JP2012036642A - Automatic water supply unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an automatic water supply unit which can discharge an optimal amount of water in just proportion to a toilet bowl, capable of easily setting the optimal amount of discharge water required for washing the toilet bowl corresponding to various types of installed toilet bowls.SOLUTION: An automatic water supply unit 1 comprises a remote control unit 22 for setting toilet bowl identification information that identifies a type of installed toilet bowl, a human body sensor 4 that detects movement of a user U, a solenoid valve 10 that opens and closes a discharge water passage 14, a counter 16b that detects an amount of discharge water in the water passage 14, and a controller 20 that controls opening and closing of the solenoid valve. The controller 20 opens the solenoid valve after the human body sensor detects movement of the user, then determines timing of closing the solenoid valve based on the toilet bowl identification information set by the remote control unit for setting toilet bowl identification information and detection information detected by the counter, and closes the solenoid valve according to the determined timing.

Description

  The present invention relates to an automatic water supply apparatus, and more particularly to an automatic water supply apparatus that automatically discharges flush water to a toilet based on a user's operation.

Conventionally, in an automatic water supply device that automatically discharges wash water to a flush toilet such as a flush toilet or flush toilet based on the user's action, first, a part of the automatic feed device or a toilet bowl or its toilet Sensors provided in the vicinity sense the user (human body) of the toilet bowl, and when this user leaves the sensor after using the toilet bowl, a predetermined amount of washing water is supplied to the toilet bowl from the water supply supplied from a water supply source such as water supply. An automatic water supply device that discharges water at a constant rate is known.
Moreover, in the technique which performs the fixed amount water discharge of the conventional toilet bowl wash water, for example, as described in Patent Document 1, a flow meter unit for measuring the flow rate of the wash water is provided, and the flow rate measured by the flow meter unit is provided. What performs fixed amount water discharge by flow control based on a value is known.
Furthermore, as described in Patent Literature 2, a self-powered toilet flushing water automatic water supply device including a generator is known. In this automatic water supply device, in order to avoid an increase in the size of the device and reduce the cost, without providing a flow meter separately, the flow rate is detected by counting the wave number of the output of the generator, thereby preventing the constant water discharge. Is going.

JP 2005-146735 A Japanese Utility Model Publication No. 63-176168

However, in the above-described conventional automatic water supply apparatus, the optimal water discharge flow rate for the quantitative water discharge of the automatic water supply apparatus differs depending on various types of toilets such as the product number and model of the installed toilet bowl. Because it is compelling to adjust the flow rate manually by trial and error in the field, it is almost always used with a constant water discharge amount regardless of the type of toilet installed. Therefore, even if the automatic water supply device is installed in a certain type of toilet, even if quantitative water discharge can be realized, when it is installed in another type of toilet, the required amount of washing water is not discharged, There is a problem that cleaning is impaired, or an excessive amount of cleaning water is discharged and water cannot be saved.
In addition, the optimal water discharge flow rate for quantitative water discharge is based on the condition that the water supply pressure supplied to the automatic water supply device is constant, but this water supply pressure varies depending on the site where the automatic water supply device is installed. is there. In particular, in the automatic water supply device for toilets installed in public facilities such as stations and buildings, even though multiple automatic water supply devices are connected in series, there is only one source of water supply. Since most of the automatic water supply devices installed in the system are used, the pressure of the water supplied to each automatic water supply device will fluctuate greatly and optimal water discharge will be performed without excessive or insufficient water discharge. There is also a problem that is difficult.

  Therefore, the present invention has been made to solve the above-described problems of the prior art, and easily sets the water discharge flow rate necessary for optimal toilet cleaning according to various types of toilets installed. It is an object of the present invention to provide an automatic water supply apparatus that can perform quantitative water discharge to a toilet with an optimal water discharge flow rate without excess or deficiency.

