DE697529C - Device for preventing backflow during counter-current braking, especially slow-running electric motors - Google Patents

Description

Device to prevent reverse flow when braking in the opposite direction, especially slow-running electric motors when braking motors by means of Countercurrent must be taken to ensure that the engine has come to a standstill after it has stopped does not start up again in the opposite direction of rotation. One has for this so-called counter-current brake monitors, which consist of a small auxiliary motor, whose armature is coupled to the motor and whose housing is rotatably supported to a limited extent and has a contact arm, deal a spring in the middle position between two seeks to maintain solid counter-contacts; the housing with the contact arm is at a certain speed taken up to a stop, whereby, it depends on the direction of rotation of the motor closes one or the other contact. This contact is in the electrical circuit of the contactor, which keeps the source current in when the motor brakes. If the Motor is braked by the counterpart until, on, a small speed, wixd the housing is pulled into the rest position by the mid-position spring and thereby the Countercurrent switched off.

It has been found that the speed at which the central position spring the housing of the brake monitor moves into the rest position, with too up to zoo rpm. Especially with slow running engines, e.g. B. with an operating speed of 5oo Rpm, so the countercurrent would already be at one in relation to the operating speed still high speed can be switched off, which is particularly uncomfortable noticeable when the drive is bump-free or in a certain position want to shut down.

It is known to avoid this disadvantage in that the brake monitor a higher synchronous speed is given than the motor to be braked. Counter-thrust braking then takes place up to a significantly lower speed of the, work engine and enables the use of smaller mechanical brakes and an accurate stop of the motor in a certain position.

In the known versions, the following is: 'Direct brake monitor at the Arbcits- `. motor attached. According to the invention, the brake monitor is of the to be monitored 'work engine spatially separated, z. B. in the rifle scaffolding, set up; the armature of the brake monitor is driven by a special slip ring motor smaller number of poles than the number of poles of the working motor or - one coupled with it Slip ring motor driven, and the motors (working motor and JElfsmotor) are The rotor and the stator are connected to one another.

An exemplary embodiment of the invention is shown in the drawing.

Anchoring: the brake monitor is supported by a small, e.g. B. 3oootourigen Slip ring motor H driven; @he is with the auxiliary motor H spatially from the to The monitoring work motor M is set up separately, for example in the contactor frame. The work motor M is e.g. B. a 12-pole, so 5oot-speed machine. The auxiliary engine H is connected to the mains via the reversing contactors Sv and Sr; rotor side it is connected to the rotor connections of the working motor. -From the contacts of the brake monitor, contactor relays i and 2 are controlled.

If the manual switch U is now turned to the right, for example, the contactor Sv is connected to voltage, which switches on the motor M in the forward direction. At the same time, the stator of the small auxiliary motor H also receives voltage, and it starts up with the motor M. Since the rotors of the two motors are also connected to one another, the auxiliary motor H accelerates, taking into account the ratio of the number of poles, like the working motor M. Differences in rotor voltage can be compensated for by an intermediate transformer TY. With the number of poles ratio selected here, the 3oo-speed auxiliary motor assumes the following speed in relation to the 5oot-speed working motor Five-speed motor: 500 rpm 420 rpm 30o rpm 18o rpm 3000 - - 30 0 0 - 252 0 . 180 0 - 1080 - When the auxiliary motor H starts up, the stator St of the brake monitor is taken along and thereby closes the upper contact I (2, which switches on the auxiliary contactor 2, which prepares the circuit for the counter contactor S r Middle position is covered, the contactor Sv is switched off, and .as soon as this contactor has dropped out, the contactor Sr is triggered via its idle auxiliary contact and the main contact of the auxiliary contactor 2, which connects the working motor M in the countercurrent direction and thereby brakes it the stator rotating field of the auxiliary motor H is also reversed. Due to the rotor connection of the two motors, a rotor frequency is imposed on the small auxiliary motor H by the large work motor M; thus the auxiliary motor can only decelerate to the extent that the work motor is braked between the two motors with different numbers of poles a number of poles proportional s speed ratio. If the brake monitor opens its contact at zoo rpm and thus interrupts the countercurrent by switching off the auxiliary contactor 2, the working motor only has a speed of 33 rpm.

If the working motor is a DC motor, it can work with a special slip ring, runner motor with a correspondingly high number of poles to be coupled, with which the 'auxiliary motor H is then connected on the stator and rotor side.

Claims (1)

PATENT CLAIM: Device to prevent backflow during counter-current braking, especially slow running engines, by means of a depending on the speed the motor-driven switching device (brake monitor), characterized in that that the, per se known brake monitor of the working motor to be monitored spatially separately, e.g. B. ün contactor frame, set up and the anchor of the brake monitor through a special slip ring motor with a smaller number of poles than the number of poles of the Working motor or a slip ring motor coupled to it is driven and that the working motor (M) and the auxiliary motor (H) on the rotor and stator side with each other are connected.