DE4218626C1 - Arrangement for reducing cross=sectional area of pipe, e.g. oil conveying pipe - includes explosive charge on 1 of 2 jaws for detonating and forcing jaws against pipe - Google Patents

Abstract

Arrangement has two movable metal jaws, one on each side of the pipe. On at least one jaw, there is an explosive charge for detonating and so forcing the jaw against the pipe. The two jaws (5,6) are at an angle (alpha) to each other, and each has a breadth (b) of at least one tenth of the outer dia. (d) of the pipe (1). The jaws are pref. of steel or other metal. The explosive charge gives the jaws a velocity of 10-200 m/sec. pref. between 50 and 100 m/sec. Charges of comparatively low detonation velocity are partic. suitable but other explosives can be used. USE/ADVANTAGE - The arrangement can form part of an oil borehole "preventer" arrangement, and can prepare the pipe for closure. It can also be used for pipes conveying other fluids. It is easily installed, and there is no crack-formation problem.

Description

The invention relates to a device for Reduction of the delivery cross-section of a pipeline, for example an oil production pipe with two towards each other movable jaws on opposite sides of the Pipe according to the preamble of claim 1.

Such devices, in particular for shutting off Drill holes used are also used as preventers designated.

From US-PS 41 40 041 it is known to move one Bake a propellant charge to use. There are two bolts required for guiding the jaws as well as a chamber in which the pressure of the propellant charge can build up. Further DE 38 17 976 C2 already has a device according to The preamble of claim 1, d. H. With Explosive charges on the back of the jaws to get them through Accelerate detonation on the pipeline. Thereby can dispense with a pressure chamber and guidance of the jaws will. The jaws are arranged parallel to each other and relatively thin. This is intended to ensure that they bend towards the pipe after the detonation, so that the tube is squeezed together more in the middle than at the side kinks. That is, it should Formation of sharp kinks and thus tearing of the Tube at the kinks can be prevented. Still leaves tearing of the pipe with the known device not prevent, which is why in the area of  forming kinks of the pipe a sealing material is arranged, which is in the cracks at the kinks should push when the pipe is squeezed together. This however, is an elaborate and unreliable method to address the problem of cracking.

The object of the invention is therefore to provide a device for Reduction of the funding cross-section, ideally to Closing a pipeline to provide easy is built up and still the problem of cracking masters.

This is according to the invention with that in claim 1 marked device reached. In the Advantageous refinements of the Invention reproduced.

The device according to the invention is therefore characterized in essentially by two measures, namely one due to the angular arrangement of the two jaws and others by their relatively large width, i. H. Bending stiffness. So when squeezing the Tube prevents tearing at the kinks. This should be due to the fact that the Bending stiffness of the two jaws the tube in the middle and about the same at the side kinks Extent is compressed. That is, a bulge the lateral kinks are avoided. These Bulge is likely to be the cause of the cracking be in the device according to DE 38 17 976, because the Liquid is compressed in the bulges and thus an additional pressure from the inside on the kink exercises.

It is completely surprising that the pipe breaks prevent the kinks and still a strong one Reduction of the pipe cross section or a closing of the Can reach if the two jaws are not  parallel, but arranged at an angle. Possibly are thereby in the device according to the invention closed both jaws like scissors. So that will the pipe begins at the kink in the corner of the angle increasingly closed towards the outer kink, causing a compression of the liquid in a Bulge or the like is prevented. According to the invention with relatively simple means the cross section of a Conveyor pipe can be quickly reduced to the leakage of Liquids of any kind, especially oil prevent or at least largely reduce. Since that Weight of the device according to the invention is low they especially to fight burning oil wells suitable. Here comes another advantage of angular arrangement of the jaws for carrying, namely the relatively easy positioning of the invention Device on the burning oil delivery pipe. Because if that Device with the mouth between the angular arranged jaws is moved against the oil delivery pipe the device is also centered between the jaws.

