KR20210156519A - The fluid pump - Google Patents

Abstract

The present invention relates to a fluid pump transferring a fluid, which comprises: a motor compressing the fluid; a pump head disposed on one side of the motor and having a fluid inlet and a fluid outlet; a power supply unit connected to an external power source; a fluid sensing unit sensing a fluid signal related to the fluid; a temperature sensing unit sensing a temperature signal inside a motor terminal box disposed on the other side of the motor; a first control unit driving the motor according to the fluid signal provided from the fluid sensing unit; and a second control unit driving the motor according to the temperature signal provided from the temperature sensing unit. The present invention can optimally drive the motor according to the temperature and a fluid state of the motor.

Description

Fluid pump {THE FLUID PUMP}

The present invention relates to a fluid pump, and more particularly, to a fluid pump capable of stably driving a motor according to each of a fluid state and an internal temperature of a pump head.

A pump is a mechanical device that converts mechanical motion such as motor or engine output into hydraulic or hydraulic pressure. In a fluid pump including a motor, the fluid is sucked into an inlet by rotation of an impeller by a motor and discharged to an outlet. Accordingly, the fluid located in the water tank or the like can be transferred to the outside of the water tank.

Such a fluid pump is mainly used to transport a fluid such as water in daily life. Water moves naturally from high places to low places. In addition, water may be generated according to the operation of a device such as an air conditioner. In addition, the phase of water changes according to the temperature. In other words, water freezes due to a drop in winter temperature. That is, since a fluid such as water is fluid, when it is necessary to move the fluid in an energy-efficient manner, a pump is operated to move the fluid. In addition, it is necessary to prevent freezing due to a drop in temperature in winter.

An embodiment of the present invention aims to provide a fluid pump for driving a motor according to each of the internal temperature of the pump and the state of the fluid.

In order to achieve the above object, the fluid pump according to an embodiment of the present invention is a fluid pump for transporting a fluid, a motor for pressurizing the fluid, is disposed on one side of the motor, and has a fluid inlet and a fluid outlet A pump head, a power supply connected to an external power source, a fluid sensing unit for sensing a fluid signal related to fluid, a temperature sensing unit for sensing an internal temperature signal of the motor terminal box disposed on the other side of the motor, and a fluid signal provided from the fluid sensing unit It characterized in that it comprises a first control unit for driving the motor according to the temperature, and a second control unit for driving the motor according to the temperature signal provided from the temperature sensing unit.

In addition, the fluid signal is characterized in that it includes at least one of a flow velocity and a pressure of the fluid.

In addition, the power supply unit includes a first terminal and a second terminal, the motor and the first control unit are connected in series between the first terminal and the second terminal, the second control unit is characterized in that it is connected in parallel to the first control unit do it with

In addition, the second control unit applies power to the motor when the temperature signal provided from the temperature sensing unit is below the first temperature, and when the temperature signal provided from the temperature sensing unit is at a second temperature higher than the first temperature, the power applied to the motor It is characterized by blocking.

In addition, the first control unit, a first switching element including a first control unit input terminal connected to the power supply unit, a first control unit output terminal connected to the motor, and a gate terminal for conducting the first control unit input terminal and the first control unit output terminal and a second switching element connected to the fluid sensing unit and the first switching element and providing a gate signal to the gate terminal according to a state of the fluid including at least one of a flow rate and pressure of the fluid.

In addition, the first control unit includes an overload prevention input terminal connected to the power supply and an overload prevention output terminal connected to the first control unit input terminal, and supplies power according to the temperature provided by the temperature sensor disposed inside the motor terminal box. It characterized in that it further comprises an overload prevention device for applying or blocking the control input terminal.

In addition, it characterized in that it further comprises an automatic manual selection switch including a manual selection terminal connected to the first control unit input terminal, an automatic selection terminal connected to the first control unit output terminal, and an output selection terminal connected to the motor.

In addition, the second switching element includes a second switching input terminal connected to the gate terminal, a second switching output terminal connected to the first control unit output terminal, a flow rate switch connected to the second switching input terminal and the second switching output terminal, and a flow rate switch It is characterized in that it comprises a pressure switch connected in parallel to.

