The present invention relates to a handling device for a rock drill rig for handling drill string components for a drill string, wherein a gripping device for gripping a drill string component is displaceable between a drill string position in the rock drill rig and a delivering position outside the rock drill rig. The invention also relates to a method and a rock drill rig.
During drilling of long bore holes for e.g. exploration drilling, considerable time is consumed for handling drill string components during drilling, when the drill string is subsequently lengthened, as well as for replacement of drill bit which has to be performed regularly because of ongoing wear of drill bits during drilling.
Different suggestions have been made to facilitate this handling, one of which being a handling device for a rock drill rig being previously known from AU-B-64377/96, wherein drill string components are brought into a supporting device in the form of a one way sleeve for the transfer of the drill string component between a horizontal and a vertical position. This known device does not provide stable handling of the drill string components.
One aim of the present invention is to provide a device as mentioned initially which allows flexible and still secure handling of drill string components.
This aim is obtained in respect of a handling device according to the above when the handling device includes a linear guide to be arranged in connection with and in parallel with the feed beam, and a slide being displaceable along the linear guide, that the gripping device is supported by a swing arm which in turn is supported by the slide, that the swing arm with supported gripping device is swing drivable in respect of a swing arm support being connected to the slide with the aid of a first rotator around a first rotational axis being parallel to and at a distance from an axis of a drill string component being gripped by the gripping device, that the swing arm support and thereby the swing arm with supported gripping device is swing drivable in respect of the slide with the aid of a second rotator around a second rotation axis forming an angle with the linear guide as well as with the first rotational axis, and that the swing arm support and thereby the swing arm with supported gripping device is swing drivable around a third rotational axis parallel to the linear guide with the aid of a third rotator for swinging the gripping device to the drill string position.
Hereby a flexible handling device is provided which is capable of performing accurate transfers of drill string components, on the one hand into the drill string position because of the combination of the construction of the gripping device with axially separated gripper pairs and the extensive control possibilities being offered through the three specially positioned rotators. By swinging the swing arm around the first rotational axis, the gripping device can be turned for example in against and out from the drill string position. It also results in that the gripping device can be fine adjusted in order to grip a drill string having a position somewhat deviating from an exact delivering position. A turning radius for swinging of a drill string component is also adjustable, for example to different sized feed beams being applied according to the invention.
The combination of the ability to swing and the slide being displaceable along the linear guide allows that the delivering position is easily varied in vertical direction for the freedom of positioning magazines of different sizes and heights, and such that even magazine having a plurality of horizontal levels can be used in connection with the invention.
With “delivering position” is here intended a position of a drill string component to be gripped by the gripping device (pick-up position), as well as a position for a drill string component to be released by the gripping device (release position). This can normally be a defined position in a magazine but it can also be another specified position of a drill string component intended to be gripped or released.
The linear guide is preferably a separate unit being attachable to the feed beam. Hereby it can be arranged for a standard rig without requirements to amend the feed beam etc. It can also be applied in an existing rig without major modifications thereto. It should, however, be noted that it is possible within the scope of the invention to construct the linear guide as a unit together with the feed beam.
The third rotational axis is preferably positioned between the linear guide and fastening points therefore on the feed beam, wherein the ability to swing around the third rotation axis, being parallel to the linear guide, also includes swing driving the linear guide. This gives possibility of having a great movement range of the handling device and allows higher degree of rigidity of components supporting the slide compared to if the third rotational axis would be positioned between the slide and the gripping device.
It is particularly preferred that the gripping device is supported axially displaceably drivable along a swing arm, as seen in an axial direction of a gripped drill string component. This gives advantages in respect of positioning the gripping device in axial direction in respect of a drill string component to be gripped. Not least in combination with the displaceability along the linear guide. Further, the displaceability along the swing arm allows increased possibilities of adjusting a delivering position for drilling operations in different inclinations of the feed beam and thereby the linear guide. This displaceablity along the swing arm is suitably realised with the aid of a hydraulic cylinder.
A support for the second rotator is suitably rigidly connected to the slide. It is further preferred that a first exit axis, protruding from the first rotator, is rigidly connected to the swing arm, and that a second exit axis protruding from the second rotator is rigidly connected to a main portion of the first rotator. This allows a stable and compact construction.
It is preferred that the second rotational axis forms essentially a right angle to the linear guide as well as to the first rotational axis.
The linear guide preferably includes a linear driving device for the slide in the form of chain drive or a hydraulic cylinder.
The handling device preferably also includes a magazine having support members for supporting drill string components. These units can be tuned to each other in an advantageous way for achieving co-adjustment of the movement pattern thereof. The magazine is suitably displaceably connected to the rock drill rig, which is advantageous for adapting to i.a. an existing inclination of the feed beam. In particular the magazine is displaceable in directions in parallel to axial directions of drill string components being received in the magazine.
The magazine preferably includes support members in the form of component brackets in a plurality of levels, wherein the component brackets on one level are removable for allowing access to drill string components on a lower level.
Said support members are suitably arranged for receiving a plurality or drill string components on the same level, wherein said support members are adjustable to incline towards the delivering position when it is a pick-up position for the gripping device, and from the delivering position when it is a release position for the gripping device.
The gripping device has preferably a considerable axial extension in relation to the length of a drill string component and preferably includes at least two axially separated gripper pairs in order to achieve stable gripping of a drill string component for minimal tendency to wobble.
