DE102008001717A1 - Method and device for treating a rechargeable battery - Google Patents

Abstract

In a method for treating a rechargeable battery, a rechargeable battery characteristic of the rechargeable battery is detected (101). A comparison value for the accumulator characteristic is read from a memory device (102) or calculated by means of one or more values read from the memory device (18; 28; 38). The accumulator characteristic is compared (103) with the comparison value to obtain a comparison result. It is decided (104), depending on the comparison value, whether the accumulator is suitable for charging.

Description

The The present invention relates to methods for treating a Accumulator, in particular for charging or discharging an accumulator, as well as computer programs and devices for treating a Battery.

always more electrical and electronic devices become exclusive or optionally powered by accumulators with electrical power. Examples are in addition to mobile communication and information technology power tools for drilling, grinding, screwing, sawing etc. The accumulator, often called a rechargeable battery, one or more Secondary cells are usually mechanically detachable and electrically connected to the power tool. For loading is the accumulator was taken from a power tool and mechanically and electrically connected to a charging device. Alternatively it stays the accumulator also while charging with the power tool connected, with the power tool directly or via a Cable is connected to the charger.

The Capacity of a rechargeable battery decreases over its lifetime usually off. The accumulator can therefore less and less electric Save energy. This increases the risk that the accumulator at an unexpected time for the user or user is empty. The internal electrical resistance of a rechargeable battery decreases in the course of its life usually too. This decreases the ability to give off high currents. Furthermore, the risk of overheating increases of the accumulator during charging and especially during the discharge or the power output to a power tool. A Aging of a rechargeable battery therefore not only has a comfort disadvantage for its users, but also an increasing security risk result.

The DE 10 2005 020 356 A1 describes a charging device with a measuring unit for detecting a battery characteristic and a computing unit for determining an age-specific charging mode.

A Object of the present invention is to provide a safe and to allow comfortable use of a rechargeable battery by a user.

These Task is through procedures, a computer program and devices according to the independent claims solved.

further developments The present invention is defined in the dependent claims Are defined.

Various Embodiments of the present invention are based on the idea during or near the charging process of a battery or during or near to the removal of electrical power from an accumulator to determine its state of aging and then either charging or withdrawing power without restriction to allow or if detected excessive Aging of the accumulator charging or the removal of power not to perform. Alternatively, a user on the advanced aging of the accumulator pointed out or a recommendation pronounced to no longer charge the accumulator.

at a method for treating a battery is first an accumulator characteristic of the treatment to be treated Accumulator detected. From a digital or analog memory device becomes a comparison value for the accumulator characteristic read. The accumulator characteristic is with the Comparison value compared to obtain a comparison result. Depending on the comparison result, it is decided whether the accumulator is suitable for a store.

The Accumulator characteristic may, for example, during and / or after charging the accumulator or before, during and / or after a discharge of the accumulator be recorded. The steps of comprehending, reading, comparing and deciding, for example, from a loader or from a device powered by the accumulator is supplied, executed. Subsequently to the Deciding if the accumulator is suitable for a store is the accumulator in a preferred embodiment only charged if the accumulator suitable for charging is. Additionally or alternatively, the result of the decision a user or user of the accumulator optical, acoustic or otherwise signaled.

Further the accumulator may additionally or alternatively as for a store will be marked unsuitable. The mark becomes, for example during or after removal of electrical power from the accumulator set or changed by a device and before the Next store read from a loader, after which the charging device charges the accumulator only when the mark indicates that the accumulator is suitable for this purpose. Alternatively or additionally, the marking becomes at or after the charging of the accumulator by a charger or set changed, with a device only electric Remove power from the accumulator when the marker indicates that the accumulator for a predetermined power extraction suitable is.

