KR102026289B1 - Pump-integrated underwater motor and pump-integrated underwater motor controller operated by wireless power - Google Patents

Abstract

The present invention relates to a pump-integrated underwater motor which uses wireless power to remove externally exposed elements, thereby increasing waterproofing properties and simplifying the structure, and a pump-integrated underwater motor controller, which are operated by wireless power. The pump-integrated underwater motor controller operated by wireless power comprises: the pump-integrated underwater motor operated by wireless power to move water and transmitting water shortage data when the water shortage is detected; and a wireless power transmitter wirelessly supplying power to the pump-integrated underwater motor and displaying a water shortage condition when the water shortage data is received from the pump-integrated underwater motor. The pump-integrated underwater motor comprises: a body; a water shortage sensor detecting the water shortage; a power generation and data transmission unit receiving wireless power to supply motor driving power, blocking the supply of the motor driving power when the water shortage is detected by the water shortage sensor, and controlling the transmission of the water shortage data; and a pump-integrated motor mounted on the inner surface of the body and driven by the power supplied from the power generation and data transmission unit to move the water.

Description

Pump-integrated underwater motor and pump-integrated underwater motor controller operated by wireless power}

The present invention relates to a pump-integrated submersible motor and a pump-integrated submersible motor control device operating by wireless power, and in particular, by using the submarine motor using wireless power to remove external exposure elements to increase waterproofness and simplify the structure of the submersible motor. It relates to a pump-integrated submersible motor and a pump-integrated submersible motor control device operating by a wireless power.

Generally used pump-integrated submersible motor is a centrifugal pump, and in view of its configuration, it has a plurality of suction spaces on the circumference, a pedestal for floating from the ground, and is connected to the upper portion of the pedestal, and an outlet port is provided at one side. Vortex casing provided, a motor connected to the upper portion of the vortex casing, an impeller for drawing water into the center of the motor installed on the rotating shaft of the motor, a housing surrounding and protecting the motor, is connected to the outlet of the vortex casing water It is configured to include a discharge pipe for lifting (程).

The conventionally proposed technique for such a pump integrated submersible motor is disclosed in the following <Patent Documents 1> to <Patent Document 4>.

The prior art disclosed in <Patent Document 1> includes an underwater cable including a first gas pipe for providing an inert gas injection path into the underwater motor and a second gas pipe for providing a discharge path of moisture and gas inside the underwater motor; Disclosed is an underwater motor protection apparatus including a gas control unit for injecting an inert gas into the first gas pipe and controlling a pressure of exhaust gas discharged from the second gas pipe. Underwater motor protection device composed of this configuration protects the underwater motor by providing condensation prevention and moisture discharge inside the underwater motor through the underwater cable.

In addition, the prior art disclosed in <Patent Document 2> relates to an underwater motor pump for moving the fluid to the ground in the water, the discharge pipe is inclined at a certain angle to reduce the resistance due to the fluid discharge, resulting in vibration noise and motor High efficiency that can reduce the power consumption of the circumference and is provided with a plurality of streamlined vortex prevention ribs on one side wall of the discharge pipe to prevent the vortex phenomenon caused by the change of the direction of the fluid moving in the discharge pipe And it provides a long life underwater motor pump.

In addition, the prior art disclosed in <Patent Document 3> is a lower casing having a lower inlet and one side outlet connected to the inlet, an upper casing coupled to the upper portion of the lower casing, an impeller installed in the lower casing, a motor installed in the upper casing It is installed in the lower casing, the sensing unit for measuring the flow rate discharged through the outlet, the sensing unit and the control unit includes a control unit for controlling the rotational speed of the motor in accordance with the measurement value received from the sensing unit. According to such a configuration, the sensing unit measures the flow rate discharged through the outlet, and the control unit controls the rotation speed of the motor in accordance with the measured value received from the sensing unit, so that a constant amount of fluid at all times regardless of the water level change Can be pumped.

