EP2554750A2 - Piste caterpillar with hoist, method for analysing wear of a hoist rope and device for performing the method - Google Patents

Abstract

The method involves storing the operation life of winch (2) which is evaluated based on detection related to steering angle of the steering wheel in the cab, tensile forces of the winch cable and angular position of the winch cable by sensors (8-10,13) as detection data. The operating data corresponding to the wear of the hoist cable is determined based on the length of the cable, pitch load of the cable and stored detection data. The determined operation data is provided as retrievable data. An independent claim is included for device for analyzing wear state of hoist cable of winch.

Description

The invention relates to a snowcat with a winch and in connection therewith a method for analyzing a state of wear of a winch rope of a winch on a snow groomer, and a device for carrying out the method.

Snow groomers for snow grooming are well known. In order to enable a slope maintenance even on steep terrain, snowcats are provided with winches, which are mounted behind a cab of the respective snow groomer and each include a winch arm, which towers over the cab. For processing of steep snow terrain, the winch rope is at least partially withdrawn from the winch and fixed to a stationary fixed point in an upper region of the terrain. Subsequently, the slope processing is carried out by the snowcat with train support by the stretched winch cable, which is on the winch depending on the position and ride the snow groomer complementarily up and unwound. The traction assistance by the winch driving on a snow groomer even from steep terrain that could not be driven without winch support by the snow groomer.

Due to the loads occurring in winch operation and in piste grooming operation of the snow groomer, the winch rope is subject to wear. An examination of the state of wear of the winch rope takes place in the workshop by optical inspection of a workshop or service person.

The object of the invention is to provide a method and a device of the type mentioned, which allow an improved wear detection for the winch cable.

This object is achieved for the snowcat according to claim 1 and for the method by the features of claim 2. Operating data of the winch are recorded and stored over a period of operation of the winch. The relevant for a wear of the winch rope operating data in terms of his rope length during the operating time resulting loads on the winch rope are evaluated and accumulated over the rope length loads accumulated over the operating time provided as retrievable information. The provision of retrievable information about the loads of the winch rope depending on its rope length also includes warnings or signals that critical load conditions of the winch rope are already reached or to be expected in the foreseeable operating time.

The type of wear estimation and visualization according to the invention has proven to be particularly advantageous in connection with snow grooming vehicles in the form of snow groomers.

The winches of these heavy tracked vehicles serve in many everyday situations directly to the driving of the vehicle, as there are terrain conditions in the field of application of these vehicles, which are accessible only by the use of the wind. It is thus of particular use to always be able to check the condition of the rope in order to avoid problems due to a worn rope in such a terrain.

The snowcat according to the invention and the operating method according to the invention for this purpose ensure the required degree of safety.

In addition, it allows the exact maintenance of wear and its visual processing to make economically sensible decisions regarding the use of the vehicle and maintenance and repair of the winch system.

In an embodiment of the invention, a pulling force of the winch rope and / or a number of winding and unwinding operations and / or unwinding lengths and / or up or unwinding positions and / or winding or unwinding speeds of the winch rope are detected as operating data over a period of operation of the winch. All operating data are recorded and stored in a time-dependent manner so that tensile forces occurring over a period of operation of the winch and / or the number of winding and unwinding operations of the winch rope and / or remaining rope lengths occurred during the operating period and / or consequently winding or unwinding lengths of the winch rope and / or or occurred winding or unwinding speeds can be recorded and stored. As a result, it is detected which loads the winch rope has experienced during an operating period. The number of winding and unwinding operations, as well as the residual rope lengths that have occurred, which are defined by recorded winding or unwinding positions, allow conclusions to be drawn on the Bending and tensile loads of the winch cable too. Tensile loads can be determined directly by the measured tensile forces. Bending loads of the winch rope occur when winding and unwinding on a corresponding cable drum and when passing through a game gear upstream of the cable drum.

In an embodiment of the invention operating data of the snowcat are recorded and stored over the operating life of the winds and used to evaluate the costs incurred over the rope length loads the winch. Relevant operating data of the snowcat concern angular positions of a winch arm of the winch relative to the vehicle longitudinal axis and relative to the axis of rotation of the winch of the winch occurring torques of an active rotary drive of the winch, which is used in slanting to stabilize the ride of the snowcat and to compensate for lateral forces during driving the snowcat. Also, such operating data of the snowcat are recorded time-dependent over a period of operation of the winch and stored accordingly.

