DE102011086873A1 - Inductive charging system for motor vehicle e.g. passenger car, has temperature management unit that obviates overheating or under-cooling of hand tool rechargeable battery whose charging process is supported by transport apparatus - Google Patents

Abstract

The inductive charging system (10) comprises a hand tool rechargeable battery (12) that is inductively charged. A hand tool transport apparatus (14) is provided for receiving the hand tool rechargeable battery and for supporting a charging process of the hand tool rechargeable battery. A temperature management unit (16) is provided to obviate an overheating and/or an under-cooling of the hand tool rechargeable battery.

Description

State of the art

There has already been proposed a system of a hand tool battery intended to be inductively charged and a hand tool case provided to receive at least the one hand tool battery and to assist a charging of the hand tool battery at least in the picked-up and, in particular, closed state ,

Disclosure of the invention

The invention relates to a system comprising at least one hand tool battery which is intended to be charged inductively, and a hand tool transport device which is provided to receive at least the one hand tool battery and to support a charging process of the recorded hand tool battery, in particular when the hand tool case is closed ,

It is proposed that the system has at least one temperature management unit which is provided to prevent overheating and / or undercooling of the hand tool battery. A "hand tool battery" is to be understood in particular an energy storage unit which is intended to cooperate with a hand tool to supply the hand tool with electrical energy. In particular, the hand tool battery is integrated in the hand tool. Preferably, the hand tool battery has at least one, preferably electrochemical, energy storage unit. In particular, the energy storage unit is designed as a lithium-ion battery, in particular as a lithium-polymer battery. By "intended" is intended to be understood in particular specially designed and / or equipped. In particular, the hand tool battery has at least one charging coil, which is intended to transmit energy, in particular to transmit and / or to receive. In particular, the charging coil of the hand tool battery is intended to receive energy from a corresponding charging coil of a charger and / or to send energy to a corresponding charging coil of a hand tool. Preferably, the at least one charging coil is arranged directly on a housing wall of the hand tool battery in order to ensure efficient energy transfer. In particular, the hand tool battery has electronics which are intended to convert current induced in the charging coil, in particular alternating current, into direct current and to supply the energy storage unit and / or convert direct current drawn by the energy storage unit into an alternating current and to feed it into the charging coil in order to transmit it , A "hand tool transport device" should in particular be understood to mean a device which is intended to transport at least one hand tool battery and preferably at least one hand tool. In particular, the hand tool battery is coupled to the hand tool. In particular, the hand tool transport device is intended to transport a plurality of hand tool batteries. A "hand tool case" is to be understood in particular as a suitcase designed hand tool transport device. In particular, the hand tool case is formed by at least one housing part, preferably at least two housing parts, in particular a bottom and a cover, which are preferably coupled via hinges. Alternatively, embodiments are conceivable in which the cover is intended to be released to an opening of the hand tool box from the ground. Furthermore, it is conceivable that the lid is inserted into a guide of the soil. The hand-held power tool case preferably has at least one interior structuring element which is provided at least for fixing receiving positions of the hand tool and / or of the at least one hand tool battery. In particular, the interior structuring element is at least partially intended to cushion accelerations of the recorded hand tool and / or of the recorded hand tool battery. In particular, the at least one interior structuring element is formed integrally with at least one housing part of the hand tool box. Alternatively, the hand tool transport device is designed as a tool belt, in particular as a crafting thigh pad. By the fact that the hand tool transport device "supports" a charging process of the hand tool battery is to be understood in particular that the recorded hand tool battery with an efficiency of at least 80%, preferably at least 90%, more preferably at least 95%, preferably at least 97%, can be loaded. Preferably, the interior structuring element is designed such that at least one of the recorded hand tool battery with its housing, in particular with a side on the inside of the charging coil is arranged directly on a housing wall at least one of the housing parts of the hand tool box is arranged to an inductive charge of the hand tool battery in the Support hand tool case. Alternatively, the hand tool transport device has at least one charging coil, in particular two charging coils coupled to one another. In particular, the charging coil of the hand tool transport device is provided to supply energy, which is supplied via an electrical contact of the hand tool transport device, to the charging coil of the hand tool battery. Alternatively, two charging coils of the hand tool transporting device are provided to receive an energy transmitted from a charging coil of a charging device on one of the charging coils and to emit on another of the charging coils so that they can be received by the charging coil of the hand tool battery. The term "received" should in particular be understood to mean that the hand tool battery or the hand tool is positioned in an insertion position of the interior structuring element arranged in at least one housing part of the hand tool box, in particular in the intended position. A "superheat" is to be understood in particular a temperature state in which a temperature of the hand tool battery a certain maximum temperature, in particular a value of at most 60 ° C, advantageously at most 50 ° C, preferably at most 10 ° C, by at least 3 ° C, in particular at least 5 ° C, preferably at least 10 ° C, preferably at least 15 ° C, exceeds. In particular, a maximum temperature is determined by chemical and / or physical properties, for example a boiling temperature and / or a decomposition temperature, of at least one material of the hand tool battery, which is preferably used for electrical energy transport and / or electrical energy storage, is therefore for example 50 ° C at a boiling temperature of an electrolyte of the energy storage unit of 60 ° C. A "supercooling" should in particular be understood to mean a temperature state in which a temperature of the hand tool battery falls below a minimum temperature of at least 3 ° C., in particular at least 5 ° C., advantageously at least 10 ° C., preferably at least 15 ° C. In particular, the minimum temperature has a value of at least -5 ° C, advantageously at least 0 ° C, more preferably at least 5 ° C, preferably at least 10 ° C on. The minimum temperature is in particular determined by a chemical and / or physical property, in particular a freezing temperature, preferably an electron and / or ion mobility, of at least one material of the hand tool battery, which is preferably used for electrical energy transport and / or for electrical energy storage. In particular, the temperature management unit has at least one heating component. In particular, the temperature management unit has at least one cooling component. In particular, the temperature management unit differs from a thermal insulation unit, which is formed in particular by insulating material. In particular, the temperature management unit is intended to be attached from the outside to the hand tool battery and, in particular, to surround the hand tool battery also for operation. In particular, the temperature management unit is intended to be exchanged for an alternative temperature management unit having elements adapted to other climatic and / or seasonal conditions. In particular, the temperature management unit is intended to be inserted in an inductive charge receiving area of a hand tool battery designed as a replacement battery instead of the hand tool battery. In particular, a system may have multiple temperature management units for different climatic and / or seasonal conditions. In particular, at least one of the temperature management units is provided to avoid only an undercooling. In particular, at least one of the temperature management units is provided to avoid only overheating. In particular, at least one of the temperature management units is provided to avoid both overcooling and overheating. In particular, it can be an efficient charge of the hand tool battery, in particular by adaptation to variable ambient temperatures, as in particular when storing the hand tool transport device with recorded Handwerkzeugakku in and / or on a motor vehicle, especially a car, a van and / or a van, or a car Trailer, especially in a cargo and / or trunk, especially in summer and / or winter and / or in certain climates, occur, can be achieved. In particular, it can be achieved that a temperature of the hand tool battery is sufficiently high to allow an efficient charging current. In particular, a high longevity can be achieved. In particular, destruction of components of the hand tool battery due to hypothermia and / or overheating can be avoided. In particular, rapid self-discharge due to excessive temperatures can be avoided. In particular, compliance with standards for operation and / or storage of the hand tool battery can be achieved. In particular, it can be achieved that the hand tool battery is in a charge-capable temperature state for a long period of time.

