DE102019217206A1 - Charge status display device for a rechargeable battery, battery or battery-operated device with a charge status display device - Google Patents

Abstract

The invention is based on a charge status display device for a rechargeable battery (10a; 10b; 10c), in particular a rechargeable battery pack, and / or for a battery-operated device, with at least one display unit (22a; 22b; 22c) for displaying a charge status of the rechargeable battery (10a) ; 10b; 10c) and with at least one actuation unit (26a; 26b; 26c) comprising in particular a coil (42a; 42b; 42c), the actuation unit (26a; 26b; 26c) being designed to generate a magnetic field .
It is proposed that the display unit (22a; 22b; 22c) comprises at least one movable, in particular movably mounted, display element (24a; 24b; 24c) which is designed to display the charge status of the rechargeable battery (10a; 10b; 10c) ) to be moved by means of the magnetic field of the actuation unit (26a; 26b; 26c).

Description

State of the art

There is already a charge status display device for a rechargeable battery, in particular a rechargeable battery pack, and / or for a rechargeable battery-operated device, with at least one display unit for displaying a charge state of the rechargeable battery and with at least one actuation unit, in particular comprising a coil, the actuation unit being designed for this purpose to generate a magnetic field has been proposed.

Disclosure of the invention

The invention is based on a charge status display device for a rechargeable battery, in particular a rechargeable battery pack, and / or for a rechargeable battery-operated device, with at least one display unit for displaying a charge state of the rechargeable battery and with at least one actuation unit, in particular comprising a coil, the actuation unit for this purpose is designed to generate a magnetic field.

It is proposed that the display unit comprises at least one movable, in particular movably mounted, display element which is designed to be moved, in particular macroscopically, to display the charge status of the battery by means of the magnetic field of the actuation unit.

“Designed for this” is to be understood in particular to be specifically designed and / or specially equipped. The fact that an object is designed for a specific function is to be understood in particular to mean that the object fulfills and / or executes this specific function in at least one application and / or operating state. The display element is preferably formed at least partially, in particular at least largely, from a ferromagnetic and / or a paramagnetic material. In particular in an embodiment in which the display element is made from a ferromagnetic material, the display element is designed to be magnetized at least temporarily by means of the magnetic field. The display element is preferably designed to be moved by the magnetic force acting on the display element by the actuation unit. Particularly preferably, the display element is movably mounted at least relative to the actuation unit, in particular to the coil of the actuation unit, in particular rotatable about a movement axis and / or translationally along a movement axis of the display element. In particular, the coil is designed with or without a core. The coil preferably has at least one turn, in particular a multiplicity of turns. The fact that an object, in particular the display element, is moved “macroscopically” should be understood in particular to mean that a movement of the object can be seen with the naked eye, with a distance covered by the moving object relative to another object, in particular the coil and / or about the axis of movement is in particular greater than 10 ^-10 m, preferably greater than 10 ^-8 m, preferably greater than 10 ^-6 m and particularly preferably greater than 10 ^-3 m. The display element is preferably in a close range the actuation unit, in particular the coil, arranged. A “close range” is to be understood in particular as a spatial volume around a component, in particular the actuation unit, which is within a maximum distance of in particular less than 0.5 m, preferably less than 0.2 m, preferably less than 0.1 m and particularly preferably less than 0.02 m, extends around the component. In particular, the display element and the actuation unit, in particular the coil, are arranged at a distance from one another.

The charge status display device is preferably designed as an electromechanical charge status display device, in particular independently of electronic components and / or electronic data. The charge status display device is preferably designed to be operated directly via a battery voltage, in particular a pack voltage and / or a device voltage. In particular, the battery has at least one energy storage unit which has the battery voltage. For example, the energy storage unit comprises at least one rechargeable battery cell, at least one, in particular electrochemical, battery and / or at least one capacitor. In particular, in an embodiment of the battery as a battery pack, the energy storage unit preferably comprises a plurality of battery cells. In particular, the energy storage unit is at least temporarily directly electrically connected to the actuation unit, in particular the coil. The battery voltage is preferably applied directly to the actuation unit, in particular the coil, at least from time to time, in particular to display the state of charge. The coil is particularly preferably designed to generate the magnetic field by means of an electric current generated via the battery voltage, which flows through the coil. The magnetic field, in particular a magnetic field strength of the magnetic field, is particularly preferred as a function of an electric current flowing through the coil and / or of the battery voltage, in particular the state of charge of the battery. The magnetic force acting on the display element is preferably dependent on the electrical current flowing through the coil and / or on the Battery voltage, especially the charge status of the battery. The, in particular macroscopic, movement of the display element for displaying the state of charge is preferably dependent on the electrical current flowing through the coil and / or on the battery voltage, in particular the state of charge of the battery. It is conceivable that the charge status display device is designed independently of a printed circuit board. In particular, the actuation unit and the display unit are arranged or can be arranged separately from one another.

It is conceivable that the charge status display device comprises at least one lighting unit which has at least one lighting element which is designed to illuminate at least the display element and / or a movement area of the display element, in particular during or after a movement of the display element. The luminous element is preferably arranged in such a way that the display element and / or the area of movement of the display element is illuminated when the display element is in a state in which the display element is moved by means of the magnetic field. The moving display element preferably spans the area of movement. It is conceivable that the luminous element is arranged on the display unit, in particular the display element, or on the actuation unit. For example, the light-emitting element is designed as a light-emitting diode, as a filament, as a fluorescent lamp or the like. The luminous element is preferably designed to be operated via the battery voltage and / or the magnetic field.

The inventive design of the charge status display device enables an advantageously simple and inexpensive design, in particular since the charge status display device can be constructed independently of electronic components, in particular exclusively with electrical and mechanical components. Advantageously, low production costs can be made possible. An advantageously simple and quick maintenance can be made possible. An advantageously low susceptibility to faults can be achieved. An advantageously direct and error-free display of the state of charge can be made possible, in particular since the state of charge can be displayed directly by applying the current battery voltage. An advantageously compact design of the charge status display device and / or of the rechargeable battery can be made possible. An advantageously flexible integration of the charge status display device into the battery can be achieved, in particular since the actuation unit and the display unit can be arranged separately from one another.

