SU1413281A1 - Pumping plant - Google Patents

Description

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The invention relates to a pumping system, in particular, can be used in automated systems for pumping fuel in warehouses and bases.

The purpose of the invention is to simplify the device by using an auxiliary pump to measure the flow.

The drawing shows a schematic diagram of the device.

The pumping station contains the main and auxiliary pumps 1 and 2, while the pressure pipe 3 of the main pump 1 is equipped with a shut-off member 4 with a drive 5 connected to the control system and connected to the pressure pipe 6 of the auxiliary pump 2, in addition to the suction pipe 7 of the auxiliary pump 2 is connected to the pressure pipe 3 of the main pump 1 at the site up to the shut-off member 4, and the auxiliary pump 2 is connected via the speed sensor 8 of the rotor of the pump 2 to the control system, which is designed as Vokupnosti sensor 9 position of the locking body 4, block 10 control filling with the sensor 11 the presence of flow, shut-off bodies, 12 and 13, with sensors 14 and 15 position, logic elements And 16-22 and NOT 23, electromagnetic relay 24 with contacts, A start button 25, a logical source 26, a pressure sensor 27 in the pressure line 3 of the main pump I with a setting unit 28, a comparison unit 29, a multiplication unit 30, a recorder 31 consisting of a converter 32, a feed indicator 33 and an adder 34, an actuator 35 of the valve body 36 installed on the pressure line 6 auxiliary gatelnogo pump 2, the latter is connected to its motor via an electromagnetic clutch 37 and the motor 38 of the main pump 1 is connected to control unit 39.

The pumping station operates as follows.

Before filling the suction line and the main pump housing 1, the shut-off member 4 on the pressure pipe 3 of the main pump 1, as well as the shut-off members 12 and 13 are closed, and the Start button is turned on.

Before the main pump 1 is turned on, when there is no pressure in its pressure pipe 3 at the outlet of comparison unit 29, the voltage is equal to logic zero, which is fed to the input of logical element AND 19. Before the start of filling, there is no fluid flow in the suction pipe 7 and Sensor 11 for the presence of a flow voltage is also equal to a logical zero. This signal is fed to the inputs of logic gates And 16, 19, and 20, the voltage at the outputs of which are logic zero. The actuator 5 of the locking member 4 and the engine 38 of the main pump 1 are de-energized, the locking member 4 is closed, and the pump 1 is shut off. At the same time, at the exit

element And 21 voltage equal to a logical zero, is fed to the input of the element And 17, at the output of which the voltage is equal to logical zero.

5 a, by virtue of the presence in the circuit between the output of the element 16 and the control input of the electromagnetic coupling 37 of the logical element 23, the coupling 37 is in the on position. When you turn on the pump 2

n through the open shut-off body 36, the air is removed into the discharge pipe 3 by the shut-off body 4 and filled with the pumped liquid by the suction line and. pump housing 1. This process continues until

5 block 10 control. This will trigger the sensor 11 the presence of flow.

This completes the process of priming the pump 1.

The automatic activation of pump 1 proceeds as follows. When the sensor 11 is triggered, the voltage at its output becomes equal to a logical unit and is fed to the inputs of the first, second input of the fourth and first input

5 fifth logic elements are And 16, 19 and 20, due to which at the output of the latter the voltage becomes equal to the logical unit and through the control unit 39 the engine 38 of the main pump 1 is turned on.

0 Pump 1 creates pressure in the pressure pipe. As soon as this pressure, monitored by sensor 27, becomes higher than the value set by unit 28, at the output of comparison unit 29, the voltage will be equal to a logical one and will go

5 to the inputs of the elements 16 and 19. The voltage at the output of the latter will be equal to the logical unit, which will ensure the activation of the drive 5 and the opening of the locking member 4. Pump 1 begins to pump fluid.

“At the same time, at the output of the sensor 9 of the position of the locking member 4, the voltage becomes equal to a logical one. Therefore, at the output of the element AND 16, the voltage will become equal to a logical one, and at the output of the element NOT 23 - a logical zero. Electromagnetic clutch 37 will disconnect the auxiliary pump 2.

