DD232897A1 - DEVICE FOR DISPLAYING THE CROWN LIFT IN BAY FILLING SYSTEMS - Google Patents

Abstract

The invention relates to a device for displaying and signaling the zip line at Schachtfoerderanlagen. The aim and object of the invention is to provide a device by means of which the zip-lines can be detected metrologically at Schachtfoerderanlagen. The object is achieved by the fact that the angular difference between the tower disk and the traction sheave, which arises in the case of rope slippage, is digitally measured and evaluated by means of incremental encoders and the measuring signal causes the shutdown of the shaft conveyor system when an adjustable limit value is exceeded. Fig. 1

Description

Field of application of the invention

The invention relates to a device for displaying and signaling the zip line in shaft conveyor systems, wherein electronic components are used.

Characteristic of the known technical solutions

According to DD-WP 104766, a technical solution is known in which by an electromechanical device and analog analysis, the cable slides on shaft conveyor systems is controlled.

The known technical solution is characterized by the complex mechanical adaptation to the pulley in the tower and the drive pulley on the conveyor motor as well as by the provision of the compensation voltage via a gearbox on Teufenanzeiger and by the electromechanical reset device.

Object of the invention

The invention aims to improve the reliability and accuracy of the rope slip monitoring, the

To reduce maintenance, to be able to dispense with the previously required mechanical adjustment and restoring device, so that the adaptation when entering the rope chuck and the adjustment is simplified.

Explanation of the essence of the invention

The invention has for its object to provide a device that can be used to monitor the zip line on shaft conveyor systems and clearly different from previously known technical means. According to the invention the technical object is achieved in that the detection of the resulting angular difference between the pulley on the tower and the drive pulley on the conveyor motor, which runs asynchronously in the case of zip lines, is measured with incremental encoders. The digital pulse difference corresponds to the length of the zip line.

embodiment

The invention will be explained below with reference to an embodiment of Figure 1.

The incremental encoders 1 on the pulley tower and 2 on the drive pulley motor convert the traversed analog movement quantities (angles) into digital signals. The direction detection of the angle quantities is evaluated in 3 and 4. The different rope diameter requires a synchronous adjustment of the forward and reverse pulses from the pulley tower and traction sheave motor, which are realized in Figs. The forward pulses of 5 to 7 or the backward pulses of 6 + 8 are turned on by the switching device 10, which is controlled according to the direction of rotation of 9, to the difference counter. The determined difference is proportional to the zip-slip path.

The difference is displayed in FIG. 12.

In Fig. 13, the egg slip path is set for signaling, leading to the initiation of the rope slip circuit of the hoistway conveyor.

Claims (1)

Invention claim: 1. A device for displaying the zip line at shaft conveyor systems, characterized in that the angular difference between the tower disc and traction sheave, which arises in the zip line is digitally measured and evaluated by means of incremental encoder and the measurement signal causes the shutdown of the shaft conveyor system when exceeding an adjustable limit. For this 1 page drawing Field of application of the invention The invention relates to a device for displaying and signaling the zip line in shaft conveyor systems, wherein electronic components are used. Characteristic of the known technical solutions According to DD-WP 104766, a technical solution is known in which by an electromechanical device and analog analysis, the cable slides on shaft conveyor systems is controlled. The known technical solution is characterized by the complex mechanical adaptation to the pulley in the tower and the traction sheave on the conveyor motor and by the provision of the compensation voltage via a gearbox on the Teufenanzeiger and by the electromechanical reset device. Object of the invention The invention aims to improve the reliability and accuracy of the rope slip monitoring, reduce maintenance, to be able to dispense with the previously required mechanical adjustment and restoring device, so that the adaptation when entering the rope chuck and the adjustment is simplified. Explanation of the essence of the invention The invention has for its object to provide a device that can be used to monitor the zip line on shaft conveyor systems and clearly different from previously known technical means. According to the invention the technical object is achieved in that the detection of the resulting angular difference between the sheave on the tower and the traction sheave on the conveyor motor, which runs asynchronously in the zip line, is measured with incremental encoders. The digital pulse difference corresponds to the length of the zip line. embodiment The invention will be explained below with reference to an embodiment of Figure 1. The incremental encoders of the pulley tower and 2 on the traction sheave motor convert the traversed analog quantities (angles) into digital signals. The direction detection of the angle quantities is evaluated in 3 and 4. The different rope diameter requires a synchronous adjustment of the forward and reverse pulses from the pulley tower and traction sheave motor, which are realized in Figs. The forward pulses of 5 to 7 or the backward pulses of 6 + 8 are turned on by the switching device 10, which is controlled according to the direction of rotation of 9, to the difference counter. The determined difference is proportional to the zip-slip path. The difference is displayed in FIG. 12. In Fig. 13, the zip-line for signalization is set, which leads to the release of the rope slip circuit of the shaft promotion.