Abstract
A connecting device for detachably connecting electrical connections, for example between a rechargeable battery and an electrical power tool or a rechargeable battery and a charging device. The connecting device includes a carrier unit and at least one receptacle connectable to the carrier unit. A receptacle as part of and for connection to a connecting device. A carrier unit as part of a connecting device and for accommodating at least one receptacle.
Claims
1-9. (canceled)
10. A connecting device for detachably connecting electrical connections, the connecting device comprising: a carrier unit; and at least one first receptacle connectable to the carrier unit.
11. The connecting device as recited in claim 10 further comprising at least one second receptacle connectable to the carrier unit, the at least first and second receptacles being positioned consecutively in series along the carrier unit in such a way that a contact element is connected to the at least first and second receptacles when the contact element is connected to the connecting device.
12. The connecting device as recited in claim 10 wherein the carrier unit includes a U profile having at least two holding elements for positioning and holding the first receptacle on the carrier unit.
13. The connecting device as recited in claim 10 wherein the first receptacle includes a first end, a second end, a base element, a first wall element, a second wall element and a spring unit, including a first spring element and a second spring element, for accommodating and holding a contact element, the first spring element being connected to the first wall element, and the second spring element being connected to the second wall element.
14. The connecting device as recited in claim 13 wherein the first spring element and the second spring element extend from the first end of the receptacle between the first and second wall elements to the second end of the receptacle in a first direction.
15. The connecting device as recited in claim 13 wherein the first spring element and the second spring element extend from the second end of the receptacle in a first direction.
16. The connecting device as recited in claim 13 wherein the base element of the first receptacle includes a convexity and an indentation, the convexity being situated opposite the indentation, and a design of the convexity corresponding to an indentation design of the indentation so that the convexity of the first receptacle is insertable into the indentation of a second receptacle.
17. A receptacle being a part a connecting device for detachably connecting electrical connections, the connecting device comprising a carrier unit; and the receptacle connectable to the carrier unit.
18. A carrier unit being part of a connecting device for detachably connecting electrical connections, the connecting device comprising the carrier unit and a receptacle; the carrier unit connectable to the receptacle.
19. A rechargeable battery connecting device for detachably connecting a rechargeable battery and an electrical power tool or the rechargeable battery and a charging device, the rechargeable battery connecting device comprising the connecting device as recited in claim 10.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
[0018] In the figures, identical and equivalent components are provided with identical reference numerals.
[0019] FIG. 1 shows a perspective view of a carrier unit according to a first specific embodiment;
[0020] FIG. 2 shows a side view of the carrier unit according to the first specific embodiment;
[0021] FIG. 3 shows a top view of the carrier unit according to the first specific embodiment;
[0022] FIG. 4 shows a front view of the carrier unit according to the first specific embodiment;
[0023] FIG. 5 shows a rear view of the carrier unit according to the first specific embodiment;
[0024] FIG. 6 shows a perspective view of a carrier unit according to a second specific embodiment;
[0025] FIG. 7 shows a side view of the carrier unit according to a second specific embodiment;
[0026] FIG. 8 shows a top view of the carrier unit according to the second specific embodiment;
[0027] FIG. 9 shows a front view of the carrier unit according to the second specific embodiment;
[0028] FIG. 10 shows a rear view of the carrier unit according to the second specific embodiment;
[0029] FIG. 11 shows a perspective view of a carrier unit according to a third specific embodiment;
[0030] FIG. 12 shows a perspective top view of a receptacle according to a first specific embodiment;
[0031] FIG. 13 shows a perspective bottom view of the receptacle according to the first specific embodiment;
[0032] FIG. 14 shows a top view of the receptacle according to the first specific embodiment;
[0033] FIG. 15 shows a rear view of the receptacle according to the first specific embodiment;
[0034] FIG. 16 shows a front view of the receptacle according to the first specific embodiment;
[0035] FIG. 17 shows a side view of the receptacle according to the first specific embodiment;
