DE297269C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The well-known depth indicators for rope conveyance are based on the principle of the movement of the Conveying load mechanically on a reduced scale, bars appear at the guarding point permit. With this principle, the movement of a spindle turned out to be the most practical design directly from the cable drum, with a nut sitting on the spindle accordingly the revolutions of the cable drum is shifted. This arrangement has the disadvantage that the scale is only for a very specific one Pitch is correct. But as soon as the rope is elongated by stretching and thereby the position of the load in relation to the cable drum changes, the information on the scale does not apply more to. Attempts have been made to alleviate this problem with mechanical depth hands avoid that the spindles are not driven from the cable drum, but from one Rope pulley over which the running rope run is guided. But this arrangement also results very large inaccuracies if the cable drum is still slightly when the load is placed runs and slack rope arises in the expired rope strand. In this case it will be tightened again of the rope the .Teufenzeiger already moved before the load made a movement Has.

According to the invention, these inconveniences are to be avoided by applying a new principle will. The invention is based on the known fact that the electrical resistance of a metallic wire, of uniform cross-section proportional to the length of the wire is. So if you measure the electrical resistance of the stranded rope, you get you can immediately determine the length of this strand and thus the exact position of the load in each Moment of their movement. If it is a matter of cable conveyors of great length, then to measure the resistance of the steel cable itself; in the case of such ropes is for Usually there is a telephone wire in the rope, which is used for the return of the current can use. If you switch to the electrical connection point between the steel cable and Telephone wire a suitably sized choke coil, so the telephone operation is not disturbed. For short ropes where the resistance of the steel rope is low, it is advisable to use a copper wire with a large cross-section as a return line in the steel cable put in; or you can run a resistance wire next to the rope and at the same time with it or rewind it and measure it. However, the prerequisite for correct measurement is constant voltage Measuring battery. However, this is easy to obtain since the measuring current only needs to be very low. However, it will be useful to meet a facility through which you can get away at any time the correct voltage of the battery can convince, as with. the one described below Embodiment is set out in more detail.

The fact that it cannot be reckoned with with certainty creates greater difficulties can that the windings wound on the cable drum are completely short-circuited are. According to the invention, the inaccuracies in the measurement resulting therefrom are avoided by the fact that the Rope drum just behind the rope drum

runs over a pulley and this is used to supply the measuring current.

On the drawing the subject is the

Invention shown, namely Fig. Ι shows schematically the overall arrangement, and FIG the circuit diagram of the measuring device alone.

The rope 2 runs off or from the drum 1.

is wound up by it and runs just behind the drum over a pulley 3. It is with a copper core 4 provided, which at the lower end via a choke coil 5 away with the Rope is electrically connected. At the end of the rope attached to the rope drum 1 is the copper core 4 is guided to a slip ring 6 seated in an insulated manner on the shaft of the drum. The measuring current runs from this slip ring via the battery 7, the measuring instrument 8 and the pulley 3 to the cable and from this via the choke coil 5 through the wire 4 to the Slip ring 6 back. Since in this way the already very low resistance of the If wire 4 remains constant during the entire rope movement, it is clear that the change in the current strength only by the change in length of the rope between the roller 3 and its lower end, on which the load hangs.

In Fig. 2, the circuit of the measuring device, as it can be expediently designed, shown. The measuring instrument 8, which can be calibrated directly in meters, is in the formed by the four resistors 9, 10, 11 and 12 Bridge. In the bridge branch 10 on the right, the rope and the return line are switched on, while in the bridge part 11 on the left there is a fixed reference resistance 13 can be switched on. When the switches 14 and 15 are in the position shown are located, the current runs from the battery 7 via a regulating resistor 16 to the left Bridge branch; at the same time the rope is switched on in the right branch of the bridge and the measuring instrument shows the resistance of the rope. Will the. Switches 14 and 15 in brought the position shown in dashed lines, then the lead to the rope is on the right Bridge part short-circuited and the comparison resistor 13 is switched on in the left bridge part. This resistance is dimensioned so that with the correct battery voltage the measuring instrument 8 deflects exactly to the end of the scale. If this deflection is not correct, the adjustable resistance must be used 16 can be helped accordingly. In this way, the accuracy of the measurement information can be checked at any time with one hand movement.

Claims (2)

Patent Claims: 1 .. Depth pointer for rope conveying any Kind, characterized in that the location of the load by measuring the electrical Resistance of the expired load rope or one that has been lowered at the same time or that is clamped next to the roadway Resistance wire is determined. 2. depth pointer according to claim 1, characterized in that the running rope strand right behind the winch drum is guided over a pulley, which is used for the feed "of the measuring current to the rope is used. 1 sheet of drawings.