SU1052719A1 - Pumping plant of water tower - Google Patents

Abstract

1. A PUMPING STATION OF A WATER-TOWER TOWER, containing a pump connected by a distribution pipe to a pressure vessel in which overflow and connection pipes are located, the latter is connected to a pneumohydraulic tank with a lower level sensor communicated with a pneumo-hydraulic capacitor with a sensor of the upper level having a drainage outlet, both sensors being connected to the e.tektropkaf of an automatic pumping unit, characterized in that, in order to increase its reliability in operation and reduce maintenance The connecting pipe has a section located above the upper level mark and is provided with an air duct, the inlet section of which is changed under the elevated level, and the pneumohydraulic tank with the lower level sensor is provided with a lower side of the lower level tube. to the pipeline, it has been sealed and sealed once (L is located below the tank with the upper level sensor.

Description

2. A station according to claim 1, characterized in that the air duct is discharged; 1 pit is in the form of an open bottom cylinder that is connected to the connecting pipe by means of a knee-shaped fitting.

3. A step on and. 1, characterized in that the duct is made in the form of an open cavity of a hollow cylinder, and the upper part of the connecting pipe is copentically placed in it with an annular gap.

4. Station according to claim 1, characterized in that an adjusting chamber, connected to them by a tube, is installed between the connecting pipe and the hydraulic hydraulic capacitance with the lower level sensor.

about. The station according to claim 1, characterized in that the hypo-hydraulic tanks are made in the form of a stepped cylinder, and the level sensors are located at its upper end, and the lower part of the cylinder, having a smaller diameter, is concentrically inserted into the regulator frame.

one

The invention relates to pump engineering, in particular, to the design of the pumping station of a water cannon tower, and can be applied in the design of hydrotransport systems in tropics, agriculture, transport.

A pumping station that contains a pump connected to a water pressure tank and has level sensors connected to the control of a driving pump 1.

The disadvantage of the station is low reliability.

Closest to the proposed technical capacity is the pumping station of the water pressure pump, containing the pump, connection, 1st cable piping to the pan tank, in which the () bed 1) is equipped with an overflow and connecting pipe, the latter are connected to a pneumatic hydraulic capacitor with a pressure sensor 1 - about the level, combined with the pneumatic-hydraulic tank with the sensor of the upper level, which has a drainage drain, prpchem both sensors are connected to the electric box of the automatic control of the pump 2.

The disadvantages of the known pump station 1P1 are low reliability and high operating costs.

The purpose of the invention is to increase reliability and reduce operating costs.

1pc; 1sn tsen1b is achieved by the fact that in the pumping station of the water tower, a pump connected by a divider T1) is connected to a pressure vessel in which it is 1o; the same is overflow and connected, the pipes are connected to the pressure vessel a capacitor with a lower level sensor, coherent with a pneumatic-hydraulic container with an upper level sensor having a drainage outlet, both of which are connected to the electrical control box of the automatic pump control, the connecting pipe has a section located Hell is marked with a Bepxneio level, and is provided with an air duct, the inlet section of which is located below the lower level, and the pneumo-hydraulic tank with a lower level sensor is provided in the lower part with a tube with two valves connected to the branch pipe, which is sealed and expanded to below the capacity with high level sensor.

This goal is also achieved by the fact that the air duct can be made in the form of an open-bottom hollow cylinder connected to the connecting pipe at K) the power of the knee-shaped pipe) slab.

The goal is achieved also by the fact that the air duct can be made in the form of a hollow cylinder open at the bottom, and the upper part of the connecting pipe is concentrated in it with a sliding gap.

The goal is also achieved by that. that between the connecting tube and the pneumatic-hydraulic unit with a low-level sensor a regulating chamber can be installed; a heating chamber communicated with them by a tube.

In addition, the objective of this goal is achieved in that the pneumatic-hydraulic containers can be made in the form of a stepped cylinder, and the sensors are located at its upper end, and the lower part of the cylinder, having a minor diameter, is concentrically inserted into the adjustment chamber of FIG. 1 shows schematically a pumping station of a water tower; in fig. 2 BapnafiT of a pumping station of a water-mounted bash1N1 pumping station with an air duct made in the form of an open noJioro 1 cylinder, connected to the connecting pipe with noMonui elbow-shaped nozzle; in fig. 3 - Nnemogidravlichesky

containers; in fig. 4 - pneumohydraulic tank with a low level sensor; communicated with the adjustment chamber; in fig. 5 shows an embodiment of pneumatic-hydraulic containers in the form of a stepped cylinder.

