RU2524355C1 - Uninterrupted power supply system - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: uninterrupted power supply system includes at least one storage battery, a consumer power supply system, a control unit, a unit of a starter mode, a unit of parallel operation with a network and other devices, a battery charging system including a unit of charging devices, a DC switching unit connected through an inverter unit and the unit of charging devices to the storage battery, and an AC switching unit connected through the unit of charging devices to the storage battery; the consumer power supply system includes a DC load switching unit connected through the converter unit to the storage battery, and an AC load switching unit connected through the inverter unit to the storage battery; the control unit is interconnected with the unit of charging devices, the inverter unit, each storage battery and each converter unit.

EFFECT: providing series or parallel power supply to several consumers of direct and alternating current of different voltages without using any additional transformer equipment.

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Description

An uninterruptible power supply system refers to the energy sector, in particular, uninterrupted power supply to various classes of consumers, and can be used to power private households in the event of natural disasters, as part of the structural divisions of the Ministry of Emergencies as the main source of energy supply when deploying mobile hospitals, as the main source of energy supply for exploration and search parties as the main source of energy supply for electrochemical protection systems, telemechanics systems, stations p dioreleynoy connection with the production and transportation of minerals.

The well-known "MOBILE SYSTEM OF AUTONOMOUS POWER SUPPLY" according to patent No. 106054 of December 16, 2010, publ. 06/27/2011, IPC H02J 15/00, comprising a wind generator, a converter of solar energy into electrical energy, storage batteries, the outputs of which are connected via a voltage inverter and a switchgear to the load, and a control unit, while a radio channel unit with a communication antenna connected to it is inserted to the control unit, the central control center and the wheeled chassis, equipped with fasteners for transportation by air, the batteries contain at least three sections, a wind generator and a solar converter energy into the electric is connected to the battery sections through the battery charge unit, the control input of which is connected to the output of the control unit, and the system case is made in the form of a trailer mounted on the wheeled chassis, while in the transport state of the system the wind generator is located inside the trailer; the inputs and outputs of the control unit are connected to the corresponding inputs and outputs of the control of the inverter and the switchgear.

The closest in technical essence is the “UNINTERRUPTED POWER SUPPLY SYSTEM" according to patent No. 78012 of 03.24.2008, publ. 10.11.2008, IPC H02J 3/28, containing electric power sources, including at least one renewable one - a solar battery, an electric power generator, an internal combustion engine with a fuel supply device, storage batteries, an accumulated energy voltage inverter, a power switch, load, control unit, characterized in that the connection of each renewable source of electricity to the battery is carried out through a voltage converter connected to the control unit, and the batteries are connected s through the inverter to the power switch, and the latter by the stabilizer - to the mains; fuel supply device - internal combustion engine - alternating current generator form a backup power circuit, the input of which is connected to the control unit, and the output - through the power switch - to the load; As a second renewable source of electricity used wind generator.

In the process of performing a number of tasks, for example, installing objects in conditions of relative remoteness from settlements, emergency recovery work, etc., often there is a need to use various equipment that consumes both direct and alternating current. In this case, it is often impossible to predict the specific place, time and mode of carrying out certain types of work, the types and quantity of equipment that will be required to perform the arising tasks, as well as the type and stability of the available current sources. The use of existing uninterruptible power supply systems implies the presence of additional devices for converting current to specific consumers, which increases the amount of equipment required for the implementation of tasks, and also requires special knowledge and skills for the layout, configuration and use of this additional equipment. In addition, the use of additional transformer equipment imposes a number of specific logistic requirements on the means of delivery of uninterrupted power supply systems to the place of their application. In this case, if work in conditions of remoteness from stable current sources is delayed in time, there is a need for timely charging of rechargeable batteries. It is advisable to charge the batteries to comply with the optimal charging mode from the most stable current source available. The use of existing uninterruptible power systems is extremely difficult in the case when the parameters of the current sources at the site of the tasks are not known, and also external conditions, such as weather, are not known. Thus, existing systems are highly specialized and involve the use of specific predefined current sources for charging batteries, and also do not allow parallel power supply of several direct and alternating current consumers of various voltages.

The objective of the proposed technical solution is to create a universal system of uninterrupted power supply, capable of accumulating electricity from most known sources of direct and alternating current and allowing both series and parallel supply of several consumers of direct and alternating current of various voltages in conditions of unstable power supply or its temporary absence without application additional transformer equipment.

