RU2231594C1 - Drilling platform - Google Patents

Abstract

FIELD: equipment for performing geological engineering survey; performing drilling work in shallow waters in open water areas.

SUBSTANCE: proposed drilling platform includes floating offshore platform on which drill with drilling mast and platform positioning units are mounted; said positioning units are made in form of struts whose length exceeds depth of water basin; these struts are reciprocating in guides secured on platform frame. Some of horizontal beams of frame which are parallel to each other and to one side of platform are provided with cylindrical floats for rotation around them. Drilling and auxiliary equipment of platform is located on flooring which is secured at clearance above surface of cylindrical floats. Platform is provided with at least three struts; each strut is provided in its turn with bearing pivot and is located in guide fitted with strut locking unit. Platform is provided with offshore platform hoisting unit by means of winches, preferably tackles, which are provided with units for coupling them with floating offshore platform and with struts.

EFFECT: enhanced efficiency of bringing platform in operating position and vice versa; low effect of weather conditions.

6 cl, 8 dwg

Description

The invention relates to a device for conducting geological engineering surveys on the shelf and can be used for drilling in shallow water, in open areas.

A well-known drilling platform containing a base including a supporting frame, a drilling rig with a drill mast and means for positioning the platform at the drilling point, made in the form of vertical supports, while the supporting frame is mounted on supports with the possibility of translational movement along them (see the book of Lobanov B. A. Reference on the shelf exploration technique. - L .: Shipbuilding 1983, p. 241-250).

The disadvantage of this solution is that it is unsuitable for use in drilling in shallow water (at depths of up to 10 m), in conditions of drilling large areas with relatively small depth of single wells, since the duration of operations to transfer the platform to a new point significantly exceeds the duration drilling process at this point.

Also known is a drilling platform containing a floating base on which a drilling rig with a mast and mounted platform positioning means at the drilling point are mounted, made in the form of supporting elements mounted with the possibility of reciprocating movement in guides fixed on this frame (see the book Lobanov V.A. A Guide to the Development of the Shelf. - L .: Shipbuilding 1983, p. 36-37).

The disadvantage of this solution is that the efficiency of drilling operations is strictly dependent on weather factors, because of the length of the process of evacuating the device to a safe area when a storm approaches and the device returns to work after a storm (unless of course there is a nearby shelter).

In addition, with increasing depths, the reliability of platform positioning decreases, since the volume of a floating base immersed in water and exposed to wave loads is large.

The problem to which the claimed solution is directed is expressed in increasing the efficiency of transferring the device to its working position and vice versa and reducing the influence of weather conditions on its efficiency.

The technical result achieved in solving the problem is expressed in simplifying the organization of drilling operations and making it possible to directly (i.e. without using additional lifting vehicles) transfer the platform from the coastal beach to the water and back, which, in addition to solving the issue of evacuating the device to a safe place when the storm approaches, solves the problem of storing the device during the off-season and subsequent commissioning at the beginning of the season.

The problem is solved in that the drilling platform containing a floating base on which a drilling rig with a drill mast and means for positioning the platform at the drilling point are installed, made in the form of racks whose length exceeds the depth of the reservoir, installed with the possibility of reciprocating movement in the guides, fixed on the platform frame, characterized in that part of the horizontal frame beams parallel to each other and to one of the sides of the platform is equipped with cylindrical floats placed the possibility of rotation around them, and the drilling and auxiliary equipment of the platform is placed on the floor, which is fixed with a gap above the surface of the cylindrical floats, while the platform is equipped with at least three racks, each of which is equipped with a supporting heel, and placed in a guide provided with means for fixing the rack in addition, the platform is equipped with means for lifting the floating base along the uprights, for example, winches, preferably hoists equipped with means for fastening them and with a floating base , and with racks. In addition, the racks are made up of several quick-detachable sections, the lower of which is equipped with a support heel and is connected to the frame by means of a flexible traction with a loop at the end, each of the quick-detachable sections provided with means for fastening them with means for lifting the floating base along the racks. In addition, the guides are hinged to the frame with the possibility of rotation of their longitudinal axis from horizontal to vertical and are equipped with nodes for their fixation in extreme positions. In addition, the bases of mechanisms and assemblies, the distances from the center of gravity of which to the base are greater than the lateral side, are hinged to the flooring, with the possibility of their laying on the side. In addition, the ends of the cylindrical floats are equipped with fairings, for example conical nozzles. In addition, the platform is equipped with stops, which are made in the form of composite rods and mounted with the possibility of reciprocating movement in the guides mounted on the frame with the possibility of changing the angle of inclination of their longitudinal axis from 0 to 45 ° relative to the vertical and equipped with means for fixing the stops, the lower of the stop sections is equipped with a support heel and is connected to the frame by means of a flexible rod with a loop at the end.