In addition, the prior art disclosed in <Patent Document 4> is provided with a water level sensor for detecting the water level inside the water tank, and a transmitter for wirelessly transmitting the recognition signals of these sensors to the control unit, a well casing with an underwater motor installed The control device of the wireless configuration including a receiver for wirelessly recognizing the signal state of the transmitter, the receiver includes a key prep to drive the control box for controlling the pump state of the water tank when the signal of the transmitter is input. Implement the automatic control of the integer level of. Through this configuration, the transmitter is placed in a water tank for storing water to detect and transmit the water level state by the water level measuring sensor, and the control unit for controlling the water supply is configured to supply the air supply while adjusting the water level according to the wirelessly received data. Provides a wireless water level automatic control device configured to have a.

Republic of Korea Patent Registration 10-1873321 (June 26, 2018) (Submersible motor protection device) Republic of Korea Patent Registration 10-1605104 (registered on March 22, 2016) (High efficiency and long life underwater motor pump) Republic of Korea Patent Registration 10-1308490 (September 09, 2013) (Submersible Motor Pump) Republic of Korea Patent Publication No. 2001-0053851 (released July 02, 2001) (Wireless water automatic control device)

However, the conventional submersible motor pump as described above and the prior art referred to as <Patent Documents 1> to <Patent Document 4> is a method of supplying power to the motor is a wired method, there is a complexity due to the wired cable connection, There is a disadvantage in that the waterproofing of the submersible motor pump is complicated by the use.

In addition, the submersible motor pump using a wired cable has a disadvantage in that the installation space is restricted by the wired cable, and the installation is complicated.

Therefore, the present invention has been proposed to solve all the problems occurring in the prior art as described above, by using the wireless power of the underwater motor to remove the external exposure elements to increase the waterproofness, to simplify the structure of the underwater motor wireless An object of the present invention is to provide a pump-integrated submersible motor and a pump-integrated submersible motor control device operating by electric power.

In order to achieve the object as described above, the pump-integrated submersible motor operating by the wireless power according to the present invention, the main body; A water shortage sensor installed on an outer surface of the main body to detect a water shortage; It is installed to be detachably mounted on the inner surface of the main body, and receives the wireless power to supply the motor drive power, if the water shortage is detected by the water shortage detection sensor to block the supply of the motor drive power, water shortage data A power generation and data transmission unit for controlling transmission of the data; It is mounted on the inner surface of the main body, characterized in that it comprises a pump-integrated motor for moving the water by driving with power supplied from the power generation and data transmission unit.

The main body is characterized in that the waterproofing is performed in a state in which the power generation and data transmission unit and the pump integrated motor is embedded.

The power generation and data transmission unit in the wireless power receiver for receiving power and data wirelessly; A power generator configured to generate and supply driving power with the wireless power received by the wireless power receiver; A motor driver supplying power generated by the power generator to motor driving power; And a control unit controlling the motor driving power supply of the motor driving unit based on the output signal of the water shortage detection sensor and controlling water shortage data to be transmitted through the wireless power receiver when water shortage detection is detected by the water shortage detection sensor. Characterized in that.

In addition, the pump-integrated submersible motor control device operating by wireless power according to the present invention, the pump-integrated submersible motor for operating the wireless power to move the water, and transmits the water shortage data when water shortage is detected; It is characterized in that it comprises a wireless power transmitter for wirelessly supplying power to the pump integrated submersible motor, and indicating the water shortage state when receiving the water shortage data transmitted from the pump integrated submersible motor.

The pump integrated submersible motor in the main body; A water shortage sensor installed on an outer surface of the main body to detect a water shortage; It is installed to be detachably mounted on the inner surface of the main body, and receives the wireless power to supply the motor drive power, if the water shortage is detected by the water shortage detection sensor to block the supply of the motor drive power, water shortage data A power generation and data transmission unit for controlling transmission of the data; It is mounted on the inner surface of the main body, characterized in that it comprises a pump-integrated motor for moving the water by driving with power supplied from the power generation and data transmission unit.

