KR970010511B1 - Pump use control circuit of automatic water pump pressing device - Google Patents

Abstract

The pump use rate adjusting circuit of an automatic feed water pressurizing device includes a plurality of temperature sensors for sensing a temperature rise value of a plurality of pumps in accordance with a load state; a plurality of temperature rise sensors for transforming the sensed value into an appropriate amount of control; a comparator for comparing the temperature rise values to thereby select a relative low value; an operation pattern/driving pump determining part for determining a pump to be operated at the start point of an operation on the basis of the compared result and for determining an operation pattern on the basis the quantity of flow sensed by a flow rate sensor and the amount of pressure sensed by a pressure sensor.

Description

Pump utilization rate adjustment circuit of automatic sudden pressurization device

The present invention relates to a control circuit for the use of the pump of the automatic water supply pressurization device, in particular, the frequency of use of the pump at the start of operation in the automatic water supply pressurization device that supplies water automatically according to the flow rate and pressure using a plurality of pumps By sensing the temperature rise according to the load condition and selectively controlling the operation of a plurality of pumps according to the temperature rise it is possible to prevent the load from being biased on any pump.

Referring to Figure 1 the automatic water supply pressurization device according to the prior art as follows.

1 is a block diagram showing an automatic water supply pressurization device according to the prior art.

Automatic water supply pressurization device according to the prior art, as shown in Figure 1, the flow rate sensor 6 for detecting the flow rate of the use water, the pressure sensor 5 for detecting the pressure of the use water, and receives the sensor values A pressure sensing unit 2 and a flow sensing unit 3 for converting to an appropriate control amount, an operating mode discriminating circuit unit 1 for determining an operating method according to the detected flow rate and pressure amount, and an operation command to any pump A driving command unit 4 for transmitting the power supply unit 7 and a power switching unit 7 for switching power according to the final driving command of the driving command unit 4 to supply power to the first pump 8 and the second pump 9. And a pressure tank 15 connected to the first pump 8 and the second pump 9 so that the water can be supplied even during the rest period of the pump by using the pressure of the previously stored water so as to prevent frequent operation of the pump. Is done.

Referring to Figure 2 the operation of the automatic water supply pressurization device according to the prior art made of the configuration as follows.

2 is a reference diagram for explaining the operation method in the automatic water supply pressurization apparatus according to the prior art, a is a driving waveform diagram of the pump for the flow rate and pressure, b is a reference table showing the pump operation state for each section, c Figure 2 shows the operating waveforms of the two pumps per section during the alternating operation, and Figure d shows the operating waveforms of the two pumps per section during the alternate operation.

The automatic water supply pressurization device according to the prior art, when the flow rate sensor 6 and the pressure sensor 10 detects the flow rate and pressure of the water used as shown in Figure 1, the pressure sensing unit (2) connected to the sensor and The flow rate sensing unit 3 receives the values of the flow rate sensor 6 and the pressure sensor 10, converts them into appropriate control amounts, determines an operation method, and transmits an operation command to an arbitrary pump through the operation command unit 4, The power switching unit 7 is switched in accordance with the final operation command of the operation command unit 4 to selectively apply power to the first pump 8 and the second pump 9, thereby providing the first pump 8 and the first pump. The two pumps 9 are operated selectively. In addition, the pressure tank 15 may prevent the frequent operation of the first pump 8 and the second pump 9 and supply water even during the rest period of the pump by using the stored water pressure. The discriminating circuit unit 1 controls the driving of the first pump 8 and the second pump 9 according to the flow rate and the input as in the reference graph of FIG.

That is, as shown in the operating waveform diagram for the flow rate (horizontal axis) and the pressure (vertical axis) in FIG. 2a and the reference table in FIG. 2 (b), the first section A in which the pressure of the automatic water supply pressurization device is high in pressure and low in flow rate is shown. And in the fifth section (E), when the pump does not operate and water is consumed, the water is supplied through the pressurized pressure tank 15, and as shown in (c) of FIG. When the water supply increases in the second section (b) and the third section (c) where the pressure is slightly lowered, one of two pumps (8; Assume) to start the operation, the first pump that was in operation when the demand for the use of water on the discharge side is reduced at the first time point t1 and the operation state enters the first section A and the fifth section E again. (8) stops, and in this state, the drive again from the second time point t2 to the second section B or the third section C. When the state is transitioned, another second pump 9 which has not been operated in the previous state starts to operate. In this way, alternately the pumps operate one by one (see (b) and (c) of FIG. 2). do.

In addition, when the first water pump 8 is operating in the second section B and the third section C, the automatic water supply pressurizing device (t2), as shown in FIG. ) As the pressure is lowered and the flow rate is increased to enter the fourth section (D) as the demand on the discharge side increases, two pumps (8) and (9) are started by additionally starting another second pump in addition to the first pump currently in operation. ) Is driven, and when the state of the automatic water supply pressurizing device is moved from the fourth section (D) to the second section (B) or the third section (C) again at the fourth time point (t4) The second pump 9, which has started operation, stops operation. In this way, the pump performs continuous operation and additional operation is performed by another pump (see (b) and (d) of FIG. 2). do.

