TUBULAR PRODUCT CLAMP

Abstract

The invention relates to a tubular product clamp for clamping a tubular product, such as a drilling pipe, and to thus support for example a string of drilling pipes. The product clamp has a ring frame and three or more clamping devices mounted along the inside of that ring frame and around a central product passage. According to the invention each clamping device comprises a base part and a clamp part and two load transfer rollers carried by a trolley frame. The trolley frame positions the base part, the clamp part and the load transfer rollers relative to each other. The base part and clamp part define between them a track, along which the load transfer rollers roll when the clamp part is moved relative to the base part.

Claims

1. A tubular product clamp for clamping a tubular product, the product clamp having a ring frame having three or more clamping devices, which clamping devices are provided at regular intervals along the inside of the ring frame around a central product passage having an axis, and wherein each clamping device comprises: a base part, which base part is mounted to the ring frame, a front side that defines a guide surface facing towards the central product passage, and a left side and a right side provided with cam tracks, the cam tracks extending substantially parallel to the guide surface defined by the front side; a clamp part, which clamp part has a back side that defines a guide surface facing the guide surface defined by the front side of the base part, a front side facing the central product passage, and a left side and a right side provided with cam tracks, the cam tracks extending substantially parallel to the guide surface defined by the back side; two load transfer rollers, which load transfer rollers are each provided between the guide surface of the base part and the guide surface of the clamp part to provide a rolling support for the clamp part; and a trolley frame, which trolley frame is configured for positioning the base part, the clamp part and the load transfer rollers relative to each other, which trolley frame carries the load transfer rollers, which load transfer rollers are each rotatably mounted, wherein the trolley frame is provided with cam followers, with which cam followers the trolley frame engages the cam tracks in the sides of the base part and the clamp part, and wherein the guide surface of the base part and the guide surface of the clamp part define between them guide tracks for each of the load transfer rollers, which guide tracks extend at an angle with the axis of the central product passage such that by moving the clamp part relative to the base part, the clamp part is moved along the axis as well as in radial direction thereof.

2. The tubular product clamp according to claim 1, wherein the trolley frame of each clamping device has a left side frame part on the left side of the clamp part and the base part and a right side frame part on the right side of the clamp part and the base part, which left side frame part and right side frame part carry the two load transfer rollers between them, which load transfer rollers are each rotatably mounted, and wherein the left frame part and the right frame part are each provided with cam followers with which cam followers the frame parts engage the cam tracks in the sides of the base part and the clamp part.

3. The tubular product clamp according to claim 2, wherein each clamping device further comprises a yoke, which yoke is configured for positioning the trolley frame relative to the base part and the clamp part while the clamp part is moved relative to the base part, which yoke is at a central part thereof pivotably mounted on the trolley frame, and is at opposite ends thereof provided with slots, one slot engaging a pivot on the base part and the other slot engaging a pivot on the clamp part.

4. The tubular product clamp according to claim 2, wherein a straight line can be drawn through each cam follower for engaging the cam track on the base part, a central rotational axis of one of the load transfer rollers and a cam follower for engaging the cam track on the clamp part.

5. The tubular product clamp according to claim 2, wherein the left frame part and the right frame part are each H-shaped, the H-shaped frame parts each having a central leg extending along the guide track for the load transfer rollers defined by the guide surfaces of the base part and the clamp part.

6. The tubular product clamp according to claim 1, wherein the trolley frame of each clamping device has a lower retainer arm and an upper retainer arm on the left side of the clamp part and the base part and a lower retainer arm and an upper retainer arm on the right side of the clamp part and the base part, wherein one load transfer roller is carried between the left lower retainer arm and the right lower retainer arm and one load transfer roller is carried between the left upper retainer arm and the right upper retainer arm, which load transfer rollers are each rotatably mounted, and wherein each of the retainer arms has a cam follower at one end for engaging one of the cam tracks provided on the base part and a cam follower at an opposite end for engaging one of the cam tracks provided on the clamp part.

7. The tubular product clamp according to claim 6, wherein the trolley frame has a spacer arm on the left side of the clamp part and the base part and a spacer arm on the right side of the clamp part and the base part, which left side spacer arm is with one end rotationally connected to the left side lower retainer arm and with an opposite end rotationally connected to the left side upper retainer arm, and which right side spacer arm is with one end rotationally connected to the right side lower retainer arm and with an opposite end rotationally connected to the right side upper retainer arm.

8. The tubular product clamp according to claim 7, wherein each clamping device further comprises a yoke, which yoke is configured for positioning the spacer arm relative to the base part and the clamp part while the clamp part is moved relative to the base part, which yoke is at a central part thereof pivotably mounted on the spacer arm, and is at opposite ends thereof provided with slots, one slot engaging a pivot on the base part and the other slot engaging a pivot on the clamp part.

9. The tubular product clamp according to claim 1, wherein each clamping device comprises a rack and pinion mechanism, which rack and pinion mechanism is provided between the respective load transfer rollers on the one hand and the base part and the clamp part on the other hand, to position the load transfer rollers relative to the base part and the clamp part while the clamp part is moved relative to the base part.

10. The tubular product clamp according to claim 1, wherein each of the clamping devices is provided with a positioning device for receiving and positioning a tubular product relative to the clamp part when the clamp is moved towards a tubular product supported in the central product passage, which clamping device comprises two guide legs which extend at an angle to each other, such that they define a V-shape when seen in a direction along the axis of the central product passage.

11. The tubular product clamp according to claim 1, wherein the load transfer rollers are provided with one circumferential guide rib, or with multiple circumferential guide ribs, and wherein the base part and/or the clamp part are provided with guide grooves for cooperating with a corresponding circumferential guide rib.

