DE10003217A1 - Flat fuse with insulating body for motor vehicle, has insulating body mounted on housing in space bridging distance between flat plug elements connected inside housing by melting conductor - Google Patents

Abstract

The flat fuse has flat metal plug elements (1) mounted at a distance apart in and protruding out of a housing (2) and connected inside the housing via a melting conductor. An insulating body (5) is mounted on the housing in the space bridging the distance (a) between the flat plug elements. The insulating body is at least partly of ceramic or plastic, especially with thermoplastic or duroplastic material.

Description

The invention relates to a flat fuse for motor vehicles with spaced apart in egg nem housed and protruding from this metal tabs, the Ge housing are connected to each other via a fuse element.

Motor vehicle flat fuses of the type described above are known. In one ge The housings are anchored and held by two flat plugs and protrude from one of these housings Side out so that the metal surfaces of the tabs are exposed and in the socket can be plugged into the automobile. The two tabs look like flat strips and are often made by punching out of sheet metal, the two being flat are kept at a distance from each other and in the area of the housing via a Fusible conductors are interconnected. For the manufacture of such automotive flat fuse it is known to punch out the outer contours from a copper or zinc sheet and in the In the middle between the two spaced flat plugs from one piece a thin one Punch out fuse element. To further simplify the manufacturing process, a such a stamped part in an open bottom housing, which, for. B. consists of plastic, introduced  all that is left are the two metal tabs. Above inside the Ge The thin fuse element is then stored on the one hand, and on the other hand there are still further anchoring parts of the punched piece, which are anchored there to the housing.

In such a known flat fuse, the tabs protrude "down", because they can be most conveniently plugged into open sockets nen. The flat fuses have an indication on the rear side in the direction of insertion, ie "up" fields, e.g. B. transparent wall parts of the housing, where the operating state of the Fuse element is visible. After switching a fuse you can see there with a View from above that this flat fuse is replaced and replaced with a new one got to.

In the motor vehicles there are more, larger and more powerful electrical devices than in the past Units used that also require a greater electrical power for operation. While up to now voltages of 6 volts and predominantly 12 volts have been used in motor vehicles det, considerations have been made to use higher voltages to the ge demanded greater performance to be able to perform more easily. One solution is e.g. B. the use of a Voltage of 48 V. The known flat fuses work at the lower voltages Although flawless, with the larger voltages, however, arises after switching when the The fuse of the flat fuse has melted, an arc. This arises in the upper one Part of the housing, that is, in the area which the lower end of the housing, wel ches itself in the direction of insertion of the flat fuse at the transition between the housing and the Flat connectors located, is opposite. First of all, the arc remains between the two Plug contacts or the flat plugs stand and burns the upper parts of this flat plug ker. The housing of the known flat fuses is open on one side, mostly from the Reasons for the production described at the lower end in the direction of insertion, that is next to the lower edge of the housing from which the tabs protrude. From there, oxygen can continuously enter the interior of the housing and the combustion of the Entertaining the arc. It has been observed that the arc gradually falls in Moves towards the open side of the case. It can go as far as the lower one described Wander the edge of the housing and possibly even further down over it out. In addition to the distance and the air in between, the two tabs are the known flat fuses are not further isolated from each other and can be disadvantageous weld and fuse through the effects of the arc. The electric lei In most cases it is sufficient that welding has taken place at least as far has that you can no longer pull the flat fuses out of the socket.

The object of the present invention is to provide a flat fuse of the type mentioned create that works perfectly even at higher operating voltages.

