WO2007019924A1 - Jump start supporting point - Google Patents

Abstract

The invention relates to a jump start supporting point (1) with an electric connecting part (3) for connecting a starting aid tool and with an insulating cover (4, 5) surrounding the connecting part (3) in a position of rest. The insulating cover (4, 5) comprises an insulating sleeve (5) that, with a sleeve casing (7), surrounds the connecting part (3) and can move along a central longitudinal axis of the sleeve casing (7) against the spring force of a spring element (9) between the position of rest and a release position that releases the connecting part (3) for electrical contacting.

Description

DaimlerChrysler AG

Foreign launch base

The invention relates to a third party base with the features of the preamble of claim 1.

In automobiles, the starter battery is often placed in an accident-prone area, e.g. to maintain the wiring system for a security system and the lighting after a frontal accident. For example, the starter battery is arranged in a relatively safe area such as trunk or underbody. Due to this positioning of the starter battery, however, a strange start or a foreign charge without special devices is no longer possible because conventional starting tongs have no access to a starter battery mounted in such a way. Therefore, special third-party launch points are arranged in the relatively easily accessible engine compartment of motor vehicles. These jump start points or jump start points are e.g. designed as electrically conductive pins or plates, which must be sufficiently secured against abuse and short circuit. For this purpose, it is known from DE 199 06 000 A1 and DE 101 18 051 A1 to surround the electrical connection part of external starting support points with elaborate housing structures made of plastic and thereby to electrically insulate it when not in use.

The invention is based on the object of structurally constructing an electrical connection part of a third-party launching point. easy and inexpensive to protect against unwanted electrical contacts.

This object is achieved by the combination of features of claim 1.

According to the invention, the insulating cover of the Fremdstartstützpunktes an insulating sleeve which surrounds the connecting part with a sleeve sheath and along a central longitudinal axis of the sleeve sheath between the rest position and the connection part for electrical contacting releasing release position against the spring force of a spring element is movable. The insulating sleeve creates in its rest position an efficient and at the same time structurally simple electrical insulation for the connection part. The axial mobility of the insulating sleeve allows a user-friendly release of the connection part for its electrical contacting. This contacting takes place by means of a jump start tool, if a jump start is to be carried out.

The spring force of the spring element enables stable positions of the insulating sleeve and thereby a mechanical safeguard against undesired incorrect positions and contacts of the I-solierhülse.

Preferably, the insulating sleeve is formed as a hollow cylinder. In particular, it is inexpensive from electrically insulating plastic. The insulating sleeve is preferably designed such that it also causes a shielding of the connecting part against the ingress of liquid and other harmful substances. Claim 2 supports a defined rest position of the insulating sleeve and thus a mechanically stable seat of the insulating sleeve in the rest position. Thus, the mechanical protection against unwanted contacting of the insulating sleeve is further improved. In this case, the spring element allows a technically simple forced closure or forced isolation of the connection part by means of the insulating sleeve, when the jump-start tool is removed after a jump start or jump start again from the connection part. In order to contact the jump start tool on the connecting part, the connecting part must be at least partially released from the insulating sleeve. For this purpose, the insulating sleeve is moved back from its position isolating the connecting part along its central longitudinal axis and is thereby arranged counter to the spring force of the spring element in a position releasing the connector part. When removing the jump start tool, the mechanically biased spring element can help ensure that the insulating sleeve is automatically pushed back into its rest position without additional components.

The distance according to claim 3 supports a user-friendly handling of the insulating sleeve for its transfer between a terminal part insulating the rest position and the connection part for a jump-start releasing position.

Claims 4 to 6 relate to advantageous measures for a mechanically stable mobility of the insulating sleeve between its various positions in the axial direction.

According to claims 7 and 8, the jump start point has additional efficient mechanical security measures to prevent unwanted release and unwanted contacts of the connector part. Here, the axiom albewegung the insulating sleeve blocked in the direction of the release position. This blocking can be canceled by the insulating sleeve is rotated about its central longitudinal axis such that the sleeve web corresponds to the axial passage of the insulating cover. Then, the insulating sleeve can be moved axially further in the direction of the release position.

