DE2651067A1 - Quick charging device for storage batteries - charges at first at high current and when given voltage is reached it charges with lower current - Google Patents

Abstract

The battery charging device has a mains transformer. There is a rectifier following it and a constant current source delivering the battery charging current. It has further a voltage sensitive switch for disconnection of quick charging when specified battery end-of-charge voltage is reached. When the signal of the end-of-charge voltage reaching is delivered, a timer (12) is started, which starts the battery (1) further charging the reduced current during a specified period.

Description

The device for quick charging of accumulators is with

a Kpntaktüberwachungseinrichtung provided that the proper Connection of the accumulator to the fast charger is monitored. Besides, the facility is for fast charging of accumulators with a temperature-dependent safety switch provided that if the battery to be charged is overheated, the Charging current interrupts.

PRIOR ART The invention is based on a device for Fast charging of accumulators according to the preamble of the main claim. When using such quick chargers for charging so-called sintered cells make sure that no overcharging occurs, as this overcharging will damage the device or destruction of the accumulator. An overload for sure To prevent the accumulator at different ambient temperatures, the Fast charging will be canceled when the battery is charged to about 80% is. Another quick charge would mean that the accumulator would no longer be could be switched off safely because the operating parameters of the accumulator would change due to self-heating. But if you break the charge at an 80% mg charged accumulator, its operating time is correspondingly shorter.

Advantages of the Invention The device according to the invention for rapid charging of accumulators with the characterizing features of the main claim has the advantage that the accumulator is charged to 80% by quick charging and that this provides a high level of security against overcharging of the accumulator. Subsequently, the accumulator is with a reduced charging current during a fully charged at the specified time interval.

The measures listed in the subclaims are advantageous Further training and improvement of the facility specified in the main claim possible. It is particularly advantageous if the battery is fully charged a charge retention current is supplied to the accumulator, which self-discharges of the accumulator compensated. Furthermore, it is particularly advantageous for cargo control, to use a temperature-dependent reference voltage to avoid overcharging the battery to prevent at different ambient temperatures. It is also particularly useful Use a contact monitoring device that ensures proper connection of the accumulator to the device for fast charging.

Furthermore, it is particularly advantageous if for security against Overloading a temperature-dependent safety switch is provided, which is used in an inadmissibly high temperature rise of the accumulator interrupts the charging current.

Monitoring the charge is made easier when the individual Processes during the charging process and the status of individual switching devices of the quick charger are displayed to the user.

Drawing An embodiment of the invention is shown in the drawing and explained in more detail in the following description.

The figure shows a block diagram of a device for rapid charging of accumulators.

Description of the Invention In the drawing is a charging device Accumulator 1 with a temperature-dependent resistor 2, in the present case an NTC thermistor. A mains transformer is used to charge the accumulator 1 3 provided, which is a rectifier 4 for rectifying the transformed mains voltage is downstream. The rectifier 4 has a switchable constant current source 5 connected, the charging current to the accumulator 1 via a reverse current diode 6 supplies. In addition, the rectifier 4 supplies a direct voltage to a voltage stabilizing device 7, which is connected to a temperature adjustment terminal 8. The voltage stabilization device 7 and the temperature adjustment device 8 provide a temperature-dependent reference voltage available, which is connected to a voltage-dependent switch 9 and a contact monitoring device 10 is created. The temperature adjustment device has the series connection of several diodes, the forward voltage of which changes over temperature. The mains transformer 3 is connected to a timer 72 via a rectifier 11, which after triggering by the voltage-dependent switch 9, a switching signal to the switchable constant current source 5 and to a display device 13. One temperature; dependent safety switch 14 is with the temperature-dependent Resistor 2 of the accumulator 1 connected, and also is connected to the temperature-dependent Safety switch 14 detects the ambient temperature of the accumulator 1 temperature-dependent resistor 15, which is in particular a thermistor, connected. The voltage-dependent switch 9 is in addition to the reference voltage from the temperature adjustment device the charging voltage of the accumulator is still supplied. In addition, the voltage is applied to a Terminal 16 of the contact monitoring device 10 supplied, which is also with the temperature-dependent resistor 2 of the accumulator is connected. The exits the voltage-dependent switch 9, the contact monitoring device 10 and the temperature-dependent safety switch 14 are with the switchable constant current source 5 connected.