According to the invention, this object is achieved in that the distance between the flat connector bridging space an insulating body is arranged on the housing. One can imagine flat fuses with several flat plugs, for relief of understanding, however, the description here of an embodiment with two Out flat connectors that protrude from the housing down. The distance in this preferred embodiment, there is space between the two flat plugs shape in the middle. The thin fuse element runs in the upper area of the housing. in the In the lower part of the housing, the invention proposes using the middle space mentioned to fill an insulating body. This can be molded or molded in one piece with the housing to be; but it is also possible to attach an insulating body to the housing. The Arc migrates from the top of the case where the fuse element melted is down to the said space and hits the flat fuse according to the invention on the insulating body, whereby the arc breaks off, is interrupted and extinguished. That be there is no fear of burning the flat plug, and the arc can certainly do so be deleted in time, that a burning of the flat plug or a welding with plug parts of the bush are eliminated. In automobiles with high-performance units, you can also use work at higher operating voltages, e.g. B. with 48 V, and yet the previous ones Flat fuses are used if they are only connected to the insulating body on the housing the space between the tabs are provided. It is only one apparently small change, but which has significant technical and economic effects.

As the name suggests, the insulating body is made of insulating material; or there are Embodiments are conceivable in which the insulating body has partially insulating material indicates that the same insulating effect and quenching of the arc is achieved.

The invention is further advantageously designed in that the insulating body is at least partially as ceramic or plastic, in particular a thermoplastic and / or thermoset. For some materials, it is advisable to make the insulating body from one and the same To produce material so that the insulating body consists of this material. Ceramics and esp Special plastics are particularly easy to process and manufacture. So the insulator can inexpensive and in large quantities manufactured and attached to the housing or in this be set and fastened there. It is also possible to use the housing during molding to provide the insulating body or even form it in one piece with it.  

It is also advantageous according to the invention if the insulating body is attached to the housing in this way is attached that the end face of the insulating body pointing in the direction of insertion of the flat fuse approximately flush with the end edge of the housing pointing in the direction of insertion of the flat fuse is arranged. The "end face pointing in the direction of insertion of the flat fuse" of the insulating body is its "lower" end face in the sense described above. It is the one Area that lies when the flat fuse is inserted into the front socket and the plug socket is facing. The lower end face of the insulating body is thus according to the teaching of Invention next to the lower end edge of the housing arranged approximately flush. This leads The function, structure and handling of the flat fuse in operation are compared to conventional flat fuses. Neither the car manufacturer nor the supplier changes must be made for electrical equipment. Rather, this can also be advantageous ver new flat fuse with the insulating body with the same facilities in the motor vehicle be applied. The two tabs are from the lower end of the Ge housing next to the lower end surface of the insulating body downwards, namely in plug direction. The tabs are therefore free to contact, and yet the arc on its way forward and down from the molten fuse element through the Isola tion deleted in time.

It has proven to be useful if the insulating body according to the invention the outer Has the shape of a cuboid. It is advantageous if in a preferred embodiment Invention of the insulating body is massive. So it's a very easy to make the block of insulating substance, which is molded into a corresponding recess on the Housing attached or in one piece with the injection molding of the housing is formed. But you can also with beneficial effects according to the invention the insulation give the shape of a hollow cuboid, the two on the opposite End faces is open, the levels of which are perpendicular to the direction of insertion of the flat fuse. In a favorable case, the cuboid is turned on to improve the spatial concept be attached to the housing or in this that the direction of insertion perpendicularly through its runs on both ends. The cuboid is on these two opposite end faces GE insulating body designed open in this embodiment. You can look at the insulator as a square frame with greater depth, its depth as well as that of the generally considered cuboids - seen in the direction of insertion of the flat fuse - about a four tel to three quarters, preferably one third to two thirds and particularly preferably half occupies the depth of the housing. The arc rips right as it moves down early and does not destroy the tabs.  

According to the invention, at least one of the two end faces of the insulating body is advantageously one preferred embodiment closed by a tear partition. You can look at this Embodiment so imagine that the insulating body attached to the shape a cuboid box open on one side towards the front and down. The closed one The wall of this box is the face opposite the opening, the plane of which is perpendicular to the direction of insertion. The tear partition is in this level of the closed end face. This can be a film, or at least a tearable or breakable wall. Above the Tear partition or upwards at the rear is created in the housing when the melting egg evaporates ters a relatively high pressure. Before the case can burst, the tear separator tears wall up. This partition is located in a protected place where not the finger a hand or other limbs or parts of an operator are present and ver could be last. The high pressure in the housing due to the evaporation of the fuse element also helps extinguish the arc. Even if the tear partition has burst and tearing of the housing is advantageously avoided, opening the interior of the Ge no longer lead to the generation of an arc or to its maintenance because the arc is already broken.

