CN217055625U - Multifunctional movable submersible pump control system - Google Patents

Abstract

The utility model discloses a multifunctional mobile submersible pump control system, which comprises a power supply, a control cabinet frequency converter, a water pump, an ultrasonic flowmeter, a remote control device and a Programmable Logic Controller (PLC), wherein the frequency converter is electrically connected with the power supply through a QF1 circuit breaker, the control cabinet is electrically connected with the frequency converter, the frequency converter is electrically connected with the water pump, the ultrasonic flowmeter is electrically connected with the frequency converter through a 485 communication interface, the ultrasonic flowmeter is electrically connected with the power supply through a circuit breaker QF2, the ultrasonic flowmeter comprises a radar detector probe, the radar detector probe is connected with a water pipe fixedly connected with the water pump, the utility model can select local control or remote control, any control mode can display flow, rotating speed and the like, the regulation requirement is determined according to the result, and the remote control can be realized in case of emergency, and the drainage flow can be controlled in the remote control, and the drainage requirements of sudden natural disasters such as flood can be met quickly.

Description

Multifunctional movable submersible pump control system

Technical Field

The utility model relates to an emergency rescue field of drainage waterlogging car specifically is a multi-functional removal submerged pump control system.

Background

With the improvement of the living standard of the society, the requirements of citizens on the living environment are continuously improved. A large amount of water accumulated on the road surface in rainy seasons causes traffic paralysis, and the city people are used to a fast-paced life style and cannot tolerate sudden changes. The water is scarce in many cities, once the water is attacked by rainstorm and strong rainstorm, the accumulated water on the road surface increases in the north and the flood is formed, and the suddenly accumulated flood cannot be discharged in time and cannot go everywhere, so that people are rushing in the cities naturally. When flood occurs, the flood management vehicle is needed to treat the flood.

At present, the function of a water pump control system of a drainage truck is single, and the water pump control system cannot be remotely controlled. The usability and the convenience of equipment in production, emergency rescue and disaster relief are more and more important. The equipment aims at the requirement, and develops a multifunctional mobile submersible pump control system.

Disclosure of Invention

An object of the utility model is to provide a multi-functional removal submerged pump control system to solve the problem among the prior art.

A multifunctional mobile submersible pump control system comprises a power supply,

also comprises a control cabinet frequency converter, a water pump, an ultrasonic flowmeter, a remote control device and an editable logic controller PLC,

the frequency converter is electrically connected with a power supply through a QF1 breaker,

the control cabinet comprises a potentiometer, the potentiometer comprises a knob,

the first leading-out terminal of the knob is electrically connected to the 10V + terminal of the frequency converter through a No. 3 wire,

the second leading-out end of the knob is electrically connected to the 10V-end of the frequency converter and the GND grounding end through a No. 1 wire,

the third leading-out end of the knob is electrically connected to the FIV/FIC end of the frequency converter through a No. 2 wire,

the potentiometer is used for adjusting the frequency of the frequency converter so as to indirectly control the drainage flow of the water pump,

the frequency converter is electrically connected with the water pump,

the ultrasonic flowmeter is electrically connected with the frequency converter through a 485 communication interface,

the ultrasonic flowmeter is electrically connected with a power supply through a breaker QF2,

the ultrasonic flow meter includes a radar probe head,

the probe of the radar detector detects the water flow in the water pipe and feeds back the water flow to the ultrasonic flowmeter and the frequency converter through 485 communication,

the radar detector probe is connected to a water pipe fixedly connected with the water pump.

As a further improvement of the technical scheme, the control cabinet is electrically connected to the control end of the frequency converter FWD through a coil KA1,

is electrically connected to the REV control terminal of the frequency converter through a coil KA2,

is electrically connected to the control end of the frequency converter S1 through a coil KA3,

the contact KA1, the contact KA2 and the contact KA3 are electrically connected with the COM grounding end of the frequency converter,

the switch board accessible control converter manual control water pump's running state.

As a further improvement of the technical proposal, the ultrasonic flowmeter is electrically connected with a remote control device,

the output end of the remote control device B1 is electrically connected to the I0.0 input end of the programmable logic controller PLC,

the output end of the remote control device B2 is electrically connected to the I0.1 input end of the programmable logic controller PLC,

the output end of the remote control device B3 is electrically connected to the I0.2 input end of the programmable logic controller PLC,

the PLC is electrically connected with a power supply through a QF3 circuit breaker,

the Q0.0 output of the programmable logic controller PLC is electrically connected to the coil KA1,

the Q0.1 output of the programmable logic controller PLC is electrically connected to the coil KA2,

the Q0.2 output of the programmable logic controller PLC is electrically connected to the coil KA3,

the coil KA1, the coil KA2 and the coil KA3 are electrically connected with the power supply N terminal.