12. The tubular product clamp according to claim 1, wherein the ring frame of the tubular product clamp is supported on three or more load sensors.

13. The tubular product clamp according to claim 1, wherein each clamping device is provided with an actuator that is adapted to move the clamp part relative to the base part.

14. The tubular product clamp according to claim 13, wherein the actuator comprises two hydraulic cylinders, one on the left side of the base part and clamp part, and one on the right side of the base part and clamp part.

15. The tubular product clamp according to claim 1, wherein the guide surfaces of the base part and the clamp part define a separate load transfer roller guide track for each load transfer roller.

16. The tubular product clamp according to claim 15, wherein the load transfer rollers guide tracks curve in a radially outward direction at their upper ends to provide the clamp part with a parking position.

17. A clamping device for use in the tubular product clamp according to claim 1.

18. A method for supporting a tubular product in a firing line, the method providing the steps of: supporting a tubular product in the firing line; providing tubular product clamp according to claim 1; positioning the product clamp such that its axis coincides with the firing line; moving the clamp parts of the clamping devices towards the tubular product until they engage the tubular product; and lowering the tubular product until it is fully supported by the tubular product clamp.

19. A drilling vessel provided with the tubular product clamp according to claim 1.

20. The tubular product clamp according to claim 3, wherein a straight line can be drawn through each cam follower for engaging the cam track on the base part, a central rotational axis of one of the load transfer rollers and a cam follower for engaging the cam track on the clamp part.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0092] In the drawings

[0093] FIG. 1 shows a perspective view of a tubular product clamp for clamping a tubular product according to the invention in an open configuration and mounted on a diverter;

[0094] FIG. 2 shows a perspective view of the tubular product clamp of FIG. 1 in a closed configuration;

[0095] FIG. 3 shows a side view of the tubular product clamp and diverter of FIG. 1;

[0096] FIG. 4 shows a side view in cross section of the tubular product clamp and diverter of FIG. 1 with the product clamp in the closed configuration;

[0097] FIG. 5 shows a perspective view of a clamping device of the tubular product clamp of FIG. 1 in a first position;

[0098] FIG. 6 shows a perspective view of the clamping device of the tubular product clamp of FIG. 5 in a second position;

[0099] FIG. 7 shows a perspective view of the clamping device of FIG. 5 with some parts removed;

[0100] FIG. 8 shows a perspective view of the clamping device of FIG. 6 with some parts removed;

[0101] FIG. 9 shows a side view of some parts of the clamping device of FIG. 5;

[0102] FIG. 10 shows a side view of some parts of the clamping device of FIG. 6;

[0103] FIG. 11 shows a perspective view of a clamping device of the tubular product clamp of FIG. 1, similar to FIG. 5;

[0104] FIG. 12 shows a perspective view of the clamping device of FIG. 11 with a part removed;

[0105] FIG. 13 shows a perspective view of the clamping device of FIG. 12 with an additional part removed, similar to FIG. 7;

[0106] FIG. 14 shows a perspective view of the clamping device of FIG. 13 with an additional part removed;

[0107] FIG. 15 shows a perspective view of another tubular product clamp according to the invention;

[0108] FIG. 16 shows a top view of the tubular product clamp of FIG. 15;

[0109] FIG. 17 shows a side view in cross section of the tubular product clamp of FIG. 15 in a first working position;

[0110] FIG. 18 shows a side view in cross section of the tubular product clamp of FIG. 15 in a second working position:

[0111] FIG. 19 shows a side view of a clamping device of the tubular product clamp of FIG. 15 in a first working position;

[0112] FIG. 20 shows a side view of the clamping device of FIG. 19 in a second working position;

[0113] FIG. 21 shows a perspective view of the clamping device of FIG. 19;

[0114] FIG. 22 shows, partially in see through, a side view of an alternative clamping device for use in the tubular product clamp according to the invention;

[0115] FIG. 23 shows a side view of the clamping device of FIG. 22 in a first position;

[0116] FIG. 24 shows a side view of the clamping device of FIG. 22 in a second position; and

[0117] FIG. 25 shows a side view of the clamping device of FIG. 22 in a third position;

[0118] FIG. 26 shows two tubular product clamps according to the invention in a first set up;

[0119] FIG. 27 schematically shows the set-up of FIG. 26 in two working positions;

[0120] FIG. 28 schematically shows, partially in see through, a part of a clamping device provided with a rack and pinion mechanism according to the invention in four working positions;

[0121] FIG. 29 schematically shows part of a clamping device provided with an alternative rack and pinion mechanism according to the invention in a first and a second working position;

[0122] FIG. 30 schematically shows, partially in see through, a part of a clamping device provided with an alternative cam track according to the invention in two working positions;

[0123] FIG. 31 schematically shows part of a clamping device provided with a further alternative cam track according to the invention in two working positions;

[0124] FIG. 32 shows a detailed view of a clamping device with an alternative clamping block;

[0125] FIG. 33 shows the clamping de vice of FIG. 32 in cross section; and

[0126] FIG. 34 shows a top view of the two part ring frame of the tubular product clamp of FIG. 15 in an open configuration while engaging a tubular product.

DETAILED DESCRIPTION

[0127] Further objects, embodiments and elaborations of the apparatus and the method according to the invention will be apparent from the following description, in which the invention is further illustrated and elucidated on the basis of a number of exemplary embodiments, with reference to the drawings.

[0128] FIGS. 1 and 2 show a tubular product clamp 1 according to the invention. The tubular product clamp 1 is provided with a ring frame 2 extending around a central product passage 3 having an axis 33. According to the invention, and three or more, in the embodiment shown six, clamping devices 4 are provided at regular intervals along the inside of the ring frame, around the central passage 3.