In order to achieve the above object, the present invention is an automatic water supply device that automatically discharges flush water to a toilet based on a user's action, and toilet identification information that identifies the type of toilet installed A toilet identification information setting means for setting the operation, an action detection means for detecting the user's action, an electromagnetic valve for opening and closing the water passage for the water to be discharged, and a water discharge flow detection means for detecting the water discharge flow rate in the water passage. And control means for controlling opening and closing of the electromagnetic valve based on a signal transmitted from the operation detection means, and the control means detects the operation of the user after the operation detection means detects the operation of the user. And then determines the timing for closing the electromagnetic valve based on the toilet identification information set by the toilet identification information setting means and the detection information detected by the water discharge flow rate detection means, This determined Taimi It is characterized in that to close the solenoid valve in accordance with grayed.
In the present invention configured as described above, when the operation detecting means detects the user's operation when the control means controls the opening and closing of the electromagnetic valve, the control means receives the signal transmitted from the operation detecting means and The valve is opened, and then the timing for closing the solenoid valve is determined based on the toilet identification information set by the toilet identification information setting means and the detection information detected by the discharged water flow rate detection means. Since the electromagnetic valve is closed according to the timing, the water discharge flow rate necessary for optimal toilet flushing can be easily set according to various types of toilets installed. In addition, since it is possible to perform constant water discharge to the toilet with the optimal discharge flow rate according to the various types of toilets, it is possible to prevent the toilet from becoming easily soiled due to lack of washing water, and excess Water discharge can be achieved by preventing water from being washed out.

In the present invention, preferably, it further includes a generator provided with an impeller rotated by water discharged through the water passage, and a power storage means for storing electric power generated by the rotation of the impeller of the generator, The control means controls the opening and closing of the electromagnetic valve using the electric power stored in the power storage means, and the timing for closing the electromagnetic valve is the rotation of the impeller of the generator detected by the discharged water flow rate detecting means. The number is determined based on the number and the toilet identification information set by the toilet identification information setting means.
In the present invention configured as above, the moment of water discharge in the water passage based on the information detected by the water discharge flow rate detection means of the rotational speed of the impeller of the generator that generates electric power used for the opening / closing control of the solenoid valve. Since it is possible to determine the timing for closing the solenoid valve while considering the flow rate, it is possible to perform optimal quantitative water discharge according to various types of toilets without increasing the size of the automatic water supply device itself, Water saving according to the type of toilet can be realized.

In the present invention, preferably, it further has a feed water pressure measuring means for measuring a feed water pressure in the water passage, and the timing for closing the electromagnetic valve is a measured value measured by the feed water pressure measuring means, the toilet It is determined based on the toilet bowl identification information set by the identification information setting means and the detection information by the water discharge flow rate detection means.
In the present invention configured as described above, the timing for closing the solenoid valve is determined based on the measurement value measured by the feed water pressure measuring means in addition to the toilet identification information and the detection information by the discharged water flow rate detecting means. Quantitative water discharge can be performed at an optimal water discharge flow rate in accordance with various kinds of toilet situations and various on-site conditions with different water supply pressures.

In the present invention, it is preferable that the control unit is configured such that, after the operation detecting unit detects a user's operation, the electromagnetic valve is opened and water discharge starts until a first predetermined time. The rate of increase in the rotational speed of the generator impeller detected by the discharged water flow rate detecting means when the rotational speed of the impeller is increasing, until the second predetermined time after elapse of the first predetermined time. The timing for closing the electromagnetic valve is determined based on the substantially constant predetermined rotation speed of the generator impeller detected by the water discharge flow rate detection means and the toilet identification information set by the toilet identification information setting means. To do.
In the present invention configured as described above, after the operation detecting means detects the user's action, the discharged water flow rate detecting means is from the time when the electromagnetic valve is opened and the water discharge starts until the first predetermined time. The rotation speed of the detected impeller of the generator increases, and the rate of increase of this rotation speed greatly depends on the water supply pressure in the water passage. Further, until the second predetermined time after the elapse of the first predetermined time, the rotational speed of the impeller of the generator detected by the discharged water flow rate detecting means becomes substantially constant and stable, and the instantaneous flow rate in the water passage becomes large. Dependent. Therefore, the water discharge flow rate detecting means detects the rate of increase in the rotational speed of the generator impeller from the time of the start of water discharge to the first predetermined time, and is approximately until the second predetermined time after the first predetermined time has elapsed. By detecting the predetermined number of revolutions of the impeller of a certain generator, it is possible to control the closing of the solenoid valve according to the water supply pressure, instantaneous flow rate and toilet identification information, so that more optimal quantitative water discharge is performed The water-saving effect according to the type of toilet can be improved. Further, since the water discharge flow rate detection means detects the increase rate of the rotation speed of the impeller of the generator, the supply water pressure can be detected, and therefore a means (pressure sensor or the like) for measuring the supply water pressure is separately provided. Since it is not necessary, the automatic water supply device itself can be prevented from becoming large.