[0036] FIG. 18 shows a perspective top view of a receptacle according to a second specific embodiment;
[0037] FIG. 19 shows a perspective bottom view of the receptacle according to the second specific embodiment;
[0038] FIG. 20 shows a top view of the receptacle according to the second specific embodiment;
[0039] FIG. 21 shows a rear view of the receptacle according to the second specific embodiment;
[0040] FIG. 22 shows a front view of the receptacle according to the second specific embodiment;
[0041] FIG. 23 shows a side view of the receptacle according to the second specific embodiment;
[0042] FIG. 24 shows a top view of the carrier unit according to the first specific embodiment, including one receptacle according to the first specific embodiment;
[0043] FIG. 25 shows a top view of the carrier unit according to the first specific embodiment, including two receptacles according to the first specific embodiment;
[0044] FIG. 26 shows a top view of the carrier unit according to the first specific embodiment, including five receptacles according to the first specific embodiment;
[0045] FIG. 27 shows a side view of the carrier unit according to the first specific embodiment, including one receptacle according to the first specific embodiment;
[0046] FIG. 28 shows a side view of the carrier unit according to the first specific embodiment, including two receptacles according to the first specific embodiment;
[0047] FIG. 29 shows a side view of the carrier unit according to the first specific embodiment, including five receptacles according to the first specific embodiment;
[0048] FIG. 30 shows a rear view of the carrier unit according to the first specific embodiment, including one receptacle according to the first specific embodiment;
[0049] FIG. 31 shows a front view of the carrier unit according to the first specific embodiment, including one receptacle according to the first specific embodiment;
[0050] FIG. 32 shows a rear view of the carrier unit according to the first specific embodiment, including five receptacles according to a first specific embodiment;
[0051] FIG. 33 shows a front view of the carrier unit according to the first specific embodiment, including five receptacles according to a first specific embodiment;
[0052] FIG. 34 shows a top view of the carrier unit according to the first specific embodiment, including one receptacle according to the second specific embodiment;
[0053] FIG. 35 shows a rear view of the carrier unit according to the first specific embodiment, including one receptacle according to the second specific embodiment;
[0054] FIG. 36 shows a front view of the carrier unit according to the first specific embodiment, including one receptacle according to a second specific embodiment;
[0055] FIG. 37 shows a side view of the carrier unit according to the first specific embodiment, including one receptacle according to a second specific embodiment;
[0056] FIG. 38 shows a top view of the carrier unit according to the first specific embodiment, including two receptacles according to a second specific embodiment;
[0057] FIG. 39 shows a top view of the carrier unit according to the first specific embodiment, including five receptacles according to the second specific embodiment;
[0058] FIG. 40 shows a top view of the carrier unit according to the second specific embodiment, including one receptacle according to the first specific embodiment;
[0059] FIG. 41 shows a side view of the carrier unit according to the second specific embodiment, including one receptacle according to the first specific embodiment;
[0060] FIG. 42 shows a top view of the carrier unit according to the second specific embodiment, including two receptacles according to the first specific embodiment;
[0061] FIG. 43 shows a top view of the carrier unit according to the second specific embodiment, including five receptacles according to the first specific embodiment;
[0062] FIG. 44 shows a rear view of the carrier unit according to the second specific embodiment, including one receptacle according to the first specific embodiment;
[0063] FIG. 45 shows a front view of the carrier unit according to the second specific embodiment, including one receptacle according to the first specific embodiment;
[0064] FIG. 46 shows a top view of the carrier unit according to the second specific embodiment, including one receptacle according to the second specific embodiment;
[0065] FIG. 47 shows a rear view of the carrier unit according to the second specific embodiment, including one receptacle according to the second specific embodiment;
[0066] FIG. 48 shows a front view of the carrier unit according to the second specific embodiment, including one receptacle according to a second specific embodiment;
[0067] FIG. 49 shows a top view of the carrier unit according to the second specific embodiment, including two receptacles according to a second specific embodiment; and
[0068] FIG. 50 shows a top view of the carrier unit according to the second specific embodiment, including five receptacles according to a second specific embodiment.