Due to the resistance of the pipeline section 3 with the valve 4, part of the liquid pumped by the pump 1 will go to the suction pipe 7 through

0 the control unit 10, the pump 2, its pressure pipe 6 and through the open shut-off element 36 are again in the pressure pipe 3. This flow causes the rotor of the pump 2 to rotate. Signals from the rotation speed sensor 8 are fed to the inputs of elements 17 and 18. These signals pass through multiplication unit 30 and normally closed contact of electromagnetic relay 24 to recorder 31, in which they are.

having passed through the converter 32, are fed to the inputs of the feed indicator 33 and the adder 34. According to the feed indicator 33, it is possible to judge the operation mode of the pumping station and, if necessary, correct it using the engine control unit 39 and the locking member 4, and monitor amount of pumped fluid. Thus, after priming the pump 1

The pumping of small amounts of liquid with an auxiliary pump 2 is carried out with the main pump 1 turned off, the valve 36 closed and the valves 12 and 13 open.

At the time of opening, the locking bodies 12 and 13 of the voltage at the output of the sensors 14 and 15 will become equal to logical zero meters. This causes the appearance at the output of the element And 22 of a voltage equal to a logical zero, and

it is switched on, switching off the switch will cause the shut-off member 36 of the booster pump 2 to close from the drive and to switch the electromagnetic relay 24 off. Turning it into the sensor operation mode when the pump 2 is turned on, the liquid from the waste, the pumped tank enters the suction In this case, through the auxiliary pipeline 7 and through the block 10 the post-pump 2 passes only a part of the liquid, flows into the pump 2, from which through the pumped-over main pump 1. The port pipe 6 is supplied to the discharge of liquid go to the thief. Measurement of flow and quantity of pressure pipe 3 of pump 1, to co-pumped by pump 2 fluid at the same

performed as follows.

Frequency signals of sensor 8, proportional to the flow of pump 2, enter the input of element 8, pass through it, and through the closed contacts of the electromagnetic relay 24 enter the input of recorder 31. In this case, indicator 33 and adder 34 provide reading of indications corresponding to flow only auxiliary pump 2. Thus, the functionality of the auxiliary pump 2 is expanded, the use of which as a flow sensor makes it possible to simplify the output of the comparison unit 29, Q pump station, control it is not equal to the logical zero and the fuel transfer procedures,

the inputs of logic elements And 16 and 19.,

which causes the closure of the closure member 4. In such a way, the function 11 of the auxiliary flow starts up at the same time as the capacity of the auxiliary flow, the voltage at its output, the use of which as

will be equal to a logical zero and the post-5 flow sensor will allow you to simplify the pit circuit to the input of the element And 20, which is given by the station and the transfer control process,

details of turning off the engine 38 of pump 1 and turning on pump 2. When pumping fails in the presence of fluid in pumped tanks, the process of turning on pump 1

repeats, and in the absence of liquid, the stan- dard 40 and the auxiliary pump and the pumping system must be disconnected.

For pumping liquid residues from the suction line and pump casing 1

The amount of liquid passing through pump 2 is taken into account by a factor K in multiplication unit 30.

The shutdown of the pump 1 occurs automatically in case of a transfer failure, in addition, you can manually stop the station.

In the first case, when the flow of fluid to the pump 1 is stopped, the pressure in the pressure pipe 3 drops. The voltage at the output of the pressure sensor 27 becomes lower than the voltage from the output of the generator 28, as a result of which the formula of the invention pump station containing

The main pump is equipped with a shut-off valve with a drive connected to the control system, and is connected to the pressure pipe of the open shut-off organ 36 by an automatic pipe of the auxiliary pump and, in order to simplify

stations using an auxiliary pump to measure the flow, the pump’s suction piping is connected to

before they are completely removed. Control over 50 boprod of the main pump at the site to complete removal of residual liquid of the wasp-stop organ, and auxiliary pump

schesBL through block 10.connected to the management system.

with the closure bodies closed 4, 12 and 13

soybean 2 in the order described. Pump 2 pumps out of the suction and pressure lines and the main pump housing 1 residues of liquid and its mixture with vapors

auxiliary pressure pipe4

The pumping of small amounts of liquid with an auxiliary pump 2 is carried out with the main pump 1 turned off, the valve 36 closed and the valves 12 and 13 open.

At the time of opening, the locking bodies 12 and 13 of the voltage at the output of the sensors 14 and 15 will become equal to logical zero meters. This causes the appearance at the output of the element And 22 of a voltage equal to a logical zero, and

will lead to closing of the locking member 36 and shutting down the electromagnetic relay 24. When the pump 2 is turned on, the liquid from the pumped-out tank flows into the suction pipe 7 and through the block 10 enters the pump 2, from which it flows through the pressure pipe 6 betel. Measurement of the flow rate and amount of pumped liquid 2 while

auxiliary pump and control system, while the pressure pipeline

Claims (1)

The invention The pump station containing the main and auxiliary flow, intake in the area before the pump pump auxiliary pressure pipe