EP3228756A1 - Machine tool and method for machining a soil - Google Patents

Abstract

The invention relates to a working machine and a method for processing a floor with a working machine with a mast, along which by means of an adjusting device a power turret is moved vertically, through which a telescopic Kelly linkage is slidably guided, which at least one Außenkellystange, which rest on the top of the power is formed, and a Innenkellystange comprising a cable suspension for a rope through which the Innenkellystange is moved vertically by means of a winch, wherein the soil is processed with a soil working tool, which is attached to a lower end of the Kelly bar. According to the invention it is provided that the adjusting device for the power turret and / or the main winch for the Kellygestänge are automatically controlled by a control device, the Innenkellystange is moved relative to the power turret partially with a high-speed mode with a first speed and partially with a Schonfahrmodus which reduces the speed compared to the first speed of the high-speed mode.

Description

The invention relates to a working machine, in particular a construction machine, with a mast, along which by means of an adjusting device a power turret is moved vertically through which a telescoping Kelly linkage is slidably guided, which at least one Außenkellystange, which is designed to rest on the power turret, and a Innenkellystange having a cable suspension for a cable through which the Innenkellystange is vertically moved by means of a main winch, according to the preamble of claim 1.

The invention further relates to a method for processing a floor with a working machine, in particular according to one of claims 1 to 7, with a mast, along which by means of an adjusting device, a power turret is moved vertically, through which a telescopic Kelly linkage is slidably guided, which at least one Außenkellystange, which is designed for resting on the power turret, and a Innenkellystange comprising a cable suspension for a rope through which the Innenkellystange is moved vertically by means of a main winch, wherein the soil is processed with a tillage tool, which at a lower end of the Innenkellystange is attached, according to the preamble of claim 8.

A Kelly linkage is a telescopic tool linkage which is constructed from a plurality of tubular rod elements and has at least one outer kelly rod and one inner kelly rod. The Innenkellystange and thus the Kelly linkage as a whole is suspended from a rope, the Kelly linkage by an annular rotary drive, also called power turret, is guided. about the Kelly linkage can be such a torque to a soil working tool, in particular a drilling tool, transferred, which is attached to the lower end of Innenkellystange. By a corresponding Austeleskopieren the individual Kelly rod elements to each other and larger drilling depths can be achieved.

For torque transmission, the individual Kellystangenelemente on its outer side and on its inside axially extending stop bars, which serve for torque transmission. In addition, at certain axial positions, in particular at a start and end region, locking pockets or locking elements are provided, by means of which the Kelly rod elements can be fixed to each other axially. In this way, axial pressure forces can be applied to the Kellygestänge and thus the tillage tool on the drill drive. The Außenkellystange can be axially fixed to the drill drive.

In particular, in a discontinuous tillage, such as when creating a hole with a drilling bucket, the drilling bucket must be repeatedly retracted into the well and extended again. Depending on the depth of the drill hole, the kelly linkage is repeatedly telescoped in and out. After filling the drilling bucket with removed soil material, it must be pulled out of the drill hole for emptying. For this purpose, it is necessary to retract the individual Kelly rod elements into each other and lock. In this retracted position, the Kelly linkage can then be pulled out of the borehole together with the drilling bucket and pivoted to an emptying position. Subsequently, for a further drilling step, retraction of the drilling tool into the borehole takes place again with renewed Austeleskopieren the Kelly linkage.

The extension and retraction of a Kelly linkage takes time. Drill operators are anxious to extend or retract the Kelly linkage as quickly as possible to achieve rapid drilling progress. However, if the kelly linkage is moved too fast, there is a risk that it impacts the bottom area or the power rotary head, which can lead to considerable material loads and even to damage or destruction of the power rotary head.

The invention has for its object to provide a working machine and a method for processing a soil, which allow an efficient and at the same time particularly material and equipment gentle working.

The object is achieved on the one hand by a work machine with the features of claim 1 and on the other hand by a method having the features of claim 8. Preferred embodiments of the invention are specified in the respective dependent claims.

The working machine according to the invention is characterized in that an automatic control device is provided, which is designed for automatically controlling the adjusting device for the power turret and / or the main winch for the Kelly rod, so that the Innenkellystange relative to the power turret partially with a high-speed mode with a first Speed can be moved in some areas with a Schonfahrmodus in which the speed is reduced compared to the first speed of the high-speed mode.