A Such marking may be mechanical, optical, electronic or be detectable mark in another way. The mark of the Accumulator can at a later time by a Charging device are detected, then the accumulator only loads when the marker indicates that the accumulator is suitable for a shop.

at A variant of the present invention is alternatively or additionally for deciding on the suitability of the accumulator for a loading on a suitability of the accumulator for a predetermined power output decided. Accordingly set or changed a mark of the accumulator indicating whether the accumulator is for a predetermined time Power output is suitable. The marker will be in this case detected by a device that only then power out takes the accumulator when the mark indicates that the Accumulator suitable for the predetermined power output is.

The The present invention is as a method or as a computer program with program code for carrying out such a method, if the computer program is on a computer or a processor expires, implementable. Furthermore, the invention is as Computer program product with on a machine readable carrier, for example, a ROM, EPROM, EEPROM or Flash memory, a CD-ROM or DVD or a floppy disk or hard disk, or in the form of firmware stored program code to carry out of one of the said procedures when the computer program product on a computer, computer or processor expires, implementable. Furthermore, the present invention can be used as a digital storage medium, for example, ROM, EPROM, EEPROM or Flash memory, CD-ROM or DVD or floppy disk or hard disk, with electronically readable Control signals, so with a programmable computer or Processor system can interact that one of the implemented method is implemented become. Furthermore, the present invention can be used as a charging device for charging a rechargeable battery or as a device from the rechargeable battery electrical power, to be implemented, the charging device or device is designed to one of the methods described or wherein the loading device or the device a Computer program, a computer program product or a digital Storage medium as described in this paragraph.

Examples for accumulator characteristics are the capacity, the internal resistance, the charge or discharge curve (for example the voltage U (Q) as a function of the charge Q) and variables derived from the charge or discharge curve as well as combinations (products, quotients or other functions) the same. The shifted during loading or unloading in the accumulator Charge can be determined by adding voltage to a precise shunt resistor falls, measured, the current calculated and integrated becomes. Without using a shunt resistor, one can out of the accumulator removed current, for example, from the voltage and the speed a powered from the accumulator with electric power engine be calculated.

One Comparison value for the accumulator characteristic For example, in the charger, in the accumulator or in a device, from the accumulator electric power relates, stored or stored. If the comparison value stored in the accumulator, have the accumulator and the charging device or the device using electrical power from the accumulator is to be supplied, facilities for optical, electrical, mechanical or otherwise transferring the reference value from Accumulator to the charger or to the device. If the comparative value in the loading device and / or in the device, to provide the electrical power to the accumulator is, is stored and the charging device or the device not only to operate with a single type of accumulator, Furthermore, devices for optical, electrical, mechanical or other identification of the accumulator or of the accumulator type. However, there are also embodiments of the present invention, in which required by the for loading and unloading electrical contacts apart from any other facilities optical, electrical, mechanical or other type of transmission information between the accumulator and the charging device or the device are provided.

An advantage of some embodiments of the present invention is that charging of over-aged accumulators can be rejected or prevented. Thereby, a user's dissatisfaction with an insufficient energy content or performance of an aged battery can be prevented. It also reduces the risk of excessive heat build-up and resulting fire and the risk of unexpected power failure of a safety-related device. In addition to excessive aging of a rechargeable battery, damage or other defects of the rechargeable battery are detected at the same time and the resulting risks and dangers are prevented or at least diminished.

Some Embodiments of the present invention have the Advantage that costs of electronics in the accumulator or completely saved in the loader or at least be reduced. By eliminating the Requirement of housing electronics in the accumulator can be saved there in addition to manufacturing costs and space. At the same time the sensitivity to electrostatic discharges, moisture, Shakes and other external influences reduced. The advantages mentioned exist, for example, if a device that supplies electrical power through an accumulator is due to an excessive voltage drop during the removal electrical performance or other criteria Aging of the accumulator recognizes and the accumulator accordingly marked. This marker may later be from a loader then refuses to charge the battery without itself Devices for detecting characteristics of the To have to have accumulator.

following Various embodiments will be described with reference to the attached Figures explained in more detail. Show it:

1 a schematic representation of a charging device and a rechargeable battery;

2 a schematic representation of an accumulator and powered by the accumulator with electrical power device; and

3 a schematic flow diagram of a method for treating an accumulator.

