CH709026A2 - A method for detecting or monitoring a wire rope, and wire rope. - Google Patents

Abstract

The invention relates to a method for locating and detecting splices in wire ropes. Electrical, magnetic or optical signals are generated in the area of the splice points (4) which are displayed outside the wire rope as locating and detecting signals in a stationary or mobile signal receiver (7). A particularly suitable for the process wire (1) consists of a plurality of wire strands (2) which are stranded around a plastic core (3), wherein this in the field of splices (4) built RFID transponders (5) for generating the locating - And detection signals are provided.

Description

The invention relates to a method for detecting a wire rope, having a plurality of stranded wires which are stranded around a plastic core, and splices are present, and a wire rope.

Wire ropes of this type are used for example as pull ropes in mountain railways, conveyor systems, ski lifts and similar facilities. They therefore often have a considerable rope length, which is made in practice by connecting several mutually spliced rope sections.

The existing splice connections are checked regularly for safety reasons in the maintenance work. However, this is often very complicated in such systems due to spatial and weather-related circumstances, because the location of the splices must be done visually by observing.

The invention has for its object to avoid these disadvantages and to provide a method of the type mentioned above, which allows a quick and accurate detection of various locations within the wire and also without great design effort is feasible.

This object is achieved according to the invention that electrical or magnetic and / or optical signals are generated for locating or detecting the splices in the wire, which can be detected by means of a stationary or mobile signal receiver outside the wire.

In this way, the location of the splice points can be carried out without specially specialized personnel who can perform the work conveniently from a location favorable to him. Since the detection is done by signals sent directly from the splice points, the splice connections can be detected quickly and accurately. In addition, the required design and equipment cost is very low.

Another significant advantage of the invention is that the splices of the wire rope monitored during the period of operation and are regularly maintained by means of a predetermined rehabilitation concept. Thus, the life of the wire rope can be significantly increased.

It is particularly advantageous in this sense, when the locating and detection signals are generated by RFID transponder, which are used in the wire rope in the splice.

Alternatively, the locating and detection signals according to the invention can also be generated by means of an eddy current flowing through the wire rope, which responds immediately in the area of the splitting points due to the there larger metallic cable cross-section.

In a further alternative according to the invention, the locating and detection signals are generated by means of at least one magnetic coil, which also responds in the region of the splices due to the larger metallic cable cross-section there.

The location and detection of the splice sites can also be carried out according to the invention in a photographic way by optically detecting the circumference of the rope in the splice areas.

The proposed alternative methods work as quickly and precisely as the method based on the use of RFID transponders. They also have the advantage over this that they are applicable to conventional wire ropes without special rope construction. However, it is disadvantageous for them that retrofitting the system with an eddy current source, a magnetic coil or a photographic equipment is necessary.

This effort is eliminated when based on RFID transponder method. A particularly suitable wire rope is characterized according to the invention in that the RFID transponders are designed as RFID chips which are installed in the core region of the plastic core of the wire rope. As chips, they can also be used in relatively narrow wire ropes.

Conveniently, the installation of the RFID chips in the wire rope during splicing of the wire strands is performed by drilled in the cable core a hole for receiving the RFID chip, the chip inserted therein and then the hole is sealed.

Such a wire rope is particularly suitable for locating and detecting the splice points when programmable RFID chips are used, with which the storage of operationally relevant rope data is possible. These include the type, the year of manufacture and the dimensions of the rope as well as identification codes for the individual splice points.

The invention will now be described with reference to an embodiment with reference to the drawings. Show it: <Tb> FIG. 1 <SEP> a view of a wire rope with an inventive detection system for the splices, and <Tb> FIG. 2 <SEP> the wire rope of Fig. 1, shown in longitudinal section.

The wire rope 1 according to Fig. 1 and Fig. 2 is composed of several wire strands 2, which consist of stranded wires and are stranded around a plastic core 3 around. Such a wire rope is suitable as a pull rope for mountain railways, conveyor belt systems, ski lifts and similar facilities.

For this reason, it often has a considerable rope length, which can be made for manufacturing reasons only by connecting several pieces of rope. This is done by splicing the cable ends to be connected. As a result, splicing nodes 4 are created at the connection points, which ensure the structural homogeneity of the wire rope per se, but also have to be checked regularly during maintenance or repair work of the rope.

