CS262761B1 - Arrangement of an output part of a pulse converter - Google Patents

Abstract

it is a structural arrangement of the output part of the pulse converter for controlling the speed of the electric motors dependent on it as well as the nice electric traction, by which the minimized stopping space is achieved with a good loss of heat lost from the electric elements. The arrangement consists of two T-shaped metal profiles constructed by protruding parts opposite each other and connected to each other, wherein all the necessary elements are arranged in the space between them. The lower T-profile is electrically insulated connected to the mounting plate.

Description

The invention relates to the construction of a power section of a pulse converter.

Known embodiments of the power section of the pulse converter use either a foundation thatch or two metal profiles L facing each other. In the first case, the thyristors, diodes and passive elements of the power section of the pulse transducer are attached to the foundation thatch directly or by means of the intermediate parts. In power circuits using L-profiles, the main thyristor is located between the shorter frames, our profiles. In the space formed between the longer legs of the profiles, the other active and passive elements are arranged according to the particular connection. Both known solutions impose higher demands on the built-up space at the same transmission power.

The above-mentioned drawbacks are eliminated by the arrangement of the power section of the pulse changer according to the invention, which is characterized in that the lower metal T-shaped heatsink is fastened to the mounting plates via its insulating foil. The commutating capacitors are mounted on the first lowered portion of this cooler, and a commutating transformer is mounted on the front edge of its second lowered portion. A polarity transformer is attached at the side outer edge of the second lowered part of the metal radiator, next to which a zero diode is mounted at the side inner edge of the second lowered part of the radiator and a braking diode is mounted above it. shunt. At the front edge of the central raised part of the metal heatsink, there is a main thyristor onto which the upper "T" shaped heatsink is pressed with its central protruding part.

The arrangement of the power part of the pulse converter according to the invention makes it possible to achieve, at the prescribed electrical power, at least the external dimensions of the device with optimum heat dissipation from the power semiconductors. By using mass-produced elements, the dimensions of which are specified by the manufacturer, the design according to the invention can transmit a one-minute output of 9.6 kW per 1 dm ^{3 of} occupied space.

The accompanying drawings show the design of the power section of the pulse converter, where FIG. 1 is a front perspective view of the device; FIG. 2 is a rear view.

The lower T-shaped metal cooler 1 is fixed by its base wall to the mounting plate 4 via an insulating foil 5. On the first lowered part of the metal cooler 1, commutating capacitors 2 are mounted, and a commutating transformer 6 is mounted on the front edge of the second lowered part of the metal cooler. A reverse diode 8 is attached behind it at the side outer edge of the second lowered part of the metal heatsink 1 and a neutral diode 8 is attached to it at the side inner edge of the second lowered part of the heatsink. A shunt 10 is mounted at the front edge of the central raised part of the metal cooler 1, behind which a main thyristor 12 is placed on the central raised part of the metal cooler, onto which the upper "T" shaped cooler 7 is pressed with its middle part.

The device is static. Its function is determined by the wiring of electrical elements.

The invention can be used in the manufacture of pulse converters for controlling the speed of motor vehicles of both dependent and independent electric traction.

Claims (1)

SUBJECT Arrangement of a power section of a pulse changer, characterized in that the lower metal cooler (1) of the "T" shape is fastened through its electrically insulating foil (5) to its mounting plate (4) with the first lowered part of the metal cooler (1). 1) are mounted commutating capacitors (2) and on the front edge of the second lowered part of the metal cooler (1j is mounted a commutating transformer (6), behind which a polarity thyristor (11) is attached at the side outer edge of the second lowered part of the metal cooler (1); of the invention wherein a zero diode (8) is attached at a lateral inner edge of the second lowered part of the metal radiator (1), over which a braking diode (9) is mounted coaxially, and a shunt ( 10), wherein a cut-off thyristor (3) is attached at the front edge of the central raised portion of the metal radiator (1), after which a main thyristor (12) is placed on the central raised part of the metal cooler (1), onto which the upper cooler (7) is pressed by its middle protruding part.