It is further proposed that the charge status display device comprises at least one guide unit which is designed to guide the display element moved by means of the magnetic field along a, in particular at least substantially straight, route. In particular, the route extends at least substantially completely along the axis of movement of the display element. The guide unit preferably has at least one guide element. The guide unit, in particular the guide element, preferably at least partially delimits at least one bearing recess in which the display element is arranged. The, in particular at least substantially straight, section is preferably arranged completely within the bearing recess. The guide element particularly preferably limits a movement of the display element along the, in particular at least substantially straight, route. In particular, the guide unit, in particular the guide element, is arranged on the display unit. For example, the guide unit is designed as a linear guide, a rotary guide or the like. The guide unit is preferably designed as a sliding guide or as a roller guide. In particular, the guide element is designed, for example, as a rail, as a groove, as an at least largely closed recess and / or as a roller. The guide unit, in particular the guide element, and / or the display element are / is preferably designed such that the display element is restricted to movement within the bearing recess. It is conceivable that the guide element at least partially, in particular at least largely, encloses the display element. For example, the guide element is designed as a hollow body, in particular with at least one circular, arched or angular cross-sectional area, the display element in particular being designed at least partially within the guide element. The guide unit, in particular the guide element, is preferably integrated or mountable in a housing of the battery, in particular battery pack, or of the battery-operated device. It is conceivable that the display element delimits at least one passage, the guide element being arranged for guiding the display element within the passage and the display element moving along the guide element. For example, the display element delimits at least one groove, the guide element being designed as an extension or rail on which the display element is movably supported in a guided manner. In addition, it is conceivable that the guide unit comprises at least one, in particular movable, bearing element which is designed to keep a frictional force acting between the display element and the guide unit, in particular the guide element, low when the display element moves, in particular within the bearing recess. Preferably that is Bearing element designed as a rolling element, for example a ball, a roller, a cone or the like, or as a sliding layer. In particular, the bearing element is arranged and / or fastened on the display element or on the at least one guide element. It is also conceivable that the guide unit has a plurality of guide elements which together delimit the bearing recess. The guide unit, in particular the guide element, is preferably arranged at a distance from the actuation unit, in particular the coil. In addition, it is conceivable that the guide element has at least one separation recess, in particular a multiplicity of separation recesses, along the bearing recess and / or a main extension axis of the guide element. The separation recesses are preferably provided to absorb dirt and / or dust when the display element moves. The separation recesses are preferably provided to reduce a tendency for the display element to jam when the guide unit, in particular the bearing recess and / or the guide element, becomes soiled. Alternatively, it is conceivable that the guide unit is designed in such a way that the display element moved by means of the magnetic field is guided along a route that differs from an at least substantially straight route, in particular a curved route. In particular, in an embodiment of the charge status display device in which the display unit comprises the light-emitting element, it is conceivable that the light-emitting element is arranged on the guide unit, in particular the guide element. An advantageously accurate display of the state of charge can take place, in particular since the display element moved by means of the magnetic field can be guided over the guide unit. The display unit, in particular the moving display element, can advantageously be set precisely because the display element can move on a constant, predefined path as a function of the magnetic field. In this way, an advantageously accurate display of the state of charge can be achieved.

It is also proposed that the display unit comprises at least one reference element, the display element being designed to display the charge state via a position of the display element relative to the reference element and / or the actuation unit. The reference element is preferably designed to be fixed relative to the actuation unit, in particular by fastening the reference element and the actuation unit to a frame and / or a housing of the charge status display device and / or the battery. In particular, the reference element is at least partially arranged on, in particular along, the guide unit, in particular the guide element. For example, the reference element is designed as a scale, as a marking or as a stop. The reference element is preferably designed in such a way that, depending on a position of the display element in relation to the reference element, more than one charge state of the battery, in particular at least three charge states, is / is displayed and / or can / can be read. The guide unit preferably delimits at least one viewing window through which the display element arranged in the bearing recess, in particular in a state moved by means of the magnetic field, is visible. The reference element is particularly preferably arranged on the viewing window, in particular at least one surface of the guide unit, in particular the guide element, which delimits the viewing window. The guide unit is particularly preferably arranged in such a way that the viewing window is arranged on an outer wall of the guide unit, which in particular faces an outer wall of the housing of the battery. The reference element is preferably arranged on the outer wall of the guide unit or of the housing. In particular, the viewing window is designed to arrange the display element, in particular in a state moved by means of the magnetic field, so that it is visible to a user from the outside. The viewing window is particularly preferably arranged on at least one area of the guide unit into which the display element is moved by means of the magnetic field in order to display the state of charge. The surfaces of the guide unit delimiting the viewing window and the reference element are preferably arranged on the housing of the battery so that they are visible from the outside. Alternatively or additionally, it is conceivable that the reference element is arranged on the display element and is designed to display the charge status via a position of the reference element relative to the guide unit, in particular the guide element and / or a surface of the guide unit delimiting the viewing window. In addition, it is conceivable that the reference element and / or the viewing window have / has a basic shape and / or a contour that corresponds to an outline of a cell and / or a battery, such as an AA battery or the like the display element for displaying the state of charge, in particular from the perspective of a user, is at least partially moved within or along the basic shape and / or contour. The display unit preferably comprises at least one at least partially transparent cover element which is provided to cover the viewing window at least substantially completely, in particular airtight or watertight. The cover element is particularly preferably designed to be at least largely, in particular at least substantially completely, transparent. In particular, the cover element is designed to arrange the display element, in particular in a state moved by means of the magnetic field, through the viewing window so that it is visible to a user from the outside. For example, the cover element is designed as a glass pane or a plastic pane. The cover element is preferably arranged on the guide unit, in particular the guide element, and / or at least partially delimits the bearing recess. In addition, it is conceivable that the display unit comprises at least one further reference element which is arranged on the display element, the cover element or the guide unit and is designed to display the state of charge via a position relative to the reference element. The further reference element is preferably arranged in such a way that the further reference element is mounted movably relative to the reference element, in particular by an arrangement on the guide unit or display element which is embodied separately from the reference element. For example, the reference element is arranged on the guide unit and designed as a scale, the further reference element being designed as a marking and being arranged on the display element. In particular, in one embodiment of the display unit with the light-emitting element, the light-emitting element is preferably designed to illuminate the reference element, in particular during or after a movement of the display element. Alternatively, it is conceivable that the reference element and / or the guide unit, in particular the guide element, in particular in addition to the display element or instead of the display element, are / is movably mounted relative to the coil. In addition, it is conceivable that the movably mounted reference element and / or the movably mounted guide element are / is provided for this purpose, in particular when the actuating element is actuated, by means of the magnetic field, in particular analogous to the state of charge, to display the state of charge, in particular relative to the display element to be moved. For example, it is conceivable that the guide unit delimiting in particular the bearing recess, in particular the guide element, and / or the reference element are / is intended to be moved relative to the display element, which is in particular arranged in a fixed position, in particular via a position of the guide unit, in particular the guide element and / or the reference element is displayed relative to the display element of the charge status. An advantageously simple and quick display of the charge status can be made possible, in particular since a user can assign the position of the display element to a charge status of the battery via the reference element. In particular, in contrast to, in particular already known, charge status displays with several LEDs, which display the charge status of a battery in several stages, an advantageously stepless display of the charge status of the battery can be made possible.

It is further proposed that the display element have at least one, in particular the aforementioned, axis of movement, the display element being arranged and / or movably mounted relative to the actuation unit, in particular the coil, in such a way that field lines of the magnetic field generated by the actuation unit are at least in Are aligned substantially perpendicular to the axis of movement. The coil preferably has at least one central axis, with turns of the coil running around the central axis. The movement axis is particularly preferably arranged at least substantially perpendicular to the central axis of the coil. “Essentially perpendicular” is to be understood as meaning, in particular, an alignment of a straight line or a plane, in particular the axis of movement, relative to a further straight line or a further plane, in particular the central axis, the straight line or the plane and the further straight line or the further Plane, especially viewed in a projection plane, enclose an angle of 90 ° and the angle has a maximum deviation of in particular less than 8 °, advantageously less than 5 ° and particularly advantageously less than 2 °. The coil and the display element are preferably arranged in such a way that the central axis and the axis of movement intersect at a point, the point in particular halving a maximum extension of the windings of the coil formed along the central axis. In particular, in an embodiment of the path as a curved path, the path is arranged around the axis of movement, with the axis of movement in particular preferably being aligned at least substantially parallel to the central axis of the coil. An advantageously frictionless movement of the display element can be made possible. An advantageously low susceptibility to errors can be achieved. An advantageously proportional dependency of a movement of the display element on the battery voltage or the charge status of the battery can be achieved, which in particular enables an advantageously simple and error-resistant design of the guide unit and / or the display unit.

