GB2152114A - Tubular handling apparatus - Google Patents

Description

1 GB 2 152 114A 1

SPECIFICATION

Tubular handling apparatus BACKGROUND OF THE INVENTION

Discussion of the Prior Art

This invention relates to an apparatus for handling tubular goods such as pipe, casings, collars, etc. and more particularly to an appa- 75 ratus for transferring tubular goods between a drilling rig and a pipe rack.

In the prior art there are various methods and devices for lifting tubulars to and from a drilling rig floor. One of such methods simply attaches a wire cable to the pipe and then the cable is lifted by a hydraulic winch which is typically mounted on a truck parked near the rig. Cranes have also been used to lift the pipe. Hydraulic driven chains have been suc cessfully used too. Pipe transferred by these methods can be dropped on personnel or equipment below causing severe injury and damage inasmuch as they can weigh thous ands of pounds. Often the pipe must be lifted to heights of forty feet or more. These dan gers are more intense when the apparatus and rig are positioned offshore and subjected to wave, tidal and wind forces. If the pipe is dropped or banged against other structure the threaded ends can be easily damaged or the pipe bent.

Inclined troughs for the transfer of tubulars have also been used wherein the tubular is frictionally slid along the trough surface. This action often causes excessive wear on pipe especially the threaded ends which must be protected from such wear. It was thus often necessary to keep the metal thread protector on as the pipe was moved along the trough for removal when the pipe was on the drilling rig platform. This necessary care of the threads and pipe ends creates an extra step in the installation of the pipe or other tubular in the hole resulting in a longer cycle time.

Prior art troughs sometimes were designed to pivot from a generally horizontal position adjacent the pipe rack to an inclined position near the drilling rig floor. However, no satis factory means had been developed for sup porting the uppermost end on the floor. Also, the pivoted trough lifting mechanism and the structural integrity of the trough limited the length of the trough, the angle of inclination and hence the ultimate lifting height. When the prior art transferring apparatus was used on offshore rigs, the wind, tidal and wave forces would act against the pivoting trough causing it to sway or to become out of alignment with the support means.

From a single drilling rig often 20 or more holes are bored. This required that the tubular handling apparatus be moved around on the platform to position it near the hole being used. This is a time-consuming process and typically requires the use of additional moving equipment, e.g. cranes. To transfer the pipe from the ground onto the prior art pipe handling apparatus also required at least two personnel manually to move or roll the pipe to the machine, a procedure that limits the pipe from being efficiently stacked. Space being at a premium on any offshore rig, the inability efficiently to stack the pipe presents a serious problem. Inclined conveyor systems had been used to handle tubulars in the past but they occupied such large amounts of valuable floor space that they are not in any substantial use today. 80 According to one aspect of the invention there is provided an apparatus for transferring tubulars between the floor of a drilling rig and a pipe rack comprising: an elongated main support frame which can be positioned in proximity to said pipe rack, a lift trough positioned longitudinally of said support frame and having one end pivotally coupled to said main support frame, so that said lift trough can be pivoted upwardly to an inclined position, a power means connected to said lift trough for pivoting said lift trough upwardly to said inclined position relative to said main support frame and towards said drilling rig and down- wardly to a genreally horizontal position, a carriage means operatively connected to said lift trough for moving tubulars positioned in said lift trough along its length, said carriage means including a movable holding tray to receive and hold said tubulars for movement along said lift trough between said rig and said pipe rack, said lift trough having an upper surface, said movable holding tray being capable of sliding movement along said upper surface, said carriage means fuWier including a carriage connectable to said movable holding tray, said carriage preventing the tubular held by said carriage means from sliding longitudinally out of said movable holding tray when said lift trough is in said inclined position, an adjustable connecting means for connecting said carriage to said movable holding tray at different locations along said movable holding tray to accommodate different lengths of tubulars on said movable holding tray, said adjustable connecting means including a handle attached to said carriage and capable of being grasped by the hand of a user whereby by grasping said handle said carriage can be lifted off of said movable holding tray and repositioned on said movable holding tray, said adjustable connecting means including a protruding member mounted on said carriage and a removable mounting means for removably mounting said protruding member to said movable holding tray, said removpble mounting means including 2 GB 2 152 114A 2 an actuating means for actuating said remova- along line 18-18 in Fig. 17 to illustrate the ble mounting means, detent means.

said actuating means being positioned so Figure 19A is a perspective view partly that it can be actuated by the thumb of the broken away of the fixed trough of Fig. 1 with hand of the user who is grasping said handle, 70 adjustable length segments illustrating the and components thereof in exploded relation.