The wireless power transmitter is a power switch; A water purification mode selection switch for selecting the water purification mode; When the power switch is turned on, the commercial power inputted according to the purified water mode selected by the purified water mode selection switch is converted into wireless power to correspond to the purified water mode, and the wirelessly transmitted data from the pump integrated submersible motor is received. A wireless power transmitter; A controller which stores the wireless data received by the wireless power transmitter and controls the display of the purified water mode and the water shortage condition; And a mode state display unit for visually displaying the purified water mode and the water shortage state under the control of the controller.

According to the present invention, since the pump-integrated submersible motor operates using wireless power, there is no external exposure element, thereby improving waterproofness, and the wired cable can be removed by using a wireless power supply device. There is an effect that can be simplified.

1 is a perspective view of a pump-integrated submersible motor operated by wireless power according to the present invention,
2 is an exploded perspective view of a pump-integrated submersible motor operated by wireless power according to the present invention;
3 is a block diagram illustrating an embodiment of the power generation and data transmission unit of FIGS. 1 and 2;
4 is a schematic configuration diagram of a pump integrated submersible motor control device operating by wireless power according to the present invention;
FIG. 5 is a block diagram illustrating an embodiment of the wireless power transmitter of FIG. 4.

Hereinafter, a pump integrated submersible motor and a pump integrated submersible motor control apparatus operating by wireless power according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

1 is a perspective view of a pump-integrated submersible motor 1 operating by wireless power according to a preferred embodiment of the present invention, Figure 2 is an exploded perspective view, the main body 10 is provided with a space for installing parts therein There is, the outer surface of the main body 10 is provided with a water shortage sensor 11 for detecting the lack of water. The water shortage detection sensor 11 may use a water level detection sensor that detects the water level.

The inner surface of the main body 10 receives the wireless power to supply the motor driving power, and when the water shortage detection sensor 11 detects a water shortage, stops the supply of the motor driving power and transmits the water shortage data. Power generation and data transmission unit 14 for controlling the is installed to be mounted and detached.

As shown in FIG. 3, the power generation and data transmission unit 14 uses the wireless power receiver 21 to wirelessly receive power and data, and the driving power using the wireless power received from the wireless power receiver 21. Based on the output signal of the power generation unit 22 for generating and supplying, the motor driver 23 for supplying the power generated by the power generation unit 22 to the motor driving power, and the water shortage sensor 11 And a controller 24 for controlling the motor driving power supply of the motor driver 23 and controlling the water shortage data to be transmitted through the wireless power receiver 21 when the water shortage detection sensor 11 detects the water shortage. do.

In addition, the inner surface of the main body 1 has a pump-integrated motor 15 for driving the water by driving the power supplied from the power generation and data transmission unit 14 is embedded.

Here, the body 10 is waterproofed in a state where the power generation and data transmission unit 14 and the pump integrated motor 15 are embedded.

In the figure, reference numeral 16 denotes a water inlet 16, 12 denotes a water outlet, and 13 denotes a cover.

The cover 13 is closed in a state in which the power generation and data transmission unit 14 and the pump-integrated motor 15 are embedded in the main body 10, and the seal 13 is sealed with a finishing material to perform waterproofing.

Here, the main body 10 is manufactured by using a material of plastic material, which is difficult to introduce moisture, thereby implementing waterproof treatment.

Water flowing into the water inlet 16 is introduced into the pump-integrated motor 15 only, and the water is moved in a manner that is discharged to the water outlet 12 connected to the pump-integrated motor 15. Therefore, although the water inlet 16 or the water outlet 12 is open, water does not flow into the body 10.

The operation of the pump-integrated submersible motor operating by the wireless power according to the present invention configured as described above will be described in detail.

First, the cover 13 is closed in a state in which the power generation and data transmission unit 14 and the pump-integrated motor 15 are embedded in the main body 10, and the seal 13 is sealed with a finishing material to perform waterproofing.

Then, when power is wirelessly transmitted from a separate wireless power transmitter, the wireless power receiver 21 of the power generation and data transmitter 14 receives wireless power.

Here, as a method for transmitting and receiving power wirelessly, a magnetic energy self-induction type, coil type inductor using a magnetic energy coupling method using a radio wave type, a transmitting side primary coil and a receiving side secondary coil using a microwave ( Magnetic resonance type which transmits power in the form of magnetic energy by concentrating energy at a specific resonance frequency by L) and capacitor C can be used.