In the present invention, preferably, the toilet identification information setting means is a remote controller provided separately from the main body of the automatic water supply apparatus.
In the present invention configured as described above, since the toilet bowl identification information setting means is a remote controller provided separately from the main body of the automatic water supply apparatus, it is installed by the remote controller at an early stage of installing the automatic water supply apparatus. Once the toilet identification information for identifying the type of toilet bowl is set, the remote controller can be carried. For example, the management company can manage the toilet identification information at a place different from the automatic water supply apparatus. Therefore, it is possible to prevent a trouble that the user mistakenly operates the toilet identification information setting unit to change the amount of water discharge and cannot perform the optimal quantitative water discharge.

In the present invention, preferably, the control means further calculates a total water discharge amount discharged to the toilet based on the information detected by the water discharge flow rate detection means, and the toilet identification information setting means includes the total water discharge amount. The total water discharge amount display means is displayed.
In the present invention configured as described above, the control unit calculates the total water discharge amount discharged to the toilet based on the information detected by the water discharge flow rate detection unit, and the calculated total water discharge amount is used as the toilet identification information setting unit. By displaying the total water discharge amount display means, it is possible to easily grasp the total water discharge amount of the automatic water supply apparatus. Therefore, based on this total water discharge amount, it is possible to determine the maintenance time of the automatic water supply device or to set the maintenance time. In addition, for example, in a public automatic water supply apparatus in which a plurality of automatic water supply apparatuses are connected in series, it is not necessary to perform maintenance on all of the plurality of automatic water supply apparatuses at the same time, and the automatic water supply amount reaching a predetermined water discharge amount or more is reached. Since only the water supply device needs to be maintained, maintenance can be performed efficiently.

  According to the automatic water supply apparatus of the present invention, it is possible to easily set the water discharge flow rate necessary for the optimal toilet flushing according to the various types of toilets installed, and the toilet with the optimal water discharge flow rate without excess or deficiency A constant amount of water can be discharged.

It is the schematic which shows the flush toilet to which the automatic water supply apparatus by 1st Embodiment of this invention was applied. It is front sectional drawing which shows the automatic water supply apparatus by 1st Embodiment of this invention. FIG. 3 is a sectional view taken along line III-III in FIG. 2. It is an example of the graph which shows the relationship between the water discharge time and the rotation speed of the impeller of a generator in the automatic water supply apparatus by 1st Embodiment of this invention. In the automatic water supply apparatus by 1st Embodiment of this invention, it is a graph which shows the relationship between the instantaneous flow volume and the amount of discharged water in the predetermined water pressure compared with the kind (toiletries AC) of the flush toilet bowl installed. In the automatic water supply apparatus by 1st Embodiment of this invention, it is a graph which shows the relationship between the instantaneous flow volume in the predetermined water pressure compared with the kind (toiletries AC) of the flush toilet installed, and electromagnetic valve opening / closing time. In the automatic water supply apparatus by 1st Embodiment of this invention, when the toilet bowl A is installed as a flush toilet, it is a graph which shows the relationship between the instantaneous flow rate compared with each water pressure, and electromagnetic valve opening / closing time. In the automatic water supply apparatus by 1st Embodiment of this invention, when the toilet bowl B is installed as a flush toilet, it is a graph which shows the relationship between the instantaneous flow rate compared with each water pressure, and solenoid valve opening / closing time. In the automatic water supply apparatus by 1st Embodiment of this invention, when the toilet bowl C is installed as a flush toilet, it is a graph which shows the relationship between the instantaneous flow rate compared with each water pressure, and solenoid valve opening / closing time. It is front sectional drawing which shows the automatic water supply apparatus by 2nd Embodiment of this invention.

Hereinafter, an automatic water supply apparatus according to a first embodiment of the present invention will be described with reference to the accompanying drawings.
FIG. 1 is a schematic view showing a flush toilet to which an automatic water supply apparatus according to a first embodiment of the present invention is applied.

First, as shown in FIG. 1, reference numeral 1 indicates an automatic water supply apparatus according to the first embodiment of the present invention, and the automatic water supply apparatus 1 is provided above a flush toilet 2 installed in a toilet room, The upstream end is connected to a water supply source (not shown) such as water supply.
In addition, in the automatic water supply apparatus 1 of this embodiment, although the form provided in the flush toilet bowl is demonstrated as an example, you may provide in a flush toilet bowl instead of a flush toilet bowl.

