Patent Grant
10174567
The application claims priority to Swedish patent application 1350925-2 filed 2 Aug. 2013 and is the national phase under 35 U.S.C. § 371 of PCT/SE2014/000091 filed 26 Jun. 2014.
The invention concerns a handling device for handling drill string components in a rock drill rig. The handing device includes a magazine for storing drill string components to be introduced into and be removed from a drill string position of the drill rig. The magazine includes support means for support of a plurality of drill string components that are capable of rolling, said support means being inclinable for inclination towards and from a loading position, from which separate drill string components are intended to be transferred to said drill string position. The invention also relates to a rock drill rig equipped with such a handling device.
Core drilling for exploration purposes is usually performed with rock drill rigs, wherein the drill string components are placed in the active drill string position, lifted up from and lowered down into the drill hole with a winch. The winch wire is fastened to the uppermost drill string component with the aid of a lifting plug. Since core drilling aims to remove a drilled-out core of rock to be examined, tubular drill string components are used. During lifting of the drill string, which is performed frequently for exchange of drill bits, the string of tubes is lifted unit by unit, whereby the separate tubes are released from each other with the aid of the rotator device of the drill rig in co-operation with a lower tube holder.
Final release of a tube to be brought away from the drill string is today at least partly performed manually by the operators, this handling including final threading-off and lifting and guiding of the tube to an area of a tube magazine.
During lowering of the drill string, the working steps are performed reversely such that new drill string components in the form of tubes are successively lifted to a position where they are aligned with the drill string and threaded together by the operator. These working steps are straining for the operator and involve a risk of being subject to lifting and squeezing injuries for the operator which is not negligible.
Core drilling is often performed to very great depths, such as for example to drill length between 1000-2000 m. Because of the drill bit in operation being subject to wear, it has to be replaced relatively often, which results in that the entire drill string has to be lifted up from the drill hole, be dismounted into drill string components, the worn drill bit be removed and be replaced by a new one, whereupon the drill string can again be lowered down into the hole. Thereupon a further distance is drilled until the drill bit has to be replaced again etc. During the drilling, a flushing liquid swivel is connected to the uppermost end of the drill string for supplying flushing liquid for transporting away rock material having been disintegrated during drilling.
It is an aim of the invention to provide a device of the above kind, wherein handling of drill string components is at least partly improved. This is achieved in respect of a device according to the above in that the magazine, in the region of the loading position, includes a transfer unit for separation of a drill string component being positioned on said support means from an adjacent drill string component in order to transfer the separated drill string component to the loading position and to transfer a drill string component from the loading position to the magazine respectively, that the transfer unit includes movable stop elements for said separation, that the transfer unit includes a plurality of pivot arms being distributed along an axial direction of a drill string component being in the loading position, for engagement with a drill string component, said pivot arms being pivotal around a pivot axis, being parallel to said axial direction, from a first position, wherein the pivot arms lie against a drill string component being closest to the loading position on said support means, to a second position, wherein the pivot arms allow bringing down the separated drill string component to the loading position.
Hereby is ensured safe and efficient separation of a drill string component to be introduced into the rig as well as secure positioning thereof in the loading position. This loading position is arranged laterally of the support means of the magazine. By the transfer unit being provided with (pivotal) pivot arms, the possibility is obtained of simple manoeuvring and with simple measures a secure construction that can be manufactured with precision.
The provision of stop elements ensures efficient separation and prevents that drill string components that are still to maintain lying on the support means by mistake move to the region of the loading position during the phase where the drill string is removed as well as when it is introduced into the drill hole.
The inventive transfer unit is also arranged to transfer a drill string component from the loading position to the magazine, whereby the transfer process basically is operated in reverse direction.
It is preferred that each pivot arm is connected to a set of stop elements, which gives the possibility of simple manoeuvring. In particular it is preferred that each set of stop elements is pivotally connected to and supported by a respective pivot arm for limited relative movement around an axis being parallel to said pivot axis.