As the method for wirelessly transmitting and receiving power in the present invention, all three methods may be used, but in the present invention, it is assumed that the magnetic resonance type is used for convenience of description.

The wireless power received by the wireless power receiver 21 is processed by the power generator 22 to generate driving power. The driving power thus generated is also used as the motor driving power and is also supplied to the control unit 24 as the operating power.

When the operating power is supplied, the controller 24 checks the state of water level in association with the water shortage detection sensor 11. As a result of this check, if the water level is in a normal state, the power generator 22 is controlled to supply driving power to the motor driver 23. To this end, the power generation unit 22 includes a relay or other power switch, and the relay or power switch is turned on or off under the control of the control unit 24 to the motor driver 23. The driving power is supplied or cut off. If the water level is normal, the relay or the power switch is turned on, and driving power is supplied to the motor driver 23. Here, the method of supplying power to the motor driver 23 may use a continuous power supply method, or a method of supplying or interrupting power at a predetermined cycle through the interruption of the relay or the power switch.

The motor driving unit 23 outputs the motor driving power when the driving power is supplied, and in conjunction with this, the pump integrated motor 15 operates to move the water.

On the other hand, as a result of detecting the water level by the water shortage detection sensor 11, when the water shortage state, the power generation unit 22 is controlled to prevent the driving power is transmitted to the motor driver 23.

That is, when it is determined that the water is insufficient through the water shortage sensor 11, the controller 24 automatically cuts off the supply of driving power to the motor driver 23 through the power generator 22 as described above. To stop the operation of the pump-integrated motor 15, and simultaneously generate water shortage data (Tx Data) to inform the outside of the situation due to water shortage. The water shortage data thus generated is wirelessly transmitted through the wireless power receiver 21.

Here, the water shortage data may be transmitted through the wireless power receiver 21 using a wireless power signal as a carrier, modulating water shortage data, and transmitting the water shortage data through the carrier. The technology for transmitting wireless data using a wireless power receiver is a known technology (for example, Korean Patent Registration No. 10-1084904, Nov. 11, 2011, and a wireless power transmission and reception device having a communication function and its wireless The wireless communication function disclosed in the power transmission / reception method).

As described above, the first embodiment of the present invention implements a pump-integrated submersible motor driven by wireless power, but in a situation such as water shortage, water shortage data is transmitted using a wireless power transmission / reception scheme, so that a separate communication interface is not used. It is possible to perform data communication wirelessly without having to. In addition, by implementing a pump-integrated submersible motor with wireless power, there is no need to use a wired cable to improve convenience and waterproof performance in waterproofing, and the wired cable can be removed by using wireless power. It will be simplified.

<Example 2>

4 is a configuration diagram of a pump-integrated submersible motor control apparatus operating by wireless power according to the present invention, the pump-integrated submersible motor that transmits water shortage data when the water is moved by operating in wireless power, the lack of water ( 1), the wireless power transmitter (2) for wirelessly supplying power to the pump integrated submersible motor (1), and indicating the water shortage status when receiving the water shortage data transmitted from the pump integrated submersible motor (1) do.

In FIG. 4, reference numeral 3 denotes a water tank.

The pump integrated submersible motor 1 has the same structure and operation as the pump integrated submersible motor operated by the wireless power shown in FIGS.

For example, the pump-integrated submersible motor 1 has a main body 10 having a space for installing components therein, and a water shortage sensor 11 for detecting a water shortage is installed on the outer surface of the main body 10. The water shortage detection sensor 11 may use a water level detection sensor that detects the water level.

The inner surface of the main body 10 receives the wireless power to supply the motor driving power, and when the water shortage detection sensor 11 detects a water shortage, stops the supply of the motor driving power and transmits the water shortage data. Power generation and data transmission unit 14 for controlling the is installed to be mounted and detached.