Figure 19B is a perspective view of the support members for the fixed trough of Fig.

1913 illustrating the components thereof in exploded relation.

Figure 20 is a side elevational view partly broken away of the pipe stacker assembly arms at the lowered position of Fig. 1 and with the raised position and other structure shown in phantom lines.

Figure 21 is a top plan view partly broken away of the assembly of Fig. 20 partly in phantom lines.

Figure 22 is a view similar to Fig. 20 illustrating a variation thereof and illustrating the raised position in phantom lines.

Figure 23 is an enlarged end view partly broken away of the tilting mechanism of the stacker tray of Figs. 20 and 22.

Figure 24 is a side elevational view of the tilting mechanism and stacker tray in Fig. 23 with the arm shown in phantom lines.

Figure 25 is a perspective view of the stacker tray of Figs. 20 and 22 illustrating the parts thereof in exploded relation.

Figure 26 is an end elevational view partly broken away of the pipe transfer system of Figs. 20 and 22 illustrating the stacker tray in different elevations and positions and the pipes in stacked positions.

Figure 27 is a schematic illustration of the hydraulic system for operating the pipe stacker assembly of Figs. 20-26.

Figure 28 is a top plan view of the appara tus of Fig. 1 positioned at a first location on a drilling rig and at another position in phantom lines and illustrating, partly broken away, the track system and surrounding drilling loca tions.

Figure 29 is a perspective view partly broken away of the wheel assembly for the track system of Figs. 1 and 28.

Figure 30 is a cross-sectional view partly broken away taken line 30-30 in Fig. 29.

Figure 31 is a view similar to that of Fig. 30 illustrating the apparatus in a lifted position and the wheel in rolling relation with the track.

said removable mounting means including a plurality of openings spaced longitudinally along said movable holding tray and each said opening being capable of receiving said protruding member therethrough.

Embodiments of the invention will now be described, by way of example, with reference to the accompanying drawings, in which:- THE DRAWINGS Figure 1 is a perspective view partly broken away of an apparatus embodying the present invention in use at a drilling rig site.

Figure 2 is a side elevational view partly 85 broken away of the apparatus of Fig. 1 show ing the lift trough in a fully inclined position.

Figure 3 is a top plan view of the lift or pivoted trough of Fig. 1.

Figure 4 is a side elevational view of the lift 90 or pivoted trough of Fig. 3.

Figure 5 is a cross-sectional view taken along line 5-5 in Fig. 4.

Figure 6 is a cross-sectional view taken along line 6-6 in Fig. 4.

Figure 7 is a cross-sectional view taken along line 7-7 in Fig. 4.

Figure 8 is a cross-sectional view taken along line 8-8 in Fig. 4.

Figure 9 is a top plan view of a slidable apron or holding trough attachable to the carriage means of the tubular handling appa ratus of the present invention as shown in Fig.

1.

Figure 10 is a side elevational view partly 105 broken away of the apron or holding trough and carriage means of Fig. 9.

Figure 11 is an end elevational view of a portion of the carriage means of Figs. 9 and 10.

Figure 12 is a perspective view of the apron and carriage means of Fig. 9 illustrating the components thereof in exploded relation.

Figure 13 is a perspective view partly broken away of the length projection or ad- 115 justment device for the apron of Fig. 9.

Figure 14 is a side elevational view partly broken away of the device of Fig. 13 illustrat ing the operation thereof.

Figure 15 is a cross-sectional view partly 120 broken away taken along line 15-15 of Fig.

14.

Figure 16 is a perspective view partly broken away of the connectable ends of the lift or pivoted and fixed troughs of Fig. 1.

Figure 17 is a side elevational view partly broken away of the apparatus of Fig. 16 illustrating the troughs and the locking means partly in crosssection.