Furthermore, it is proposed that the temperature management unit is provided to actively influence at least one temperature of the hand tool battery. An "active" influence should in particular be understood to mean that the temperature management unit comprises at least one element which is intended to transfer one form of energy, in particular electrical energy, chemical energy and / or mechanical energy into another form of energy, in particular electrical energy, thermal energy, to convert chemical energy and / or mechanical energy to produce a heat flux. In particular, the temperature management unit has at least one temperature sensor, in dependence of which a heating unit and / or a cooling unit, in particular by a control and / or regulating unit, is activated or become. Alternatively, embodiments are conceivable that rely on passive generation of a heat flow. In particular, the hand tool case, in particular the interior structuring element, at least one channel, which is intended to allow a particular circular fluid flow, in particular air flow. In particular, the hand tool case has at least one opening through which the channel communicates with outside air, at least in the closed state of the hand tool box. In particular, the hand tool battery and / or parts of the interior structuring element which are in direct thermal contact with the hand tool battery have at least one cooling rib which is provided to deliver heat of the hand tool battery to an applied fluid, in particular air. A "cooling fin" is to be understood in particular as a constituent of a body having a surface which has a volume-to-surface ratio of not more than 6 mm, in particular not more than 2 mm, advantageously not more than 1 mm, preferably not more than 0, 5 mm. In particular, a cooling rib made of a material with high thermal conductivity, in particular a thermal conductivity greater than 10 W / (m · K), advantageously greater than 40 W / (m · K), particularly advantageously greater than 100 W / (m · K), preferably greater than 200 W / (m · K). In particular, the at least one channel is designed such that in a standard loading position of the hand tool case, in particular a stationary or lying position, the fluid is excited by heating and / or cooling, at the at least one cooling rib to a convection flow. Under that two elements are in "direct" thermal contact, should be understood in particular that between them a thermal transition coefficient of at least 1 mW / K (heat flow per Kelvin temperature difference), in particular at least 10 mW / K, advantageously at least 100 mW / K , preferably at least 1W / K. In particular, the temperature management unit has at least one heat pipe (heat pipe), which is arranged thermally between the hand tool battery and a heat sink arranged on an outer side of the hand tool transport device and / or on a channel of the hand tool box. In particular, an effective temperature influencing can be achieved.

