RU2101829C1 - Storage battery charger - Google Patents

Abstract

FIELD: battery charging from single-phase or multiphase power supply with DC asymmetric current. SUBSTANCE: battery charger has controlled rectifiers, current-limiting sensors, variable resistor, valves, transformer with primary and secondary windings, rectifier built around diodes and capacitors, storage battery with discharge circuit, leads for connecting ac voltage supply, and control sources. EFFECT: provision for protection against overloads and short circuits and for automatic disconnection of controlled rectifiers. 8 cl

Description

 The invention relates to electrical engineering and can be used to charge a battery from a single-phase or multiphase AC network with direct or asymmetric current.

A device for charging a battery containing input and output terminals, a matching transformer, a key element based on a thermobimetallic element with a switch, a rectifying diode in the charging circuit and a signal lamp, a variable resistor, a heat insulating chamber in which the key element and a variable resistor are placed, at the variable resistor is connected in series with the rectifier diode of the charging circuit, the disconnecting element of the thermobimetal element is connected in series with the primary bmotkoy matching transformer, while the indicator lamp connected in parallel with the primary winding of the matching transformer [1]
The disadvantage of this device is the relatively low reliability caused by the use of a relatively unreliable contact element in the power circuits of the device, their relatively short service life, and also the relatively long duration of the battery charge due to the impossibility of regulating the charge current.

There is also known a device for charging a battery containing input and output terminals, a matching transformer connected to input terminals, a key element with a resistor connected in parallel, a rectifier diode, and a threshold voltage control circuit of a charged battery based on a rheostat voltage divider on a thyristor, a wire resistor , the key element is made on the basis of a thermobimetallic plate with a switch, while the wire resistor is wound on a bimetallic plate and connected in series with a rectifying diode and opening contacts of the switch [2]
A disadvantage of the device is also the relatively low reliability of the device caused by the presence of contact switching elements in the charge circuit, as well as the relatively long duration of the battery charge due to the impossibility of regulating the charge current.

Also known is the closest to the proposed device for charging an asymmetric current battery, containing a power transformer, controlled valves, a program control unit for these valves and current limiting resistances, the positive terminal of the battery is connected to the midpoint of the secondary winding of the transformer, and to common points in pairs and opposite controlled valves associated with the terminals of the secondary winding of the said transformer through current-limiting corresponding rotivleniya [3]
The disadvantage of this device is the relatively large power consumption of the device, especially with relatively large charging and discharge currents, relatively large mass and size characteristics of the device caused by the presence of magnetizing currents of the transformer and its magnetization, the possibility of inter-turn short circuits caused by the relatively long turn-off time of controlled valves (especially when using relatively high frequency AC voltage), low security devices from emergency conditions of the battery, for example, overcharging, relatively high density or low electrolyte, excessive gas generation, overheating of the battery, such as electrolyte, expansion of the sealed enclosure, short circuiting of the battery or relatively high magnetization of the transformer, overheating of the controlled valve and many others to failure of either the battery or the entire device, relatively large overall dimensions of the device and especially the transformer (or reactive elements of the device, the throttle when using it).

 The aim of the invention is to increase the reliability and substitution of the device, reducing the overall dimensions and power consumption.

 This goal is achieved by the fact that in a device for charging a battery containing a transformer (autotransformer), valves and controlled valves whose control terminals are connected to the corresponding first terminals for connecting the corresponding control sources, current sensors (limiters), terminals for connecting an AC voltage source and conclusions for connecting the battery, additionally introduced the first and second controlled resistance, and the corresponding conclusions of the primary winding transformer ki are connected to the terminals for connecting the AC voltage source through the first and second valves in series, the connection point of the same first terminals of the first and second valves, respectively, through the corresponding first and second series circuits from the corresponding controlled valves and the corresponding current sensors (limiters), forming counter-parallel connected circuits, and the corresponding connection points of the first conclusions of the corresponding serial The circuits of the controlled valves and the corresponding current sensors (limiters) are additionally connected to the corresponding second terminals for connecting the corresponding control sources through the corresponding (first and second) controlled resistances, the control terminals are connected to the corresponding second terminals of the current sensors (limiters) of their serial circuits, and the output terminals a transformer (or autotransformer) is connected to the input of an additional valve rectifier, the output terminals of which are connected to conclusions for connecting the battery either directly, or through a choke, or a reactor, or an additional sensor, or an indicator, or a control input, or an output, or an electromagnet winding, or their various combination. Also, the corresponding controlled resistance contains an additional control input connected or respectively connected to an additional or corresponding additional sensor, or indicator, or control input, or output, or electromagnet, or inductor, or control source, or reactor, or is made or, respectively, made in the form of an additional or corresponding additional or sensor, or indicator, or their various combination.