Even if the oil delivery pipe comes from a burning oil well the device according to the invention is not completely closed should be at least the cross section of the conveyor pipe significantly reduced, thereby the exit and thus the Heat radiation can be significantly reduced.

The two jaws of the device according to the invention can be designed as a rod or bar. Is essential only that they have sufficient flexural rigidity have. For this purpose, they each have a width that is more than a tenth, preferably more than a sixth of the Outside diameter of the pipeline. If it is in the pipeline around an oil delivery pipe from an inner pipe or several inner tubes and one concentric to it Outer tube, this dimension refers to the width the jaws on the outer diameter of the outer tube. To the Increasing the bending stiffness continues to be the width  the jaws at least 0.5 times their height. However, a ratio of the width is particularly preferred to the amount of at least 1, for example one square bars a square cross section.

The angle between the two jaws must be be at least 30 ° so that the above mentioned Effect when squeezing the pipe sets, so no cracking occurs. This angle is preferably however less than 90 °, in particular less than 60 °, um to avoid a too large transverse thrust component, which too can lead to tearing.

As experiments have shown, cheeks turn out to be a flat surface on its side facing the pipe have, i.e. flattened, more effective than baking, in which this surface is convex in cross section is. This may be due to the fact that a convex curvature the surface on which the pipe is compressed, is relatively narrow, so that the tube springs open again after being compressed, so not so is permanently deformed, as with jaws with flat surfaces.

The jaws can rest on the pipeline or in the Distance from the pipeline. The plant has the advantage of easier positioning of the device on the pipe as mentioned above. In contrast, the Arrangement of the jaws at a distance from the pipeline Advantage that the jaws have a longer after detonation Have acceleration path and thus with a larger Speed, that is, a larger impulse on the Impact pipeline.

As a metallic material, the jaw is particularly Suitable for steel. Of course, other metals can can be used, such as titanium, steel or Heavy metal alloys.  

The explosive charges are preferably designed so that the jaws have a speed of 10 m / s to 200 m / s, especially 50 to 100 m / s. Also suitable explosive charges with less Speed of detonation, d. H. less Shock wave pressures, so that the jaws burst through the to prevent detonative acceleration. That is, there are all commercial explosives with a Detonation speed from 2000 to 6000 m / s, especially suitable for 5000 m / s. However, too more powerful explosive charges, e.g. B. TNT cast Hexogen or TNT octogen or explosive foils made of nitropenta or plastic explosives based on hexogen.

Instead of using two same bars with the same Explosive charges can be used to achieve the same opposite speeds of the beams this too with different explosive charges or with different masses to be trained on them to bring different speeds. in the In extreme cases, the acceleration of a bar is enough to reach the Narrow pipe. In this case, the second represents Then beams just an inert mass on the opposite side against which the flying bar presses the pipe.

The invention is described in more detail below with reference to the drawing explained. In it shows

Fig. 1 is a feed oil pipe in cross-section between the two jaws of a first embodiment of the inventive apparatus;

Figure 2 shows the oil production pipeline after squeezing through the two jaws.

Fig. 3 is an oil conveying pipe in cross-section between the two jaws of a second embodiment of a device according to the invention;

FIGS. 4a-4e show cross sections through different embodiments of the two jaws.

Referring to FIG. 1 1, a feed oil pipe to an inner or production tubing 2 to a concentrically casing 3 is arranged. Petroleum or a petroleum-gas mixture or another liquid, such as water, liquid mixtures, aerosol mixtures or suspensions, is located in the inner tube 2 . The space 4 between the inner tube 2 and the casing tube 3 is filled with an inert material, such as mud, sand, gravel or the like. A bar-shaped jaw 5 , 6 made of a metallic material such as steel is arranged on opposite sides of the tube. On the side facing away from the conveying pipeline 1 , an explosive charge 7 , 8 is arranged on each jaw 5 , 6 . The jaws 5 , 6 with the explosive charges 7 , 8 enclose an angle alpha of approximately 45 °. The explosive charges 7 , 8 are detonated, if possible simultaneously, ie simultaneously, by means of corresponding reinforcing charges 9 , 10 and electrical ignition means 11 , 12 . The detonation of the two explosive charges 7 , 8 accelerates the jaws 5 , 6 onto the pipeline 1 so that they narrow the delivery or inner tube 2 so much despite the filling between the inner tube 2 and the casing tube 3 that the inner tube 2 is closed, ie at least its conveying cross-section is significantly reduced, as shown in FIG. 2.