Furthermore, it is conceivable that the temperature management unit is intended to be thermally charged, in particular by supplying a warm and / or cold medium, for example ice cubes and / or hot water, or by supplying heat radiation, in particular solar radiation. In particular, the temperature management unit has a storage container and / or a storage medium for this purpose.

It is also proposed that the temperature management unit has at least one electronic energy transport means. By an electronic energy transport means is meant in particular an element which is intended to convert electrical energy into at least one other form of energy in order to generate a heat flow. Preferably, the electronic energy transport means is in direct thermal contact with the hand tool battery. In particular, the electronic energy transport means is intended to generate a fluid flow which is intended to perform heat exchange with the hand tool battery and / or at least one thermally coupled directly to the hand tool battery to adjust the temperature of the hand tool battery. In particular, the electronic energy transport means is designed as a Peltier element, which can be used both for cooling and for heating. Alternatively, the electronic energy transport means as a fan and / or pump, preferably for cooling, and / or as an electrical resistance, preferably for heating, is formed. In particular, a structurally simple implementation can be achieved. Advantageously, an already existing electrical supply can be used for hand tool battery charging to supply the electronic energy transport means.

In a further development of the invention, it is proposed that the temperature management unit has at least one liquid-based energy transport means. Preferably, the liquid-based energy transport agent is in direct thermal contact with the hand tool battery. A liquid-based energy transport agent is to be understood in particular to mean an element which is intended to transport a liquid and / or to change its chemical and / or physical properties. In particular, the liquid is intended for oxidation, in particular combustion. Alternatively, a use of a liquid as a heat flow means, which is intended to conduct heat away from and / or to the hand tool battery, conceivable. In particular, an effective temperature influencing can be achieved.

Furthermore, it is proposed that the liquid-based energy transport means is provided to at least partially convert a liquid into a gas. In particular, the liquid-based energy transport means differs from a heat pipe. In particular, the liquid is formed by a highly compressed gas, for example CO ₂ , which is preferably stored in a pressure tank of the system. In particular, the liquid is intended to emerge as gas from a pressure vessel and through Relaxation, ie isenthalpe pressure reduction, to cause a cooling. Alternatively, by evaporating the liquid, in particular an alcohol, an alkane, ammonia, or other liquid which appears suitable to a person skilled in the art, in particular refrigerants, in particular assisted by a fan, cooling can be achieved. By burning alternatively heating can be achieved. In particular, the liquid-based energy transport means is designed as a diffusion absorption refrigeration machine, the thermal energy is supplied in particular by combustion of stored gas in the system and / or stored liquid. Alternatively, the diffusion absorption chiller, in particular via a heat exchanger, thermal energy from a cooling circuit, in particular liquid cooling circuit, an internal combustion engine, which is installed in particular in a motor vehicle, especially a car, preferably as a drive unit relate. Alternatively, an air conditioning system of a vehicle in which the system is stored can be used to provide a source of cold. In the event that supercooling is to be avoided, alternatively, the cooling circuit of the internal combustion engine can be used as a heat source to heat the hand tool battery. In particular, the liquid-based energy transport means is formed by a heat pipe. In particular, the hand tool battery has at least one opening which is provided, in particular when the hand tool battery is received in the hand tool transport device, to receive a heat pipe. In particular, an effective temperature influencing can be achieved.

