4, the first detection sensor 6 is in a non-detection state and the second detection sensor 8 is already in a non-detection state. Both of the second detection sensors are in a non-detection state. When both the first and second detection sensors are in the non-detection state, the control unit 24 sends a control signal to the electromagnetic valve 26 and closes it. Thereby, the water discharge from the faucet body 4 is stopped.
It should be noted that there is a slight time delay between the first detection sensor 6 and the second detection sensor 8 being in the detection state or the non-detection state until the water discharge from the faucet body 4 is actually started or stopped. However, the time chart of the present specification is described ignoring these delays.

According to the automatic faucet 2 according to the first embodiment of the present invention described above, the overlapping detection area where the detection areas of the two detection sensors, the first detection sensor 6 and the second detection sensor 8, overlap in the water discharge direction of the faucet body 4. 14, when the two detection sensors detect the presence of a human body or an object, the control unit 24 opens the electromagnetic valve 26 and starts water discharge from the faucet body 4, so that the first detection sensor 6 or Only one detection sensor of the second detection sensors 8 detects the presence of a human body or the like, so that the control unit 24 does not open the electromagnetic valve 26 and suppresses unnecessary water discharge that is performed against the user's intention. be able to.
Furthermore, according to the present embodiment, after the water discharge from the faucet body 4 is started while suppressing unnecessary water discharge contrary to the user's intention, the first detection sensor 6 and the second detection sensor 8 Even if one of the detection sensors is in a non-detection state, the controller 24 opens the electromagnetic valve 26 and water discharge from the faucet body 4 is continued until both detection sensors are in the non-detection state. Therefore, it is easy for the user to continue water discharge, and the usability of the automatic faucet can be improved.
In such a case, for example, even when the user's hand moves during hand washing, water discharge is easily continued, and the usability of the automatic faucet can be improved. Furthermore, for example, when a user has a cup or the like in the detection area, water discharge is continuously performed, and discomfort that the water discharge is intermittently interrupted can be reduced.

According to the automatic faucet 2 according to the first embodiment of the present invention described above, the two detection sensors of the first detection sensor 6 and the second detection sensor 8 include the overlapping detection region 14 where the detection regions of the two detection sensors overlap. The single detection regions 15a and 15b that are detected by only one of the two detection sensors are formed outside the horizontal direction. Thereby, even when the user's finger or the like moves from the overlap detection region 14 to the outside in the horizontal direction, the finger or the like can be detected in any single detection region. Therefore, after water discharge from the faucet body 4 is started, water discharge is continued until both detection sensors are in the non-detection state. Therefore, the user can easily continue water discharge, and the usability of the automatic water tap 2 is improved. Can be better.
In such a case, for example, even when the user's hand or the like is moved to the left or right during hand washing, water discharge is easily continued, and the usability of the automatic faucet can be improved.