The measures of claims 9 to 12 allow a structurally simple forced movement for the insulating sleeve to perform during an axial movement in the direction of rest also a rotational movement, so that the insulating sleeve in the rest position automatically resumes that rotational position, which upon renewed axial actuation of the insulating the above-mentioned blockage achieved.

The arrangement and configuration of the spring element according to claims 13 to 15 allow transmission of the spring force to the insulating sleeve with high efficiency. In this way, the axial mobility of the insulating sleeve can be controlled defined between its rest position and a releasing the connection part for a jump start position.

The end wall according to claims 16 to 18 supports a user-friendly handling of the insulating sleeve. For example, the fixing webs are spaced apart from each other such that they can accommodate a clamping pliers of a jump-starting tool between them. By means of the clamping forceps, the insulating sleeve can then be moved out of the rest position in the axial direction and / or rotated. The gripping pliers acts like a screwdriver on the end wall of the insulating sleeve. When the insulating sleeve is transferred to its release position, the clamping tongs then automatically contact the released connection part. Claim 19 promotes a space-saving design of the Fremdstartstützpunktes.

The measures of claims 20 and 21 relate to an advantageous relative arrangement between the connection part and electrical components connected thereto, e.g. a line, in particular a starter line for the starter of a motor vehicle.

Regardless of the manner of fixing the terminal part and the insulating sleeve, the terminal part and the associated electrical terminal or component can be advantageously electrically connected to each other by a clamping connection (e.g., crimping) or a material bond (e.g., soldering, welding).

If the associated connection is an electrical line, its bending behavior advantageously also supports the safety of the jump starting point in the event of an accident since the line can deflect due to its flexibility.

The electrically connected in the assembled state with the connection part electrical line preferably leads to an e- lektrischen connection point of a starter of the motor vehicle. At this electrical connection point preferably also the positive pole of a battery of the motor vehicle is electrically connected.

The claims 22 to 24 relate to advantageous structural embodiments of the insulating cover.

Claims 25 to 28 relate to measures for a clear identification of the foreign launch base as electrical shear connection for a jump start operation. In this way, the technical layman is supported in a jump start process. Any polarity reversal in a jump start process can be better avoided.

Claim 29 enables a cost-effective provision of the identification means during the production of the insulating cover and a long life of the marking means.

The invention will be explained in more detail with reference to the embodiments illustrated in the drawings.

Showing:

1 is a perspective view of an air filter with fixed thereto foreign launch base in a first embodiment,

2 is a perspective view of the Fremdstartstützpunktes according to Fig.l with the insulating sleeve in the rest position,

3 shows a lateral interior view of the insulating cover according to FIG. 1 and FIG. 2 with the insulating sleeve in the release position, FIG.

4 is a side view of the insulating sleeve of FIG. 1 - Fig. 3,

5 is a front view of the insulating sleeve in the direction of arrow V of FIG. 4,

6 is a sectional view of the insulating according to section line VI-VI of FIG. 4,

7 shows a lateral interior view of the insulating cover according to FIG. 1 - FIG. 3 without insulating sleeve and contact pin, FIG.

Fig. 8 is a perspective view of the Fremdstartstützpunktes in another embodiment. The Fremdstartstϋtzpunkt 1 shown in FIG. 1 is attached to the housing 2 of an air filter for motor vehicles not explained in detail here. The Fremdstartstützpunkt 1 has a trained in the manner of a contact pin electrically conductive connection part 3. The connection part 3 is used to connect an external and not shown starting aid tool, such as the clamp of a jumper cable.

In addition, the Fremdstartstützpunkt 1 has a housing-like insulating cover 4, which surrounds the connection part 3 in the rest position of FIG. 1 electrically insulating so that an electrical contact of the connection part 3 is not possible. Here, the insulating cover 4 is opened in Fig. 1 only for the sake of clarity, i. with a partial view of the interior of the insulating cover 4, shown. The complete insulating cover 4 according to FIG. 1 is shown in FIG. 2.