As a further improvement of the technical scheme, the ultrasonic flowmeter and the remote control device are electrically connected with a 12V power supply through a breaker QF2,

and the ports A and B of the remote control device are electrically connected with the frequency converter through a 485 bus.

As a further improvement of the above technical solution, the output end U, V, W of the frequency converter is electrically connected with the water pump,

the output end U of the frequency converter is electrically connected with the water pump and the common end RC of the frequency converter,

the output end V of the frequency converter is electrically connected with the water pump,

the output end W of the frequency converter is electrically connected with the water pump, the output end W of the frequency converter is electrically connected with the output end RA of the frequency converter through an operation indicator lamp,

and feeding back the running state of the frequency converter through a fault interface of the frequency converter by means of a running indicator lamp.

As a further improvement of the above technical solution, the remote control device further comprises an antenna, and the antenna is electrically connected with the remote control module.

As a further improvement of the technical scheme, the frequency converter also comprises a contact KA1, a contact KA2 and a contact KA3,

the contact KA1 is electrically connected to the control terminal of the frequency converter FWD,

electrically connected to the REV control terminal of the frequency converter through the contact KA2,

is electrically connected to the control end of the frequency converter S1 through a contact KA3,

the contact KA1, the contact KA2 and the contact KA3 are electrically connected with the grounding end of the frequency converter COM,

the ultrasonic flowmeter is electrically connected with the remote control device,

the output end of the remote control device B1 is electrically connected to the I0.0 input end of the programmable logic controller PLC,

the output end of the remote control device B2 is electrically connected to the I0.1 input end of the programmable logic controller PLC,

the output end of the remote control device B3 is electrically connected to the I0.2 input end of the programmable logic controller PLC,

the programmable logic controller PLC is electrically connected with a power supply through a QF3 breaker,

the Q0.0 output of the programmable logic controller PLC is electrically connected to the coil KA1,

the Q0.1 output of the programmable logic controller PLC is electrically connected to the coil KA2,

the Q0.2 output of the programmable logic controller PLC is electrically connected to the coil KA3,

the coil KA1, the coil KA2 and the coil KA3 are electrically connected with the power supply N end,

the ultrasonic flowmeter and the remote control device are electrically connected with a 12V power supply through a breaker QF2,

the ports A and B of the remote control device are electrically connected with the frequency converter through a 485 bus,

the output end U, V, W of the frequency converter is electrically connected with the water pump,

the output end U of the frequency converter is electrically connected with the water pump and the common end RC of the frequency converter,

the output end V of the frequency converter is electrically connected with the water pump,

the output end W of the frequency converter is electrically connected with the water pump, the output end W of the frequency converter is electrically connected with the output end RA of the frequency converter through an operation indicator lamp,

the remote control device further comprises an antenna, and the antenna is electrically connected with the remote control module.

The utility model has the advantages that:

1. the utility model discloses a switch board including the potentiometre is connected on the converter to and install radar detection ware probe on the water pump water pipe, through radar detection ware feedback operating mode drainage flow, and feed back to ultrasonic flowmeter through radar detection ware, and then carry out regulation and control to the converter through the switch board, realize the accurate control to drainage flow;

2. realize the remote control function through remote control device, on original converter hookup, add PLC logic control ware and remote control device, combine with ultrasonic flowmeter etc. when proruption situation such as natural disasters, can realize remote control, and can control the drainage flow equally in remote control, can be very fast satisfy the drainage demand of proruption natural disasters such as flood.

Drawings

Fig. 1 is a circuit schematic diagram of a multifunctional mobile submersible pump control system according to the present invention;

fig. 2 is a control logic diagram of the control system of the multifunctional mobile submersible pump of the present invention.

Detailed Description

The technical scheme of the utility model is further explained in detail with the attached drawings as follows:

the embodiment is as follows: as shown in fig. 1, a multifunctional mobile submersible pump control system comprises a power supply,

also comprises a control cabinet frequency converter, a water pump, an ultrasonic flowmeter, a remote control device and an editable logic controller PLC,

the frequency converter is electrically connected with a power supply through a QF1 circuit breaker,

the control cabinet comprises a potentiometer, the potentiometer comprises a knob,

the first leading-out terminal of the knob is electrically connected to the 10V + terminal of the frequency converter through a No. 3 wire,

the second leading-out end of the knob is electrically connected to the 10V-end of the frequency converter and the GND grounding end through a No. 1 wire,

the third leading-out terminal of the knob is electrically connected with the FIV/FIC terminal of the frequency converter through a No. 2 wire,

the frequency converter is electrically connected with the water pump,

the ultrasonic flowmeter is electrically connected with the frequency converter through a 485 communication interface,

