This application claims priority to German Application No. 10 2005 020 170.9 filed on Apr. 28, 2005.
The invention relates to a planing device, with a mining planer reversibly moveable by means of a planer chain and travelable back and forth between planer limit stops, with at least two chain drives having in each case a variable-speed drive motor, a gearing and a planer chain wheel engaged with the chain links of the planer chain, with a planer travel measurement system and with a motor control device which, for example by program control or position control, delivers activation parameters for a change in rotational speed of the drive motors in order to change the planer speed, and which is assigned a control module with automatic load compensation regulation between the drive motors of the chain drives. The invention relates, furthermore, to a method for activating a planing device, in particular a coal planing device for underground mining, with at least two chain drives which have in each case a variable-speed drive motor, a gearing and a planer chain wheel, with a mining planer which is driven by means of the planer chain and which travels back and forth reversibly between planer limit stops during operation, with a planer travel, measurement system which provides planer position signals, and with a motor control device which delivers activation parameters to the drive motors and which is assigned a control module which, in the normal operating mode, automatically effects load compensation between the two drive motors and coordinates the activation parameters of the two drive motors with one another.
A generic planing device is operated in the Ibbenbüren mine and is described in the journal Bergbau [Mining] 7/2003, p. 311-315. The planing device is equipped with standard 400 kW frequency converter motors which, via a professional bus interface, can communicate with one another and with a master longwall mainframe for remote diagnosis. The drive motors of the chain drives can travel in continuous operation at rotational speeds of 80-1800 rev/min., and the motor control device comprises a control module which effects automatic load compensation of the two drive motors driving the planer chain wheels. The planer travel measurement system has planer travel pulse generators in the overload gearings, and the speed of the planer can be regulated continuously at the longwall ends. In this case, the drive motors maintain their maximum torque at the longwall ends. The planing device used in the Ibbenbüren mine makes it possible to achieve high productivity. When the planing device is operating continuously, however, unusually high chain wear occurs separately on a few chain links and on the teeth of the planer chain wheels.
The object of the invention is to provide an improved planing device and a method for operating the planing device, which, while preserving the same productivity and power data of the planing device, prevent the occurrence of excessive chain wear.
This object is achieved, according to the invention, for the planing device, in that a monitoring module is provided, which switches off the control module for load compensation regulation or modifies the operating mode of the control module in a suitable way, for example by position control, program control and/or parameter control. The object is achieved, for the method according to the invention, in that the control module switches off the control module for load compensation regulation or temporarily changes the operating mode of the control module, for example, by position control as a function of the planer position signals and of the running direction of the mining planer, by program control or by parameter control.
Comprehensive investigations of the chain wear on the planer installation in Ibbenbüren have shown that the excessive chain wear is restricted locally to three to five chain links in each case in the length end of that chain length which, when the planer runs into the planer end region of the main drive pulling with regard to the respective planer running direction, is in engagement with the planer chain wheel of the other (auxiliary) chain drive. The applicant attributes the high wear of the planer chain on the corresponding chain links to the high chain tensions which are introduced into the planer chain when the planer motors deploy their maximum torque, even when the planer runs at a reduced planer speed in the planer end region, which can scarcely be avoided in order to avoid damage to, for example, mechanical planer limit stops or the drives.
The problem solution according to the invention is to provide a monitoring module which switches off the control module for load compensation regulation and generates specific activation parameters or modifies the activation parameters transmitted from the control module to the drive motors. In the motor control devices used hitherto for variable-speed drive motors which operate with automatic load compensation regulation, the load compensation regulation is maintained between the main drive and auxiliary drive in all the operating states, in that, for example, the current actual value of one of the motors is transferred, as an activation parameter, to the control of the other motor in each case, and both the main drive and the auxiliary drive receive the same desired rotational speed instruction. Since, at the same time, the planer speed is lowered in the planer end region to sometimes extremely low planer speeds of 1/30 to 1/10 of the normal planer speed, without the control module for load compensation regulation being cut back according to the invention the full drive torque of both chain drives may possibly be introduced into the chain, which may result in extremely high chain tensions in the lower strand of the planer chain, which, even in the case of wire thicknesses of the planer chain of 38 mm or 42 mm, could lead to considerable chain wear and mechanical abrasion on the chain links. By contrast, owing to the measures according to the invention, the problem mentioned no longer arises.