It is further preferred that the movement of the respective set of stop elements is adjustable for adaption to drill string components of different diameters, which gives simple adjustment when dimension is changed. In particular it is preferred that the movement of the respective set of stop elements is adjustable in that adjustable guiding protrusions co-operating with stop elements are arranged along the movement path of said stop elements.
It is suitable that each pivot arm has an abutment surface, which is shaped so as to provide a drill string component with an upward movement during the movement of the pivot arm from the second position to the first position. An unrestricted movement in vertical direction is then facilitated.
Preferably the magazine has a support body, whereon said support means are pivotally fastened in the region of the loading position for allowing adjustment of the inclination.
It is also preferred that the support body includes fasteners for the pivot arms in connection with fasteners for support units including the support means, in order to facilitate the design of the construction from a stability point of view.
It is suitable that each support unit in an end region opposite to the loading position is supported by an adjustable support leg for adjustment to i.a. uneven ground.
Suitably each support unit in an end region opposite to the loading position is provided with a force actuator for providing adjustment of the inclination of said support means. A normal position of a support means is preferably to be inclined from the loading position and a activated power means the inclination will be towards the loading position.
The handling device preferably includes a swing arm having means for receiving a drill string component in the loading position and being swingable between the loading position and a delivering position to the rock drill rig. The swing arm of the handling device is arranged to swing a supported drill string component from the loading position for drill string components, which is suitably a horizontal position, to said delivering position, which is usually an inclined position for the supported drill string component, and wherein the drill string component is brought further by for example a gripper unit being associated with the rig. The swing arm is suitably pivotally supported by the magazine which is components saving and allows good stability. The swing arm is situated laterally in respect of the transfer unit and the pivot arms in order to permit its vertical movement without interfering therewith. It is for example possible to design the swing arm with its support elements forming a “chute” in order to support a drill string component with lateral recesses for allowing passage of the pivot arms. Other constructional solutions are of course also possible.
The reverse operation to what is described above is applicable when the drill string components are removed from the drill hole and removed from the rig. Then the drill string components are positioned in the loading position and brought by the pivot arms up on the support means which have been readjusted for inclination from the loading position.
In order to effectively and securely ensure accurate alignment between the gripper unit and the drill string component being supported by the swing arm, a guiding beam is suitably arranged which is arranged to form mechanical stop for the swingable gripper unit being arranged on the rig and for the swing arm in the delivering position. For that purpose the guiding beam is suitably pivotally attachable at its end regions.
The invention also relates to a rock drill rig including a rotator device for rotating and driving a drill string and being supported movable to and fro by a feed beam, and a handling device according to the above.
The invention will now be described in greater detail by way of embodiments and with reference to the annexed drawings.
Beside the feed beam 2 is arranged a (not shown) power and driving aggregate for proving pressure fluid etc to the rock drill rig and a lifting winch (not shown). A magazine 6 is arranged for receiving drill string components (indicated with interrupted line at 8), to be brought into respectively taken out from the rock drill rig in a manner that will be described below.
The magazine 6 shown in
In
This line at 8″ in
Furthermore,
Joining of a further, second drill string component 8″ on the first drill string component 8′ for the purpose of extending the drill string for subsequent lowering into the drill hole is essentially corresponding to the method for threading-on of a lifting plug. See below.
The gripper unit 11 is shown in a first position in
Further in this Figure is shown in greater detail a guiding beam 19, which is arranged to provide a stop for the swing arm 7 in an upwardly swung delivering position of a supported drill string component 8. Furthermore, the guiding beam 19 provides stop for the gripper unit 11 in the second position thereof. Support elements forming a “chute” for supporting a drill string component is indicated with 7′.
The gripper unit 11, is not a subject of this application and is therefore not described in detail here.