Next, an automatic faucet according to a second embodiment of the present invention will be described with reference to FIG. The automatic water faucet of the present embodiment is different from the first embodiment described above in that the electromagnetic valve 26 is controlled by the control unit 24. Here, only the differences of the second embodiment of the present invention from the first embodiment will be described, and description of similar parts will be omitted. In the first embodiment described above, in the water discharge state, the solenoid valve is controlled so that the water discharge is always stopped when both the first and second detection sensors are in the non-detection state. In the present embodiment, in addition to the first control mode in which the controller stops water discharge when both detection sensors are in the non-detection state in the water discharge state, one detection sensor is in the non-detection state in the water discharge state. It is configured to switch and execute the second control mode for stopping water discharge.
FIG. 4 is a time chart showing the detection state of the automatic faucet and the timing of water discharge according to the second embodiment of the present invention.
As shown in FIG. 4, first, at time T1, the first detection sensor 6 detects the user's finger, but the second detection sensor 8 remains in the non-detection state, and water is discharged from the faucet body 4. Remains stopped.
Next, at time T <b> 2, the first detection sensor 6 continues in the detection state, and when the second detection sensor 8 detects the user's hand in the second detection region 12, the first detection sensor 6 and the second detection sensor 6. Since both of the sensors 8 are in the detection state, the control unit 24 opens the electromagnetic valve 26 and water discharge from the faucet body 4 is started.
The control unit 24 is in a state where the two detection sensors both detect a finger or the like, and sets the detection sensor that first detects the finger or the like as a priority side detection sensor when water discharge is started. Therefore, at time T2 in FIG. 4, the first detection sensor 6 that has previously detected the finger is set as the priority side detection sensor. Conversely, when the second detection sensor 8 has first detected the user's hand, the control unit 24 sets the second detection sensor 8 as the priority side detection sensor.
When the user's finger goes out of the first detection area 10 at time T3, the first detection sensor 6 is in a non-detection state, and the control unit 24 closes the electromagnetic valve 26 to remove the water from the faucet body 4. Stop water discharge. As described above, since the first detection sensor 6 is set as a priority-side detection sensor, the control unit 24 is an electromagnetic valve even though the other second detection sensor 8 continues to detect the human body. 26 is closed. That is, at time T3, the control unit 24 controls the electromagnetic valve 26 in the second control mode in which water discharge is stopped when one of the first and second detection sensors is in a non-detection state. As described above, the first detection sensor 6 set as the priority detection sensor has priority over the second detection sensor 8, and the control unit 24 closes the electromagnetic valve 26 based on the detection state of the first detection sensor 6. Let Note that when the first detection sensor 6 that is the priority side detection sensor is in a non-detection state, the setting of the first detection sensor 6 as the priority side detection sensor is cancelled.
At time T4, the user also retracts his / her finger from the second detection area 12, and the second detection sensor 8 is also in a non-detection state. The still water condition continues.

Next, at time T5, the first detection sensor 6 newly detects the user's hand. At time T5, the second detection sensor 8 remains in a non-detected state, and water discharge from the faucet body 4 remains stopped.
At time T <b> 6, the first detection sensor 6 continues the detection state, and when the second detection sensor 8 detects the user's hand in the second detection region 12, the first detection sensor 6 and the second detection sensor 8. Since both are in the detection state, the control unit 24 opens the electromagnetic valve 26 and water discharge from the faucet body 4 is started. Here, the control part 24 sets the 1st detection sensor 6 which detected the user's hand first to a priority side detection sensor in the state in which the 1st detection sensor 6 and the 2nd detection sensor 8 are non-detection.
At time T7, the user's finger is removed from the second detection area 12, and the second detection sensor 8 is in the non-detection state, but the first detection sensor 6 set as the priority side detection sensor is in the detection state. The water discharge from the faucet body 4 is continued. As described above, the first detection sensor 6 that is a priority side detection sensor is prioritized over the second detection sensor 8, and water discharge is continued until the first detection sensor 6 enters a non-detection state.
At time T8, when the finger is removed from the first detection region 10 and the first detection sensor 6 is in the non-detection state, the second detection sensor 8 is already in the non-detection state, so the control unit 24 closes the electromagnetic valve 26. The water discharge from the faucet body 4 is stopped. That is, at time T8, the control unit 24 controls the electromagnetic valve 26 in the first control mode in which water discharge is stopped when both the first and second detection sensors are in the non-detection state. In addition, when the 1st detection sensor 6 will be in a non-detection state, the setting which makes the 1st detection sensor 6 a priority side detection sensor will be cancelled | released.

  According to the automatic faucet 2 of the second embodiment of the present invention described above, even if one of the two detection sensors of the first detection sensor 6 and the second detection sensor 8 is in a non-detection state. Until the two detection sensors are both in the non-detection state, the control unit 24 opens the electromagnetic valve 26 and continues to discharge water from the faucet body 4 to improve the usability of the user. When one of the detection sensors is in a non-detection state, the control unit 24 closes the electromagnetic valve 26, stops water discharge from the faucet body 4, and continues water discharge until both of the two detection sensors are in the non-detection state. Since the control unit 24 automatically switches between the second control mode that can save water more than the first control mode, the detection state of the two detection sensors after the water discharge from the faucet body 4 is started Or change of detection state Ri, it is possible to achieve both water conservation and usability of.