The pumping station of the water tower contains a pump 1, connected by a pipe 2 to a pressure pipe 3, in which there are overflow and connecting pipes 4 and 5, the latter of which is connected to pneumohydraulic tank 6 with sensor 7 of lower level 8 communicated with pneumohydraulic a tank 9 with a sensor 10 of the upper level 11 having a drainage outlet 12, both sensors 7 and 10 being connected to the electrical cabinet 13 of the automatic control of the pump 1. The connecting pipe 5 has a section 14 located above the top its level 11, and provided with a duct 15, the inlet section 16 of which is placed under the mark of the lower level 8, and the pneumohydraulic tank 6 with the sensor 7 of the lower level 8 is provided at the bottom with a tube 17 with two valves 18 and 19 connected to the connecting pipe 2 , made sealed and placed below the tank 9 with the sensor 10 of the upper level I. The air duct 15 can be made in the form of an open bottom of the hollow cylinder 20 connected to the connecting pipe 5 by means of a knee-shaped nozzle 21. The air duct 15 can be made In the form of an open hollow cylinder 22 at the bottom, and the upper part 23 of the connecting pipe 5 is concentrically placed in it with an annular gap 24. An adjustment tube 25 can be installed between the connecting pipe 5 and the pneumohydraulic tank 6 with the sensor 7 of the lower level 8. 26 with them.

Pneumo-hydraulic tanks 6 and 9 can be made in the form of a stepped

cylinder 2 /, and sensors 7 and 10 of levels 8 and 11 are placed on its upper end 28, and the lower part 29 of cylinder 27, having a smaller diameter, is concentrically inserted into the adjustment chamber 25.

The pumping station of the water pump is as follows.

When pump I exceeds the flow rate of water withdrawn from distribution pipe 2, an excess amount of water enters the pressure tank 3. In the process of filling the pressure tank 3, water enters the duct 15, displacing air from it. Since the lower end of the connecting pipe 5 is connected to a sealed pneumatic-hydraulic tank 6, and the latter through the pneumatic-hydraulic tank 9 is connected with the atmosphere, pressurized water coming from the air coming out of the connecting pipe 5 enters the pneumatic-hydraulic tank 9 or to both pneumatic-hydraulic tanks 6 and 9. When In this sequence; sensors 7 and 10 of the lower and upper levels 8 and 11 work 1no, feel .1 which elements are placed inside the pneumo-hydraulic tanks 6 and 9. Since the sensors 10 and 7 of the upper and lower levels Water levels 1 1 and 8 are connected to the electric cabinet 13 of the automatic control of the pump 1, they automatically control the operation of this pump. When 1P1 and the upper limit level 1 1 of water are reached in the pressure section 3, the pump 1 drive is automatically turned off by a signal from the sensor 10, and when it drops to the lower limit level 8, it is automatically turned on by a signal from the sensor 7.

The invented invention ensures reliable operation of the pumping station of the water pump at any temperature fluctuations or other changes in the surrounding conditions and reduces operating costs.

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Claims (5)

1. PUMPING STATION OF A WATER TOWER, comprising a pump connected by a distribution pipe to a pressure vessel in which fg / g are located. 7 overflow and connecting pipe, the latter is connected to a pneumohydraulic tank with a lower level sensor in communication with a pneumohydraulic tank with a top level sensor having a drainage outlet, both sensors being connected to an automatic control cabinet for a pump, characterized in that, in order to increase its reliability in work and reduce operating costs, the connecting pipe has a section located above the mark of the upper level, and is equipped with an air duct, the inlet section of which is located It is marked with a lower level mark, and a pneumohydraulic tank with a low level sensor is equipped at the bottom with a tube with two valves connected to a distribution pipe, it is sealed and placed below the tank with a high level sensor. SU „1052719 .1052719 2. Station but π. 1, characterized in that the duct is made in the form of an open bottom hollow cylinder connected to the connecting pipe using an elbow. 3. Station on π. 1, characterized in that the duct is made in the form of a hollow cylinder open at the bottom, and the upper part of the connecting pipe is concentrically placed in it with an annular gap. 4. Station on π. 1, characterized in that between the connecting pipe and the pneumohydraulic tank with the lower level sensor, an adjustment chamber is installed, connected with them by the tube. 5. Station on π. 1, characterized in that the pneumohydraulic tanks are made in the form of a stepped cylinder, and level sensors at its upper end, and the lower part of the cylinder, having a smaller diameter, is concentrically inserted into the adjustment chamber.