[0129] In the particular embodiment shown, the ring frame 2 comprises multiple segments 5, two of which form a door that allows for opening the ring frame 2 for engaging a tubular. It is observed that the particular design of the ring frame is not essential for the invention. For example, the ring frame can comprises several segments linked together, with the clamping devices mounted to said segments, or for example be formed by linking the clamping devices to each other, etc.

[0130] FIG. 1 shows the product clamp 1 in an opened configuration while FIG. 2 shows the product clamp in a closed configuration.

[0131] In the opened configuration the clamp 1 can be moved into position while a tubular is supported in the firing line, or moved away from the firing line while a tubular is supported therein. Thus, by providing a door, the product clamp does not need to be taken apart for receiving a tubular in the lateral direction.

[0132] In FIG. 1 the tubular product clamp is mounted on a diverter 6. The diverter 6 is mounted in the deck of a drilling vessel (not shown). A firing line 7 extends through the centre of the diverter.

[0133] FIG. 26 shows two product clamps 1 according to the invention in a set up on a drilling vessel. In this set up, the two product clamps 1 are provided on opposite sides of a diverter 6. By providing two product clamps, one product clamp can be used as a back in case the other one fails or requires maintenance. The product clamps 1 are moveably supported, such that they can slide from an inactive position, in which they are depicted in FIG. 26, into an active position, in which they are positioned above the diverter 6, to support a tubular in the firing line 7 extending through said diverter. As was set out above, the door provided in the ring frame allows for moving the product clamps 1 into and out of the active position while a tubular is already supported in the firing line.

[0134] Thus, for supporting a tubular product in the firing line, the ring frame 2 is opened and the tubular product clamp 1 is moved from its inactive position into its active position, thus aligning its central axis with the firing line and receiving the tubular product in its product passage. While the product clamp 1 is moved from its inactive towards its active position, the clam parts 9 of the clamping devices 4 are in their raised position, preferably in their parking position, to provide a wide central product passage 3 for receiving the tubular.

[0135] After the product clamp 1 has been positioned in its active position, i.e. with its axis coincides with the firing line, and the tubular product has been received in the product clamp, the ring frame 2 is closed and secured.

[0136] Subsequently, the clamp parts 9 of the clamping devices 4 are moved towards the tubular product until they engage the tubular product. In a preferred embodiment, the actuators press the clamp parts against the tubular product to provide an initial clamping force for clamping the tubular product.

[0137] Then, the tubular product can be lowered until it is fully supported by the tubular product clamp, in which condition the downward pull exerted by the tubular on the clamp parts is by the configuration of the product clamp converted into a clamping force.

[0138] FIG. 27 shows a further set-up of with two tubular product clamps 1, schematically depicted, in two working positions. In this set up, the product clamps are supported on a ring bearing when moved into their active position, which allows for rotating the product clamps, and thus the tubular product supported by the product clamp.

[0139] It is noted that the design of a product clamp according to the invention allows for a compact configuration of the product clamp, and thus facilitates providing applying the product clamp in set ups as shown in FIGS. 26 and 27, i.e. moveably supported on or recessed in the deck of a drilling vessel, and rotating the product clamp while supporting a tubular. In a preferred embodiment, the product clamp is configured to interface with a rotary table.

[0140] FIGS. 15-18 show another exemplary embodiment of a tubular product clamp 1 according to the invention. It is noted that components corresponding in terms or construction and/or function to components which have been described with reference to the tubular product clamp shown in FIGS. 1-4 are provided with the same reference numerals. It is furthermore submitted that the tubular product clamp shown in FIGS. 15-18 is substantially similar in design and function to the tubular product clamp shown in FIGS. 1-4. Here below the description will focus on the differences between the two shown clamping devices according to the invention.

[0141] The tubular product clamp 1 shown in FIG. 15 differs from the one shown in FIG. 1 in that the product clamp shown 1 in FIG. 15 is provided with a top housing 41, which top housing 41 defines a clamp part receiving space 60 for receiving the clamp parts 9 of the product clamp when in their raised position. FIG. 17 shows the product clamp 1 of FIG. 15 in cross section with the clamp parts 9 in their fully lower position, while FIG. 18 shows the same product clamp 1 with the clamp parts in their raise position, which in the particular embodiment shown is also a parking position. In the raised position, the clamp parts 9 extend upward from the product clamp 1, and in the embodiment shown are received in the clam part receiving space 60 defined by the top housing 41. Thus, the top housing shields the product clamp, in particular the clamp parts of the clamping devices of the product clamp from above. Furthermore, in the embodiment shown it provides a working surface for personnel. Furthermore, in the preferred embodiment shown, the product clamp 1 recessed in a deck 42 of a drilling vessel, part of which deck is shown in FIG. 15, such that the top surface of the top housing 41 is substantially flush with the deck surface of that drilling vessel. Thus, the top housing extends the working surface of the personnel up to the area above the product clamp.

[0142] In the preferred embodiment shown, the top housing 41 is provided with hatches 43 to provide access to the individual clamping devices 4, more in particular to the clamp parts 9 of the clamping devices. The hatches 43 are depicted open in FIG. 15 and are depicted closed in FIG. 16

[0143] In the preferred embodiment shown, the top housing 41 is releasable attached to the product clamp 1, such that it can be removed if required, for example to facilitate maintenance and/or inspection of the clamping devices 4 of the product clamp 1

[0144] The tubular product clamp shown in FIG. 15 furthermore differs from the one shown in FIG. 1 in that the load transfer rollers 10,11 are provided with a circumferential guide rib 46 located at the centre of each load transfer roller 10,11. The base part 8 and the clamp part 9 are provided with guide grooves 47 for cooperating with a corresponding circumferential guide rib 46, which guide grooves are provided in the guide surfaces 17, 23 of the base parts 8 and the clamp parts 9 of the clamping devices 4. Part of the circumferential guide ribs 46 and part of the guide grooves 47 are depicted in the cross sectional view of FIG. 17. The load transfer rollers 10,11 of the clamping device 4 shown in in FIGS. 5-14 are provided with multiple circumferential guide ribs 46, more in particular with one circumferential guide rib 46 at each end of the load transfer rollers 10,11. In alternative embodiments, the load transfer rollers may be provided with three or more circumferential guide ribs.

