RU122212U1 - AUTONOMOUS POWER PLANT - Google Patents

Abstract

1. An autonomous power plant containing a generator of electrical energy, a rectifier-charger, the input of which is connected to the output of the generator of electrical energy, a battery pack, the input of which is connected to the output of the rectifier-charger, and a control controller, the input of which is connected to the output of the battery pack. batteries, and the first input-output is connected to the input-output of monitoring and control of the generator of electrical energy, characterized in that the control controller is equipped with a transceiver of remote control and monitoring signals associated with the remote control center for receiving control commands and transmitting data of the state of the autonomous power plant, when In this case, the power plant is equipped with an automatic oil change unit, the monitoring and control input-output of which is connected to the second input-output of the control controller, and the automatic oil change unit contains a container of clean oil connected through a tap of clean oil from the the oil outlet into the crankcase of the electric power generator engine, as well as the waste oil container, which is connected through the waste oil tap to the oil outlet from the crankcase of the electric power generator. ! 2. The device according to claim 1, characterized in that the generator of electrical energy is made in the form of a gas generator. ! 3. The device according to claim 1, characterized in that the electric power generator is equipped with remote fuel tanks connected to the electric power generator by a fuel supply pipeline.

Description

The utility model relates to electrical engineering and can be used in stand-alone power plants operating independently of a centralized power supply network.

Known diesel-electric station container design, containing two diesel-electric units, each of which includes a control panel of the unit and a power plant consisting of a diesel engine, functional technological systems, a sensor unit, an actuator unit, a parameter control unit, a speed correction unit motor shaft, alternator, generator voltage regulator and voltage correction unit, two panels for switching power supplies, switching unit and p distribution of AC electricity, consumers of three-phase and single-phase alternating current, auxiliary consumers of single-phase alternating current, power supply input unit, power line from an external power supply network, power line of external consumers, auxiliary power supply panel and fire alarm system with information and signal lines [RU 2345465, C1, H02K 7/18, 01/27/09].

The disadvantage of this device is the relatively low reliability during stand-alone operation in conditions of a possible irregular supply of fuel.

It is also known a device containing a microcontroller, which is connected to two control units, two diesel generators, two switches, a unit for predicting the load by ambient temperature, the input of which is connected to a temperature sensor, and the output is connected to the microcontroller, moreover, the input of each diesel generator connected to its control unit, and the output of each diesel generator is connected to the corresponding switch, the outputs of which are connected to the device bus [RU 109801, U1, F02B 63/00, 10.27.11]

The disadvantage of this device is the relatively low reliability during stand-alone operation in conditions of a possible irregular supply of fuel.

The closest in technical essence to the proposed one is a device containing an electric energy generator made in the form of a diesel engine, the output of which is connected to a synchronous generator, the output of which is connected to the load of the device, the control system, the output of which is connected to a diesel engine and a synchronous generator, is rectifier a charger, the input of which is connected to the output of the synchronous generator and to the control system, a buffer energy storage device, made in the form of a battery x batteries and the input of which is connected to the output of the rectifier-charging device, an autonomous inverter, the input of which is connected to the output of the energy storage buffer and to the control system of the controller, and the output is connected to the load of the device [RU 113885, U1, H02J 7/34, 27.02. 12].

The disadvantage of the device is the relatively narrow functionality when it is used autonomously, since it can only work in modes specified by its own, autonomous control system, and cannot be used in conditions where it is necessary to remotely change operating modes of the device, since the device does not have the corresponding technical opportunities. In addition, the device lacks automatic oil change, which is an important factor for the autonomous operation of the device.

The required technical result is to expand the functionality of the device during its autonomous operation by providing the ability to quickly change its operating modes by creating an arsenal of technical tools that allow you to monitor and control its operation from a remote control room, as well as to automatically change the oil.

The required technical result is achieved by the fact that, in the device containing the electric energy generator, a rectifier-charger, the input of which is connected to the output of the electric energy generator, a battery pack, the input of which is connected to the output of the rectifier-charger, and also the control controller, the input which is connected to the output of the battery pack, and the first input-output is connected to the input-output of the control and management of the electric energy generator, the control controller is executed n with the possibility of receiving control commands from a remote control room and transmitting to it the status monitoring data of an autonomous power plant, into which an automatic oil change unit has been introduced, the control-control input and output of which is connected to the second input-output of the control controller, and the automatic oil change unit contains a clean oil tank connected through a clean oil valve to the oil filler hole in the crankcase of the electric power generator, as well as a waste oil tank, which es waste oil valve connected to the excretory opening of the oil sump of the engine electric power generator.

In addition, the required technical result is achieved in that, the electric energy generator is made in the form of a gas generator.

In addition, the required technical result is achieved in that the electric power generator is equipped with remote fuel tanks connected to the electric power generator by the fuel supply line.

Figure 1 - functional diagram of an autonomous power station;

Figure 2 is a functional diagram of an oil change device.

