RU94088U1 - PUMP UNIT CONTROL STATION - Google Patents

Abstract

 The control station of the pump installation, comprising a control, protection and signaling cabinet, a frequency converter unit, including a power electronics unit and a control system located on the radiator, a forced cooling and heating system of the internal volume of the cabinet, and a cabinet roof made of lower and upper sections, the upper the section is continuous, and the lower section has an opening for the output of heated air from the cabinet into the inner region between the upper and lower sections, in addition, the roof has an outlet For the release of heated air into the environment, characterized in that it comprises a forced cooling system for the reactive elements of the pump station control station and a forced cooling and heating system for the frequency converter radiator, including a first duct forming an air channel mounted on the inside of the cabinet rear wall, side wall which has an opening for intake of cooling air opposite the inlet of the first duct, a centrifugal fan located inside the second a box forming an air flow and located inside the cabinet at the junction of the first box and the side wall of the cabinet having a hole for the exit of hot air, and the outlet of the air channel of the first box is located opposite the inlet of the centrifugal fan, in addition, the first box has a hole for installing a radiator, the radiator fins are located in the air channel along the stream, and the radiator base is installed inside the cabinet to ensure isolation of the above air channel from the internal volume of the cabinet,

Description

The technical field to which the utility model belongs.

The utility model relates to oil-producing equipment, namely, to engine control stations of electric centrifugal pumps and can be used to extract formation fluid using pumps.

State of the art

Known control station of a pumping submersible installation (see patent on utility model No. 466617, published 2005.07.10). The control station of the pump installation includes a control cabinet for protection and alarm, a frequency converter unit, including a power electronics unit and a control system located on the radiator, a forced cooling and heating system for the internal volume of the cabinet. The roof of the cabinet is made of lower and upper sections. The upper section is continuous, and the lower section has an opening for the withdrawal of heated air from the cabinet into the inner region between the upper and lower sections. The roof has an outlet for discharging heated air into the environment.

The disadvantages of this control station include a relatively inefficient cooling system. In particular, the cooling system does not provide effective individually selected cooling of the most heat-generating individual elements of the stations, in particular, the frequency converter. Such a system requires air pumping throughout the entire internal volume of the station and requires large overall filtering elements in the air flow paths required for cooling the fuel elements. It also does not contribute to the economical and more efficient operation of the air conditioning system.

The technical result achieved by the above device consists in reducing the cost of servicing the station, additional energy savings in the cooling and heating system, increasing its reliability in difficult climatic conditions by optimizing the cooling modes of individual system elements (in particular, the most intense heat source - converter power elements frequency).

Utility Model Disclosure

To achieve the specified technical result, a control unit for the pumping unit was developed, containing a control cabinet, protection and alarm, a frequency converter unit, including a power electronics unit and a control system located on the radiator, a forced cooling and heating system for the internal volume of the cabinet, and the cabinet roof is made of the bottom and the upper sections, the upper section being continuous, and the lower section having an opening for the output of heated air from the cabinet into the inner region between the upper and the lower sections, in addition, the roof has an outlet for discharging heated air into the environment, characterized in that it comprises a forced cooling system for the reactive elements of the pump station control station and a forced cooling and heating system for the frequency converter, including a first duct forming an air channel mounted on the inner side of the rear wall of the cabinet, the side wall of which has an opening for intake of cooling air opposite the inlet of the first duct, a centrifugal fan located inside the second duct forming the air flow, and located inside the cabinet at the junction of the first duct and the side wall of the cabinet having an outlet for hot air, and the outlet of the air duct of the first duct is located opposite the inlet of the centrifugal fan, in addition, the first box has a hole for installing a radiator, and the radiator fins are located in the air channel along the flow, and the radiator base is installed inside the cabinet with insulation the above air channel from the internal volume of the cabinet, and the forced cooling system of the reactive elements includes at least one supply fan located inside the cabinet opposite the inlet for the intake of ambient cooling air, which together with the outlet openings for the output of the heated air into the environment are located on the back wall of the cabinet, and the reactive elements are separated from the main volume of the cabinet by a partition located above the inlet and outlet openings, which protect They are provided with casings located on the outer side of the rear wall of the cabinet and provide respectively intake and exhaust air in its lower part, with a protective filter inside the inlet casing, each forced cooling system contains its own climate controller with temperature sensor, temperature sensor of the forced radiator cooling system located on the base of the radiator, temperature sensors of other forced cooling systems are located inside the respective cooled volumes, and the forced cooling system of the internal volume contains at least one fan heater and at least one supply fan located opposite the outlet of the third duct with a filter element located on the inner side of the cabinet door opposite the inlet for intake of ambient cooling air, the roof outlet is located on the side of the cabinet door, and the fan heater is located on the panel for attaching the controls, protection and alarm.