Figure 18 is a cross-sectional view taken DESCRIPTION OF THE INVENTION

General Description

Referring to Figs. 1 through 4, there is illustrated the apparatus of the present inven125 tion shown generally at 10 for handling pipe P and other tubulars. This apparatus generally includes a main support frame 12 shown positioned on the ground or, in its preferred use, on an offshore rig. The apparatus also 130 includes left and right catwalks 13, 13 for 3 GB 2 152 114A 3 utility use, a lift or pivoted trough 14 pivotally connected to frame 12, pipe transferring as semblies 16 and 18 positioned on opposite sides of frame 12 adjacent tandem pipe racks R and lift trough 14 and positioned at approx imate midsections thereof, a fixed trough 20 supported at one end by drilling rig floor 22 and at the other end by fixed trough support 24, a locking means 26, for connecting lift trough 14 to fixed trough 20 and a pipe carriage assembly 27 for moving the pipe up or down the troughs. Thus, apparatus 10 transfers pipe P between pipe racks R on either side of the apparatus 10 through the use of pipe transferring assemblies 16 and 18 which raise and lower the pipe P to and from the lift trough 14 that may be selectively lifted or lowered as desired to the fixed trough 20.

The carriage assembly 27 moves the pipe along the troughs to the floor 22 of the 85 drilling rig.

Detailed Description of the Invention

As best shown in Figs. 1 and 2, lift or pivoted trough 14 is positionable between - catwalks 13, 13 and is pivotally connected by pin assembly 28 at a rearward end of elon gated main support frame 12. At least one hydraulic cylinder assembly 30 is positioned rearward of the midsection of lift trough 14 and pivotally connected to the lift trough at one end and to the main support frame at the other end to lift the lift trough 14 from a generally horizontal position as shown in Figs.

20, 22 and 26 to an inclined position as shown in Figs. 1 -4 in which it cannot con nect with fixed trough 20.

As best shown in Figs. 3-8, lift trough 14 comprises horizontally and vertically spaced elongated outer frame members 32, 34, 36 105 and 38 which support a V-shaped steel based floor 40 along which the pipe P slides. The V shape defines slot 41 formed in the middle throughout the length of the lift trough 14.

Intermediate the ends of the lift trough and forming a portion thereof is a dump trough 42 tiltable laterally in either direction when lift trough 14 is in a down or generally horizontal position, to dump pipe or accept pipe from the pipe transferring assemblies 16 and 18 on 115 either side of the main frame to or from the pipe racks R. Dump trough 42 is tiltable by hydraulic cylinders 44 and 45 as best shown in Fig. 7. Cylinders 44 and 45 are ppsitioned inside of frame members 32, 34, 36 and 38 120 and have their lower ends pivotally coupled at one end to cross member 46 forming the base of lift trough 14 along with elongated outer frame members 36 and 38 and at the other end pivotally coupled to base support plate 48 of the dump trough 42. As shown in Fig. 7, in phantom lines, dump trough 42 is tilting laterally to the right due to the extension of cylinder 44. The reverse tilt would be achieved by extension of cylinder 45. As is clear from the description cylinders 44 and 45 move up and down with lift trough 14 as it is raised or lowered.

The present invention further provides for a carriage assembly 27 to move pipe P or other tubulars along the lift trough 14 and also out beyond the fixed trough 20. As best shown in Figs. 6 and 9-12 this assembly includes an apron or movable holding trough supported for sliding movement along floor 40 of lift trough 14. Apron 50 is preferably of such dimension that it can support the entire length of pipe P so that neither of the ends of the pipe are forced to slide along the trough thereby causing damage to the pipe ends or to the trough.

The carriage assembly includes a carriage 52 releasably secured to apron 50 for movement by the power transmission assembly shown generally at 54 of Fig. 12. The apron 50 is provided with an aperture 56 formed close to the rear end 57 of apron 50 into which is fitted a tooth shaped securing member 58 which projects upwardly as a forwardly extending neck 60 of carriage 52. Aperture 56 does not extend all of the way to the rear end of apron 50 but is spaced therefrom a distance comparable to the length of neck 60. The projection of tooth member 58 slants downwardly toward its forward or leading end 59 whereby tooth member 58 may be inserted into aperture 56 while apron 50 is held stationary. To secure the apron to the carriage rear end 57 of apron 50 when moved toward the carriage rides upwardly on tooth member 58 until it reaches the full length of aperture 56 at which time the apron will drop down and lock onto the carriage. When the carriage 52 is connected with the apron 50 by the tooth member 58, both are moved forwardly by the endless chain 60 as shown in Fig. 12.