It is further proposed that the display unit comprises at least one restoring element which is designed to apply a restoring force to the display element. The restoring element is preferably arranged on the guide unit, in particular the guide element. It is conceivable that the restoring element is arranged at least partially within the bearing recess. The restoring element is preferably designed and / or arranged in such a way that the restoring force is at least substantially parallel to the Axis of movement is aligned. “Essentially parallel” is intended to mean in particular an alignment of a straight line or a plane, in particular a direction along which the restoring force acts on the display element at one point, relative to a further straight line or a further plane, in particular the axis of movement, in particular viewed in a projection plane , are understood, wherein the straight line or the plane has a deviation from the further straight line or the further plane of in particular less than 8 °, advantageously less than 5 ° and particularly advantageously less than 2 °. The restoring element is preferably designed and / or arranged in such a way that the restoring force counteracts the movement of the display element brought about by means of the magnetic field, along the movement axis and / or the, in particular at least substantially straight, path. In particular, the restoring element is designed and / or arranged in such a way that the restoring force acts at least partially in the direction of the actuation unit, in particular the coil. The restoring element is preferably arranged at least partially between the actuation unit, in particular the coil, and the display element or from the display element on a side of the display element facing away from the actuation unit, in particular the coil. For example, the restoring element is designed as a spring element, as a gas pressure piston, as an elastomer, as a hydraulic element or the like. An equilibrium position of the display element for displaying the state of charge can advantageously be made possible, in particular since the restoring element counteracts the magnetic force. An advantageously simple reading of the state of charge can be achieved. It can advantageously be possible to reset the display unit, in particular the display element, after the charge status has been displayed.

It is also proposed that the restoring element be designed as a mechanical spring element. In particular, the restoring element is designed as a leaf spring or as a wire spring. The restoring element is preferably designed as a tension spring or as a compression spring. The restoring element is preferably arranged at one end on the display element and at another end, in particular facing away from the end, on the guide unit, in particular the guide element. In particular when the restoring element is designed as a compression spring, the restoring element is preferably supported with at least one end on the guide unit, in particular the guide element. In particular when the restoring element is designed as a tension spring, the restoring element is preferably connected to the guide unit by at least one end. Alternatively, it is conceivable that the restoring element is designed as a magnet which acts on the display element with a restoring force opposing the magnetic force generated by means of the magnetic field of the coil. In a further alternative embodiment, the restoring element is designed as a fluid which is arranged within the bearing recess. For example, the fluid acts on the display element with a restoring force designed as a buoyancy force, which is directed against the magnetic force. in particular in an embodiment of the restoring element as a fluid, the display element is preferably at least partially hollow. An advantageously simple and inexpensive construction of the display unit can be made possible.

It is further proposed that the charge status display device comprises at least one actuation unit which comprises at least one actuation element which is designed to apply a battery voltage, in particular the aforementioned, battery voltage of the battery directly to the actuation unit when the actuation element is actuated, in particular by a user, wherein the actuation unit, in particular the coil, is designed to generate the magnetic field moving the display element via the battery voltage. The actuation unit, in particular the actuation element, is preferably connected to the actuation unit in an electrically conductive manner. In particular, the actuating element is electrically connected, in particular directly, to the coil. The actuating element is preferably arranged, in particular in terms of switching, between the coil and the energy storage unit. The actuation unit, in particular the actuation element, preferably has at least one open state in which the coil is designed without tension. In particular, the actuation unit, in particular the actuation element, has at least one closed state in which the battery voltage is applied to the coil. The actuating element is preferably designed as an, in particular mechanical, switch. Alternatively, it is conceivable that the actuating element is designed as an at least partially electronic switching element, for example as a relay, as a surge switch, as a field effect transistor, as a bipolar transistor, as a semiconductor switch or the like designed to be operated directly by a user of the battery to display the charge level. In particular, in one embodiment of the display unit with the light-emitting element, the actuation element is designed to activate the light-emitting element, in particular temporarily, at least when it is actuated. The charge status can advantageously be called up by a user. Advantageously, direct control of the charge status display device can be made possible. It can be a advantageously user-friendly operation can be achieved. An advantageously simple and inexpensive construction of the charge status display device can be made possible.

Furthermore, it is proposed that the charge status display device comprises at least one fixing unit which is designed to at least temporarily fix the display element in at least one position deflected by means of the magnetic field, in particular relative to the actuation unit. In particular, the fixing unit is designed to fix the display element, in particular after the actuation unit has been actuated and / or when the charge status is displayed, in a position deflected by means of the magnetic field to display the charge status, in particular a maximally deflected position. The fixing unit is preferably designed to fix the display element in the deflected position, in particular the maximally deflected position, via a form-fitting and / or force-fitting connection. It is conceivable that the fixing unit comprises at least one fixing element which is designed to interact with the resetting element, in particular arranged on the display element, to fix the display element. An advantageously long display duration of the state of charge can be achieved, in particular independently of the duration of energization of the actuation unit, in particular of the coil. An advantageously low energy consumption of the charge status display device can be made possible, in particular since the actuation unit for displaying the charge status can only be activated over an advantageously short period of time, independently of a display duration.