DETAILED DESCRIPTION
[0069] Connecting device 1 according to the present invention for detachably connecting electrical connections, for example between a rechargeable battery and an electrical power tool or a rechargeable battery and a charging device, essentially includes a carrier unit 2 and one or multiple receptacles 3. Connecting device 1 and, in particular, receptacles 3, are primarily used to accommodate a contact element and thus establish an electrical connection between connecting device 1 and receptacles 3. The contact element may also be referred to as a tab, blade or blade element.
[0070] In FIGS. 1 through 5, carrier unit 2 of connecting device 1 is represented according to a first specific embodiment.
[0071] FIG. 1 shows a perspective view of carrier unit 2, which essentially includes a base body 4 and a connecting element 5.
[0072] Connecting element 5 is used to connect connecting device 1 to the control unit or electronics of a power tool, charging unit or rechargeable battery, depending on whether connecting device 1 is contained in a power tool, charging unit or rechargeable battery. Connecting element 5 may be connected to the control unit or electronics with the aid of a cable or a litz wire, which is crimped, soldered or welded to connecting element 5. Control unit 100 of power tool 1000 is shown schematically as connected to connecting element 5.
[0073] Base body 4 of carrier unit 2 extends in an elongated shape and includes a first end 4a, a second end 4b, a base element 4c, a first side element 6 and a second side element 7. Base body 4 is made from a conductive material. Both first side element 6 and second side element 7 each include a first side edge 6a, 7a and a second side edge 6b, 7b. The two side elements 6, 7 are each connected to base element 4c by their first side edges 6a, 7a in such a way that base body 4 essentially forms the shape of a groove having a cavity 8. Base body 4 has a U-shaped cross section. As is described in greater detail later on, cavity 8 is used to accommodate receptacles 3. Base body 4 extends along direction A and B. First and second side elements 6, 7 have a number of recesses 9 on second side edge 6b, 7b. As illustrated in FIGS. 1 through 3, five recesses 9 are provided according to one preferred specific embodiment. Recesses 9 essentially run in parallel to the longitudinal extension of side elements 6, 7 and carrier unit 2. Due to recesses 9, a number of holding elements 10 are present on second side edge 6b of first side element 6. According to the preferred specific embodiment, five holding elements 10 are positioned on first side edge 6a of first side element 6, and five holding elements 10 are positioned on second side edge 6b of first side element 6. According to the first specific embodiment of connecting device 1, holding elements 10 of first and second side elements 6, 7 are bent toward each other. In other words, holding elements 10 are each offset in the direction of cavity 8 of carrier unit 2. As described in greater detail below, holding elements 10 are used to position and hold receptacles 3 on carrier unit 2.
[0074] It should be noted that holding element 10 closest to first end 4a of base body 4 extends in direction A. Remaining holding elements 10 extend in direction B.
[0075] In FIGS. 6 through 10, carrier unit 2 of connecting device 1 is represented according to a second specific embodiment. Connecting device 1 according to the second specific embodiment is essentially identical to connecting device 1 according to the first specific embodiment. In contrast to the first specific embodiment, holding elements 10 of first and second side elements 6, 7 according to the second specific embodiment are not bent toward or offset with respect to each other. In other words, holding elements 10 of first and second side elements 6, 7 extend straight to side elements 6, 7 in direction B or, in the case of holding element 10 closest to first end 4a of base body 4, in direction A. It should be noted that only opposite holding elements 10 closest to first end 4a of base body 4 are bent toward or offset with respect to each other (cf. FIG. 6 or 8).
[0076] According to another specific embodiment of carrier unit 2, it is possible to design all holding elements 10 to be straight (cf. FIG. 11). This additional specific embodiment thus essentially corresponds to carrier unit 2 of connecting device 1 according to the second specific embodiment, but with the difference that opposite holding elements 10 closest to first end 4a of base body 4 are also not bent or offset but extend straight in direction B.