A basic idea of the invention is to automatically control the method of the Kelly bar elements by means of a control device, specifically in such a way that in certain ranges of travel a rapid retraction or extension of the Kelly bar elements takes place in a high-speed mode, while in certain critical ranges a method in a Schonfahrmodus a reduced speed occurs. The traversing speed refers relative to the power rotary head, so the rotary drive, or the mast. The speed is effected according to the invention by a control of the actuator of the power rotary head and / or alternatively by a control of the main cable winch for the Kellygestänge. The adjusting device for the power turret can itself be a feed winch, a hydraulic actuating cylinder or other linear drive, such as a rack drive. With the control according to the invention, a very quick on or off telescoping of the Kelly linkage can be done, with a fast process takes place in non-critical areas, such as in a central region of the Kelly rod elements. In critical areas, such as when a stop collar at the top of the Außenkellystange touches the power turret, or just before reaching the bottom of the arranged at the lower end of Innenkellystange tillage tool, the controller switches from the high-speed mode with a first high speed to a stop mode in which the speed is reduced. In the coasting mode, the speed can be gradually reduced to 0. As a result, material damaging shocks can be avoided, which can be caused by a sudden impact of the soil tillage tool on the ground or the Außenkellystange on the power turret. Overall, the work efficiency can be increased with the invention and the risk of damage to the tool, the Kelly bar and the drill can be avoided altogether.

In the simplest case, the Kelly bar consists of only two rod elements, namely a tubular Außenkellystange and slidably disposed therein Innenkellystange. To achieve larger drilling depths, it is advantageous according to a development of the invention that the Kelly linkage has one or more Zwischenkellystangen, which are arranged between the Außenkellystange and Innenkellystange. In particular, Kelly linkage with three or four rod elements are preferred.

In principle, the working machine according to the invention can be used with the Kelly linkage for a wide variety of activities. It is particularly expedient according to a development of the invention that at the lower end of Innenkellystange a drilling tool, in particular a drilling bucket or a auger, is releasably attached. Such drilling tools can be used for discontinuous drilling, in which a Kellygestänge must be repeatedly extended and retracted. The increase in the operating speed achieved with the invention is particularly advantageous in these repeated operations.

A further preferred embodiment of the invention is that at least one input device is provided, with which a type and / or size of the Kelly linkage, a position of the adjusting device for the power turret, a position of the rope and / or a type and / or size of the power rotary head can be entered. In the simplest case, an input can be made manually via an input terminal. Furthermore, it is possible to bring the respective components into a defined starting position and to calibrate the working machine with these components.

A preferred development of the invention can be seen in that the input device has at least one sensor for automatic input. Thus, the type and / or size of the Kelly linkage can be achieved by appropriate optical sensors for automatic detection or by a cable force measurement on the rope of the main winch. With regard to the type and / or size of the power rotary head, in addition to an input to the power rotary head, a spring travel measurement can also be carried out on the spring damping elements, which are arranged on the upper side of the power rotary head. The position of the actuator for the power turret and the position of the rope of the main winch can be determined automatically via corresponding incremental encoders or other suitable position sensors. Preferably, the control device can store the determined input values in a data memory. This makes sense when the kelly linkage is extended and the tillage tool is in the borehole. After retracting the boom and emptying the tool, the Kelly linkage can be moved back to the previous position according to the stored data.

In principle, a fixed program for the automatic control can be provided. A particularly expedient embodiment of the invention is that depending on the inputs via the input device by the control device, the areas are determined when adjusting the Kelly linkage, in which a method according to the high-speed mode or the Schonfahrmodus are provided. In this case, the control device can be designed, in particular, as an adaptive control which adapts start and end times for the high-speed driving mode or the smooth-running mode for each telescoping operation. In particular, for a particularly fast extension and retraction of the Kelly bar elements, the respective position of the power turret on the mast and the current depth can be considered. For a particularly gentle method of Kellystangenelemente in Schonfahrmodus it is advantageous according to a development of the machine according to the invention that to reduce the speed in Schonfahrmodus the rope on the main winch and the power rotary head on the adjusting device are simultaneously moved in the same direction. This can in particular a striking of the outer stop collar on the Außenkellystange on the power turret mitigated or prevented particularly efficient.

The method according to the invention is characterized in that the adjusting device for the power rotary head and / or the main cable winch for the Kelly linkage are automatically controlled by means of a control device, wherein the Innenkellystange is moved relative to the power turret partially with a high-speed mode with a first speed and partially with a Schonfahrmodus wherein the speed is reduced from the first speed of the high speed mode.

The method according to the invention can be carried out in particular with a working machine, as described above. It can be achieved according to the advantages described above.

The method of Kelly linkage is basically via the main winch with a rope which is attached to the upper end of Innenkellystange. It is provided according to an embodiment of the invention that the Innenkellystange is moved alone or together with other rod elements of the Kelly linkage. It is also possible that the Außenkellystange is moved independently of the Innenkellystange means of the power rotary head with the adjusting device.