In the method according to the invention, preferably, the monitoring module can compare the drive rotational speed of the (auxiliary) chain drive remote from the planer with a desired rotational speed and, if the desired rotational speed is undershot by the amount of a preset deviation, can deliver the activation parameters for this drive chain remote from the planer according to a specific activation program. It is especially advantageous, if the monitoring module implements the switch-off or cutback of the normal operating mode of the control module both by rotational speed control and by position control, to be precise when the planer travel measurement system detects the mining planer in the planer end region, and then delivers different activation parameters for the two drive motors.
With regard to both the planing device and the method according to the invention, it is especially advantageous if the drive motors consist of frequency converter motors. It is advantageous, further, if the gearings comprise an overload gearing with multiple-disk clutch, so that the planing device according to the invention and the method also, for example, allow a smooth start-up and are provided with overload protection.
The monitoring module and/or the control module may consist, in particular, of software modules for the motor control device. The solution according to the invention can consequently be implemented, where the planing device and the method are concerned, by the provision of additional software or program routines.
As regards the planing device and as regards the method, there may be provision, in particular, for the activation parameters of one drive motor to form the command variables for the control module in a normal operating mode, while, in the modified operating mode of the control module, the monitoring module modifies the activation parameters for the other drive motor proportionally or according to a predetermined algorithm. In the simplest embodiment, it may in this case be sufficient for the monitoring module to regulate the activation parameters for the other drive motor in each case down to a value at which the corresponding drive takes essentially only the load due to the friction of the planer chain in the lower strand of the chain guide, so that, at the same time, the formation of sag at the other chain drive (main drive) is avoided. The monitoring module may, in particular, limit the motor torque of one of the drive motors to a preset value.
The planing device according to the invention and the method according to the invention may operate with a central, if appropriate, above-ground motor control. In the preferred embodiment, each drive motor is assigned a motor control, the motor controls communicating directly with one another via a signal connection, such as a data bus or radio, or being connected to a master motor control device. The modified operating mode may also provide for the respective auxiliary drive to ignore the activation parameters of the other chain drive as soon as the monitoring module acts on the control.
Further advantages and refinements of the invention may also be gathered from the following description of an exemplary embodiment illustrated diagrammatically in the drawing in which:
In the figures, reference symbol 10 designates as a whole a planing device according to the invention having a planer 1 which is moved back and forth by means of a planer chain 2 reversibly between the chain drives 3 and 4, arranged at the ends, for the planer chain 2. The reversible movement of the planer 1 is indicated by a double arrow F in
For the unmanned automatic control. of the planing device 10, the figures illustrate a control computer 11 which is provided with a suitable automation software having numerous software modules and is connected, for example via at data bus to the motors 8 for the activation and remote diagnosis of the operating state of the two drive motors 8 of the chain drives 3, 4. A software module in the control computer 11 in this case consists of a motor control, via which the planing speed of the planer 1 is reduced, in the region of the planer limit stops which are illustrated by the arrows X in
Referring to
According to the invention, then, the control computer 11 is equipped with a monitoring module 13 which again may consist, in particular, of a software module or of a software routine and which, in particular by position control, that is to say as soon as the planer 1 reaches the longwall end region X or a specific location within the longwall end region X, cancels the action and functioning of the load compensation control module 12.
The switch-off or modification of the load compensation motor control by the control module 12 prevents the situation where, at a time point shortly before the limit stop is reached and before the reversal of the planer 1, an excessively high chain tension builds up, which takes effect, in particular, in the lower strand of the planer chain 2 and, without the monitoring module 13, could lead to rotary pendulum movements of the planer chain wheel 6 on the respective slave drive 4 and to wear of the chain links of the planer chain 2 which are in engagement with this.
Number | Date | Country | Kind |
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10 2005 020 170.9 | Apr 2005 | DE | national |