It is also proposed that the temperature management unit is at least partially integrated into the hand tool battery. In particular, the hand tool battery has at least one electronic and / or liquid-based energy transport means, in particular a fan, an electrical resistor and / or a cartridge with compressed, in particular liquefied gas. In particular, the hand tool battery has at least one cooling fin and / or at least one channel for fluid conduction. In particular, the channel has connecting pieces, which are designed in particular as valves, in order to connect the at least one channel to components of the temperature management unit arranged outside the hand tool battery. In particular, at least one cooling rib is arranged in the at least one channel. In particular, an efficient temperature influencing can be achieved.

In a further development of the invention it is proposed that the temperature management unit is at least partially integrated into the hand tool transport device. In particular, the hand tool transport device has at least one electronic and / or liquid-based energy transport means, in particular a fan, an electrical resistor, a Peltier element and / or a cartridge with compressed, in particular liquefied, in particular combustible, gas. In particular, the hand tool transport device has at least one heat sink arranged on a channel and / or on an outside. In particular, the hand tool transport device has at least one cooling fin and / or at least one channel for fluid conduction. In particular, the at least one channel has connecting pieces, which are designed in particular as valves, in order to connect the channel to components of the temperature management unit arranged outside the hand tool transport device. In particular, a simple construction and / or a simple transport can be achieved.

Furthermore, it is proposed that the temperature management unit is at least partially designed as a holding device. A "holding device" should in particular be understood to mean a device which is intended to securely store the hand tool holding device, in particular in a motor vehicle, in particular in a boot, alternatively on a wall. In particular, the holding device is intended to be fixed, ie detachable only with tools, to be mounted on a wall and / or a floor, in a trunk or on a motor vehicle. Alternatively, montages in a workshop, in particular an unheated workshop, be conceivable. Preferably, the holding device has at least one charging coil which is provided to transfer energy to at least one charging coil of at least one hand tool battery accommodated in the hand tool transporting device. In particular, the hand tool holding device, in particular via a heat exchanger, is connected to a cooling circuit of the motor vehicle. Alternatively, the holding device has at least one LPG and / or liquid fuel tank. In particular, a simple supply, in particular with electrical energy, can be achieved.

drawing

Further advantages emerge from the following description of the drawing. In the drawing, an embodiment of the invention is shown. The drawing, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

1 shows a system according to the invention 10 from a hand tool battery 12 that's about it is provided to be inductively charged, and designed as a hand tool kit hand tool transport device 14 , which is intended to be the one hand tool battery 12 record and a loading of the recorded hand tool battery 12 to support. Furthermore, the system points 10 a temperature management unit 16 which is intended to overheat and hypothermia of the hand tool battery 12 to avoid. The hand tool transporting device 14 has interior structuring elements, the formations 18 . 20 make up to the hand tool battery 12 and a hand tool 22 take. The temperature management unit 16 is intended to be a temperature of the hand tool battery 12 actively influence. The temperature management unit 16 has an electronic energy transport 24 on. The temperature management unit 16 has a liquid-based energy transport agent 26 on. The liquid-based energy transport agent 26 is intended to convert a liquid into a gas. The temperature management unit 16 is partly in the hand tool battery 12 integrated. The temperature management unit 16 is partially in the hand tool transport device 14 integrated. The temperature management unit 16 is partially as a holding device 28 educated. The holding device 28 is intended to be mounted in a car trunk. The holding device 28 shows how the hand tool battery 12 , a charging coil 36 on. The charging coil 36 is intended to supply power to the hand tool battery 12 transferred to. The charging coil 36 is from electronics of the fixture 28 operated, which is connected to a vehicle electrical system. The hand tool transporting device 14 is intended to assist a charging process by the shaping 18 for the hand tool battery 12 at an edge position of the hand tool transport device 14 is arranged so that the charging coil of the hand tool battery 12 near the housing wall of the hand tool transport device 14 is arranged. The holding device 28 has the liquid-based energy transport agent 26 on. The liquid-based energy transport agent 26 has a replaceable liquefied gas tank. The electronic energy transport 24 is in the fixture 28 arranged. The electronic energy transport 24 is formed by an electrical resistance. Furthermore, the temperature management unit 16 a heat pipe 30 partly on the holding device 28 is arranged. The heat pipe 30 is thermally directly with the energy transport means 24 . 26 coupled. The liquid-based energy transport agent 26 is intended by gas relaxation, a temperature of one end of the heat pipe 30 lower. The electronic energy transport 24 is meant to be the end of the heat pipe 30 to heat. The heat pipe 30 protrudes from the holding device 28 out. By attaching the hand tool transport device 14 on the holding device 28 becomes a thermal contact body 32 with the outstanding heat pipe 30 thermally connected directly. The thermal contact body 32 , the part of the temperature management unit 16 is made of aluminum. The temperature management unit 16 has another heat pipe 34 on. The heat pipe 34 is thermally directly with the contact body 32 connected. The heat pipe 34 protrudes into the shape 18 of the hand tool battery 12 into it. The hand tool battery 12 has a channel and is intended to be with this channel on the heat pipe 34 to be plugged. The heat pipe 34 stands with recorded hand tool battery 12 in direct thermal contact with this. The chosen design allows high efficiency in loading the hand tool battery 12 be achieved because it is ensured that the heat pipes 30 . 34 a sufficient distance to the charging coils 36 have to avoid induction losses in the heat pipes. Furthermore, the temperature management unit 16 a temperature sensor located at one end of the heat pipe 30 is arranged, on which the energy transport means 24 . 26 are not arranged. A value of the temperature sensor is used to set a temperature of the hand tool battery 12 estimate. Below a temperature of the hand tool battery 12 a minimum temperature becomes the electronic energy transport 24 activated to further cool the hand tool battery 12 to avoid. Exceeds a temperature of the hand tool battery 12 a maximum temperature of 50 ° C becomes the liquid-based energy transport medium 26 activated to further warm up the hand tool battery 12 to avoid. The temperature management unit 16 has a control unit which is provided for controlling and regulating the temperature as a function of values of the sensor. The heat pipe 30 respectively. 34 is between the hand tool battery 12 and the energy transport agent 24 . 26 thermally insulated arranged.