The simultaneous ignition of the two explosive charges 7 , 8 can take place via two rapidly responding electrical detonators with a small time spread of the response time with an appropriately designed electrical energy supply.

According to the invention, several concentric can Delivery pipes are narrowed, e.g. B. two concentric tubes  with an outer diameter of approx. 200 mm, but it can e.g. B. also be three concentric tubes (max. 240 mm).

The embodiment according to FIG. 3 differs from that according to FIG. 1 essentially only in that the jaws 5 , 6 are arranged at a distance from the oil production pipeline 1 and only one electric ignition means or detonator 13 is provided for the simultaneous ignition of the explosive charges 7 , 8 which is connected to the booster charges 9 , 10 or directly to the explosive charges 7 , 8 via detonating cords 14 , 15 . The distance between the jaws 5 , 6 from the pipeline 1 is preferably 5 to 30 mm, in particular 10 to 15 mm.

According to FIG. 4a, the two jaws 5 , 6 can be essentially rectangular or square in cross section, ie the width b of each bar corresponds approximately to its height h. The width b of the jaws 5 , 6 corresponds approximately to 0.4 times the diameter d of the outer tube 3 of the pipeline 1 , as can be seen in FIG. 1.

The edges of the jaws 5 , 6 facing the pipeline 1 can be provided with bevels 16 , 17 . As illustrated in FIGS. 4b to e, the side of each jaw facing the pipeline 1 can also be profiled, ie convex ( FIG. 4b), but also concave ( FIG. 4c) or convex on the one hand and concave on the other hand ( FIG. 4d) or wavy ( Fig. 4e). In the cross sections according to FIG. 4d and 4e, the recesses and projections are about the two jaws 5, 6 formed complementary to each other.

Claims (9)

1.Device for reducing the cross section of a pipeline, for example an oil production pipe, with two jaws made of a metallic material that can be moved towards one another on both sides of the pipeline, an explosive charge for detonatively accelerating the jaw onto the pipeline on the side of at least one jaw facing away from the pipeline is provided, characterized in that the two jaws ( 5 , 6 ) are arranged at an angle (alpha) to each other and each have a width (b) which is at least one tenth of the outer diameter (d) of the pipeline ( 1 ). 2. Device according to claim 1, characterized in that the angle (alpha) which the two jaws ( 5 , 6 ) enclose is 30 to 120 °. 3. Device according to claim 2, characterized in that the angle (alpha) is less than 90 °. 4. Device according to one of the preceding claims, characterized in that the width (b) of each jaw ( 5 , 6 ) is at least one sixth of the outer diameter (d) of the pipeline ( 1 ). 5. Device according to one of the preceding claims, characterized in that the width (b) of each jaw ( 5 , 6 ) is 0.2 to 2 times its height (h). 6. Device according to one of the preceding claims, characterized in that the two jaws ( 5 , 6 ) are flattened on the side facing the pipeline ( 1 ). 7. Device according to one of claims 1 to 5, characterized in that the side of the jaws ( 5 , 6 ) facing the pipeline ( 1 ) is profiled. 8. Device according to one of the preceding claims, characterized in that the jaws ( 5 , 6 ) are arranged at a distance from the pipeline ( 1 ). 9. The device according to claim 8, characterized in that that the distance is 5 to 50 mm.