[0145] The tubular product clamp shown in FIG. 15 furthermore differs from the one shown in FIG. 1 in that the ring frame 2 of the tubular product clamp 1 is supported on three load sensors 48, one of which is shown in FIG. 16. Furthermore, in the preferred embodiment shown, these sensors 48 are resilient mounted load sensors provided between the ring frame 2 and a base plate 49 configured for supporting the ring frame. Thus, when the resilient supported load sensors 48 are compressed to a certain extent, sections of the ring frame 4, not shown in the Fig., land on the base plate 49, such that the ring frame is supported by the base plate. Thus, the sensors 48 only monitor a lower section of the working range of the tubular product clamp. Due to the limited working range, the sensors can be used that more accurately monitor the loads in this particular range. Furthermore, since the sensors do not need to carry the load of the clamp when at its upper end of its working range, more delicate and more simple sensors can be used.

[0146] Furthermore, in the preferred embodiment shown the sensors 48 are coupled with a control system that is linked to actuators 48 for moving the clamp parts 9. The control system is configured to block movement of the clamp parts of the clamping devices in a direction away from the tubular when they are supporting a load. Thus, the clamp parts can only be moved away from the tubular when that tubular is supported by an external device, for example a crane or trolley mounted on a derrick, in such a way that the tubular is not supported by the clamp. Therefore, there is no risk of the tubular falling from the clamp when the clamp parts are moved.

[0147] The tubular product clamp shown in FIG. 15 furthermore differs from the one shown in FIG. 1 in that the ring frame 2 comprises two C-shaped ring sections 44, each supporting multiple, more in particular three, clamping devices 4, which in combination form the ring frame 2. The C-shaped ring sections 44 are at one end hingeable connected such that they can be pivoted relative to each other between an open configuration for receiving a tubular, which configuration is shown in top view in FIG. 33 while receiving a tubular 63, and a closed configuration for holding a tubular, which configuration is shown in top view in FIG. 16. It is noted that in FIG. 16 the clamp parts are moved into their inward position, and in FIG. 33 the clamp parts are moved into their parking position, and therefore are not visible. Opposite the hinge, the ring frame 2 is provided with a locking device in the form of a moveable locking pin 45 is provided to secure the two C-shaped ring sections relative to each other.

[0148] FIG. 22 shows left side view of an exemplary embodiment of a clamping device 4 for use in a tubular product clamp according to the invention, for example a tubular product clamp as is shown in FIG. 1 or the product clamp shown in FIG. 15. It is noted that components corresponding in terms or construction and/or function to components which have been described with reference to FIG. 1 are provided with the same reference numerals.

[0149] The clamping device 4 comprises a base part 8, a clamp part 9 two load transfer rollers 10, 11, a trolley frame 12, a yoke 13 and an actuator 14.

[0150] The base part 8, has a back side 15 configured to be mounted to the ring frame 2, a front side 16 that defines a guide surface 17 facing towards the central tubular product passage 3, and a left side 18 and a right side 19 (not visible in the figure) provided with cam tracks. The cam tracks extend substantially parallel to the guide surface 17 defined by the front side 16 of the base part 8.

[0151] The clamp part 9 has a back side 22 that defines a guide surface 23 facing the guide surface 17 defined by the front side of the base part, a front side 24 facing the central product passage 3, and a left side 25 and a right side provided with cam tracks, of which the cam track 27 provided on the left side is visible in the figure. The cam tracks extend substantially parallel to the guide surface 23 defined by the back side 22 of the clamp part 9. The two load transfer rollers 10,11 are each provided between the guide surface 17 of the base part 8 and the guide surface 23 of the clamp part 9 to provide a rolling support for the clamp part.

[0152] The trolley frame 12 is configured for positioning the base part 8, the clamp part 9 and the load transfer rollers 10,11 relative to each other. The trolley frame has a left side frame part 29 (visible in the fig) on the left side of the clamp part 9 and the base part 8 and a right side frame part on the right side of the clamp part and the base part. The left side frame part and right side frame part carry the two load transfer rollers 10,11 between them, which load transfer rollers are each rotatably mounted in said frame parts.

[0153] The left frame part 29 and the right frame part are each provided with cam followers 31 with which cam followers the frame parts engage the cam tracks 20,27 in the sides of the base part 8 and the clamp part 9.

[0154] It is noted that in the particular embodiment shown, the trolley frame 12 is configured such that a straight line can be drawn through each cam follower 31 for engaging the cam tracks 20 on the base part 8, a central rotational axis of one of the load transfer rollers 11 and a cam follower 31 for engaging the cam tracks 27 on the clamp part 9. The left frame part 29 and the right frame part 30 are each H-shaped, the H-shaped frame parts each having a central leg extending along the guide tracks for the load transfer rollers 10,11 defined by the guide surfaces 17, 23 of the base part and the clamp part.

[0155] The yoke 13 is configured for positioning the trolley frame 12 relative to the base part 8 and the clamp part 9 while the base part is moved relative to the base part. The yoke 13 is at a central part thereof pivotably mounted on the trolley frame 12, and is at opposite ends thereof provided with slots 34, one slot engaging a pivot on the base part 8 and the other slot engaging a pivot on the clamp part 9.