Another preferred variant of the method is that a method in the safe driving mode takes place immediately before the Kellygestänge touches the power head, the tillage tool hits the ground and / or at a transition at which two rod elements of the Kelly linkage are retracted or extended to each other. A method of Kellystangenelemente in Schonfahrmodus each other can also be done in areas where two locking elements move past each other without a lock is provided. As a result, damage to the locking elements, which are provided for an axial fixing of the rod elements of the Kelly linkage can be avoided.

In principle, a method of the individual Kelly bar elements in the safe mode can be provided at any point, if this is considered critical by the drill driver. In all other places can be a fast Procedures are carried out in the high-speed mode to dump the kelly linkage accordingly quickly or retract. The areas and times at which switching between a high-speed driving mode and a stopped-driving mode can basically be input to the control device via an input device by hand.

A particularly advantageous embodiment of the invention lies in the fact that the control device determines based on input values when a method in the high-speed mode or a method in the stop mode. In particular, this can be done depending on the hole depth and the position of the power rotary head to the upper end of the Kelly linkage, so that an adaptive control takes place.

It is particularly advantageous according to a development of the invention that the input values are at least partially automatically detected by the control device by means of an input device. For this purpose, corresponding sensors or transducers are provided in order to automatically detect the desired input values and forward them by wire or wirelessly to the control device.

Fig. 1

eine schematische Seitenansicht einer erfindungsgemäßen Arbeitsmaschine; und

Fig. 2

ein Diagramm zum Geschwindigkeitsverlauf beim Absenken eines Kellystangenelementes.

The invention will be further described by means of preferred embodiments, which are shown schematically in the accompanying drawings. In the drawings show:

Fig. 1

a schematic side view of a working machine according to the invention; and

Fig. 2

a diagram of the velocity profile when lowering a Kellystangenelementes.

A working machine 10 according to the invention, which is designed as a drill, has according to Fig. 1 a carrier vehicle 12 with a crawler chassis and a rotatable superstructure. In a known manner, a vertical mast 14 is pivotally mounted on the carrier device 12 along which a carriage 18 is movably mounted with a power rotary head 20. To move the carriage 18, a feed winch is arranged as a setting device 22 on the rear side of the mast 14. The adjusting device 22 is connected to the carriage 18 via a feed cable 24, which is guided over a mast head 16 of the mast 14.

Through the annular power rotary head 20, a Kelly linkage 40 is guided, which is suspended by a cable suspension 49 on a cable 50. The rope 50 is guided over the mast head 16 to a rear main winch 30.

The Kelly linkage 40 has a Außenkellystange 42 with an upper tube collar 44, which is formed larger diameter for support on the power rotary head 20. About not shown driving tabs a torque of the power rotary head 20 on the Außenkellystange 42 and thus the Kelly linkage 40 are transmitted. Within the tubular Außenkellystange 42 a Innenkellystange 46 is slidably mounted, at the upper end of the cable suspension 49 is attached. At the lower end of Innenkellystange 46 a damper pot 48 is arranged, on which rotatably designed as a drilling bucket tillage tool 60 is mounted.

As shown by Fig. 1 the kelly linkage 40 is telescoped, wherein the Innenkellystange 46 is retracted into the interior of the tubular Außenkellystange 42. The Kelly linkage 40 is automatically telescoped in and out by a control device 70 that is shown schematically. The control device 70 can be operated by a device driver by means of actuators 74, such as foot racks, joysticks or GUI. To create a borehole, first the rope 50 is lowered over the main winch 30 until the tube collar 44 touches the outer piercing rod 42 on the upper side of the power rotary head 20.

Further lowering of the Kelly linkage 40 can be done by a method of the power rotary head 20 by means of the adjusting device 22, wherein the power rotary head 20 is moved by means of the carriage 18 along the mast 14 downwards. The Außenkellystange 42 and Innenkellystange 46 are moved simultaneously. The Außenkellystange 42 can be locked to the power rotary head 20 and thus fixed axially. Alternatively or subsequently, in a fixed power rotary head 20, the cable 50 can be further lowered via the main cable winch 30, the Innenkellystange 46 is extended from the Außenkellystange 42. By means of corresponding incremental encoders and sensors, the control device 70 receives values for the position of the force rotary head 20, the outer kelly rod 42 and the inner kelly rod 46. Furthermore, the control unit 70 can request data from a data memory 72, such as the size and length of the Kelly linkage 40, the dimensioning of the soil working tool 60 or the rotary head 20. Depending on these data, the method of the Kellygestänges 40 and in particular the Innenkellystange 46 is controlled automatically. Basically, a method of Kellystangenelemente is provided in a high speed driving mode with a high first speed. In certain ranges, such as just before the tube collar 44 touches the power rotary head 20 or the tillage tool 60 hits the ground or the transition of two Kellystangenelementen, is switched by the controller 70 of the high-speed mode in a Schonfahrmodus in which the speed is reduced. The speed reduction can be abruptly to a low second speed value or preferably gradually to a reduced speed amount or up to the value 0.