After having brought a further drill string component into a position above an existing one in position A (instead of the lifting plug 25 in
Thereupon the drill string is lowered down to the position shown in
The lifting plug 25 is a swivelling device and therefore has two mutually rotatable parts, namely an engagement portion, which lowermost is provided with a male thread at its free end, which is directed against the drill string component, and a lifting portion, which outermost is provided with a lifting eye for co-operation with a lifting wire as is described above.
When the lifting plug 25 is released from the drill string component 8′ (
Here threading-in of the engagement portion into the drill string component 8 is performed and thereupon it is free to be lifted with the aid of the lifting wire such that it will subsequently be in the position of the second drill string component along the “grip position axis” indicated with G in
Before the drill string component 8 has been lifted, it has been gripped in the second end region, opposite to the end having been threaded together with the lifting plug, by a guiding gripper which is pivotally attached to a gripper shuttle 40 in a joint, the guiding gripper being manoeuvred by a hydraulic cylinder. Thereupon the swing arm 7 is lowered to the loading position (in
The guiding beam 19 has a longitudinal guide for the drivingly displaceable gripper shuttle. The joint has a joint axis being essentially parallel to the first and second swing axes A1 and A2 for allowing swinging in the same plane as is including the drill string position and the delivering position.
The guiding gripper is arranged, after gripping said drill string component 8, to guide the free end thereof in order to control its movement during the lifting process and in order to guide this free end into alignment with the drill string position A in the rig. With activated guiding gripper gripping a drill string component and running gripper shuttle it is arranged such that the guiding gripper follows in the turning movement without being rotationally controlled in itself.
So far the operative function of the handling device according to the invention has been described for lowering the drill string after for example replacement of a drill bit. Pulling up the drill string is basically operated reversely, that it threading-in of the lifting plug into a drill string component being in the active drill string position, pulling up the lifting plug with connected drill string to a position where the rotator device in a per se known manner is arranged to release the uppermost drill string component from the following drill string component.
Thereupon the drill string is lifted further such that the next drill string component with its end portion finds itself in the position shown in
Thereupon the thus released drill string component is gripped by said guiding gripper and through the movement of the gripper shuttle 40 is brought away from the feed beam 2 out from the position parallel to the active drill string position with its lower end, at the same time as the lifting wire is slacked in a controlled manner such that the drill string component finally reaches the delivering position. Here it and the lift plug can be gripped by the grippers of the gripper unit 11 for unthreading the latter. Lifting of the swing arm 7 for receiving the drill string component now occurs and when unthreading is completed, the swing arm can be lowered for transporting away the supported drill string component to the loading position for transfer to the magazine 6 for storage through the operation of the transfer unit. Thereupon the process can be repeated as many times as necessary.
The inventive magazine will now be described in more detail with reference to the
These support means 44′ can be inclined for inclination against or from a loading position L, from which the drill string components subsequently can be brought further in order to be transferred to the drill string position.
The magazine includes a transfer unit 41 in the region of the loading position L, said transfer unit being arranged to separate the drill string component being closest to the loading position from adjacent drill string components and to effect transfer of the separated drill string component to the loading position L.
For that purpose the transfer unit is provided with a plurality of pivot arms 42 being distributed along an axial direction R (see
The pivot arms are pivotal from a first position being shown in
The pivot arms 42 are further supporting a set of stop elements 47 in pivotal relationship for limited mutual movement in respect of the respective pivot arm around an axis 43. It can be mentioned that with “set of stop elements” is intended one or more stop elements being associated with the pivot arm. In the shown embodiment the pivot arm is basically comprised of two parallel plates at a distance from each other with distance means between and the number of stop elements 47 is two.