Brief Description of the Drawings

Figure 1 shows a General view of a control station containing a control cabinet, protection and alarm with an open door.

Figure 2 explains the design and features of the forced air cooling system of the frequency converter (top view).

Figure 3 explains the design and features of the supply fan of the forced cooling system of the reactive elements of the control station (side view).

Figure 4 explains the design and features of the supply fan forced cooling of the internal volume of the cabinet (side view).

Implementation of a utility model.

The control station is included in a three-phase power circuit, and the operation mode of the control station is set by the controller 14 with means for input / output of information about the operation mode of the station, in accordance with a predetermined program. In this case, the supply voltage through a three-phase power supply network is supplied through the input filter from overvoltages in the supply network to the frequency converter unit, generating a signal of a given frequency and voltage, which serves to set the frequency of rotation of the motor shaft of the submersible electric centrifugal pump of the pump unit. The main controlled parameters of the formation fluid lifting process are phase currents in the submersible pump electric motor circuit, which are monitored by phase current sensors in the electric motor circuit, from which the useful signal is sent to the controller, which sets the operating mode of the pump unit based on the received information.

To cool the electrical devices (in particular reactive elements (chokes, capacitors and power modules of the frequency converter unit) located inside the control cabinet, protect and signal the cabinet), the air conditioning system is also implemented in the control station (the basis of which is the heating, discharge and air discharge system from it ) During operation of the control station, its electrical elements become very hot, in particular the power modules of the frequency converter. To prevent equipment overheating, the control station has a system for pumping and removing air from the control cabinet, protecting and signaling the air to cool the electrical devices located inside it, consisting of holes for supplying cold air to the electrical devices from the environment, supply fans of the station, and holes for output from the control cabinet, protection and signaling of exhaust hot air to the external environment. The main structural element of the control station is the cabinet of the control station 1 with door 2 with a rubber seal 18, which contains the main electrical and mechanical elements of the system (controllers, fans, boxes, etc.). The control station cabinet is on stand 20.

In the climate control system of the control station (SU), in addition to the forced cooling and heating system of the internal volume of the cabinet, two separate systems can be distinguished - the forced cooling system of reactive elements 10 and the forced cooling and heating system of the radiator of the frequency converter (FC). The air conditioning system maintains the temperatures of respectively the reactive elements, the frequency converter, as well as the remaining electrical elements within the specified limits and dries the SU in case the humidity in it exceeds a predetermined maximum permissible value. The air conditioning system includes a SU 14 controller with an integrated heating system, a thermostat 6 of the forced cooling and heating system of the internal volume of the cabinet, a climate controller 3 of the frequency converter, a climate controller 7 of the forced cooling and heating system of the internal volume of the cabinet, a climate controller 12 of the forced system cooling of reactive elements, centrifugal fan 5 for cooling the radiator 4, fan heater / circulation fan 8 of the forced cooling and heating system of the internal volume Cabinet 10, supply fan of the forced cooling system and heating the internal volume of the cabinet 16, supply fan 13 of the forced cooling system of reactive elements. The climate controller 3 of the forced cooling and heating system of the radiator of the frequency converter is installed on the radiator 4 and serves to turn on / off the centrifugal fan of the inverter radiator fan 5, depending on the temperature value of the sensor. The climate controller 7 is used to turn on a fan with the heating function 8 of the forced cooling system and heating the internal volume of the cabinet (fan heater / circulation fan), depending on the temperature (and humidity) of the internal volume of the cabinet. In addition, the fan 8 can be switched on by a mechanical thermostat 6 (the threshold is set on the thermostat) regardless of the controller, thereby reducing the heating time of the control system. The climate controller 12 of the forced cooling and heating system of the radiator of the frequency converter serves to turn on the supply fan 13 depending on the temperature in the volume of the cabinet in which there are reactive elements.

When supplying voltage to the control system, the controller is turned on (if the temperature inside the controller is above minus 20 ° С). The design of the controller provides a heating system, which, if necessary, ensures its heating to operating temperature. The controller supplies power to all the climate control units of the air conditioning system. In addition, the SU controller, after switching on, configures all the SU climate controllers (recording the settings in them according to which they will carry out their work). If the corresponding temperature exceeds the minimum permissible value (set in the controller), the controller immediately turns on the inverter control system.