In addition, it characterized in that it further comprises an overcurrent protection device connected to the power supply and the first control unit input terminal.

In addition, the overload prevention device is characterized in that the power is cut off at a temperature higher than a preset value.

In addition, the fluid sensing unit is connected to the flow rate switch, it characterized in that it includes a flow rate sensor for sensing the flow rate of the fluid, and a pressure sensor connected to the pressure switch and sensing the pressure of the fluid.

According to the present invention, it is possible to prevent freezing due to a decrease in the temperature of the fluid, and to drive the motor when the fluid needs to be moved to operate an energy-efficient pump.

1 is a diagram schematically illustrating a fluid pump according to an embodiment of the present invention.
FIG. 2 is a circuit diagram schematically illustrating the configuration of the fluid pump shown in FIG. 1 .
3 is a circuit diagram schematically illustrating a configuration of the fluid pump shown in FIG. 2 according to another embodiment.

Hereinafter, the fluid pump 1 according to a preferred embodiment of the present invention will be described in detail.

1 is a diagram schematically showing a fluid pump 1 according to an embodiment of the present invention, and FIG. 2 is a circuit diagram schematically showing the configuration of the fluid pump 1 shown in FIG. 1 .

1 and 2, the fluid pump 1 according to an embodiment of the present invention includes a pump head 10, a motor 20, and a motor to drive the pump according to the internal temperature of the pump and the state of the fluid. It includes a terminal box 25 , a power supply unit 30 , a fluid sensing unit 40 , a temperature sensing unit 50 , a first control unit 60 , and a second control unit 70 .

The pump head 10 is disposed on one side of the motor 20 . The pump head 10 also has a fluid inlet and a fluid outlet. Motor 20 includes an impeller (not shown) that flows fluid from a fluid inlet to a fluid outlet. The pump head 10 may house an impeller. The motor terminal box 25 connects the motor 20 and the power supply unit 30 , and is a space in which the first control unit 60 and the second control unit 70 are installed. The power supply unit 30 is connected to an external power source to supply power to the fluid pump 1 . The power supply unit 30 may be disposed on one side of the motor terminal box 25 .

The fluid detection unit 40 detects a fluid signal related to the fluid. The fluid signal includes at least one of a flow velocity of a fluid and a pressure of the fluid. The fluid detecting unit 40 may be disposed on the fluid inlet side of the pump head 10 . The temperature sensing unit 50 detects an internal temperature signal of the motor terminal box 25 . To this end, the temperature sensing unit 50 may be disposed inside the motor terminal box 25 .

The first control unit 60 drives the motor 20 according to the fluid signal provided from the fluid sensing unit 40 . As an example, the first controller 60 may drive the motor 20 when the flow velocity of the fluid corresponds to a preset value (range). The first control unit 60 may drive (ON/OFF) the motor 20 according to the flow rate of the fluid. In addition, the first control unit 60 may drive the motor 20 when the pressure of the fluid corresponds to a preset value (range). The first control unit 60 may drive (ON/OFF) the motor 20 according to the pressure of the fluid.

The second control unit 70 may drive the motor 20 according to the temperature signal provided from the temperature sensing unit 50 . The second control unit 70 may drive the motor 20 when the temperature (signal) corresponds to a preset value (range). As an example, the second controller 70 may operate the motor 20 at a first temperature, and may stop the motor 20 at a second temperature higher than the first temperature. That is, the second control unit 70 applies power to the motor 20 when the temperature signal provided from the temperature sensing unit 50 is equal to or less than the first temperature. In addition, the second control unit 70 cuts off the power applied to the motor 20 when the temperature signal provided from the temperature sensing unit 50 is equal to or greater than the second temperature.

