HIGH CURRENT TERMINAL ASSEMBLY, ELECTRIC MACHINE AND BATTERY INCLUDING SUCH A HIGH CURRENT TERMINAL ASSEMBLY

Abstract

The invention relates to a High current terminal assembly including a conductor terminal (12), said conductor terminal (12) being operatively arranged to be mounted in an orifice (10a) in a housing wall (10), and a mounting module (14a; 14b) for mounting the conductor terminal (12) to the housing wall (10), said mounting module (14a; 14b) including: a collar structure (16) configured to abut to a first side of said housing wall (10) surrounding said orifice (10a), and an insertion part (18) configured to be inserted into the orifice (10a) of the housing wall (10), wherein a remote end of the insertion part (18) in the insertion direction is provided with first snap-fitting structures (18a) engaging a second side of said housing wall (10) opposite to the first side of the housing wall, wherein a first end of said conductor terminal (12) is configured to be inserted into an opening of said mounting module (14a; 14b) such that engagement of first snap-fitting structures (18a) with the a second side said housing wall (10) is locked by the insertion of said first end of said conductor terminal (12).

Claims

1. A high current terminal assembly including a conductor terminal (12), said conductor terminal (12) being operatively arranged to be mounted in an orifice (10a) in a housing wall (10), and a mounting module (14a; 14b) for mounting the conductor terminal (12) to the housing wall (10), said mounting module (14a; 14b) comprising: a collar structure (16) configured to abut to a first side of said housing wall (10) surrounding said orifice (10a), and an insertion part (18) configured to be inserted into the orifice (10a) of the housing wall (10), wherein a remote end of the insertion part (18) in the insertion direction is provided with first snap-fitting structures (18a) engaging a second side of said housing wall (10) opposite to the first side of the housing wall, wherein a first end of said conductor terminal (12) is configured to be inserted into an opening of said mounting module (14a; 14b) such that engagement of first snap-fitting structures (18a) with the a second side said housing wall (10) is locked by the insertion of said first end of said conductor terminal (12).

2. A high current terminal assembly according to claim 1, wherein the remote end of the conductor terminal (12) is configured to deflect the ends of the snap-fitting structures (18a) radially outward when being inserted into the opening of said mounting module (14a; 14b) and includes a recessed step portion (12a, 12a′) for accommodating the ends of the snap-fitting structures (18a) when the conductor terminal (12) has reached its final insertion position.

3. A high current terminal assembly according to claim 2, wherein a plurality of recessed step portions (12a′) each accommodating the end of one of the snap-fitting structures (18a) in specific ranges of angular orientations is provided, wherein a sloped surface (12f) extends from each of the recessed step portions (12a′) in at least one circumferential direction such that the engagement between the recessed step portion (12a, 12a′) and the snap-fitting structures (18a) is releasable by rotating the conductor terminal (12).

4. A high current terminal assembly according to claim 1, wherein a proximal end of the conductor terminal (12) includes an abutment collar (12b) abutting with an end face of the mounting module (14a; 14b) when the conductor terminal (12) has reached its final insertion position.

5. A high current terminal assembly according to claim 1, further including an O-ring to be arranged on an outer circumference of the conductor terminal (12).

6. A high current terminal assembly according to claim 1, wherein the collar structure (16) includes a ring-shaped recess (22) configured to accommodate an axial collar (10b) surrounding said orifice (10a) provided on the first side of said housing wall (10), wherein an O-Ring is provided between a radially outer surface of the axial collar (10b) of the housing wall (10) an inner surface of the ring-shaped recess (16).

7. A system including a first and a second connector assembly configured to mount first and second conductor terminals (12) in orifices (10a) in a first and second housing wall (10), wherein the first and second housing wall (10) form a double-wall and wherein the mount first and second conductor terminals (12) are matching male and female connector terminals engaging with each other in a mounted condition, wherein at least one of the first and a second connector assemblies is a connector assembly according to claim 1.

8. An electric rotating machine including at least one connector assembly according to claim 1.

9. A battery including at least one connector assembly according to claim 1.

Description

[0016] Further features and advantages are described in the following description of preferred embodiments or illustrated in the drawings. The skilled person will be able to consider further combinations or sub-combinations of the features of the invention in order to adapt the invention to his specific needs without departing from the scope of the invention as defined by the claims.

