JPH07324682A - Automatic stopper for motor-driven pump - Google Patents

Abstract

PURPOSE:To achieve power saving, so as to lengthen the life of a battery by detecting the oil level by making use of the fact that the electrifying state of a collector of a phototransistor to an emitter is changed on the basis of whether the oil level of the container into which oil is to be transferred reaches an oil level detector or not in an automatic stopper for an electrically-driven kerosene pump, etc. CONSTITUTION:When a switch 3 is turned on after inserting a pump part of a motor-driven pump into a container on the original side and also inserting the tip part of a drawing hose into a container on the transfer side, electrification is performed from a base 16 of a first transistor(Tr) 15 by the time constant of a delay circuit 26, and then the Tr 15 is turned on, and the output is input into bases 20, 21 of second and third Tr 19, 22, so as to make them into the turned-on state. As a result, a pump motor is driven, and the transfer of liquid is started. When light from a light emitting diode 13 of an oil level detector 11 does not enter the base of a photo Tr 14 after the oil level of the container into which oil is to be transferred is raised, the photo Tr 14 is turned off, and the Tr 15, 19, 22 are also turned off, thereby, the pump part is stopped.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic stop device for an electric pump.

[0002]

2. Description of the Related Art Conventionally, an electric kerosene pump, a pump for a washing machine, and the like are provided with an automatic stop circuit for an electric pump, as seen in Japanese Utility Model Publication No. 2-23833.
As shown in FIG. 4, the automatic stop circuit is composed of a liquid level detector b composed of a light emitting diode and a phototransistor attached to one end of a prism, and a circuit part a composed of a number of CMOS IC inverters i connected. It is configured by connecting
When the liquid level detector b detects the liquid level, the conduction of the phototransistors is stopped, the conduction of the transistors e and f is cut off, the motor m of the pump is stopped, and this state is held by the self-holding circuit d. I have to.

[0003]

However, since the inverter is composed of a CMOS IC and has a large impedance, once the liquid level detector detects the liquid level and stops the pump motor m, the self-holding circuit. The electric charge remains in d for a long time, and the motor does not operate immediately even when the switch is operated again. Therefore, immediately after the automatic stop by the liquid level detection, the liquid level cannot be adjusted by the manual operation.

Further, the current consumption and to keep the addition of the power supply voltage to the inverter i of CMOS IC, transistors e, such as by breaking current of _{f (I EBO) (I ECO} ), Kiriwasureru switch g the battery h is There was a problem of exhaustion quickly.

[0005]

According to the present invention, in an electric pump provided with an automatic stop device, the automatic stop device is provided with a light emitting diode and a phototransistor at one end of a plastic prism, and the liquid level of the prism is A liquid level detector that detects whether or not it has risen to the lower end,
A power source, a switch, a first transistor having a base connected to the phototransistor, a delay circuit having a resistor and a variable capacitor connected to the base of the first transistor, and a second transistor having a base connected to the first transistor, An automatic stop device for an electric pump, comprising: a third transistor; and a motor connected to the third transistor, wherein the second transistor comprises a circuit unit connected to the light emitting diode. Is.

[0006]

Embodiments of the present invention will be described with reference to the drawings.

FIG. 1 shows an electric pump P equipped with an automatic stop device A according to the present invention.
A cylindrical body 5 is hung from a lower portion of a housing 4 accommodating a dry battery as a power source 1, a circuit portion 2 of an automatic stop device A and a switch 3, and a pump portion 6 is formed at a lower end portion of the cylindrical body 5. , Same cylinder 5
The hose 7 is connected to the upper end of the.

The pump portion 6 is formed by enlarging the lower end portion of the cylindrical body 5, and a motor 8 is arranged on the upper portion thereof, and an impeller 10 is attached to the lower end portion of an output shaft 9 of the motor 8 to form the same impeller. By rotating 10, the liquid such as kerosene can be transferred from the original container to the transfer destination container via the cylinder 5 and the hose 7 from the pump portion 6.

In particular, the liquid level detector 11 of the automatic stop device A is arranged at the tip of the hose 7, and when the liquid level detector 11 detects the liquid level, it outputs to the circuit section 2 By stopping the rotation of the motor 8 by the circuit unit 2, the liquid is prevented from overflowing from the container of the transfer destination.

