DE4116983A1 - Electric fuse for vehicle current cable - has elongate housing enclosing terminal clamps fitted to opposite ends of current cable - Google Patents

Abstract

The fuse has a breaker (2) responding to an excessive current, with a terminal clamp (3) at either end, secured to the stripped ends (5) of the current cable (7) and an intermediate section (19) which melts when a given current loading is exceeded. The ends of the current cable (7) are received by respective end of an elongate insulating fuse housing (1) fitting around the terminal clamps (3), with internal stops (16) for limiting the longitudinal movement of the latter. ADVANTAGE - Resistant to applied tension of up to 500N.

Description

The present invention is concerned with an electrical Fuse with the specified in the preamble of claim 1 Characteristics. Such a backup is in the older one, however unpublished German patent application P 39 13 712.0 described. It is not one of the fuses that are usually used in automobiles junction boxes and most Protect the vehicle's electrical circuits (light, on lasser, windshield wipers, radio etc.) tion for a circuit that is responsible for the function of the force vehicle is indispensable, e.g. B. for the ignition system, for a  Power steering, a servo brake or the like and therefore only in may address extreme situations, e.g. B. if as a result an accident or during assembly or repair work on the motor vehicle the insulating cable sheath of the current supply cable of the corresponding circuit damaged is and the cable core in electrical contact with the Vehicle body comes. In this case, the discharges Battery through this junction, being a very high one Current (short circuit current) can flow to a cable fire and thus lead to a fire of the entire vehicle can. That must of course be prevented. On the other hand the fuse should only be set at the highest possible current Burn the load so that the vital functions of the vehicle such as braking and steering ability as long as possible remain. That has to do with one Automaker led that the backup at a Load with 80 A should have blown after 3 minutes.

When securing according to the older proposal P 39 13 712.0 the power supply cable to be protected is only powerful connected to the housing of the fuse by the cable jacket is clamped in the openings of the housing or is glued to the housing. Especially when the vehicle battery is not in the engine compartment Power supply cables in tight, difficult to access and not smooth channels are laid and thereby through the  Channels are pulled through. With the electrical fuse According to the older proposal P 39 13 712.0, the tractive force especially with larger forces via the interrupter and thus via its predetermined melting point transmitted, which is usually a waist the interrupter acts. It can therefore lead to deformations and Changes in position of the interrupter come, which is a serious, undesirable change in the response threshold of the breaker entail.

The present invention has for its object a Securing the type mentioned above to create which train withstands forces of 500 N without damage.

This task is solved by a backup with the in the An pronounced 1 characteristics. Advantageous further training the invention are the subject of the dependent claims.

With the new fuse there is a lengthwise direction of the lower effective and positive locking of the power supply cable between the breaker and the housing, the location of the Stops are chosen so that the soul of the stream supply cable transmitted tensile force from the cable core the terminal and from the terminal via the supplied audible stop is transferred to the housing, for the over therefore the strongest part of the breaker, namely  the connection terminal is available, whereas the tapered target melt lying between the connection terminals place remains unloaded as soon as the tractive force is applied struck the terminal at its adjacent stop beats. Between the stops formed in the housing one generally has a certain freedom of movement in the longitudinal direction direction needed to place the breaker between the stops to be able to insert. Within this range of motion a tensile load on the target melting point of the breaker transmitted, but there are no difficulties the range of motion of the interrupter within narrow limits hold, expediently not more than 1 mm, preferably not more than 0.5 mm, so that Ver formations on the interrupter small and in their impact the response behavior of the interrupter is negligible, especially if the interrupter between his An end clamps has bending points that slightly after train can give without the effective cross section of the target melting place to change.

The stops are preferably each by an annular Bund formed so that occurring tensile forces as large as possible can be introduced into the housing. From the same Basically, the clear width of the federal government should preferably be smaller be than the clear width of the openings of the housing through which the power supply cable is passed through with its jacket;  preferably the clear width of the federal government is chosen so that the stripped core of the power cable is straight fits through. Mounting the fuse on the power supply cable is easiest if the housing is lengthways is divided in half. The ends of the power supply cables can be crimped and / or soldered and / or Ultrasonic welding to the terminals of the Connect the breaker. Then you put the sub crusher into the housing and welded the two Halves together or glued together and with the cable jacket, causing the interior of the case to is sealed gas-tight. The one that occurs non-positive connection between the cable jacket and the Housing can directly absorb some of the tensile forces that occur Introduce bar from the cable into the housing. It is convenient the engagement between the housing and the cable jacket to ver strengthen, especially in that the openings of the Ge are cuff-shaped and thus the Close the cable sheath tightly over a certain length, whereby preferably additionally radially inwardly projecting ribs are provided, which press into the cable sheath and thereby on the one hand the adhesion and on the other hand the Improve gas tightness of the housing. The ribs can extend over the entire circumference of the opening preferably they only extend over half the circumference, so that you can train them high enough to be effective  to be, on the other hand, they are not too strong in the Press in the cable jacket. The ribs also secure the gastight closure of the housing for production-related Diameter tolerances of the cable jacket. Instead of ribs you could also provide threads in the openings.