Furthermore, the invention is advantageously designed in that a Predetermined breaking point. This location favors the tearing or bursting of the tear partition, which is therefore an effective burst protection for the new insulating body according to the invention represents.

It is also expedient according to the invention if cooling rib in and / or on the insulating body are attached, which are preferably lamellar and parallel at a distance from each other extend to the direction of insertion of the flat fuse. These can be particularly effective cooling fins in the embodiment of the frame-shaped insulating body with the two introduce open end faces. Then and also when the rear, upper end with the tear partition is closed, the hot that forms when the fuse element melts Gases that then emerge from the open front of the insulating body at the front are advantageous chilled.

Further advantages, features and possible uses of the present invention result from the following description of preferred embodiments in connection with the attached drawings. These show:  

Fig. 1 is a perspective view of a blade fuse according to the invention with attached formtem, on the lower front face side open insulating body whose rear end is indicated by a dashed line,

Fig. 2 shows in perspective the insulating separately taken out with the external form of a cuboid, wherein the dotted line ge is intended as a plug-in direction of the flat fuse and is perpendicular to the two end faces of the cuboid insulating body,

Fig. 3 is a vertical sectional view taken along the dashed connecting direction according to the arrows III-III of Fig. 2,

Fig. 4 shows a similar cross sectional view as in Fig. 3 but with the guide frame-shaped form from the insulating body is shown in which the cuboid is open hollow inside and at both ends,

Fig. 5 shows a further other embodiment of the insulating body in a similar Querschnittsdar position as shown in Fig. 3 and 4, but with the upper rear end face is closed by a partition wall Tear,

Fig. 6 is a similar sectional view as in Figs. 3-5, but in a further different embodiment, in which the frame-shaped insulating body is provided with cooling fins which extend longitudinally in the direction of insertion of the flat fuse, and

Fig. 7 is a cross-sectional view of Fig. 6 along the line VII-VII

The flat fuse for motor vehicles shown in FIG. 1 has two tabs 1 which are arranged at a distance a from one another and which are punched out of zinc sheet. These protrude downward from the housing, generally designated 2. They extend parallel to the insertion direction 3 illustrated with the dashed line, which is also shown in dashed lines in FIGS . 2 and 4. This direction of insertion 3 of the flat fuse takes place in the sense of the handling and function of the flat fuse described here forward and downward. The two tabs 1 are inserted into a socket, not shown. In the top loading of the flat fuse rich above the dotted end line 4 of the insulating body 5, the invisibly connected with the flat plug 1 within the housing 2 and, therefore, in the drawing of FIG. 1 by a fusible conductor.

In the embodiment of FIG. 1, the insulating body 5 is formed in one piece with the housing 2 . It extends from its front, lower open end face 6 , which determines the front, lower and in the insertion direction 3 end face 7 , to the opposite Endflä surface 8 , which can be seen in FIGS . 1 and 2 only by the rear end line. In the embodiments approximately as shown, the insulating body 5 is cuboid.

In the embodiment of FIGS. 2 and 3, the cuboid insulating body 5 is solid, in the other embodiments, the insulating body 5 is hollow.

In the hollow embodiment according to FIGS. 1 and 4-7, the front, lower end face 7 of the insulating body 5 pointing in the direction of insertion 3 is open. The plug-in direction of the flat fuse runs perpendicular to this flat end surface 7 .

The insulating body 5 lies approximately flush next to the front, lower end edge 9 of the housing, although it protrudes a little in the plug-in direction 3 . In other embodiments, the front, open end face 6 is more or less precisely aligned or flush with the front end edge 9 of the housing 2 . In the latter case, the distance a between the Flachstec core 1 ( Fig. 1) bridging space, which is located below in the middle, so large that the flat fuse up to this front end edge 9 of the housing 2 in the not presented socket can be introduced.

