RU28409U1 - BALLAST THROTTLE FOR DISCHARGE LAMPS - Google Patents

Description

BALLAST THROTTLE FOR DISCHARGE LAMPS

The utility model relates to electrical engineering, namely to the design of electric induction apparatuses, transformers and ballast chokes, used to limit and stabilize the current in order to power discharge lamps, and relates, in particular, to the design of chokes with a magnetic circuit burdened from sheet steel.

Known ballast inductor for discharge lamps, containing a lined magnetic circuit assembled from packages of P- and T-shaped plates, on the rod of which is placed the winding, see German patent. No. 2345219, class. H01F27 / 24, 1975.

The closest in technical essence and the achieved result is the design of a ballast reactor for gas discharge lamps, containing a charged magnetic circuit assembled from packages of U- and T-shaped plates, on the core of which a winding is placed; at the same time, cuts were made on the outer surfaces of the lateral yokes of the part of the U-shaped plates to form cooling fins during assembly of the magnetic circuit with the rest of the U-shaped plates, the inner surface of the lateral yokes of the magnetic circuit is convex, see USSR copyright certificate No. 1361644, cl. P01R27 / 24, 1985.

MKI H01F27 / 24

The known technical solution allows to reduce the energy consumption and material consumption of the ballast throttle due to the formation of cooling fins.

However, the known technical solution has a number of drawbacks in the complexity of manufacturing the design of the magnetic circuit with an increased contact surface of the inner surfaces of the side yokes of the U-shaped plates with the surface of the winding, which is associated with the poor manufacturing quality of the wire winding due to errors in the geometric dimensions of the parts of the analyzed induction apparatus. These disadvantages impede the transfer of heat (heat transfer) from the winding (coil) to the magnetic circuit.

The basis of the proposed technical solution is the task of improving the design of the ballast choke for gas discharge lamps, will increase the quality and manufacturability of the manufacture of electro-induction apparatus.

The essence of the claimed technical solution lies in the fact that, in a ballast choke for gas discharge lamps, containing a charged magnetic circuit assembled from packages of U- and T-shaped plates, on the core of which a winding is placed, ACCORDING TO THE USEFUL MODEL, on the external horizontal end face of each П- the shaped plate of the magnetic circuit is made V-shaped vfubka.

The proposed utility model is NEW, as the applicant and the authors, the combination of its essential features is not known from the prior art.

The proposed utility model is INDUSTRIAL APPLICABLE and

It is used as a ballast for gas discharge lamps.

The utility model is illustrated by drawings. In FIG. 1 shows a ballast choke, side view; in FIG. 2 - projection of a ballast throttle, top view; in FIG. 3 view A in FIG. 1.

The ballast choke for gas discharge lamps consists of a charged magnetic core assembled from P- and T-shaped plates 1 and 2, respectively, made of sheet steel. A winding 4 is installed on the core 3 of the magnetic circuit.

Each U-shaped plate 1 is made integral in the form of a horizontal cross member 5 and two side yokes 6 and 7; moreover, on the outer end horizontal side (the outer surface of the cross member 5) of each U-shaped plate 1 there is a symmetrically located V-shaped notch 8.

U-shaped plates have side ledges 9, with which

the base strip 10 clamps the entire package of the magnetic circuit with a winding; wherein

the presence of the plates of the U-shaped V-shaped cuts 8 allows you to tightly

press the inner end surfaces of the side yokes 6 and 7 of the magnetic circuit to the surface of the winding 4, therefore, increase the heat transfer from the winding to the magnetic circuit and improve the thermal characteristics of the electro-induction apparatus.

The ballast choke operates on alternating current and is connected in series with a discharge lamp to limit the current in the supply circuit. The magnitude of the current of the discharge lamp is determined by the inductance of the inductor, which is controlled by a change in the magnitude of the non-magnetic gap 11 located at the junction of the rod 3 with the U-shaped plate 1.

The claimed design of the inductor with a magnetic circuit, burdened from sheet steel, provides tight contact of the inner end surfaces of the side yokes of the U-shaped plates with the surface of the winding, thereby improving the heat transfer coefficient from the winding to the magnetic circuit, which leads to lower winding overheating above ambient temperature in the operating mode of the throttle; and also improves the quality and manufacturability of the manufacture of electric induction apparatus.

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Claims (1)

A ballast choke for gas discharge lamps, containing a lined magnetic circuit assembled from packages of P- and T-shaped plates, on the core of which a winding is placed, characterized in that a V-shaped cut is made on the outer horizontal end face of each U-shaped plate of the magnetic circuit.