The insulating cover 4 includes an insulating sleeve 5, which is penetrated by a hollow cylindrical receptacle 6 for the connecting part 3 (FIG. 2, FIG. 5, FIG. 6). Along a central longitudinal axis 8 of the sleeve sheath 7, the insulating sleeve 5 between the rest position shown in FIG. 1, Fig. 2 and the connection part 3 for electrical contacting releasing release position shown in FIG. 3 against the Spring force of a spring element 9 movable. Here, the insulating sleeve 5 is movable from the rest position in parallel to the central longitudinal axis 8 extending axial direction 10 against the spring force of the spring element 9. The insulating sleeve 5 is arranged relative to the connecting part 3 such that the sleeve jacket 7 along the axial direction 10 surrounds the connecting part 3 with transverse to the central longitudinal axis 8 extending, ie in the radial direction 11 extending radial distance. With respect to the central longitudinal axis 8 of the sleeve sheath 7, the insulating sleeve 5 can perform a translational movement, ie a movement parallel to the axial direction, as has already been explained. In addition, the insulating sleeve 5 can perform a rotational movement, ie a rotational movement about the central longitudinal axis 8 as a rotation axis. In both of the aforementioned types of movement, a motion guide of the insulating sleeve 5 is provided due to the structural design of the insulating cover 4. For this purpose, the insulating sleeve 5 is movably fixed to the insulating cover 4 by an axial sleeve free end 12 rests with a slight radial clearance in an approximately hollow cylindrical receiving shaft 13 of the insulating cover 4. Thus, the insulating sleeve 5 is movably mounted in the receiving shaft 13. The sleeve free end 12 remains despite the spring force of the spring element 9 reliably in the receiving shaft 13, since this is limited at its insulating sleeve 5 axially facing end portion of a transverse to the axial direction 10 shaft boundary wall 14.

The insulating sleeve 5 according to FIG. 1 to FIG. 6 carries on its sleeve jacket 7 a total of four sleeve webs 16 which are spaced apart from one another in the circumferential direction 15 and which respectively correspond to an abutment 17 of the insulating cover 4 arranged transversely to the axial direction of movement of the insulating sleeve 5 in order to permit the axial movement of the insulating sleeve 5 in the direction of the release position of FIG. 3 to block. The abutment 17 is the outside of the shaft boundary wall 14. For each sleeve web 16, the shaft boundary wall 14 is penetrated by a passage 18, which is arranged in the circumferential direction 15 next to an abutment 17. By means of the passages 18, the axial movement blocking of the insulating sleeve 5 can be canceled. In the embodiment of the Fremdstartstützpunktes 1 shown in FIG. 8, the axial movement blocking of a hollow cylindrical receptacle 6 'interspersed insulating sleeve 5' and the repeal of movement blocking by means of the structural design of a guide channel 19 on the insulating cover 4 'achieved. The guide channel 19 has two spaced apart guide walls 20, 21. A transverse to the axial direction 10 arranged wall segment 22 of the guide wall 20 forms the abutment against further axial movement of the insulating sleeve 5 'in the direction of the release position. Here, the wall segment 22 corresponds to an axially aligned guide web 16 ', which is arranged in the region of the guide channel 19 facing the axial end of the sleeve shell 7'. As in the case of the embodiment according to FIGS. 1 to 6, a total of four sleeve webs 16 'are also formed in the insulating sleeve 5' according to FIG. The sleeve webs 16 'are each associated with a molded on the insulating cover 4' guide channel 19. In the circumferential direction 15 adjacent to the wall segment 22, the guide channel 19 has an axially extending channel section 23, which serves as an axial passage for the sleeve web 16 '.

In order to transfer the insulating sleeve 5, 5 'from the release position back into the rest position with the correct rotational position with respect to the central longitudinal axis 8, the insulating cover 4, 4' has a guide track running at an acute angle to the axial direction 10 with a guide web 24, 24 '. on. By means of this guide web 24, 24 ', the insulating sleeve 5, 5' during its axial movement in the direction of rest position simultaneously performs a guided rotational movement about the central longitudinal axis 8 around. For this purpose, at least one guide element is arranged on the insulating sleeve 5, 5 ', which corresponds to the guide web 24, 24'. In FIGS. 1 to 7, the guide element is designed as a guide nose 25. forms, which is integrally formed on the sleeve free end 12 and extends radially beyond the sleeve free end 12. Preferably, two guide lugs 25, each in the radial direction, are arranged on the sleeve-free end 12 for one guide track each. In the embodiment according to FIG. 8, the guide element is formed by the sleeve web 16 'itself. While in the embodiment of FIGS. 1-7 the guide web 24 is arranged on an inner side of the receiving shaft 13 (FIG. 7), the guide web 24 'according to FIG. 8 is a component of the guide wall 21. During the aforementioned movement of the insulating sleeve 5 , 5 'is the guide member 25 and 16' at the release position facing web page 26 of the guide bar 24 and 24 'at.