In addition, it is proposed that the fixing unit comprises at least one mechanical fixing element which is designed to interact with the display unit, in particular the display element, in order to fix the display element. The fixing element is preferably designed as a latch, a latching element, a bolt or the like. The fixing element can preferably be moved into the bearing recess for fixing the display element between the display element and the actuation unit, in particular the coil. It is conceivable that the fixing element is designed to be spring-loaded, with a restoring force in particular being oriented in a direction facing the movement axis. The fixing unit preferably comprises at least one counter-fixing element which is designed to interact with the fixing element in order to fix the display element. The counter-fixing element is preferably arranged on the display element and, in particular, is movably supported together with the display element. The fixing element is preferably arranged on the guide unit, in particular the guide element. In particular, the counter-fixing element is designed to correspond to the fixing element, for example as a perforated sheet metal strip, as a component or the like that delimits a large number of locking recesses arranged next to one another or next to one another. Alternatively, it is conceivable that the counter-fixing element is arranged on the guide unit, in particular the guide element, wherein the fixing element is arranged on the display element and, in particular, is movably supported together with the display element. Alternatively, it is conceivable that the fixing element is designed to fix the display element via a non-positive connection, with the fixing element in particular being applied to the display element from at least one side at least substantially perpendicular to the axis of movement to fix the display element. In particular, in an alternative embodiment of the fixation unit, it is conceivable that the fixation element is designed to apply a frictional force to the display element, which is in particular at least greater than the restoring force of the restoring element acting on the display element. For example, in the alternative embodiment, the fixing element is designed as a brake shoe, as a clamp, as a loop or the like. In a further alternative embodiment, it is conceivable that the fixing element has several stop surfaces, the stop surfaces each being assigned to a position of the display element, in particular relative to the guide element and / or the reference element, which corresponds to a predefined charge state of the battery, in particular the energy storage unit. For example, in the further alternative embodiment, the guide element is designed as a toothed rack or the like. It is also conceivable that the guide unit has at least two guide elements with stop surfaces, which are arranged, for example, opposite one another or on sides of the display element facing away from one another. In particular, the display element is provided to interact with one of the stop surfaces after the actuation element has been actuated and / or after a decrease in the magnetic field, which is arranged closest to the display element in the direction of the coil. The stop surface is preferably provided to hold the display element, in particular temporarily or until the actuating element is actuated again, in a position relative to the coil. In particular, the fixing element having the stop surfaces is provided to enable a multi-stage display of the charge status after the actuating element has been released. For example, the fixing element has four stop surfaces each of which corresponds to a position of the display element due to the action of the magnetic field at a state of charge of less than 5%, less than 35%, less than 70% or more than 95%, respectively. In another exemplary embodiment of the guide element, the guide element preferably has at least one first stop surface which is arranged at a position which corresponds to a position of the display element, in particular relative to the guide element and / or the reference element, when the battery, in particular the energy storage unit, is charged , which corresponds to a value from a value range of in particular at least substantially 0% to 15%, preferably at least substantially 0% to 10% and particularly preferably at least substantially 0% to 5%. In the other exemplary embodiment of the guide element, the guide element preferably has at least one second stop surface which is arranged at a position which corresponds to a position of the display element, in particular relative to the guide element and / or the reference element, when the battery, in particular the energy storage unit, is charged , which corresponds to a value from a value range of in particular 18% to 48%, preferably 25% to 40%, particularly preferably 30% to 35% and very particularly preferably exactly 33%. In the other exemplary embodiment of the guide element, the guide element preferably has at least one third stop surface, which is arranged at a position which corresponds to a position of the display element, in particular relative to the guide element and / or the reference element, when the battery, in particular the energy storage unit, is charged , which corresponds to a value from a value range of in particular 51% to 81%, preferably 61% to 71%, particularly preferably 64% to 68% and very particularly preferably exactly 66%. In the other exemplary embodiment of the guide element, the guide element preferably has at least one fourth stop surface, which is arranged at a position which corresponds to a position of the display element, in particular relative to the guide element and / or the reference element, when the battery, in particular the energy storage unit, is charged , which corresponds to a value from a value range of in particular 85% to 100%, preferably 90% to 100%, particularly preferably 95% to 100% and very particularly preferably 99% to 100%. An advantageously simple and inexpensive construction of the fixing unit can be made possible, in particular independently of electronic components.

It is further proposed that the fixing unit is designed to release the display element when the actuating element is actuated. The fixing element is preferably connected, in particular mechanically, to the actuation unit, in particular the actuation element. The fixing element is particularly preferably arranged and / or designed such that the fixing element is arranged in the open state of the actuating unit for fixing the display element within the bearing recess, rests against the display element and / or interacts with the counter-fixing element. The fixing element is preferably arranged and / or designed such that the fixing element is arranged outside the bearing recess and / or at a distance from the display element and / or the counter fixing element in the closed state of the actuating unit. The display element is preferably designed to be released when the fixation element is moved out of the bearing recess or when the fixation element is separated from the display element and / or the counter-fixation element, in particular during a transition from the open state of the actuation unit to the closed state of the actuation unit. Alternatively, it is conceivable that the fixing element is designed to fix the display element for a predefined period of time after the actuation element has been actuated and to release it after the period, for example via a temporally decreasing holding force of the fixing element and / or via an electronic and / or electrical control the locking unit. An advantageously long display duration of the display element can be made possible, in particular independently of the duration of the energization of the actuation unit. An advantageously simple and inexpensive construction of the fixing unit can be made possible, in particular independently of electronic components.

In addition, a battery, in particular a battery pack, or a battery-operated device with at least one charge status display device according to the invention is proposed. The configuration of the battery according to the invention enables an advantageously simple and inexpensive construction, in particular since the charge status display device can be constructed independently of electronic components, in particular exclusively with electrical and mechanical components. Advantageously, low production costs can be made possible. An advantageously simple and quick maintenance can be made possible. An advantageously low susceptibility to faults can be achieved. An advantageously direct and error-free display of the charge status of the battery can be made possible, in particular since the charge status can be displayed directly by applying the current battery voltage. An advantageously compact design of the battery can be made possible. It can be an advantageously flexible one Construction of the battery can be achieved, in particular since the actuation unit and the display unit can be arranged separately from one another.

The charge status display device according to the invention, the rechargeable battery according to the invention and / or the battery-operated device according to the invention should / should not be restricted to the application and embodiment described above. In particular, the charge status display device according to the invention, the rechargeable battery according to the invention and / or the battery-operated device according to the invention can have a number of individual elements, components and units that differs from a number of individual elements, components and units specified herein in order to fulfill a mode of operation described herein. In addition, in the case of the value ranges specified in this disclosure, values lying within the stated limits should also be considered disclosed and can be used as required.

Figure list

Further advantages emerge from the following description of the drawings. Four exemplary embodiments of the invention are shown in the drawings. The drawings, 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 eine schematische Darstellung eines erfindungsgemäßen Akkus zu einer Verbindung mit einem akkubetriebenen Gerät mit einer erfindungsgemäßen Ladezustandsanzeigevorrichtung in einer Seitenansicht,
• 2 eine Prinzipskizze der erfindungsgemäßen Ladezustandsanzeigevorrichtu ng,
• 3 eine schematische Darstellung einer Position eines Anzeigeelements der erfindungsgemäßen Ladezustandsanzeigevorrichtung relativ zu einem Referenzelement der erfindungsgemäßen Ladezustandsanzeigevorrichtung für drei verschiedene Ladezustände des erfindungsgemäßen Akkus,
• 4 eine Prinzipskizze einer alternativen Ausgestaltung einer erfindungsgemäßen Ladezustandsanzeigevorrichtung mit einer Fixierungseinheit,
• 5 eine Prinzipskizze einer weiteren alternativen Ausgestaltung einer erfindungsgemäßen Ladezustandsanzeigevorrichtung mit einer alternativen Ausgestaltung einer Fixierungseinheit und
• 6 eine schematische Darstellung einer alternativen Ausgestaltung eines erfindungsgemäßen akkubetriebenen Geräts mit einer erfindungsgemäßen Ladezustandsanzeigevorrichtung.

Show it:

• 1 a schematic representation of a battery according to the invention for connection to a battery-operated device with a charge status display device according to the invention in a side view,
• 2 a schematic diagram of the charge status display device according to the invention,
• 3rd a schematic representation of a position of a display element of the charge status display device according to the invention relative to a reference element of the charge status display device according to the invention for three different charge states of the battery according to the invention,
• 4th a schematic diagram of an alternative embodiment of a charge status display device according to the invention with a fixing unit,
• 5 a schematic diagram of a further alternative embodiment of a charge status display device according to the invention with an alternative embodiment of a fixing unit and
• 6th a schematic representation of an alternative embodiment of a battery-operated device according to the invention with a charge status display device according to the invention.

Description of the exemplary embodiments

In the 1 is a rechargeable battery designed as a replaceable battery pack 10a shown. The battery 10a is especially designed for use with a battery-powered device 11a , in particular a handheld power tool, formed. But there are also other configurations of the battery 10a conceivable, for example as a battery 10a a battery-operated device 11a , with the battery 10a firmly on or in the battery-operated device 11a is arranged. The battery 10a has a charge level indicator 12a on, in particular at least partially on an outer wall 14a a housing 16a of the battery 10a is arranged. In particular in one embodiment of the battery 10a as fixed on or in a battery-operated device 11a arranged battery 10a , it is conceivable that the battery-operated device 11a the charge level indicator 12a having, wherein the charge status display device 12a outside of the battery 10a is arranged.