[0156] According to the invention, the guide surface 17 of the base part 8 and the guide surface 23 of the clamp part 9 define between them a guide track 35 for each of the load transfer rollers 10, 11. In the exemplary embodiment shown, these guide tracks are integrated into a single guide track. In an alternative embodiment, the load transfer rollers are each provided with a guide track, which guide tracks are preferably similar in form.

[0157] The guide tracks 35 extends at an angle with the axis 33 of the central product passage 3 such that by moving the clamp part 9 relative to the base part 8, the clamp part is moved along the axis as well as in radial direction thereof.

[0158] According to the invention, the load transfer rollers provide a rolling support of the clamp part, such that the clamp part can be moved relative to the base part. In the embodiment shown in FIGS. 22-25, the clamping device 1 is provided with an actuator 36 for moving the clamp part. Thus, the product clamp is actuator controlled. Alternatively, the clamp part is configured to be moved by manpower, for example is provided with a grip at its top side for engagement by hand or by a manual operated lifting device, for lifting the clamp part. In an embodiment, the clamp part is configured for engagement by an external lifting device such as a crane provided on the deck or a winch provided in a drilling mast.

[0159] In the exemplary embodiment shown however, the clamping device is provided with an actuator 36, which actuator comprises two hydraulic cylinders, one 37 on the left side of the base part and clamp part, and one (not visible in the Fig.) on the right side of the base part and clamp part. The hydraulic cylinders are with one end connected to the base part 8 and with one end to the trolley frame 12. By connecting the other end of the actuators to the trolley frame 12 and not to the clamp part 9, the length of the cylinder can be kept small, since the travel trajectory of the frame is half or the travel trajectory of the clamp part. In an alternative embodiment, the actuator comprises cylinders which are with one end connected to the base part and with an opposite end to the clamp part. In such an embodiment, the cylinder engages the clamp part directly, instead of via the trolley frame. Thus, the lifting forces exerted by the cylinders are enacted directly onto the clamp part are not transferred via the trolley frame. Thus, the trolley frame and its connections to the base part and clamp part can be kept comparatively light and small.

[0160] FIGS. 23-25 show the clamp part 9 in different positions relative to the base part 8. In the figures, the actuators and the trolley frame have been omitted for the sake of clarity. The figures clearly show that the load transfer rollers 10,11 move along the guide surfaces 17,23 of the clamp part 9 and the base part 8 when the first is moved relative to the other. Furthermore, the figures clearly show that the yoke 13 functions as a regulator, which determines the position of the trolley frame 12, and thus of the load transfer rollers 10, 11 carried by that trolley frame, relative to the clamp part 9 and the base part 8, when the clamp part 9 is moved relative to the base part 8.

[0161] FIGS. 5 and 6 show a perspective view of an alternative clamping device, used in the tubular product clamp shown in the FIGS. 1-4. The components of this clamping device corresponding in terms or construction and/or function to components which have been described with reference to FIGS. 22-25 are provided with the same reference numerals.

[0162] FIG. 5 shows the clamping device 1 with the clamp part 9 in a raised or retracted position. FIG. 6 shows the same device 1 with the clamp 8 part in a lowered or extended position. When the clamp part 9 is in the lowered position shown in FIG. 6, the hydraulic cylinders 37,38 of the actuator 36 are extended. When the clamp part is lifted by the actuator, for example to release a tubular held in the tubular product passage, the hydraulic cylinders 37,38 of the actuator 36 are retracted.

[0163] By lifting the clamp parts 9 of the clamping devices of the tubular product clamp, the clamp parts are also moved in the radially outward direction. Thus, the central product passage is opened up, which for example allows for passing the collar of a tubular through said passage.

[0164] It is observed that the exemplary embodiment of the clamping device shown in FIGS. 5-7 differs from the one shown in FIGS. 22-25 in that the hydraulic cylinders 37,38 of the actuator 36 are with one end connected to the base part 8 and with an opposite end to the clamp part 9. In such an embodiment, the cylinder engages the clamp part directly, instead of via the trolley frame. Thus, the lifting forces exerted by the cylinders are enacted directly onto the clamp part are not transferred via the trolley frame. Thus, the trolley frame and its connections to the base part and clamp part can be kept comparatively light and small.

[0165] FIGS. 7 and 8 depict the clamping devices as shown in FIGS. 5 and 6 in the same position but with the left hydraulic cylinder 37 of the actuator 36 and the left part of the trolley frame 12 removed to clearly show the position of the yoke 13 and load transfer rollers 10,11.

[0166] The yoke 13 is at opposite ends provided with a slot 34, in each of which pivot notch 39 is received such that the slot is at one end slideable connected to the base part 8 and at an opposite end slideable connected to the clamp part 9. The yoke 13 is at its centre pivotable connected to the trolley frame 12.

[0167] It is observed that the exemplary embodiment of the clamping device shown in FIGS. 5-7 differs from the one shown in FIGS. 22-25 in that the yoke is pivotally, at its centre, mounted on the trolley frame at a central part thereof and not on an arm of the trolley frame extending along the roller track, i.e. the guide track for the load transfer rollers defined by the guide surfaces of the base part and the clamp part. Furthermore, the slots provided at the opposite ends of the yoke are open slots, thus reducing the length of the yoke. Thus, the trolley frame as well as the yoke can be kept compact, which facilitates mounting the hydraulic cylinders on the clamp part in stead off on the trolley frame.

[0168] FIGS. 9 and 10 depict in side view the base part 8, clamp part 9 and the load transfer rollers 10,11, provided between the guide surfaces of the base part 8 and the clamp part 9, of the clamping devices shown in FIGS. 5 and 6 in the same position. The figures thus clearly show the contour of the guide surfaces, and the cam tracks extending substantially parallel to those guide surfaces, more in particular to the contour of those guide surfaces. It is observed that the exemplary embodiment of the clamping device shown in FIGS. 5-7 differs from the one shown in FIGS. 22-25 in that the load transfer rollers 10,11 are each provided with a transfer track, which two tracks are defined by the guide surfaces of the base part and the clamp part, which transfer tracks are similar shaped.

