JP2884771B2 - Flow control device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flow control device, and more particularly to a flow control device that controls a flow control valve or the like to obtain water discharge at a desired secondary pressure. .

(Prior Art) FIG. 7 is a block diagram of a conventional flow control device.

The conventional flow control device 100 includes a water supply pipe 101 connected to a primary pressure detection sensor 102, a flow control valve 103, and a secondary pressure detection sensor 10.
4 is connected to the toilet 105, and the control unit 106
When the cleaning start switch 108 is operated in response to the supply of 07, the storage unit (not shown) provided in the control unit 106 is stored in advance based on the detection value detected by the primary pressure detection sensor 102. From the relationship between the primary pressure and the voltage as shown in FIG. 8, the voltage required to adjust the secondary pressure to large, medium, and small is determined and applied to the flow control valve 103 to discharge water at the desired secondary pressure. I was trying to get it. In addition, the secondary pressure detection sensor 10
If the value detected in 4 is different from the desired secondary pressure,
The voltage applied to the flow control valve 103 is increased or decreased by an amount corresponding to the difference so as to control the secondary pressure so as to obtain water discharge of a desired secondary pressure.

(Problems to be Solved by the Invention) However, such a conventional flow rate control device uses a plurality of pressure sensors in order to obtain secondary pressure discharge not affected by fluctuations in the primary pressure. Even if a pressure sensor with a not so high accuracy is used, there is a disadvantage that the cost is high.

SUMMARY OF THE INVENTION An object of the present invention is to provide a flow control device which can obtain desired secondary pressure water discharge which is not affected by fluctuations of the primary pressure and eliminates such disadvantages and does not increase the cost.

(Means for Solving the Problems) In order to eliminate the above drawback, a flow control device according to the present invention includes a flow control valve capable of voltage control, a secondary pressure detection sensor provided downstream of the flow control valve, In a flow control device having storage means for preliminarily storing the relationship between the voltage and the secondary pressure, before the actual water supply is started, the secondary pressure is detected by a secondary pressure detection sensor corresponding to a change in the voltage applied to the flow control valve. An average rate of change is calculated from the change in the secondary pressure, and the calculated average rate of change is compared with the relationship between the voltage and the secondary pressure stored in the storage means to obtain a desired secondary pressure. Find the voltage,
At the time of actual water supply, this voltage is applied to the flow control valve to obtain water discharge at a desired secondary pressure.

In order to eliminate the drawback, the flow control device according to the present invention comprises a flow control valve capable of voltage control, a secondary pressure detection sensor provided downstream of the flow control valve, and a relationship between the voltage and the secondary pressure. Before actual water supply, the voltage applied to the flow control valve is increased until the secondary pressure detected by the secondary pressure detection sensor reaches a predetermined pressure. Subsequently, the secondary pressure is integrated between the change in the applied voltage corresponding to the change in the secondary pressure to calculate a secondary pressure change amount with respect to the voltage change, and the change amount is compared with the voltage stored in the storage means. The voltage required to obtain the desired secondary pressure is compared with the relationship with the pressure, and at the time of actual water supply, this voltage is applied to the flow control valve to obtain the desired secondary pressure water discharge. It is characterized by having done.

(Operation) According to the flow rate control device of the present invention, it is possible to obtain the desired secondary pressure water discharge without being affected by the fluctuation of the primary pressure by utilizing the relationship between the voltage and the secondary pressure stored in the storage means in advance. it can.

Embodiment An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram of a first embodiment of a flow control device according to the present invention.

The flow control device 1 includes a cleaning start switch 2, a control unit 3,
A flow control valve 4, a secondary pressure detection sensor 5, and a power supply 6 are provided. The water supply pipe 7 includes a flow control valve 4 and a secondary pressure detection sensor 5
And is connected to the toilet 8 via.

As shown in FIG. 2, for example, the control unit 3 includes an input interface 3a, a microprocessor (hereinafter, referred to as an MPU) 3b, a memory 3c serving as a storage unit, and an output interface.
3d and a timer 3e.

The flow control valve 4 is used to open the valve by an opening degree corresponding to the voltage applied during energization.

The memory 3c stores in advance data on a curve or the like indicating the relationship between the voltage and the secondary pressure.

The operation of the first embodiment will be described with reference to the graphs of FIGS.

Before actually driving the flow control valve 4 to discharge water, the MPU 3b in the control unit 3 uses the waste water at the time of use of the washlet or the like to adjust the voltages V _A and V _B applied to the flow control valve 4. secondary pressure P _a detected by the corresponding secondary pressure detecting sensor 5 obtains a voltage change V _B -V _a and the secondary pressure change P _B -P _a from P _B, of the voltage change and the secondary pressure change An average change rate dP / dV, which is a ratio, is calculated.
This average rate of change dP / dV is compared with the average rate of change of the curve 〜 stored in the memory 3c in advance to obtain a curve that is most similar. For example, in the case of curve as shown in Fig. 4, the voltage required to obtain the secondary pressure P _C to the desired becomes V _C.