The problem is solved by an uninterruptible power supply system containing at least one battery, a consumer power system, a control unit, a battery charging system including a battery charger, the battery charging system further comprising a DC switching unit connected via a converter unit and a battery charger unit; the battery charging system further comprises an alternating current switching unit connected through a battery charger unit; the power supply system for consumers includes a switching unit for a DC load connected through a converter unit to a battery; the consumer power supply system further includes an AC load commutation unit connected through an inverter unit to a battery; the control unit is interconnected with the charger unit, the inverter unit, each battery and each converter unit; the uninterrupted power supply system further comprises a starter mode unit connected to the battery and interconnected with the control unit; the uninterrupted power supply system further comprises a parallel operation unit with the network and other devices connected to the inverter unit and interconnected with the control unit.

The essence of the technical solution is illustrated in the drawing, where in Fig.1 is a diagram of an uninterrupted power supply system.

Figure 1 shows a rechargeable battery 1, a battery charging system 2, a consumer power supply system 3, a control unit 4, direct current sources 5, a direct current switching unit 6, a converter unit 7, a charging unit 7, alternating current sources 9, a switching AC unit 10, converter unit 11, switching unit 12 for direct current loads, direct current loads 13, inverter unit 14, switching unit 15 for alternating current loads, alternating current loads 16, starter mode unit 17, coupler 18 Llena work with a network and other devices.

The uninterrupted power supply system is as follows.

The uninterrupted power supply system contains interconnected at least one rechargeable battery 1, a battery charging system 2, a consumer power supply system 3, and a control unit 4. The batteries 1 are optionally lithium titanate. The battery charging system 1 comprises a DC switching unit 6 connected through a converter unit 7 to a charger unit 8. The converter unit 7 is optionally connected to the batteries 1. The battery charging system 2 also comprises an alternating current switching unit 10 connected to the charging unit 8. Charger unit 8 is associated with each battery 1. The consumer power system 3 includes a DC load switching unit 12 connected to each battery 1 through the converter unit 11. The consumer power system 3 also further includes an AC load switching unit 15 associated with the battery 1 through the inverter unit 14. The uninterrupted power supply system optionally includes a starter mode unit 17 connected to the battery 1 and the unit 18 pa allelic operation with the network and other devices associated with the inverter unit 14. The control unit 4 is interconnected with the charger unit 8, the inverter unit 14, each battery 1, the converter unit 11, the converter unit 7, the starter mode unit 17 and the parallel operation unit 18 with a network and other devices. The uninterrupted power supply system optionally includes a direct current wind generator and a solar module connected to the DC switching unit 6, as well as an internal combustion engine AC alternator, an alternating current wind generator connected to the switching unit 6 by alternating current. The consumer power supply system 3 optionally contains a 48 V DC load, a 24 V DC load, a 12 V DC load, contains a single-phase load of 220 V and a three-phase load of 380 V.

The uninterrupted power supply system operates as follows. The uninterrupted power supply system is delivered to the place of operation. Depending on the type of current consumed and the required voltage, the consumer is connected to one of the loads connected either to the DC load switching unit 12 or to the AC load switching unit 15. If necessary, the consumer can be connected to the block 17 of the starter mode. To supply direct current consumers, the current from the batteries 1 enters the converter unit 11, where it acquires the parameters necessary for supplying the consumer, from where it enters the consumer through the switching unit 12. For consumers of alternating current, direct current from the battery 1 enters the inverter unit 14, where it is transformed into alternating current with the necessary parameters and through the switching unit 15 is supplied to the consumer. To charge the batteries 1, depending on the type of current source available, an uninterrupted power supply system is connected either through the switching unit 6 for direct current, or through the switching unit 10 for alternating current. To charge the batteries 1 from the direct current source 5, the current through the switching unit 6 enters the converter unit 7, where it is stabilized, automatically converted and then passed through the corresponding charger of the unit 8, where it acquires the parameters necessary for charging the batteries 1. To charge the batteries 1 from sources 9 of alternating current, the current through the switching unit 10 for alternating current enters the corresponding charger of unit 8, where it is transformed into direct current and acquires the parameters necessary for charging batteries 1. Management of all processes is carried out using the control unit 4, which optionally also performs the function of monitoring the operation of all systems. The control unit 4 with DC sources at the input controls the converter unit 7 and, through communication with the unit 8 of the charging devices, issues a command for voltage and charge current. The control unit 4 also controls the voltage, temperature and charge-discharge current of each battery 1 and gives a command to turn them off when the maximum allowable charge-discharge level is reached. To increase the operating time of several batteries 1 integrated into the unit, the control unit 4 also performs a balancing function between them, which is carried out by increasing and decreasing the current to a specific battery 1. In addition, the control unit 4 controls the discharge starting mode. Also, the control unit 4 controls the parallel operation with the network, determining its parameters and adjusting to the correct operation. The control unit 4 also controls the operation of the inverter unit 14.