Figures 1 and 2 explain the main features of the operation and design of the forced cooling and heating system of the radiator of the frequency converter. Its main elements: climate controller of the frequency converter 3, a cooling radiator (primarily of power elements) of the frequency converter 4 with a radiator base 24, a centrifugal cooling fan of the radiator 5. Air from the external environment enters inlet 25 for air intake from the external environment into the radiator for cooling radiator and frequency converter. The first box 31 (mounted on the cabinet of the control station 26, for example, mounted on the inner side of the rear wall of the cabinet) forms an air channel - the air flow passes along the longitudinal ribs 29 of the cooling radiator of the power elements of the frequency converter and then through the outlet 27 for outputting hot air enters to the input of the centrifugal cooling fan of the radiator 5, which is located in the second box 28 (box of a centrifugal cooling fan of the radiator of the power elements of the frequency converter) through the second outlet duct 30 for the withdrawal of heated air into the external environment air stream enters into the external environment.

Figures 1 and 3 explain the details of the work and design features of the forced air cooling system of the forced cooling system of the reactive elements 10, above which the other cooled components of the control station are respectively. The system 10 is isolated from the forced cooling system and heating the internal volume of the cabinet by the partition 9. It ensures the independence of the operation of the corresponding forced air cooling systems. On the rear wall of the cabinet 19, an inlet 23 is made for air intake by the supply fan 13 of the forced cooling system of the reactive elements. It is closed by a casing 22 for the inlet 23. In the casing 22 there is a filter element 21 of the supply fan 13. When the cooling of the cabinet with reactive elements is cooled into the internal volume, the air flow passes through the filter element 21 and through the opening 23 enters the inlet of the supply fan 13. The output of heated air through the outlet openings 11 of the forced cooling system of reactive elements.

Figures 1 and 4 explain the details of the work and design features of the forced air cooling and heating system internal volume. There is a third box 15 with a filter element 17 (carrying out, in particular, purification of air from large particles from the external environment) located on the inner side of the cabinet door 2 opposite the inlet 33 for intake of cooling air. In the third duct, an outlet 32 is made, opposite which the supply fan 16 is located. In Fig. 4, the arrows show the direction of flow of cooling air from the external environment to the outlet 32 of the third duct through the air channel formed by the inner surface of the cabinet door and the third duct. The output of heated air in the corresponding forced air cooling system of forced air cooling and heating of the internal volume of the cabinet, as in the known control station (prototype), is carried out through the holes for the output of hot air made in the roof of the cabinet.

The proposed design of the control station can be used to control both the drives of submersible pumps and the drives of any other devices with valve and asynchronous motors.

Claims (1)

A control station for a pump installation, comprising a control, protection and signaling cabinet, a frequency converter unit, including a power electronics unit and a control system located on a radiator, a forced cooling and heating system for the internal volume of the cabinet, and a cabinet roof made of lower and upper sections, the upper the section is continuous, and the lower section has an opening for the output of heated air from the cabinet into the inner region between the upper and lower sections, in addition, the roof has an outlet For the release of heated air into the environment, characterized in that it comprises a forced cooling system for the reactive elements of the pumping station control station and a forced cooling and heating system for the frequency converter radiator, including a first duct forming an air channel mounted on the inside of the cabinet rear wall, side wall which has an opening for intake of cooling air opposite the inlet of the first duct, a centrifugal fan located inside the second a box forming an air flow and located inside the cabinet at the junction of the first box and the side wall of the cabinet having a hole for the exit of hot air, and the outlet of the air channel of the first box is located opposite the inlet of the centrifugal fan, in addition, the first box has a hole for installing a radiator, the radiator fins are located in the air channel along the stream, and the radiator base is installed inside the cabinet to ensure isolation of the above air channel from the internal volume of the cabinet, moreover, the forced cooling system of the reactive elements includes at least one supply fan located inside the cabinet opposite the inlet for the intake of ambient cooling air, which together with the outlet openings of the heated air into the environment are located on the rear wall of the cabinet, and the reactive elements are separated from the main volume of the cabinet by a partition located above the inlet and outlet openings, which are protected by housings located on the outside of the back wall cabinet and provide respectively intake and exhaust air in its lower part, and inside the inlet casing there is a protective filter, each forced cooling system contains its own climate controller with a temperature sensor, the temperature sensor of the forced radiator cooling system is located on the radiator base, temperature sensors of other systems forced cooling are located inside the respective cooled volumes, and the forced cooling system of the internal volume contains um, at least one fan heater and at least one supply fan located opposite the outlet of the third duct with a filter element located on the inside of the cabinet door opposite the inlet for intake of ambient cooling air, and the outlet of the roof is located with sides of the cabinet door, and the fan heater is located on the panel for attaching the controls, protection and alarm.