The battery 10a comprises an energy storage unit 18a which has a battery voltage, in particular a pack voltage. The energy storage unit 18a comprises a plurality of battery cells, which are not shown in the figures. However, there are also other configurations of the energy storage unit 18a conceivable, for example with only one rechargeable battery cell or as an electrochemical battery. The energy storage unit is preferably 18a with contact elements 20a of the battery 10a connected, in particular to an application of the battery voltage to the battery-operated device 11a . The charge level indicator 12a is electrical with the energy storage unit 18a connected. The energy storage unit 18a is designed to supply the battery voltage, in particular directly, to the charge status display device 12a to put on. The charge level indicator 12a is used as an electromechanical charge level indicator 12a formed, in particular independent of electronic components and / or electronic data.

The charge level indicator 12a has a display unit 22a for displaying a charge level of the rechargeable battery 10a , especially the energy storage unit 18a , on. The display unit 22a comprises a movable, in particular movably mounted, display element 24a , which is designed to display the charge level of the battery 10a by means of the magnetic field of an actuation unit 26a , especially macroscopically, to be moved. The display unit 22a the Charge status display device 12a is at least partially on an outside wall 14a of the housing 16a of the battery 10a arranged. The display unit 22a includes a reference element 28a , where the display element 24a is designed to use a position of the display element 24a relative to the reference element 28a display the charge status. The display elements are preferably 24a , in particular in a state moved by means of the magnetic field, and the reference element 28a in the battery 10a arranged visible from the outside.

The charge level indicator 12a includes a guide unit 30a , which is designed to move the display element by means of the magnetic field 24a along an at least substantially rectilinear route 32a respectively. The distance 32a extends at least substantially completely along an axis of movement 50a of the display element 24a . The management unit 30a has a guide element 34a on. The management unit 30a , in particular the guide element 34a , at least partially delimits at least one bearing recess 36a in which the display element 24a is arranged. The, in particular at least essentially straight, route is preferred 32a completely within the bearing recess 36a arranged. The guide element 34a limits movement of the display element 24a along the, in particular at least substantially rectilinear, route 32a within the bearing recess 36a . The management unit 30a , in particular the guide element 34a , is on the display unit 22a arranged. The management unit 30a is designed as a linear guide. Alternatively, it is conceivable that the guide unit 30a Is designed as a rolling guide, as a rotational guide or the like. The guide element 34a is designed as a groove which the bearing recess 36a at least for the most part limited. It is also conceivable that the guide element 34a Is designed as a rail, as a recess or as a roller or the like. The management unit 30a , in particular the guide element 34a , encloses the bearing recess 36a and the display element 24a at least for the most part. The management unit 30a , in particular the guide element 34a , and the display element 24a are designed such that the display element 24a to movement within the bearing recess 36a is limited. It is also conceivable that the guide unit 30a a variety of guide elements 34a has, which together form the bearing recess 36a limit. The management unit 30a , in particular the guide element 34a , is at a distance from the actuation unit 26a educated. Alternatively, it is conceivable that the guide unit 30a is designed such that the display element moved by means of the magnetic field 24a along one of an at least substantially rectilinear route 32a different route 32a , especially a curved stretch 32a around an axis of motion 50a , to be led.

The reference element 28a is relative to the actuation unit 26a fixed, in particular via a fastening of the reference element 28a and the actuation unit 26a on a frame, which is not shown in the figures, and / or on the housing 16a of the battery 10a . The display element 24a is designed to use a position of the display element 24a relative to the reference element 28a and / or the actuation unit 26a display the charge status. The reference element 28a is at least partially on, in particular along, the guide unit 30a , in particular the guide element 34a , arranged. The management unit 30a limited a viewing window 38a through which that in the bearing recess 36a arranged display element 24a , in particular in a state moved by means of the magnetic field, is visible. The reference element 28a is through the viewing window 38a formed, in particular the state of charge by a position of the display element 24a relative to one through the viewing window 38a visible area 70a the bearing recess 36a is shown. The management unit 30a , in particular the guide element 34a , is arranged in such a way that the viewing window 38a on an outside wall 14a of the housing 16a of the battery 10a is arranged. The reference element 28a is on the outside wall 14a of the housing 16a arranged. The viewing window 38a is designed to the display element 24a , in particular in a state moved by means of the magnetic field, for a user 62a to be arranged so that they are visible from the outside. The display unit 22a comprises an at least partially transparent cover element 29a which the viewing window 38a covers and closes watertight. The cover element 29a is designed as a plastic disc. But there are also other configurations of the cover element 29a conceivable, for example as a pane of glass. Alternatively, there are also configurations of the display unit 22a independent of the cover element 29a , especially without a cover element 29a , conceivable. The viewing window 38a and the cover element 29a are on an area, specifically the area 70a , the bearing recess 36a arranged in which the display element 24a is moved in by means of the magnetic field to display the state of charge. The cover element 29a is on the management unit 30a , in particular the guide element 34a , arranged and delimited the bearing recess 36a at least partially. The viewing window 38a delimiting areas 40a the management unit 30a and the reference element 28a are visible from the outside of the housing 16a of the battery 10a arranged. But there are also other refinements of the reference element 28a conceivable, for example as a scale, in particular with several markings, as different ones and successive color areas or the like. Alternatively or additionally, it is conceivable that the reference element 28a on the display element 24a is arranged. It is conceivable that the display unit 22a comprises a further reference element, wherein the reference element 28a is designed for this purpose, the state of charge via a position of the reference element 28a relative to the further reference element.

In 2 Figure 3 is a schematic diagram of a circuit diagram of the charge level indicator 12a shown. The charge level indicator 12a comprises the actuation unit 26a who have favourited a Coil 42a having. The actuation unit 26a , especially the coil 42a , is designed to generate the magnetic field. The sink 42a has an iron core and a plurality of windings, which are not shown in the figures. But there are also other configurations of the coil 42a conceivable. The sink 42a is directly electrical with the energy storage unit 18a connected. The battery voltage is preferably at least temporarily, in particular for displaying the charge status, directly on the actuation unit 26a , especially the coil 42a , at. The display element 24a is at least partially, in particular at least largely, made of a ferromagnetic material. But it is also conceivable that the display element 24a is at least partially, in particular at least largely, made of a paramagnetic material. The display element 24a has a cylindrical basic shape. The display element 24a is at least partially rod-shaped. But there are also other configurations of the display element 24a conceivable, for example as a hollow cylinder, with an angular basic shape, as a curved body, as a sphere or the like. The display element 24a is designed to be magnetized at least temporarily by means of the magnetic field. The display element 24a is designed for this purpose, from one by means of the magnetic field from the actuation unit 26a on the display element 24a acting magnetic force to be moved. The display element 24a is at least relative to the actuation unit 26a , especially about the coil 42a the actuation unit 26a , movably mounted, in particular translationally along the axis of movement 50a of the display element 24a . The display element is preferred 24a in a close range 44a the actuation unit 26a , especially the coil 42a , arranged. The display element 24a and the actuation unit 26a , especially the coil 42a , are arranged at a distance from one another. The sink 42a has a central axis 52a on, taking turns of the coil 42a around the central axis 52a run away. The display element 22a is moved in a display direction by means of the magnetic field 45a moves, which particular from the coil 42a facing away and at least substantially perpendicular to the central axis 52a the coil 42a is aligned.