The first control unit 60 drives the motor 20 according to the fluid signal, and the second control unit 70 drives the motor 20 according to the temperature signal. That is, when it is necessary to move the fluid according to the purpose of the pump, the first control unit 60 operates the motor 20 to move the fluid. In addition, the second control unit 70 operates or stops the motor 20 according to the internal temperature of the motor terminal box 25 . That is, in the case of the present invention, it is possible to automatically drive the motor 20 by determining the need to move the fluid, or to automatically drive the motor 20 by determining the need to prevent freezing due to a drop in temperature. Accordingly, it is possible to stably drive the fluid pump 1 .

The power supply unit 30 includes a first terminal 31 and a second terminal 32 . The motor 20 and the first control unit 60 are connected in series between the first terminal 31 and the second terminal 32 . The second control unit 70 is connected in parallel to the first control unit 60 . Accordingly, the first control unit 60 and the second control unit 70 may independently apply or cut off the power supplied from the power supply unit 30 to the motor 20 . Accordingly, even if the movement of the fluid is not required, when the temperature drops below the preset value, the motor 20 may be driven. Thereby, the temperature is raised to prevent freezing.

3 is a circuit diagram schematically illustrating a configuration of the fluid pump 1 shown in FIG. 2 according to another embodiment.

1 to 3 , the first control unit 60 includes a first switching device 600 and a second switching device. The first switching device 600 includes a first control unit input terminal 601 , a first control unit output terminal 602 , and a gate terminal 603 . The first control unit input terminal 601 is connected to the power supply unit 30 , and the first control unit output terminal 602 is connected to the motor 20 . The gate terminal 603 is connected to the second switching device 610 . Accordingly, a gate signal (power) may be applied to the gate terminal 603 by the second switching element 610 . Accordingly, the first control unit input terminal 601 and the first control unit output terminal 602 may be conducted to drive the motor 20 .

The second switching element 610 is connected to the fluid sensing unit 40 and the first switching element 600, and a gate signal is transmitted to the gate terminal 603 according to the state of the fluid including at least one of a flow rate and a pressure of the fluid. can provide That is, the second switching element 610 may apply a predetermined voltage to the gate terminal 603 .

The first control unit 60 may further include an overload prevention device 620 . The overload prevention device 620 includes an overload prevention input terminal 621 and an overload prevention output terminal 622 . The overload prevention input terminal 621 is connected to the power supply unit 30 . The overload prevention output terminal 622 is connected to the first control unit input terminal 601 . The overload prevention device 620 applies or cuts power to the first control unit input terminal 601 according to a temperature set value set by itself. In one embodiment, the overload prevention device 620 cuts off the power above its own set value. The overload prevention device 620 may cut off the power according to the temperature signal provided from the temperature sensor 621 disposed inside the motor terminal box 25 . Thereby, damage due to overload can be prevented.

Meanwhile, the first control unit 60 may include a first resistor 630 and a second resistor 640 . The first resistor 630 is connected to the power supply 30 and the gate terminal 603 . The second resistor 640 is connected to the gate terminal 603 and the second switching input terminal 611 . The first resistor 630 and the second resistor 640 may determine a gate signal (voltage) applied to the gate terminal 603 when the second switching device 610 is turned on.

The fluid pump 1 according to an embodiment of the present invention further includes an automatic and manual selection switch 80 . The automatic manual selection switch 80 includes a manual selection terminal 81 , an automatic selection terminal 82 , and an output selection terminal 83 . The manual selection terminal 81 is connected to the first control unit input terminal 601 . The automatic selection terminal 82 is connected to the first control unit output terminal 602 . The output selection terminal 83 is connected to the motor 20 . The automatic and manual selection switch 80 may drive the motor 20 automatically or manually.

The second switching element 610 includes a second switching input terminal 611 , a second switching output terminal 612 , a flow rate switch 613 , and a pressure switch 614 . The second switching input terminal 611 is connected to the gate terminal 603 , and the second switching output terminal 612 is connected to the first control unit output terminal 602 . The flow rate switch 613 is connected to the second switching input terminal 611 and the second switching output terminal 612 . The pressure switch 614 is connected in parallel to the flow rate switch 613 . Accordingly, it is possible to drive the first switching element 600 only by any one signal of the flow velocity and pressure of the fluid.