1 shows a schematic representation of a charging device 10 with electrical contacts 11 , a signal transmission device 12 , a charging circuit 13 , a processor 14 , a power cord 17 , a storage device 18 and a signaling device 19 , Furthermore, in 1 an accumulator 20 with electrical contacts 21 , a signal transmission device 22 and a storage device 28 shown. The processor 14 is with the signal transmission device 12 , the charging circuit 13 , the storage device 18 and the signaling device 19 coupled. The charging circuit 13 is also with the electrical contacts 11 and the power cord 17 connected. The signal transmission device 22 of the accumulator 20 is with the storage device 28 coupled.

In 1 are the loader 10 and the accumulator 20 shown so that the electrical contacts 11 and the signal transmission device 12 the loader 10 the electrical contacts 21 and the signal transmission device 22 of the accumulator 20 are opposite. When compared to the representation in 1 further reduced distance between the loader 10 and the accumulator 20 touch the electrical contacts 11 the loader 10 and the electrical contacts 21 of the accumulator 20 and form conductive connections between the charging circuit 13 and the charger 10 on the one hand and the two poles of a secondary cell or a series connection of secondary cells of the accumulator on the other. When the signal transmission device 12 the loader 10 and the signal transmission device 22 of the accumulator 20 are also formed as electrical contacts, these touch and form an electrically conductive connection between the processor 14 the loader 10 and the storage device 28 of the battery mulators 20 , In this relative arrangement of the charging device 10 and the accumulator 20 can the accumulator 20 through the loader 10 be charged or unloaded. At the same time, there is an exchange of information between the processor 14 the loader 10 and the storage device 28 of the accumulator 20 possible.

2 shows a schematic representation of the already above with reference to 1 illustrated accumulator 20 and a device 30 which is designed to pass through the accumulator 20 to be supplied with electrical power. The device 30 For example, a cordless screwdriver, a cordless drill or other tool that due to a power supply from the accumulator 20 mobile is used. The device 30 includes electrical contacts 31 , a signal transmission device 32 , a processor 34 , a storage device 38 , a signaling device 39 and more elements in 2 are not shown. The processor 34 is with the signal transmission device 32 , the storage device 38 and the signaling device 39 coupled.

Similar to the electrical contacts 11 and the signal transmission device 12 the above based on the 1 illustrated loading device 10 are also the electrical contacts 31 and the signal transmission device 32 the device 30 arranged so that they at a predetermined relative arrangement of the accumulator 20 and the device 30 partially touching each other and electrically conductive connections between a secondary cell or a series circuit of secondary cells of the accumulator 20 on the one hand and the device 30 on the other hand, as well as between the processor 34 the device 30 on the one hand and the memory device 28 of the accumulator 20 on the other hand.

The storage device 28 of the above hand of 1 and 2 illustrated accumulator 20 is, for example, a ROM, EPROM, EEPROM, flash, or other, preferably non-volatile digital memory or a capacitor or resistor device with fixed or variable capacitance or with fixed or variable resistance value. As will be explained in more detail below, in the memory device 28 Information that the accumulator 20 or a type or type of accumulator 20 identified, or stored a comparison value for an accumulator characteristic. When the storage device 28 of the accumulator 20 a capacitor, a resistance device, a resonant circuit or other electrical device or a circuit of electrical or electronic components, the identity of the accumulator 20 , type or design of the accumulator 20 or the comparison value may be encoded in a capacitance, a resistance value, a resonant frequency, or another electrical characteristic.

The signal transmission devices 12 . 22 . 32 the loader 10 , the accumulator 20 and the device 30 may alternatively or additionally be formed, for example, for an optical or mechanical signal transmission or for a signal transmission by means of electromagnetic waves. For example, the storage device 28 as a recess in one of the loading device 10 or the device 30 facing surface of the accumulator 20 be formed, the lateral dimensions and / or depth of the identity of the accumulator 20 , the type or the type of accumulator 20 or the comparison value encoded. In this case, the signal transmission devices 12 . 20 . 32 the loader 10 and the device 30 Means for detecting one or more lateral dimensions or the depth of the recess.