The spring element 9 has two axially spaced-apart spring sections for spring force transmission, wherein a first spring portion 27 is supported on a relative to the connector 3 immovable support bearing 28 of the insulating cover 4 and thereby secured against axial displacements in the form of a first axial spring end 27. A second spring section in the form of a second axial spring end 29 is supported on the sleeve free end 12. The two spring ends 27, 29 are the two axial ends of a spiral spring, which is designed as a compression spring. The spring element 9 is arranged concentrically to the connecting part 3 and surrounds the configured in the manner of a contact pin connection part 3 with a radial distance.

In the embodiment of FIG. 8, in principle, a similar spring element is fixed to the insulating cover 4 '. It also surrounds a not visible here, contact pin-like connection part with radial clearance. The spring element, which is not visible here, is supported with its two axial spring ends on the one hand at a position transverse to the axial direction 10 and in Fig. 8 by the sleeve jacket 7 'hidden wall of the insulating cover 4' and on the other hand on the insulating sleeve 5 '(preferably on the inside of a still to be described end wall 30') from.

In the release position, a contact-free end 31 of the connection part 3 facing axial front end of the insulating sleeve 5 and 5 'has a with the sleeve jacket 7 and 7' integrally connected end wall 30 and 30 'on. This end wall 30 or 30 'is penetrated by a wall opening 32. The wall opening 32 opens into the hollow cylindrical receptacle 6 or 6 'of the insulating sleeve 5 and 5' for receiving the connecting part 3. The sleeve shell 5 and 5 'axially facing away from the outer end of the end wall 30 and 30' carries two spaced apart with each other Fixierstege 33, between which the wall opening 32 is arranged.

The connecting part 3 is arranged approximately concentrically with respect to the central longitudinal axis 8. A contact region 37 (FIG. 1, FIG. 3) arranged axially facing away from its contact-free end 31 is connected to an electrical line, not shown here, which leads to an electrical component, in particular to a starter of the motor vehicle.

The insulating cover 4 or 4 'has two corresponding housing shells 34, 35 and 34', 35 '. The second housing shell 35 or 35 'acts as a cover relative to the first housing shell 34 or 34', which is attached to the air filter housing 2 and thus on the motor vehicle. For this purpose, fastening means 36 are integrally formed on the housing shell 34 or 34 ', which correspond to the air filter housing 2. Both housing shells 34, 35 and 34 ', 35' are releasably connected to each other. For this purpose, a plurality of locking holes 38 are attached to the second housing shell 35 and 35 ', which correspond with locking lugs 39 on the first housing shell 34 and 34'.

The insulating cover 4 or 4 'contains a duct 40 for receiving an electrical line, not shown here, which is connected on the one hand to the contact region 37 of the connection part 3 and on the other hand to an electrical component in the motor vehicle, in particular to a starter leads. In order to pass the electrical line through the housing shells 34, 35 and 34 ', 35', they are penetrated by a conduit opening 41, which is arranged on a receiving shaft 13 facing away from the side of the duct 40.

In the assembled state, the aforementioned electrical line is electrically connected to the contact region 37 of the connection part 3. A arranged on the inside of the duct 40 in the region of the conduit opening 41 profile 42 has four axially spaced webs 43. These are in the assembled state of the housing shells 34, 35 and 34 ', 35' preferably formed annularly closed in itself. The profile 42 is the negative-form of a line surrounding the counter-profile, so that the counter-profile and the insulating cover 4 and 4 'in the assembled state at least in the longitudinal direction of the line are substantially immovably connected. As a result, an additional mechanical connection between the electrical line and the insulating cover 4 or 4 'may be formed. The counter-profile (in particular an externally profiled protective jacket) can extend over a longitudinal section or over the entire length of the line and serves for its mechanical protection against damage. conditions and also the protection against penetrating liquid, moisture etc.