A comparative analysis of the features of the claimed solution with the features of the prototype and analogues indicates the conformity of the claimed solution to the criterion of "novelty."

Given in the characterizing part of the claims, the features solve the following functional tasks.

The signs “part of the horizontal beams of the frame parallel to each other and to one of the sides of the platform is equipped with cylindrical floats arranged to rotate around them ...” provide the possibility of translating sliding friction into rolling friction when moving the platform over land and thereby reduce traction necessary for such a movement, and therefore provide the ability to directly (i.e. without using additional hoisting vehicles) transfer the platform from the coastal beach to ode and back when the storm approaches and after it.

Signs “drilling and auxiliary equipment of the platform are placed on the floor, which is fixed with a gap above the surface of cylindrical floats” provide free rotation of the floats when moving the platform on land.

The signs “the platform is equipped with at least three racks, each of which is equipped with a supporting heel and placed in a guide equipped with rack fixing means” provides the possibility of lifting the base along the racks while maintaining the stability of this structure after the floating base leaves the water and excluding its spontaneous lowering for introducing the ends of the supports into the ground under the weight of the platform, in addition, it is possible to hold the floating base above the surface of the water without attracting funds lifting the floating base along the racks, in addition, this feature provides the possibility of increasing-shortening the racks by ensuring the retention of the main part of the sections with a free upper section.

The sign “the platform is equipped with means for lifting the floating base along the racks” provides the possibility of lifting the floating base above the surface of the water.

A sign that provides for the implementation of lifting the floating base on racks in the form of hoists - hand winches equipped with means for fastening them with a floating base and with racks, discloses a possible solution to this node.

The signs of the second and third claims provide the possibility of a sharp increase in the stability of the platform in the transport position (when the racks are not released), which practically does not depend on the depth of the water area (and accordingly the length of the racks), in addition, it is possible to move the racks in a given direction.

The features of the fourth claim provide the possibility of increasing the stability of the platform in the transport position by stacking the mechanisms in a position that contributes to a general decrease in the position of the center of gravity of the platform.

The features of the fifth claim provide the ability to reduce the required traction when towing the platform in the water.

The signs of the sixth claim provide the possibility of increasing the stability of the platform at depths exceeding 4-5 m, in addition, it is possible to move the stops in a given direction, while increasing the angle of inclination of the guides more than a given does not seem advisable, since at a given upper limit of the angle of inclination the width of the supporting area of the platform is more than two times the height of the platform, which eliminates its overturning.

Figure 1 shows a General view of the platform in the working position for the option, rigid fastening with the frame of the rails for racks (means for positioning the platform at the drilling point); figure 2 is a General view of the platform in the working position (version of the hinge fastening with a frame of rails for racks); figure 3 is a General view of the platform, located afloat at the initial stage of extension of the racks; figure 4 is a General view of the platform (along the longitudinal axis of the floats) located afloat in the transport position (racks and stops from the observer’s side are not shown); figure 5 is the same for the platform located on the shore; figure 6 shows a General view of the platform from above; Fig.7 shows a fragment of a rack with a node that provides its fastening with a winch; on Fig shows a view of traction, fastened to the lower section of the rack (option composite traction).