In addition, a human body sensor 4 that is an operation detection unit that detects the operation of the user U of the flush toilet 2 is disposed on a part of the front side of the automatic water supply apparatus 1. When the human body sensor 4 detects the presence (human body) of the user U located on the front side of the flush toilet 2, the automatic water supply device 1 is activated, and when the user U leaves the human body sensor 4 after using the toilet bowl. A predetermined amount of flush water is supplied to the flush toilet 2 from the feed water supplied to the automatic water feeder 1 from a water supply source (not shown).
In addition, in the automatic water supply apparatus 1 of this embodiment, about the form by which the human body sensor 4 was integrated in a part of the automatic water supply apparatus 1 as an example of the operation | movement detection means which detects the operation | movement of the user U of the flush toilet 2. I will explain, but as another form of motion detection means, you may provide a sensor that senses when you hold your hand over the wall around the flush toilet in the toilet room, or use something like a touch switch or touch button. The operation may be detected by touching or pushing the user.

Next, a specific configuration of the automatic water supply apparatus 1 according to the present embodiment will be described with reference to FIGS. 2 and 3.
FIG. 2 is a front sectional view showing the automatic water supply apparatus according to the first embodiment of the present invention, and FIG. 3 is a sectional view taken along line III-III in FIG.

  As shown in FIGS. 2 and 3, the automatic water supply apparatus 1 has a primary water passage (water supply passage) 6, a pressure chamber 8, an electromagnetic valve 10, a piston valve 12, and a secondary water passage from the upstream side. (Water discharge channel) 14, a generator 16, and a capacitor 18 are provided.

  The automatic water supply apparatus 1 also includes a controller 20 that is a control unit that controls opening and closing of the electromagnetic valve 10 based on a signal transmitted from the human body sensor 4.

Further, the automatic water supply apparatus 1 is configured to input and set information for identifying various types of toilets (hereinafter referred to as “toilet identification information”) such as the product number and model of the flush toilet 2 installed. As a means, a remote control 22 for setting the toilet identification information provided separately from the main body of the automatic water supply apparatus 1 is provided.
In the present embodiment, as an example of the toilet identification information setting means, the toilet identification information setting remote controller 22 provided separately from the main body of the automatic water supply apparatus 1 is employed, but the toilet identification information is input. A possible device may be incorporated into a part of the main body of the automatic water supply apparatus 1.

  Moreover, in the automatic water supply apparatus 1, before the automatic water supply apparatus 1 discharges water to the flush toilet 2, the solenoid valve 10 and the piston valve 12 are closed, and the primary side water passage 6 and the inside of the pressure chamber 8 are closed. It is filled with water supply and is in a state of being stopped at a predetermined primary water pressure.

Next, in the automatic water supply apparatus 1, when the user U approaches the flush toilet 2 and the human body sensor 4 senses the user U, and the user U leaves the human body sensor 4 after using the toilet bowl, the human body sensor 4 is in a non-detection state, and a signal indicating this non-detection state is transmitted to the controller 20.
The controller 20 that has received the signal transmitted from the human body sensor 4 transmits a command signal for opening the electromagnetic valve 10 to the electromagnetic valve 10, and the electromagnetic valve 10 that has received this command signal opens for a predetermined time. Control is to be performed.

  Moreover, in the automatic water supply apparatus 1, when the solenoid valve 10 opens, the water in the pressure chamber 8 flows into the secondary side water passage 14 via the solenoid valve 10, and water discharge is started. When most of the water in the pressure chamber 8 flows into the secondary side water passage 14, no water pressure is applied to the pressure chamber 8, so the piston valve 12 is pushed upward by the primary pressure from the primary side water passage 6 side. Then, the piston valve 12 is opened, and the water supply in the primary side water passage 6 flows into the secondary side water passage 14 via the piston valve 12 to discharge water.

Further, the generator 16 includes an impeller 16 a that is provided in the middle of the secondary side water passage 14 and rotates by water discharged through the secondary side water passage 14. The impeller 16a is provided with a counter 16b that functions as a discharged water flow rate detecting means by counting the number of rotations.
Further, the electric power generated by the rotation of the impeller 16a of the generator 16 is stored in a capacitor 18 which is a storage means, and the electric power stored in the capacitor 18 is stored in the electromagnetic valve 10 by the controller 20. Is used for opening / closing control (details will be described later).

