DE102020201267A1 - Battery interface, consumer with a battery interface and system comprising a consumer and a battery pack - Google Patents

Abstract

Battery interface for the detachable connection of a consumer to a battery pack, the battery interface having an ejector device for ejecting the battery pack with a triggering force, the ejecting device being triggered by means of an actuating force, an actuating direction of the actuating force and a triggering direction of a triggering force being opposite to one another. It is proposed that the actuation force have a smaller amount than the release force.

Description

State of the art

Mobile marking systems with a rotating laser are already from the DE 10 2013 217 379 famous. From the DE 10 2005 020 358 an electrical device with a power supply unit is known, the electrical device having an ejection spring for ejecting the power supply unit.

Disclosure of the invention

Battery interface for the detachable connection of a consumer to a battery pack, the battery interface having an ejector device for ejecting the battery pack with a triggering force, the ejecting device being triggered by means of an actuating force, an actuating direction of the actuating force and a triggering direction of a triggering force being opposite to one another. It is proposed that the actuation force have a smaller amount than the release force. In this way, improved ejection of the battery pack can advantageously be achieved.

The battery interface can be assigned to the consumer and / or the battery pack. The battery interface is designed in particular for the mechanical connection of the battery pack to the consumer.

The battery interface preferably has at least one guide element which is designed to guide the battery pack when connecting the battery pack to the consumer along a guide direction or connection direction. The guide element can be designed, for example, as a guide rail or as a guide groove.

In this context, a triggering force is to be understood as meaning, in particular, a force which acts on the battery pack when the ejector device is triggered. The triggering direction of the triggering force is preferably formed coaxially or parallel to the guiding direction. Alternatively, it would also be conceivable that the triggering direction is designed to cross the guide direction. Alternatively, it would also be conceivable that the actuation direction and the release direction are designed to cross or perpendicular to one another.

The actuation force can be applied manually via actuation by a user or semi-automatically via an actuator which is arranged in the consumer or in the battery pack.

The battery pack is in particular part of a system that is composed of the battery pack and the consumer, the consumer being supplied with energy via the battery pack during operation. The battery pack is designed in particular as an exchangeable battery pack. The battery pack is preferably designed as a handheld power tool battery pack for supplying a handheld power tool with energy. The battery pack is designed, in particular, to be connectable to a charging device for charging the battery pack. The battery pack has a battery pack housing in which at least one battery cell is arranged. The rechargeable battery cell can be designed as a galvanic cell which has a structure in which one cell pole comes to lie at one end and another cell pole at an opposite end. In particular, the battery cell has a positive cell pole at one end and a negative cell pole at an opposite end. The battery cells are preferably designed as NiCd or NiMh cells, particularly preferably as lithium-based battery cells or Li-ion battery cells. The battery voltage of the battery pack is usually a multiple of the voltage of an individual battery cell and results from the connection (parallel or series) of the battery cells. With common battery cells with a voltage of 3.6 V, this results in exemplary battery voltages of 3.6 V, 7.2 V, 10, 8 V, 14.4 V, 18 V, 36 V, 54 V, 108 V etc. The rechargeable battery cell is preferably designed as an at least essentially cylindrical round cell, the cell poles being arranged at the ends of the cylindrical shape. The battery pack housing is designed in particular as an outer housing. The battery pack housing can have one or more housing parts. The housing parts are non-positively, positively and / or cohesively connected to one another.

In particular, the consumer can use it as a gardening device, such as a lawn mower or hedge trimmer, as a household device, such as an electric window cleaner or hand vacuum cleaner, as a handheld power tool, such as an angle grinder, a screwdriver, a drill, a hammer drill, etc. or as a a measuring device, such as a laser distance measuring device or a rotating laser, for example. Furthermore, it is also conceivable that the consumer is designed as another device, in particular a portable device, such as construction site lighting, a suction device or a construction site radio. The battery pack can be non-positively and / or positively connected to the consumer via the battery interface.