The carriage assembly 27 includes main drive endless chain 60 which attaches to tooth member 58 by attaching block 62 as best shown in Fig. 10. Chain 60 is driven by sprocket 64 which is secured to one end of shaft 66 as shown in Fig. 12 and connected to lift trough 14. Shaft 66 is rotated at its other end by a second sprocket 68 which is in turn rotated by a second endless drive chain 70. Chain 70 is driven by motor sprocket 72 which is rotated by a suitable hydraulic motor 74 mounted on the base of the lift trough 14.

For transferring pipe or other tubulars between the rig platform to the pipe rack, apron 50 will be moved onto fixed trough 20 by carriage assembly 27. A length of pipe P will be loaded onto apron 50 and contact the slightly resilient back plate 53 of carriage 52.

The apron with the pipe and the carriage will be moved downwardly by chain 60 and the action of motor 74.

Dump trough 42 has two elongated apron holding strips 73 and 75, as best shown in Figs. 6 and 7, formed along its outer edges 4 so that when the apron 50 is pulled onto the dump trough 42 the side edges 51 of the apron slide under strips 73 and 75 whereby the apron is fixed with respect to lateral movement to dump trough 42. Thus when lift 70 trough 14 is lowered to a horizontal position and dump trough 42 is tilted laterally, apron will also be tilted laterally allowing pipe P to be dumped onto catwalks 13, 13 for loading onto the pipe racks R. To be in 75 dumping position, securing tooth member 58 and carriage 52 must move just beyond the dump trough 42 into the lower non-tilting portion of the lift trough. Only the apron 52 will then be above dump trough and held by the strips 73 and 75.

When apron 50 is tilted laterally during dumping, aperture 56 is moved above tooth member 58. However, when the apron is moved back in place by the dump trough, aperture 56 will fit back around tooth member GB 2 152 114A 4 58 whereby the carriage 52 may push apron with pipe P along lift trough 14 to fixed trough 20 where pipe P may be picked up by the usual crane, not shown, on the floor 22 of the drilling rig and placed again on apron 50 to begin another cycle to restack the pipe.

In use similar to that of apron 50 trans ferring pipe from the rig floor 22 for loading on the pipe rack R, it is to be understood that the apron can obviously be used for moving pipe in the opposite direction, from the rack to the derrick floor to form the drill string.

Apron 50 also has advantages in that it protects lift trough 14 and fixed trough 20 from wear, to which end, grease or other friction reducing material may be coated to the underside of apron 50.

When the height differential between drill ing rig floor 22 and support frame 12 is sufficient such that the pipe will slide down troughs 14 and 20 by gravity, the apron 50 may be removed as well as the securing tooth member 58. In order to permit such demount ing, tooth member 58 may be removably secured to the forward extension of the neck of carriage 52 by bolts or equivalent means.

Instead of employing the strips 73 and 75 to hold apron 50 to the dump trough 42, the apron may have a thin neck of a length and depth similar to neck 61 extending down from and secured to its bottom with an enlarged removably secured lug of width greater than slot 41 attached to the think neck. The think neck will extend through slot 41 with the 120 enlarged lug located below floor 40. This arrangement allows apron 50 to slide on floor yet holds apron 50 to the dump trough when it is tilted for dumping purposes. In this embodiment, apron 50 may be coupled to carriage 52 by securing tooth member 58 to the forward extension of neck 61 of carriage 52 through aperture 56 of apron 50 when the aperture of the apron is over the forward extension of the neck. The apron may be 1 removed by removing tooth member 58 and by sliding the apron forward when the lift trough is at a slightly inclined position to remove the lower thin neck of the apron from slot 41 at the forward end of the trough.

Apron 50 is of such dimensions, as earlier mentioned, to longer than even the longest tubulars. When short pipes are to be transferred it is desirable to provide an effectively shorter apron so that the pipe need not slide as far when being transferred from the rig floor to the apron and that the pipe will be more nearly centered on the dump trough when the carriage reaches its lowest position, and further that the pipe will still extend or project freely out beyond the end of the fixed trough into the drilling rig for easier pick up by the usual crane on rig platform The present invention as best shown in Figs. 13-15 illustrates at 77 structure to control the length of the projection of the pipe from the end of the apron 50. This length projector or positionable carriage 77 includes a body section 78, a front or working face 80 against which the pipes will rest, a handle 82 secured to the body 78, a tubular, open ended protruding member 84, a button 86 mounted in bore 85 provided in body 78 slidably received within the tubular protruding member 84 referred to generally as an en gagement mechanism 87.