The automatic stop device A comprises a liquid level detector 11 and a circuit section 2. As shown in FIG. 2, the liquid level detector 11 has a light emitting diode at one end of a prism 12 made of plastic. 13 and the phototransistor 14 are provided, and the liquid level rises to the lower end of the prism 12 by utilizing the fact that the output of the phototransistor 14 changes due to the difference in the critical angle of the prism 12 with respect to air and liquid. It is detected whether or not it is done. That is, the light emitting diode 13 of the liquid level detector 11 emits light by applying a voltage, and when the liquid level of the destination container does not reach the lower end of the liquid level detector 11, the light from the light emitting diode 13 is, Total reflection at the lower end of the prism 12 enters the base of the phototransistor 14,
The collector and emitter of the phototransistor 14 are electrically connected. Further, when the liquid level of the transfer destination container reaches the lower end of the liquid level detector 11, the light from the light emitting diode 13 does not enter the base of the phototransistor 14, so that the collector and emitter of the phototransistor 14 are Does not conduct.

As described above, by utilizing the fact that the conduction state between the collector and the emitter of the phototransistor 14 changes depending on whether or not the liquid level of the destination container reaches the lower end of the liquid level detector 11, The liquid level of the destination container can be detected.

As shown in FIG. 3, the circuit section 2 is provided with first, second and third transistors 15, 19, 22 and a base 16 of the first transistor 15 has a collector 17 for the phototransistor 14. The collector 18 of the first transistor 15 is connected to the bases 20 and 21 of the second and third transistors 19 and 22, and the collector 23 of the third transistor 22 is connected to one terminal of the motor 8. There is.

The base 16 of the first transistor 15 is
The delay circuit 26 is configured by being grounded via the resistor 24 and the variable capacitor 25, and the emitter 27 of the first transistor 15 is connected to the power source 1 via the resistor and the switch 3.
The emitters 28 and 29 of the second and third transistors 19 and 22 are grounded. Note that 30 is a resistor for dividing the power supply voltage into a light emitting diode drive voltage, and in particular, the resistor 30
a also serves as a resistance for dropping the electric charge of the variable capacitor 25 to the ground, and has a high resistance value of about 100 KΩ.

Next, the operation of the automatic stop device A will be described according to the procedure of transferring the liquid from the original container to the transfer destination container by using the electric pump P.

First, the cylindrical body 5 of the electric pump P is inserted into the original container, the pump portion 6 is immersed in the liquid, and the tip of the hose 7 is inserted into the inlet of the empty container which is the transfer destination. , If the liquid level detector 11 is positioned below the inlet and the switch 3 is pressed to connect the power source 1 to the circuit unit 2, the resistance 24
Also, due to the time constant of the delay circuit 26 determined by the variable capacitor 25, a current starts to flow from the base 16 of the first transistor 15, the first transistor 15 is turned on, and this output is the base of the second and third transistors 19 and 22. Input them to 20,21 and turn them on.

When the second transistor 19 is turned on,
A drive voltage is applied to the liquid level detector 11 to bring it into an operable state, and the light from the light emitting diode 13 is transferred to the phototransistor 14
The phototransistor 14 is turned on by being incident on the base of the first transistor 15, the base voltage of the first transistor 15 is lowered to turn on the first transistor 1, and then the third transistor 15 is turned on.
By lowering the base voltage of the transistor 22 and turning on the third transistor 22, the electric power is supplied to the motor 8 to operate the pump unit 6, and the liquid is pumped up from the original container and transferred to the destination. Transfer to the container.

Then, the liquid level of the container at the transfer destination rises,
When reaching the lower end of the liquid level detector 11, the light from the light emitting diode 13 does not enter the base of the phototransistor 14, and the phototransistor 14 is turned off. Therefore, all the transistors 15, 19, 22 are turned off. Then, the power supply to the motor 8 is stopped, the operation of the pump unit 6 is stopped, and the liquid level detector 11 is deactivated.

In this way, when the liquid level in the transfer destination container rises and reaches the lower end of the liquid level detector 11, the operation of the pump unit 6 is automatically stopped, so that the liquid is transferred to the container. It is possible to prevent it from overflowing.