 Also, the corresponding controlled resistance contains or additionally contains an additional or corresponding additional output connected or respectively connected to the additional control or the corresponding additional control input of the corresponding (own) controlled valve.

 In addition, the fact that the corresponding controlled resistance contains an additional or corresponding additional output connected or respectively connected to the control or corresponding control input of the corresponding additionally entered controlled key (resistance), moreover, the corresponding connection point of the first outputs of the corresponding controlled valves and current limiters (sensors) additionally connected to the corresponding second terminal of its controlled valve through either the corresponding inputted managed key (controlled resistance), or through the corresponding additional inputted serial key from the corresponding inputted controlled key (resistance) and or an additional power source, for example, a pre-charged capacitor, or the corresponding additional output of the controlled resistance of its serial circuit, or additional or sensor, or indicator, or inductor, or reactor, or winding of an electromagnet, or I control general entrance, or exit, or their various combination (sequence).

 Also, the corresponding controlled resistance contains an additional or corresponding additional output connected or respectively connected to the control or corresponding additional control input of the corresponding additionally entered controlled (corresponding) key (resistance), moreover, the control terminal (main or additional) of the corresponding controlled valve is additionally not connected either to the second terminal of either the current sensor (limiter) or the controlled valve For its serial circuit through either the corresponding (corresponding) additionally entered (entered) controlled key (controlled resistance), or through the corresponding additionally entered serial circuit from the entered controlled key (resistance) and or an additional power source, for example, a pre-charged capacitor, or an additional the output of a controlled resistance (its serial circuit), or an additional sensor, or indicator, or a control input, or output, whether the throttle or reactor, or the electromagnet winding or different their totality (sequence).

 Moreover, the corresponding current sensor (limiter) contains an additional or corresponding additional control input connected or respectively connected to the control or additional corresponding control input or output, or controlled resistance, or additional or sensor, or indicator, or reactor, or inductor, or electromagnet or a controlled valve, or a battery, or a control input, or output, or is made or, respectively, made in the form of an additional or corresponding additional sensor, or their various combination.

 In addition, the corresponding current sensor (limiter) contains an additional or corresponding additional output connected or respectively connected to the control or corresponding additional control input of either a controlled key (resistance) or controlled resistance (its own or neighboring or all serial circuits), or controlled gate, or discharge circuit, or its or neighboring, or both its and neighboring sequential circuit.

 In this case, the valve or part of the rectifier valves is made in the form of parallel-connected valves and a capacitor.

 The achievement of the objectives of the invention is illustrated by the following.

 The controlled valve is turned on by connecting an AC voltage source to charge the battery, and the control source provides a pulsed control current of the control input of the controlled valve, is automatically turned off when the current of this controlled valve is more holding, and is automatically connected if it is present on the control terminals, when its power decreases current less holding (picking up), providing a low-current battery charge. In the event of a battery malfunction, for example, the power current is limited by the current limiter used, excluding the failure of controlled valves or a transformer or rectifier.

 When using two-operation controlled valves, as well as bidirectional controlled resistance, the substrate-drain of a field-effect transistor or additional valve allows providing the reverse (locking) current of the control input of the controlled valve to turn off the controlled valve, which allows to increase the switching frequency of each of the controlled valves, thereby reducing the overall dimensions reactive elements, especially a transformer, device.