the ultrasonic flowmeter is electrically connected with a power supply through a breaker QF2,

an ultrasonic flow meter includes a radar probe head,

the probe of the radar detector is connected to a water pipe fixedly connected with the water pump,

the water pump is 5WQQGP150-25-18.5BT, the Olympic one water pump from Shanghai,

the ultrasonic flowmeter is selected from LTWBG-200F of Nanjing blue Tewan electronic technology Co., Ltd,

the type B103 of the potentiometer is selected,

the frequency converter selects ABB Chinese ACS355-03X-38A0-4,

the PLC programmable logic controller adopts a Siemens controller SIEMENS SMART S7-200 PLC,

the remote control device is DMQ-1000 of Wuhan Duman technology Limited, a flow card can be installed in the remote control device, and the remote control device is adjusted and controlled by matching with a remote wireless control terminal such as a mobile phone.

The frequency converter also comprises a contact KA1, a contact KA2 and a contact KA3,

the contact KA1 is electrically connected to the control terminal of the frequency converter FWD,

electrically connected to the REV control terminal of the frequency converter through the contact KA2,

is electrically connected to the control end of the frequency converter S1 through a contact KA3,

the contact KA1, the contact KA2 and the contact KA3 are electrically connected with the COM grounding end of the frequency converter.

The ultrasonic flowmeter is electrically connected with the remote control device,

the output end of the remote control device B1 is electrically connected to the I0.0 input end of the programmable logic controller PLC,

the output end of the remote control device B2 is electrically connected to the I0.1 input end of the programmable logic controller PLC,

the output end of the remote control device B3 is electrically connected to the I0.2 input end of the programmable logic controller PLC,

the programmable logic controller PLC is electrically connected with a power supply through a QF3 circuit breaker,

the Q0.0 output of the programmable logic controller PLC is electrically connected to the coil KA1,

the Q0.1 output of the programmable logic controller PLC is electrically connected to the coil KA2,

the Q0.2 output of the programmable logic controller PLC is electrically connected to the coil KA3,

the coil KA1, the coil KA2 and the coil KA3 are electrically connected with the power supply N end,

during remote control, a remote control device receives a control signal and transmits the control signal to a Programmable Logic Controller (PLC) through output ends B1, B2 and B3, after the PLC receives the control signal, the PLC output point controls coils KA1, KA2 and KA3, when the PLC output end Q0.0, Q0.1 and Q0.2 controls the coils KA1 or coil KA2 or coil KA3 to suck, and the coils KA1 or coil KA2 or coil KA3 enable a normally open contact KA1 or normally open contact KA2 or normally open contact KA3 to be closed, at the moment, the frequency converter receives the signal and starts to work, and the frequency converter rotates forwards or reversely or keeps constant speed according to the closed contact.

The ultrasonic flowmeter and the remote control device are electrically connected with a 12V power supply through a breaker QF2,

the ports A and B of the remote control device are electrically connected with the frequency converter through a 485 bus,

and the 485 communication interface performs data transmission with the liquid crystal display through an MODBUS protocol.

The output end U, V, W of the frequency converter is electrically connected with the water pump,

the output end U of the frequency converter is electrically connected with the water pump and the common end RC of the frequency converter,

the output end V of the frequency converter is electrically connected with the water pump,

converter output W and water pump electric connection, converter output W passes through operation pilot lamp and converter output RA electric connection.

The remote control device further comprises an antenna, the antenna is electrically connected with the remote control module, and the antenna is used for receiving and transmitting signals of the remote control terminal and remotely regulating and controlling the drainage flow.

The utility model discloses a theory of operation is:

as shown in fig. 2, the utility model discloses a normally open contact or wireless transceiver send control signal for PLC, control the water pump and open and stop. When the water pump during operation, install the ultrasonic wave flowmeter reflection ultrasonic signal frequency on the water pipe, 485 communication interfaces on the flowmeter pass through the MODBUS agreement with data upload to the display screen of switch board on, operating personnel confirms the water pump flow in view of the above, and then adjusts the required drainage flow of operating mode through the potentiometre on the switch board.

The foregoing illustrates and describes the general principles, features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the details of the foregoing embodiments, which have been described in order to further illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, which are intended to be within the scope of the invention as claimed. The scope of the invention is defined by the claims and their equivalents.