Hereinafter, several embodiments of a method for treating the above based on the 1 and 2 illustrated accumulator 20 , in particular for loading and unloading, based on 3 shown. The 3 shows a schematic flow diagram of such a method. Although the methods set out below are also applicable to charging devices, storage batteries, and electric power storage batteries, different from those described above with reference to FIGS 1 and 2 are distinguished, the reference numerals from the 1 and 2 used to facilitate understanding. For example, a battery other than in the 1 and 2 alternatively, during a charging process, remain in a device which is to be supplied with electrical power from the rechargeable battery.

All the methods presented below is a first step 101 mean, in which one or more accumulator characteristics are detected. For example, by measuring the output voltage of the accumulator 20 at several different charging or discharging currents, the internal resistance of the accumulator 20 detected. Alternatively or additionally, at a predetermined current, the voltage at the output of the accumulator 20 detected. Alternatively or additionally, by measuring and integrating the current during an entire charging or discharging process in the accumulator 20 recorded shifted cargo. These quantities may be related to one another and / or to a temperature of the accumulator detected, for example, by means of a temperature sensor 20 be set. Look-up tables or mathematical functions or relations can be used for this purpose. The accumulator characteristic or accumulator characteristics obtained in this way are selected or formed in such a way that they provide the greatest possible information about an aging state of the accumulator 20 , in particular its capacity and ability to deliver high performance.

The following steps will now be described first for a first embodiment of the method. In this embodiment, the accumulator characteristic in the first step 101 through a loading device 10 detected.

In a second step 102 becomes a comparison value for the accumulator characteristic from a memory device 18 the loader 10 read or by one or more of the memory device 18 calculated values. In the case of a calculation of the comparison value, one or more of the memory device 18 For example, read values as coefficients in an equation or formula. As a result, for example, a temperature compensation is possible. When the charger 10 exclusively for interaction with a single accumulator 20 or a single accumulator type, which has defined properties in the new state, for example a defined capacitance and a defined internal resistance, may be formed in the memory device 18 the loader 10 only one or more comparison values for this one accumulator 20 or one Akkumulatortyp be stored.

When the charger 10 for interaction with several accumulators 20 or with a plurality of accumulator types which already have different accumulator characteristics when new, is in the memory device 18 the loader 10 a corresponding plurality of comparison values or a corresponding plurality of sets of comparison values placed. In this case, in the second step 102 first with the charger 10 connected accumulator 20 or the type of the charger 10 connected accumulator 20 identified. This can be done, for example, by an input from a user, by reading out a memory device 28 of the accumulator 20 , by RFID technology or otherwise. Subsequently, depending on the detected identity, the assigned comparison value (s) from the memory device 18 the loader 10 read.

When the charger 10 for interaction with a plurality of different accumulators 20 or a plurality of different Akkumulatortypen, can in the second step 102 alternatively, the or the comparison values from a memory device 28 of the accumulator 20 be read out.

In a third step 103 become the first step 101 recorded accumulator characteristic or in the first step 101 recorded accumulator characteristics with the second step 102 read in the comparison value or in the second step 102 compared comparison values. For example, charge Q and voltage U of the accumulator 20 compared with a comparison charging curve Q (U).

In a fourth step 104 depends on the result of the comparison in the third step 103 decided whether the accumulator 20 can be loaded or is suitable for a shop. If the comparison in the third step 103 shows that the accumulator 20 For example, due to a reduced capacity or an increased internal resistance, no longer for a safe and comfortable use with a device 30 is suitable, in the fourth step 104 decided that the accumulator 20 no longer suitable for a store.

In an optional fifth step 105 will be the fourth step 104 decision signaled to a user. This is done for example by a glow, the color of a light or a temporal variation of the brightness of a light emitting a luminous diode, by ejecting the battery 20 from the loader 10 or by some other optical or acoustic means.