In addition, the battery interface has in particular at least one electrical interface via which the battery pack can be electrically connected to the consumer and / or to the charging device. The battery pack can, for example, be charged and / or discharged via the electrical interface. Alternatively or additionally, it is also conceivable that Information can be transmitted via the electrical interface. The electrical interface is preferably designed as a contact interface in which the electrical connection is made via a physical contact of at least two conductive components. The electrical interface preferably comprises at least two electrical contact elements. In particular, one of the electrical contact elements is designed as a plus contact and the other electrical contact element is designed as a minus contact. Alternatively or additionally, the electrical interface can have a secondary charging coil element for inductive charging. In addition, the electrical interface can have at least one additional contact which is designed to transmit additional information to the consumer and / or to the charging device. The battery pack preferably has battery pack electronics, it being possible for the battery pack electronics to include a storage unit on which the information is stored. Additionally or alternatively, it is also conceivable that the information is determined by the battery pack electronics. The information can be, for example, a charge status of the battery pack, a temperature within the battery pack, a coding or a remaining capacity of the battery pack. It is also conceivable that the battery pack electronics are designed to regulate or control the charging and / or discharging process of the battery pack. The battery pack electronics can have, for example, a printed circuit board, a computing unit, a control unit, a transistor, a capacitor, and / or the memory unit. The electronics can also have one or more sensor elements, for example a temperature sensor for determining the temperature within the battery pack. The battery pack electronics can alternatively or additionally have a coding element, such as a coding resistor.

It is further proposed that the amount of the triggering force is at least substantially 200%, preferably by at least substantially 400%, preferably by at least substantially 600%, greater than the amount of the actuating force. In this way, the ejection process can advantageously be further optimized for the user. In particular, the actuation force is smaller than essentially 60 N, preferably smaller than essentially 40 N, preferably smaller than essentially 30 N. In particular, the trigger force is smaller than essentially 250 N, preferably smaller than essentially 200 N, preferably smaller than Essentially 180 N.

It is also proposed that the ejection device be arranged in the region of the at least one guide element. This can advantageously prevent the battery pack from tilting when it is ejected. The ejection device is arranged in particular in the immediate vicinity of the guide element. In particular, the ejection device is designed such that a point of application of the actuating force is arranged directly on a guide element of the consumer or of the battery pack.

It is also proposed that the battery interface have at least one locking device which can be actuated via an actuating element. This advantageously enables the battery pack to be securely attached to the consumer. In particular, the ejection device is designed such that the ejection device can be triggered by unlocking the locking device. The actuating element can be designed, for example, as a button, lever or button. The locking device is designed to lock the battery pack with the consumer and / or the charging device. The actuating element can be arranged on the consumer or the battery pack. The actuation force corresponds in particular to the force that is required to move the actuation element in such a way that the lock is released.

It is further proposed that the ejection device has a restoring element and an ejection element, the ejection element being movably connected to the consumer or the battery pack. The ejection element and the restoring element can be formed integrally with one another. The restoring element is preferably designed as a spring element, for example a helical spring, an annular spring or a spiral spring. In particular, the spring element is designed as a compression spring or a tension spring. The spring rate of the spring element is preferably in a range between 10 N / mm and 50 N / mm, preferably between 15 N / mm and 25 N / mm.

Furthermore, the invention relates to a consumer, in particular a measuring device, with a battery pack receptacle, the battery pack receptacle having an opening via which a battery pack can be completely inserted into the battery pack receptacle and locked via a locking device, with a battery interface arranged in the battery pack receptacle for the detachable connection of a consumer with a battery pack. It is proposed that the battery interface have an ejection device for ejecting the battery pack with a triggering force, a point of application of the triggering force being arranged within the battery pack receptacle.

It is also proposed that the ejection device is designed such that a battery pack acted upon by the triggering force performs a movement at the end of which the battery pack has a smaller distance from the opening than in a locked state. This advantageously makes it easier to remove the battery pack from the battery pack receptacle. The consumer preferably has a standing surface on which the consumer stands during operation and when loosening or connecting. The triggering direction of the triggering force is preferably directed parallel to the standing surface or on the standing surface. Alternatively, it is also conceivable that the release direction of the release force is directed away from the standing surface.