The invention also relates to a method for handling drill string components of a drill string of a rock drill rig, wherein the method includes: displacing a slide along a linear guide to be arranged in parallel with the feed beam, gripping a drill string component with a gripping device being supported by the slide, and displacing the gripping device between a drill string position in the rock drill rig and a delivering position outside the rock drill rig. The method also includes: swinging a swing arm supporting the gripping device in respect of a swing arm support being connected to the slide around a first rotational axis, being parallel to and at a distance from an axis of a drill string component being gripped by the gripping device, swinging the swing arm support and thereby the swing arm with supported gripping device, in respect of the slide, around a second rotation axis, forming an angle with the linear guide as well as with the first rotational axis, and swinging the swing arm support, and thereby the swing arm with supported gripping device around a third rotational axis parallel to the linear guide, for swinging the gripping device to the drill string position.
Through this method, advantages are achieved corresponding to what is related to the inventive device.
Features corresponding to subordinate device features according to the above are applicable in connection with the inventive method and result in corresponding advantages.
The invention also relates to a rock drill rig having a rotator being displaceable along a feed beam, and including an inventive handling device.
The invention will now be described in greater detail by way of embodiments and with reference to the drawings.
On the drawings:
a, b, c and d show diagrammatically the movements of the device during a method sequence.
The device for handling drill string components 5 is arranged to handle drill string components being stored in a magazine (not shown) for drill string components close to the rock drill rig and to successively position them in a drill string position of the rock drilling machine 4. The device for handling drill string components 5 is also arranged to successively remove drill string components from the drill string position and place them in said magazine when the drill string is taken out from a bore hole, for example when it is time to replace the drill bit.
In
Through this ability to be swing driven, the position of the gripping device can be fine adjusted laterally, e.g. prior to gripping a drill string component in order to overcome unintentional deviation from a desired delivering position.
The swing arm 21 with supported gripping device 8 is swing drivable by a second rotator 12, in respect of a support 23 and the slide 7, around a second rotational axis V2 forming an angle with the linear guide 6 as well as with the first rotational axis V1. This swingability results in that the swing arm 21 can be swung from a position where it is parallel to the linear guide 6 to positions for forming an angle between the swing arm 21 and the linear guide 6.
The swing arm support 22 and thereby the swing arm 21 with supported gripping device 8 is further, with the aid of a third rotator 15, swing drivable around a third rotational axis V3 being parallel to the linear guide 6, for swinging the gripping device into the drill string position.
In this case the third rotational axis V3 is positioned between the linear guide 6 and fastening points therefore on the feed beam 2, whereby the ability to be swing driven around the third rotational axis V3, being parallel to the linear guide 6, also includes swing driving the linear guide 6. The device 5 for handling drill string components is thus in this case fastened to the feed beam 2 over a first support 13 and a second support 14. The linear guide 6 with supported slide 7 (and components carried by the slide) is swingable in respect of the supports 13 and 14 and to the feed beam by a third rotator 15 around the third rotational axis V3.
The gripping device 8 also provides an axial stop 10 for a gripped drill string component.
In the shown embodiment, the first rotational axis V1 is perpendicular to the second rotational axis V2 which in turn is perpendicular to the third rotational axis V3. The second rotational axis V2, however, is positioned at a distance from and does not intersect either with the first rotational axis V1 or with the third rotational axis V3.
The slide 7 is further equipped with a safety brake 16 which co-operates with a brake beam 17 being arranged along the linear guide 6 and being provided with a brake surface on each side. The safety brake 16 is in the shown example a normally locked clamping brake which in unloaded condition clamps on the brake beam 17 such that the slide 7 with associated gripping device 8 is locked in respect of the linear guide for preventing that the slide with the gripping device, possibly with gripped, heavy drill string component, falls to a lowermost position, whereby serious risks for injury on the operator and possible other persons in the vicinity could occur.
The slide 7 also has other means for co-operation with a drive chain, which is indicated with interrupted lines at 18.
This drive chain is driven by a driver device 19, partly being shown in
Position 41 indicates the start of the sequence.
Position 42 indicates that the gripping device with open gripper pairs is aligned to a drill string component in a delivering position in a magazine by rotating the swing arm and possibly axially displacing the gripping device thereon.
Position 43 indicates that the gripping device is brought down to a grip position of the gripper pairs by swinging the swing arm and/or displacing it downwards of the slide with supported gripping device. See
Position 44 indicates that the gripper pairs of the gripping device is brought to grip the drill string component.
Position 45 indicates that the slide with the gripped gripping device is displaced upwardly, the swing arm is swung upwardly to a position where it is essentially parallel to the linear guide. See
Position 46 indicates that the third rotator is activated for swinging of the drill string component to the drill string position. See
Position 47 indicates threading together of the drill string component with a component belonging to the drill string by activating the rotator of the rock drill rig, opening the gripper pairs, removing the gripping device from the drill string component and thereupon ending the sequence.
The different swing movements can in certain cases occur overlapping and in reverse order which is obvious to the person skilled in the art. In certain cases the drill string component needs to be axially displaced and be re-gripped within the scope of the sequence step of position 44 in order to ensure that the end of the drill string component abuts an end stop being associating with the gripping device.
The invention can be varied within the scope of the following claims. The rotators can be arranged differently and with other mutual angles than what is shown on the Figures.
It is possible to supplement the device according to the invention with an automatic control for positioning, gripping and transferring drill string components between a drill string position in a rig and a magazine.
With reference to
Number | Date | Country | Kind |
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1251482-4 | Dec 2012 | SE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/SE2013/051375 | 11/22/2013 | WO | 00 |