FI74095C - FOERFARANDE FOER KAPNING AV ETT AVLAONGT BETONGSTYCKE OCH SKAERANDE VERKTYG. - Google Patents

Description

1 74095

The present invention relates to a method for cutting an elongate concrete body, in which the blade 5 of the cutting tool is pressed against a supported concrete body. The invention also relates to a cutting tool for cutting elongate concrete bodies.

Production platforms used for offshore oil and gas drilling are generally built in the light of reinforced concrete piles. Decommissioned production platforms are a problem, causing environmental damage and a risk factor for shipping. In the past, structures have either been left in place as is or their tops have been dismantled to a certain depth determined by maritime requirements.

15 The piles usually consist of nested steel cylinders filled with concrete and each platform has about 30-40 piles. There is no previously known economic way to completely demolish plateaus. If it is desired to remove the piles, they have been blown up. The costs for the platforms built at a depth of 0-40 m 20 have then been estimated at 1-4 million. The U.S. $ / plateau, in difficult conditions up to 8 mln. USD / balance sheet (1983 according to cost level). In the world: it is currently estimated that there are about 6,500 of these plateaus, with a depth of a few meters up to 150 m, up to 300 m 25.

The object of the present invention is to provide an economical and safe method for demolishing these plateaus. The method according to the invention is characterized in that a bending force 30 is additionally applied to the concrete body by the wedge effect provided by the cutting head blade main part, the blade side main part forming an angle with the blade opposite surface so that the angle between the blade edge surface and the opposite side and the angle between the opposite 35 sides. The cutting tool according to the invention is characterized in that the main part of the blade side also forms an angle with the opposite side of the blade, so that the angle between the surface of the edge of the blade and the opposite side is greater than the angle between the main side of the blade and the opposite side.

When using the cutting tool according to the invention, the reinforced concrete piles can be cut easily and quickly. In Ve-5 denial work, the role of divers can be replaced by robots.

The invention and its details will be described in more detail below with reference to the accompanying drawings, in which Figure 1 schematically shows a production platform 10 built on the seabed, Figure 2 shows a cross-section of one plateau reinforced concrete pile, Figure 3 schematically shows a tool according to the invention and a pile top cut, Fig. 5 shows a top view of one embodiment of a tool according to the invention, Fig. 6 shows another embodiment of a tool according to the invention, Fig. 7 shows a blade part of a tool according to the invention, Fig. 8 shows the same blade part seen from the side, Fig. 9 shows an axonometric view, Fig. 10 schematically shows the different steps of pile cutting when using the method according to the invention, and Fig. 11 shows a cross-section of the blade part and the abutment.

The production platform 1, on which the drilling tower 2 and other necessary structures and equipment are located above the water surface 3-30a, is supported on reinforced concrete piles 5 supported on the seabed 4. The piles are supported by transverse steel supports 6.

Figure 2 shows a cross section of a reinforced concrete pile 5. The pile consists of a number of nested steel-35 cylinders 7 filled with concrete 8. The cylinders are eccentric with respect to each other, whereby the distance between the steel surfaces varies. The concrete may have a cavity 9.

I · 3 74095

When production has ceased on the plateau and the drilling sources have been permanently closed, the superstructures of the plateau are first dismantled and then the cross-members 6 are removed from one pile at a time. Each pile is then cut by the method according to the invention into pieces of suitable length, as shown in Figures 3 and 4. The cutting tool 10 according to the invention is lowered from the working vessel on a wire 11 around the pile 5. A lifting wire 12 is tied to the upper end of the pile, one end of which is attached to the winch of the transport vessel 10. The top of the pile is cut off and lifted onto the transport vessel. The tool is lowered to the next cutting point and the same is repeated. The ground has been removed from the bottom of the sea at the base of the pile, whereby the last cutting point 13 is made as deep as possible.

Figures 5 and 6 show two alternative constructions of the cutting tool. The tool has a body 14 and a cutting blade 16 that can be flagged along the sides of the body by two hydraulic cylinders 15. On the opposite side of the cutting blade there is a stop 17 supported on the body. In the embodiment 20 of Figure 6, a body side 18 with a stop is pivotally attached at one end to the rest of the body. the head is provided with a locking device 20. The movement of the pivoting side 18 is effected by a hydraulic cylinder 21. Thus the tool can be arranged around the pile to be cut from the si-25 while the device according to Fig. 5 is lowered to the cutting point from the top of the pile. The application according to Figure 6 allows the use of underwater robots and remote controlled vessels.

Figures 7-9 show the design of the blade 16 in more detail.

