WO2017190975A1 - Device and method for discharging at least one battery cell of a hand-held power tool - Google Patents

Abstract

The invention relates to a device for discharging at least one battery cell of a hand-held power tool, said device comprising a control unit, at least one sensor for measuring at least one measurement value, and at least one electrical load, wherein the at least one load can be connected to the at least one battery cell by the control unit in accordance with the measurement value of the at least one sensor. The invention further relates to a method for operating a device for discharging at least one battery cell.

Description

 description

title

Device and method for discharging at least one battery cell of a hand tool

The invention relates to a device for discharging at least one rechargeable battery cell of a hand tool according to claim 1, as well as a method according to claim 11.

State of the art

The use of rechargeable battery cells in battery packs of electric hand-held power tools, which are electrically charged via a mains connection, is particularly user-friendly due to the high flexibility in the work and allows great flexibility. In this way, it is also possible to work in the outdoor area or in hard to reach places without direct power supply with electric hand tool machines. Due to the simplification of the handling of hand tool machines by the use of rechargeable batteries, these are used today in large numbers. Common battery packs often have a plurality of connected in parallel and / or series connection, rechargeable battery cells or accumulators, for example

cylindrical lithium-ion cells on. The interconnected battery cells are connected to a monitoring electronics. The battery pack usually includes several battery cells, as well as a housing in which the battery cells are accommodated. The use of Li-ion cells as rechargeable batteries is considered to be safe in their application, however, it may for example lead to a critical condition of the battery pack in which it due to a thermal or mechanical action from outside or by incorrect use, such as overloading or overloading In the Li-ion cells, a continuous electrochemical reaction occurs, in which the Li-ion cells can inflame or even explode. The seriousness of the potential Explosion is dependent on the available, stored energy of the battery pack and thus of a state of charge of the battery pack.

Disclosure of the invention

The problem underlying the invention can be seen in proposing a device and a method which, in the case of a situation outside a specification of at least one battery cell of a battery pack, enables a rapid, controlled and, in the worst case, greatest possible discharge of a battery pack, in particular a battery pack in a handheld power tool. allows and thus minimizes an imminent danger by the at least one battery cell.

This object is achieved by means of the subject matter of independent claim 1 and independent claim 11. advantageous

Embodiments of the invention are the subject of each dependent

Dependent claims.

According to one aspect of the invention, an apparatus for discharging at least one rechargeable battery cell of a handheld power tool is proposed, comprising a control unit, at least one sensor for measuring a

Measured value, as well as at least one electrical consumer. The at least one consumer can be connected to the at least one battery cell by the control unit, depending on the measured value of the at least one sensor. This allows the control unit by reading at least one

Sensor detect whether there is a critical for the at least one battery cell situation. The control unit itself can also serve as a sensor and, for example, measure a voltage. The control unit can

For example, be a microcontroller or a computer unit. A voltage may be, for example, a rest voltage of the at least one battery cell or a battery pack. A battery pack usually consists of a plurality of battery cells that are electrically connected in series and / or in parallel so that they can operate or activate a specific electrical load, such as an electric motor or a heating unit. The control unit can check on the basis of an algorithm, a table, a simulation or the like, whether the at least one measured value to a critical situation that leads to at least one battery cell or if the battery cell is already in a critical situation. Preferably, there are a plurality of defined detection stages which are dependent on a risk emanating from the at least one battery cell. Thus, it may also be sufficient to set a charging process or an operation of a consumer, if the at least one battery cell is overloaded and thereby warms too much or too quickly. Depending on the detection level, a correspondingly fast or slow discharge of the at least one battery cell by the

Control unit to be initiated. This can be done directly by the control unit or by additional controlled by the control unit components. The

Discharging the at least one battery cell takes place with a defined

Amperage or power, depending on the type and number of

connected consumers. If the battery cell needs to be discharged as quickly as possible, all available electrical consumers are put into operation. Depending on the detection level, it may be sufficient to slowly discharge the at least one battery cell. In particular, this is intended to reduce the risk potential of at least one battery cell when the control unit registers or recognizes a critical situation or a future critical situation. The battery cell is discharged by connecting to at least one electrical load, thus reducing its potential for danger relative to its state of charge. For example, a critical situation or a critical condition may exist if the battery cell is outside its range

Specification or operating outside their normal operating conditions. This can, for example, fall below or exceed a

