DE452533C - Winch - Google Patents

Description

GERMAN EMPIRE

2 2 LEC. 192Z

ISSUED ON
NOVEMBER 17, 1927

REICH PATENT OFFICE

PATENT LETTERING

CLASS 35 c GROUP 1

S 72281 XI / ssc Date of publication of the patent grant: October 27 ig2j.

Siemens-Schuckertwerke G. m. B. H. in Berlin-Siemensstadt *).

Winch.
Patented in the German Empire on November 20, 1925.

In many casesA it is necessary to haul in a large length of rope with significant pulling force and wind it up. You would use an ordinary winch with a large drum that covers the entire length of the rope can be accommodated, the rope would have to be wound in several layers if you do not want to make the length of the rope drum excessively large. With this winding in several layers On top of each other under your full, strong cable pull, the lower layers are strongly pressed. The rope is subject to strong transverse loads and therefore premature wear.

To remedy these abuses, institutions have already been created in which the speed of the reeling winch in a certain ratio to that of the winding winch stands and has both winch equipment

*) The patent seeker stated as the inventor:

Dr.-Ing. Otto Krell in Berlin-Dahlem.

gen driven together. This does not eliminate the disadvantage that the speed the winding winch no longer corresponds to the conveying speed of the Einhohvinde, as soon as the rope is laid on top of each other in several layers. One has to this Purpose of the winding winch with the interposition of flexible clutches such as slip clutches or the like, connected to the drive shaft ίο. This arrangement has the disadvantage that the difference between the torque to be taken and the slipping torque is quite different because the coefficient of friction of rest is considerable is greater than the coefficient of friction of the movement.

The invention, the object of a cable winch for large pulling power and long cable lengths has, overcomes this disadvantage in that both the Einhohvinde and the Aufspuhvinde is driven by a special motor. If you choose electric motors for the drive, there is the possibility of the tensile forces of the retrieval device and the winding device in the " setting the required frictional engagement to set the necessary ratio.

To achieve this, you can, for. B. proceed so that both drive motors are given a constant field and their armature connected in series so that they receive the same amperage. If the armature windings are now selected according to the ratio of the torques to be achieved for both windmills, this ratio will automatically remain for all loads, because with constant field excitation the torque is only Λ ^τ οη of the amperage supplied to the armatures and the speed of the motors depends only on the voltage applied to them. These voltages can now be regulated in the most sensitive way by using a generator that can be regulated in its magnetic field, the exciter machine of which can also supply the current for the constant field excitation of the winch drive motors.

In the Fig. I of the drawing, this embodiment is illustrated, denoted ι the power winch, 2 the winding winch. The rope 3 is one or more times around the Winding capstan head 4 of the power winch and is driven by it through the drum 5 of the winding winch settled. The power winch is from the electric motor 6 and .the winding winch driven by the electric motor 7 each via a countershaft. Anchors 8 and 9 of the motors are connected in series with the separately excited generator 10, which can be regulated in the field, while their field windings 11 and 12 by the exciter 13 of the generator 10 can be fed with constant current. The field winding 14 of the The control dynamo 10 is connected to the exciter via the switch 15 and the regulating resistor 16 13 connected, which is driven by the electric motor 19 together with the control dynamo. By Regulation of the field 14 of the control dynamo can control the speed of the winch motors according to the voltage supplied by the control dynamo from zero to regulated to the highest voltage. Since the fields of the drive motors remain the same, the number of revolutions of the motors is directly proportional to that supplied to their armatures Voltage at approximately constant current strength.

Fig. 2 differs from Fig. Ι only in that the capstan winch ι of Fig. 1 is replaced by a two-headed capstan 17, 18. The rope 3 is in multiple Windings around both capstan heads, which are driven jointly by the electric motor 6. The winding up of the rope running off the capstan heads is in turn driven by the winding winch 2 which is driven by the electric motor 7.

Claims (2)

Patent claims: 1. Cable winch for high pulling power and long cable lengths, where hauling in and the winding of the rope is effected by a special device each, thereby characterized in that each device has its own drive motor, and that these electric motors are so built and are connected that the tensile forces of the retrieval and winding device in the necessary frictional connection necessary relationship to each other. " 2. Embodiment according to claim 1, characterized in that the armature (8, 9) of the two drive motors (6, 7) are connected in series and with constant fields of an in its excitation adjustable generator (10) are fed. For this purpose ι sheet of drawings.