DE3825897A1 - MELT LOCK WITH SPRING ARM - Google Patents

Description

The invention is based on one on a circuit substrate fixable fuse with at least one under Bias with a contact surface of the circuit sub strates solderable spring arm.

Such fuses are required to insure circuit parts special of layer circuits, such as. B. shift resistance to protect against thermal overload. To this The purpose is the contact surface of the substrate with which the Spring arm is soldered, arranged so that between the Circuit part to be protected against thermal overload the shift circuit and that for connecting the Federar with the solder used with the contact surface if possible good thermal contact is present. With a suitable choice of Solder softens the solder before the circuit to be protected can be damaged by overheating. The leader This releases the spring arm and can be an electrical one Connection between the contact surface and the spring arm interrupt by verifying the area of the contact surface leaves.

The object of the present invention is to provide a fuse tion of the type mentioned in such a way that they uncomplicated to handle and easily in one Substrate circuit can be soldered.

According to the invention, this object is achieved in that the spring arm by a support device is spread out from a plastically deformable and thereby the supporting effect canceling part of the There is a fuse.  

In this way, an external force is advantageous receive free component in which the pre-expansion of the Spring arms uncomplicated on the solder joint between the spring arm and contact area can be transferred.

In a further embodiment of the invention can be provided be that the spring arm part of a U or V-shaped Bracket and the support device with one of the brackets thighs connected and against the other stirrup is a curved strut.

This results in a particularly simple structure of the Fuse. By supporting the spring arm the spring arm is spread out on the strut. The coat hanger can now be easily placed on a substrate and with the free ends of the stirrup legs with contact surfaces solder the substrate circuit. Then the Strive beyond the elastic limit of the strut like this bent that the spring arm when softening the to his Fixation used solder against the other stirrup leg an electrical connection between the spring arm and the associated contact surface the substrate circuit interrupts. Through this movement the spring arm when softening the solder is by the Peculiarity of the formation of the fuse also one uncontrolled distribution of the softened solder over the Substrate switching (the spring arm acts as a soldering spinner) avoided because the other bracket leg has a catch wall for the solder forms.

It can also be provided that the bracket has two spring arms has as a bracket leg that both spring arms each with a support strut are provided, and that the struts in the spread state of the spring arms form and / or are positively connected to each other that the bracket is worked out from a flat piece of sheet metal, whereby a cross piece in the sheet metal plane runs while the  strip-shaped spring attached to the temple crosspiece arms with their broad sides against the sheet level by approx. 90 ° are angled, and that the support struts on their free ends with one for mutual support other suitable shaping for the purpose of positive and positive locking are provided.

This training of the fuse in coordination with the material parameters advantageously allows one of the Circuit part exposed to thermal overload the substrate circuit z. B. exactly opposite each the spring arms on the other side of the substrate see so that only one of the two spring arms is free is given if the assigned circuit part is too warm has become. As a result, the fuse shows optically which circuit part was in danger, thermally over to be burdened.

In addition, this structure of the fuse the manufacture of the bracket is particularly simple, in particular, the bracket with its cross piece as a stamped and bent part with additional brackets over one Sheet strips are connected until the corresponding one Bracket for storage on a circuit substrate from the sheet strip is separated. It is not difficult to especially the crosspiece with such training to provide that gripping tools the bracket uncomplicated can capture.

An embodiment of the invention is shown below explained in more detail with reference to five figures.

Show, each enlarged to a greater or lesser extent,

Fig. 1 the bracket arms in front view with pre-splayed spring,

Fig. 2 seen from the side bracket shown in Fig. 1,

Fig. 3 is a top view of a substrate with an on-hook to the substrate strap,

Fig. 4 several brackets in the spread state and still in one piece with a sheet metal strip, and

Fig. 5 shows a bracket after one of the spring arms has released from its contact surface.

In detail, it can be seen from the figures that the fuse consists of a U-shaped bracket 1 , which is made as a stamped and bent part from a flat sheet metal section.

The dimensions and material for the bracket are to be chosen so that, for. B. the modulus of elasticity and the thermal conductivity allows the one-sided detachment of a spring arm 4 from an associated contact surface 9 and that the spring is sufficient for a galvanic separation with a safe distance from the contact surface 9 .

A crosspiece 3 , which connects the stirrup legs 2 to one another, remains in the sheet metal plane. The strip-shaped stirrup legs 2, which are also initially located in the sheet metal plane, are angled with their broad sides 4 a by 90 ° against the sheet metal plane. From the bracket legs 2 are spring arms 4 , which move away from each other with their free ends 5 and can be provided with a bias.