It is further proposed that a distance of the movement corresponds to at least 5% of the length of the battery pack or the battery pack receptacle, preferably 10% of the length of the battery pack or the battery pack receptacle. Alternatively, it is also conceivable that a distance of the movement corresponds to at least 5 mm, preferably 9 mm, preferably 15 mm. A tool-free removal of the battery pack can thereby advantageously be ensured.

It is further proposed that the opening be designed to be closable, in particular to be designed to be closable via a cover element. In this way, the battery pack receptacle can advantageously be effectively protected against the ingress of dust and / or liquids. The cover element can be designed to be completely detachable from a housing of the consumer. It is also conceivable that the cover element is movably attached to the housing of the consumer, for example via one or more hinges.

It is also proposed that the cover element have a locking element for locking the cover element to the housing of the consumer. This can advantageously ensure that the cover element does not come loose unintentionally. The locking element is preferably movably attached to the cover element. Alternatively, it would also be conceivable that the locking element is movably attached to the housing of the consumer.

It is further proposed that the consumer has a sealing unit which is arranged in the area of the closable opening, the sealing unit being designed to prevent moisture and / or dirt from penetrating into the battery pack receptacle in the closed state. In particular, the sealing unit has a sealing element which is designed as a sealing ring running around the closable opening. The protection of the battery pack receptacle can advantageously be further improved by the sealing unit.

In addition, the invention relates to a system having a consumer as described above and a battery pack, the battery pack having a locking device with an actuating element. It is proposed that the locking element of the consumer and the actuating element of the battery pack are mechanically coupled to one another in such a way that when the locking element is actuated, the actuating element is actuated at the same time. In this way, a system that is particularly easy to operate can advantageously be provided.

Figure list

Further advantages emerge from the following description of 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.

• Fig. la eine Vorderansicht eines als Messgerät ausgebildeten Verbrauchers;
• 1b eine perspektivische Ansicht eines Akkupacks;
• 1c eine Vorderansicht des Verbrauchers ohne Deckelelement;
• 1d eine perspektivische Ansicht einer erfindungsgemäßen Akkuschnittstelle;
• 1e eine Vorderansicht des Verbrauchers gemäß 1c mit eingesetzten und verriegelten Akkupack;
• 2 ein Querschnitt durch den Verbraucher gemäß 1e;
• 3 eine perspektivische Teilansicht einer erfindungsgemäßen Auswurfvorrichtung.

Show it:

• La is a front view of a consumer designed as a measuring device;
• 1b a perspective view of a battery pack;
• 1c a front view of the consumer without cover element;
• 1d a perspective view of a battery interface according to the invention;
• 1e a front view of the consumer according to 1c with inserted and locked battery pack;
• 2 a cross section through the consumer according to 1e ;
• 3 a perspective partial view of an ejection device according to the invention.

In Fig. La is a consumer 10 shown by way of example as a measuring device 12th or is designed as a rotating laser for leveling work. The measuring device 12th is available as a battery operated measuring device 12th educated. The measuring device 12th can be detached with a battery pack 200 connectable, the in 1b is shown in a perspective view.

The measuring device 12th has a housing 14th on, which is a first housing part 16 and a second housing part 18th includes. The case 14th is designed as an outer housing. The first housing part 16 is an example at the lower end of the measuring device 12th arranged and has a stand area 20th on which the meter 12th can be placed for storage or operation. The stand area 20th also includes a coupling unit, not shown, for coupling to a construction tripod, not shown. The first housing part also includes 16 Einw battery pack holder 22nd that are used to accommodate the battery pack 200 is trained. The battery pack holder 22nd is in the interior of the case 14th , in particular the first housing part 16 , arranged. In addition, the battery pack holder is 22nd exemplarily designed lockable. For this purpose, the measuring device includes 12th a cover element 24 , the example on the front of the measuring device 12th is arranged. The cover element 24 is about a hinge 26th with the case 14th , in particular the first housing part 16 , of the measuring device 12th connected. Thus, the cover element is 24 movable on the housing 14th of the measuring device 12th attached. For a comfortable connection process with the battery pack 200 is to provide the cover element 24 designed in such a way that it is between a closed position and a fully open position by at least 80 °, preferably by at least 90 °, about the axis of rotation 28 is pivotable. The axis of rotation 28 is done by the hinge 26th Are defined.