The charge status display device is preferred 12a designed to be operated directly via a battery voltage, in particular a pack voltage and / or a device voltage. The coil is particularly preferred 42a designed to control the magnetic field by means of an electric current generated via the battery voltage, which is passed through the coil 42a flows to generate. Particularly preferred is the magnetic field, in particular a magnetic field strength of the magnetic field, depending on one through the coil 42a flowing electrical current, and / or the battery voltage, in particular the state of charge of the battery 10a . The on the display element 24a Acting magnetic force is dependent on the one through the coil 42a flowing electrical current and / or the battery voltage, in particular the state of charge of the battery 10a . The, in particular macroscopic, movement of the display element is preferred 24a to display the state of charge depending on what is caused by the coil 42a flowing electrical current and / or the battery voltage, in particular the state of charge of the battery 10a . The actuation unit 26a and the display unit 22a are arranged separately from one another, in particular independently of a common printed circuit board. However, it is also conceivable that the actuation unit 26a and the display unit 22a are arranged together, in particular on a common printed circuit board, in particular the display element 24a , especially relative to the coil 42a , is movably mounted.

The charge level indicator 12a includes a light unit 46a who have favourited a luminous element 48a which is designed for this purpose, in particular during or after a movement of the display element 24a , at least the display element 24a and / or a range of motion of the display element 24a to illuminate. The light element 48a is arranged such that the display element 24a and / or the range of motion of the display element 24a in a state of the display element moved by means of the magnetic field 24a is illuminated. The light element 48a is on the actuation unit 26a arranged. The light element 48a is designed as a light emitting diode. But it is also conceivable that the lighting element 48a Is designed as a filament, as a fluorescent lamp or the like. The light element 48a is designed and / or arranged for this purpose by means of the energy storage unit 18a to be operated via the battery voltage. It is conceivable that the lighting unit 46a comprises at least one transformer to the luminous element 48a to operate on the battery voltage, which is not shown in the figures. Alternatively, it is conceivable that the lighting element 48a at the Guide unit 30a , in particular the guide element 34a , is arranged. The light element 48a is designed for this, in particular during or after a movement of the display element 24a , the reference element 28a to illuminate.

The display element 24a indicates the axis of motion 50a on, the display element 24a relative to the actuation unit 26a , especially the coil 42a , is arranged and / or movably mounted in such a way that field lines of the means of the actuation unit 26a generated magnetic field at least substantially perpendicular to the axis of movement 50a are aligned. The display element 24a is along the axis of motion 50a moveable. In particular, the at least substantially straight line extends 32a along the axis of movement 50a . The axis of motion 50a is at least substantially perpendicular to the central axis 52a the coil 42a arranged. The sink 42a and the display element 24a are arranged so that the central axis 52a and the axis of motion 50a intersect at a point, in particular the point being one along the central axis 52a trained maximum extension 54a of the windings of the coil 42a halved. There are also other configurations of the display unit 22a conceivable in which, for example, the display element 24a around the axis of motion 50a is movable, in particular the axis of movement 50a preferably at least substantially perpendicular to the central axis 52a the coil 42a considered at least substantially perpendicular to the central axis 52a is aligned.

The display unit 22a includes a return element 56a , which is designed, the display element 24a to apply a restoring force. The reset element 56a is designed as a mechanical spring element. The reset element 56a is on the management unit 30a , in particular the guide element 34a , arranged. The reset element 56a is at least partially within the bearing recess 36a arranged. The restoring element is preferred 56a designed and / or arranged in such a way that the restoring force is at least substantially parallel to the axis of movement 50a is aligned. The reset element 56a is designed and / or arranged in such a way that the restoring force of the movement of the display element brought about by means of the magnetic field 24a , along the axis of movement 50a and / or the at least substantially straight route 32a counteracts. The reset element 56a is designed and / or arranged in such a way that the restoring force is at least partially in the direction of the actuation unit 26a , especially the coil 42a , works. The reset element 56a is from the display element 24a on one of the actuation units 26a , especially the coil 42a , facing away from the display element 24a arranged. But it is also conceivable that the restoring element 56a at least partially between the actuation unit 26a , especially the coil 42a , and the display element 24a is arranged. The reset element 56a is designed as a wire spring. The reset element 56a is at one end on the display element 24a arranged and with another, in particular facing away from the end, other end on the guide unit 30a , in particular the guide element 34a , arranged. The reset element 56a acts as a tension spring, the restoring element 56a with the other end to the guide unit 30a , in particular the guide element 34a , connected is. There are also other configurations of the restoring element 56a conceivable, for example as a woodruff spring and / or as a tension spring or as a magnet, which the display element 24a with one of the means of the magnetic field of the coil 42a generated magnetic force applied opposite restoring force or as fluid, which within the bearing recess 36a is arranged.

The charge level indicator 12a comprises an actuation unit 58a who have favourited an actuator 60a which is designed to act upon actuation of the actuating element 60a , especially by a user 62a , the battery voltage of the battery 10a directly to the actuation unit 26a , especially the coil 42a to apply, the actuation unit 26a , especially the coil 42a , is designed to that the display element 24a to generate a moving magnetic field via the battery voltage. The actuator 60a is electrically conductive with the actuation unit 26a connected. The actuator 60a is directly electrical with the energy storage unit 18a and the lighting element 48a connected. It is also conceivable, in particular in one embodiment of the charge status display device 12a without light element 48a that the actuator 60a directly electrically with the coil 42a connected is. The actuator 60a is, in particular in terms of switching, between the coil 42a and the energy storage unit 18a arranged. The actuation unit preferably has 58a , in particular the actuator 60a , at least one open state in which the coil 42a is formed tension-free. In particular, the actuation unit 58a , in particular the actuator 60a , at least one closed state in which the battery voltage is applied to the coil 42a is applied. The actuator 60a is designed as a mechanical switch. Alternatively, it is conceivable that the actuating element 60a is designed as an at least partially electronic switching element, for example as a relay, as an impulse switch, as a field effect transistor, as a bipolar transistor, as a semiconductor switch or the like. In particular, the actuation unit is 58a , in particular the actuator 60a , trained to do so, directly by a user 62a of the battery 10a to be operated to display the charge level. The actuator 60a is designed to do so, at least when the actuating element is actuated 60a the light element 48a , especially at times, to activate. The actuation unit 58a , in particular the actuator 60a , is at a distance from the actuation unit 26a and the display unit 22a on the outside wall 14a of the housing 16a arranged. But it is also conceivable that the actuation unit 58a , in particular the actuator 60a , on the actuation unit 26a and / or the display unit 22a is arranged. It is also conceivable that the actuation unit 58a comprises a protection circuit which is provided to prevent deep discharge of the battery 10a , especially the energy storage unit 18a , through the actuation unit 26a and / or the lighting element 48a , especially when the actuating element is actuated for a long time 60a , to prevent. The protective circuit is preferably provided for an actuation of the actuating element 60a to limit to a predefined and / or adjustable maximum duration of actuation. In particular, the protective circuit is not shown in the figures.