As shown in FIG. 3, the power generation and data transmission unit 14 uses the wireless power receiver 21 to wirelessly receive power and data, and the driving power using the wireless power received from the wireless power receiver 21. Based on the output signal of the power generation unit 22 for generating and supplying, the motor driver 23 for supplying the power generated by the power generation unit 22 to the motor driving power, and the water shortage sensor 11 And a controller 24 for controlling the motor driving power supply of the motor driver 23 and controlling the water shortage data to be transmitted through the wireless power receiver 21 when the water shortage detection sensor 11 detects the water shortage. do.

In addition, the inner surface of the main body 1 has a pump-integrated motor 15 for driving the water by driving the power supplied from the power generation and data transmission unit 14 is embedded.

Here, the body 10 is waterproofed in a state where the power generation and data transmission unit 14 and the pump integrated motor 15 are embedded.

In the figure, reference numeral 16 denotes a water inlet 16, 12 denotes a water outlet, and 13 denotes a cover.

The cover 13 is closed in a state in which the power generation and data transmission unit 14 and the pump-integrated motor 15 are embedded in the main body 10, and the seal 13 is sealed with a finishing material to perform waterproofing. Here, the main body 10 is manufactured by using a material of plastic material, which is difficult to introduce moisture, thereby implementing waterproof treatment.

When the water flowing into the water inlet 16 is introduced only into the pump-integrated motor 15, the water is moved in a manner that is discharged to the water outlet 12 connected to the pump-integrated motor 15. Therefore, although the water inlet 16 or the water outlet 12 is open, water does not flow into the body 10.

In addition, as shown in FIG. 5, the wireless power transmitter 2 selects the power switch 32, the water purification mode selection switch 33 for selecting the water purification mode, and the water purification mode when the power switch 32 is turned on. The wireless power transmitter converts the commercial power inputted according to the purified water mode selected by the switch 33 into wireless power, transmits it corresponding to the purified water mode, and receives data transmitted wirelessly from the pump integrated submersible motor 1. (31), the control unit 34 for storing the wireless data received by the wireless power transmission unit 31, and controls the display of the purified water mode and water shortage status, the purified water mode and water shortage under the control of the control unit 34 And a mode status display unit 35 for visually displaying the status.

Herein, the wireless power transmitter 31 wirelessly transmits power, receives an antenna 31b for receiving wireless data, converts commercial power into a wireless power signal, and transmits the power through the antenna 31b; And a data receiver 31c which receives the carrier wave received through the antenna 31b and transmits the received data (Rx Data) to the controller 34 through signal processing.

The operation of the pump-integrated submersible motor control device operating by the wireless power according to the present invention configured as described above will be described in detail.

First, the pump-integrated submersible motor 1 is seated in an apparatus with water (for example, a water tank) 3, and then the wireless power transmitter 2 is positioned to face the lower surface of the pump-integrated submersible motor 1. . Here, it is also possible to first mount the wireless power transmitter 2 in the lower predetermined position of the water tank 3, and to mount the pump-integrated submersible motor 1 thereon.

The wireless power transmission direction of the wireless power transmitter 2 and the wireless power receiver 21 of the pump-integrated submersible motor 1 may be positioned in opposite directions.

In this state, the user operates the power switch 32 provided in the wireless power transmitter 32 in the on state, and selects the purified water mode through the purified water mode selection switch 33.

Herein, the present invention uses the expression "water purification mode" on the assumption that the pump-integrated submersible motor is used in the water purifier. In addition, it can be applied for various purposes.

Here, the water purification mode includes a continuous mode for supplying integers continuously and a smart mode for supplying integers at regular intervals.

When the power switch 32 is in the on state, the controller 34 controls the wireless power transmitter 31 according to the purified water mode selected through the purified water mode selection switch 33, and simultaneously generates a display control signal of the selected purified water mode. The mode state display unit 35 is displayed.

The mode state display unit 35 includes a light emitting diode LED1 for displaying a continuous mode, a light emitting diode LED2 for displaying a smart mode, and a light emitting diode LED3 for displaying a water shortage state.

The controller 34 selectively drives (turns on) the three light emitting diodes depending on whether water shortage data is received from the selected water purification mode and the pump-integrated submersible motor 1, and displays the corresponding water purification mode and water shortage.