In addition, the voltage-dependent switch 9 is the contact monitoring device 10, the temperature-dependent safety switch 14 and the accumulator 1 with the Display device 13 connected, each of the currently running processes or identifies the switching states of the individual switching devices.

There is also a short-circuit monitoring switch with the accumulator to be charged 17 connected, in the event of a short circuit at the output terminals of the quick charger the constant current source 5 switches off.

The mode of operation of the device described is as follows.

It is initially assumed that the accumulator 1 is discharged.

Then flows in when the device for quick charging is switched on relatively large current from the network transformer 3 via the rectifier t a die Otherwise antron source 5 and the reverse current diode 6 to the accumulator 1. In the switchable constant current source, switches are provided that Determine the respective charging current via resistors. The switches are convenient designed as a semiconductor switch. The reverse current diode 6 in the charging current leading The circuit branch is used to generate a reverse current when the fast charger is switched off from the accumulator 1 to prevent. Due to the relatively high charging current, which flows to the accumulator 1, the accumulator is charged relatively quickly, and its charging voltage increases. This charging voltage that the voltage-dependent switch 9 is supplied, is with the temperature-dependent reference voltage of the temperature adjustment device 8 compared. If it reaches the reference voltage, the voltage-dependent one switches Switch 9 from the high charging current and sends a signal to the timer 12, which the Constant current source 5 switches, which now instead of the high charging current is reduced Provides charging current to the accumulator 1 to be charged. The end-of-charge voltage of the Accumulator 1, in which the quick charge is ended, is chosen so that taking into account the temperature adjustment of the reference voltage of the accumulator is charged to about 80%. The now reduced charging current means that the Accumulator is charged normally. A common time value given by the timer 12 is determined to be around 1.5 hours. After this time interval has elapsed the reduced charging current, triggered by the timer 12, is also switched off, and for this only a charge retention current now flows to the accumulator 1, the approximately compensates for the self-discharge of the accumulator 1. The respective state of charge, So the quick charge, the charge with reduced Charging current or the charge with the charge maintenance current are shown on the display device 13 displayed.

To ensure proper charging of the battery 1 and in order to prevent overcharging, the quick charge device must be different Have safety devices.

The contact monitoring device 10 ensures that the correct Connection of the accumulator and the temperature-dependent resistor constantly monitored will. This is done by applying the voltage to terminal 16 to which the accumulator 1 is connected, is monitored. Is the voltage applied to terminal 16 above a reference voltage which is generated by the voltage stabilization device 7 and the temperature adjustment device 8 is formed, then this means that the terminal 16 and thus the device for quick charging by incorrect connection are not charged or not charged properly.

As a result, the constant current source 5 is not turned on, and a corresponding signal from the display device 13 indicates the incorrect one Connection of the accumulator 1.

If, on the other hand, the voltage at terminal 16 is below the Reference voltage or if the voltage is equal to zero, then there is a short circuit, for example by a connection between the terminals or by defective cells of the Accumulator, before. In this case, the short-circuit monitoring device the charging current is interrupted.

The temperature-dependent safety switch should switch off effect the charging of the battery, for example if the voltage-dependent Switch 9 should not work reliably. If the battery is overcharged 1 takes place, the accumulator heats up due to chemical processes inside. The accumulator temperature is determined with the help of the temperature-dependent Resistance 2 detected and in relation to the ambient temperature of the battery 1 set. The ambient temperature is determined with the help of the temperature-dependent resistor 15 determined. If the battery temperature exceeds the ambient temperature 15 the temperature-dependent safety switch indicates a predefined, impermissible value an output signal to the constant current source 5 and switches it off. So is the entire charging of the battery 1 prevented, and a destruction of the battery 1 will certainly be prevented. Also the function of the temperature-dependent safety switch 14 or a corresponding output signal are displayed with the aid of the display device 13 displayed.