In a further embodiment of the invention, global operating data of the snowcat relative to the terrain used are used as operating data. As a result, in the winch operation of the snow groomer, conclusions can be drawn about the orientation of the winch rope with respect to the terrain being traveled and the extended length of the winch rope. These operating data are also recorded and stored time-dependent. Decisive is that the stationary fixation point in the area where the winch rope is attached, and the terrain itself are also defined via global position data.

In a further embodiment of the invention, the loads occurring over the cable length are graphically represented. The calculated loads are processed for a graphical representation, so that a Viewers can recognize on a corresponding screen, which loads have occurred at corresponding points of the winch rope. The graphical representation can be provided in two or three dimensions.

In a further embodiment of the invention options for a further use of the cable depending on the detected state of wear are provided. According to this embodiment, the data influencing the wear is thus not only detected, stored and visualized, but also evaluated in terms of content to provide at least one concrete instruction for a meaningful further course of action.

In order to select a suitable maintenance measure based on the pure wear data, an experienced specialist is required. But if the snowcat itself is able to propose a meaningful approach, the circle of those who can perform the maintenance / repair is larger.

According to this embodiment, the system performing the operating method is such that it proposes at least and preferably one of several possible options for maintenance / repair measures, which is the most sensible in terms of safety and economy in light of the specific wear data. This may also be realized by proposing several possible options, one or more of which are highlighted as being particularly appropriate. Thus, according to the invention, it is important that the system knows a number of possible recommendation options, but that only a part or even only one of them is the best or the best in the concrete individual case or even only outputs this. Preferably, at least and preferably one option is proposed from the following list of possible recommendations, this preferably being done by output on a screen of the vehicle.

The recommendations of disassembly and rotation and re-assembly of the winch rope is especially necessary if in light of the total length of the rope and the previous wear data is expected that with continued in approximately similar wear situation, the turned rope, with the thus proximal end and distal end (Anhängepunkt) were reversed, so far not or little worn sections after the turn will be increasingly burdened, while previously heavily sections are charged little.

The recommendation of a shortening of the winch rope at high stress points, in particular the shortening of the rope at the attachment point towards pointing distal end, is required, although the remaining length of the rope for the typical or vehicle-specific use situations sufficient and thus previously previously little worn areas mainly form loaded areas. To carry out this measure, the winch cable is usually removed from the winch and a corresponding cable drum and then reassembled in a shortened state.

The two aforementioned rotation and shortening recommendations may also be recommended by the system as a common measure.

The recommendation of a complete replacement of the winch rope is given by the system if the other measures are not promising, for example, if a reduction would be required, which then restricts the possibility of use and / or if due to a previously made rotation of the rope this measure is not open a second time.

The respective measure should then be brought to the knowledge of the system by input, so that further suggestions can take these measures of the past into account. As a rule, a rotation of the rope is only once in question.

For the device for carrying out the method, the object underlying the invention is achieved by the features of claim 9. As means for time-dependent detection of operating data of the winch, corresponding sensors are provided in connection with a time measuring device. The memory for storing the operating data over the operating period represents an electronic memory, which is assigned to the electronic control unit. Preferred operating data of the winch are detected by means of a residual rope length sensor assigned to the cable drum of the winch via a drafting force sensor positioned in the winch arm. As an interface, both a data connection and a telemetry unit can be provided. The data port includes a suitable plug-in connection in the area of the central control unit on the snow groomer to enable the wired connection of a computer. The telemetry unit allows a wireless query of the information.

In an embodiment of the invention, means for time-dependent acquisition of operating data of the snowcat are provided. Such means for detecting snow groomer operating data include a Global Positioning System (GPS), suitable sensors that provide steering lock the steering wheel in the cab while driving and / or angle and force sensors that detect the active deflection of the winch arm relative to the vehicle longitudinal axis of the snow groomer and, consequently, the occurring lateral load. A residual rope length sensor can be used to determine how many times a certain rope section of the winch cable has passed through the capstan heads of the capstan drive and the deflection rollers on the winch arm during the operating period of the winch. The winding and unwinding speed of the winch cable can also be determined via the residual rope length sensor. The described embodiment can be used in the same way in drum winches.