[0077] A receptacle 3 according to a first specific embodiment is represented in FIGS. 12 through 17. Receptacle 3 according to the first specific embodiment essentially includes a first end 3a, a second end 3b, a base element 3c, a first wall element 11, a second wall element 12 and a spring unit 13. First wall element 11 includes a front end 11a, a rear end 11b, an elevation 11c and a recess 11d. Second wall element 12 also includes a front end 12a, a rear end 12b, an elevation 12c and a recess 12d. Spring unit 13, in turn, includes a first spring element 13a and a second spring element 13b for accommodating and holding an elongated contact element. The contact element is illustrated in FIG. 25. First wall element 11 and second wall element 12 are connected to base element 3c and extend essentially orthogonally to base element 3c. It should be noted that first wall element 11 and second wall element 12 may form a certain overextension. In other words, the two wall elements 11, 12 are not necessarily situated at a right angle)(90° to base element 3c. First wall element 11 extends at an obtuse angle (between 91° and 179° and preferably at) 95° to base element 3c in direction C (cf. FIG. 14). Second wall element 12 extends at an obtuse angle (between 91° and 179° and preferably at) 95° to base element 3c in direction C′ (cf. FIG. 14). Overextended wall elements 11, 12 generate a certain tension or apply a certain pressure to particular side elements 6, 7 of carrier unit 2 when receptacles 3 are situated in carrier unit 2. Due to this tension or pressure of wall elements 11, 12, receptacles 3 are clamped in carrier unit 2 and are held to prevent them from too easily falling out of carrier unit 2.
[0078] First elevation 11c is positioned externally on wall element 11, i.e. in direction C, and second elevation 12c is also positioned externally on second wall element 12, i.e. in direction C′. The two elevations 11c, 12c act as contact surfaces for receptacle 3 with carrier unit 2. Due to the fact that wall elements 11, 12 have a certain pretension, elevations 11c, 12c of receptacles 3 are always connected to carrier unit 2 for closing a circuit or for transmitting an electric current from the contact element to carrier unit 2 via receptacle 3.
[0079] Recesses 11d, 12d on particular wall elements 11, 12 have an essentially rectangular design and are used to accommodate holding elements 10 so that receptacles 3 are positioned and held in carrier unit 2 by holding elements 10.
[0080] First and second wall elements 11, 12 as well as base element 3c form a cavity 14 for accommodating the elongated contact element.
[0081] As is apparent, in particular, in FIG. 13, base element 3c includes a convexity 15 on a first end and an indentation 16 on a second end. The shape of convexity 15 corresponds to the shape of indentation 16. Convexity 15 and indentation 16 are used to connect and position receptacles 3 with respect to each other on carrier unit 2. For this purpose, convexity 15 of a first receptacle 3 engages with indentation 16 of a second receptacle 3 (cf. FIGS. 25 and 26).
[0082] First spring element 13a extends in bent form from rear end 11b of first wall element 11 in the direction of front end 11a of first wall element 11. Second spring element 13b extends in bent form from rear end 12b of second wall element 12 in the direction of front end 12a of second wall element 12. First and second spring elements 13a, 13b may be reversibly moved from a first position into a second position. In FIGS. 11 through 14, the two spring elements 13a, 13b are illustrated in the first position, the two spring elements 13a, 13b touching each other at the free ends with the aid of their spring force. The two spring elements 13a, 13b are situated in the second position when the two spring elements 13a, 13b are moved away from each other against their spring force and in the direction of particular wall elements 11, 12. Spring elements 13a, 13b are not illustrated in the second position in the figures. Spring elements 13a, 13b may be moved from the first position into the second position to accommodate and hold the contact element with the aid of the spring force when the contact element is pushed between spring elements 13a, 13b.