Meanwhile, when the purified water mode is the continuous mode, the controller 34 continuously operates the power converter 31a of the wireless power transmitter 31 so that the wireless power is continuously transmitted through the antenna 31b, and the purified water mode. In the smart mode, the power converter 31a of the wireless power transmitter 31 is turned on / off at a predetermined cycle according to a predetermined internal control program so that the wireless power is transmitted at a predetermined cycle through the antenna 31b. . Herein, the wireless power transmission method is disclosed in the above known technology (for example, Korean Patent Registration No. 10-1084904, Nov. 11, 2011, a wireless power transmission and reception device having a communication function and a wireless power transmission and reception method thereof). A power transmission scheme can be used.

When power is wirelessly transmitted from the wireless power transmitter 2, the wireless power receiver 21 in the power generation and data transmitter 14 of the pump integrated submersible motor 1 receives wireless power.

The wireless power received by the wireless power receiver 21 is processed by the power generator 22 to generate driving power. The driving power thus generated is also used as the motor driving power and is also supplied to the control unit 24 as the operating power. In this case, the wireless power is continuously received according to the purified water mode or at regular intervals.

When the operating power is supplied, the controller 24 checks the state of water level in association with the water shortage detection sensor 11. As a result of this check, if the water level is in a normal state, the power generator 22 is controlled to supply driving power to the motor driver 23. To this end, the power generation unit 22 includes a relay or other power switch, and the relay or power switch is turned on or off under the control of the control unit 24 to the motor driver 23. The driving power is supplied or cut off. If the water level is normal, the relay or the power switch is turned on, and driving power is supplied to the motor driver 23. Here, the method of supplying power to the motor driver 23 may use a continuous power supply method, or a method of supplying or interrupting power at a predetermined cycle through the interruption of the relay or the power switch.

The driving power supplied to the motor driving unit 23 also corresponds to the constant mode, and the driving power is continuously supplied in the continuous mode, and the driving power is supplied at the predetermined cycle in the smart mode.

When the driving power is supplied, the motor driving unit 23 supplies the motor driving power, and in conjunction with this, the pump integrated motor 15 operates to move the water.

On the other hand, as a result of detecting the water level by the water shortage detection sensor 11, when the water shortage state, the power generation unit 22 is controlled to prevent the driving power is transmitted to the motor driver 23.

That is, when it is determined that the water is insufficient through the water shortage sensor 11, the controller 24 automatically cuts off the supply of driving power to the motor driver 23 through the power generator 22 as described above. To stop the operation of the pump-integrated motor 15, and simultaneously generate water shortage data (Tx Data) to inform the outside of the situation due to water shortage. The water shortage data thus generated is wirelessly transmitted through the wireless power receiver 21.

Here, the water shortage data may be transmitted through the wireless power receiver 21 using a wireless power signal as a carrier, modulating water shortage data, and transmitting the water shortage data through the carrier. The technology for transmitting wireless data using a wireless power receiver is a known technology (for example, Korean Patent Registration No. 10-1084904, Nov. 11, 2011, and a wireless power transmission and reception device having a communication function and its wireless The wireless communication function disclosed in the power transmission / reception method).

The data receiver 31c in the wireless power transmitter 31 of the wireless power transmitter 2 receives the water shortage data transmitted from the pump integrated submersible motor 1, processes the signal, and demodulates the water shortage data into a water shortage data. 34).

When the water shortage data is received, the controller 34 lights up the light emitting diode LED3 indicating the water shortage data through the mode state display unit 35 so that the user may recognize in real time that the water shortage condition is present. Here, if necessary, by interlocking an alarm device such as a buzzer when receiving water shortage data, it is possible to more effectively inform the user of the water shortage status.

As described above, the second embodiment of the present invention implements a pump-integrated submersible motor driven by wireless power, but in a situation such as water shortage, the water shortage data is transmitted by using a wireless power transmission / reception method, so that a separate communication interface is not used. It is possible to perform data communication wirelessly without having to. In addition, by implementing a pump-integrated submersible motor with wireless power, there is no need to use a wired cable to improve convenience and waterproof performance in waterproofing, and the wired cable can be removed by using wireless power. It will be simplified.

