DE2058357A1 - Fuse resistance - Google Patents

Description

Safety resistor in high-quality telecommunications equipment, e.g. a color television receiver, protective measures are necessary to protect certain components or to protect assemblies in the event of a fault, e.g. a short circuit. A component that is often used is a so-called fuse resistor. This contains a resistance body through which an operating current flows and one in the current path lying contact formed by a soldering point and under spring tension. In the event of impermissible heating of the resistor due to an operating current that is too high the soldering point becomes so warm that the solder melts, the contact through the bias the spring opens and breaks the circuit.

It is also known to have such a resistor in the high voltage part a color television receiver to be provided. For example, in a color television receiver the focus voltage by dividing a voltage on the high voltage rectifier standing DC voltage. It is known to protect the high voltage stage and the line output stage a resistor of this voltage divider as a fuse resistor to train. This resistance can be in addition to achieving one from the stress non-linearly dependent focusing voltage be designed as a VDR resistor.

It has been shown that, especially at high voltage, the fuse resistor in many cases does not trigger sufficiently quickly. Also is for the solder joint a special solder with a low melting temperature is required. Especially for repair work and re-soldering the fuse resistor there is a risk that instead of the Special solder a normal solder with too high a melting temperature is used. then safe triggering of the fuse in the event of danger is no longer guaranteed.

The invention is based on the object of avoiding these disadvantages and in particular to increase the response speed of the fuse.

This object is achieved by the invention specified in claim 1. Further developments of the invention are given in the subclaims.

The invention is based on the knowledge that the solder of the solder joint melts within a few seconds if caught by the spray while the melting of the solder only due to the heating of the resistor body only after can occur for a longer period of time, up to about 2 minutes. It is beneficial to the solder joint to be placed where the air is particularly heated by the resistance body, because there the ionization of the air and thus the voltage breakdown for spraying are relieved. Due to the special shape of the soldering point and a counter electrode, e.g.

a wiper of the resistance, the field strength distribution in the Be influenced in the sense of a good tendency to spray.

The invention achieves the following advantages in particular: a) The response speed of the fuse is significantly increased, so that the components to be protected a more effective protection.

b) The fuse resistor itself is less stressed because the melting of the solder and thus the triggering of the fuse is not primarily takes place via the detour of heating the resistance body, but by spraying.

c) Normal solder can be used when re-soldering the fuse. So no special solder is required. The spraying also brings a normal solder fast enough to melt.

The invention is explained below with reference to the drawing.

1 shows the structural design of the fuse and FIG. Figure 2 is a circuit extract of a color television receiver in which the fuse is used is.

The small letters a, b, c indicate which terminals in Fig. 1 and 2 correspond to each other.

In Fig. 1 is on a chassis 1 of a color television receiver Fuse resistor 2 installed. This contains a VDR resistor body 3, mounted on ribs 6,7 by means of the clamps 4,5 comprising the connection electrodes is. On the resistance body 3 is a grinder 8 by a not shown Drive in the direction of arrows 9 displaceable. With the grinder 8 is a clamp a connected. On a pin 10 is one formed by a wound wire Spring 12 mounted, which rests with one end in a pin 13 with a clamp c is connected. The right end of the spring 12 is against the spring force on the Clamp 5 is placed and connected to it by means of a solder joint 14. The order provides a VDR resistor that can be adjusted with the wiper 8 between terminals e and c represent.

The mode of action is as follows. The heating is in normal operation of the resistance body 3 so small that the solder of the solder joint 14 does not melt. If the voltage between terminals a and c is too high, caused by a too high a current due to a fault, arises between the wiper 8 and the Clamp 5 a spraying indicated by the arrows 15, which encompasses the soldering point 14. By this spraying, the solder joint 14 is so warm in a few seconds that the Solder melts and the spring 12 springs into the Leae shown in dashed lines and thus breaks the contact. The circuit from terminal a to terminal c is through interrupted and the VDR resistor and the connected circuit protected. The soldering point 14 is additionally also heated by the resistance body 3. the However, it is primarily triggered by spraying. The solder joint 14 is mounted above the resistance body 3, because here the heating of the warm resistance body 3 air flowing past, thus their ionization and thus the differences are greatest. The tendency to spray can be achieved by a special shape the wiper 8, the clamp 5 or the soldering point, e.g.

by points and edges.

Fig. 2 shows a circuit example of the fuse resistor according to 1. A flyback transformer 16 is converted into a high-voltage cascade 17 a high voltage for a picture tube 18 obtained. From one to the foot point 19 the voltage divider connected to the cascade 17 and having a voltage divider designed according to FIG. 1 VDR resistor 2 and an ohmic resistor 20 is a focusing voltage of Won 5 KV for the picture tube 18. In the event of a short circuit at the focusing electrode 21 are the VDR resistor, the cascade 17, the flyback transformer -16 and others Components of the color television receiver endangered. With this short circuit at the electrode 21 falls between the wiper (terminal a) and terminal b of the VDR resistor the total voltage of approx. 8 KV at the foot point 19. This is so big that in the manner described in Fig. 1, a spray occurs and the fuse triggers. This interrupts the circuit between terminals b and c, so that the short circuit at electrode 21 no longer affects the overall circuit Has.

Claims (4)

Claims 1.) Fuse resistor for high voltage that tends to spray with one in the current path, under spring tension, through a solder joint formed contact, which when the resistor is overloaded by the melting of the Plumb bob and opens by the spring tension, especially for a color television receiver, characterized in that the soldering point (14) lies in an area in which Overload of the resistor (3) a spray (15) occurs 2. Resistance according to claim 1, characterized in that the soldering point (14) on a connection cap (5) of the Resistance body (3) lies. 3. Resistor according to claim 1, characterized in that the soldering point (14) lies in a range in which the air is particularly heated. 4. Resistor according to claim 3, characterized in that the soldering point (14) is above the resistance body (3). L e r s e i t e