In an optional sixth step 106 becomes the accumulator 20 marked or changed a mark of the accumulator. As a marker, for example, in a storage device 28 of the accumulator 20 information is stored which indicates whether the accumulator is suitable for charging. If, for example, the accumulator characteristic or the accumulator characteristics in the first step 101 can only be detected during or after a completed charge, with the in the sixth step 106 set mark prevents the accumulator 20 is loaded again. A simple example of marking the accumulator 20 is a burnout of a coding resistor or a lead to a coding resistor.

If the accumulator 20 in the sixth step 106 has been marked, the marker may be in a seventh step 107 be recorded. This seventh step 107 is executed, for example, when the accumulator 20 again with a charger 10 is connected to be loaded.

In an eighth step 108 becomes a charging of the accumulator 20 allowed or prohibited. If the accumulator characteristic or the accumulator characteristics in the first step 101 can also be detected at the beginning or during a load, can also be the second step 102 , the third step 103 , the fourth step 104 and the eighth step 108 be executed immediately afterwards. In this case, another charge of the accumulator 20 prevented if he is no longer suitable for it.

When the first step 101 , the second step 102 , the third step 103 , the fourth step 104 and the sixth step 106 only during or after charging the accumulator 20 can be performed, the seventh step 107 and the eighth step 108 at the beginning of a reload. In this case, recharging the accumulator 20 through the loader 10 stopped when the accumulator 20 marked as no longer suitable for a store.

The execution of the steps described is for example by a processor 14 the loader 10 controlled, directly or indirectly with the charging circuit 13 , the storage device 18 and the signaling device 19 the loader 10 and with the storage device 28 of the accumulator 20 is coupled to control them or to write information in this and to read from this.

In another embodiment of the method, the accumulator characteristic or the accumulator characteristics become in the first step 101 through a device 30 detects the electrical power from the accumulator 20 refers. For this purpose, the device detects 30 for example, by means of a shunt resistor and from the voltage dropping on this from the accumulator 20 flowing electricity. Alternatively, this current may be, for example, from that of the accumulator 20 provided voltage and the speed of one with electric Power from the accumulator 20 driven electric motor before direction 30 be determined. From measured at different load conditions currents and voltages of the internal resistance of the battery can be determined. By integrating the current can in the accumulator 20 shifted charge can be determined.

The or the comparison values are in the second step 102 through the device 30 similar to the embodiment described above by the loading device 10 from a storage device 38 the device 30 or a storage device 28 of the accumulator 20 read. The third step 103 , the fourth step 104 and the sixth step 106 are similar to the embodiment shown above by the loading device 10 here through the device 30 executed. The seventh step 107 and the eighth step 108 in this case are from a charging device 10 executed when the accumulator 20 is associated with this to be loaded.

In all embodiments of the described method, in the memory device 18 the loader 10 , in the storage device 28 of the accumulator 20 or in the storage device 38 the device 30 further information is stored. This information can, for example, the state of charge of the accumulator 20 during the last load or charges in a loader 10 and at the last unloading operation (s) in a loader 10 or a device 30 shifted loads, the date or dates of the last loading and unloading operations and others the accumulator 20 include descriptive information. All this information can be used in the selection of the comparison value to be read in the second step 102 and / or in deciding whether the accumulator is suitable for charging, in the fourth step 104 be taken into account.

In a variant of the above-described embodiments of the method, the decision in the fourth step 104 that in the sixth step 106 set mark and in the seventh step 107 detected marking of the accumulator and the eighth step 108 not or not only on the suitability of the accumulator 20 for charging or charging, but alternatively or additionally to the suitability of the accumulator 20 for a predetermined power output.