For clear identification as Fremdstartstützpunkt 1, the second housing shell 35 or 35 'optical identification means in the form of a label 44 with the content "12 V" and in the form of a plus sign as a symbol 45 for the positive pole of the starter battery of the motor vehicle These identification means 44, 45 indicate that the jump-starting point 1 is the electrical potential with respect to vehicle mass, so that the part of an electric jump-starting tool assigned to the plus pole is also reliably connected to the jump starting point 1 or the connection part 3 is connected.

The insulating sleeve 5 or 5 'is designed such that it extends in the rest position in the axial direction 10 beyond the contact-free end 31 of the connecting part 3 addition (Fig. 1, Fig. 2, Fig. 8). As a result, the Fremdstartstützpunkt 1 is effectively protected against unwanted electrical contacts, as long as it is not used for a jump start. The protection against undesired contacting of the connecting part 3 is reinforced by the spring force of the spring element 9, the insulating sleeve 5 and 5 'in the axial direction 10 always urging towards the rest position and by the sleeve webs 16 and 16' axial movement of the insulating 5 and 5 'in the direction of the release position.

If a start-up tool is to be applied to the jump start point 1, ie if the connection part 3 is to be electrically contacted with the jump start tool (eg a pair of pliers with jump start cable connected), the insulation sleeve 5 or 5 'is first moved in the axial direction 10, until the sleeve webs 16 or 16 'on the abutment 17 or the wall hit segment 22. Then the insulating sleeve 5 or 5 'in the direction of arrow 46 (Fig. 2, Fig. 5, Fig. 8) moves until the sleeve webs 16 correspond to the passages 18 and the sleeve webs 16' correspond to the channel portion 23. In this state, the insulating sleeve 5 or 5 'can be further moved in the axial direction 10 in the direction of the release position such that the connection part 3, in particular its contact-free end 31, is released for electrical contacting by the starting aid tool. After removal of the starting aid tool from the connecting part 3, the insulating sleeve 3 moves automatically due to the prestressed spring element 9 back into its insulating part 3 insulating rest position shown in FIG. 1, Fig. 2 and Fig.8, and initially only in the axial direction 10th and then due to the guide webs 24, 24 'simultaneously in the axial direction 10 and in the circumferential direction 15th

For a comfortable handling of the insulating sleeve 5, 5 'from the rest position can be between the fixing webs 33 the jump aid tool (in particular a clamping pliers) are set in the manner of a screwdriver, so that the insulating sleeve 5, 5' by means of such tool first in Pressed axial direction 10, then rotated in the direction of arrow 46 and then further pressed in the axial direction 10 until the tool automatically electrically contacts the connector part 3 (in particular clamped) and the insulating sleeve 5, 5 'rests in its release position.

Claims

DaimlerChrysler AGPatent claims

1. Foreign starter base (1) with an electrical connection part (3) for connecting a jump start tool and with a connection part (3) in a rest position surrounding insulating cover (4, 5, 4 ', 5') characterized in that the insulating cover ( 4, 5, 4 ', 5') an insulating sleeve (5, 5 ') which surrounds the connection part (3) with a sleeve jacket (7, 7') and along a central longitudinal axis (8) of the sleeve jacket (7, 7 ' ) is movable against the spring force of a spring element (9) between the rest position and a release position releasing the connection part (3) for electrical contacting.

2. Fremdstartstützpunkt according to claim 1, characterized in that the insulating sleeve (5, 5 ') from the rest position against the spring force of the spring element (9) is movable.

Third foreign base according to one of the preceding claims, characterized in that the sleeve jacket (7, 7 ') longitudinal axial surrounding the connecting part (3) at least partially transverse to the central longitudinal axis (8) extending distance.

4. Fremdstartstützpunkt according to any one of the preceding claims, characterized in that with respect to the central longitudinal axis (8) of the sleeve sheath (7, 7 '), a translational and / or a rotational motion guide for the insulating sleeve (5, 5') is provided.

5. Fremdstartstützpunkt according to any one of the preceding claims, characterized in that the insulating sleeve (5, 5 ') on the insulating cover (A, A') is movably fixed.

6. Foreign Home Base according to claim 5, characterized in that the insulating cover [A ₁ A having ') has a receiving shaft (13) for the movable mounting of the insulating sleeve (5, 5').