The cover element 24 is shown in Fig. La in the closed position. The cover element is in the closed position 24 for example designed to be lockable. The locking of the cover element 24 takes place via a locking element 30th . The locking element 30th is an example on the cover element 24 movably attached. The locking element 30th is designed to be manually operable from the outside by a user, the operation via a linear sliding movement along the axis of rotation 28 he follows. Alternatively, it would also be conceivable that the locking element 30th is designed as a push button. Only in the closed position of the cover element 24 is the locking element 30th designed to be actuatable in such a way that, in the actuated state, it is in a corresponding contour of the housing 14th of the measuring device 12th engages and thus the cover element 24 with the case 14th of the measuring device 12th additionally connects positively so that the battery pack receptacle 22nd cannot be opened.

The second part of the housing 18th includes a laser unit 32 trained for leveling work. The laser unit 32 sits on the housing 14th of the measuring device 12th on. Inside the case 14th , in particular the second housing part 18th , is an electronics 34 arranged. The Electronic 34 is for controlling or regulating the measuring device 12th educated. In addition, the measuring device 12th a user interface 36 on that turn a screen 38 and several controls 40 for manual control of the measuring device 12th includes. About the electronics 34 is the user interface 36 with the laser unit 32 connected to control this.

The first housing part 16 has a single opening 42 on that over the cover element 24 Is formed lockable. The first housing part 18th is closed to the outside and is essentially tight. Thus, moisture can essentially only pass through the first housing part 16 , especially the opening 42 , into the housing 14th of the measuring device 12th penetration. About the electronics 34 inside the second housing part 18th To effectively protect against moisture, the measuring device has a sealing unit 44 on. In 1c is the measuring device 12th without cover element 24 shown. The sealing unit 44 comprises a first sealing element 46 and a second sealing element 48 . The first sealing element 46 is in the area of the opening 42 arranged and exemplarily as a circumferential sealing ring 50 formed from an elastomer. Through the first sealing element 46 is the battery pack holder 22nd effectively protected against moisture penetration when closed. The second sealing element 48 is in the area between the first housing part 16 and the second housing part 18th arranged. When assembling the first housing part 16 with the second housing part 18th are these two housing parts 16 , 18th non-positively and positively connected to one another via a screw connection. The second sealing element 48 is so between the housing parts 16 , 18th arranged that the connection area is sealed to the outside. The second sealing element is preferably 48 designed such that the second housing part 18th in addition to the first housing part 16 is sealed. Alternatively, it would also be conceivable that a further sealing element takes over this function.

The measuring device 12th also includes four handles 52 , with the two housing parts 16 , 18th two handles each 52 include. The handles 52 of the first housing part 16 partially form the stand area 20th .

The battery pack 200 is exemplary as a handheld power tool battery pack 201 intended. As a handheld power tool battery pack 201 is the battery pack 200 intended for use with a hand machine tool such as a hammer drill. The battery pack 200 has a battery pack housing 204 on, in which, for example, ten battery cells (not shown) are included. The battery pack 200 is via a battery interface 100 with the measuring device 12th trained connectable.

The battery interface 100 is exemplary to the consumer 10 or the measuring device 12th assigned. However, it is also conceivable that the battery interface 100 the battery pack 200 or is assigned to a charging device (not shown). The battery interface 100 is completely in the battery pack holder 22nd of the measuring device 12th arranged and in 1c to see. The battery interface 100 is for the mechanical and electrical connection of the measuring device 12th with the battery pack 200 educated.

