KR880002857Y1 - Auto-control of flow by float pump - Google Patents

Abstract

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Description

Automatic water supply system using blowout pump

1 is a circuit diagram showing the overall configuration of the present invention.

2 is a timing chart for explaining the operation of the present invention.

* Explanation of symbols for main parts of the drawings

1: Pressure switch 2: Monostable multivibrator

7, 7 ': relay E (contact point _{L 1)} , E ₂ , E ₃ : sensing rod

M: Motor TR ₁ , TR ₂ , TR ₃ : Transistor

R _L : Relay P: Blowout Pump

The present invention relates to an automatic water supply device using a blowout pump installed in a water supply source such as groundwater in order to obtain living water or industrial water, in particular, when the motor of the pump is frequently operated or the water level of the water supply source is lowered. There is no such thing.

In the past, an automatic water supply device using a blowout pump was used, but abundant pumping amount could be obtained, whereas the amount of water used frequently changes or the air inside the pressure tank leaks frequently, and the pressure switch is frequently interrupted. In the moment when the pressure switch is turned "on", a large inrush current flows during operation, and the motor is overheated and burned out. In addition, when the water level of the water supply is low, the motor and the pump are idle. The pressure switch also had a problem that the lifespan was shortened due to frequent operation, and the failure rate was very high. Also, the automatic water supply device using the liquid level control pump has an economic burden of producing and installing a water supply storage tank with sufficient capacity. there was.

The present invention is to solve the problems of the conventional automatic water supply device as described above will be described in detail according to the accompanying drawings as follows.

Mouth of the blowout pump P connected to the relay R _L and its contact 7 to the output of the transistor TR ₃ operated by the sensing rods E ₁ , E ₂ , and E ₃ . In the known system in which the rotor M is operated, the pressure switch 1 is connected to the input terminal 3 of the mono stable multivbrator 2 and the output terminal 4 is connected to the transistor TR. ₁ ) connect one end of the sensing winding 5 to the rectifier circuit 6, the other end to the sensing rod E ₃ , the sensing rod E ₁ to the rectifier circuit 6, and The sensing rod E ₂ is connected to the rectifier circuit 6 via the relay contact 7 'and the pulse voltage of the rectifier circuit 6 is converted from the smoothing circuit 9 to a direct current so that the transistor TR ₂ Is applied to the base, and the transistors TR ₁ and TR ₂ are connected in series with the power supply, and the base of the transistor TR ₃ is connected to the collector of the transistor TR ₁ and the bias voltage supply resistance R _8. ) Is a DC power circuit of reference numeral 10, 11 is a power supply transformer, VR ₅ and C ₃ is a variable resistor and capacitor for adjusting the delay time, 13 is a water supply source, 12 is to stabilize the power supply voltage Zener diode, C ₂ is a capacitor for preventing malfunction due to external noise and chattering of the pressure switch (1) and D ₂ is a diode for preventing the counter electromotive force of the relay (R _L ).

Referring to the operation and effects of the present invention made in detail as follows.

First, when power is supplied to the power supply transformer 11 while the pressure switch 1 of the present invention is turned on, the power is supplied to the base collector and emitter of the monostable multivibrator 2 and the transistors TR ₁ and TR ₂ . Is applied to the transistor TR ₃ and is turned off.

Therefore, the contact point 7 of the relay R _L is switched and power is applied to the motor M. Therefore, the pump P starts pumping and the pump P if the water level of the water supply 13 is appropriate at this time. ) Will continue pumping and the user will be using a sufficient amount of water.

If only a part of the faucet is opened and used, the amount of water supplied by the pump P may be larger than the amount used. In this case, the pressure is exceeded by the set pressure, so that the pressure switch 1 is turned off. If the high level signal is supplied to the input of the multivibrator 2 or if the set time by the variable resistor VR ₅ has not elapsed, the output of the monostable multivibrator 2 will return to the high level of the previous state. The pump will continue to be pumped by operating the motor M. After the set time by the variable resistor VR, the output will be inverted to a low level, thereby turning off the transistors TR ₁ and TR ₃ , respectively. "," ON while switching the contact of the relay (R _L ) is to stop the operation of the motor (M).

