SU435375A1 - AUTOMATIC CONTROL DEVICE OF PUMP STATION - Google Patents

Description

one

The invention relates to devices for controlling pumping installations and can be used, for example, in local water supply systems with pressure-regulating tanks.

A device for automatic control of a pump station with a pneumatic tank is known, containing pumps connected to a common pressure line, installed on a pneumatic tank, and pressure sensors and control units for driving motors of pumps powered from a common source and configured for a different response pressure.

However, such a device has a complex structure and is too expensive when used in installations with low productivity, for example, with two pumps, local water supply systems with pressure regulating tanks.

The proposed device differs from the known one in that it is equipped with a stepper distributor with a reverse drive and two rows of contact lamellae, the contacts of which are included in the electrical circuits between the contacts of pressure sensors and control units of drive motors, while the lamellae of the first and second rows are connected to blocks control in such a way that both brushes are simultaneously closed with contacts located in chains of different blocks

control, and the driving electromagnet of the stepper distributor is connected to the power source through the contact of the pressure sensor adjusted to the maximum response pressure.

Such an embodiment reduces the cost of the device while increasing its reliability and provides alternation of switching on and turning off the pumps.

Pa drawing presents a schematic diagram of the electrical connections of the device.

The circuit includes contacts 1 and 2 of pressure sensors, blocks 3 and 4 of driving pump motors, and a stepper valve 5. Blocks 3 and 4 contain an intermediate relay and magnetic starters for electric motors of the first and second pumps. The windings 6 and 7 of the intermediate relay are connected to the contacts of the distributor 5, and the contacts 8 and 9 of the intermediate relays are included in the coil circuit 10 and 11 of the magnetic starters. The contacts of the starters are located in the power circuits of the electric motors (not shown in the drawing).

The stepper 12 electromagnet of the stepper distributor is connected to the power source through the contact 1 of the pressure sensor adjusted to the maximum response pressure, and the contacts 13 and 14 of the first p yes

the distributor contacts are connected respectively with the windings 6 and 7 intermediate relays. Brush 15 of the first row provides alternate switching of these relays. The contact 16 of the second row is connected to the winding 7 of the intermediate relay of the unit 4, and the contact 17 to the winding 6 of the intermediate relay of the block 3; however, the second-row brush 18 provides for the selective inclusion of the windings 6 or 7 depending on the position of the brush 15.

The contacts 16 and 17 of the second row of contacts are connected to the intermediate relay in such a way that the brushes 15 and 18 are simultaneously closed with the contacts located in the chains of different control units.

The device works as follows.

Let contacts 1 and 2 of the pressure sensors open. In the process of emptying the tank at pressure Pi, the pressure sensor closes its contact 1 and the winding 6 of the intermediate relay through the brush 15 and contact 13 receives power. In this case, the contacts 8 of the intermediate relay are closed and the electric motor of the first pump is turned on. If the water flow is less than the capacity of the first pump, the pneumatic tank is filled with water and contact 1 is disconnected at pressure P2: the pump is turned off, electromagnet 12 is de-energized, and brushes 15 and 18 are moved to contacts 14 and 17.

Subsequently, when the pneumatic tank is empty, at a pressure P, the contacts of the pressure sensor are closed and the winding 7 of the intermediate relay of the motor 4 of the second pump through the brush 15 and contact 14 is powered - the second electric pump is turned on. When the pressure rises to PZ during the filling of the non-fluid bag, contact 1 of the pressure sensor opens, electromagnet 12 is de-energized, brushes 15 and 18 are moved to contacts 13 and 16, and the second electric pump is turned off. Then, when the pneumatic tank is emptied at the pressure Pi, the first electric pump is switched on again and the whole cycle is repeated.

If the flow rate has increased and has become greater than the capacity of the operating pump, for example, the first one, then the pressure in the pneumatic tank drops to a value of RE, less than Pi, and the contacts 2 of the second pressure sensor are closed. When running the first pump brush 15

and 18 are located at contacts 13 and 16, respectively. Through the closed contact 2, the brush 18 and the contact 16 receives power from the unit 4- turns on the second electric motor. When the pressure in the pneumatic tank rises to Pi less than P, contacts 2 open and the second pump stops.

If the water flow has increased while the second pump is running, when the brushes 15 and 18

located at contacts 14 and 17, then at a drop in pressure to an RZ, unit 3 will receive power through closed contact 2, brush 18 and contact 17. As a result, the first pump will turn on for parallel operation with the second one. As pressure increases to Pi, the first pump shuts off.

Thus, the pumps operate alternately and for a sufficiently long period of time, the total operating time of each pump should be approximately the same.

Subject invention

A device for automatic control of a pump station with a pneumatic tank, containing pumps connected to a common pressure line, installed on a pneumatic tank, and pressure sensors and control units of drive motors of pumps powered by a common source, configured for different actuation pressure, in order to reduce the cost devices that

increasing its reliability and ensuring alternation of switching on and off of pumps, it is equipped with a reverse-drive stepper distributor and two contact lamellae, the contacts of which are included in the electrical values between the contacts of pressure sensors and control units of drive motors, while the lamellae of the first and second rows are connected with control units so that both brushes are simultaneously

they are closed with contacts located in the circuits of different control units, and the driving electromagnet of the stepper distributor is connected to the power source through the contact of the pressure sensor adjusted for the maximum response pressure.