The edge 24 of the blade 16 is V-shaped when viewed from above so that the angle e between the portions of the edge 24 is greater than 180 ° and less than 270 ° when viewed from above, preferably about 190-220 °.

The main part 28 of the upper surface of the blade consists of two parallel inclined planes, the inclination angles b of which are equal. The angle b is less than 45 °, preferably about 30-40 °. The lines along which each plane intersects the horizontal form the aforementioned angle e. The planes intersect 4 74095 at the edge 22. The side edges of the planes are indicated by reference numeral 23. The lower surface 25 of the blade is horizontal.

At the cutting edge 24 of the blade, the blade angle α (Fig. 10) is greater than 45 °, preferably 65-75 °. The upper surface of the blade 5 thus has an edge 26 in the vicinity of the cutting edge 24. Thus, the main part of the upper surface of the blade forms a smaller angle b with the lower surface than the actual blade angle α.

Figure 10 shows the different steps 10 1-6 of cutting the pile 5. The hydraulic cylinders produce a horizontal force, whereby the blade 16 presses to the side of the pile 5 and the cutting edge 24 first applies a cutting force to the pile. Thereafter, the part having a smaller angle of inclination of the upper surface produces a wedge effect and begins to tilt the upper end of the pile. This creates a bending moment, which is also increased by the pile's own weight as the pile tilts. In front of the edge 24 of the blade, a rupture of the pile occurs and the pile breaks due to the tensile stress caused by the bending moment.

Since the edge of the blade is V-shaped, the cutting action 20 is initially applied to the pile at two points, thus enhancing the cutting. Thereafter, the cutting operation proceeds such that: on the sides of the pile it is above the middle part.

Figure 11 shows the trajectory 27 of the edge 24 of the blade 16. At the initial stage of cutting, the blade tends to rise upwards. For this reason, the body of the tool would not break for this reason, the abutment surface of the abutment 17 is arranged in a somewhat inclined position, whereby the abutment can turn downwards as the blade rises. A suitable angle c is about 1-5 °, preferably about 2-3 °. The elevated and tilted position of the blade is shown in dashed lines. The invention is not limited to the above application, but may vary in various ways within the scope of the claims. Pile cutting can also take place on dry land. Horizontal concrete beams can also be cut using the same principle. In this case, the blade is pressed against the beam 35, preferably from above.

The edge 26 between the cutting edge and the main part of the upper surface of the blade can also be rounded.

One side of the cutting tool body can also be divided into two parts, whereby each end can be pivoted about its own pivot shaft 19. In this case, the locking device 20 locks the parts of the side together. It is also possible to use a frame with two hinged sides, the other 5 ends of which are locked together.

The counterpart can also be V-shaped in the same way as the blade. In this case, the pile to be cut is well in place.

The number of hydraulic cylinders can also be other than two.

Claims (10)

A method of cutting an elongated concrete piece (5), wherein the blade (16) of the cutting tool (10) is pressed against the concrete piece (5) supported against a shoulder (17) and against the concrete piece (5) a cutting force is directed by the edge (24) of the blade (16) of the cutting tool (10), the surface of the blade edge portion (24) forming an angle (a) with the opposite side (25) of the blade, characterized in that a bending force is also directed towards the concrete piece by means of the main part ( 28) of the blade (16) of the cutting tool (10) side A wedge effect is obtained, whereby also the blade side body (28) forms an angle with the opposite surface (25) of the blade, such that the angle (a) between the surface of the blade edge (24) and the opposite side ( 25) is greater than the winch (b) between the blade side body (28) and the opposite side (25). 2. Cutting tool (10) for cutting elongated concrete pieces (5), in which the cross-section of the tool (10) of the blade (16) forms an angle (a) with the opposite side (25) of the blade, characterized by: that the main body part (28) of the blade also forms an angle with the opposite side (25) of the blade, that the angle (a) between the surface of the blade edge (24) and the opposite side (25) is greater than the angle (b) between the blade side. body (28) and opposite side (25) · Tool according to Claim 2, characterized in that one side (25) of the blade (16) is substantially in the direction of movement thereof. Tool according to claims 2 and 3, characterized in that, in the cross-section of the blade (16), the blade angle (a) at the edge (24) of the blade is greater than 45 °, most preferably 65 - 75, and the 0 angle (b) between the other side of the blade. (25) is less than 45 °, most preferably 30 - 40. 5. A tool according to any one of claims 2-4, characterized in that the edge (24) of the blade (16) is V-shaped and forms a concave angle (360 ° -e). 6. A tool according to any one of claims 2-5 »characterized in that the blade (16) and the shoulder (17) are adapted to a common body (14), which forms a circumference thereof.