In this way, the present invention is that the operation of the motor (M) is properly controlled as if there is a pressure tank, so that even when the ups and downs of water consumption are severe, it is not frequently operated and stopped, and the motor is stopped. If the total amount of water used is greater than the water supply, the current pressure is lower than the set pressure, and the pressure switch is turned “ON”, so that the input signal dropping to the low level is input to the monostable multivibrator 2. The output is immediately raised to a high level and the output state holding time is determined by the variable resistor VR ₅ and the capacitor C ₃ .

Therefore, while the pressure switch 1 is "ON", the transistor TR ₁ is turned on and the water level of the water supply 13 is also normal, so that the sensing rods E ₁ , E ₂ , and E ₃ are The transistor TR ₂ , to which the bias voltage is supplied, is also turned on so that the current supplied by the resistor R ₈ flows to the transistors TR ₁ and TR ₂ , and therefore the base of the transistor TR ₃ . The potential is turned off as it is close to "ON" which is the ground power supply, and therefore the relay current held by the current of the transistor TR ₃ is cut off, and the contacts 7 and 7 'are switched. Therefore, the current of the motor M supplied by the contact point 7 starts to flow and restarts pumping to continue normal pumping. In the present invention, the water level of the water supply source 13 so that the blow pump does not idle. When is lowered, the current supplied to the motor (M) It was allowed to ever be blocked.

That is, when the transistor TR ₃ is blocked and no current flows in the relay R _L , and the motor M is operating, the contact 7 ′ is provided with a sensing rod E ₂ and a sensing rod E. ₁ ) is connected to the bar, when the water level of the water supply source 13 is lowered below the sensing rod (E ₂ ), the voltage of the sensing winding (5) supplied to the rectifier circuit (6) is cut off the transistor ( TR ₂₎ of the base so that almost OV transistor _{(TR 1), (TR 2} ) is cut-off voltage of the release supply through a resistor (R ₈₎ both are therefore added to the base of the transistor (TR ₃₎ transistor (TR ₃₎ Is turned on and current flows again in the relay (R _L ) to switch the contact point (7) so that the current flowing in the motor (M) is cut off and the motor (M) is independent of the output of the monostable multivibrator (2). To stop idling and stop the water supply.

In the present invention, the output of the monostable multivibrator 2 is at a high level, as in the case where the pressure switch 1 is shorted and used, and the transistors TR ₁ and TR ₃ are each turned on. "," OFF, so as to function as a liquid level control relay for both supply and drainage as usual, if the water level detection electrode (E ₁ ), (E ₃ ) is short-circuit not only can be used with automatic pressure control device As a simple electronic circuit, it can be used as a precise automatic water supply device with the function of a pressure tank without a separate air supply, so that it can be applied to various applications.

In this way, the present invention can prevent the motor of the pump from frequently running and stopping without a separate air supply or a large pressure tank, even in the case of extreme changes in the amount of water used, thereby reducing the installation cost. Frequent inflow of inrush current as the current flowing into the motor is frequently interrupted, so that the motor is not overheated and burned out, which can prolong the service life and when the water level of the water supply drops below a certain level, It is designed to stop the rotation of the motor, so that the motor can be idle at high speed so that it does not go to the bearing part, and it is constructed by using an integrated circuit, which is a very practical design with high productivity and greatly improved reliability.

Claims (1)

Mouth of the blowout pump P connected to the relay R _L and its contact 7 to the output of the transistor TR ₃ operated by the sensing rods E ₁ , E ₂ , and E ₃ . In the known one in which the rotor M is operated, the output of the monostable multivibrator 2 operated by the pressure switch ₁ is applied to the transistor TR ₁ and the contact of the relay R _L ( 7 ') so that the outputs from the sensing rods (E ₁ ), (E ₂ ), (E ₃ ) connected to the transistor (TR ₂ ) are applied to the transistor (TR ₁ ) and (TR ₂ ) in series with the power supply. And a transistor (TR ₃ ) for driving the relay (R _L ) with the transistor (TR ₁ ).