The drawings show a floating base 1, including a frame 2, on the part of the horizontal beams 3 of which (parallel to each other and to one of the sides of the platform), cylindrical floats 4 with fairings 5 are mounted to rotate around these beams, in addition, as part of the floating base 1 includes flooring 6, which is fixed with a gap above the surface of cylindrical floats 4. Beams 3 of frame 2 are made of metal pipes, the remaining structural elements are made of metal profile and sheet. The cavity of the floats is filled with foam 7, for example, foamed polyurethane. The dimensions of the cylindrical floats 4 are selected in such a way as to ensure positive buoyancy of the platform under the condition of its maximum load.

The frame 2 is provided with guides 8 for accommodating the uprights 9 and additional guides 10 for accommodating the stops 11. The guides 8 and additional guides 10 are structurally similar and are made of pipe sections. Their difference can only consist in the implementation of the connection nodes with the frame 2 (guides 8 can either be rigidly connected with the frame 2 (as shown in figure 1), or connected with it by a hinge 12 (as shown in figure 2-5), providing rotation of their longitudinal axis from horizontal to vertical, in the latter case they are provided with fixation units in extreme positions, for example eyelets (not shown in the drawings) fixed in the corresponding places of the frame and the guide body, while fixing is carried out with bolts and nuts (not shown in the drawings ana), passed through the eyes, mounted on the frame and the guide. In this case, additional guides 10 are connected to the frame 2 by a hinge 13, providing the possibility of rotation of their longitudinal axis from 0 to 45 ° relative to the vertical. Moreover, the posts 9 and the stops 11 are made of pipes, diameter In addition, the platform is equipped with at least three posts 9 and three stops 11. Each guide 8 is provided with means for fixing 14 of the posts 9, and an additional guide 10 is provided with means 15 stops fixing 11 (fixing struts structurally means and abutments are similar and are formed as screws threaded, provided with a swirl in a threaded hole formed radially in the wall of the guide). Racks 9 and stops 11 are made of several quick-detachable sections (connected by a threaded lock of the type used when connecting drill pipes), the lower of which is equipped with a support heel 16 connected by a ball joint 17 with the lower end of the section. Each of the racks 9 is equipped with means of their fastening with the means of lifting the floating base along the racks, made in the form of through holes 19 in the walls of the racks, placed in the diametrical plane of the cross section of the upper part of each of the sections making up the rack 9, and a metal rod 20 passed through these holes (see Fig.7).

The drilling rig 21 structurally corresponds to known machines that provide drilling to a depth of 20 m. When the vertical layout of the machine (when the distance from the center of gravity of the machine to the base is greater than to the side), its base is hinged to the flooring 6 by means of hinges 22, which allow laying machine tools on the side. The bases of the beams 23 of the drill mast are fastened to the flooring 6 pivotally, by means of hinges 24, providing the possibility of their laying on the flooring.

Means for lifting the floating base on racks are made in the form of hoists 18 (hand winches). Means of their fastening with a floating base are made in the form of metal eyes 25, welded to the outer surface of the guides 8 (see figure 1) or directly to the frame (see figure 2). The lower end of each of the lower sections of the uprights 9 and stops 11 by means of a flexible rod 26 with a loop at the upper end is connected to the frame 2, while the lower end of the flexible rod is fastened with a metal eye 27 welded to the surface of the rack or stop. The flexible rod 26 can be made integral of segments with a length equal to the length of the strut or stop section, with loops 28 at both ends and a connecting bracket 29 passed into these loops (see Fig. 8). Along the perimeter, flooring 6 is fenced with rails (not shown in the drawings) to prevent personnel from falling into the water.

In addition, the drawings show the drill string 30, the surface 31 of the water 32, the bottom 33, the shore 34, the well 35, the direction of the lifting force 36 applied to the floating base when it rises along the racks.

The claimed device operates as follows.

