DE102006048104A1 - Thermal overload protection - Google Patents

Abstract

The invention is based on a thermal overload protection for electrical machines with a suppression choke (10) divided in its middle region, whose first part (12) and second part (14) have mutually parallel ends (16, 18) at the separation point (15). have, which are connected to one another via a solder joint and are under a mechanical bias, wherein the solder joint dissolves in an inadmissible heating of the suppression choke (10). It is proposed that the mutually soldered ends (16, 18) of the parts (12, 14) of the suppression choke (10) are held together by a close-fitting ring (22) made of a fusible material whose melting temperature is tuned to the melting temperature of the solder joint ,

Description

State of the art

The Invention is based on a thermal overload protection according to the preamble of claim 1.

Electrical machines, such. As electric motors often contain thermal circuit breakers that protect the electrical machine from destruction or fire in case of blockage, stiffness or short circuit. From the DE 100 52 220 A1 is an overload protection according to the preamble of claim 1, in which a suppression choke is used, which is made in two parts and is soldered together at a junction to be separated with a solder certain melting temperature, that forms a solder joint. When heating the suppression choke in the circuit, this solder is heated and melts at a certain melting temperature, which is below a maximum allowable temperature of the electric machine. Since in case of short circuit the suppression chokes are heated particularly strongly in the middle part of the winding arrangement, the separation point is expediently arranged in this area. If the temperature at the point of separation exceeds the permissible temperature, the solder melts. So that the electrical circuit of the electric machine is permanently interrupted, the mutually soldered ends of the parts of the suppression choke, which are arranged adjacent to each other, under a certain bias, so they move a little far from each other after melting the solder.

Disclosure of the invention

To The invention relates to the ends of the parts of the suppression choke soldered together held together by a ring of a fusible material, its melting temperature on the melting temperature of the solder joint is coordinated in such a way as to ensure that the circuit before exceeding the permissible Temperature is safely interrupted. It can by the choice of certain Alloys of the solders the soldering temperature and the melting temperature the same or, if necessary, also different be determined. In particular, a close fitting at the ends Ring can be used to increase the security of the system.

The inventive arrangement a ring, in particular a tight ring protects the solder before a mechanical overuse while the normal operation of the electric machine. Such mechanical overuse may change due to the bias when overlaying frequent temperature changes occur at the parts. The ring secures over all operating ranges and in case of short circuit lasting less than thirty seconds, a safe one Connection and thus improves the long-term performance and reliability the electric machine.

In order to the ring correspondingly close to the ends of the parts of the suppression choke is appropriate, he is expediently Crimped with the ends.

The Bias can in the circumferential direction or in the axial direction of the suppression choke be applied to the ends of the parts of the suppression choke. Does the bias in the circumferential direction on the ends, the Size of bias determined by an angle α Be the two ends before soldering in the circumferential direction with each other form. Conveniently, the angle α is in one Range between 40 ° and 80 °.

There not be ruled out is that the bias due to the relaxation behavior of copper over in the course of time a common one Temperature change decreases, it is appropriate to the necessary bias by an additional Ensure spring element. This can e.g. be a wrap, the the suppression choke at the separation point and engages the ends of the parts. In the case of an axial prestressing can expediently in the axial direction the suppression choke acting spring elements are provided.

Brief description of the drawings

Further Advantages are shown in the following description of the drawing. In the drawing are exemplary embodiments represented the invention. The drawing, the description and the claims contain numerous features in combination. The specialist will the features also expediently individually consider and summarize to meaningful further combinations.

It demonstrate:

1 a schematic structure of a thermal overload protection,

2 a perspective section of a suppression choke in the region of a separation point,

3 a section corresponding to the line III-III in 1 .

4 a cut accordingly 3 before soldering the ends of the parts of the suppression choke.

Embodiments of the invention

1 shows in the neckline a brush plate 36 , which may be, for example, a main group of an electric motor for a fan of an engine cooling. The brush plate 36 is contacted in the usual way with printed conductors and electrical components such as brush holders 32 . 34 , Suppression chokes 10 , Capacitors, etc.

The suppression choke 10 serves as thermal overload protection. It consists of a first part 12 and a second part 14 with a first end 16 and a second end disposed adjacent thereto, in particular parallel thereto 18 , The ends 14 . 16 are at a separation point 15 in the middle area of the suppression choke 10 connected by a lot. The soldering area at the ends 16 and 18 is with 20 denotes and has a length between 4 mm and 9 mm. The suppression choke 10 is at its free ends via connecting parts 24 . 26 and connection flags 28 . 30 connected to a circuit.

Before soldering the ends 16 and 18 at the separation point 15 include in the circumferential direction an angle α, which is the bias voltage at the point of separation 15 certainly when the ends 16 . 18 compressed and soldered together. To protect the solder joint from mechanical overstress during operation, the ends become 16 and 18 in addition to the solder at the separation point 15 from a ring 22 made of a fusible material that stays close to the ends 16 . 18 is applied. To achieve this, the ring is 22 crimps, causing mechanical stresses on the ends 16 . 18 can record. The melting temperature of the ring 22 is at the melting temperature of the solder of the separation point 15 tuned so that a safe separation of the current flow at the point of separation 15 is reached when a maximum allowable temperature is exceeded. At the same time, however, it is avoided that by vibrations or thermal cycling the connection at the separation point 15 releases prematurely.

To prevent the problem of the relaxation behavior of copper over temperature change and time, it may be expedient, optionally a spring element 38 provided by the bias at the point of separation 15 permanently increased. In 4 is as a spring element 38 a wrap spring shown that the suppression choke 10 in the area of the separation point 15 includes and at the soldered ends 16 and 18 attacks. But it can also be used other spring elements. Further, corresponding spring elements at a bias in the axial direction of the suppression choke 10 be applied.

Claims (10)

Thermal overload protection for electrical machines with a suppression choke divided in their middle area ( 10 ), the first part ( 12 ) and second part ( 14 ) at the separation point ( 15 ) adjacent ends ( 16 . 18 ), which are connected to one another via a solder connection and are under a mechanical bias, wherein the solder joint in an inadmissible heating of the suppression choke ( 10 ), characterized in that the ends ( 16 . 18 ) Of the parts ( 12 . 14 ) of the suppression choke ( 10 ) of a ring ( 22 ) are surrounded by a fusible material whose melting temperature is tuned to the melting temperature of the solder joint. Overload protection according to claim 1, characterized in that the ring ( 22 ) close to the ends soldered together ( 16 . 18 ) is present. Overload protection according to claim 1 or 2, characterized in that the ends ( 16 . 18 ) of the ring ( 22 ) are held together. Overload protection according to one of the preceding claims, characterized in that the ends ( 16 . 18 ) are guided substantially parallel to each other. Overload protection according to one of the preceding claims, characterized in that the ring ( 22 ) with the ends ( 16 . 18 ) is crimped. Overload protection according to one of the preceding claims, characterized in that the bias voltage at the separation point ( 15 ) is determined by an angle (α) that the two ends form with each other before soldering. Overload protection according to claim 6, characterized in that the angle (α) in one Range between 40 ° and 80 °. Overload protection according to one of the preceding claims, characterized in that the bias voltage by a spring element ( 38 ) is increased. Overload protection according to claim 8, characterized in that the spring element ( 38 ) is a wrap spring that the suppression choke ( 10 ) at the separation point ( 15 ) and at the ends ( 16 . 18 ) Of the parts ( 12 . 14 ) attacks. Electric machine, in particular an electric motor for a fan, with an overload protection according to at least one of the preceding Claims.