DE1276419B - Towing cable device for trolleys, overhead traveling cranes, or similar hoists - Google Patents

Description

Towing cable device for trolleys, overhead traveling cranes, or the like Hoists It is known that the power supply cables to portable consumers on rollers or on cable trolleys along the track at certain intervals in loops to hang up like a garland.

Such a cable suspension is shown in FIG. 1 shown schematically. The trolley 1 of a hoist can be moved on a running rail 2. The drive motor 3 of the trolley is via the movable cable 5, which is stationary with the right end, for example on a bridge, and with the left end on the movable trolley 1 is attached, connected to a power supply network. The cable is in uniform Intervals on rollers or cable trolleys 11 to 15 suspended on a rail 2 parallel rail 4 are guided freely movable. Here the cat pulls that movable cables after, so that the rollers or carriages 11 to 15 on the roadway distribute and essentially a uniform slack and thus also a sets the same distance between the individual cable trolleys. With long cable lengths and high trolley travel speeds, however, the cable becomes damaged as a result of friction and inertia of the parts to be moved initially only stretched in the first loop and finally the first cable trolley pulled more or less jerkily when the in pulling direction effective component of the weight of the first cable loop has become sufficiently large is. This process is repeated for the other loops, so that the entire moving system can start to vibrate and thus the risk of collision the cable and also the cable trolley exists. The situation is similar with Braking the cat. Damage to the cables and possibly also to the Cable trolleys are therefore inevitable.

In a known tow cable device are to relieve the The neighboring cable trolley by a traction device, for example a rope, connected with each other. The ropes are shorter than the two cable trolleys assigned to each Sections of cable so that the acceleration forces do not affect the Cable impact. However, due to the jerky approach of the cable trolleys, the damaging ones Vibrations in the cable are not eliminated.

According to a proposal that has not been published in advance, at least one Part of the cable trolley with a separate motorized drive from the trolley or equipped with a separate drive using endless ropes. Are there the drive motors of the cable trolley gears with such graduated gear ratios assigned that the travel speed of the cable trolley to each to be driven through Section of the Katzweg is adapted.

The invention is based on the problem of jerky starting movements to prevent the cable trolley from the start. According to the invention this object is achieved solved in that the electric motors driving the cable trolleys in multi-motor drives in a manner known per se with electrical dependent on the speed of the hoist motor Sizes are fed or synchronized.

To generate the electrical quantities, for example, an equal or alternator mechanically or electrically coupled to the hoist motor. Due to the dependence of the electrical parameters on the speed of the vehicle's traction motor the drive motors of the cable trolleys work in synchronism.

Embodiments of a towing cable device according to the invention are shown in Figs. 2 to 4 shown.

According to FIG. 2 is, for example, a DC shunt motor as the trolley travel motor 3 is used and its speed is set by changing the armature voltage or regulated. This can be done, for example, by a Leonard converter, a discharge or semiconductor converters, by transductor-controlled rectifiers or the like. happen. The simplest type is the cable car motors 21 to 25 as well run as DC shunt motors and parallel to the armature voltage of the trolley motor 3 to be connected.

Is the armature voltage of the large trolley motor used here so high that the small cable car motors 21-25 are not good for this voltage can be carried out, then according to FIG. 3 a voltage converter is used which consists of a motor 6 and a generator 7, wherein the Motor 6 on the armature side is in turn connected to the armature voltage of the trolley travel motor 3 and thus its speed corresponds to the speed of the trolley travel motor.

According to FIG. 4, the cable trolley motors 21 to 25 can also be used as three-phase motors are executed. So that their speed is in the same ratio as that of the trolley motor 3 can be changed, a period converter consisting of a drive motor 6 and a synchronous generator 8, which the cable car motors fed by three-phase current. The drive motor 6 is again connected to the armature voltage on the armature side of the trolley motor 3 placed and constantly excited, so that the speed of the period converter 6/8 in the same ratio as the speed of the trolley motor 3 goes up and down and the three-phase voltage of the generator 8 in the same ratio as the number of periods is regulated. The three-phase motors 21/25 can be used as squirrel cage rotors or as slip ring rotors are executed.

Both in the embodiment according to FIG. 3 as well as in the example according to FIG. 4, the generators 7 and 8 can also be mechanically coupled directly to the shaft of the trolley travel motor 3, so that the drive motor 6 is omitted.

A generator or a converter, which is controlled by a slave controller controlled by the speed of the trolley motor, can also be used to generate the electrical parameters for supplying or synchronizing the cable car motors. The speed of the drive motor can be expressed by a variable proportional to it, for example by the voltage of a tachometer machine. Such an arrangement can be particularly advantageous if the drive motor for the trolley is not designed as a DC motor in a Leonard circuit, but rather, for example, as a three-phase motor. An example of this is shown in FIG. 5 illustrates. A tachometer machine 9 is coupled to the trolley travel motor 3 and serves as a setpoint generator for the speed of the cable car motors 21 to 25. For this purpose, a slave controller housed at 10 can be used, which controls a direct or alternating current source that feeds the cable trolley motors 21 to 25 or also only synchronizes it. As already indicated above, this power source can in turn be a machine converter, a power converter and the like.

Claims (3)

Claims: 1. Towing cable device for trolleys, overhead traveling cranes or similar hoists, with a garland-like suspension of the cables on cable trolleys, at least a part of which by means of electric motor drives and these assigned gear with one of the sections of the trolley path to be traversed corresponding, differentiated speed can be moved, with the controller the cable trolley drive is coupled with that of the trolley drive, thereby characterized in that the electric motors of the cable trolleys in multi-motor drives in a manner known per se with electrical dependent on the speed of the hoist motor Sizes are fed or synchronized. 2. towing cable device according to claim 1, characterized in that the electrical quantities supplying equal or Three-phase generator coupled mechanically or electrically to the hoist motor is. 3. towing cable device according to claim 1, characterized in that for A generator or a converter is provided to generate the electrical quantities is that of one of the speed of the hoist travel motor or one of these proportional size, e.g. B. the voltage of a speedometer, guided slave controller is controlled. Documents considered: German Auslegeschrift No. 1047 402; German utility model number 1842 360.