Claims (7)

1. A multifunctional mobile submersible pump control system comprises a power supply and is characterized in that,

also comprises a control cabinet, a frequency converter, a water pump, an ultrasonic flowmeter, a remote control device and an editable logic controller PLC,

the frequency converter is electrically connected with a power supply through a QF1 breaker,

the control cabinet comprises a potentiometer, the potentiometer comprises a knob,

the first leading-out terminal of the knob is electrically connected to the 10V + terminal of the frequency converter through a No. 3 wire,

the second leading-out end of the knob is electrically connected to the 10V-end of the frequency converter and the GND grounding end through a No. 1 wire,

the third leading-out end of the knob is electrically connected to the FIV/FIC end of the frequency converter through a No. 2 wire,

the frequency converter is electrically connected with the water pump,

the ultrasonic flowmeter is electrically connected with the frequency converter through a 485 communication interface,

the ultrasonic flowmeter is electrically connected with a power supply through a breaker QF2,

the ultrasonic flow meter includes a radar detector probe,

the radar detector probe is connected to a water pipe fixedly connected with the water pump.

2. The multifunctional mobile submersible pump control system of claim 1,

the frequency converter also comprises a contact KA1, a contact KA2 and a contact KA3,

the contact KA1 is electrically connected to the control terminal of the frequency converter FWD,

is electrically connected to the REV control terminal of the frequency converter through a contact KA2,

is electrically connected to the control end of the frequency converter S1 through a contact KA3,

the contact KA1, the contact KA2 and the contact KA3 are electrically connected with the ground end of the frequency converter COM.

3. The multifunctional mobile submersible pump control system of claim 1,

the ultrasonic flowmeter is electrically connected with the remote control device,

the output end of the remote control device B1 is electrically connected to the I0.0 input end of the programmable logic controller PLC,

the output end of the remote control device B2 is electrically connected to the I0.1 input end of the programmable logic controller PLC,

the output end of the remote control device B3 is electrically connected to the I0.2 input end of the programmable logic controller PLC,

the programmable logic controller PLC is electrically connected with a power supply through a QF3 breaker,

the Q0.0 output of the programmable logic controller PLC is electrically connected to the coil KA1,

the Q0.1 output of the programmable logic controller PLC is electrically connected to the coil KA2,

the Q0.2 output of the programmable logic controller PLC is electrically connected to the coil KA3,

the coil KA1, the coil KA2 and the coil KA3 are electrically connected with the power supply N terminal.

4. The multifunctional mobile submersible pump control system of claim 3,

the ultrasonic flowmeter and the remote control device are electrically connected with a 12V power supply through a breaker QF2,

and the ports A and B of the remote control device are electrically connected with the frequency converter through a 485 bus.

5. Multifunctional mobile submersible pump control system according to claim 1 or 3,

the output end U, V, W of the frequency converter is electrically connected with the water pump,

the output end U of the frequency converter is electrically connected with the common end RC of the water pump and the frequency converter,

the output end V of the frequency converter is electrically connected with the water pump,

frequency converter output W and water pump electric connection, frequency converter output W passes through operation pilot lamp and frequency converter output RA electric connection.

6. The multifunctional mobile submersible pump control system of claim 1,

the remote control device further comprises an antenna, and the antenna is electrically connected with the remote control module.

7. The multifunctional mobile submersible pump control system of claim 1,

the frequency converter also comprises a contact KA1, a contact KA2 and a contact KA3,

the contact KA1 is electrically connected to the control terminal of the frequency converter FWD,

is electrically connected to the REV control terminal of the frequency converter through a contact KA2,

is electrically connected to the control end of the frequency converter S1 through a contact KA3,

the contact KA1, the contact KA2 and the contact KA3 are electrically connected with the COM grounding end of the frequency converter,

the ultrasonic flowmeter is electrically connected with the remote control device,

the output end of the remote control device B1 is electrically connected to the I0.0 input end of the programmable logic controller PLC,

the output end of the remote control device B2 is electrically connected to the I0.1 input end of the programmable logic controller PLC,

the output end of the remote control device B3 is electrically connected to the I0.2 input end of the programmable logic controller PLC,

the programmable logic controller PLC is electrically connected with a power supply through a QF3 breaker,

the Q0.0 output of the programmable logic controller PLC is electrically connected to the coil KA1,

the Q0.1 output of the programmable logic controller PLC is electrically connected to the coil KA2,

the Q0.2 output of the programmable logic controller PLC is electrically connected to the coil KA3,

the ultrasonic flowmeter and the remote control device are electrically connected with a 12V power supply through a breaker QF2,

the ports A and B of the remote control device are electrically connected with the frequency converter through a 485 bus,

the output end U, V, W of the frequency converter is electrically connected with the water pump,

the output end U of the frequency converter is electrically connected with the common end RC of the water pump and the frequency converter,

the output end V of the frequency converter is electrically connected with the water pump,

the output end W of the frequency converter is electrically connected with the water pump, the output end W of the frequency converter is electrically connected with the output end RA of the frequency converter through an operation indicator lamp,

the remote control device further comprises an antenna, and the antenna is electrically connected with the remote control module.

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