The described timer 12 is expediently constructed as a counter, the one with counting pulses, which are derived from the mains frequency of the transformer 3 are, counts and the required switching operations at a certain count triggers With the device described for quick charging of accumulators is safe and reliable fast charging possible, the errors during charging, which can also be caused by defective accumulators, for example, reliably recognizes and accordingly to protect the accumulator or the fast charger charging interrupts. It is possible through temperature adjustment measures, too a full charge if the ambient temperature of the battery is unfavorable to achieve within a particularly short period of time and thereby the use to increase the number of cycles of the accumulator per day Blank page

Claims (10)

Claims 1. device for quick charging of batteries with a mains transformer, a downstream rectifier and a constant current source for delivering a battery charging current as well as with a voltage-dependent switch to switch off quick charging when a specified battery end-of-charge voltage is reached, characterized in that when the battery charge end voltage is reached output switching signal a timer (12) can be switched on, which during a predetermined time interval a further charging of the accumulator (1) with a reduced Charging current triggers. 2. Device according to claim 1, characterized in that the timer (12) after the time interval has elapsed, the charging of the accumulator (1) with reduced Charging current interrupts and that after switching off the reduced charging current a opposite this reduced charging current is further reduced charge retention current to the accumulator (1) is supplied to maintain its state of charge. 3. Device according to claim 1 or 2, characterized in that a voltage stabilizing device for forming a reference voltage at the output of the rectifier (4) (7) is connected, which is connected to a temperature adjustment device (8) is the reference voltage of the ambient temperature of the battery to be charged (1) adjusts, and that the output of the temperature adjustment direction (8) applied reference voltage anode a voltage-dependent component Switch ~ (9) is applied, which also controls the charging voltage of the Accumulator (1) is supplied. 4. Device according to claim 1 or 2, characterized in that a contact monitoring device (10) for monitoring the correct connection of the accumulator (1) is provided which has a comparator which the at a terminal (16) for the accumulator (1) applied voltage with the temperature-dependent reference voltage compares and at a significantly above the Reference voltage at the connection terminal (16) (unloaded output) prevents the charging current from being fed to the accumulator (1). 5. Device according to one of claims 1 to 4, characterized in that that a temperature-dependent safety switch (14) is provided, the one Having a comparator which has the resistance value of an accumulator (1) assigned temperature-dependent resistor (2) with the resistance value of the ambient temperature of the accumulator (1) comparing the temperature-dependent resistor (15) and if the battery temperature is significantly higher than the ambient temperature interrupts the supply of charging current to the accumulator (1). 6. Device according to one of claims 1 to S, characterized in that that the outputs of a constant current source supplying the charging current for the accumulator (1) (5) and / or the contact monitoring device (10) and / or the voltage-dependent Switch (9) and / or the timer (12) and / or the temperature-dependent safety switch (14) connected to a display device (13), in particular having light-emitting diodes are. 7. Device according to one of claims 1 to 6, characterized in that that a known counter is used as a timer (12), the clock of counting pulses, which are derived from the mains frequency of the mains transformer are, and when a predetermined count is reached, the switching signal for Disconnection of the reduced charging current 8. Device according to one of the claims 3 to 7, characterized in that the temperature adjustment device (in an has a known manner several diodes connected in series. 9. Device according to one of claims 1 to 8, characterized in that that a reverse current diode (6) is connected in a supply line of the accumulator (1). 10. Device according to one of claims 1 to 9, characterized in that that a short-circuit monitoring device (17) is provided, which when sinking the voltage at the terminal (16) below a predetermined reference voltage interrupts the charging current.