DE584470C - Device for regulating a drive to constant power with electrical power transmission between the drive shaft and the loaded shaft - Google Patents

Description

Device for regulating a drive with constant power electrical power transmission between the drive shaft and the loaded shaft When utilizing an available energy, it is generally desirable to the moment of force and the speed of the driven load shaft to the moment of force and to adapt to the speed of the drive shaft. In the special case where with regard to the available maximum power or the most favorable efficiency Moment of force and speed of the driving shaft within narrow fluctuation limits are fixed, one must determine the moment of force and the speed at every moment can adapt the loaded shaft within wide limits of the power of the drive shaft. If z. B. If a diesel engine is to drive a vehicle, it is important to adjust the speed to keep this motor as constant as possible, no matter how the slope of the the vehicle has traveled through.

The invention relates to a device for automatic Regulation of a drive shaft to constant power, with the power from the drive shaft and transmitted to the loaded shaft via a power generator and an electric motor will. An auxiliary generator is now used for regulation, which operates with the differential speed between the speed of the drive shaft and the speed of the loaded Shaft is driven.

The drawing shows a circuit diagram of the device on the right and the mechanical part of the system on the left. n P is. the shaft driven by a power source at an angular velocity et; R is the shaft driven by an electric motor at an angular velocity. Between the two shafts P and R there is a differential gear D with an angular speed U. Between the speeds u1, u2 and U there is a relationship of the form U = hl u1 -f- h2 u2, where kt and k2 are numerical constants.

Assume that the waves P and R go in opposite directions (u1 and u2 have opposite signs), one recognizes that at a certain constant speed of the drive shaft P the speed U of the differential system must increase when the speed u2 of the driven Wave R decreased and vice versa.

The electrical system consists of a power generator W in mechanical Connection with the drive shaft P, that is to say running smoothly with one speed ci u1 where c1 is a constant), from an electric motor M in mechanical connection with the driven shaft R, i.e. rotating at a speed c2 u2 (where c2 is a constant), the mechanical connections can be arbitrary, Belt drives, chain drives, toothing or even direct drive: they are only indicated in the drawing by a line connection. Included the current generated by the generator W enters the motor M, which drives the shaft R set in rotation. It also includes one driven by the differential, D Secondary generator G. To increase the speed of the motor brew or would be reduced in an ordinary electrical transmission by means of a field regulator act on the motor 19 and thereby a certain amount of energy lose. In the new system, the one supplied by the auxiliary power generator G is now used Current used to change the inducing field of the motor ill and thereby the necessary changes in speed and moment of force automatically to evoke. the higher the torque to be driven, the slower the must driven shaft R rotate at the given motor power. That is at the illustrated device the case, since the angular velocity of the differential system increases as soon as the angular speed of the driven shaft decreases, provided that the speed of the drive shaft is constant during this time remain. Accordingly, the excitation current generated by the auxiliary power generator G increases, whereby an increase in the inducing field in the motor M is caused, what the speed decreases and the moment of force increases.

Compared to a system that simply uses series engines that are in are self-regulating to a certain extent, the advantage is that in the present Case a better self-regulation is achieved, and one that is practical is not limited as with the series engine, which on the one hand requires starting resistors, on the other hand, large size shunt resistors to influence the strong currents.

The characteristics of the motor ill which the resistance wave drives, approach the shunt motor in the arrangement according to the invention, because the potential difference at the terminals of the armature of the motor 117 is consistently that remains, which occurs at the terminals of the power generator W and which at a given value »of ui is essentially constant; but while with the shunted motor the inducing field remains constant by itself and a field regulator is set must be changed in order to achieve the required speed changes With the new arrangement, this inducing field is automatically opposed to the moment of force. The motor 111 behaves like a shunt motor, its Field controller is continuously and automatically adjusted.

From the fact that with normal running he according to the invention e arrangement no resistance is required in order to adapt to the changes in the driving force moment adjust, it follows that one avoids the loss of energy in this way that otherwise arises in the resistors, regardless of whether they are series engines or shunt motors.

The connections between the engine and the generators can depending on the conditions of use of the. Device may be different, in particular the generator W can be connected to the terminals of the armature of the motor M. and the power generator G operate on the field of 111, as shown in that Embodiment is given; but the invention also includes all such arrangements which differ when using the described electromechanical system from the one shown Embodiment through the mutual connection of the induced and inducing Windings differ In particular, the invention also applies to the cases where a) the generator or generators f 'in shunt, in series, in compound circuit are energized or where they are wholly or partially by the from the secondary power generator G supplied current are excited, b) the secondary power generator G in series, shunt or compound circuit can be excited 'or completely or partially by the Current of the main generator, c) the motors M either in their armatures of the Main generator power: W are fed while the field magnets are powered by the power be fed either by the secondary generator G alone or by the latter is supplied together with the main generator W, or vice versa in their armatures from the secondary generator G and fed by the generator W in their field magnets will.

The invention also relates to the case where that of the drive shaft driven main power generator replaced by a converter (commutator rectifier) which is fed with alternating current and direct current to drive the motor on the driven shaft.

Claims (3)

PATENT CLAIMS: i. Device for controlling a drive to constant Power with electrical power transmission between the drive shaft and the loaded one Wave by means of a power generator and one Electric motor, thereby characterized in that a control generator (G) for continuous automatic control of the motor or motors with the speed difference between the speed of the main generator (W) and the speed of the electric motor (M) and its current wholly or partially used for field excitation of the electric motor (M will. 2. Apparatus according to claim i, characterized in that the control generator (G) is connected to the anchor terminals of the electric motor (M), during which Field magnets are fed from the generator (W). 3. Device according to claim i or 2, characterized in that the power generator (W) with its drive through a converter is replaced.