Via a GPS sensor, the extended length of the rope can be determined over the duration of the winch operation. If positioning data of the terrain being traveled is known, it is also possible to determine which cable sections run over hilltops, rocks or the like during the operating time of the winch and are therefore subject to greater wear due to corresponding contacts with the terrain surface. In addition, the information obtained can also be displayed graphically via a screen in the driver's cab.

In a further embodiment of the invention, a graphical display unit is provided which displays the information about the state of wear graphically. The graphical display unit can be arranged in particular as a screen or display in the cab of the snowcat. Alternatively or additionally, the electronic control unit is associated with an interface, which allow a connection of an external screen and an external computer unit. This interface can be designed to retrieve the information via telemetry.

Further advantages and features of the invention will become apparent from the claims and from the following description of a preferred Embodiment of the invention, which is illustrated by the single drawing.

The only drawing ( Fig. 1 ) shows a snowcat provided with an embodiment of a device according to the invention for carrying out a method for analyzing a state of wear of a winch rope of a winch of the snowcat.

A snowcat 1 after Fig. 1 is designed in a basically known manner as a tracked vehicle and provided with a front-side plow blade and a rear-side milling device. The snowcat 1 has a cab 4, in which a seat for a driver of the snowcat is provided. Behind the cab 4, a winch 2 is mounted on the snowcat 1. The winch 2 is by means of a rotary drive about an axis extending in the vehicle vertical axis of rotation including their in the illustration to Fig. 1 about the cab 4 forward projecting winch arm 3 relative to the snowcat 1 rotatable. The rotary drive of the winch 2 enables an active rotation control of the winch arm 3 during the driving operation of the snowcat 1.

The winch 2 comprises in a manner not shown a cable drum on which a winch rope is wound. The winch cable preferably has a length between 900 and 1500 m. The cable drum is preceded by a spill gear, in which the winch cable is deflected over a plurality of sprockets and then guided into the winch arm 3. In the winch arm 3 further deflection rollers are mounted, which pass the winch rope until its exit at a front end face of the winch arm 3 through the winch arm 3. A front end of the winch rope is provided in a basically known manner with a fastening device in the form of a hook or the like to the winch rope at a stationary ground point of a To be able to fasten the upper side of the steep terrain to be traveled by the snowcat 1.

In order to detect operating data of the winch 2, a plurality of sensors are provided. A residual cable length sensor 7 is assigned to the cable drum in the region of its axis of rotation. The residual rope length sensor 7 detects time-dependent each rotation of the cable drum in the winding and unwinding. In conjunction with the known total length of the winch cable allow the transmitted data of the residual cable length sensor 7 accurate position determinations of up and unwound cable lengths, the winding and unwinding speeds of the winch cable and the like.

In the winch arm 3, a tensile force sensor 8 is provided, which detects the tensile forces of the winch rope occurring during winching operation.

The snowcat 1 comprises two further sensors whose data are used for the analysis of a rope wear of the winch rope. This is on the one hand a GPS sensor 9, which is part of a global positioning system for the snowcat 1 and transmits data on the current position of the snowcat 1 relative to a known terrain.

The rotary drive of the winch 2 is associated with a sensor 10, the angular positions of the Windesarmes 3 relative to the vehicle longitudinal axis and determined torques acting on the rotary drive of the winch 2 while driving the snowcat 1. Finally, an angle sensor 13 is provided as a sensor for detecting operating data of the snowcat 1, which determines a steering angle of a steering wheel 5 in the cab 4 of the snowcat 1. The data of this angle sensor 13 are used to determine the transverse forces occurring in the winch operation of the snowcat 1, by the active rotary drive of the winch at an angle of the winch arm 3 relative to the direction of travel of the snowcat 1 arise.

All sensors 7 to 10 and 13 are connected via corresponding data lines to an electronic control unit St, which is assigned an electronic memory Sp. The data acquired by the control unit St of the various sensors are stored via the control unit in the memory Sp. For evaluating the data, the control unit St communicates with the memory and, with the aid of further parameters stored in the memory to the winch cable, calculates the loads on the winch cable which have occurred during the operating period. In particular, the rope length and the characteristic properties of the cable material as well as critical limit values for cable loads are stored as further parameters.