In 3rd is are different positions 64a , 66a , 68a of the display element 24a relative to the reference element 28a for three different charging states of the battery 10a , especially the energy storage unit 18a shown. In a first position 64a of the display element 24a is the charge level of the battery 10a , especially the energy storage unit 18a , so small that one over the magnetic field on the display element 24a acting magnetic force is insufficient to the display element 24a into one of the reel 42a remote direction along the axis of movement 50a to move or a movement of the display element 24a is so small that the display element 24a or the movement of the display element 24a for the user 62a is not visible. In the first position 64a is the display element 24a for one user 62a outside of through the viewing window 38a visible area 70a the bearing recess 36a arranged. In a second position 66a of the display element 24a is the charge level of the battery 10a , especially the energy storage unit 18a , at least essentially 50% of a fully charged battery 10a of the same type. The display element 24a is moved by the magnetic field in such a way that the display element 24a for the user 62a into the through the viewing window 38a visible area 70a the bearing recess 36a is moved, with a visible edge 72a of the display element 24a about half of one of the reference element 28a covered area 70a is arranged. In a third position 68a of the display element 24a is the charge level of the battery 10a , especially the energy storage unit 18a , at least essentially 100% of a fully charged battery 10a of the same type. The display element 24a is moved by the magnetic field in such a way that the display element 24a for the user 62a into the through the viewing window 38a visible area 70a the bearing recess 36a is moved, with the visible edge 72a of the display element 24a at one edge of the reference element 28a and / or on one of the viewing windows 38a delimiting area 40a of the guide element 34a is arranged. The display element particularly preferably has 24a in the third position 68a a greater distance to the coil 42a on as in the second position 66a and the first position 64a , where the display element 24a a larger magnetic force is applied via the magnetic field. The display element preferably has 24a in the second position 66a a greater distance to the coil 42a on as in the first position 64a , where the display element 24a a larger magnetic force is applied via the magnetic field. It is also conceivable that this is used as a reference element 28a trained viewing windows 38a has several markings that depend on the position of the display element 24a , especially the visible edge 72a of the display element 24a , a charge level of the battery 10a , especially the energy storage unit 18a , Show. For example, on the edge of the reference element 28a and / or on the viewing window 38a delimiting area 40a of the guide element 34a a marker should be placed showing a 100% charged battery 10a , especially a 100% charged energy storage unit 18a , displays. It is conceivable that the through the viewing window 38a and the cover element 29a visible area 70a the bearing recess 36a a charge level of 0% to 100% of a maximum charge level of the battery 10a , especially the energy storage unit 18a , includes.

In the 4th and 5 further embodiments of the invention are shown. The following descriptions and the drawings are essentially limited to the differences between the exemplary embodiments, whereby with regard to identically designated components, in particular with regard to components with the same reference numerals, in principle also to the drawings and / or the description of the other exemplary embodiments, in particular the 1 to 3rd , can be referenced. To distinguish the exemplary embodiments, the letter a is the reference number of the exemplary embodiment in FIG 1 to 3rd re-enacted. In the embodiments of 4th and 5 the letter a is replaced by the letters b or c.

In 4th is an alternative embodiment of a charge status display device 12b of a rechargeable battery 10b shown as a schematic diagram of a circuit diagram. The charge level indicator 12b comprises a display unit 22b for displaying a charge level of the rechargeable battery 10b and one a coil 42b comprehensive actuation unit 26b , the actuation unit 26b is designed to generate a magnetic field. The display unit 22b comprises a movable, in particular movably mounted, display element 24b , which is designed to display the charge level of the battery 10b by means of the magnetic field of the actuation unit 26b to be moved. The one in the 4th shown charge status display device 12b has an embodiment that is at least essentially analogous to that in the description of FIG 1 to 3rd charge status display device described 12a on, so that with respect to an embodiment of the 4th shown charge status display device 12b at least essentially on the description of the 1 to 3rd can be referenced. In contrast to that in the description of the 1 to 3rd charge status display device described 12a assigns the in the 4th shown charge status display device 12b preferably a fixation unit 74b which is designed to be the display element 24b in at least one position deflected by means of the magnetic field, in particular relative to the actuation unit 26b to fix at least temporarily. The fixation unit 74b is designed to the display element 24b , in particular after the actuation unit has been actuated 58a and / or when the state of charge is displayed, to be fixed in a position that is maximally deflected by means of the magnetic field for displaying the state of charge. The fixation unit 74b is designed to the display element 24b to be fixed in the maximally deflected position via a positive and / or non-positive connection. The fixation unit 74b comprises a mechanical fixation element 76b , which is designed to fix the display element 24b with the display unit 22b , especially the display element 24b to work together. The fixation element 76b is designed as a spring-loaded bolt, in particular a restoring force in one of a movement axis 50b of the display element 24b facing direction is aligned. There are also other configurations of the fixing element 76b conceivable, for example as a bolt, as a latching element or as a rigid component. The fixation element 76b is to fix the display element 24b between the display element 24b and the actuation unit 26b , especially the coil 42b , in one of a management unit 30b , in particular a guide element 34b the management unit 30b , limited storage recess 36b movable into it. The fixation unit 74b comprises a counter-fixing element 78b , which is designed to fix the display element 24b with the fixation element 76b to work together. The counter fixing element 78b is on the display element 24b arranged and together with the display element 24b movably mounted. The fixation element 76b is on the management unit 30b , in particular the guide element 34b , arranged. The counter fixing element 78b corresponds to the fixation element 76b designed as an elongated perforated plate. There are also other configurations of the counter-fixing element 78b conceivable, for example as a component or the like delimiting a plurality of latching recesses arranged next to one another or next to one another. The counter-fixing element 78b is at least partially within the bearing recess 36b arranged. Alternatively, it is conceivable that the counter-fixing element 78b on the guide unit 30b , in particular the guide element 34b , is arranged, wherein the fixing element 76b on the display element 24b is arranged and in particular together with the display element 24b is movably mounted. The fixation unit 74b is designed to the display element 24b upon actuation of an actuating element 60b an actuation unit 58b the charge status display device 12b to solve. The fixation element 76b is mechanical with the actuator 60b connected. The fixation element 76b is arranged and / or designed in such a way that the fixing element 76b in the open state, which is particularly in the 4th is shown, an actuator 58b the charge status display device 12b to fix the display element 24b within the bearing recess 36b is arranged and with the counter-fixing element 78b cooperates. The fixation element 76b is arranged and / or designed in such a way that the fixing element 76b in the closed state of the operating unit 58b outside the bearing recess 36b and spaced from the counter-fixing element 78b is arranged. The display element 24b is designed for this purpose when the fixing element is moved out 76b from the bearing recess 36b and separating the fixing element 76b of the counter-fixing element 78b , in particular in the event of a transition from the open state of the actuation unit 58b in the closed state of the actuation unit 58b to be solved. Alternatively, it is conceivable that the fixing element 76b or another fixation element of the fixation unit 74b is designed to fix the display element 24b with one, in particular on the display element 24b arranged, return element 56b the display unit 22b to work together.