Be temperature range, be a strong vibration or a fall or extreme acceleration of at least one battery cell. Furthermore, the battery cell can also be exposed to overloading by a defective electrical consumer or a short circuit and thereby be exposed to an excessive discharge current. The at least one sensor can for example be arranged directly on a battery cell or in an area near the at least one battery cell. For example, an outside temperature of a battery pack can also be measured in order to be able to estimate or calculate a future heating inside the battery pack and thus be able to initiate an early discharge or deactivation of the at least one battery cell. According to a further embodiment of the invention, the device is arranged in a battery pack. As a result, the device is directly in contact with the at least one battery cell. In this case, the device can be integrated directly into a charging electronics or monitoring electronics of the battery pack. Thus, even older hand tool machines can be retrofitted with compatible battery packs with the device to increase the security of the battery pack. A direct integration of the device in a battery pack is also advantageous because at least one battery pack is used in addition to a used battery pack as a replacement to an uninterruptible

Enable workflow. This can happen when handling the battery packs that they can fall on a hard surface or from a greater height. Furthermore, the battery packs can also be damaged by moisture or corrosive substances. In this case, the device integrated in the battery pack can reduce the risk potential and prevent the user from using a damaged battery pack. As a result, otherwise, for example, an undamaged hand tool machine could also be thermally or electrically damaged by a damaged battery pack. Furthermore, the operation of damaged battery cells can still increase a degree of damage and cause an exothermic reaction of the battery cells.

According to a further exemplary embodiment of the invention, the device is arranged in a handheld power tool. The arrangement in one

Hand tool is independent of a battery pack. In a battery pack is usually only little space for additional electronics or more

Components. The arrangement of the device in a hand tool allows more freedom of design. In addition, larger consumers can be used to convert the electrical energy of the battery pack, which require more installation space. For example, larger ones

Power resistors are used with heat sinks.

According to a further embodiment, the device is in one

Loading device arranged. The device for discharging at least one battery cell can also be arranged in a charger or a charging station. It is advantageous that also already offered on the market or already used battery packs a test of the specifications can be subjected. Especially with old or used

Battery cells increase the danger of achieving a safety-critical condition. Furthermore, a battery pack can become very hot during a charging process and thus become unstable. The advantage here is that the charger or

Charging the risk of fire or damage during a

Charging process can reduce. A charger can be electrically connected, for example via an adapter with one or more battery packs. A battery pack can be used in a charging station, whereby by the

Inserting at least one electrical connection between the charging station and the battery pack or the individual battery cells is produced.

According to a further embodiment, the at least one consumer is arranged in the portable power tool, in the battery pack or in the charging device. Thus, at least one existing consumer can be controlled without additional effort and thus the state of charge of the at least one

 Battery cell be lowered. As possible electrical consumers, existing LEDs, existing workstation lighting or an existing radio transmitting device, such as Bluetooth, can be used in the battery pack, in the power tool or the charging device. Furthermore, consumers are like an existing identification LED, a display,

Transistors and resistors usable for balancing the

Battery cells in the battery pack or in the charger are already installed. Furthermore, additional electrical or electro-mechanical consumers can be used, which can be installed specifically for this purpose.

According to a further exemplary embodiment of the device, the at least one consumer is a passive or active component or component. In this case, the consumer may preferably be a power resistor, a coil or a throttle, an electric motor and the like. Semiconductor elements or

Capacitors can also be used. The decisive factor here is to be able to extract as much electrical energy as possible from the electrochemical store and convert it into other forms of energy, such as movement or heat, or in the form of capacitors into a protected or

transport separate area, for example, is less sensitive to heat or shock. According to a further embodiment, the at least one sensor is an acceleration sensor, a voltmeter, an ammeter, a position sensor, a barometer, a satellite-based position sensor such as GPS or a mobile radio receiver. The various sensors make it possible to detect the external environmental conditions, the battery pack, the handheld power tool or the charging device. This can be, for example, the temperature, a single voltage, an acceleration or an impact, a drop height or rapid pressure change or a geographical position. The

Geographic position could be satellite-based

Position sensor or mobile cell data can be determined or provided by a via a data network connected device. There may be geographic regions that are considered unsafe, for example, because there is no approval of the product or it is about

explosive areas, such as in mining or the

Chemical industry. When detecting a situation or external environment that is outside the specification of the device, the

Control unit in the battery pack, in the hand tool or the charger a controlled discharge of the battery cells are initiated. Furthermore, during such a recognized dangerous situation, further charging by the control unit could be prevented.