According to the automatic faucet 2 of the second embodiment of the present invention described above, the detection order until the two detection sensors of the first detection sensor 6 and the second detection sensor 8 both detect the presence of a human body or the like. The first detection sensor that detects a human body or the like is set as a priority side detection sensor, the control unit 24 opens and closes the electromagnetic valve 26 according to the detection state of the priority side detection sensor, and starts water discharge from the faucet body 4. Since the control to be continued or stopped is switched, it is possible to achieve both water saving in which continuation of water discharge unintended by the user is suppressed and usability improvement in which water discharge is continued.
In such a case, for example, when the user moves his / her hand from the first detection sensor to the second detection sensor in order to take a cup or toothbrush, the continuation of water discharge unintended by the user can be suppressed. It is also possible to remove the hand etc. from the direction other than directly in front of the faucet body 4 and wash the hand by moving to the left and right, and when the toothbrush is wet with the toothbrush tip held on the dominant hand side. The hand on the side of the handle continues the detection state, makes it easy to continue water discharge, and improves the usability of the user.

Next, an automatic faucet according to a third embodiment of the present invention will be described with reference to FIG. The automatic water faucet of the present embodiment is different from the first embodiment described above in that the electromagnetic valve 26 is controlled by the control unit 24. Here, only the differences of the third embodiment of the present invention from the first embodiment will be described, and description of similar parts will be omitted. Further, in the second embodiment described above, the first control mode and the second control mode are switched and executed by setting the priority side detection sensor. However, in this embodiment, the control unit is the user. It is configured to recognize the re-watering operation by and switch between the first control mode and the second control mode.
FIG. 5 is a time chart showing the detection state of the automatic faucet and the timing of water discharge according to the third embodiment of the present invention.
As shown in FIG. 5, first, at time T1, the first detection sensor 6 detects the user's hand in the first detection area 10, but the second detection sensor 8 remains in a non-detection state, Water discharge from the faucet body 4 is not started.
At time T2, the first detection sensor 6 continues to be in the detection state, and when the second detection sensor 8 detects the user's hand in the second detection region 12, the control unit 24 opens the electromagnetic valve 26, and the water Water discharge from the plug body 4 is started. That is, the controller 24 starts water discharge from the faucet body 4 when both the first detection sensor 6 and the second detection sensor 8 are in a detection state, and after the water discharge is started, the first detection sensor 6 or the second When any one of the detection sensors 8 is in a non-detection state, control in the second control mode for stopping water discharge is started.
At time T3, the first detection sensor 6 continues to be in the detection state, but the user's fingers and the like are removed from the second detection region 12, and the second detection sensor 8 is in the non-detection state. Since the control unit 24 performs the control in the second control mode in the initial state, when any one of the detection sensors is in the non-detection state, the control unit 24 closes the electromagnetic valve 26 and stops water discharge from the faucet body 4. .
When the second detection sensor 8 detects the user's finger again at time T4, the two detection sensors of the first detection sensor 6 and the second detection sensor 8 are both in the state of detecting a human body or the like. Opens the electromagnetic valve 26 and performs a re-water discharge operation in which re-water discharge from the faucet body 4 is started. When the time from the time T3 when the second detection sensor 8 is in the non-detection state to the time T4 when the two detection sensors are in the detection state is within the predetermined mode switching period TM, the control unit 24 The control mode is switched from the second control mode to the first control mode. In the present embodiment, the mode switching period TM is set to 1 second. Preferably, the mode switching period TM is set to 0.5 seconds to 1 second.
At time T5, the control unit 24 is executing control in the first control mode. Therefore, even when the user moves his / her finger or the like and the second detection sensor 8 is in the non-detection state, the control unit 24 is not in water. Water discharge from the plug body 4 is continued.
At time T6, when the first detection sensor 6 is also in the non-detection state, the two detection sensors are both in the non-detection state, and the control unit 24 closes the electromagnetic valve 26 to stop water discharge from the faucet body 4. If the water discharge is not started within the mode switching period TM after the water discharge is stopped at time T6, the control unit 24 switches the control mode to the second control mode.

According to the automatic faucet 2 according to the third embodiment of the present invention described above, in the initial state, the control unit 24 executes the control in the second control mode in which it is easy to stop water discharge. When the sensor enters a non-detection state, the control unit 24 closes the electromagnetic valve 26 and stops water discharge from the faucet body 4. After the water discharge is stopped, the two detection sensors are again in the detection state within the predetermined mode switching period TM, and when re-water discharge is started, it can be estimated that the user continues to work for water discharge. Can be switched from the second control mode to the first control mode in which water discharge is easy to continue, and the user's usability can be improved by reflecting the user's intention to continue water discharge.
In such a case, for example, when the range in which the user's hand is moved by a face wash or the like is large, the hand intermittently leaves the detection area of any one of the detection sensors, and the water discharge is interrupted and stopped. If a hand or the like is in the entire detection area including the detection areas of the two detection sensors, water discharge can be continued, and the user's usability can be improved.