Alternatively, the system indicates 10 a communication unit, which is provided to transmit a temperature determined by a temperature sensor integrated in the handheld tool battery to the control unit, whereby a more accurate temperature determination and / or a more precise temperature control can be made possible.

Alternatively, the holding device 28 have a further charging coil, which is intended to one in the power tool 22 integrated hand tool battery to charge. Here is the shape 20 designed such that in the hand tool 22 Integrated hand tool battery in the edge area of the hand tool transport device 14 is arranged.

Alternatively, an embodiment with a single heat pipe can be used by the hand tool case having a channel through which the heat pipe is guided from the energy transport means to the hand tool battery. This can be achieved in that the temperature management unit, in contrast to the drawing not in a bottom of the holding device 28 but is arranged in a back.

Alternatively, the holding device may be connected to a cooling water circuit of the motor of the motor vehicle. Wherein for heating the hand tool battery directly the warm cooling water, or by a heat exchanger heated water, is used and for cooling a diffusion absorption chiller is used, the thermal energy also from the cooling water circuit relates.

Claims (11)

System with at least one hand tool battery ( 12 ) which is intended to be inductively charged, and a hand tool transport device ( 14 ), which is intended, at least one hand tool battery ( 12 ) and a charging process of the recorded hand tool battery ( 12 ), characterized by at least one temperature management unit ( 16 ), which is intended to overheat and / or subcool the hand tool battery ( 12 ) to avoid. System according to claim 1, characterized in that the temperature management unit ( 16 ) is provided to a temperature of at least the hand tool battery ( 12 ) to actively influence. System according to claim 2, characterized in that the temperature management unit ( 16 ) at least one electronic energy transport means ( 24 ) having. System according to at least claim 2, characterized in that the temperature management unit ( 16 ) at least one liquid-based energy transport agent ( 26 ) having. System according to claim 4, characterized in that the liquid-based energy transport means ( 26 ) is provided to at least partially convert a liquid into a gas. System according to one of the preceding claims, characterized in that the temperature management unit ( 16 ) at least partially into the hand tool battery ( 12 ) is integrated. System according to one of the preceding claims, characterized in that the temperature management unit ( 16 ) at least partially into the hand tool transport device ( 14 ) is integrated. System according to one of the preceding claims, characterized in that the temperature management unit ( 16 ) at least partially as a holding device ( 28 ) is trained. Hand tool battery, in particular a system ( 10 ) according to one of claims 1 to 7, which is intended to be inductively charged and which is intended to be connected to a temperature management unit ( 16 ) of a system ( 10 ) according to one of claims 1 to 8 cooperate. Hand tool transport device, in particular hand tool case, of a system ( 10 ) according to one of claims 1 to 8. Temperature management unit of a system ( 10 ) according to one of claims 1 to 8.

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