Due to the use of independently connected switching unit 12 of the DC load and the switching unit 15 of the load of alternating current, the uninterruptible power supply system can provide both series and parallel power to several consumers of direct and alternating current of various voltages. Due to the use of independently connected switching unit 6 for direct current and switching unit 10 for alternating current, the uninterrupted power supply system is able to accumulate electricity from most known sources of direct and alternating current at the same time. The presence of the control unit 4, which controls and synchronizes the operation of all the main components of the system, allows you to optimize the power supply processes of various consumers and energy storage from different sources. Thus, this system is universal and allows for the accumulation of electricity from most known, including renewable sources of electricity, while providing power to a wide range of consumers. The proposed uninterrupted power supply system allows you to work in concert with most well-known sources of electrical energy, including renewable sources of electrical energy (renewable photovoltaic modules, wind turbines AC and DC, geothermal, tidal, etc.) having different output voltage parameters, so and non-renewable (power line, ICE generator sets). An uninterruptible power supply system can function both independently and in parallel with the network. The proposed device is able to perform the functions of a cluster to create circuits of any power consumption, depending on the needs of electrical equipment. The device is able to work both autonomously, as the main power source, and in parallel with the network, smoothing consumption peaks, storing energy from alternative sources and delivering it to the consumer as needed, triggering automatically.

The technical effect of the proposed technical solution is the creation of a universal uninterrupted power supply system capable of accumulating electricity from most known sources of direct and alternating current and allowing both series and parallel supply of several consumers of direct and alternating current of various voltages in conditions of unstable power supply or its temporary absence without the use of additional transformer equipment, also with it is useful to perform the functions of a cluster, to create circuits of any power consumption depending on the need for electrical equipment, also capable of working both independently as a main power source and in parallel with the network, smoothing consumption peaks, storing energy from alternative sources and delivering it to the consumer as needed, automatically triggered by an uninterrupted power supply system containing at least one battery, a consumer power system, a control unit, a charge system tarei comprising a charger unit, wherein the battery system further comprises a switching unit DC coupled via a converter unit and a charger to the battery; the battery charging system further comprises an alternating current switching unit connected through a battery charger unit; the power supply system for consumers includes a switching unit for a DC load connected through a converter unit to a battery; the consumer power supply system further includes an AC load commutation unit connected through an inverter unit to a battery; the control unit is interconnected with the charger unit, the inverter unit, each battery and each converter unit; the uninterrupted power supply system further comprises a starter mode unit connected to the battery and interconnected with the control unit; the uninterrupted power supply system further comprises a unit for parallel operation with the network and other devices connected to the inverter unit and interconnected with the control unit.

Claims (4)

1. An uninterrupted power supply system comprising at least one rechargeable battery, a consumer power system, a control unit, a battery charge system including a battery charger unit, characterized in that the battery charge system further comprises a DC switching unit connected via a converter block and block of chargers with battery; the battery charging system further comprises an alternating current switching unit connected through a battery charger unit; the power supply system for consumers includes a switching unit for a DC load connected through a converter unit to a battery; The consumer power supply system further includes an AC load commutation unit connected through an inverter unit to a battery. 2. The uninterruptible power supply system according to claim 1, characterized in that the control unit is interconnected with the charger unit, the inverter unit, each battery and each converter unit. 3. The uninterrupted power supply system according to claim 1, characterized in that it further comprises a starter mode unit connected to the battery and interconnected with the control unit. 4. The uninterrupted power supply system according to claim 1, characterized in that it further comprises a parallel operation unit with the network and other devices connected to the inverter unit and interconnected with the control unit.