According to a further embodiment, the at least one consumer is connected to the at least one battery cell and actively decoupled by the control unit. This fulfills the function of an electric dead man's switch and increases the safety of the battery pack. If the control unit is not working properly or has no operating voltage, the battery pack will be discharged automatically. This always ensures that the emergency program for reducing a risk runs through the battery cells. This also happens without a correctly functioning control unit.

According to a further exemplary embodiment, the at least one consumer can be connected to the at least one battery cell by a switching device which can be controlled by the control unit. In this case, the control unit is connected to a switching device and can trigger the switching device. In this way, the control unit does not have to switch high voltages or currents. The switching device may include at least one transistor, a thyristor Relay, a semiconductor relay or the like. Combinations of serial or parallel circuit devices may also be advantageous. A switching device may in contrast to the control unit

be performed more efficient and already controlled by a low-performance control unit. As a result, the manufacturing cost of such a device can be reduced.

According to a further exemplary embodiment, the at least one consumer can be connected to the at least one battery cell by the control unit. This allows the control unit for low-power consumers such

Displays, LEDs or lights act as switches in addition to any switches themselves.

According to a further aspect of the invention, a method is provided for operating a device for discharging at least one battery cell. In a first step, at least one measured value is measured or determined by at least one sensor. By means of a control unit, the at least one measured value is evaluated and used to recognize a state or a situation which is relevant to the operating characteristic of the at least one battery cell. If a state is detected by the control unit that is outside a specification of the battery cell or will deviate from the specification in the future, the at least one battery cell is connected or deactivated with at least one electrical consumer. As a result, in the event of an imminent critical situation or a critical situation that has occurred, the at least one rechargeable cell can be discharged and so on

Risk potential can be reduced. In particular, the danger potential is caused by a reduction of the state of charge or by deactivating the at least one battery cell. When deactivated, the battery cell can be separated from potential consumers such that a renewed

 Commissioning is no longer possible to prevent further damage.

The following are based on highly simplified schematic

Representations preferred embodiments of the invention explained in more detail. Show here

1 is a schematic block diagram of a hand tool with a device according to a first embodiment,

2 is a schematic representation of a battery pack with a device according to the first embodiment,

Fig. 3 is a schematic representation of a connected to a battery pack

Loading device with a device according to the first

 Embodiment and

Fig. 4 is a schematic representation of a device according to a second

Embodiment.

In the figures, the same constructive elements each have the same reference numerals.

1 shows a schematic block diagram of an arrangement 1 or a handheld power tool 1 with a device 2 for unloading a

Battery packs 3 of the power tool 1 according to a first

Embodiment shown. The device 2 in this case has a first sensor 4, which is designed as a temperature sensor 4. Furthermore, the device 2 has a second sensor 6, which is designed as an acceleration sensor 6. The two sensors 4, 6 are electrically connected to a control unit 8. The control unit 8 may, for example, a

Microcontroller 8 or a computer unit 8 be. According to the

Embodiment, the microcontroller 8 in addition to the two sensors 4, 6 is also connected to battery cells 10 of the battery pack 3. As a result, the microcontroller 8 can measure an open circuit voltage or a voltage of the battery cells 10 directly or indirectly under load. Thus, the microcontroller 8 based on the measured temperature, voltage and acceleration within or outside the specification of the battery cells 10 a

Actuate switching device 12, which connects an additional electrical load 14 with the battery pack 3 to discharge the battery cells 10. The

Accu cells 10 are Li (lithium) ion cells. The consumer 14 is a power resistor according to the embodiment. Next to the

Consumer 14, the power tool 1 a regular Consumer 16, which is an electric motor 16 and can be electrically connected by a user by means of a manual switch 18 with the battery pack 3, so that the electric motor 16 starts. In this case, the microcontroller 8 can deactivate the switch 18, so that in the event of a critical situation of the

Batteries 10 these can not be damaged more and so a

Overload is prevented or a controlled discharge of the battery cells 10 can be initiated by the load resistor 14. This can also be signaled acoustically or optically to the user. 2 shows a schematic representation of a battery pack 3 with a

Device 2 according to the first embodiment. In contrast to FIG. 1, here the device 2 for discharging at least one battery cell 10 is integrated in a battery pack 3. In this case, the battery cells 10 are connected in series, so that the voltage of the battery cells 10 accumulates. The serially connected battery cells 10 are connected via the device 2 with a monitoring electronics 20 also integrated in the battery pack 3. The monitoring electronics 20 can, for example, check whether a charging device 22 or a

Hand tool 1 is connected and regulate the voltage or a discharge current of the battery cells 10.