In order to carry out these checks, it is first necessary to locate the splice knots in the wire rope and to recognize them as such, in order to then check them selectively and repair if necessary. For this purpose, the wire rope 1 is equipped in the region of the splice sites 4 with RFID transponders 5, which are used as RIFD chips in the core region 6 of the plastic core 3 of the wire rope and generate there signals that as locating or detection signals in a signal receiver. 7 outside the wire rope. This allows this splice point to be detected quickly and conveniently from an easily accessible location.

Since the RFID chips of the wire rope are installed in the region of the splice points, it is ensured that the signals they send accurately determine the position of the splice nodes. But they are inexpensive and can also be relatively easily installed in the wire.

It is particularly advantageous if the installation of the RFID chips 5 is carried out during splicing of the wire rope by a hole is drilled in the cable core for receiving the chip, then the chip is inserted therein and then the hole is sealed. This makes it possible to use in the construction of mountain railways and similar systems conventional rope elements that can be retrofitted only when splicing the cable sections with the RFID chips. The same is true of course for endless wire ropes, the two ends of the rope are spliced together.

The inventive RFID chips 5 also have the advantage that they can be programmed, such as for storing splice-related data or operationally relevant rope data such as type, year, properties and / or dimensions of the rope. The stored data can be displayed on the signal receiver display. The displays can also be combined with acoustic signals such as warning or similar meaningful signals.

Of course, the inventive method is also suitable for locating and recognizing other prominent points of the wire rope, which affect the structural uniformity of the wire cables similar to the splices.

The invention is also characterized by a monitoring method of the wire ropes 1 during the period of operation, monitored in the splice 4 of the wire rope 1 and are regularly maintained by means of a predetermined rehabilitation concept. Thus, the life of a wire rope can be significantly increased.

With the redevelopment concept, the cycles of the controls of the splices are determined depending on the number of cycles per unit time in circulating ropes. These cycles of splice point checks are carried out after 80,000 to 140,000 cable cycles and / or after 300 to 800 hours of operation.

The invention could of course be demonstrated by further embodiments.

Claims (12)

A method for detecting a wire rope, which comprises a plurality of wire strands (2), a plastic core (3) and splices (4), characterized in that for locating or detecting the splices (4) in the wire (1) electrical, magnetic and / or optical signals are generated, which can be detected by means of a signal receiver (7) outside the wire. 2. The method according to claim 1, characterized in that the locating or detection signals are generated by RFID transponders (5) which are inserted in the wire rope in the region of the splices (4). 3. The method according to claim 1, characterized in that the locating or detection signals are generated by means of an eddy current flowing through the wire rope (1), this eddy current being responsive in the region of a respective splice point (4) due to a larger rope diameter. 4. The method according to claim 1, characterized in that the locating or detection signals are generated with at least one magnetic coil, which responds in the region of the respective splice point (4) due to the larger rope diameter there. 5. The method according to claim 1, characterized in that the locating or detection signals are generated by photographic means by optical detection of the cable circumference in the region of the respective splice point (4). 6. The method according to claim 1, characterized in that the splices (4) of the wire rope (1) monitored during the period of operation and regularly maintained by means of a predetermined rehabilitation concept to increase the life of the wire rope. 7. The method according to claim 6, characterized in that With the refurbishment concept, the cycles of the checks of the splice points (4) are determined as a function of the number of rope revolutions per unit of time in the case of running ropes. 8. The method according to claim 7, characterized in that the cycles of the splice point controls (4) are determined after 80 000 to 140 000 cycles and / or after 300 to 800 hours of operation. 9. Wire rope for carrying out a method according to one of the preceding claims 1 to 8, which comprises a plurality of wire strands (2), a plastic core (3) and splices (4), characterized in that one or more RFID transponders are installed as RFID chips (5) at the respective splice points (4). 10. Wire rope according to claim 9, characterized in that the one or more RFID transponders are installed in the core area (6) of the respective splice point (4). 11. Wire rope according to claim 9 or 10, characterized in that the incorporation of the RFID chips (5) in the connecting a cable pieces by splicing the wire rope by a hole for receiving the chip is provided in the core region (6), the chip is inserted therein and the hole is sealed. 12. Wire rope according to one of the preceding claims 9 to 11, characterized in that the RFID chips (5) are each programmable, such that the storage of operationally relevant retrievable rope data is possible, such as manufacturing data and / or properties of the rope.