  Further, in the automatic water supply apparatus 1, the valve closing control is performed after the electromagnetic valve 10 is opened for a predetermined time. The timing for closing the electromagnetic valve 10 in the valve closing control is determined based on the rotation speed of the impeller 16a detected by the counter 16b of the generator 16 and the toilet identification information set by the toilet identification information setting remote controller 22. Has come to be determined.

  Moreover, in the automatic water supply apparatus 1, the solenoid valve 10 is closed according to the timing which closes the solenoid valve 10 which the controller 20 determined. When water accumulates in the pressure chamber 8, the piston valve 12 is pushed downward by the water pressure in the pressure chamber 8, the piston valve 12 is closed, and water stoppage is performed.

Furthermore, the controller 20 of the automatic water supply apparatus 1 calculates the total water discharge amount discharged to the flush toilet 2 based on the information detected by the counter 16b. A total water discharge amount display monitor 24 for displaying the total water discharge amount calculated by the controller 20 is provided.
In addition, the controller 20 includes table information (see FIG. 5 to be described later in detail) that indicates a relationship between the instantaneous flow rate and the water discharge amount, which is determined in advance according to various types of toilets such as product numbers and models, and the instantaneous flow rate. And a memory 26 in which table information (refer to FIGS. 6 to 9 to be described later in detail) is stored.

Next, specific contents of the opening / closing control of the electromagnetic valve in the automatic water supply apparatus of the present embodiment will be described with reference to FIGS.
FIG. 4 is an example of a graph showing the relationship between the water discharge time and the rotational speed of the impeller of the generator in the automatic water supply apparatus according to the present embodiment, and the horizontal axis of FIG. 4 is the water discharge time t during which water is discharged, The vertical axis in FIG. 4 represents the rotational speed N of the impeller of the generator, and time t0 in FIG. 4 represents the time when the opening of the electromagnetic valve started.
FIG. 5 is a graph showing the relationship between the instantaneous flow rate and the amount of water discharged at a predetermined water pressure (0.2 MPa) compared with the type of flush toilet installed (toiletries A to C) in the automatic water supply apparatus according to the present embodiment. FIG. 6 shows the relationship between the instantaneous flow rate and the solenoid valve opening / closing time at a predetermined water pressure (0.2 MPa) compared with the type of flush toilet installed (toiletries A to C) in the automatic water supply apparatus according to the present embodiment. It is a graph which shows.
Furthermore, FIG. 7 to FIG. 9 show the respective water pressures (0.07 MPa, 0.2 MPa, 0.75 MPa) when the toilet bowl A, the toilet bowl B, and the toilet bowl C are respectively installed as flush toilets in the automatic water supply apparatus according to the present embodiment. It is a graph which shows the relationship between the instantaneous flow rate compared by (3), and the solenoid valve opening / closing time.

First, as a premise for performing opening / closing control of the electromagnetic valve 10, toilet identification information such as a product number and a model related to the installed flush toilet 2 is input and set to the toilet identification information setting remote controller 22.
For example, when the type of flush toilet 2 installed is the toilet A, when the product number of the toilet A is input to the toilet identification information setting remote controller 22 as the toilet identification information, the toilet identification information setting remote 22 A signal is transmitted to the controller 20. And the controller 20 which received this signal selects the table information regarding "toilet bowl A" shown in FIGS. 5-7 from the information memorize | stored in the memory 26. FIG.
Similarly, when the product number of the toilet bowl B is input to the remote control 22 for setting the toilet identification information, the controller 20 selects table information relating to “toilet bowl B” shown in FIGS. When the product number is input, the table information related to “Toilet C” shown in FIGS. 5, 6, and 9 is selected.

  Next, when the user U uses the flush toilet 2 in a state where the table information shown in FIGS. 5 to 9 is set in advance according to the type of the flush toilet 2 installed. After the human body sensor 4 senses the user U and the user U after using the toilet moves away from the human body sensor 4, the human body sensor 4 enters a non-detection state, and a signal indicating this non-detection state is transmitted to the controller 20. The And the controller 20 which received this signal transmits a signal to the solenoid valve 10, and at the same time the valve opening operation of the solenoid valve 10 is started, water discharge from the automatic water supply apparatus 1 to the flush toilet 2 is started (time). t0).