It turns out to be advantageous to connect the terminals finally with the help of a crimp connection to connect to the ends of the power cable and thus avoid using solder. This can on the use of additional and mostly base Metals in the interior of the security device waived be causing the formation of a local galvanic Element that significantly promotes corrosion, far is excluded. Thus the trigger can be secured safety device due to its corrosion dependency guaranteed over a longer period of time will.

If the housing is divided lengthwise into two housing halves, then he it proves to be advantageous to the abutting surfaces of the two Ge halves of the house with at least one longitudinal rib to be provided, which during ultrasonic welding in the opposite butting surface of the other housing half digs in, so that a gas-tight connection is achieved becomes. Longitudinal ones have proven to be particularly suitable Ribs with a wedge-shaped cross-section proved. A special one cost-effective production of the housing is achieved that both housing halves are constructed identically and so can be produced with a tool. Such  particularly suitable training is achieved in that a longitudinal rib on one of the abutting surfaces is arranged so that the benefits of inexpensive production combined with the advantages of gastight housing design can be. A particularly simple assembly of the two Ge halves of the housing results if one half of the housing with each a longitudinal rib on both of its abutting surfaces is seen and the other half of the housing is not a longitudinal one Has rib. With such a design of the housing halves the two housing halves can be easily and precisely align and ultrasonically weld to each other.

Two embodiments of the invention are in the beige added drawings.

Fig. 1 shows a fuse in isometric representation perspektivi shear with a connected supply cable Stromver,

Fig. 2, the one housing half 1 shows the fuse of Fig. In a side view;

1 Fig. 3 shows the two halves of Fig. In an end view,

FIG. 4 shows the other housing half from FIG. 1 in a side view and

Fig. 5 shows the two housing halves from another exemplary embodiment from an end view.

The fuse has a housing 1 made of a plastic with high mechanical strength, which on top of that should be flame resistant. A suitable plastic is polybutylene terephthalate. The housing 1 is longitudinally divided into two halves 10 and 11 , of which one half 10 is shown in FIG. 2 and the other half 11 in FIG. 4. The housing is relatively thick-walled and has a predominantly cylindrical passage 18 in which an interrupter 2 is arranged. The breaker 2 is a metallic molded part with two terminals 3 and 4 and a waist 19 between the terminals, which is a melting point at which the breaker melts when a predetermined current load is exceeded and interrupts the current flow. The interrupter 2 could be made of zinc or a zinc-based alloy.

The fuse is mirror-symmetrical with respect to its center plane M ( Fig. 4), which is why of the two terminals 3 only one is shown.

The ends 5 and 6 of the power supply cable are exempt from the cable sheath 9 ; their thereby exposed soul 8 is connected by crimping and subsequent soldering or welding to the terminals 3 of the breaker.

After connecting to the cable, the interrupter 2 is inserted between the two housing halves 10 and 11 and the two housing halves are connected to one another in a gastight manner, preferably by ultrasonic welding. For this purpose, the two housing halves 10 and 11 at the abutment surfaces of their circumferential walls each have a longitudinal, cross-sectionally wedge-shaped rib 20 , which ultrasonically welds into the opposite abutment surface of the other half of the housing.

The two aligned openings 12 and 13 of the housing are designed as sleeves. In one of the Ge halves 11 ( Fig. 4), the openings 12 and 13 are bordered by a smooth, substantially semi-cylindrical wall be; in the other housing half 10 , the semi-cylindrical walls of the openings 12 and 13 at a distance of a few millimeters each have two mutually parallel, radially inwardly projecting ribs 14 and 15 , which are pressed during welding of the housing 1 into the cable sheath 9 , whereby the Cable sheath is clamped in and the interior of the housing is sealed gas-tight from the outside.