A possible speed profile of the rope speed of the rope 50 over a borehole depth is shown schematically in FIG Fig. 2 shown. From a maximum cable speed in the high-speed mode, a switch-over to a protective travel mode is initiated by the control device 70 at a braking point 1 in front of a critical travel range, for example a Kelly transition. In the skip mode, the rope speed is gradually reduced from a first maximum value to a second minimum value. If the critical area, such as a passage of locking pockets, which are arranged along the Kellystangenelemente and in particular at the beginning and end, passes, can be switched back to the high-speed mode of the control device 70. The rope speed of the rope 50 is increased again to the first speed value in the high-speed mode.

The control device 70 can be designed to be adaptive as a learning system, wherein, for example, the braking point is changed from a first braking point 1 to a second, later braking point 2 in order to keep the travel times low.

Claims (12)

Work machine, in particular construction machine, with a mast (14), along which by means of an adjusting device (22) a power rotary head (20) is vertically movable, through which a telescopic Kellygestänge (40) is displaceably guided, which at least one Außenkellystange (42) adapted to rest on the power rotary head (20), and a Innenkellystange (46) comprising a cable suspension (49) for a cable (50) through which by means of a main winch (30) Innenkellystange (46) is vertically movable,
characterized,
in that an automatic control device (70) is provided which is designed to automatically control the adjusting device (22) for the power rotary head (20) and / or the main cable winch (30) for the Kelly linkage (40), so that the Innenkellystange (46) relative to the power rotary head (20) is partially movable with a high-speed mode at a first speed and partially with a Schonfahrmodus in which the speed is reduced compared to the first speed of the high-speed mode. Work machine according to claim 1,
characterized,
in that the kelly linkage (40) has one or more intermediate kelly rods which are arranged between the outer kelly rod (42) and the inner kelly rod (46). Work machine according to claim 1 or 2,
characterized,
that at the lower end of Innenkellystange (46), a soil working tool (60), in particular a drilling bucket or a Bohrschnecke, is releasably attached. Work machine according to one of claims 1 to 3,
characterized,
that at least one input device is provided, by which a kind and / or size of the Kelly rod (40), a position of the adjusting device (22) for the power rotary head (20), a position of the rope (50) and / or type and / or Size of the power rotary head (20) can be entered. Work machine according to claim 4,
characterized,
in that the input device has at least one sensor for automatic input. Work machine according to one of claims 1 to 5,
characterized,
in that, depending on the inputs via the input device by the control device (70), the regions during the adjustment of the kelly linkage (40) are fixed, in which a method according to the high speed driving mode or the overtravel mode is provided. Work machine according to one of claims 1 to 6,
characterized,
in that, in order to reduce the speed in the coasting mode, the cable (50) can be moved simultaneously in the same direction via the main cable winch (30) and the power rotary head (20) via the adjusting device (22). Method for processing a floor with a working machine (10), in particular according to one of Claims 1 to 7, with a mast (14) along which a power turret (20) can be moved vertically by means of an adjusting device (22), by means of which a telescopic Kelly linkage (40) is slidably guided, which at least one Außenkellystange (42) which is designed to rest on the power rotary head (20), and a Innenkellystange (46), which comprises a cable suspension (49) for a cable (50) through which is vertically moved by means of a main winch (30), the Innenkellystange (46), wherein the soil is processed with a soil working tool (60) which is attached to a lower end of Innenkellystange (46),
characterized,
in that the adjusting device (22) for the power rotary head (20) and / or the main cable winch (30) for the kelly linkage (40) are automatically controlled by means of a control device (70), wherein the inner crank rod (46) moves in regions relative to the power rotary head (20) a speed mode with a first speed and partially with a stop mode is moved, in which the speed is reduced compared to the first speed of the high-speed mode. Method according to claim 8,
characterized,
that the Innenkellystange (46) is moved alone or together with other rod elements of the Kelly linkage (40). Method according to claim 8 or 9,
characterized,
that a process in the safe driving mode takes place immediately before the Kelly linkage (40) touches on the power rotary head (20), the tillage tool (60) impinges on the ground and / or at a transition at which two rod elements of Kelly linkage (40) into each other or retracted extended to each other. Method according to one of claims 8 to 10,
characterized,
in that the control device (70) determines on the basis of input values when a method in the high-speed mode or a method in the automatic mode is used. Method according to claim 11,
characterized,
that the input values at least partly by the control means (70) are detected automatically by means of an input device.

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