[0017] FIG. 1 illustrates a high current terminal assembly according to a first embodiment of the invention in a sectional view;

[0018] FIG. 2 illustrates the high current terminal of FIG. 1 in an explosion view;

[0019] FIG. 3 illustrates a mounting member of the high current terminal of FIGS. 1 and 2 in a perspective view;

[0020] FIG. 4 illustrates a high current terminal according to a second embodiment of the invention in a side view;

[0021] FIG. 5 illustrates the high current terminal of FIG. 4 in a sectional view;

[0022] FIG. 6 illustrates the high current terminal of FIGS. 3 and 5 an explosion view;

[0023] FIG. 7 illustrates a mounting member of the high current terminal assembly of FIGS. 4-6 in a perspective view;

[0024] FIG. 8 is a system with a double-wall structure including two high current terminal assemblies according to the invention connected to each other;

[0025] FIG. 9 is a system with a double-wall structure including four high current terminal assemblies according to the invention;

[0026] FIG. 10 is a conductor terminal according to a further embodiment of the invention with a releasable mounting module; and

[0027] FIGS. 11a and 11b are illustrations of the locked and released configuration of the assembly with the conductor terminal of FIG. 10.

[0028] FIG. 1 illustrates a high current terminal assembly including a conductor terminal 12 and a mounting module 14a for mounting the conductor terminal 12 to a housing wall 10. The conductor terminal 12 mounted in an orifice 10a in the housing wall 10 and is made of a metallic conductor, for example with a nickel-plated finish. It should be noted that the end portions of the conductor terminal 12 protruding from the housing wall 10 may have any suitable shape for connecting other wiring elements, connectors, clamps or the like. The housing wall 10 may be part of a motor or battery housing or of a non-conductive connector housing.

[0029] The mounting module 14a, which is illustrated in more detail in FIG. 3, is a non-conductive element, e.g. made of plastics and includes a collar structure 16 configured to abut to a first side of said housing wall 10 surrounding the orifice 10a, and an insertion part 18 of generally cylindrical shape configured to be inserted into the orifice 10a of the housing wall 10.

[0030] A remote end of the insertion part 18 in the insertion direction is provided with first snap-fitting structures formed as a plurality of latches 18b extending in an axial direction. A radially outer surface of each of the latches 18a is provided with a snap-fitting protrusion 18b configured to engage with second side of said housing wall 10 opposite to the first side of the housing wall 10. The protrusions 18b may directly snap on the back surface of the second side of the housing wall 10 or on a shoulder provided by one or more sunk portions surrounding the orifice 10a, e.g. on the bottom of a counterbore.

[0031] When the mounting module 14a is inserted into the orifice 10a, tapered or rounded end faces 18c of the snap-fitting structures 18a abut to an inner surface of the orifice 10a such that the latches 18a are deflected radially inward to thereby reduce a diameter of a circle formed by the radially inner surfaces of the latches 18b to a value below the outer diameter of the conductor terminal 12. When the mounting module 14a has reached its target position, the protrusions 18b snap onto their corresponding mating structures and the latches 18a can return to their original axial orientation. The inner diameter of the circle formed by the latches 18b is then increased again to a value equal to or larger than the diameter of the conductor terminal 12.

[0032] The collar structure 16 of the mounting module 14a has a diameter larger than the diameter of the orifice 10a. When the mounting module 14a is fully mounted, i.e. snapped in place, the collar structure 16 abuts to the first surface 10b of the housing wall 10. In the embodiment of FIG. 1, the orifice 10a is provided with and surrounded by a counterbore 10c and the collar structure 16 abuts to the flat-bottomed surface 10b of a counterbore 10c. The mounting module 14a is then tightly held in the orifice 10a of the housing wall 10.

[0033] The first end of the conductor terminal 12 is configured to be inserted into a central opening of the mounting module 14a such that engagement of first snap-fitting structures 18a with the a second side said housing wall 10 is locked by the insertion of said first end of said conductor terminal 12. The central opening is surrounded by the latches 18a and has the diameters as described above. If the mounting module 14a is not properly inserted up to its target position, the protrusions 18b of one or more of the latches 18a abuts to the radially inner surface of the orifice 10a in the housing wall 10 and the conductor terminal 12 cannot be inserted. A locking of the connection is therefore not possible as long as the snap-fitting structures 18a are not properly snapped in.

[0034] A further set of snap-fitting protrusions 18d protruding radially inward is provided on a radially inner surface of the latches 18a. The remote end of the conductor terminal 12 has a chamfer configured to deflect the ends of the snap-fitting structures 18a radially outward when being inserted into the opening of the mounting module 14a. The conductor terminal 12 includes a recessed step portion 12a for accommodating the inner snap-fitting protrusions 18d at ends of latches 18a when the conductor terminal 12 has reached its final insertion position. It is noted that the outer and inner snap-fitting protrusions 18a, 18b may be provided on each of the latches 18a.

[0035] Alternatively, the different types of snap-fitting protrusions 18a, 18b may be provided on different subsets of latches, e.g. in an alternating manner.

[0036] The conductor terminal 12 further includes a first abutment collar 12b abutting with an end face of the mounting module 14a when the conductor terminal 12 has reached its final insertion position. A further, second abutment collar 12c with a diameter larger than the diameter of the first abutment collar 12b is provided at a distance to the first abutment collar 12b. The second abutment collar 12c has a diameter larger than the diameter of the counterbore 10c and abuts the wall surface surrounding the counterbore 10c when the conductor terminal 12 has reached its final insertion position.