In 5 is a further alternative embodiment of a charge status display device 12c of a rechargeable battery 10c as a basic sketch of a circuit diagram shown. The charge level indicator 12c comprises a display unit 22c for displaying a charge level of the rechargeable battery 10c and one a coil 42c comprehensive actuation unit 26c , the actuation unit 26c is designed to generate a magnetic field. The display unit 22c comprises a movable, in particular movably mounted, display element 24c , which is designed to display the charge level of the battery 10c by means of the magnetic field of the actuation unit 26c to be moved. The one in the 5 shown charge status display device 12c has an embodiment that is at least essentially analogous to that in the description of FIG 4th charge status display device described 12b on, so that with respect to an embodiment of the 5 shown charge status display device 12c at least essentially on the description of the 4th can be referenced. In contrast to that in the description of the 4th charge status display device described 12a assigns the in the 5 shown charge status display device 12c preferably a fixation unit 74c on which a fixation element 76c comprises, which is designed to the display element 24c to be fixed via a non-positive connection, in particular the fixing element 76c to fix the display element 24c from at least one side at least substantially perpendicular to an axis of movement 50c of the display element 24c to the display element 24c is created. The fixation element 76c is designed to the display element 24c to apply a frictional force which is in particular at least greater than that on the display element 24c acting restoring force of a restoring element 56c the display unit 22c . The fixation element 76c is designed as a mechanical fixing element which is designed to fix the display element 24c with the display unit 22c , especially the display element 24c to work together. The fixation element 76c is designed as a clip, which in particular in the open state of an actuating element 60c an actuation unit 58c the charge status display device 12c to the display element 24c is created. There are also other configurations of the fixing element 76c conceivable, for example as a brake shoe, as a loop or the like. The fixing unit 74c is designed to the display element 24c upon actuation of the actuating element 60c to solve. The fixation element 76c is arranged and / or designed in such a way that the fixing element 76c in the open state of the operating unit 58c the charge status display device 12c to fix the display element 24c on the display element 24c is applied. The fixation element 76c is arranged and / or designed in such a way that the fixing element 76c in the closed state of the operating unit 58c spaced from the display element 24c is arranged. In particular, the actuating element 60c formed spring-loaded, wherein the fixing element 76c , in particular via a movement of the actuating element 60c into an open state after releasing an actuation of the actuating element 60c by a user 62c to the display element 22c is created. The display element 24c is designed for a separation of the fixing element 76c of the display element 24c , in particular in the event of a transition from the open state of the actuation unit 58c in the closed state of the actuation unit 58c to be solved. The fixation element 76c is in the open state of the actuating element 60c at least partially in one of a guide unit 30c , in particular a guide element 34c the management unit 30c , limited storage recess 36c arranged. The fixation element 76c is at least substantially perpendicular to the axis of movement 50c , in particular by one of the guide unit 30c , in particular the guide element 34c , limited viewing window 38c , viewed outside one through the viewing window 38c visible area 70c and / or at a distance from the viewing window 38c and / or a reference element 28c the display unit 22c arranged.

In 6th is a battery operated device 11d with a permanently integrated battery 10d shown. The battery 10d comprises an energy storage unit 18d that are fixed to a consumer unit, for example a motor, of the battery-operated device 11d is connected, in particular the consumer unit is not shown in the figures. The battery-operated device 11d has a charge level indicator 12d on. The charge level indicator 12d comprises a display unit 22d for displaying a charge level of the rechargeable battery 10d , especially the energy storage unit 18d , and one a coil 42d comprehensive actuation unit 26d , the actuation unit 26d is designed to generate a magnetic field. The display unit 22d comprises a movable, in particular movably mounted, display element 24d , which is designed to display the charge level of the battery 10d , especially the energy storage unit 18d , by means of the magnetic field of the actuation unit 26d to be moved. The one in the 6th shown charge status display device 12d has an embodiment that is at least essentially analogous to that in the description of FIG 1 to 3rd charge status display device described 12a on, so that with respect to an embodiment of the 6th shown charge status display device 12d at least essentially on the description of the 1 to 3rd can be referenced. The display unit 22d and a guide unit 30d the charge status display device 12d are at least partially on a housing wall of the battery-operated device 11d arranged, in particular the display element moved by means of the magnetic field 24a by one about the guide unit 30d limited viewing window 38d and through one on the viewing window 38d arranged transparent cover element 29d the display unit 22d are arranged to be visible from the outside by a user.

Claims (11)

Charge status display device for a battery (10a; 10b; 10c), in particular a battery pack, and / or for a battery-operated device, with at least one display unit (22a; 22b; 22c) for displaying a charge status of the battery (10a; 10b; 10c) and with at least one actuation unit (26a; 26b; 26c) comprising, in particular, a coil (42a; 42b; 42c), the actuation unit (26a; 26b; 26c) being designed to generate a magnetic field, characterized in that the Display unit (22a; 22b; 22c) comprises at least one movable, in particular movably mounted, display element (24a; 24b; 24c) which is designed to display the charge status of the battery (10a; 10b; 10c) by means of the magnetic field of the Actuating unit (26a; 26b; 26c) to be moved. Charge status display device according to Claim 1 , characterized by at least one guide unit (30a; 30b; 30c) which is designed to move the display element (24a; 24b; 24c) moved by means of the magnetic field along a, in particular at least substantially straight, route (32a; 32b; 32c) respectively. Charge status display device according to Claim 1 or 2 , characterized in that the display unit (22a; 22b; 22c) comprises at least one reference element (28a; 28b; 28c), the display element (24a; 24b; 24c) being designed to provide information about a position of the display element (24a; 24b; 24c) to display the state of charge relative to the reference element (28a; 28b; 28c) and / or the actuation unit (26a; 26b; 26c). Charge status display device according to one of the preceding claims, characterized in that the display element (24a; 24b; 24c) has at least one movement axis (50a; 50b; 50c), the display element (24a; 24b; 24c) relative to the actuation unit (26a; 26b ; 26c) is arranged and / or movably mounted in such a way that field lines of the magnetic field generated by means of the actuation unit (26a; 26b; 26c) are aligned at least substantially perpendicular to the movement axis (50a; 50b; 50c). Charge status display device according to one of the preceding claims, characterized in that the display unit (22a; 22b; 22c) comprises at least one restoring element (56a; 56b; 56c) which is designed to apply a restoring force to the display element (24a; 24b; 24c) apply. Charge status display device according to Claim 5 , characterized in that the restoring element (56a; 56b; 56c) is designed as a mechanical spring element. Charge status display device according to one of the preceding claims, characterized by at least one actuation unit (58a; 58b; 58c) which comprises at least one actuation element (60a; 60b; 60c) which is designed to, upon actuation of the actuation element (60a; 60b; 60c) in particular by a user (62a; 62b; 62c) to apply a battery voltage of the battery (10a; 10b; 10c) directly to the actuation unit (26a; 26b; 26c), the actuation unit (26a; 26b; 26c) being designed for this to generate the magnetic field moving the display element (24a; 24b; 24c) via the battery voltage. Charge status display device according to one of the preceding claims, characterized by at least one fixing unit (74b; 74c) which is designed to hold the display element (24b; 24c) in at least one position deflected by means of the magnetic field, in particular relative to the actuation unit (26b; 26c) to fix at least temporarily. Charge status display device according to Claim 8 , characterized in that the fixing unit (74b; 74c) comprises at least one mechanical fixing element (76b; 76c) which is designed to fix the display element (24b; 24c) to the display unit (22b; 22c), in particular the display element (24b; 24c) to work together. Charge status display device at least after Claim 7 and 8th , characterized in that the fixing unit (74b; 74c) is designed to release the display element (24b; 24c) when the actuating element (60b; 60c) is actuated. Battery, in particular battery pack, or battery-operated device with at least one charge status display device (12a; 12b; 12c) according to one of the preceding claims.

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