DE552996C - To keep the voltage and current strength equal, a regulator of the Tirrill regulator type - Google Patents

Description

Regulator used to keep the voltage and current strength equal Type of Tirrill regulator The invention relates to a regulator for keeping the Voltage and amperage of a direct current shunt generator with variable Speed.

It is known to have an oscillating armature in such regulators supporting lamella with the help of a contact screw of a fixed magnet coil more or less to approach. However, this adjustment is essentially either only the force of attraction of the coil or only the tension of the spring is changed. At z. B. a very long spring becomes the attraction force when the armature approaches the magnetic core the coil on the armature is increased significantly, while the spring tension is only insignificantly being affected. On the other hand, at z. B. short spring when approaching the anchor the Spring tension increased too much in relation to the force of attraction.

The invention solves the problem of compensation between the two Phenomena by both the attractive force of the coil, i. H. so the air gap, as well as the tension of the spring designed to be variable.

For this purpose, the resilient lamella carrying the armature and Contact screw arranged in a common frame and immovable against one another, while the frame itself opposite the part of the apparatus that does the winding and carries the magnetic core, can be moved within the limits required to adjust the air gap is.

Compared to the previously known controllers there is still the advantage that that with the arrangement according to the invention, regardless of the difference in the Spring material as well as manufacturing inaccuracies in all apparatus in a series can give the same control characteristics as well as one and the same apparatus without Changing the coil or other parts for different currents or voltages can adjust.

The drawing shows an example embodiment of the controller shown. Fig. Z is a cross-section, Fig. 2 is a longitudinal section, Fig. 3 is an end view, Fig.q. a top view with the hood removed, Fig. 5 section and top view of the vibrating lamella with anchor and contact.

The controller has a magnetic core t made of laminated metal sheets, which are inserted into a non-magnetic, metallic housing 2. A cylindrical one The hole in the latter is used to accommodate the magnetizing coil 3. The metal sheets of the magnetic core are secured by a rivet q. connected to each other and in the housing 2 by means of three screws 5 clamped. A thin steel lamella 6 with armature 7 made of soft iron and with a contact 8 made of non-oxidizable metal is by means of a plate 9 made of soft iron and two screws on a rigid frame i o made of non-magnetic metal clamped. The contact 8 touches a second Contact i i, which is soldered to the end of a screw 12, which is through a Metal cross member 13 passes through it. A lock nut 14 is placed on the screw 12. The traverse 13 is attached to the frame by means of screws and by means of thinner Mica plates and insulating tubes -electrically insulated. The entire device, consisting of frame io, the vibrating lamella 6 and the screw 12 is practical unbendable and the position of these three parts to one another immovable.

The frame io is on a wide flat spring 15 with the help of three Rivet 16 riveted on, and the spring itself is attached to the housing 2 by four screws 17 attached. The other end of the frame i o is supported against a very strong one Spiral spring i 8, which iii a bore of the housing 2 is inserted. One on a threaded pin 2o attached nut i9 enables the frame io the housing 2 by more or less strong compression of the spring i 8 and by bending to approach the spring 15 more or less. With this adjustment you are in the Location, the air gap between the end of the magnetic core i and the armature 7 of the vibrating To change lamella 6 and thus the strength of the magnetizing current. A hood 21 - covers the moving parts of the apparatus. Rubber rings 22, which in approaches of the housing 2 are used, the. for electrical insulation and at the same time to protect against vibrations.

The frame of the magnetizing coil 3 is made of red copper which wire is coiled. The central tube of the frame is chosen so thick that that it forms a short-circuit ring, which considerably reduces the self-induction of the coil and thus the movement of the vibrating lamella significantly accelerated.

The regulation of the device is done in the following way: The screw 12 is screwed in more or less deeply around the resilient lamella accordingly to bend out. During operation, the nut is screwed up or down i 9 regulated. This second regulation is made much easier by the elimination a lock nut. The pressure of the spiral spring 18 prevents vibrations, for example caused displacement of the mother i9. In some cases it is necessary to adjust the regulation voltage to change. To do this, connect in series with the thin wire of the magnetizing coil 3 a small resistor with a sliding contact, which controls the current in the magnetizing coil and thus the voltage of the dynamo to which the regulator is connected, lowers.

Claims (3)

PATENT CLAIMS: i. To keep the voltage and amperage equal Serving regulator like the Tirrill regulator with oscillating lamella, marked by adjustable arrangement of the part carrying the vibrating lamella, so that a change in the air gap between the armature (7) of the lamella (6) and the magnetic core (i) can be compensated. 2. Regulator according to Claim i, characterized in that the adjustable fixed contact mounted on a traverse, which is rigidly connected to a vibrating lamella (6) supporting frame (io) is connected, its distance from the coil (3) independent from the setting of the contacts (8, 11) can be changed. 3. Regulator according to claim i and 2, characterized in that the vibrating lamella (6) and the contact screw (12) supporting frame (io, 13) attached to a resilient connecting piece (15) is.