SU424996A1 - AUTOMATED PUMPING INSTALLATION - Google Patents

Description

The invention relates to the field of motor control of pumps. A known automated pumping installation comprising at least two electric drive pumps with a common pressure pipe and a pneumatic tank with a pressure switch, the contacts of which are included in control circuits for driving electric motors. In a known installation, switching on and off of each subsequent pump is performed respectively at a pressure slightly lower than the previous one. In known installations, with increasing fluid flow in the pressure pipe, the pressure developed by the pumping unit drops, although it is desirable for the consumer that the pressure increase with increasing fluid flow, taking into account the losses in the pressure pipe that increase with the fluid flow; the supply of fluid at low flow rates and pressures greater than at high flow rates of the liquid, leads to excessive energy consumption. The purpose of the invention is to increase the efficiency of an automated pumping unit. For this, the pressure developed by the installation decreases with decreasing flow in the pressure pipe. FIG. 1 shows a diagram of the described pump unit (in this case, a three-unit) with a pneumo tank; in fig. 2 is a circuit diagram of the installation control circuit; in fig. 3 - pressure characteristics of pumps in parallel operation. The installation (see Fig. 1) contains parallel-connected pumps 1, 2 and 3 with electric motors 4, 5 and 6, a pneumatic tank 7, a pressure switch 8, 9 and 10 and a flow switch 11 mounted on a common pressure pipe. The control circuit of the drive motor of the pump operating in the basic mode (the starter of this motor is marked 12), in parallel with the contacts 13 of the pressure switch 8 are connected the contacts 14 of the flow switch I installed on a common pressure pipe. The control circuit of the drive motor of the pump operating in continuous mode (the starter of this motor is designated 15) includes the contacts of the flow switch: contact 16 is parallel to contact 17 of the pressure switch and contact 18 is sequentially connected to contact 17. operating at peak load (the starter of this electric motor is designated 19), in series with contacts 20 of the pressure relay contacts 21 of the flow switch are connected. FIG. 3 on the abscissa plotted consumption

fluid, and the ordinate is the pressure in the pneumatic tank. 1-2, 4-5 and 7-8 - pressure characteristics of one, two and three pumps, respectively.

The flow switch 11 is configured so that its contacts 14 are closed at flow rate Q, contacts 16 at flow rate Qe, contacts 18 at flow rate Q2 and contacts 21 at flow rate Qs.

When the flow rate of water in the discharge pipeline is less than Qz, the contacts 14, 16, 18, 21 of the flow switch are open and it is possible to turn on only the electric motor of the pump operating in the basic mode.

With the flow of water in the discharge pipe Qz Q. Qs is enabled through contact 18 of the flow switch of the drive motor of the pump operating in the intermediate mode, when the pressure in the pneumatic tank drops to the value P (by contacts 17 of the pressure switch).

In this case, if, then the pressure in the pneumatic tank rises to Pi, and the contacts 17 of the pressure switch open, turning off the intermediate mode pump; the basic mode pump continues to operate, since the open contacts 13 of the pressure switch are blocked by the contacts 14 of the flow switch. Esp .4, then the pressure in the pneumatic tank is less than Pi, and both pumps operate in parallel.

At the flow rates of water in the discharge pipeline, the contacts 21 of the flow switch close, and through the closed contacts 20 of the pressure switch, the actuator 19 of the pump electric motor operating at peak load is powered.

If, then the pressure increases to the value of PT, the contacts 20 of the pressure switch open, turning off the corresponding electric motor. Contacts 14, 16 and 18 of the flow switch are closed - drive motors of pumps of the basic and intermediate modes continue to work.

When all the contacts of the pressure switch are closed, and all three pumps work on parallel.

As follows from the analysis of the installation’s electrical circuit, the maximum pressure developed by the pump operating in the basic mode is less than the pressure developed by the paso operating at peak load, i.e. the pressure under which the pump supplies the pump to the liquid .

The desired effect is achieved by installing a flow switch on the discharge pipe and appropriately connecting its contacts with the contacts of the pressure switch.

Subject invention

An automated pump installation containing at least two electric drive pumps with a common pressure pipe and a pneumatic tank with a pressure switch, the contacts of which are included in the control circuits of the driving electric motors, in order to improve the efficiency of the installation, The discharge pipeline has a flow switch with closing contacts, some of which are connected in parallel with the contacts of the pressure switches in the motor control circuits of pumps operating on the base and exact modes, while the remaining contacts are connected in series with the relay contacts in the pressure control price x the motors pumps working in an intermediate mode, and at peak load.

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