FIG. 3 illustrates a schematic representation of a charging device 22 connected to a battery pack 3 with a device 2 for discharging at least one battery cell 10 according to the first exemplary embodiment. In contrast to the figures already shown, the device 2 is arranged in the loading device 22. About a charging electronics 24 optimized for the battery pack 3 current profile can be provided and the battery cells 10 are charged. Furthermore, the charging device 22 can communicate with the monitoring electronics 20 via the charging electronics 24. FIG. 4 shows a schematic representation of a device 2 for

 Discharging at least one battery cell 10 according to a second

Embodiment. The device 2 is designed according to the embodiment as an electronic deadman switch. In this case, the microcontroller 8 measures at an output 26, a voltage at point P. Through a resistor R and a capacitor C creates a damped RC element having a continuously decreasing voltage and by the microcontroller. 8 must be recharged at the output 26. For this purpose, the microcontroller 8 can also act on its outputs 26 with a voltage such as 3.3V and thus serve as a voltage source. If the voltage at the point P, for example, below 1.5V, the microcontroller 8, the voltage at its output, for example, raise to 3.3V and thus briefly charge the capacitor C. The capacitor C can also serve as a short-term supply of the microcontroller 8. Thus, the capacitor C can always be recharged by the microcontroller 8 with decreasing voltage at the point P. If the recharging or the provision of a voltage at the output 26 of the microcontroller 8 is interrupted, for example, by a malfunction of the microcontroller 8, the voltage at the point P drops to a critical range, for example below 0.7 V, then the

Lock transistor T3, so that the current provided by the battery pack 3 current flows through a transistor now conducting T2 via the load resistor 14 and discharges the battery pack 3. If the voltage provided by the microcontroller 8 is too high, a Zener potential of the Zener diode Z is generated

exceeded so that it becomes conductive and a transistor T1 is turned on and also discharges the battery pack 3 via the load resistor 14.

Claims

claims

1 . Device (2) for discharging at least one battery cell (10) of a handheld power tool (1), comprising:

 a control unit (8),

 at least one sensor (4, 6) for measuring at least one measured value,

at least one electrical consumer (14, 16),

characterized in that the at least one consumer (14, 16) of the control unit (8) depending on the measured value of the at least one sensor (4, 6) with the at least one battery cell (10) is connectable.

2. Apparatus according to claim 1, wherein the device (2) in a battery pack (3) is arranged.

3. Device according to claim 1, wherein the device (2) in a

Hand tool (1) is arranged.

4. Apparatus according to claim 1, wherein the device (2) in a

Charging device (22) is arranged.

5. Device according to one of claims 1 to 4, wherein the at least one consumer (14, 16) in the hand tool (1), in the battery pack (3) or in the charging device (22) is arranged.

6. Device according to one of claims 1 to 5, wherein the at least one consumer (14, 16) is a passive or active component or component.

7. Device according to one of claims 1 to 6, wherein the at least one sensor (4, 6) is an acceleration sensor, a voltmeter, an ammeter, a position sensor, a barometer, a satellite-based position sensor or a mobile radio receiver.

8. Device according to one of claims 1 to 7, wherein the at least one consumer (14, 16) with the at least one battery cell (10) is connected and by the control unit (8) is actively decoupled.

9. Device according to one of claims 1 to 8, wherein the at least one consumer (14, 16) with the at least one battery cell (10) by one of the control unit (8) controllable switching device (12, 18) is connectable.

10. Device according to one of claims 1 to 8, wherein the at least one consumer (14, 16) with the at least one battery cell (10) through the

Control unit (8) is connectable.

1 1. A method for operating a device (2) for discharging at least one battery cell (10) according to one of the preceding claims, comprising the steps:

 Measuring at least one measured value by at least one sensor (4, 6),

Evaluating the at least one measured value by a control unit (8),

 Detecting a state of at least one battery cell (10) on the basis of the at least one measured value,

 Deactivating the at least one battery cell (10) or connecting the at least one battery cell (10) to at least one consumer (14, 16, 20, 24) upon detection of a current or future state of the at least one battery cell (10) outside the specification of Battery cell (10).