[0083] A receptacle 3 according to a second specific embodiment is represented in FIGS. 18 through 23. Receptacle 3 according to the second specific embodiment is essentially identical to receptacle 3 according to the first specific embodiment. In contrast to the first specific embodiment, first spring element 13a is situated on front end 11a of first wall element 11 and extends in bent form in direction B. Second spring element 13b is situated on front end 12a of second wall element 12 and extends in bent form in direction B. Like spring elements 13a, 13b of the first specific embodiment, spring elements 13a, 13b of the second specific embodiment may also be reversibly moved from a first position into a second position to accommodate and hold a contact element.
[0084] As mentioned above, cavity 8 of base body 4 of carrier unit 2 is used to accommodate and hold one or multiple receptacle(s) 3. The contact element to be connected to connecting device 1 is always connected to all receptacles 3 or inserted into all receptacles 3 which are situated on carrier unit 2. The number of receptacles 3 connected to carrier unit 2 and inserted into a contact element depends on the capacity of the rechargeable battery to be connected or on the maximum level of the current which is to flow between connecting device 1 and the contact element. The more receptacles 3 positioned on carrier unit 2, the higher may be the current which flows between connecting device 1 and the contact element, and the greater may be the capacity of the rechargeable battery. A large number of receptacles 3 provides a larger connecting surface for the contact element, so that a high current may flow safely and without possible damage to connecting device 1.
[0085] It should be noted that it is also possible to vary the length of carrier unit 2 according to the number of receptacles 3. A shorter carrier unit 2 (in particular, a shorter base body) may thus be used when fewer than five receptacles 3 are positioned on carrier unit 2. Likewise, it is also possible to lengthen carrier unit 2 (or base body 4 of carrier unit 2) if more than five receptacles 3 are to be positioned on carrier unit 2.
[0086] FIG. 24 shows a connecting device 1 according to the first specific embodiment, including a carrier unit 2, in which holding elements 10 are bent or offset. A receptacle 3 according to the first specific embodiment is positioned in base body 4 of carrier unit 2. Receptacle 3 is situated in the vicinity of first end 4a of base body 4. Receptacle 3 is positioned in base body 4 of carrier unit 2 in such a way that holding elements 10 of base body 4 of carrier unit 2 engage with particular recesses 11d, 12d of wall elements 11, 12 of receptacle 3. Particular holding element 10 protrudes over receptacle 3 (cf. FIG. 24) and toward receptacle 3 (cf. FIG. 27). As a result, receptacle 3 is positioned and held in carrier unit 2 in such a way that receptacle 3 is not able to fall out of carrier unit 2 (cf. FIGS. 24 and 27) against the holding force of holding element 10 in either direction A or direction D. Holding element 10 and recess 11d, 12d of receptacle 3 thus form a form-locked connection. Due to this form-locked connection, receptacles 3 do not need to be integrally connected to base body 4 of carrier unit 2. Due to the non-existent integral connection, receptacles 3 are able to be removed from carrier unit 2. This is advantageous, in particular, if one or multiple receptacle(s) 3 are to be removed from carrier unit 2 and/or replaced during the manufacturing process of connecting device 1. A damaged receptacle 3 may be replaced without having to dispose of complete connecting device 1, i.e. carrier unit 2 including already positioned receptacles 3. This saves time during the manufacturing process and reduces possible rejects.
[0087] FIG. 25 shows a connecting device 1 according to the first specific embodiment, including a carrier unit 2, in which holding elements 10 are bent or offset. Two receptacles 3 according to the first specific embodiment are positioned in base body 4 of carrier unit 2, and connect to two contact elements 202, 204 of a rechargeable battery 200 for example. The two receptacles 3 are positioned consecutively in series with respect to each other in direction B. The two receptacles 3 are positioned in base body 4 of carrier unit 2 in such a way that holding elements 10 of base body 4 of carrier unit 2 engage with particular recesses 11d, 12d of wall elements 11, 12 of receptacles 3. This means that convexity 15 of a first receptacle 3 is situated at indentation 16 of a second receptacle 3. Receptacles 3 are positioned and held hereby in carrier unit 2 (cf. FIG. 25).
