KR101206866B1 - A submersible motor pump system using pressure switches - Google Patents

Abstract

PURPOSE: A submerged pump device using a pressure switch is provided to install two or more pressure switches in a submerged pump as an integrated type, thereby operating the pump depending on a water level change of a fluid desired to discharge. CONSTITUTION: A submerged pump device using a pressure switch comprises a pump motor(400), a gear box unit, a pump unit, an impeller unit, and a drainage. The pump motor is operated by power being supplied from a distribution console to a feeder. The gear box unit controls the number of rotations of the pump motor. The pump unit is operated by torque being transmitted from the gear box unit. The impeller unit makes a fluid flow into the pump by being connected to the pump unit. The drainage discharges the pumped fluid from the impeller unit and pump unit. [Reference numerals] (400) Pump motor; (450) Distribution console; (510) Controlling unit; (511) Controller; (514) Input port; (515) Output port; (516) Driving circuit; (520) Pressure switch; (AA) Alerting output; (BB) Main switch

Description

Submersible motor pump system using pressure switches

The present invention relates to a submersible pump apparatus submerged in a fluid including sewage and wastewater, and more particularly, to a pump which is different from the water level change of a fluid to be discharged by integrally including at least two pressure switches in the submersible pump. In addition to the automatic operation of the start of the submersible pump can be selected by the level of the water pump, and also when the pressure switch malfunctions due to a failure or the like using a pressure switch having a function for transmitting an alarm to the outside A submersible pump device.

As a background art of the present invention, there is a water reservoir level control device technology of the Republic of Korea Patent Publication No. 10-0459385 shown in FIG. This technology consists of a plurality of electrodes having different heights and formed sequentially in the reservoir, the bottom electrode is submerged in connection with the power source, the remaining electrodes are sequentially submerged to sense the water level in the reservoir by flowing current through the water It includes a water level sensor for generating a signal to deliver to the control unit of the pressurized water supply system, and a water pipe valve that is automatically operated by the control unit to supply or block water through the water pipe to control the water level of the water tank. It features. This technique can be operated only when there is a conductive fluid in the reservoir, and when the fluid contains conductive sludge, there is a restriction that the level sensor is malfunctioned due to contamination.

As another background technology of the present invention, there is a drainage pump technology of Korean Patent Publication No. 10-2010-0124933 shown in FIG. This technology comprises a housing having a inlet that forms a body and provides a space for water to be introduced into the bottom; A pressure inlet pipe installed upward from the bottom in the housing; A first pressure sensor connected to an upper end of the pressure inlet pipe and configured to sense a pressure in the pressure inlet pipe; A second pressure sensor installed at an upper portion of the housing and configured to sense a pressure inside the housing; A controller configured to receive the sensed pressure from the first pressure sensor and the second pressure sensor, and generate a motor control signal according to the sensed pressure; And a motor configured to perform an on operation or an off operation by the motor control signal and to allow the discharge of the water to be controlled so that when the first pressure sensor malfunctions or breaks down, the danger level of the drainage pump installation space through the second pressure sensor. Characterized in that the drainage treatment operation is performed at the level. This technique requires the installation of a pressure inlet pipe from the bottom to the top of the interior of the housing to install the first pressure sensor, and can only be used in a sealed housing that maintains internal pressure for the detection of the second pressure sensor. There are limitations that cannot be used in open water reservoirs or drainage wells.

As another background art of the present invention, there is a technique for controlling the pump of the groundwater intake device of the Republic of Korea Patent Publication No. 10-2010-0073798 shown in FIG. This technology is installed inside the water tank ball top valve for opening and closing the discharge nozzle by buoyancy; A pressure sensor for sensing a pressure of the groundwater discharge pipe and supplying a detection signal to the control panel; A control panel including a processor configured to store a pressure upper limit value and a lower limit value inside the groundwater discharge pipe input through the key input unit in the pressure set value storage unit, and control the pump driving unit by comparing the pressure detection signal input from the pressure sensor. Characterized in that configured. This technology has a pressure sensor is configured to detect the pressure of the groundwater discharge pipe is inconvenient to install, there is a fear that inaccurate pressure is detected by air, bubbles, etc. contained in the discharged groundwater may malfunction. In addition, when the pressure sensor is broken, it is difficult to grasp this, which causes a disadvantage that the motor is burned out by idling or the like when the pump is operated.