[0169] Furthermore, each side of the clamp part and the base part is provided with two cam tracks, one for each cam track and each cam track extending substantially parallel to those guide surfaces, more in particular to the contour of those guide surfaces.

[0170] In the embodiment shown in FIGS. 22-25 the guide surfaces also define a cam track for each load transfer roller, the guide tracks however combine into a single guide track, as do the cam tracks. Thus, the load transfer rollers can share a guide track. The overlapping guide tracks may provide an extended trajectory for moving the clamp part relative to the base part.

[0171] The guide surface of the clamping device shown in FIGS. 9 and 10 furthermore differ from the ones shown in FIGS. 22-25 in that they define a parking position in the form of a recess at the end of the guide surfaces, and thus at the end of the guide tracks which curve in a radially outward direction at their upper ends to provide the clamp part with a parking position. In FIG. 9, the clamp part is shown in its lifted position and with the load transfer rollers received in the parking position. Proving these recesses in which the load transfer rollers are received allows for moving the clamp part closely adjacent the base part, and thus for a compact configuration of the clamping device when in the retracted or lofted position. This in turn provides an extra wide central product passage and thus facilitates passing products there through and thus reduces the need of removing the tubular product clamp when passing products with a wide diameter along the firing line and through the product passage.

[0172] FIGS. 19-21 show another exemplary embodiment of a clamping device 4 for use in a tubular product clamp according to the invention, for example a tubular product clamp as is shown in FIG. 1 or a product clamp as is shown in FIG. 15. It is noted that components corresponding in terms or construction and/or function to components which have been described with reference to FIGS. 1-18 are provided with the same reference numerals. It is submitted that the clamping device shown in FIGS. 19-21 is substantially similar in design and function to the clamping device shown in FIGS. 5-14. Here below the description will focus on the differences between the two clamping devices according to the invention. The clamping device shown in FIGS. 19-21 differs from the one shown in FIGS. 5-14 in that the cam tracks 21 provided on the base part and the cam tracks 28 provided on the clamp part have an open end. It is noted that the movement of the cam followers, or cams in short, in the respective cam tracks is restricted by the trolley frame 12 and yoke 13 such that the cams, cannot run out of the cam tracks, which is shown FIG. 19. The cam tracks not ending in the base part and the clamp part does however allow for a more compact base part and clamp part, which in turn allows for a more compact clamping device and thus for a more compact product clamp. It is noted that in an alternative embodiment, one or both cam tracks of only the base part or the one or both cam tracks of only the clamp part do not end in the base part or the clamp part respectively.

[0173] The clamping device shown in FIGS. 19-21 further differs from the one shown in FIGS. 5-14 in that the clamping device 4 is provided with a positioning device 40 for receiving and positioning a tubular product relative to the clamp part 9 when the clamp part 9 is moved towards a tubular product supported in the central product passage. The clamping device comprises two guide legs which extend at an angle to each other, such that they define a V-shape when seen in a direction along the axis of the central product passage. In the preferred embodiment shown two guide legs of the clamping device 40 are furthermore staggered relative to each other along the axis of the central product passage, which enables the guide legs of two adjacent guiding devices to overlap when the clamp parts are moved towards the central axis, which has been depicted in the side view in cross section shown in FIG. 17.

[0174] It is noted that in the embodiment shown, In an embodiment, the positioning device 40 is provide in the form of a V-shaped centering plate which is mounted at an angle to a plane perpendicular to the axis of the central product passage, such that one leg is located higher than the other leg. In an alternative embodiment, for example the two guide legs can be separate components mounted on the clamp part of the clamping device.

[0175] In an embodiment of a product clamp according to the invention, the base part and or the clamp part of the clamping devices are composed from different components. For example they can each comprises a frame shaped body supporting a solid track element, which solid track element is a steel body that defines the guide surface and for example is a track element made as a unitary body of high grade steel. Such an embodiment may allow for replacement of part of the base part or clamp part. For example in case of wear of the track surface defined by the base part, only the track element needs has to be replaced.

[0176] FIG. 28 schematically shows part of a clamping device provided with a rack and pinion mechanism according to the invention in four working positions. It is noted that components corresponding in terms or construction and/or function to components which have been described with reference to the clamping device shown in FIGS. 5-14 are provided with the same reference numerals. It is furthermore submitted that the clamping device 4 shown in FIG. 28 is in its overall function substantially similar in design and function to the clamping device shown in FIGS. 5-14. Here below the description will mainly focus on the differences between the two shown clamping devices according to the invention

[0177] FIG. 28 the clamping device 4 in four working positions. On the left side the clamp part 8 of the clamping device 8 is located in its lower, most inward, clamping position. On the right side, the clamp part 8 of the clamping device 4 is raised in its most upper position, which is also a parking position, i.e. in this position the load transfer rollers 10,11 are received in a recess defined by the guide surfaces 17,23 of the base part 8 and the clamp part 9. Between these the left side and the right side figures, the clamping device 4 is shown with its clamp part 8 in tow intermediate positions.

[0178] The clamping device 4 schematically depicted in FIG. 28 differs from the clamping device 4 shown in FIGS. 5-14 in that the load transfer roller tracks, defined by the guide surfaces 17,23 of the base part 8 and the clamp part 9, have a curved end sections that provide a parking position for the load transfer roller 10,11, depicted in the right hand fig., while the cam tracks 21,28 have no such curved end sections. This is made possible by providing the trolley frame 50 with retainer arms 51,52 that can pivot relative to each other.