In 1d is the battery interface 100 shown in a perspective view. The battery interface is used for the mechanical connection 100 Guiding elements 102 . The battery interface includes, for example 100 two guide elements 102 that act as guide rails 104 are formed and on each side a guide groove 106 limit. When connecting the battery pack 100 with the measuring device 12th becomes the battery pack 200 through the guide elements 102 linearly guided. The guide elements take hold 102 the battery interface 100 into corresponding guide elements 206 of the battery pack 200 on. The guiding elements 206 of the battery pack 200 are used as guide grooves 208 formed on one side of a guide rail 210 be limited.

For locking the battery pack 100 with the measuring device 12th indicates the battery interface 100 also a locking device 110 on. The locking device 110 comprises a locking element 111 for example in the form of a bag 113 , which is designed such that a corresponding locking element 212 of the battery pack 200 can form a non-positive and positive connection with this. The locking element 212 of the battery pack 200 is rotatable in the battery pack housing 202 stored and acted upon with a return element, not shown, with a force in the direction of the locking position. The locking element 212 of the battery pack 200 is mechanical with an actuator 214 (please refer 1e) of the battery pack 200 coupled, the example linearly movable in the battery pack housing 202 is stored. Via linear actuation or pressing in the actuating element 214 the locking element rotates 212 against the restoring force of the restoring element from the locked position into the battery pack housing 202 into the unlocked position.

When connecting, the battery pack 200 pushed in until the battery pack 200 a stop 108 of the measuring device 12th applied. The attack 108 is exemplified by a wall 109 a contact holder 112 educated. The contact holder 112 consists of an electrically insulating material, for example plastic. The contact holder 112 includes, for example, five contact elements 114 . The contact elements 114 step in the wall 109 from the contact holder 112 outwards, with the wall transverse to the direction of insertion 218 of the battery pack 200 extends. The two outer contact elements 114 are as power contacts 116 educated. About the power contacts 116 becomes the consumer 10 supplied with energy. The inner three contact elements 114 are used as signal contacts 118 educated. Via the signal contacts 118 can transfer information between the meter 12th and the battery pack 200 , especially between electronics 34 of the measuring device 12th and battery pack electronics, not shown, of the battery pack 200 , be replaced. A signal contact 118 be designed to provide temperature information from a temperature sensor (not shown) of the battery pack 200 to recieve. Another signal contact 118 can be used as an example for connection to a coding resistor or coding contact of the battery pack 200 be provided. The contact holder 112 is fixed to the housing 14th of the measuring device 12th , in particular the first housing part 16 of the measuring device 12th , connected. The contact holder 112 is an example of a screw connection to the first housing part 16 non-positively and positively connected. The contact elements 114 are of the material of the contact holder 112 encapsulated. The guiding elements 102 and the locking element 111 the battery interface 100 are, for example, in one piece with the contact holder 112 educated.

The battery interface also includes 100 a mechanical coding element 120 . The mechanical coding element 120 is intended to connect the measuring device 12th to be permitted only with the battery packs provided for this purpose. The mechanical coding element 120 is as a recess in the contact holder 112 formed the wall 109 breaks through. In particular, the mechanical coding element 120 the battery interface 100 in the direction of insertion behind the exposed contact elements 114 arranged. The recess or the mechanical coding element 120 is shaped as an example rectangular. The corresponding mechanical coding element 216 of the battery pack 200 is in the direction of insertion 218 of the battery pack behind the guide rails 210 of the battery pack 200 arranged.

In 1e is the measuring device 12th with inserted and locked battery pack 200 without cover element 24 shown. The battery pack 200 is completely in the battery pack holder 22nd arranged so that this by means of the cover element 24 is lockable.

In 2 is a cross-section through the measuring device 12th with inserted battery pack 200 in the battery pack holder 22nd shown. In cross section, the battery pack receptacle 22nd essentially a T-shape. In particular, the battery pack receptacle 22nd one in the direction of insertion 218 of the battery pack 200 seen front width 54 and a back width 56 on. Where is the front width 54 larger than the rear width 56 . The back width 56 extends essentially along the area in which the battery pack 200 is arranged in the attached state. The back width 56 is chosen so that it is the width of the battery pack 200 by a maximum of 25%, preferably by a maximum of 10%. The mechanical stability of the in the measuring device is thereby advantageous 12th attached battery packs 200 elevated. The front width 54 is at least 25%, preferably and shown by way of example at least 50%, greater than the rear width 56 . This can be advantageous partially detached battery pack 200 from the battery pack holder 22nd can be easily removed. The area of the battery pack receptacle 22nd with the rear width 56 extends in the fastened or locked state essentially along the entire length of the battery pack 200 . So the battery pack is 200 in the locked state at a distance from the area with the front and greater width 54 arranged. Due to the non-existent or only very marginal overlap with the area with the front width 54 can the battery pack 200 cannot be removed manually from this position.