Meanwhile, the fluid detecting unit 40 includes a flow rate sensor 400 and a pressure sensor 410 . The flow rate sensor 400 senses the flow rate of the fluid, and is connected to the flow rate switch 613 . The pressure sensor 410 senses the pressure of the fluid and is connected to the pressure switch 614 .

The fluid pump 1 according to an embodiment of the present invention further includes an overcurrent prevention device 90 . The overcurrent prevention device 90 may be connected to the power supply unit 30 and the first control unit input terminal 601 . More specifically, the overcurrent protection device 90 may be connected to the first terminal 31 , the second control unit input terminal 71 , and the first control unit input terminal 601 . The overcurrent prevention device 90 cuts off the power when overcurrent occurs.

Although the invention made by the present inventors has been described in detail according to the above embodiments, the present invention is not limited to the above embodiments, and various modifications can be made without departing from the gist of the present invention.

1: fluid pump
10: pump head
20: motor
25 : motor terminal box
30: power supply
40: fluid detection unit
50: temperature sensing unit
60: first control unit
70: second control unit
80: automatic manual selection switch
90: overcurrent protection device

Claims (11)

In the fluid pump for transporting a fluid,
a motor that pressurizes the fluid;
a pump head disposed on one side of the motor and having a fluid inlet and a fluid outlet;
a power supply connected to an external power source;
a fluid sensing unit for sensing a fluid signal related to the fluid;
a temperature sensing unit for sensing an internal temperature signal of the motor terminal box disposed on the other side of the motor;
a first control unit for driving the motor according to the fluid signal provided from the fluid sensing unit; and
A fluid pump comprising a second control unit for driving a motor according to a temperature signal provided from the temperature sensing unit. The method of claim 1,
The fluid signal is a fluid pump comprising at least one of a flow rate and a pressure of a fluid. The method of claim 1,
The power supply unit includes a first terminal and a second terminal,
The motor and the first control unit are connected in series between the first terminal and the second terminal,
The second control unit is a fluid pump connected in parallel to the first control unit. The method of claim 1,
The second control unit,
When the temperature signal provided from the temperature sensing unit is below the first temperature, power is applied to the motor,
A fluid pump that cuts off power applied to the motor when the temperature signal provided from the temperature sensing unit is higher than the second temperature higher than the first temperature. The method of claim 1,
The first control unit,
a first switching element including a first control unit input terminal connected to the power supply unit, a first control unit output terminal connected to the motor, and a gate terminal that conducts the first control unit input terminal and the first control unit output terminal; and
A fluid pump comprising: a second switching element connected to the fluid sensing unit and the first switching element; 6. The method of claim 5,
The first control unit,
It includes an overload prevention input terminal connected to the power supply unit and an overload prevention output terminal connected to the first control unit input terminal, and according to a temperature signal provided from a temperature sensor disposed inside the motor terminal box, power is applied to the first control unit input terminal or Fluid pump further comprising an overload prevention device to block. 6. The method of claim 5,
The fluid pump further comprising an automatic manual selection switch including a manual selection terminal connected to the first control unit input terminal, an automatic selection terminal connected to the first control unit output terminal, and an output selection terminal connected to the motor. 6. The method of claim 5,
The second switching element is
a second switching input terminal connected to the gate terminal;
a second switching output terminal connected to the first control unit output terminal;
a flow rate switch connected to the second switching input terminal and the second switching output terminal; and
A fluid pump comprising a pressure switch connected in parallel to the flow rate switch. 6. The method of claim 5,
The fluid pump further comprising an overcurrent prevention device connected to the power supply unit and the first control unit input terminal. 7. The method of claim 6,
The overload prevention device is a fluid pump that cuts off the power at a temperature higher than a preset value. 9. The method of claim 8,
fluid detection unit,
a flow rate sensor connected to the flow rate switch and sensing the flow rate of the fluid; and
A fluid pump connected to the pressure switch and including a pressure sensor for sensing the pressure of the fluid.

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