In addition, by dividing the purified water mode into a continuous mode and a smart mode, by operating the purified water mode according to the user's selection, it is possible to improve the function and improve the user's convenience.

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 spirit and scope of the present invention. Self-evident to those who have

1: pump integrated submersible motor 2: wireless power transmitter
3: tank 10: main body
11: water shortage sensor 14: power generation and data transmission
15: pump integrated motor 21: wireless power receiver
22: power generation unit 23: motor driving unit
24: control unit 31: wireless power transmitter
31a: power converter 31b: antenna
31c: data receiver 32: power switch
33: water purification mode selection switch 34: control unit
35: mode status display

Claims (6)

Pump-integrated submersible motor operating with wireless power,
main body;
A water shortage sensor installed on an outer surface of the main body to detect a water shortage;
It is installed to be detachably mounted on the inner surface of the main body, and receives the wireless power to supply the motor drive power, if the water shortage is detected by the water shortage detection sensor to block the supply of the motor drive power, water shortage data A power generation and data transmission unit for controlling transmission of the data; And
It is mounted on the inner surface of the main body, including a pump-integrated motor for moving the water driven by the power supplied from the power generation and data transmission unit,
The main body closes the cover in a state where the power generation and data transmission unit and the pump-integrated motor are embedded, and is sealed with a finishing material to perform waterproofing.
The power generation and data transmission unit controls the motor driving power supply based on the output signal of the water shortage detection sensor, and controls the power supply in a manner of supplying or cutting off power at regular intervals through an interruption of a relay or a power switch to save power. Pump integrated submersible motor operated by a wireless power, characterized in that it comprises a control unit for implementing.
delete The apparatus of claim 1, wherein the power generation and data transmission unit comprises: a wireless power receiver which wirelessly receives power and data; A power generator configured to generate and supply driving power with the wireless power received by the wireless power receiver; A pump-integrated submersible motor operated by wireless power, characterized in that it comprises a motor driving unit for supplying the electric power generated by the power generating unit to the motor driving power.
An apparatus for controlling a pump-integrated submersible motor operated by wireless power,
A pump-integrated submersible motor that moves water by wireless power and transmits water shortage data when water shortage is detected; And
And a wireless power transmitter for wirelessly supplying power to the pump integrated submersible motor, and displaying a water shortage status when receiving water shortage data transmitted from the pump integrated submersible motor.
The pump-integrated submersible motor is installed to be detachably mounted on the inner surface of the main body, and receives the wireless power to supply the motor driving power, and when the water shortage is detected by the water shortage sensor to cut off the supply of the motor driving power A power generation and data transmission unit for controlling the transmission of water shortage data,
The power generation and data transmission unit controls the motor driving power supply based on the output signal of the water shortage detection sensor, and controls the power supply in a manner of supplying or cutting off power at regular intervals through an interruption of a relay or a power switch to save power. It includes a control unit for implementing,
The main body of the pump integrated submersible motor control device, characterized in that the power generation and the data transmission unit and the pump-integrated motor is closed, the cover is closed, sealed with a finish material to perform a waterproof treatment.
The method of claim 4, wherein the pump integrated submersible motor is a main body; A water shortage sensor installed on an outer surface of the main body to detect a water shortage; The pump-integrated submersible motor control apparatus, which is mounted on the inner surface of the main body, includes a pump-integrated motor for driving water by driving with power supplied from the power generation and data transmission unit.
The wireless power transmitter of claim 4, wherein the wireless power transmitter comprises: a power switch; A water purification mode selection switch for selecting the water purification mode; When the power switch is turned on, the commercial power inputted according to the purified water mode selected by the purified water mode selection switch is converted into wireless power to correspond to the purified water mode, and the wirelessly transmitted data from the pump integrated submersible motor is received. A wireless power transmitter; A controller which stores the wireless data received by the wireless power transmitter and controls the display of the purified water mode and the water shortage condition; And a pump integrated submersible motor control apparatus including a mode state display unit for visually displaying a purified water mode and a water shortage state under the control of the controller.

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