For this reason, the battery interface 100 an ejector 130 on. The ejector 130 includes, for example, two ejection elements 132 and two spring elements 134 . The spring elements 134 are designed as helical springs, for example. The ejection elements 132 can move linearly in the contact holder 112 stored and are supported by the spring elements 134 against the direction of insertion 218 of the battery pack 200 applied with a release force. The triggering force thus has a triggering direction 136 the direction of insertion 218 of the battery pack 200 is opposite.

The spring elements 134 support themselves on a first page 138 on the contact holder 112 away. On a second page 140 that the first page 138 opposite, the spring elements are supported 134 on the ejector element 132 away. In the locked state with the battery pack inserted 200 the spring elements are supported 134 on the second page 140 only on the spring element 134 while in the unlocked state without the battery pack inserted 200 the spring elements 134 is also located on the second side of the contact holder 112 prop up.

One length 142 the route along which the ejector element 132 is movably mounted corresponds essentially to a length of the section of the contact elements 114 of the contact holder 112 from the contact holder 112 steps outwards or is exposed (see 1d ). The difference in these lengths is preferably less than 25% in order to ensure a compact design of the battery interface 100 to realize. In addition, the length is 142 the distance is less than the area of the battery pack receptacle 22nd with the front width 54 .

The contact holder 112 shows each ejector element 132 a passage 144 on. Through the passage 144 is the ejection element 132 from an interior 146 the contact holder 112 can be guided outwards. The ejection elements 132 are designed in one piece, for example. The passages 144 are arranged, for example, in an area in which the guide grooves 106 the battery interface 100 end up. Thus, the ejector elements occur 132 in the area of the guide grooves 106 from the contact holder 112 to the outside and are along the guide grooves 106 and in the guide grooves 106 movably mounted. The front end 148 the ejection elements 132 is designed to use the battery pack 200 to apply the release force and thus forms the point of application of the release force (see 3 ). As in 2 can be seen, acts on the ejector element 132 the battery pack 200 in the guide area or directly the guide rail 210 of the battery pack 200 . A misunderstanding of the battery pack is advantageous as a result 200 in the battery interface 100 prevented during ejection.

For connecting the battery pack 200 with the measuring device 12th via the battery interface 100 is first the cover element 24 of the measuring device 12th unlocked and opened. The battery pack 200 is aligned so that the guide rails 210 of the battery pack 200 in the guide grooves 106 the battery interface 100 of the measuring device 12th intervene and the battery pack 200 is along the direction of insertion 218 into the battery pack holder 22nd of the measuring device 12th pushed in until it is completely in the battery pack holder 22nd is arranged and the locking element 212 of the battery pack 200 in that as a pocket 113 trained corresponding locking element 111 the battery interface 100 intervenes and thus the measuring device 12th and the battery pack 200 is positively and positively connected. Before the locking elements 111 , 212 engage in each other act on the ejection elements 132 the battery pack 200 , especially the guide rails 210 of the battery pack 200 so that the user has an additional force against the release force of the spring elements 134 of the ejector 130 must raise. Thus, the connection force is greater than the release force.

The battery pack 200 is held in the locked state by an undercut. This undercut is designed to be detachable, with unlocking via manual actuation of the actuating element 214 of the battery pack 200 he follows. The actuation of the actuating element 214 takes place via an actuating force on the actuating element, its direction 220 the release force is opposite. In particular, the direction of actuation corresponds 220 the direction of insertion 218 of the battery pack 200 .