Next, as shown in FIG. 4, after the electromagnetic valve 10 is opened at time t0 and water discharge is started, the blades of the generator 16 detected by the counter 16b by time t1 (for example, 0.4 seconds) are detected. The rotational speed N of the wheel 16a increases at a substantially constant increase rate, and after the time t1, the rotational speed N of the impeller 16a becomes substantially constant (N = N ₀ ) and becomes stable.
Here, in a section where the rotational speed N from time t0 to time t1 is increasing, the controller 20 calculates an increase rate k of the rotational speed N (the gradient of the rotational speed N from time t0 to time t1). The water pressure (feed water pressure) corresponding to the rate k in a proportional relationship is measured.

  For example, when the flush toilet 2 installed is the toilet A, based on the output value of the counter 16b of the impeller 16a of the generator 16, the controller 20 rotates at the times t0 to t1 shown in FIG. If the increase rate k of N is measured, and the result that the water pressure corresponding to the increase rate k is 0.2 MPa is obtained, the data information regarding “toilet bowl A” in FIGS. 5 and 6 and “ Data information relating to “water pressure 0.2 MPa” is selected.

Next, as shown in FIG. 4, a constant rotational speed for a section between times t1 and t2 (for example, 0.4 seconds to 0.5 seconds) where the rotational speed N is stable and substantially constant. N ₀ is determined, and the instantaneous flow rate Q is set based on table information representing the relationship between a predetermined rotation speed N ₀ and the instantaneous flow rate Q.
Here, for example, when the rotational speed N _{0 in} the section from the time t1 to the time t2 is determined to be 2000 rotations, the instantaneous speed is determined based on table information representing the relationship between the predetermined rotational speed N ₀ and the instantaneous flow rate Q. When the flow rate Q is set to 80 L / min and the rotation speed N ₀ is determined to be 3200 rotations, the instantaneous flow rate Q is set to 100 L / min and when the rotation speed N ₀ is determined to be 4200 rotations. When the instantaneous flow rate Q is set to 120 L / min and the rotation speed N ₀ is determined to be 5800 rotations, the instantaneous flow rate Q is set to 150 L / min.

Next, when the instantaneous flow rate Q is determined in the section from time t1 to t2, the controller 20 determines the water discharge amount according to the type of the flush toilet 2 installed in FIG. At the same time, based on the data information shown in FIGS. 6 to 9, the opening / closing time T of the electromagnetic valve 10 corresponding to the type of the flush toilet 2 installed, that is, the opening of the electromagnetic valve 10 at time t0 shown in FIG. A time (T = t3−t0) from the start of the valve operation to the start of the closing operation of the electromagnetic valve 10 at time t3 is determined, and the timing for closing the electromagnetic valve 10 at time t3 is determined.
When the controller 20 closes the electromagnetic valve 10 at time t3 in accordance with the determined timing for closing the electromagnetic valve 10, water accumulates in the pressure chamber 8 again, and the water pressure in the pressure chamber 8 causes a piston. The valve 12 is pushed downward, the piston valve 12 is closed at time t4, and the water stop is completed.
As shown in FIG. 5, when the instantaneous flow rate Q is 80 L / min to 100 L / min, there is no change in the water discharge amount (L) in both toilets A, B, and C. However, from the viewpoint of saving water, if the instantaneous flow rate is small, the amount of water discharged, which is the amount of water to be washed, can be reduced by discharging the necessary amount of water for the toilet. Instead of increasing, as shown in FIG. 6 to FIG. 9, the cleaning time of the toilet is not impaired by extending the electromagnetic valve opening / closing time and extending the water discharge time.

  According to the automatic water supply device 1 according to the first embodiment of the present invention described above, when the human body sensor 4 detects the operation of the user U when the controller 20 controls the opening and closing of the electromagnetic valve 10, it is transmitted from the human body sensor 4. The controller 20 receives the signal to open the solenoid valve 10, and then the toilet identification information such as the product number or model of the flush toilet 2 installed, which is set by the remote control 22 for setting the toilet identification information And the timing (the opening / closing time T of the solenoid valve 10) for closing the solenoid valve 10 based on the detection information detected by the counter 16b of the impeller 16a of the generator 16, and then the electromagnetic according to the determined timing. In order to close the valve 10, the amount of water discharged for optimal toilet flushing according to various types of flush toilets in which the flush toilet 2 installed has different toilet identification information It can be easily set. In addition, since it is possible to perform constant water discharge to the toilet with the optimal discharge flow rate according to the various types of toilets, it is possible to prevent the toilet from becoming easily soiled due to lack of washing water, and excess Water discharge can be achieved by preventing water from being washed out.