 The use of additional capacitors also allows for asymmetric charge current of the battery, and also speeds up the process of turning on each of the controlled valves, especially when the output voltage of the secondary winding of the transformer is less than the voltage on the battery.

 The use of an additional output that matches the switching current of the controlled valve connected to the additional control input of (its) controlled valve allows for simultaneous supply to the various control inputs of the controlled valve, for example, an optical one connected to the most remote part of the structure of the controlled valve, and the optical signal allows provide simultaneously with irradiation generation in the structure, at a relatively large depth (thickness) and at a relatively large flange of carriers, photocarriers, practically without a delay inherent in the injection of carriers of the electric control input, which allows to increase the power current of the structure far from the connection point of the electrical input, as well as to increase the conductivity of the control electric input and away from the connection point of the electrical input, using photocarriers generated by the optical irradiator relatively short-wavelength parts of the spectrum of the optical output radiator, which can significantly reduce the turn-on delay time, uve ichit originally included area, reduce the power consumption of the control input of each of the regulation valve controlled valves, increase the maximum permissible rate of current rise when turned on, reduce the ON time of each of the controllable valves, thereby reducing the switching losses.

 The use of an additional control input of the corresponding controlled resistance connected to an additional sensor or indicator, or made in the form of either a sensor or indicator, allows you to automatically turn off the input of the switching signal from the control input of the corresponding controlled valve, ensuring the device is protected, or by changing the signal value, by adjusting the angle of inclusion of the corresponding controlled valve, adjust the magnitude of the charge current or exclude the magnet the transformer nullity or the asymmetry of the charge current of the battery, the use of a control input connected to an additional control source allows you to use a constant voltage source as an additional control source, and the control source to control the angle of the corresponding controlled valve, use this control input connected to the output polarity sensor input voltage, allows you to turn off the switching voltage during reverse polarity at the power terminals of the corresponding controlled valve.

 The use of an additional output connected to an additional controlled key (resistance) allows you to reduce the power current of the corresponding controlled valve or to ensure it is blocked by reverse current (voltage) of the cathode-anode or using an additional power source, for example, a pre-charged capacitor, or using a source an additional exit, thereby ensuring that the controllable valve is locked evenly over the entire area, eliminating the longest stage the control input to the control source of its stage of compression of the conductive channel into the cord, which is characteristic of locking the controlled valve at the control input of the control source, further locking by the control source minimizes the duration of the recombination of the excess charge in another (thicker) base of the controlled valve, which practically determines the duration of the shutdown of the controlled valve when locking by reverse current (voltage) power terminals (cathode-anode).

 The use of an additional switch (resistance) allows to reduce the power consumption of the control source, based on the use of a voltage drop at the current sensor (limiter) to increase the blocking current of the controlled valve.

 The use of a controlled current sensor (limiter), which reduces its conductivity when the controlled valve is turned off (locked), allows you to further reduce the power blocking, including reactive (controlled gate current, and increase the blocking current, increase the discharge and recharge time constant of an additional source, reduce the rate of increase of the direct voltage on the controlled valve when it is locked (turned off), reduce the overall dimensions.

 Using the additional output of the sensor (limiter) of the current, which, when the threshold (emergency voltage) voltage is exceeded, automatically switches on the controlled key (resistance) with a certain delay, allows you to automatically turn off the AC voltage source from the device and remember the signal.

 Thus, changing the set of essential features of the known device can increase the reliability of the device and its security, reduce its overall dimensions, especially the transformer, increase the maximum permissible switching frequency, reduce switching losses, simplify device management, etc.