Apron 50 is provided with a series of spaced positioning holes 88 through which protruding member 84 may be received. Posi- tionable carriage 77 is designed, as best shown in Fig. 14, that it may be held and moved by hand and while the operator is grasping handle 82 he may depress button 86. When button 86 is depressed engage- ment mechanism 87 is operated to release protruding member 84 which then may be withdrawn from one hole and placed in a more desirable hole. When it is placed in the desired hole 88 and button 86 is released the mechanism positioned on the underneath side of the apron is activated thereby securing the positionable carriage to the apron at the desired location. Fig. 15 best illustrates the details of the engagement mechanism 87.

The protruding member 84 is provided with a central bore 84a and with a sliding bore 84b to slidably receive rod 89 secured to the button 86 and which extends the length of the protruding member 84. A spring 90 abuts ledge 91 in which sliding bore 84b is formed to surround rod 89 and bias button 86 upwardly. Secured to the end of the rod remote from the button 86 is an enlarged head 92 having an upper conical portion 92a, a cylindrical portion 92b for controlled sliding engagement within bore 84a and an enlarge lip 92c which abuts the bottom edge 84c and limits the upward movement of the protruding member 84. As shown a plurality of ports 84 and into which ball detents 93 are positioned GB 2 152 114A 5 and sized to partially extend outwardly of the protruding member 84 but yet be retained within the bore of the protruding member.

In use, depressing the button 86 permits the balls 93 to be retracted on the conical surface 92a and the positionable carriage may be inserted into the bore 85. Release of the button, forces the ball detents outwardly by the action of the conical surface 92a. The balls thus extended have a larger diameter than the holes 88 of the apron 50 to releasably lock the positionable carriage 77 to the apron 50 at the selected hole 88.

As best shown in Fig. 1, fixed trough 20 is inclined towards lift trough 14 and is sup- ported at one end by drilling rig floor 22 and at the other end by fixed trough support 24.

When lift trough 14 is in a fully inclined position, locking mechanism 26 connects it to fixed trough 20, as shown in Fig. 17. In this 85 position, apron 50 can slide up the fixed trough and pipe loaded or unloaded from the apron onto the drilling rig. The trough dimen sions of the fixed trough must thus be such that the apron may be fully supported thereby 90 and may freely slide thereon.

Locking mechanism 26 includes a pair of downward extending detents in the form of hooks 98 and 100 at the end of the fixed trough 20 and a pair of upwardly disposed holding slots 102, 104 in the outer end of the lift trough 14. Thus, as the lift trough is lifted, hooks 98 and 100 are forced into slots 102 and 104. The hooks prevent the lift trough from moving up or from moving 100 laterally relative to the fixed trough.

- The fixed trough extends onto the drilling rig floor so that the tubulars may be then lifted onto the platform. With different tubular lengths and/or positioning of the drilling equipment on the platform it is often desirable to have the fixed trough extend an additional distance onto the platform. Preferably this adjustment should be made without requiring that the fixed trough be lifted and reposi tioned or without replacing it with a new fixed trough of different length. The present inven tion satisfies those criteria.

As is best illustrated in Fig. 1 9A additional trough segments 108 and 110 may be added to the uppermost end of fixed trough 20. A pair of plates 112 and 114 are fastened by bolts or other equivalent means to the sides of the fixed trough 20 and the trough segment 108. The plates must be of such length and strength as to overcome any moments created when pipe P and apron 56 are on the trough segment. As is shown in Fig. 19, as many segments may be added as needed limited only by the aforementioned moment created. Predrilled holes 115 can also be provided in the end of the fixed trough, the trough segments, and corresponding holes 11 5a provided in the plates, so that the fasteners and thus the segments may be added or removed.

with greater speed.