In order to adapt the magazine to drill string components with different diameters (different sizes), that can be handled by the rig, the movement of the respective set of stop elements 47 is adjustable in that adjustable guiding protrusions co-operating with stop elements are arranged along the movement path for the respective stop element. This can in practice be realised such that a guiding protrusion, against which an edge of a stop element abuts, is adjustable for influencing the movement path of the respective stop element. One example of such an adjustable guiding protrusion is indicated with interrupted line at 55 in
An example of adjustability is through a handle 54 (
A support body for the magazine is indicated with 46 and said support means 44′ are pivotally arranged thereupon in the region of the loading position L for allowing adjustment of the inclination. The support body 46 includes fasteners 49, 50, on the one hand for the pivot arms 42, on the other hand for support units 51 including a respective rigid support 44, which is inclining from the loading position L as well as the respective support means 44′, which is pivotal at the fasteners 50 and adjustable to incline towards the loading position L.
The fasteners 49 and 50 are arranged in connection with each other i.a. for stability reasons and also enhance the manufacture friendliness of the construction.
Each support unit 51 is in an end position opposite to the loading position L supported by an adjustable support leg 52 and at this end region, each support unit is provided with a force actuator 53 in the form of for example a hydraulic cylinder for resetting inclination of said support means 44′. It can be mentioned that the inclination can be adjustable such that a varying inclination can be obtained depending on i.a. the type of drill string component to be handled.
Introducing a drill string component being in the loading position L into the magazine is achieved through the transfer unit from the position shown in
The invention has been described at the background of a rock drill rig for core drilling but it is adaptable also for other types of rigs such as for oil drilling and the like.
The invention can be modified within the scope of the claims. The magazine can be associated with the rock drill rig in any other way than through a swing arm, which is illustrated above. Drill string components can thus be transferred between the rig and loading position with the aid of other means. The magazine can be adapted to drill string components of different lengths, and as an example a magazine with three pivot arms adapted for drill string components with a lengths of 6 meters can also be used for drill string components with a length of 3 meters, wherein in the latter case only two of the pivot arms are in use.
In its simplest form, the magazine is adapted for manual manoeuvring, wherein an operator decides when different sequences are to be performed adapted to the requirements of the rig. It is, however, not excluded that manoeuvring is automatized with the aid of a computerized control system or the like. This automation then leads to controlled co-operation between the magazine and the rig.
The guiding beam can in a simplified form of the inventive handling device also be placed completely free from the feed beam and the rig. Also in this form it can be possible for the gripper shuttle to fulfil its main purposes:
| Number | Date | Country | Kind |
|---|---|---|---|
| 1350925 | Aug 2013 | SE | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/SE2014/000091 | 6/26/2014 | WO | 00 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2015/016756 | 2/5/2015 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 3254776 | Brown | Jun 1966 | A |
| 6189620 | McDowell | Feb 2001 | B1 |
| 6634443 | Paech et al. | Oct 2003 | B1 |
| 20050161227 | Hayes et al. | Jul 2005 | A1 |
| 20080101891 | Belik | May 2008 | A1 |
| 20110091304 | Tetley | Apr 2011 | A1 |
| 20160130890 | Wase | May 2016 | A1 |
| 20160130891 | Wase | May 2016 | A1 |
| Number | Date | Country |
|---|---|---|
| 2015003676 | Jul 2016 | CL |
| 2015003677 | Jul 2016 | CL |
| 1916379 | Apr 2008 | EP |
| 2047306 | Nov 1980 | GB |
| 2334270 | Aug 1999 | GB |
| WO-2013176618 | Nov 2013 | WO |
| Entry |
|---|
| PCT/ISA/210—International Search Report—dated Nov. 11, 2014 (Issued in Application No. PCT/SE2014/000091). |
| PCT/ISA/237—Written Opinion of the International Searching Authority—dated Nov. 11, 2014 (Issued in Application No. PCT/SE2014/000091). |
| Chilean Office Action dated Jun. 27, 2018 issued in corresponding Chilean Application No. 2015-003600 (11 pages). |
| Number | Date | Country | |
|---|---|---|---|
| 20160115746 A1 | Apr 2016 | US |