The amount of actuation force required to release the lock is initially independent of the release force. However, this is advantageously chosen so that it is smaller than the release force. Thus, with a light pressure on the battery pack 200 or the actuating element 214 the lock can be released, which triggers the ejector and the battery pack 200 opposite to the actuation force caused by the release force opposite to the insertion direction 218 is moved outwards.

The release force is determined by the number, type and nature of the spring elements 134 . By suitable choice of spring elements 134 it can be ensured that a length of the route along which the battery pack is located 200 moved due to the release force, at least the length 142 the route along which the ejection elements 132 are movably mounted, corresponds. If the release force is sufficiently high, the distance of the battery pack 200 exceed this value by removing the battery pack 200 due to the acceleration not at the end of the movement of the ejector elements 132 comes to rest.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102013217379 [0001]
• DE 102005020358 [0001]

Claims (14)

Battery interface for the detachable connection of a consumer (10) to a battery pack (200), the battery interface (100) having an ejection device (130) for ejecting the battery pack (200) with a triggering force, wherein the ejecting device (140) can be triggered by means of an actuating force , wherein an actuation direction (220) of the actuation force and a release direction (136) of the release force are opposite to one another, characterized in that the actuation force has a smaller amount than the release force. Battery interface Claim 1 , characterized in that the amount of the triggering force is at least 10%, preferably by at least 25%, preferably by at least 50%, greater than the amount of the actuating force. Battery interface according to one of the preceding claims, characterized in that the battery interface (130) has at least one guide element (102) for guiding the battery pack (200), the ejection device (130) being arranged in the region of the at least one guide element (102). Battery interface according to one of the preceding claims, characterized in that the battery interface (100) has at least one locking device (110) which can be actuated via an actuating element (200). Battery interface according to one of the preceding claims, characterized in that the ejection device (130) has a spring element (134) and an ejection element (132), the ejection element (132) being movably connected to the consumer (10) or the battery pack (200) . Consumer (10), in particular measuring device (12), with a battery pack receptacle (22), the battery pack receptacle (22) having an opening (42) via which a battery pack (200) can be completely inserted into the battery pack receptacle (22) and via a locking device (110) can be locked, with a battery interface (100) arranged in the battery pack receptacle (22) for the detachable connection of the consumer (10) to a battery pack (200), characterized in that the battery interface (100) has an ejection device (130) for ejection of the battery pack (200) with a triggering force, a point of application of the triggering force being arranged within the battery pack receptacle (22). Consumer after Claim 6 , characterized in that the ejection device (130) is designed in such a way that a battery pack (200) to which the triggering force is applied performs a movement at the end of which the battery pack (200) has a smaller distance from the opening (42) than in a locked state . Consumer after Claim 7 , characterized in that a distance of the movement corresponds to at least 5% of the length of the battery pack or the battery pack receptacle, preferably 10% of the length of the battery pack or the battery pack receptacle. Consumers according to one of the Claims 7 or 8th , characterized in that a distance of the movement corresponds to at least 5 mm, preferably 9 mm, preferably 15 mm. Consumers according to one of the Claims 6 until 9 , characterized in that the opening (42) is designed to be closable, in particular is designed to be closable via a cover element (24). Consumer after Claim 10 , characterized in that the cover element (42) has a locking element (30) for locking the cover element (24) to a housing (14) of the consumer (10). Consumers according to one of the Claims 6 until 11 , characterized in that the consumer (10) has a sealing unit (44) which is arranged in the area of the closable opening (42), the sealing unit (44) being designed to prevent moisture and / or dirt from penetrating in the closed state into the battery pack holder (22). Consumer after Claim 12 , characterized in that the sealing unit (44) has a first sealing element (46) which is designed as a sealing ring (50) surrounding the closable opening (42). System comprising a consumer (10) according to Claim 6 and a battery pack, the battery pack having a locking device with an actuating element, characterized in that the locking element of the consumer and the actuating element of the battery pack are mechanically coupled to one another in such a way that when the locking element is actuated, the actuating element is actuated at the same time.

Images