In this variant, the fourth step 104 decided whether the accumulator 20 is suitable for a predetermined power output. The predetermined power output relates, for example, to that of the accumulator 20 Power to be delivered or to the battery 20 power to be delivered during a predetermined period of time or the time dependence of one of the accumulator 20 performance to be delivered. For example, the accumulator 20 nor for the generation of a torque up to a predetermined threshold by a cordless screwdriver or a cordless drill, for operation of a flashlight or other device that has low power or high power only for a very short time from the accumulator 20 As a result, it may not be suitable for it to be no longer suitable for generating a torque that is above the threshold, or a device that takes a high power or a high power from the battery for long periods of time. In this case, in the sixth step 106 the accumulator 20 provided with a mark indicating which power output of the accumulator 20 still suitable.

In the seventh step 107 then captures a device 30 that with the accumulator 20 is connected in the sixth step 106 generated mark. Depending on the detected mark, the device may 30 a user or user by means of a signaling device 39 or otherwise signal that the accumulator 20 for the device 30 no longer or only to a limited extent is suitable. Accordingly, in the eighth step 108 a power output of the accumulator 20 to the device 30 no more or only restricted.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• - DE 102005020356 A1 [0004]

Claims (14)

Method for treating a rechargeable battery ( 20 ), with the following steps: Capture ( 101 ) an accumulator characteristic of the accumulator ( 20 ); Read ( 102 ) of a comparison value for the accumulator characteristic from a storage device ( 18 ; 28 ; 38 ) or calculating a comparison value by means of one or more of the memory device ( 18 ; 28 ; 38 ) read values; To compare ( 103 ) the accumulator characteristic with the comparison value to obtain a comparison result; Decide ( 104 ), whether the accumulator ( 20 ) is suitable for charging, or deciding whether the accumulator ( 20 ) is suitable for a predetermined power output, depending on the comparison result. Method according to the preceding claim, in which the accumulator characteristic is determined at least either before or during or after charging the accumulator ( 20 ) is detected. Method according to Claim 1, in which the accumulator parameter is determined at least either before or during or after a discharge of the accumulator ( 20 ) is detected. Method according to one of the preceding claims, in which the steps of detecting, reading, comparing and deciding on a loading device ( 10 ). Method according to one of the preceding claims, in which the steps of detecting ( 101 ), reading ( 102 ), of comparing ( 103 ) and the decision ( 104 ) of a device ( 30 ) to be carried out by the accumulator ( 20 ) is supplied with power. Method according to one of the preceding claims, further comprising the following step: loading ( 108 ) of the accumulator ( 20 ) only if the accumulator ( 20 ) is suitable for a shop. Method according to one of the preceding claims, further comprising the following step: extraction of power from the accumulator ( 20 ) only if the accumulator ( 20 ) is suitable for the predetermined power output. Method according to one of the preceding claims, further comprising the following step: signaling ( 105 ) of the result of the decision to a user of the accumulator ( 20 ). Method according to one of the preceding claims, further comprising the step of: marking ( 106 ) of the accumulator ( 20 ) is unsuitable for charging or for the predetermined power output when the accumulator ( 20 ) is unsuitable for charging or for the predetermined power output. Method for treating a rechargeable battery ( 20 ), with the following steps: Capture ( 107 ) a mark of an accumulator ( 20 ) by a loading device ( 10 ); Load ( 108 ) of the accumulator ( 20 ) through the loading device ( 10 ), if the marking indicates that the accumulator ( 20 ) is suitable for a shop. Method for treating a rechargeable battery ( 20 ), with the following steps: Capture ( 107 ) a mark of an accumulator ( 20 ) by a device ( 30 ); Supplying the device ( 30 ) with power from the accumulator ( 20 ), if the marking indicates suitability of the accumulator ( 20 ) for a predetermined power output. Computer program with program code for carrying out a method according to one of the preceding claims, when the program is stored on a computer or a processor ( 14 ; 34 ) expires. Contraption ( 10 ; 30 ) for treating a rechargeable battery ( 20 ), the device ( 10 ; 30 ) is designed to carry out a method according to one of claims 1 to 12. Contraption ( 10 ; 30 ) for treating a rechargeable battery ( 20 ), the device ( 10 ; 30 ) comprises a computer program according to claim 12 in the form of firmware or software.