[0088] FIG. 26 shows a connecting device 1 according to the first specific embodiment, including a carrier unit 2, in which holding elements 10 are bent or offset. Five receptacles 3 according to the first specific embodiment are positioned in base body 4 of carrier unit 2. Five receptacles 3 are positioned consecutively in series with respect to each other in direction B. Five receptacles 3 are positioned in base body 4 of carrier unit 2 in such a way that holding elements 10 of base body 4 of carrier unit 2 engage with particular recesses 11d, 12d of wall elements 11, 12 of receptacles 3. This means that convexities 15 of receptacles 3 are situated at indentations 16 of adjacent receptacles 3. Receptacles 3 are positioned and held hereby in carrier unit 2 (cf. FIG. 26).
[0089] FIG. 34 shows a connecting device 1 according to the first specific embodiment, including a carrier unit 2, in which holding elements 10 are bent or offset. A receptacle 3 according to the second specific embodiment is positioned in base body 4 of carrier unit 2. Receptacle 3 is situated in the vicinity of first end 4a of base body 4. Receptacle 3 is positioned in base body 4 of carrier unit 2 in such a way that holding elements 10 of base body 4 of carrier unit 2 engage with particular recesses 11d, 12d of wall elements 11, 12 of receptacle 3. Receptacle 3 is positioned and held hereby in carrier unit 2 (cf. FIG. 34).
[0090] FIG. 38 shows a connecting device 1 according to the first specific embodiment, including a carrier unit 2, in which holding elements 10 are bent or offset. Two receptacles 3 according to the second specific embodiment are positioned in base body 4 of carrier unit 2. The two receptacles 3 are positioned consecutively in series with respect to each other in direction B. The two receptacles 3 are positioned in base body 4 of carrier unit 2 in such a way that holding elements 10 of base body 4 of carrier unit 2 engage with particular recesses 11d, 12d of wall elements 11, 12 of receptacles 3. This means that convexity 15 of a first receptacle 3 is situated at indentation 16 of a second receptacle 3. Receptacles 3 are positioned and held hereby in carrier unit 2 (cf. FIG. 38).
[0091] FIG. 39 shows a connecting device 1 according to the first specific embodiment, including a carrier unit 2, in which holding elements 10 are bent or offset. Five receptacles 3 according to the second specific embodiment are positioned in base body 4 of carrier unit 2. Five receptacles 3 are positioned consecutively in series with respect to each other in direction B. Five receptacles 3 are positioned in base body 4 of carrier unit 2 in such a way that holding elements 10 of base body 4 of carrier unit 2 engage with particular recesses 11d, 12d of wall elements 11, 12 of receptacles 3. This means that convexities 15 of first receptacles 3 are situated at indentations 16 of adjacent receptacles 3. Receptacles 3 are positioned and held hereby in carrier unit 2 (cf. FIG. 39).
[0092] FIG. 40 shows a connecting device 1 according to the second specific embodiment, including a carrier unit 2, in which holding elements 10 are straight. A receptacle 3 according to the first specific embodiment is positioned in base body 4 of carrier unit 2. Receptacle 3 is situated in the vicinity of first end 4a of base body 4. Receptacle 3 is positioned in base body 4 of carrier unit 2 in such a way that holding elements 10 of base body 4 of carrier unit 2 engage with particular recesses 11d, 12d of wall elements 11, 12 of receptacle 3. Receptacle 3 is positioned and held hereby in carrier unit 2 (cf. FIGS. 35 and 36).
[0093] FIG. 42 shows a connecting device 1 according to the second specific embodiment, including a carrier unit 2, in which holding elements 10 are straight. Two receptacles 3 according to the first specific embodiment are positioned in base body 4 of carrier unit 2. The two receptacles 3 are positioned consecutively in series with respect to each other in direction B. The two receptacles 3 are positioned in base body 4 of carrier unit 2 in such a way that holding elements 10 of base body 4 of carrier unit 2 engage with particular recesses 11d, 12d of wall elements 11, 12 of receptacles 3. This means that convexity 15 of a first receptacle 3 is situated at indentation 16 of a second receptacle 3. Receptacles 3 are positioned and held hereby in carrier unit 2 (cf. FIG. 42).