Next, an automatic faucet according to a fourth embodiment of the present invention will be described with reference to FIG. The automatic water faucet of the present embodiment is different from the first embodiment described above in that the electromagnetic valve 26 is controlled by the control unit 24. Here, only the differences of the fourth embodiment of the present invention from the first embodiment will be described, and description of similar parts will be omitted. In the third embodiment described above, the control unit switches the control mode from the second control mode to the first control mode by detecting re-watering once, but in the present embodiment, the control unit Is configured to switch the control mode to the first control mode when a plurality of re-watering operations are recognized.
FIG. 6 is a time chart showing the detection state of the automatic faucet and the timing of water discharge according to the fourth embodiment of the present invention.
As shown in FIG. 6, first, at time T1, the first detection sensor 6 detects the user's hand in the first detection region 10, but the second detection sensor 8 remains in a non-detection state. Water discharge from the faucet body 4 remains stopped. Here, when both the first detection sensor 6 and the second detection sensor 8 are in the detection state, the control unit 24 opens the electromagnetic valve 26 and starts water discharge from the faucet body 4. In the initial state, the control unit 24 executes control in the second control mode in which water discharge is continued until any one of the detection sensors is in the non-detection state.
When the second detection sensor 8 detects the user's hand in the second detection region 12 at time T2, the control unit 24 opens the electromagnetic valve 26, and water discharge from the faucet body 4 is started.
At time T3, when the user's finger is removed from the second detection region 12 and only the second detection sensor 8 is in a non-detection state, the control unit 24 closes the electromagnetic valve 26 in the second control mode, and the faucet body. Stop water discharge from 4. Further, the control unit 24 starts measuring the predetermined mode determination period TD from time T3 when the second detection sensor 8 is in the non-detection state. In the present embodiment, the mode determination period TD is set to 6 seconds. The control mode of the control unit 24 is continuously set to the second control mode.
The mode determination period TD is a period in which measurement is started when any one detection sensor enters a non-detection state in the second control mode, and the number of times the re-water discharge operation is repeated within the mode determination period TD. is there. In the present embodiment, when the re-water discharge operation is repeated three times within the mode determination period TD, the control unit 24 switches the control mode from the second control mode to the first control mode.
If the 2nd detection sensor 8 will be in a detection state again at the time T4, the control part 24 will open the electromagnetic valve 26 and will start water discharge. Here, at time T4, since the predetermined mode switching period TM has not elapsed since time T3 when water discharge was stopped last time, the control unit 24 recognizes this as a re-water discharge operation. That is, the control unit 24 recognizes that the first re-water discharge operation is performed within the mode determination period TD in which measurement is started from time T3.
Next, when the second detection sensor 8 is in a non-detection state at time T5, the control unit 24 closes the electromagnetic valve 26 and stops water discharge from the faucet body 4 in the second control mode.
Furthermore, when the second detection sensor 8 detects the user's finger again at time T <b> 6, the control unit 24 opens the electromagnetic valve 26 and water discharge from the faucet body 4 is started. At time T6, since the mode switching period TM has not elapsed after time T5, the control unit 24 recognizes this as a re-watering operation, and within the mode determination period TD in which measurement is started from time T3, 2 Recognize that the second re-watering operation was performed.
If the 2nd detection sensor 8 will be in a non-detection state in time T7, the control part 24 will close the solenoid valve 26 and will stop the water discharge from the faucet main body 4 by 2nd control mode.
When the second detection sensor 8 is in a detection state at time T8, the control unit 24 opens the electromagnetic valve 26. Similarly, at time T8, since the mode switching period TM has not elapsed after time T7, the control unit 24 recognizes this as a re-watering operation, and within the mode determination period TD in which measurement is started from time T3. , It is recognized that the third re-watering operation has been performed.
The control unit 24 switches the control mode from the second control mode to the first control mode because the re-water discharge operation is repeated three times within the mode determination period TD in which measurement is started from time T3.
Next, at time T9, the user's finger is removed from the first detection area 10 and the first detection sensor 6 is in a non-detection state, but the second detection sensor 8 is continuing the detection state. Since the control mode is switched to the first control mode at time T9, the control unit 24 continues water discharge from the faucet body 4.
Moreover, after the 1st detection sensor 6 will be in a detection state again at the time T10, even if the 2nd detection sensor 8 will be in a non-detection state at the time T11, from the faucet main body 4 by 1st control mode. Water discharge continues.
At time T12, when the first detection sensor 6 is in the non-detection state, the two detection sensors are both in the non-detection state. Therefore, the control unit 24 closes the electromagnetic valve 26 and stops water discharge from the faucet body 4. . When the mode switching period TM elapses after the water discharge is stopped, the control mode is switched from the first control mode to the second control mode.