The present invention, by integrally provided with at least two pressure switches in the submersible pump to automatically operate the start of the other pump in response to the change in the water level of the fluid to be discharged, it is possible to select the drive speed of the submersible pump for each level In addition, it is another object of the present invention to provide a submersible pump apparatus using a pressure switch having a function of transmitting an alarm to the outside when the pressure switch malfunctions due to a failure or the like.

In the submerged pump apparatus used for immersion in a fluid containing sewage and wastewater according to an embodiment of the present invention for achieving the above object, in the submersible pump apparatus used for immersion in a fluid containing sewage and wastewater ,

A pump motor operated by electric power provided from a power distribution control panel to a feeder line;

And gear box for adjusting the rotational speed of the pump motor

A pump unit operating by a rotational force transmitted from the gear box part;

An impeller unit connected to the pump unit to draw fluid into the pump;

And a drain hole for discharging the pumped fluid from the impeller unit and the pump unit,

On one side of the submersible pump, the lower side is opened, the upper side is closed and the chamber further has an opening around the lower side, and at least one pressure switch installed at one side of the chamber to operate at different operating pressures, the pressure It may include a control unit for controlling the operating speed of the submersible pump according to the operating pressure of the switch.

In order to achieve the above object, the submersible pump apparatus used for immersion in a fluid containing sewage and wastewater according to an embodiment of the present invention,

The impeller unit of the pump and the opening of the chamber are exposed at the bottom and the rest can be integrally constructed in the pump housing,

The control unit may increase or decrease the driving speed of the pump as the operation pressure is applied to the at least two pressure switches, and the operation pressure may be determined according to the level in the fluid in which the pump operates.

In the submersible pump apparatus submerged in a fluid containing sewage and wastewater,

A power distribution control panel including a main switch connected in series to an AC power source, and a driving circuit controlling the speed of the pump motor based on the power provided from the power distribution control panel and an input from at least two pressure switches,

The driving circuit is characterized in that for controlling the power supply of the pump motor for each speed to be controlled in accordance with the increase or decrease of the operating pressure applied to the at least two pressure switches.

In order to achieve the above object, the submersible pump apparatus used for immersion in a fluid containing sewage and wastewater according to an embodiment of the present invention,

A distribution control panel including a main switch connected in series to an AC power source, a driving circuit controlling the speed of the pump motor based on the power provided from the distribution control panel and an input from at least two pressure switches,

With a controller;

An input port providing an on / off state of the at least two pressure switches to the controller;

An output port for outputting a control signal from the controller;

An alarm output generator driven by an output signal of the output port; And

The program driving the controller may include a program memory.

The controller may be configured to receive an on / off state of at least two pressure switches to diagnose a normal state and an abnormal state to generate an alarm output through an output port when an abnormality occurs.

The abnormal state is characterized in that the at least two pressure switches are not on / off in the order of the operating pressure, the pressure switch operating at a lower operating pressure than the on-state pressure switch is off.

According to the submersible pump apparatus using the pressure switch of the present invention, the submersible pump is provided with at least two pressure switches integrally to automatically start the other pump to change the level of the fluid to be discharged, as well as submersible pumps for each level. The driving speed can be selected, and when the pressure switch malfunctions due to a failure, etc., there is a technical effect of transmitting an alarm to the outside.

1 is a configuration of the reservoir level control device technology as a background technology.
2 is a configuration of a drain pump technique as a background technique.
3 is a configuration of a pump control device of the groundwater intake device as a background art.
4 is a configuration of a general submersible pump device.
5 is a schematic configuration diagram of a submersible pump apparatus using a pressure switch of the present invention.
6 is a view showing the relationship between the pressure change in the chamber and the set pressure of the pressure switch according to the water level in the present invention.
7 is a view showing the relationship between the action of the pressure switch according to the water level and the double speed drive of the pump in the present invention.
8 is a view showing the driving relationship and configuration of the pump motor according to the pressure switch operation of the present invention.
9 is a schematic configuration of a control unit of the submersible pump apparatus using the pressure switch of the present invention.
10 is a view showing a normal state and an abnormal state according to the on / off state of the pressure switches of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

4 shows the configuration of a general submersible pump apparatus.