Autonomous power station (figure 1) contains an electric energy generator 1, a rectifier-charger 2, the input of which is connected to the output of the electric energy generator, a battery unit 3, the input of which is connected to the output of the rectifier-charger 2, and the output is connected to the load devices, as well as a control controller 4, the first input-output of which is connected to the input-output of the control and control of the electric power generator 1, and the automatic oil change unit 5, the input-output of the control and control horn is connected to the second input-output of the control controller 4, configured to receive and transmit control commands from a remote control center and transmit data to it of monitoring the status of an autonomous power plant, due to the fact that the control controller 4 is equipped with a transceiver 6 of remote control signals and control and performed, in particular, as a modem of wired networks, for example, using the built-in Ethernet, RS-232, RS-485 interfaces, or as a modem of radio networks, for example, using a radio modem, GSM modem or ADSL modem.

The automatic oil change unit 5 (FIG. 2) contains a clean oil tank 7 connected through a clean oil valve 8 to an oil filler hole in the crankcase 9 of the electric energy generator engine, as well as a used oil tank 10, which is connected to the outlet oil through the used oil valve 11 the oil hole from the crankcase 9 of the drive of the electric power generator.

The control of the pure oil valve 8 and the waste oil valve 11 is performed by signals from the control controller 4, which also controls the oil level in these containers by the signals from the oil level sensors, which are equipped with a pure oil tank 6 and a used oil tank 9. The transmission and reception of control signals is carried out through communication between the control controller 4 and the automatic oil change unit 5, since the input-output of the control and control unit 5 is connected to the second input-output of the control controller 4.

The electric power generator 1 can be made in the form of a gas generator and is equipped with remote fuel tanks connected to the electric power generator 1 by a fuel supply pipe (not shown in the drawing), and the control controller 4 is equipped with a transceiver of remote control and control signals and is made, in particular , as a modem of wired networks, for example, using the built-in Ethernet, RS-232, RS-485 interfaces, or as a modem of radio networks, for example, using a radio modem, GSM modem or ADSL modem.

Autonomous power plant operates as follows.

The proposed autonomous power plant is a low-maintenance power plant with remote monitoring and control. Structurally, it is a module with a size of 1.2 × 1.2 × 1 m and can be installed on a chassis for delivery on the road, and in remote areas can be delivered by helicopter.

The main mode of operation of the power plant: the battery of unit 3 for several hours from the generator 1 of electric energy, made in the form of a gas generator. After charging to the required level, which is controlled by the control controller 4, the generator 1 is turned off and the consumer is supplied with stored electricity from the batteries of unit 3 with the generator 1 turned off. When the battery charge level is reduced to the minimum acceptable level, generator 1 is turned on to recharge the batteries of unit 3.

In addition, if necessary, remote control is carried out using the transmit-receive means of the controller 4 for controlling the operating modes of the generator 1 and the battery unit 3, for example, switching to a lower or higher (minimum and maximum) battery charge level, the operating mode of the generator 1, etc. . For this, the control controller 4 is equipped with a transceiver of remote control and control signals and is made, in particular, as a modem of wired networks, for example, using the built-in Ethernet, RS-232, RS-485 interfaces, or as a modem of radio networks, for example, using radio modem, GSM modem or ADSL modem.

On the remote control signal in the controller 4 sets the desired (or a changed allowable charge level). By communication of the control controller 4 with the battery unit 3, information on the battery charge level is received and the electric power generator 1 is controlled by comparing the current charge level with a predetermined one. When the regulated charge level drops below the allowable level by the signal from the controller 4, the generator 1 is turned on to recharge the rechargeable batteries of unit 3.

The generator 1 is equipped with an automatic oil change unit 5, the control and monitoring input of which is connected to the second input-output of the control controller 4, which controls the oil change procedure according to the established program or according to its modification, set by the signal from the control controller 4.

To ensure long-term uninterrupted operation of an autonomous power plant, the engine of the generator 1 is stopped to change the oil, for example, after 100 hours, for which an automatic oil change unit 5 is used, which replaces the used oil in the crankcase by the command of the control controller 1, which controls the clean valve 8 oil and a tap 11 of used oil, configured to control an electrical signal. At a signal from the controller 1 for a specified time, the valve 11 opens to drain the used oil. After draining the used oil also for a predetermined time, in accordance with the oil change program, the valve 8 for filling pure oil is opened and appropriate marks are made in the electronic operation log of the control controller 1.

Thus, due to the introduction of additional blocks and connections, the required technical result is achieved, which consists in expanding the device’s functionality, since by expanding the arsenal of technical equipment it provides autonomous operation with operational change of modes on command from a remote control station, as well as automatic oil change in the engine electric power generator.

Claims (3)

1. An autonomous power station containing an electric energy generator, a rectifier-charger, the input of which is connected to the output of the electric energy generator, a battery pack, the input of which is connected to the output of the rectifier-charger, and a control controller, the input of which is connected to the output of the battery pack batteries, and the first input-output is connected to the input-output of the control and management of the electric energy generator, characterized in that the control controller is equipped with a transceiver lump of remote control and control signals associated with a remote control room for receiving control commands and transmitting status data of an autonomous power station, while the power station is equipped with an automatic oil change unit, the control input and output of which is connected to the second input / output of the control controller, and the unit automatic oil change contains a clean oil tank connected through a clean oil tap with a filler hole in the crankcase of the electric power generator and as well as the waste oil tank, through which the waste oil valve connected to the excretory opening of the oil sump of the engine electric power generator. 2. The device according to claim 1, characterized in that the electric energy generator is made in the form of a gas generator. 3. The device according to claim 1, characterized in that the electric power generator is equipped with remote fuel tanks connected to the electric power generator by a fuel supply pipe.