According to the automatic faucet 2 according to the fourth embodiment of the present invention described above, after the water discharge is stopped in the second control mode, the re-water discharge operation is repeated three times within the predetermined mode determination period TD. The control mode is switched to the first control mode. Accordingly, it is possible to more reliably estimate the user's continuation of work for the purpose of water discharge, and it is possible to suppress useless continuation of water discharge while improving usability reflecting the user's intention to continue water discharge.
In such a case, for example, when the user moves the inside or outside of the detection region continuously in a short time when the range of movement of the hand etc. is large, such as hand washing, face washing and tooth brushing, Alternatively, when the user intentionally performs the re-watering operation several times in a short period of time, the user's intention to continue water discharge is more reliably reflected, and it becomes easier to continue water discharge. Usability can be improved.

DESCRIPTION OF SYMBOLS 1 Wash-stand 2 Automatic faucet 4 Faucet body 6 1st detection sensor 8 2nd detection sensor 10 1st detection area 12 2nd detection area 14 Overlap detection area 15a Single detection area 15b Single detection area 16 1st light projection element 18 1st light receiving element 20 2nd light projecting element 22 2nd light receiving element 24 Control part 26 Solenoid valve 28 Water supply pipe

Claims (6)

An automatic faucet that detects the human body and switches between water discharge and water stop.
A faucet body for discharging hot water,
Two detection sensors arranged on both sides across the faucet body, and provided so that a part of each human body detection region overlaps in the direction of water discharge from the faucet body,
Water discharge from the faucet body, a solenoid valve for switching water stop,
When both of the two detection sensors detect a human body, water discharge starts, and even if any one of the two detection sensors stops detecting a human body, water discharge continues, and both the two detection sensors are both human bodies. A control unit that controls the solenoid valve to stop water discharge when it stops detecting
An automatic faucet characterized by comprising   The two detection sensors are arranged such that a detection region in which only one of the two detection sensors detects a human body is formed on the outer side in the horizontal direction of a portion where the detection regions of the two detection sensors overlap. The automatic faucet according to claim 1.   After the start of water discharge, the control unit continues water discharge even if any one of the two detection sensors no longer detects a human body, and stops water discharge when both of the two detection sensors no longer detect a human body. The automatic control according to claim 1 or 2, wherein the first control mode is configured to be switched between a first control mode and a second control mode in which water discharge is stopped when any one of the detection sensors no longer detects a human body. Water faucet.   When the two detection sensors are both in the state of detecting a human body, the control unit sets the detection sensor that first detects the human body as a priority detection sensor, and the priority detection sensor does not detect the human body. Even if the other detection sensor detects a human body, water discharge is stopped, and if the priority detection sensor detects a human body, the priority detection is performed even if the other detection sensor is not detecting a human body. The automatic water faucet according to claim 1 or 2, wherein the electromagnetic valve is controlled so that water discharge continues until the sensor no longer detects a human body.   After the start of water discharge, the control unit stops water discharge in the second control mode, and then performs a re-water discharge operation in which two detection sensors again detect a human body and start water discharge within a predetermined mode switching period. The automatic faucet according to claim 3, wherein the control mode is switched to the first control mode.   The automatic faucet according to claim 5, wherein the control unit switches the control mode to the first control mode when the re-water discharge operation is repeated a plurality of times within a predetermined mode determination period.

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