In the embodiment of FIG. 4, the insulating body 5 has the shape of a cuboid, but is open on its two opposite end faces 6 , 7 on the one hand (front, bottom) and 8 on the other hand (top, rear).

In the embodiment of FIG. 5, the insulating body 5 is closed on its rear, upper end face 8 , which is therefore opposite to the plug-in direction 3 , by a tear partition 9 . This can be a thin film and serves as a burst protection if the excess pressure created by the evaporation of the fuse element acts from behind on the tear partition 9 and causes it to burst.

In order to promote the bursting or tearing of the tear partition 9 , the embodiment in FIG. 5 can be provided with a predetermined breaking point 10 .

The last embodiment shown in FIGS. 6 and 7 shows an insulating body 5 , which is open on the two end faces 6 , 7 (bottom front) and 8 (top rear). On the bottom 11 of the frame-shaped insulating body 5 , lamellar cooling fins 12 are attached at a distance b from one another, these run parallel to one another and extend in the plug-in direction 3 . It can be imagined that these cooling fins 12 not only extend from the bottom 11 of the insulating body 5 into its interior, but can also be provided protruding from the side walls or from the upper wall 13 of the insulating body 5 into its interior. The respective height of the cooling fin 12 is based on the one hand on the spatial conditions in the insulating body and on the other hand the desired cooling effect.

Reference list

1

Flat connector

2

casing

3rd

Direction of insertion

4

End lines of the insulator

5

Insulating body

6

Face

7

End face

8th

End face

9

End edge of the case

10th

Predetermined breaking point

11

ground

12th

Cooling fins

13

upper wall
a Distance between the tabs

1

b Distance between the cooling fins

Claims (9)

1. Flat fuse for motor vehicles with at a distance (a) from each other in a housing ( 2 ) and protruding from this flat tabs ( 1 ) made of metal, which are connected to each other in the Ge housing ( 2 ) via a fuse element, characterized in that in which the distance (a) between the tabs ( 1 ) over bridging space an insulating body ( 5 ) is arranged on the housing ( 2 ). 2. Flat fuse according to claim 1, characterized in that the insulating body ( 5 ) at least partially ceramic or plastic, in particular a thermoplastic and / or thermoset. 3. Flat fuse according to claim 1 or 2, characterized in that the insulating body ( 5 ) is fastened to the housing ( 2 ) in such a way that the end face ( 7 ) of the insulating body ( 5 ) pointing in the plug-in direction ( 3 ) of the insulating body ( 5 ) is approximately flush in addition to the end edge ( 9 ) of the housing ( 2 ) pointing in the direction of insertion ( 3 ) of the flat fuse. 4. Flat fuse according to one of claims 1 to 3, characterized in that the insulating body ( 5 ) has the outer shape of a cuboid. 5. Flat fuse according to one of claims 1 to 4, characterized in that the insulating body ( 5 ) is solid. 6. Flat fuse according to one of claims 1 to 4, characterized in that the insulating body ( 5 ) has the shape of a hollow cuboid, which is open on those two opposite end faces ( 6 ), the planes ( 7 , 8 ) perpendicular to the direction of insertion ( 3 ) the flat fuse. 7. Flat fuse according to one of claims 1 to 4 and 6, characterized in that at least one of the two end faces ( 6 , 7 ; 8 ) is closed by a tear partition ( 9 ). 8. Flat fuse according to claim 7, characterized in that there is a predetermined breaking point ( 10 ) in the tear separating wall ( 9 ). 9. Flat fuse according to one of claims 1 to 8, characterized in that in and / or on the insulating body ( 5 ) cooling fins ( 12 ) are attached, which are preferably lamellar and at a distance (b) from each other parallel to the direction of insertion ( 3 ) Extend flat fuse.