[0037] An O-ring 20 to be arranged on an outer circumference of the conductor terminal 12 between the first and the second abutment collars 12b, 12c. The O-Ring 20 contacts the radially inner surface of the counterbore 10c and seals the assembly.

[0038] FIGS. 4-7 show a second embodiment of the invention designed for lager high current connector terminals. The following description is limited to differences to the first embodiment, while reference to the above description of the first embodiment is made with regard to features with are identical or substantially identical in order to avoid repetitions.

[0039] The collar structure 16 of the mounting module 14b according to the second embodiment includes double-wall structure with a ring-shaped recess 22 configured to accommodate an axial collar 24 surrounding orifice 10a provided on the first side of said housing wall 10. A groove 28 in the bottom surface of the ring-shaped recess 22 abuts to the axial end of the axial collar 24 of the housing wall 10 when the mounting module 14b is snapped in its final position. A single collar 12d is provided on the conductor terminal 12 and abuts to an abutment surface of the mounting module 14b on the backside of the ring-shaped recess 22 when the mounting module 14b is snapped in its final position. The module 14b isolates the conductor terminal from the housing wall 10 and is therefore suitable for use in combination with conductive housings.

[0040] A proximal end of the mounting module 14b is provided with a counterbore 26 accommodating a first O-ring 20a arranged between the radially outer surface of the conductor terminal 12 and the inner surface of the counterbore 26 to provide a sealing between the conductor terminal 12 and the mounting module 14b. A second O-ring 20b is provided between a radially outer surface of the axial collar 24 of the housing wall 10 and an inner surface of the ring-shaped recess 22 to provide a sealing between the housing wall 10 and the mounting module 14b.

[0041] FIG. 8 illustrates system including a first and a second connector assembly 100a, 100b configured to mount first and second conductor terminals 120a, 120b in orifices 110a, 110b in a first and second housing walls 101, 102, wherein the first and second housing walls 101, 102 form a double-wall and wherein the mount first and second conductor terminals 120a, 120b are matching male and female conductor terminals engaging with each other in a mounted condition.

[0042] The first and second connector assemblies are identical besides the male and female end portions of the connector terminal. Unless otherwise specified, the above description applies to both the first and second connector assembly mutatis mutandis. The connector assemblies of the system of FIG. 8 are connector assemblies of the second embodiment described with reference to FIGS. 4-7.

[0043] FIG. 9 is a system with a double-wall structure including four high current terminal assemblies 100a-100d according to the invention, which are connected pairwise. The connector assemblies of the system of FIG. 9 are connector assemblies of the second embodiment described with reference to FIGS. 1-3.

[0044] FIG. 10 illustrates a conductor terminal 12 according to a further embodiment of the invention with a releasable mounting module in a radial sectional view. The conductor terminal 12 in FIG. 10 differs from the conductor terminal 12 in FIG. 6 by including four recessed step portions 12a′ at equal spacing around the circumference of the lower portion of the conductor terminal 12. The recessed step portions 12a′ are separated by portions 12e having the full diameter of the lower portion of the conductor terminal 12. At least on one side of the recessed step portions 12a′, a slope 12f is provided, which continuously connects the recessed step portion 12a′ with the portions 12e

[0045] FIG. 11a and 11b are illustrations of the locked and released configuration of the assembly with the conductor terminal of FIG. 10. In the locked configuration of FIG. 11a, the snap-fitting protrusions 18d at ends of latches 18a engage with one of the recessed step portions 12a′ and the assembly is locked. The connection can be released by rotating the conductor terminal 12 about 45°. The snap-fitting protrusions 18d are then pushed radially outward by the slopes 12f until reaching the portions 12e with the full diameter in the unlocked configuration as illustrated in FIG. 11b. The conductor terminal 12 can then be pulled out of the mounting module 14b, which unlocks the mounting module such that the latches 18a can be released from the housing wall.

LIST OF REFERENCE NUMBERS

[0046] 10 housing wall

[0047] 10a orifice

[0048] 10c counterbore

[0049] 12 conductor terminal

[0050] 12a recessed step portion

[0051] 12b first abutment collar

[0052] 12c second abutment collar

[0053] 12d abutment collar

[0054] 14a; 14b mounting module

[0055] 16 collar structure

[0056] 16 ring-shaped recess

[0057] 18 insertion part

[0058] 18a snap-fitting structures

[0059] 18b snap-fitting protrusion

[0060] 18c tapered end faces

[0061] 18d snap-fitting protrusion

[0062] 20 O-ring

[0063] 20a first O-ring

[0064] 20b second O-ring

[0065] 22 ring-shaped recess

[0066] 24 axial collar

[0067] 26 counterbore

[0068] 28 groove