[0094] FIG. 43 shows a connecting device 1 according to the second specific embodiment, including a carrier unit 2, in which holding elements 10 are straight. Five receptacles 3 according to the first specific embodiment are positioned in base body 4 of carrier unit 2. Five receptacles 3 are positioned consecutively in series with respect to each other in direction B. Five receptacles 3 are positioned in base body 4 of carrier unit 2 in such a way that holding elements 10 of base body 4 of carrier unit 2 engage with particular recesses 11d, 12d of wall elements 11, 12 of receptacles 3. This means that convexities 15 of first receptacles 3 are situated at indentations 16 of adjacent receptacles 3. Receptacles 3 are positioned and held hereby in carrier unit 2 (cf. FIG. 43).
[0095] FIG. 46 shows a connecting device 1 according to the second specific embodiment, including a carrier unit 2, in which holding elements 10 are straight. A receptacle 3 according to the second specific embodiment is positioned in base body 4 of carrier unit 2. Receptacle 3 is situated in the vicinity of first end 4a of base body 4. Receptacle 3 is positioned in base body 4 of carrier unit 2 in such a way that holding elements 10 of base body 4 of carrier unit 2 engage with particular recesses 11d, 12d of wall elements 11, 12 of receptacle 3. Receptacle 3 is positioned and held hereby in carrier unit 2 (cf. FIG. 46).
[0096] FIG. 49 shows a connecting device 1 according to the second specific embodiment, including a carrier unit 2, in which holding elements 10 are straight. Two receptacles 3 according to the second specific embodiment are positioned in base body 4 of carrier unit 2. The two receptacles 3 are positioned consecutively in series with respect to each other in direction B. The two receptacles 3 are positioned in base body 4 of carrier unit 2 in such a way that holding elements 10 of base body 4 of carrier unit 2 engage with particular recesses 11d, 12d of wall elements 11, 12 of receptacles 3. This means that convexity 15 of a first receptacle 3 is situated at indentation 16 of a second receptacle 3. Receptacles 3 are positioned and held hereby in carrier unit 2 (cf. FIG. 49).
[0097] FIG. 50 shows a connecting device 1 according to the second specific embodiment, including a carrier unit 2, in which holding elements 10 are straight. Five receptacles 3 according to the second specific embodiment are positioned in base body 4 of carrier unit 2. Five receptacles 3 are positioned consecutively in series with respect to each other in direction B. Five receptacles 3 are positioned in base body 4 of carrier unit 2 in such a way that holding elements 10 of base body 4 of carrier unit 2 engage with particular recesses 11d, 12d of wall elements 11, 12 of receptacles 3. This means that convexities 15 of first receptacles 3 are situated at indentations 16 of adjacent receptacles 3. Receptacles 3 are positioned and held hereby in carrier unit 2 (cf. FIG. 50).
[0098] Receptacles 3 according to the first specific embodiment are connected to carrier unit 2 according to the first specific embodiment in a force-locked or form-locked manner. In other words, receptacles 3 are clamped between particular holding elements 10 and held in position thereby. The connection between receptacles 3 and carrier unit 2 according to the first specific embodiment is thus detachable.
[0099] In comparison thereto, receptacles 3 according to the second specific embodiment are integrally connected to carrier unit 2 according to the second specific embodiment. Integral connections include, for example, welding, soldering, gluing or the like.
[0100] A connecting device 1 is consequently to be provided for detachably connecting electrical connections, for example between a rechargeable battery and an electrical power tool or a rechargeable battery and a charging device, with the aid of which, in particular, an improved, i.e. modularly usable, connecting device 1 may be made available, which is more flexible to manufacture.