Fixed trough support 24 is telescopic and adjustable to any desired length and includes upper leg 116 and lower leg 118 which are suitably sized to be disposed in telescoping relation, as best shown in Fig. 1 9B. Upper leg 116 is provided with holes 120 and lower segment 118 with holes 122. With leg segment 116 placed inside segment 118 and the desired length of fixed trough support 24 chosen, holes 120 and 122 are aligned and pins 124 and 126 inserted to secure support 24 at that length. Cotter pins 128 and 130 may then be placed through holes in the ends of pins 124 and 126 to hold the pins in place.

Fixed trough support 24 is pivotally con nected to the lower end of fixed trough 20 by pin 132 inserted in a suitably spaced hole 135. Cotter pins 134 hold securing pin 132 in place. It is thus seen that the length of the fixed trough support may be adjusted whereby the angle of inclination of the fixed trough is adjusted so that it may properly align with lift trough 14. The bottom portion of leg segment 118 is attached to main frame 12 as shown in Fig. 2.

The pipe transfer system of this invention includes pipe transferring assemblies 16 and 18 positioned on the sides of catwalks 13, 13 and between pipe racks R. As shown in Figs.

1 and 20-24, the pipe transferring assem blies include a pair of aligned arms 138 and each located on the side of the pipe handling apparatus and next to one of the pipe racks R. The arm ends 1 38a and 140a are pivotally coupled to the frame at 142 and 143. Each pair of opposite arm ends 1 38b and 1 40b is connected to a tilt tray 144 for holding pipe and may move to an upper position above catwalk 13 and to a lower position below the catwalk as shown in Figs. 1, 20, 22 and 26. In Figs. 20 and 22 arms 138 and 140 are shown in phantom form in their upper positions.

A hydraulic system is employed for moving the arm ends 1 38b and 1 40b together to upward or downward positions or to any level in between. The hydraulic system comprises a pair of cylinders 145, 145 positioned horizontally and having their ends pivotally coupled to frame 10 at 146 and 148 at one end. At the other ends 150 and 152, the cylinders are pivotally coupled to arms 138 and 140 at 154 and 156 through use of ears 158 and 160 connected to arms 138 and 140 respectively at a location 161 in which the arms are enlarged to permit the cylinders 145, 145 to be horizontal at the lowest position of arms 138 and 140, thus permitting a lower reach of the tilting tray 144 without interference between the arms and cylinders.

Fig. 22 shows a slightly different embodiment of the invention of Fig. 20 primarily having the hydraulic cylinder attachments and 6 0 65 GB 2 152 114A 6 arm shapes shown.

Referring to Fig. 27, the hydraulic system for operating cylinders 145, 145 comprises an oil reservoir 162, a pump 164, a four-way directional control valve 166 and appropriate flow lines. Pivotally coupled to arm ends 1 38b and 1 40b is a tilt tray or trough 144 for carrying pipe P between rack R and pipe handling 10 apparatus 10. Trough 144 can be tilted laterally in either direction to allow pipe P to be loaded or unloaded. Referring to Figs. 20-27, the mechanisms for coupling tilt tray 144 to arm ends 1 38b 15 and 1 40b and for tilting tray 144 are shown. Tilting mechanisms shown generally at 170 and 172 are identical and are positioned at each end of arms 138, 140 for operating each tray 144. Arm ends 1 38b and 140b 20 have stub shafts 174 and 176 rotatably secured at one end therein respectively allowing arms 138 and 140 to move up and down together carrying the length of tray 144 in a generally horizontal position. 25 As best shown in Fig. 23, stub shaft 174 is rotatably secured at its other end in a suitable bore 178 formed through pivot block 180which is pivotally mounted on shaft 182 positioned at right angle to shaft 174 and extending partially through pivot block 180. Dummy shaft 183 on pivot block 180 is pivotally received in plate 184. Plate 184 and 186 are mounted on shaft 182 for rotation by rotary actuator 190 secured to plate 184.

Suitable bearings 192 and 194 are included to permit free pivoting of block 180. Plate 186, as best shown in Fig. 23, includes a Vshaped cradle 196 at its top. Tilt tray 144 is secured to the cradle formed by V-shaped portion 196 by bolts 200 or by equivalent means. Thus as rotary actuator 190 rotates plate 186 through shaft 182, tilt tray 144 tilts from one side to the other. Tilting mecha nisms 170 and 172 are arranged in parallel fashion so that they work in tandem.