From both spring arms 4 , struts 6 are cut free in such a way that the free ends 7 of the struts 6 are located on the side of the free ends 5 of the spring arms 4 while reducing the width of the spring arms 4 towards the free ends 5 . It is also possible to extend the spring arms around the struts, the struts having a reduced width compared to the spring arms.

The then mutually bent struts 6 are dimensioned in length so that the struts 6 with pretensioning of the spring arms 5 with their free ends 7 can be supported against each other. It is useful to design the free ends 7 of the struts 6 so that a sufficiently large and corresponding z. B. concave / convex shaped support surface for each strut 6 at its free end 7 and thus a secure connection formed by a positive and positive connection between the struts is obtained.

The thus spread with its spring arms 4 bracket 1 is now, as shown in FIG. 3, with its U-contour parallel to the upper surface of a substrate 8 aligned on the substrate 8 . Cross piece 3 and struts 6 are located before geous on the side facing away from the substrate 8 of the bracket 1st As a result, an air gap is located between the struts 6 and the substrate 8 . Contact surfaces 9 of the substrate circuit are provided on the substrate 8 such that each spring arm 4 comes to rest on such a contact surface 9 with its free end 5 .

The ends 5 of the spring arms 4 are then fixed to the contact surfaces 9 of the brackets 1 on the substrate 8 by surface soldering and are thereby fixed.

Then the struts 6 , z. B. with the aid of a stamp which is inserted with its free end into the space between cross piece 3 and struts 6 and then moved against the strut 6 , bent beyond the elastic limit so that the struts 6 not only no longer support the spring arms , but have such a distance from one another that when the solder, which has been used to fix the spring arms 4 to the contact surfaces 9 , softens, the corresponding spring arm 4 swings in the direction of the other spring arm 4 and, with its free end 5, the associated contact surface 9 can leave. The spring action of both spring arms 5 becomes effective because the bracket 1 is now only fixed to the substrate 8 at the end 5 of the other spring arm 4 .

The Fe derarm 4 , which has become movable due to the softening of the solder, throws parts of the solder used to fix it against this other spring arm 4 . This catches the solder, thereby avoiding an undesired, uncontrolled distribution of liquid solder over the substrate circuit.

A z. B. on the opposite side of the sub strates 8 located Direction film resistor 10 is thereby protected ge gene thermal overload, that the resistance 10 softens the solder at increasing heating, which holds the left arm 4 with its free end 5 at the contact surface. 9

If the two contact surfaces 9 , to each of which a free end 5 of a spring arm 4 of the same bracket 1 is connected, are different circuit parts of the substrate circuit that are to be thermally protected, the respective release of one of the two spring arms indicates which circuit part is the triggering of the Has caused a fuse.

For test and long-term tests can also be of the possibility Be used to install the fuse in such a way that the fuse is not a circuit of the substrate circuit interrupts even when activated, but only as Display device is used. This remains advantageous original electrical circuit state of the substrate scarf received.

Claims (6)

1. On a circuit substrate fixable fuse with at least one under tension with a contact surface of the circuit substrate solderable spring arm, characterized in that the spring arm ( 4 ) is spread apart by a support device, which consists of a plastically deformable and thereby canceling the supporting effect part of the fuse . 2. A fuse according to claim 1, characterized in that the spring arm ( 4 ) is part of a U- or V-shaped bracket ( 1 ) and that the support device is connected to one of the bracket legs ( 2 ) and against the other bracket leg ge curved strut ( 6 ). 3. A fuse according to claim 2, characterized in that the bracket ( 1 ) has two spring arms ( 4 ) as a bracket leg ( 2 ). 4. A fuse according to claim 3, characterized in that both spring arms ( 4 ) are each provided with a support strut ( 6 ), and that the struts ( 6 ) in the spread state of the spring arms ( 4 ) are positively and / or non-positively connected . 5. A fuse according to claim 4, characterized in that the bracket ( 1 ) is machined from a flat piece of sheet metal, with a bracket transverse piece ( 3 ) in the plane of the sheet, while the stripe-shaped spring arms on the bracket crosspiece ( 3 ) ( 4 ) are angled with their broad sides ( 4 a ) against the sheet metal plane by approximately 90 °, and that the support struts ( 6 ) are provided at their free ends ( 7 ) with a shape suitable for mutual support. 6. Fuse according to one of the preceding Claims, characterized in that the fuse is installed so that the activation the fuse the electrical function of a circuit unaffected.