  Moreover, according to the automatic water supply apparatus 1 by this embodiment, it is secondary based on the information which the counter 16b detected the rotation speed N of the impeller 16a of the generator 16 which produces | generates the electric power used for the opening / closing control of the solenoid valve 10. The timing for closing the solenoid valve 10 (opening / closing time T of the solenoid valve 10) can be determined in consideration of the instantaneous flow rate of water discharged in the side water passage 14, so that the automatic water supply apparatus itself does not increase in size. In addition, it is possible to perform optimal quantitative water discharge according to various types of toilets and to realize water saving according to the type of toilet.

Moreover, according to the automatic water supply apparatus 1 by this embodiment, as shown in FIG. 4, after the human body sensor 4 detected the operation | movement of the user U, the electromagnetic valve 10 opened at time t0 and water discharge started. From time to time t1, the rotational speed N of the impeller 16a of the generator 16 detected by the counter 16b increases, and the increase rate k of the rotational speed N greatly depends on the water supply pressure in the water passages 6 and 14. From time t1 to time t2, the rotational speed N of the impeller 16a of the generator 16 detected by the counter 16b is almost constant (N = N ₀ ) and becomes stable, and the moment in the water passages 6 and 14 is stabilized. It depends greatly on the flow rate. Therefore, the counter 16b detects the rate of increase k in the rotational speed N of the impeller 16a of the generator 16 from the start of water discharge at the time t0 to the time t1, and almost from the time t1 to the time t2. Since the valve closing control can be performed based on the instantaneous flow rate according to the toilet identification information determined by detecting the predetermined rotational speed N ₀ of the impeller 16a of the constant generator 16, more optimal quantitative water discharge can be performed. It can be performed, and the water-saving effect according to the type of toilet bowl can be improved. Further, since the feed water pressure can be detected by detecting the increase rate k of the rotation speed N of the impeller 16a of the generator 16, it is not necessary to separately provide a pressure sensor or the like for measuring the feed water pressure. It is possible to prevent the automatic water supply apparatus itself from becoming large.

  Furthermore, according to the automatic water supply apparatus 1 according to the present embodiment, since the toilet identification information setting remote controller 22 is provided separately from the main body of the automatic water supply apparatus 1, it is installed at the initial stage when the automatic water supply apparatus 1 is installed. Once the toilet bowl identification information for identifying the type of toilet bowl is set in the toilet bowl identification information setting remote controller 22, the remote controller 22 can be carried. For example, the management company is in a place different from the automatic water supply apparatus 1. Toilet identification information can be managed. Therefore, it is possible to prevent a trouble that the user U erroneously operates the toilet identification information setting remote controller 22 to change the water discharge amount and cannot perform the optimal quantitative water discharge.

  Moreover, according to the automatic water supply apparatus 1 by this embodiment, the controller 20 of the automatic water supply apparatus 1 calculates the total water discharge amount discharged to the flush toilet 2 based on the information detected by the counter 16b. In addition, since the total water discharge amount display monitor 24 for displaying the total water discharge amount calculated by the controller 20 is provided in the toilet bowl identification information setting remote controller 22, the total water discharge amount of the automatic water supply apparatus 1 can be easily grasped. Can do. Therefore, based on this total water discharge amount, the maintenance time of the automatic water supply apparatus 1 can be determined, or the maintenance time can be set. In addition, for example, in a public automatic water supply apparatus in which a plurality of automatic water supply apparatuses are connected in series, it is not necessary to perform maintenance on all of the plurality of automatic water supply apparatuses at the same time, and the automatic water supply amount reaching a predetermined water discharge amount or more is reached. Since only the water supply device needs to be maintained, maintenance can be performed efficiently.

Next, a toilet bowl cleaning device according to a second embodiment of the present invention will be described with reference to FIG.
FIG. 10 is a front sectional view showing an automatic water supply apparatus according to the second embodiment of the present invention. Here, in FIG. 10, the same code | symbol is attached | subjected about the part same as the part of the automatic water feeder 1 by 1st Embodiment of this invention, and those description is abbreviate | omitted.