[0179] Thus, the clamping device 4 schematically depicted in FIG. 28 furthermore differs from the clamping device 4 shown in FIGS. 5-14 in that the trolley frame 50 of the clamping device has a lower retainer arm (not visible in the Fig.) and an upper retainer arm (not visible in the Fig.) on the left side of the clamp part 9 and the base part 8 and a lower retainer arm 51 and an upper retainer arm 52 on the right side of the clamp part 9 and the base part 8. In this embodiment, one load transfer roller 10 is carried between the left lower retainer arm and the right lower retainer arm 51 and one load transfer roller 11 is carried between the left upper retainer arm and the right upper retainer arm 52. The load transfer rollers 10,11 are each rotatably mounted.

[0180] Furthermore, each of the retainer arms 51,52 has a cam follower 32 at one end for engaging one of the cam tracks provided on the base part 21 and a cam follower 32 at an opposite end for engaging one of the cam tracks provided on the clamp part 28.

[0181] Thus, the trolley frame 50 comprises two retainer arms 51,52 on each side of the clamping device 4, each arm positioning the clamp part 9 relative to the base part 8 and correctly positioning the load transfer roller 10,11 between the clamp part and the base part. In combination, the lower and upper retainer arm furthermore prevent pivoting of the clamp part relative to the base part.

[0182] Providing separate retainer arms instead of a single frame part allows for the retainer arms to move relative to each other, and thus to pivot relative to the clamping device (compare the position of the retainer arms in the outer figures with position of the retainer arms in the two middle figures). Thus, in the parking position, the clamp part 9 can be positioned even closer to the base part 8 when compared with a single peace, rigid frame part.

[0183] FIGS. 30 and 31 schematically shows part of further embodiments of a clamping device according to the invention, provided with alternative cam tracks, in two working positions. Also in these embodiments, the trolley frame 50 is provided with retainer arms 51,52 which, when the load transfer rollers are moved into their parking position, shown in the respective right hand Figs., pivot relative to the clamping device. In these embodiments, the cam followers, or cams 31,32, provided on the opposite ends of the retainer arms are configured such that they, in cooperation with the cam tracks, prevent the retainer arms from pivoting. The cam tracks are at one end provided with a curved outward section or with a bifurcation for receiving the cam followers, and which allow for the retainer arms to pivot relative to the clamping device when at the end of the cam track, such that the load transfer roller carried by the retainer arms curves into its parking position. In the figures furthermore has been indicated an imaginary guide track 35 for each of the load transfer rollers 10, 11, defined by the guide surface of the base part 8 and the guide surface of the clamp part 9, which guide track the load transfer roller follow when the clamp part is moved relative to the base part. Thus, the load transfer rollers can be moved along these guide tracks between their most radially inward position, for clamping tubular products with a small diameter, and their most radially outward position, which may be a parking position, to enable products to be moved through the product passage along the axis of the tubular product clamp.

[0184] The clamping device 4 schematically depicted in FIG. 28 furthermore differs from the clamping device 4 shown in FIGS. 5-14 in that the trolley frame further has at least one spacer arm 53 which spacer arm is with one end rotationally connected to one of the two load transfer rollers 10, in the particular embodiment shown to an axle of the roller body 10, and with its opposite end to the other one of the two load transfer rollers 11, in the embodiment shown to an axle of the roller body 11. Thus the trolley frame 50, more in particular the spacer arm 53 of the trolley frame also positions the two load transfer rollers 10,11 relative to each other.

[0185] In the embodiment depicted, a single spacer arm 53 is provided at the centre of the clamping device 4, and engages a mid-section of the load transfer rollers 10,11.

[0186] In an alternative embodiment of a tubular product clamp according to the invention the trolley frame has a spacer arm on the left side of the clamp part and the base part and a spacer arm on the right side of the clamp part and the base part, which left side spacer arm is preferably with one end rotationally connected to the left side lower retainer arm and with an opposite end rotationally connected to the left side upper retainer arm, and which right side spacer arm is preferably with one end rotationally connected to the right side lower retainer arm and with an opposite end rotationally connected to the right side upper retainer arm. In a further preferred embodiment, both the spacer arms and the retainer arms are rotationally connected to the load transfer rollers, preferably to an axle of the load transfer roller, such that the load transfer bodies are coaxially and rotatably mounted in both the retainer arms and the spacer arms.

[0187] The clamping device 4 schematically depicted in FIG. 28 furthermore differs from the clamping device 4 shown in FIGS. 5-14 in that the clamping device 4 comprises a rack and pinion mechanism 54, which rack and pinion mechanism is provided between the respective load transfer rollers 10, 11 on the one hand and the base part 8 and the clamp part 9 on the other hand, to position the load transfer rollers relative to the base part and the clamp part while the clamp part is moved relative to the base part.

[0188] In the particular embodiment shown, the rack and pinion mechanism 54 comprises a left side sprocket wheel and a right side sprocket wheel 55 mounted on opposite ends of each load transfer roller 10,11 respectively, which sprocket wheels are mounted on an axle end of the transfer rollers.

[0189] The rack and pinion mechanism 54 further comprises a lower chain and an upper chain on the left side of the clamp part and the base part and a lower chain 56 and an upper chain 57 on the right side of the clamp part and the base part (in FIG. 28 only the right side of the clamping device 4 is shown), which chains are each with one end connected to the base part 8 and with another end connected to the clamp part 9, and which chains each extend along a substantially U-shaped trajectory. The lower chain 56 extends along a U-shaped trajectory of which the legs point in the downward direction, and the upper chain 57 extends along a U-shaped trajectory of which the legs point in the upward direction.