Conventional submersible pump is a gear box unit for controlling the rotation speed of the pump motor 400 and the pump motor 400 is operated by the power provided to the power supply line 100 from the distribution control panel 450 outside the drainage 100 410, an impeller unit 430 and an impeller unit 430 connected to the pump unit 420 operated by the rotational force transmitted from the gear box unit 410 and the pump unit 420 to draw fluid into the pump. ) And a drain 300 to discharge the pumped fluid from the pump unit 420.

The submersible pump of such a configuration is used by immersing in the drain 100 to supply and discharge the fluid to be discharged, and the fluid pumped to the drain port 300 located above the water level of the drain 100 is also the same as pure water Sewage and wastewater, including sludge, are included.

5 shows the configuration of the submersible pump apparatus using the pressure switch of the present invention.

Submersible pump apparatus according to the present invention is provided with a chamber 530 having a lower opening on one side of the submersible pump, the upper is sealed and further has an opening 540 around the lower, respectively, on the upper end of the chamber 530 The controller 510 is provided with at least two pressure switches 520 operating at different operating pressures to control the operation speed of the submersible pump according to the operating pressure applied to the pressure switch 520.

In addition, the pump and the chamber 530, the control unit 510 and the pressure switch 520 expose the impeller unit 430 of the pump and the opening 540 of the chamber at the lower end, and the remaining part is integrated in the pump housing 500. Characterized in that configured.

The control unit 510 increases or decreases the driving speed of the pump as the operating pressure is applied to the at least two pressure switches 520, and the operating pressure of the at least two pressure switches 520 is controlled by the pump. Pressures determined by the level in the working fluid.

Figure 6 shows the relationship between the pressure change in the chamber 530 according to the water level and the set operating pressure of the pressure switch 520 according to the water level in the water pump apparatus using the pressure switch of the present invention.

The three pressure switches 520 illustrated in FIG. 6 have a pressure P0 in the chamber 530 at a minimum level where the impeller unit 430 of the pump is allowed to operate without idling and is above the level of the P0. Pressure P1 in chamber 530 at the water level, pressure switch in on pressure P2 in chamber 530 at a level higher than the level of P1 and the pressure switches 520 are on in the off state, off in the on state Hysteresis when transitioned to state.

Figure 7 shows the action of the pressure switch according to the water level to be pumped in the submersible pump apparatus using the pressure switch of the present invention and the driving speed relationship of the pump accordingly.

Pressure P0 in chamber 530 at the minimum level at which the impeller unit 430 of the pump is allowed to operate without idling, pressure P1 in chamber 530 at a level higher than the level of P0, level of P1 When the pressure P2 in the chamber 530 at the higher water level is below the level of PO, all the pressure switches 520 are off, only the pressure switch operating at P0 between the levels of P0 and P1 is on, Since the pressure switch operating at P1 and the pressure switch operating at P2 are turned on between the levels of P1 and P2, both the switches operating at P0, P1, and P2 are turned on at a level above P2. ), The pump is turned off at a water level below P0, and the pump speed is controlled at a first double speed between P0 and P1, a second double speed between P1 and P2, and a third double speed above P2. do.

8 shows a driving relationship and configuration of the pump motor 400 according to the pressure switch operation of the submersible pump apparatus using the pressure switch of the present invention.

The submersible pump apparatus according to the present invention is a pump motor 400 based on an input from a power supply and pressure switch 520 and a distribution control panel 450 including a main switch connected in series to an AC power source and the distribution control panel 450. Drive circuit 516 for controlling the speed of the < RTI ID = 0.0 > The driving circuit is configured to control the power supply of the motor for each speed to be controlled.

9 shows a control unit configuration of the submersible pump apparatus using the pressure switch of the present invention.

The submersible pump apparatus using the pressure switch of the present invention is based on an input from the power switch and the pressure switch 520 and the power supply from the power distribution control panel 450 and the power distribution control panel 450 including a main switch connected in series to the AC power source A drive circuit 516 for controlling the speed of the motor 400, the controller 511; An input port 514 for providing an on / off state of the pressure switch 520 to the controller 511, an output port 515 for outputting a control signal from the controller 511, and the output port 515. The alarm output generator is driven by the output signal of the program and the program memory 513 is stored a program for driving the controller 511.