By the way, the automatic water supply pressurization device according to the prior art as described above has a problem that only a specific pump may be continuously loaded depending on the use state by simply operating alternately without considering the load state and the operating time.

Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to compare the temperature rise of the pump by the load state so as to preferentially operate a pump having a relatively low temperature rise at the start of operation. It is to provide an adjustment circuit for the use of the pump of the automatic water supply pressurization device that can prevent the damage of a specific pump due to uneven load and to efficiently operate a plurality of pumps.

1 is a block diagram showing an automatic water supply pressurization device according to the prior art.

2 is a diagram illustrating the operation of the automatic water supply pressurization device according to the prior art.

a is the operating waveform of the pump against the flow rate and pressure.

b is a reference table showing the pump operation status by section.

c is the operation waveform diagram of two pumps per section during alternating operation.

d is the operation waveform diagram of the two pumps per section during the additional operation.

Figure 3 is a block diagram showing a circuit for adjusting the use of the pump of the automatic water supply pressurization device according to the present invention.

4 is a reference diagram for explaining the adjustment circuit using the pump of the automatic water supply pressurization device according to the present invention.

a is the operating waveform diagram of two pumps per section for pump temperature rise value in alternating operation.

b is the operation waveform of the two pumps per section for the pump temperature rise value in the further operation.

* Explanation of symbols for the main parts of the drawings

1 ': driving method / driving pump discriminating unit 2: pressure sensing unit

3: Flow detection unit 4: Operation command unit

5 pressure sensor 6 flow sensor

7: power switch 8, 9: pump

10, 11: temperature sensor 12, 13: temperature rise detection unit

14: comparison unit 15: pressure tank

The use circuit of the automatic water supply and pressurization device according to the present invention for achieving the above object is a plurality of temperature sensors for sensing the temperature rise value of the plurality of pumps according to the load state, and the plurality of pumps A plurality of temperature rise detectors which respectively change the values sensed by the plurality of temperature sensors to an appropriate control amount, and a comparison unit which selects relatively low values by comparing the temperature rise values sensed by the plurality of temperature rise detectors, respectively; And a pressure sensing unit and a flow sensing unit for determining a pump to be operated at an operation starting point by determining a temperature rise comparison value of the comparing unit, and for detecting a pressure and a flow rate change of water used at the discharge side of the plurality of pumps, respectively. Determine the operation method by discriminating the detected pressure and flow rate, and input the operation command for the pump to be operated. Cells comprise portions operation mode / drive pump determines the output to ryeongbu.

At this time, the operation method / drive pump determination unit determines the comparison of the temperature rise comparison value of the comparison unit, and preferentially determines the pump of the lower temperature rise value at the start of operation.

Hereinafter, a preferred embodiment of the adjustment circuit using the pump of the automatic water supply pressurization device according to the present invention will be described with reference to FIG.

3 is a block diagram showing a circuit for adjusting the use of the pump of the automatic water supply pressurization device according to the present invention.

The adjustment circuit for the use of the pump of the automatic water supply pressurization device according to the present invention includes a flow rate sensor 6 for detecting the flow rate of the use water, a pressure sensor 5 for detecting the pressure of the use water, as shown in FIG. And a pressure sensing unit 2 and a flow sensing unit 3 for receiving the values of the flow rate sensor 6 and the pressure sensor 5 and changing them to appropriate control amounts, and the first pump 8 and the second pump 9. A plurality of temperature sensors (10), (11) for respectively sensing the temperature rise of the plurality of temperature rise detection unit for converting the values detected by the plurality of temperature sensors (10), (11) to the appropriate control amount, respectively ( 12) and (13), and the temperature rise values of the plurality of temperature rise detectors 12 and 13 and the plurality of temperature rise detectors 12 and 13 are relatively low. The temperature increase value of the comparator 14 and the comparator 14 and the comparator 14 are selected to be outputted, and the temperature rise is relatively low at the start of operation. The pump on the side of the pump is first determined, and the pressure amount and the flow rate detected by the pressure sensing unit 2 and the flow sensing unit 3 respectively detecting the pressure and flow rate of the water used on the discharge side of the pump are determined and operated. An operation method / drive pump discrimination unit 1 'for determining and operating a system, an operation command unit 4 for transmitting an operation command to any pump determined by the operation method / drive pump discrimination unit, and this operation A power switching unit 7 which switches according to the final operation command of the command unit 4 to apply power to the first pump 8 and the second pump 9, and the first pump 8 and the second pump It is connected to (9) consists of a pressure tank (15) to prevent the frequent operation of the pump and to supply the water in the pump idle time by using the stored water pressure.

Referring to Figure 4 the operation of the control circuit using the pump of the automatic water supply pressurization device according to the present invention having the above configuration as follows.