The electronic control unit St is assigned a telemetry interface 11 and a diagnostic interface 12. The telemetry interface 11 enables the wireless retrieval of information provided by the control unit St on the state of wear and the loads incurred by the winch cable. The corresponding data can be retrieved via computer P ₁ , P ₂ in a service workshop or in the workshop of the operator of the snowcat 1. The diagnostic interface 12 allows the connection of a computer P ₃ by a service technician directly to the snowcat 1.

The entrained on the snowcat 1 electronic control unit St including its memory Sp is connected to a screen 6 in the cab 4 to allow the driver of the snowcat 1 the possibility of retrieving information about the loads and the state of wear of the winch cable. On the screen 6 also warnings are issued when a specific Rope portion of the winch rope in winching operation has reached a critical state of wear.

Corresponding information output on the screen 6 or via the computers P ₁ , P ₂ , P ₃ also includes information as to how long the winch cable can still be used in winch operation until a critical state of wear is reached. In addition, this information includes warnings when a critical state of wear is reached. It is also informed about which area of the winch rope is particularly stressed. In addition, recommendations are made as to whether the rope should be shortened at the appropriate point or the entire winch rope should be rotated, which also allow without accurate checking of the wear data to easily identify the most appropriate measure for maintenance / repair. By the appropriate measures, the service life of a winch cable can be increased. The degree of wear of the winch rope is detected over the entire cable length, so that particularly high-stressed cable areas detected early and countermeasures such as replacement of the winch rope, a reduction of the winch rope or turning the winch rope can be taken. Particularly advantageous solution of the invention can also be used for the determination of the state of wear of winch cables, which do not allow visual inspection of the state of wear as plastic ropes in particular.

Claims (11)

Snowcat with a winch,
characterized in that
the snowcat includes: - Sensors for recording operating data of the winch and an electronic control unit (St),
wherein the sensors and the electronic control unit (St) are adapted to analyze a state of wear of a winch part of a winch, wherein - Operating data of the winch (2) detected by the sensors and stored over a period of operation of the winch by the control unit (St), and - Wherein the relevant for a wear of the winch rope operating data evaluated in terms of its rope length during the operating time resulting loads of the winch rope and the loads occurring over the rope length - cumulative over the operating period - are provided as retrievable information. A method for analyzing a state of wear of a winch rope of a winch on a snowcat (1), wherein operating data of the winch (2) detected and stored over a period of operation of the winch, and wherein the relevant for a wear of the winch rope operating data with respect to his rope length during The loads incurred during the operating period of the winch cable are evaluated and the loads which have occurred over the cable length - cumulated over the service life - are made available as retrievable information. A method according to claim 2 or snowcat according to claim 1, characterized in that as operating data over a period of operation of the winch (2) a tensile force of the winch rope and / or a number of winding and unwinding operations and / or unwinding lengths and / or up or Abwickelpositionen and / or winding or unwinding speeds of the winch rope are detected. Method or snowcat according to one of claims 1 to 3, characterized in that operating data of the snowcat (1) is detected and stored over the operating life of the winch (2) and used to evaluate the costs incurred over the rope length loads the winch. Method or snowcat according to claim 4, characterized in that as operating data global position data of the snowcat (1) are used relative to the traveled terrain. A method or snow groomer according to at least one of the preceding claims, characterized in that the loads occurring over the rope length are graphically displayed. Method or snow groomer according to at least one of the preceding claims, characterized in that options for further use of the rope depending on the detected state of wear are provided. Method or snow groomer according to one of the preceding claims,
characterized in that
at least one of at least two of the following three possible options - Recommendations for disassembly and rotation as well as reassembly of the winch cable, - Recommendation of a reduction of the winch rope at high loaded points and - Recommendation of an exchange of the winch rope depending on the detected state of wear is selected. Apparatus for carrying out a method according to at least one of claims 2 to 8, comprising means (7 to 9) for the time-dependent acquisition of operating data of a winch (2), with a memory (Sp) for storing the operating data over a period of operation, and with an electronic Control unit (St), which evaluates the stored in the memory (Sp) operating data in terms of over a pitch during the operating time resulting loads of the winch cable, and with one of the electronic control unit (St) associated interface to information obtained by the evaluation of the state of wear the winch rope over his rope length to be able to retrieve. Apparatus according to claim 9, characterized in that means for time-dependent detection of operating data of the snowcat (1) are provided. Apparatus according to claim 9 or 10, characterized in that a graphic display unit (6) is provided which displays the information about the state of wear graphically.

Images