Rotary actuator 190 is a commercially avail able device and as shown in Fig. 27, it comprises a cylinder 202 having two pistons 204 and 206, with a rack 208 connected between the pistons. Rack 208 engages a pinion 210. Shaft 188 is an extension of pinion 210. When pressure is imposed on one side of the cylinder 202 it drives the piston and the rack in one direction to rotate pinion 210 and hence shaft 182. On the 120 opposite side of the cylinder the pressure is released. In Fig. 27, member 212 is the cylinder for an identical rotary actuator 214 used in tilting mechanism 172. Cylinder 140 has two pistons 216 and 218 and a rack 220 connected between the pistons for rotating a pinion 220 from which extends a shaft similar to shaft 188. Both actuators of mechanisms 170 and 172 are operated simultaneously by hydraulic fluid from reservoir 162 and pump 164 for driving their shafts in the same direction for tilting the tray 144. Four-way valve 166 is employed for controlling the direction in which the two actuators 190 and 214 rotate their shafts and hence the direction in which tilt trough 144 is tilted.

Arms 138 and 140 and tilt tray 144 operate in the following manner to transfer pipe onto the rack R from the pipe handling apparatus 10. Assume that pipe is to be transferred from apparatus upwardly to the rack R on one side. Arms 138 and 140 of the pipe transferring assembly 18 are initially located such that tilt tray 144 will be just below catwalk 13 in non-tilted position. In this position, the upper edge of tray 144 is located close to catwalk 13 with very little space between the tray edge and catwalk 13 such that pipe P rolling outwardly on the catwalk will roll into the tray. The dump trough of the lift trough 14 is tilted laterally to dump the pipe onto the catwalk 13. From the catwalk, the pipe will roll into tilt tray 144. Cylinders 145, 145 are actuated to raise arms 138 and 140 and tray 144 with the tray held in a non tilted, horizontal position. The tray thus will cradle and carry the pipe upward with no longitudinal movement of the pipe. Thus the pipe cannot roll off of the tray nor can it slide off of the tray longitudinally. When the tray 144 reaches the top of rack R, upward movement of arms 138 and 140 will be terminated and tray 144 will be tilted laterally in a direction to dump the length of pipe onto the top of rack R. Tray 144 will be moved to a non-tilted position and arms 138 and 140 and tray 144 moved downward to repeat the process.

For transferring pipe from rack R to pipe handling apparatus 10, arms 138 and 140 and tray 144 operate in the following manner. Assume that pipe P is to be transferred from an upper row of pipe on rack R to the pipe handling apparatus. Cylinders 145, 145 ex- tend to move arms 138 and 140 such that tray 144 will be just below the top row of the pipe on the rack R with tray 144 on a nontilted position whereby the V of the trough will be essentially straight up. A length of pipe P will be pushed into tray 144. Arms 138 and 140 will then be lowered simultaneously with tray 144 carrying the length of pipe downwardly in a horizontal position. When tray 144 reaches the level of catwalk 13, downward movement of arms 138 and 140 will be terminated and tray 144 will be tilted laterally in a direction to dump the length of pipe onto catwalk 13 where it will roll into the dump trough tilted to receive the pipe. Tray 144 will be moved to a non-tilted position and arms 138 and 140 and tray 144 moved upwardly to repeat the process. A pair of arms 138 and 140 and a laterally tiltable tray 144 as described above will be located on both sides of the apparatus in the form of GB 2 152 114A 7 7 the pipe transferring assemblies 16 and 18 between the racks and the apparatus.

Referring to Fig. 28 there is shown a drilling rig platform D and rig floor 22, pipe handling apparatus 10 and drilling hole 226. It is often necessary to reposition apparatus 10 as shown so that it can be used at other hole sites and this invention provides a novel track and wheel assembly to accomplish this.

This track and wheel assembly is illustrated in Figs. 28-31. It generally comprises two identical tracks 228 and 230 and four identical fraction reducing means in the form or wheel assemblies 232, 234, 236 and 238 extending from the main frame. Track 228 includes an 1-beam 240 of structural dimen sions and material sufficient to support appa ratus 10 for movement and a guide strip 242 centrally mounted on top of the beam 240.

Wheel assembly 232 includes a pair of L shaped brackets 244 and 246, wheel 248, stabilizing platform 250, leveiing pad or boss 252, hydraulic cylinder 254 and cylinder mounting frame 256.