In the initial position, the drilling platform is located on the shore, resting on the ground with cylindrical floats 4, while in the guides 8 and additional guides 10, only the lower sections of the struts 9 and stops 11 are fixed by means of fixation 14 and 15 (if the guides 8 are connected to the frame 2 by hinges 12, these guides are horizontally deployed and laid on the flooring 6, as shown in FIGS. 4 and 5). In addition, the beams 23 of the mast and the drill rig 21 are hinged (24 and 22, respectively) so that their centers of gravity are lower than in the working position (the vertical axis of these elements is placed horizontally) and are lowered onto the flooring 6 on the sides .

Further, the drilling platform is pushed into the water, for example, by a bulldozer, a heavy truck or pulled from the shore 34 by means of a watercraft (towing vessel or floating conveyor), while cylindrical floats 4, rotating around horizontal beams 3 of frame 2, provide translation of sliding friction into rolling friction when the platform’s movements on land and in water (to the depths ensuring its ascent) and thereby reduce the traction forces necessary for the “support” movement of the platform. After the platform reaches a depth that allows it to ascend, the towing end (not shown in the drawings) is fixed from the side of the platform facing the ends of the cylindrical floats and, by means of a craft, the drilling platform is towed to the drilling point. After that, they begin to install the platform at the drilling point. At first, the guides 8 of the supports 9 are put into a vertical position and fixed in this position (if the guides are hinged to the frame 2 and in the transport position were laid on the flooring 6), then the racks 9 begin to build - the loop of the flexible rod 26 is hooked onto the movable hoist hook 18 (connected to a chain wound on a drum hoist), and the hook on the hoist body is fastened with the corresponding eye 25 of the frame or guide 8. Select the “slack” of the chain and release the rack 9 in the guide 8 (unscrewing the screw - means of fixation 14). When winding the chain from the drum, the lower section of the rack 9 slides under its own weight. After 5-10 cm remain from the touch point of the screw — the fixing means 14 to the upper edge of the lower section of the rack 9, the rack section is again fixed in the guide 8, then the “flexible” rod 26 is “increased” by connecting a new segment of the flexible rod to the bracket 29, return to the place the chain segment released from the hoist drum 18. Then, the upper (free) loop of the flexible rod 26 is hooked to the movable hook of the hoist 18 and then everything is repeated until the support heel 16 touches the bottom 33. When the bottom of the support heel 16 is touched, the latter, due to the ball joint 17, “adapts” to the unevenness of the bottom. After the platform comes into contact with the bottom 33 with all three supports 9, begin to rise the floating base on the supports. To do this, the flexible rod 26 is “built up” in the previously described manner, after which the rods 20 are inserted into the holes 19, for which, as shown in Fig. 7, a loop made of a cable, chain or metal bar is hooked. The fixed hook of the hoist body 18 is hooked onto this loop, and the hook connected to the chain wound from the hoist drum is fastened with the corresponding eye 25 fixed on the frame 2 or the guide 8. Next, the chain is screwed onto the hoist. These operations are carried out simultaneously on all three racks of the platform in the absence of a fixing force on the part of the fixing means of 14 racks and guides. Thus, efforts 35 are created to ensure that the floating base glides up on the struts 9. After the platform reaches a predetermined level above the water surface 31, the fixing means 14 of the racks 9 and the guides 8 provide mutual fixation of the racks in the guides, thereby ensuring that the floating base is held at a given level .

Next, the stops 11 are put into working position (the operations for their extension correspond to the operations for the extension of the racks), while using an additional set of flexible rods 26 and hoists. After installing the stops 11, the drill mast and all equipment are put into working position (the beams 24 are brought into working position and fastened to each other and, accordingly, all equipment in the transport position are deployed to the flooring 6 against abutment with the bases (lower surfaces)). At the end of this process, a top view of the drilling platform corresponds to that shown in Fig.6.

Then, in a known manner, drilling operations are carried out at the first point.