MPU3b in the control unit 3 is supplied with electric power from the power supply 6, the cleaning start switch 2 is operated, the applied through the output interface 3d the voltage V _C to the flow control valve 4. Flow rate control valve 4 by the applied is driven so that the secondary pressure P _C, is obtained during the elapsed time of the timer 3e spouting desired secondary pressure is monitored by MPU3b.

Next, a second embodiment of the flow control device according to the present invention using another control method will be described.

The description of the same components as those in the first embodiment is omitted.

For example, as shown in FIG. 5, the control unit 9 in the second embodiment includes an input interface 9a, a microprocessor (hereinafter referred to as an MPU) 9b, a memory 9c serving as a storage unit,
It comprises an output interface 9d and a timer 9e.

In the memory 9c, data relating to a curve or the like indicating the relationship between the voltage and the secondary pressure is stored in advance.

The operation of the second embodiment will be described with reference to the graphs of FIGS.

Before actually discharging the water by driving the flow rate control valve 4, the MPU 9 b in the control unit 9 uses the secondary water detected by the secondary pressure detection sensor 5 by utilizing the waste water when using the washlet. The voltage applied to the corresponding flow control valve 4 is changed from P _A to P _B
It is changed from V _A to V _B. Change the secondary pressure to this voltage change V _B −V _A
The area S is obtained by integrating between the two. As is clear from FIG. 5, the change V _B -V _A of the voltage, the area S obtained by integrating between the change V _B -V _A of this voltage in other words the average rate of change of the curve (inclination) Therefore, the average rate of change corresponding to the area S is stored in the memory 9c in advance.
By comparing with the average rate of change of the curve, the curve that is the closest to the curve is obtained. For example, in the case of curve as shown in Fig. 4, the voltage required to obtain the secondary pressure P _C to be used V _C
Becomes

MPU9b in the control unit 9 is supplied with power from a power source 6, the cleaning start switch 2 is operated, the applied through the output interface 9e of the voltage V _C to the flow control valve 4. Flow rate control valve 4 by the applied is driven so that the secondary pressure P _C, is obtained during the elapsed time of the timer 9e spouting desired secondary pressure is monitored by MPU9b.

(Effect of the Invention) The flow rate control device of the present invention controls the secondary pressure using the relationship between the voltage and the secondary pressure stored in the storage means in advance, so that the primary pressure can be reduced without providing a pressure sensor on the primary side. It is possible to obtain water discharge at a desired secondary pressure that is not affected by fluctuations.

[Brief description of the drawings]

FIG. 1 is a block diagram of a first embodiment of a flow control device according to the present invention, FIG. 2 is a block diagram of a control unit thereof,
FIGS. 3, 4, and 6 are graphs showing the relationship between the secondary pressure and the applied voltage, respectively. FIG. 5 is a block diagram of a control unit of a second embodiment of the flow control device according to the present invention. FIG. 7 is a block diagram of a conventional flow control device, and FIG.
It is a graph which shows the relationship between a primary pressure and a secondary pressure. 1 ... Flow control device, 2 ... Wash start switch, 3 ...
Control unit, 3a, 9a Input interface, 3b, 9b Microprocessor (MPU), 3c, 9c Memory, 3d, 9d
Output interface, 3e, 9e: Timer, 4: Flow control valve, 5: Secondary pressure detection sensor, 6: Power supply, 7: Water supply pipe, 8: Toilet bowl.

──────────────────────────────────────────────────続 き Continuation of front page (72) Inventor Takenori Fukushima 2-81-1, Honmura, Chigasaki-shi, Kanagawa Prefecture Tochiki Kikai Co., Ltd. Chigasaki Plant (56) References 58) Field surveyed (Int.Cl. ⁶ , DB name) G05D 7/06

Claims (2)

(57) [Claims] 1. A flow control apparatus comprising: a flow control valve capable of controlling a voltage; a secondary pressure detection sensor provided downstream of the flow control valve; and storage means for preliminarily storing a relationship between a voltage and a secondary pressure. In the device, before the actual water supply starts, the average change rate is calculated from the change in the secondary pressure detected by the secondary pressure detection sensor corresponding to the change in the voltage applied to the flow control valve, and the calculated average change rate is calculated. Is compared with the relationship between the voltage and the secondary pressure stored in the storage means to determine the voltage required to obtain the desired secondary pressure, and this voltage is applied to the flow control valve during actual water supply. A flow control device characterized in that water discharge at a desired secondary pressure is obtained by the following method. 2. A flow control apparatus comprising: a flow control valve capable of controlling a voltage; a secondary pressure detection sensor provided downstream of the flow control valve; and storage means for preliminarily storing a relationship between the voltage and the secondary pressure. In the apparatus, before the actual water supply starts, the voltage applied to the flow rate control valve is continuously increased until the secondary pressure detected by the secondary pressure detection sensor reaches a predetermined pressure, and the voltage corresponding to the change in the secondary pressure is applied. The secondary pressure is integrated between the voltage changes to calculate a secondary pressure change amount with respect to the voltage change, and the change amount is compared with the relationship between the voltage stored in the storage means and the secondary pressure to obtain a desired secondary pressure. A flow control device characterized in that a voltage required to obtain a secondary pressure is obtained, and at the time of actual water supply, this voltage is applied to a flow control valve to obtain a desired secondary pressure water discharge.