[0190] The sprocket wheels 55 of one of the two load transfer rollers engage the left lower chain and the right lower chain and the sprocket wheels of the other load transfer roller engage the left upper chain and the right upper chain, such that when the when the clamp part is moved relative to the base part the chains are pulled along the sprocket wheels. Thus, the movement of the load transfer wheels is controlled, and slippage is prevented.

[0191] In an alternative embodiment of a tubular product clamp according to the invention each clamping device further comprises a yoke, which yoke is configured for positioning the spacer arm relative to the base part and the clamp part while the clamp part is moved relative to the base part, which yoke is at a central part thereof pivotable mounted on the spacer arm, and is at opposite ends thereof provided with slots, one slot engaging a pivot on the base part and the other slot engaging a pivot on the clamp part.

[0192] FIG. 29 schematically shows part of a clamping device provided with an alternative rack and pinion mechanism according to the invention in a first and a second working position. In this embodiment, the rack and pinion mechanism 54 comprises a rack 58 provided on the base part 8 and a rack 59 provided on the clamp part 9. The rack and pinion mechanism further comprises a sprocket wheel 55 mounted on an axis of the load transfer roller, which sprocket wheel engages both racks, such that when the clamp part is moved relative to the base part the sprocket wheel runs along the sprocket wheel. Thus, the movement of the load transfer wheels is controlled, and slippage is prevented. In the figures furthermore has been indicated an imaginary guide track 35 for the load transfer roller 11, defined by the guide surface of the base part 8 and the guide surface of the clamp part 9, which guide track the load transfer roller follows when the clamp part is moved relative to the base part.

[0193] The clamping devices 4 shown in FIGS. 5 and 21 have a clamp part 9 that is configured for supporting a clamp block 61, for example in the form of a polyurethane body or dedicated steel body, for engaging the tubular body to be held by the clamp 1. The clamp blocks 61 form the interface between the clamp part 9 and the tubular held by the clamp part. In the preferred embodiments shown, the clamp blocks 61 are mounted to the clamp parts 9 in a way that facilitates replacement, without the need of disassembling the clamp or parts thereof. The clamp parts 9 and the clamp blocks 61 are configured such that the clamp blocks can be slid, from above, into a slot provided in the clamp parts 9 to allow for easy removal. It is noted that, since the load of a tubular product support by the clamp is directed in the downward direction, the clamp block are held in position by a tubular supported by the clamp. In addition, the clamp blocks can be secured using for example bolts or pins in the slot.

[0194] FIG. 32 shows a detailed view of a clamping device 4 with an alternative clamping block 61.

[0195] FIG. 33 shows the clamping de vice of FIG. 32 in cross section. In the exemplary embodiment of a clamping device 4 and clamping block 61 according to the invention shown in FIGS. 32 and 33, the slot 62 has a semi circular cross section, which is partially filled by the part of the clamping block inserted in said slot. This configuration of slot and clamping block allows for the clamping block to pivot to a certain extent about its longitudinal axis. Thus, the position of the clamping block can be slightly adjusted while engaging a tubular, to thus better fit the tubular to be supported by the clamp.

[0196] The exemplary embodiment of the clamping block shown in FIGS. 32 and 33 is furthermore provided with inserts which have a concave contact surface to better fit a tubular held in the product passage of the product clamp.

[0197] The clamp block 61 and inserts 62 are furthermore configured to optimally direct the load of a tubular, such as a string of drilling tubulars, supported by the clamp towards the clamp part 9 and the base part 8 of the clamping device 4. This is achieved by providing inserts 62 and the clamping block 61 with a contact surface that runs parallel to the guide surfaces of the clamp part and the base part.

[0198] In an alternative embodiment, the clamp block may comprise multiple elements that are each mounted onto the clamp part. For example, the clamp block may comprise multiple narrow clamp blocks which extend in the vertical direction that are mounted parallel to each other in the clamp part, or multiple wide clamp blocks that are mounted above each other in the clamp part, etc.

[0199] In an embodiment according to the invention, clamping blocks are provided that match particular types of tubulars, for example tubulars with a particular rough or smooth surface, with a particular wide or narrow cross section, made out of a particular material, etc. Thus, by replacing the clamping blocks, the clamp can be made to better fit a particular type of tubulars.

[0200] A tubular product clamp according to the invention can be used for clamping tubular products, such as drilling pipes, casing, risers and to thus support for example a string of drilling pipes. Such clamps are typically used in the offshore industry. The invention allows for a compact tubular product clamp, for example a product clamp having a height between 0.7m and 1m, for example having a height of 0.8m, and having a diameter between 1.4m and 2m, for example having a diameter of 1.6m, which product clamp has a central product passage of which the diameter can be changed in a range of for example 0.1m, with the clamp parts in their most inward position, up to 0.5m, with the clamp parts in their most outward position, i.e. their parking position. A clamp which such dimensions can be configured to interface with a rotary table.

[0201] In a preferred embodiment, the angle of the guide surfaces relative to the vertical axis of the product clamp is between 10 and 18 degrees, preferably is between 12 and 16 degrees, for example is 14 degrees. Thus, in such an embodiment, the load transfer roller trajectory's extend at an angle of 14 degrees with the vertical, i.e. the central axis of the product passage of the tubular product clamp.

[0202] The tubular product clamp for clamping a tubular product e.g. a drilling pipe, has been described in detail with particular reference to certain preferred embodiments thereof, but it will be understood that variations and modifications can be effected within the scope of the system, especially to those skilled in the art. For example, a clamping device may be provided with three or more load transfer rollers, each with its own trajectory and parking position, and/or may be provided with multiple parallel mounted yokes at each side of the base part and clamping part, which yokes are pivotably mounted on a frame part or on a spacer arm, etc.