Claims (8)

 1. Device for charging a battery containing a transformer or autotransformer, valves and controlled valves, the control terminals of which are connected to the corresponding first conclusions for connecting the corresponding control sources, current sensors (limiters), terminals for connecting an AC voltage source and conclusions for connecting the battery characterized in that, in order to increase reliability and reduce power consumption, the first and second controlled resistance, moreover, the corresponding terminals of the primary winding of the transformer are connected to the terminals for connecting the AC voltage source through the first and second valves connected in series, the connection point of the same first terminals of the first and second valves is additionally connected to the corresponding second terminals of the first and second valves, respectively, through the corresponding first and the second serial circuit of the corresponding controlled valves and the corresponding sensors (limiter j) current, forming counterclockwise connected circuits, the corresponding connection points of the first terminals of the corresponding serial circuits of the controlled valves and the corresponding sensors (limiters) of the current are additionally connected to the corresponding second terminals to connect the corresponding controlled sources through the corresponding first and second controlled resistances, the control terminals of which connected to the corresponding second conclusions of the sensors (limiters) of the current of their serial circuits, and the output one terminal of a transformer or autotransformer is connected to the input of an additionally introduced rectifier, the output terminals of which are connected to the terminals for connecting the battery either directly, or through a reactor or reactor, or an additional sensor, or an indicator, or a control input, or an output, or an electromagnet winding , or their various combination.  2. The device according to claim 1, characterized in that, in order to increase security, the corresponding controlled resistance contains an additional or corresponding additional control input connected or respectively connected to an additional or corresponding additional or sensor, indicator, or control input, or output or electromagnet, or inductor, or reactor, or control source, or is made or additionally made in the form of additional or corresponding additional or sensor, or indicator, or their various combination.  3. The device according to claim 1 or 2, characterized in that, in order to expand the functionality, the corresponding controlled resistance contains or additionally contains an additional or corresponding additional output connected or respectively connected to the additional control or the corresponding additional control input of the corresponding (own) controlled valve.  4. The device according to p. 1, or 2, or 3, characterized in that, in order to reduce the overall dimensions, the corresponding controlled resistance contains an additional or corresponding additional output connected or respectively connected to the control or corresponding control input of the additionally entered corresponding controlled key (resistance), and the corresponding connection point of the first terminals of the corresponding controlled valve and current limiter (sensor) is additionally connected connected to the corresponding second output of the controlled valve of its serial circuit through either the corresponding inputted controlled key (controlled resistance) or via the corresponding additionally introduced serial circuit from the corresponding entered controlled key (resistance) and / or an additional power source, for example, a precharged capacitor, or the corresponding an additional output of controlled resistance of its series circuit, or an additional sensor, or indicator, or inductor, or reactor, or winding of an electromagnet, or control input, or output, or their various combination (sequence).  5. The device according to one of claims 1 to 4, characterized in that, in order to reduce power consumption, the corresponding controlled resistance contains an additional or corresponding additional output connected or respectively connected to the control or corresponding additional control input of the corresponding additionally entered controlled corresponding key ( resistance), and the control terminal (main or additional) of the corresponding controlled valve is additionally connected either to the corresponding second terminal of either a current sensor (limiter) or a controlled valve of its serial circuit or through the corresponding input (input) controlled key (controlled resistance), or through the corresponding input serial circuit from the input controlled key (resistance) or additional power supply , for example, a pre-charged capacitor, or the corresponding additional output of controlled resistance (its series circuit), or additional sensor, or indicator, or inductor, or reactor, or winding of an electromagnet, or control input, or output, or their various sequence (combination).  6. The device according to one of claims 1 to 5, characterized in that, in order to increase reliability and reduce switching losses, the corresponding current sensor (limiter) contains an additional or corresponding additional control input connected or respectively connected to a control or additional control input or output or controlled resistance, or additional or sensor, or indicator, or reactor, or inductor, or electromagnet, or controlled valve, or battery, or control go or input, or output, or made or additionally made in the form of an additional or sensor, or indicator, or their various combination.  7. The device according to one of claims 1 to 6, characterized in that, in order to increase security, the corresponding current sensor (limiter) contains an additional or corresponding additional output connected or respectively connected to the control, or additional control, or the corresponding additional control input or a controlled key (resistance), or a controlled resistance, or a controlled valve, or a discharge circuit, or its or its neighboring, or its and its neighboring circuit.  8. The device according to one of claims 1 to 7, characterized in that, in order to accelerate the charge, the valve or part of the rectifier valves is made in the form of a parallel-connected circuit of a valve and a capacitor.