As shown in FIG. 10, the automatic water supply device 30 according to the second embodiment of the present invention is a pressure that is a water supply pressure measuring means provided in the secondary side water passage 14 between the piston valve 12 and the generator 16. It differs from the automatic water supply apparatus 1 by 1st Embodiment that the sensor 32 is provided and this pressure sensor 32 can measure the water supply pressure in the secondary side water flow path 14. FIG.
The timing for closing the solenoid valve 10 counts the water supply pressure measured by the pressure sensor 32, the toilet identification information set by the toilet identification information setting remote controller 22, and the rotational speed of the impeller 16a of the generator 16. The controller 20 determines the information based on the information detected by the counter 16b.

  According to the above-described automatic water supply device 30 according to the second embodiment of the present invention, in addition to the toilet identification information set by the toilet identification information setting remote controller 22 and the detection information by the counter 16b, the water supply measured by the pressure sensor 32 is used. Since the timing for closing the electromagnetic valve 10 is determined based on the measured value of the water pressure, the quantitative water discharge can be performed at an optimal water discharge flow rate according to various types of toilet situations and various on-site situations where the water supply pressure is different.

1 Automatic water supply device 2 Flush toilet 4 Human body sensor (motion detection means)
6 Primary side water passage 8 Pressure chamber 10 Solenoid valve 12 Piston valve 14 Secondary side water passage 16 Generator 16a Impeller 16b Counter (discharge water flow rate detection means)
18 Capacitor (electric storage means)
20 controller (control means)
22 Toilet identification information setting remote control (toilet identification information setting means)
24 Total water discharge display monitor (total water discharge display means)
26 memory 30 automatic water supply device 32 pressure sensor (water supply pressure measuring means)

Claims (6)

An automatic water supply device that automatically discharges flush water to the toilet based on the user's movement,
Toilet identification information setting means for setting toilet identification information for identifying the type of installed toilet,
Motion detection means for detecting the user's motion;
A solenoid valve that opens and closes the water passage of the discharged water;
Water discharge flow rate detecting means for detecting the water discharge flow rate in the water passage,
Control means for controlling opening and closing of the electromagnetic valve based on a signal transmitted from the operation detection means;
And the control means opens the electromagnetic valve after the operation detecting means detects the user's action, and then the toilet identification information set by the toilet identification information setting means and the water discharge flow rate. An automatic water supply apparatus, wherein a timing for closing the solenoid valve is determined based on detection information detected by the detection means, and then the solenoid valve is closed according to the determined timing.   And a power generator that stores an electric power generated by the rotation of the impeller of the generator and a power storage unit that stores electric power generated by the rotation of the impeller of the power generator. The electromagnetic valve is controlled to open and close using the electric power stored in the means, and the timing for closing the solenoid valve is determined by the rotational speed of the generator impeller detected by the water discharge flow rate detecting means and the toilet identification information setting. The automatic water supply apparatus of Claim 1 determined based on the toilet bowl identification information set by the means.   Furthermore, it has a feed water pressure measuring means for measuring the feed water pressure in the water passage, and the timing for closing the solenoid valve is set by the measured value measured by the feed water pressure measuring means and the toilet identification information setting means. The automatic water supply apparatus of Claim 1 or 2 determined based on the toilet toilet identification information and the detection information by the said discharged water flow rate detection means.   After the operation detecting means detects the user's action, the control means detects that the rotation speed of the generator impeller is between a time when the electromagnetic valve is opened and water discharge is started until a first predetermined time. The rate of increase in the rotation speed of the impeller of the generator detected by the water discharge flow rate detection means when increasing, and the water discharge flow rate detection means detected by the second predetermined time after the first predetermined time has elapsed. 3. The automatic operation according to claim 2, wherein the timing for closing the electromagnetic valve is determined based on the substantially constant predetermined rotation speed of the generator impeller and the toilet bowl identification information set by the toilet bowl identification information setting means. Water supply device.   The automatic water supply apparatus according to any one of claims 1 to 4, wherein the toilet bowl identification information setting means is a remote controller provided separately from a main body of the automatic water supply apparatus.   The control means further calculates a total water discharge amount discharged to the toilet based on the information detected by the water discharge flow rate detection means, and the toilet identification information setting means displays a total water discharge amount display for displaying the total water discharge amount. The automatic water supply apparatus of any one of Claims 1 thru | or 5 provided with the means.

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