When the liquid level detector 11 detects the liquid level and becomes inoperative, the motor 8 is maintained in the inoperative state even if ambient light enters the liquid level detector 11 thereafter. Malfunction is prevented, reliability is improved, and liquid level detector 11
Will be inactive, saving power and extending the life of the battery.

Particularly, when the switch 3 is turned off, the electric charge of the variable capacitor 25, that is, the electric charge of the base of the first transistor 15 quickly flows out to the ground via the resistor 30a, and the resistor 24 of the delay circuit 26 and the variable capacitor 25 are connected. Since the base voltage becomes lower than the collector voltage of the first transistor 15 at the time set in step 3, even if the liquid level detector 11 detects the liquid level and becomes inoperative, the switch 3 is operated again. By turning it on, the liquid level detector 11 can be immediately put into operation, and the liquid level can be adjusted by manual operation after the automatic stop.

Even if the switch 3 is left off, the power source 1
Since only the resistor 30a having a high resistance value is connected between the ground and the ground, a very small current is consumed, and the battery as the power source 1 can last a long time.

[0022]

According to the present invention, an automatic stop device is provided with a light emitting diode and a phototransistor at one end of a plastic prism so as to detect whether or not the liquid level has risen to the lower end of the prism. A liquid level detector, a power supply, a switch, a first transistor having a base connected to the phototransistor, a delay circuit having a resistor and a variable capacitor connected to the base of the first transistor, and an emitter of the first transistor. The second and third transistors each having a base connected to each other, and the motor connected to the collector of the third transistor, and the second transistor collector is connected to the light emitting diode. When the liquid level in the transfer destination container rises and reaches the lower end of the liquid level detector, the pump operation is automatically stopped. Liquid can be prevented from overflowing from the container of the transfer destination Te.

Further, when the liquid level detector detects the liquid level and becomes inoperative, even if ambient light enters the liquid level detector after that, the motor operation stop state is maintained, so that a malfunction occurs. This prevents the battery level from increasing, and the liquid level detector is inactive, and even if you forget to turn off the switch, only a resistor with a high resistance value is connected between the power supply and the ground. The life can be extended.

In particular, when the switch is turned off, the base charge of the first transistor flows out to the ground through the variable capacitor, and after a lapse of a predetermined time, the base voltage becomes lower than the collector voltage of the first transistor. Can be set by the resistance of the delay circuit and the variable capacitor, so even if the liquid level detector detects the liquid level and becomes inoperative, the liquid level detector can be operated again by turning the switch on again. The surface detector can be activated and the liquid level can be adjusted by manual operation after automatic stop.

[Brief description of drawings]

FIG. 1 is an explanatory longitudinal sectional view of an electric pump including an automatic stop device according to the present invention.

FIG. 2 is a vertical cross-sectional explanatory view of a liquid level detector.

FIG. 3 is a circuit diagram showing a configuration of an automatic stop device.

FIG. 4 is a circuit diagram showing a configuration of a conventional automatic stop device.

[Explanation of symbols]

 A Automatic stop device P Electric pump 1 Power supply 2 Circuit part 3 Switch 8 Motor 11 Liquid level detector 12 Prism 13 Light emitting diode 14 Phototransistor 15 1st transistor 16 Base 19 2nd transistor 20 Base 21 Base 22 3rd transistor 24 Resistance 25 Variable capacitor 26 Delay circuit

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI technical display location G01F 23/28

Claims (1)

[Claims] 1. An electric pump equipped with an automatic stop device (A).
In (P), install the automatic stop device (A) with the light emitting diode (13) and the phototransistor (14) at one end of the prism (12) made of plastic so that the liquid surface reaches the lower end of the prism (12). A liquid level detector (1
1), the power supply (1), the switch (3), and the first transistor (1) that connects the phototransistor (14) with the base (16).
And a delay circuit (2) consisting of a resistor (24) connected to the base (16) of the first transistor (15) and a variable capacitor (25).
6) and the first transistor (15) to the base (20) (21) respectively
Second and third transistors (19) and (22) connected to each other, and a motor (8) connected to the third transistor (22).
An automatic stop device for an electric pump, comprising a transistor (19) and a circuit section (2) connected to the light emitting diode (13).