At the end of drilling and the need to move the rig to a nearby set point, the drill string 30 is shortened in a known manner to the extent that it cannot be damaged when towing the platform, the stops 11 are shortened (by pulling them up behind the rods 26 by the hoists 18 and removing the upper sections of the stops as they exit above the upper the edge of the additional guides 10) by an amount not less than the height of the floating base on the racks 9. Then lower the platform to the water, returning buoyancy to it (the rods 20 are introduced into the holes 19, for which they hook, 7, the loop made of wire rope, chain, or metal bar). The fixed hook of the hoist body 18 is hooked onto this loop, and the hook connected to the chain wound on the drum of the hoist 18 is fastened with the corresponding eye 25 fixed on the frame 2 or the guide 8. Then, the chain is rolled from the drum 18. These operations are carried out simultaneously on all three racks of the platform in the absence of a fixing force on the part of the fixing means of 14 racks and guides. The sliding of the floating base down the racks 9 is provided under the action of its own weight. After the platform enters the displacement mode - full lowering to the surface 31 of the water 32, the operation of shortening the racks 9 begins.

For this, the racks are pulled up behind the rods 26 by hoists 18 and their upper sections are removed as they exit above the upper edge of the guides 8 (shortening is performed by an amount not less than the height of the relief drops on the towing platform of the drilling platform).

Next, the above processes are repeated (building up the racks 9 and lowering them until the support heels touch the bottom, lifting the floating base along the racks 9, fixing the racks 9 in the guides 8, building up the stops 11 and fixing them in the additional rails 10). Then, in a known manner, drilling operations are carried out at the second point. Then everything repeats.

When evacuating the drilling platform to shore 34 (for example, when a storm is approaching), the drill string 30 is completely removed, the mast beams 23 and the drilling rig 21 are moved to the transport position, then the floating platform, as described above, is lowered into the water 32, and then shortened racks 9 and stops 11, leaving the lower sections in guides 8 and 10, respectively. Next, the platform is towed to the shore until the cylindrical floats touch the bottom, after which it is pulled ashore in tow of a bulldozer or car. Then everything repeats.

Claims (6)

1. A drilling platform containing a floating base on which a drilling rig with a drill mast and means for positioning the platform at the drilling point are installed, made in the form of struts whose length exceeds the depth of the reservoir, installed with the possibility of reciprocating movement in guides mounted on the platform frame characterized in that a part of the horizontal beams of the frame parallel to each other and to one of the sides of the platform is equipped with cylindrical floats placed for rotation around them moreover, the drilling and auxiliary equipment of the platform is placed on the floor, which is fixed with a gap above the surface of the cylindrical floats, while the platform is equipped with at least three racks, each of which is equipped with a supporting heel and placed in a guide provided with means for fixing the rack, in addition, the platform equipped with means for lifting the floating base along the uprights, for example, winches, preferably hoists equipped with means for fastening them with the floating base and with the uprights. 2. The drilling platform according to claim 1, characterized in that the racks are made up of several quick-disconnect sections, the lower of which is equipped with a support heel and is connected to the frame by means of a flexible traction with a loop at the end, each of the quick-disconnect sections provided with means for fastening them with means lifting the floating base on racks. 3. The drilling platform according to claim 1, characterized in that the guides are hinged to the frame with the possibility of rotation of their longitudinal axis from horizontal to vertical and are equipped with nodes for their fixation in extreme positions. 4. The drilling platform according to claim 1, characterized in that the bases of the mechanisms and assemblies, the distances from the center of gravity of which to the base are greater than to the side, are hinged to the floor with the possibility of laying them on the side. 5. The drilling platform according to claim 1, characterized in that the ends of the cylindrical floats are equipped with fairings, for example, conical nozzles. 6. The drilling platform according to claim 1, characterized in that the platform is equipped with stops that are made in the form of composite rods and mounted with the possibility of reciprocating movement in additional guides mounted on the frame with the possibility of changing the angle of inclination of their longitudinal axis from 0 to 45 ° relative to the vertical and equipped with means for fixing the stops, while the lower of the sections of the stop is equipped with a supporting heel and is connected with the frame by means of a flexible rod with a loop at the end.

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