4 is a reference diagram for explaining the adjustment circuit of the pump of the automatic water supply pressurization device according to the present invention, (a) is the operation waveform diagram of the two pumps for each section for the pump temperature rise value in the alternating operation, (b) Shows the operational waveforms of the two pumps for each section for the pump temperature increase value during the additional operation.

First, when the flow sensor 6 and the pressure sensor 5 detect the flow rate and the pressure of the water used, the pressure sensor 2 and the flow sensor 3 receive the sensor value and convert the sensor value into an appropriate control amount. A plurality of temperature sensors 10 and 11 attached to the method / driving pump determination unit 1 'and attached to the first pump 8 and the second pump 9, respectively, provide the temperature rise of the pump. When sensing and inputting to the temperature rise detection unit 12, 13, the temperature rise detection unit 12, 13 calculates the temperature rise value of the pump on the basis of the previous temperature operation method / drive pump Transfer to determination unit 1 '.

Thereafter, the operation method / drive pump determination unit 1 'determines the pump to operate according to the temperature rise values of the two pumps, and determines the operation method according to the detected flow rate and the amount of pressure through the operation command unit 4. The operation command is transmitted to an arbitrary pump, and the power supply switching unit 7 is switched in accordance with the final operation command of the operation method / drive pump determination unit 1 'so that the first pump 8 and the second pump 9 are switched. By selectively applying power to the first pump 8 and the second pump (9) to operate selectively, and in the pressure tank 15 the frequent operation of the first pump (8) and the second pump (9) Prevents and uses the stored water pressure to provide water during the pump's downtime.

That is, it is assumed that the temperature rise waveform values detected by the first and second pumps 8 and 9 appear as two curves T1, T2 in FIG. 4A or two curves T3 and T4 in FIG. 4B. In this case, the operation method / drive pump determination unit 1 ′ first checks the output value of the comparison unit 14 at the start of operation and sets a driving signal for a pump having a relatively low current increase in temperature between the two pumps. First, the pump 8 is selected first, and then the output values of the pressure sensing unit 2 and the flow rate sensing unit 3 are checked, and the alternating operation is performed in the same manner as in the conventional discrimination method (see (a) in FIG. 4) or The operation method for the additional operation (see Fig. 4 (b)) is determined to operate the pump of the automatic water supply pressurization device in the same manner as the conventional method.

For example, in the first section A and the fifth section E of which the pressure of the automatic water supply pressurization device is high in pressure and low in flow rate, referring to FIGS. 2a and b, the pump does not operate and water is consumed. Water is supplied through the pressurized pressure tank 15, and as shown in (a) of FIG. 4, the water supply on the discharge side is increased at the 0th time point (0t) so that the pressure is slightly lowered. Entering the section (C), one of the two pumps that did not operate in the previous state starts the operation and at the first point in time (t1) the demand for use water on the discharge side is reduced, the operation state is returned to the first section ( When entering into A) and the fifth section (E), the first pump (8) which is in operation stops, and in this state again at the second time point (t2), the second section (B) or the third section (C). When the operation state is transferred to another second pump 9 which has not been operated in the previous state starts operation, that is, alternately Gamyeo is the alternating operation of the pump is operated by one.

Further, when the first water pump 8 is operated in the second section B and the third section C (t2), the automatic water supply pressurizing device is discharged at the third time point t3 as shown in FIG. 4B. When the pressure is lowered and the flow rate is increased to enter the fourth section (D) as the demand increases, two pumps (8) and (9) operate by additionally starting another second pump in addition to the first pump currently in operation. When the state of the automatic water supply and pressurizing device is moved back from the fourth section (D) to the second section (B) or the third section (C) at the fourth time point (t4), further operation is started later. The second pump (9) is to stop the operation, as described above, the modern pump is a continuous operation and the other operation of the additional pump is to perform an additional operation.

As described above, according to the control circuit of the pump of the automatic water supply pressurization device according to the present invention, it is possible to avoid the increase of load which may occur according to the operation state of the pump, so that a plurality of pumps can be operated efficiently to prevent damage to a specific pump. It has an excellent effect to improve the reliability and extend the life of the automatic water supply pressurization device.

Claims (2)

A plurality of temperature sensors respectively sensing temperature rise values of a plurality of pumps according to a load state, a plurality of temperature rise detection units respectively converting values sensed by the plurality of temperature sensors for the plurality of pumps into an appropriate control amount; And comparing the temperature rise values sensed by the plurality of temperature rise detectors to select relatively low values, and determining the temperature rise comparison value of the comparator to determine a pump to be operated at the start of operation. And the input direction and the flow rate detected by the pressure sensing unit and the flow sensing unit respectively detecting the pressure and the flow rate of the water used in the discharge side of the plurality of pumps to determine the operation method for the operation of the pump And a driving method / drive pump discrimination unit for outputting a command to the operation command unit. Pump utilization rate adjustment circuit of automatic water supply pressurization system. The automatic water supply pressure of claim 1, wherein the operation method / drive pump determination unit determines a pump having a relatively low temperature rise value at the start of operation by determining a temperature rise comparison value of the comparison unit. Pump utilization rate adjustment circuit of the device.