JP3185472B2 - Control device for proportional valve - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a control device for a proportional valve for supplying fuel used in, for example, a water heater using gas as fuel.

[0002]

2. Description of the Related Art FIG. 3 shows a conventional control device for a fuel supply proportional valve. In FIG. 3, the temperature of the hot water from the water heater is detected by the thermistor 12, the arithmetic processing is performed inside the microcomputer 1, and the output thereof is passed through the adjustment circuit 2 to the voltage ← → current conversion circuit using the operational amplifier 3 ( B) The reference voltage was input.

This voltage-> current conversion circuit (a) comprises an operational amplifier 3, a current amplification circuit (b) comprising a resistor 7, a resistor 8 and a transistor 9, and a fuel supply proportional valve 13 for supplying a current proportional to the reference voltage. Transistor 10 for supplying to
A reference resistor 11 for detecting a current flowing through the fuel supply proportional valve 13, and a voltage obtained by dividing a voltage generated at both ends of the reference resistor 11 by resistors 5 and 6 to an inverting input terminal of the operational amplifier 3. To supply.

FIG. 2 shows the output of the microcomputer 1 and
It shows the state of the current flowing through the fuel supply proportional valve 13 by the voltage →→ current conversion circuit (A). FIG. 3
The middle resistor 4 is a resistor for protecting the input of the operational amplifier 3, and the AC power supply 15 and the transformer 14 are for improving the hysteresis characteristic by the coercive force of the fuel supply proportional valve 13.

[0005]

However, in the above-mentioned conventional configuration, the resistors 4 and 5 constituting the voltage- → current conversion circuit (a) are open due to open failure or defective soldering. Then, the output of the operational amplifier 3 becomes high potential irrespective of the output of the microcomputer 1, an excessive current flows in the fuel supply proportional valve 13, and the controllability as the proportional valve is lost. There is a problem that the fuel output is supplied, so that the combustion output of the water heater becomes excessive.

[0006]

In order to solve the above-mentioned problems, a control device for a proportional valve according to the present invention calculates an input signal from a thermistor inside a microcomputer, and outputs the output to a corrector via an adjustment circuit. An operational amplifier for input voltage of the input terminal, a current amplification transistor for amplifying the output of the operational amplifier, a proportional valve as a load, and an AC power supply connected in series with the proportional valve and provided for improving hysteresis. And a reference resistor for detecting the current flowing through the proportional valve, and the voltage obtained by dividing the voltage across the reference resistor is used as the inverting input terminal of the operational amplifier. And an auxiliary input circuit connected via a resistor having a sufficiently large resistance value.

[0007]

According to the above-mentioned means, the control device for the proportional valve according to the present invention can operate even if the input circuit to the inverting input terminal of the operational amplifier becomes open due to the components constituting the voltage- → current conversion circuit and the defective soldering. The output of the operational amplifier is always at a low potential due to the auxiliary input circuit, and no current flows through the proportional valve. Therefore, safety is ensured even in the event of a component failure.

[0008]

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

In FIG. 1, the temperature of tap water from a water heater is detected by a thermistor 12, arithmetic processing is performed inside a microcomputer 1, and the output is converted via a regulating circuit 2 into a voltage- → current conversion using an operational amplifier 3. Input the reference voltage of the circuit (a).

This voltage-> current conversion circuit (a) comprises an operational amplifier 3, a current amplification circuit (b) comprising a resistor 7, a resistor 8 and a transistor 9, and a fuel supply proportional valve for supplying a current proportional to the reference voltage. Transistor 1 to supply 13
0, a reference resistor 11 for detecting a current flowing through the fuel supply proportional valve 13, and a voltage obtained by dividing a voltage generated at both ends of the reference resistor 11 by the resistors 5 and 6, and inverting input voltage of the operational amplifier 3. Supply to terminal.

When there is no component failure, the reference voltage input to the non-inverting input terminal “+” of the operational amplifier 3 by the operation of the operational amplifier 3 and the inverting input terminal “−” of the operational amplifier 3
The voltage at both ends of the reference resistor 11 input to
The voltage obtained by dividing by 6 is always equal.
Since the voltage ← → current conversion circuit (a) operates, a current proportional to the output of the microcomputer 1 is generated by the fuel supply proportional valve 1.
It will flow to 3.

On the other hand, when the resistor 4 is opened due to a component failure or the like, the inverting input terminal "-" of the operational amplifier 3 is supplied from the voltage E2 of the operational amplifier 3 to the high potential from the auxiliary input circuit 17 via the resistor 16. Is supplied, the output of the operational amplifier 3 is always at a low potential, and no current can be supplied to the current amplifier circuit (b). Therefore, the fuel supply proportional valve 13 is characterized in that no current flows.

[0013]

As is apparent from the above description, according to the proportional valve control apparatus of the present invention, the input of the input circuit to the inverting input terminal of the operational amplifier is caused by a failure of components constituting the input circuit and a defect such as soldering. When the circuit is open,
By connecting the auxiliary input circuit via the resistor from the power supply to the inverting input terminal of the operational amplifier, it is possible to prevent the current from flowing through the proportional valve, and the safety of the equipment using this can be ensured. Therefore, for example, when this is used for a water heater, the supply of fuel does not become excessive and the safety as a water heater can be ensured.

[Brief description of the drawings]

FIG. 1 is a circuit diagram of a control device for a fuel supply proportional valve according to an embodiment of the present invention.

FIG. 2 is a characteristic diagram showing a relationship between a microcomputer output and a fuel supply proportional valve current in the same device.

FIG. 3 is a circuit diagram of a conventional control device for a proportional valve for fuel supply.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Microcomputer (a) Voltage ← → current conversion circuit (b) Current amplification circuit 3 Operational amplifier 13 Proportional valve for fuel supply 16 Failure detection resistor 17 Auxiliary input circuit

Claims (1)

(57) [Claims] An operational amplifier for processing an input signal in a microcomputer and using the output as an input voltage of a non-inverting input terminal via an adjusting circuit; a current amplifying transistor for amplifying an output of the operational amplifier; A proportional valve serving as a load, a transformer connected in series to the proportional valve and supplying an AC power supply for improving hysteresis, a reference resistor for detecting a current flowing through the proportional valve, and both ends of the reference resistor. A resistor for dividing a voltage obtained by dividing the voltage as an inverting input of the operational amplifier; and an auxiliary input connected to the inverting input terminal of the operational amplifier from a power supply of the operational amplifier via a failure detection resistor having a sufficiently large resistance value. A control device for a proportional valve having a circuit.