7. Fremdstartstützpunkt according to any one of the preceding claims, characterized in that the insulating sleeve (5, 5 ') has at least one sleeve web (16, 16'), which with a transversely to the axial direction of movement of the insulating sleeve (5, 5 ') arranged abutment ( 17, 22) of the insulating cover (4, 4 ') corresponds to block the axial movement of the insulating sleeve (5, 5') in the direction of the release position.

8. foreign launch support according to claim 7, characterized in that for the sleeve web (16) has an axial passage (18, 23) on the insulating cover (4, 4 ') is provided, which in Circumferential direction (15) of the sleeve sheath (7, 7 ') relative to the abutment (17, 22) is arranged offset.

9. Fremdstartstützpunkt according to one of claims 4-8, characterized in that the insulating cover (4, 4 ') at an acute angle to the axial direction (10) extending guideway (24, 24') for guiding the movement of the insulating sleeve (5, 5 ') in the direction of the rest position.

10. foreign launch support according to claim 9, characterized in that on the insulating sleeve (5, 5 ') a guide element (25, 16') is arranged, which with the guide track (24, 24 ') corresponds.

11. Foreign launch support according to claim 9 or 10, characterized in that the guide track (24) on an inner side of the receiving shaft (13) is arranged.

12. Foreign launching support according to one of claims 9 - 11, characterized in that the guide track has a guide web (24, 24 '), at whose the release position facing web side (26) abuts the guide element (25, 16') for guiding movement.

13. Fremdstartstützpunkt according to any one of the preceding claims, characterized in that the spring element (9) has two axially spaced spring portions (27, 29) for spring force transmission, wherein the first spring portion (27) on a relative to the connecting part (3) immovable support bearing (28) of the insulating cover (4) is supported and the second spring portion (29) on the insulating sleeve (5) is supported.

14, foreign launch support according to claim 13, characterized in that the two spring portions are the two axial spring ends (27, 29) of a spiral spring (9).

15. Foreign launch support according to one of the preceding claims, characterized in that the spring element is designed as a compression spring (9).

16. Fremdstartstützpunkt according to any one of the preceding claims, characterized in that in the release position a contact-free end (31) of the connecting part (3) facing the axial end face of the insulating sleeve (5, 5 ') connected to the sleeve jacket (7, 7') end wall ( 30, 30 ') which is penetrated by a wall opening (32) for the contact-free end (31).

17. Foreign launching support according to claim 16, characterized in that the sleeve jacket (7, 7 ') axially facing away from the outer end side of the end wall (30, 30') two spaced-apart fixing webs (33) carries, between which the wall opening (32) is.

18. Foreign launch support according to claim 17, characterized in that the fixing webs (33) are arranged parallel to one another

19. Foreign start support according to one of the preceding claims, characterized in that the connecting part (3) is designed in the manner of a contact pin or a contact socket.

20. Foreign launching support according to one of the preceding claims, characterized in that a contact region (37) of the connection part (3) is connected to an electrical line.

21, foreign launching support according to claim 20, characterized in that the contact region (37) is arranged facing away from the to be connected jumpers tool area (31) of the connection part (3).

22. Foreign launching support according to claim 20 or 21, characterized in that the insulating cover (4, 4 ') is penetrated by a conduit opening (41) for the electrical line.

23, third home base according to one of the preceding claims, characterized in that the insulating cover (4, 4 ') a plurality of mutually corresponding housing shells (34, 35, 34', 35 ').

24. Foreign launching support according to claim 23, characterized in that the housing shells (34, 35, 34 ', 35') detachable from each other are connected.

25. Foreign launching support according to one of the preceding claims, characterized in that it comprises means (44, 45) for its identification, in particular optical identification.

26. Foreign launching support according to claim 25, characterized in that the identification means (44, 45) on the insulating cover (4, 4 ') are arranged.

27. Foreign launching support according to claim 25 or 26, characterized in that the identification means comprise at least one symbol (45) for an electrical potential.

28, foreign launching support according to one of claims 25 - 27, characterized in that the identification means have a label (44).

29. Foreign launching support according to one of claims 25 - 28, characterized in that the identification means (44, 45) are integrally connected to the material of the insulating cover (4, 4 ').