The controller 511 receives the on / off state of the pressure switches and diagnoses a normal state and an abnormal state to generate an alarm output through the output port 515 when an abnormality occurs.

FIG. 10 illustrates a normal state and an abnormal state according to on / off states of pressure switches input by the controller 511 of the present invention.

Here, the abnormal state may include a case in which the pressure switch 520 is not turned on / off in the order of the operating pressure, and the pressure switch operating at a lower pressure than the pressure switch in the on state is turned off. The controller 511 is configured to generate an alarm output through the output port 515 when an abnormality occurs by diagnosing an operation state.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and will be described by the person of ordinary skill in the art to which the present invention pertains. Various modifications and variations are possible without departing from the scope of the appended claims.

100: drainage well 200: water inlet
300: drain port 400: pump motor
410: gear box part 420: pump unit
430 impeller unit 440 feeder
450: power distribution control panel 500: pump housing
510 control unit 511 controller
513: program memory 514: input port
515: output port 516: driving circuit
520: pressure switch 530: chamber
540: opening

Claims (11)

In the submersible pump apparatus submerged in a fluid containing sewage and wastewater,
A pump motor operated by electric power provided from the distribution control panel to the feeder line; and
Gear box unit for adjusting the rotational speed of the pump motor;
A pump unit operating by a rotational force transmitted from the gearbox part; and
An impeller unit connected to the pump unit to draw fluid into the pump; And
And a drain hole for discharging the pumped fluid from the impeller unit and the pump unit,
On one side of the submersible pump, the lower side is opened, the upper side is closed and the chamber further has an opening around the lower side, and at least two pressure switches operating at different pressures on one side of the chamber to install the pressure switch Submersible pump apparatus using a pressure switch comprising a control unit for controlling the operation speed of the submersible pump according to the operating pressure of the. The method of claim 1,
The submersible pump device and chamber, the control unit and the pressure switch,
Submersible pump apparatus using a pressure switch, characterized in that the impeller unit of the pump and the opening of the chamber is exposed at the lower end and the remaining part is integrally formed in the pump housing. The method of claim 1,
The controller may be configured to increase or decrease the driving speed of the pump as the operating pressure is applied to the at least two pressure switches, wherein the operating pressure is determined according to the level in the fluid in which the pump operates. Submersible pump device using switch. The method of claim 3,
If the water level in the fluid is less than the first water level, the at least two or more pressure switches are all off, submersible pump apparatus using a pressure switch. The method of claim 3,
When the water level in the fluid is above the first level and below the second level, only one of the at least two pressure switches is turned on submersible pump apparatus using a pressure switch. The method of claim 3,
If the water level in the fluid is above the second level and below the third level, at least one of the at least two or more pressure switches, all of the submersible pump apparatus using a pressure switch. The method of claim 3,
When the water level in the fluid is above the third level, the at least two or more pressure switch, the water pump apparatus using a pressure switch, characterized in that the whole. In the submersible pump apparatus submerged in a fluid containing sewage and wastewater,
A power distribution control panel including a main switch connected in series to an AC power source, and a driving circuit controlling the speed of the pump motor based on the power provided from the power distribution control panel and an input from at least two pressure switches,
The driving circuit is a submersible pump device using a pressure switch, characterized in that for controlling the power supply of the pump motor for each speed to be controlled in accordance with the pressure applied to the at least two pressure switches. In the submersible pump apparatus submerged in a fluid containing sewage and wastewater,
A distribution control panel including a main switch connected in series to an AC power source, a driving circuit controlling the speed of the pump motor based on the power provided from the distribution control panel and an input from at least two pressure switches,
With a controller;
An input port providing an on / off state of the at least two pressure switches to the controller;
An output port for outputting a control signal from the controller;
An alarm output generator driven by an output signal of the output port; And
Submersible pump device using a pressure switch, characterized in that it comprises a program memory for storing the program for driving the controller. 10. The method of claim 9,
The controller is a submersible pump device using a pressure switch, characterized in that configured to generate an alarm output through the output port when the abnormality is diagnosed by receiving the on / off state of at least two pressure switches. The method of claim 10,
The abnormal state is a submersible pump using a pressure switch, characterized in that the pressure switch operating at a lower pressure than the pressure switch in the on state, the at least two or more pressure switches are not turned on / off in the order of the operating pressure Device.

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