Following the cuff-shaped openings 12 and 13 , two radially inwardly projecting rings are formed in the housing, the mutually facing collar surfaces 16 and 17 of which are stops for the intermediate connecting terminals 3 of the interrupter 2 . The longitudinal mobility of the interrupter 2 between the stops 16 and 17 is not more than 0.5 mm. A tensile load of the target melting point 19 can therefore at most lead to a 0.5 mm long change in length of the interrupter 2 , which is not critical, especially since in the interrupter expediently between the two connection terminals 3 and the waist 19 several bending points 21 , 22 are provided, which one Allow change in length without reducing the cross-section of the target melting point 19 .

In Fig. 5 another embodiment of the housing 1 is provided, which is divided longitudinally into two halves 10 and 11 under. The connecting surfaces of the two halves 10 and 11 are called abutting surfaces. The abutting surfaces of the housing half 10 are each provided with a longitudinal, cross-section wedge-shaped rib 20 , while the housing half 11 has no rib 20 on its two abutting surfaces. When connecting the two housing halves with the help of ultrasonic welding, the longitudinal ribs 20 of the housing half 11 dig into the opposite abutting surfaces of the housing half 10 , so that a gas-tight connection of the two housing halves 10 and 11 is ent.

Claims (15)

1. Electrical fuse for installation in power supply cable ( 6 ) in motor vehicles,
with a slim interrupter ( 2 ) which responds to excessive current load, with two connecting terminals ( 3 ) for connecting two ends ( 5 ) of the power supply cable ( 7 ) which are free of the cable sheath ( 9 ) and with a predetermined melting point ( 19 ) between them
wherein an interrupter ( 2 ) together with its terminals ( 3 ) receiving insulating housing ( 1 ) is provided, which has two opposite openings ( 12 , 13 ) for inserting the two ends ( 5 , 6 ) of the power supply cable,
characterized in that in the housing ( 1 ) between the terminals ( 3 ) and their adjacent openings ( 12 , 13 ) stops ( 16 , 17 ) are provided which limit the longitudinal mobility of the terminals ( 3 ). 2. Fuse according to claim 1, characterized in that the movement of the terminals ( 3 ) limited by the stops ( 16 , 17 ) is not more than 1 mm, preferably not more than 0.5 mm. 3. Fuse according to claim 1 or 2, characterized in that the interrupter ( 2 ) between its terminals ( 3 ) has at least two bending points ( 21 , 22 ). 4. Fuse according to one of the preceding claims, characterized in that the stops ( 16 , 17 ) are each formed by an annular collar. 5. Fuse according to claim 4, characterized in that the clear width of the federal government ( 16 , 17 ) is smaller than the clear width of the openings ( 12 , 13 ). 6. Fuse according to one of the preceding claims, characterized in that the housing ( 1 ) is divided longitudinally into two halves ( 10 , 11 ) which are welded or glued to one another when the fuse is inserted into the power supply cable ( 5 , 6 ). 7. Fuse according to one of the preceding claims, characterized in that the openings ( 12 , 13 ) of the housing ( 1 ) are sleeve-shaped. 8. Fuse according to claim 7, characterized in that the openings ( 12 , 13 ) of the housing ( 1 ) have at least one radially inwardly projecting rib. 9. Fuse according to claim 8, characterized in that at least two ribs ( 14 , 15 ) are provided in each opening ( 12 , 13 ), which are spaced apart in the direction of the longitudinal axis of the housing ( 1 ). 10. Fuse according to claim 8 or 9, characterized in that the ribs ( 14 , 15 ) extend only over half the circumference of the opening ( 12 , 13 ). 11. Fuse according to claim 7, characterized in that the cuff-shaped openings ( 12 , 13 ) are provided with an internal thread. 12. Fuse according to claim 1, characterized in that the terminals ( 3 ) are connected exclusively by crimp connections with the ends ( 5 ) of the power supply cable ( 7 ). 13. Fuse according to claim 1, characterized in that the housing ( 1 ) consists of two housing halves ( 10 , 11 ) and there is at least one longitudinal rib ( 20 ) on each of their mutual abutting surfaces. 14. Fuse according to claim 13, characterized in that each housing half ( 10 , 11 ) has exactly one longitudinal rib ( 20 ). 15. Fuse according to claim 13, characterized in that a housing half ( 10 ) each has a longitudinal rib ( 20 ) on its two abutting surfaces and the other Ge housing half ( 11 ) has no longitudinal rib ( 20 ).