Brackets 244 and 246 are positioned mutu- 90 ally parallel on opposite sides of the vertical member 258 of main support frame 12 and are pivotally connected thereto by shaft 259.

Wheel 248 is positioned between the brackets 244 and 246 and is pivotally connected by shaft 260 at a point offset from shaft 259.

Wheel 248 rolls on top of the top flange of I beam 240 and its guide strip 242. Stabilizing platform 250 is mounted on top of the two brackets. As best shown in Figs. 30 and 31 a 100 depression 262 is formed on the upper sur face of stabilizing platform 250. Leveling pad 252 is connected at the bottom of the hous ing 263 for cylinder 254. Cylinder support 256 is mounted to an underside surface of a horizontal member 270 of main support frame 12. Cylinder 254 is held vertically by means of support 256. As hydraulic fluid flows through line 272 hydraulic cylinder 254 bears against main support frame horizontal member 270 and through leveling pad 252 to stabilizing platform 250 to force the wheel 248 downwardly. Thus, as should be apparent from Fig. 31, support frame 10 is lifted above track 228 and wheel 248 is then in rolling relation with the track. Leveling pad 264 rocks in depression 262 as the brackets pivot thereby allowing the hydraulic cylinder to remain vertical. Pipe handling apparatus 10 may then be moved manually or by power 1 means to the desired location. Our Patent Applications Nos. 8213429, 8410009,8504047,8504058,8504059, 8504061, describe and claim further appara- tus for transferring tubuiars between the floor of a drilling rig and a pipe rack.

Claims (6)

1. An apparatus for transferring tubulars between the floor of a drilling rig and a pipe rack comprising:

an elongated main support frame which can be positioned in proximity to said pipe rack, a lift trough positioned longitudinally of said support frame and having one end pivotally coupled to said main support frame, so that said lift trough can be pivoted upwardly to an inclined position, a power means connected to said lift trough for pivoting said lift trough upwardly to said inclined position relative to said main support frame and towards said drilling rig and downwardly to a genreally horizontal position, a carriage means operatively connected to said lift trough for moving tubulars positioned in said left trough along its length, said carriage means including a movable holding tray to receive and hold said tubulars for movement along said lift trough between said rig and said pipe rack, said lift trough having an upper surface, said movable holding tray being capable of sliding movement along said upper surface, said carriage means further including a carriage connectable to said movable holding tray, said carriage preventing the tubular held by said carriage means from sliding longitudinally out of said movable holding tray when said lift trough is in said inclined position, an adjustable connecting means for connecting said carriage to said movable holding tray at different locations along said movable holding tray to accommodate different lengths of tubulars on said movable holding tray, said adjustable connecting means including a handle attached to said carriage and capable of being grasped by the hand of a user whereby by grasping said handle said carriage can be lifted off of said movable holding tray and repositioned on said movable holding tray, said adjustable connecting means including a protruding member mounted on said car- riage and a removable mounting means for removably mounting said protruding member to said movable holding tray, said removable mounting means including an actuating means for actuating said remova- ble mounting means, said actuating means being positioned so that it can be actuated by the thumb of the hand of the user who is grasping said handle, and said removable mounting means including a plurality of openings spaced longitudinally along said movable holding tray and each said opening being capable of receiving said protruding member therethrough.

2. The apparatus of claim 1 wherein said adjustable connecting means includes a detent means attached to said carriage.

3. The apparatus of either of claims 1 and 2 wherein said handle is disposed in a vertical plane positioned parallel to a longitudinal axis 8 GB 2 152 114A 8 of said lift trough when said carriage is positioned in said lift trough and said actuating member is vertically positioned in said vertical plane and adjacent said handle, said carriage has a vertical stop member, and said handle and said actuating means are positioned behind said vertical stop member.

4. The apparatus of any one of claims 1 to 3 wherein said movable holding tray is dimensioned to support the entire length of said tubular.

5. The apparatus of any one of claims 1 to 4 wherein a friction reducing means is positioned underneath said movable holding tray.

6. An apparatus as claimed in any one of the preceding claims substantially as herein described with reference to the accompanying drawings.

Printed in the United Kingdom for Her Majesty's Stationery Office Dd 8818935- 1985 4235 Published at The Patent Office. 25 Southampton Buildings. London. WC2A lAY. from which copies may be obtained a