NO811466L - PYROTECHNICAL DEVICE FOR ANCHORING OF PELLETS AND SIMILAR ARTICLES IN THE TRAY - Google Patents

Description

The present invention relates to a pyrotechnic device for anchoring piles and similar objects in the ground.

The technical sector the invention encompasses concerns materials that work by igniting a powder to fix various devices in the ground: wires, electric cables, etc.

Devices for pressing down are already known

piles and other objects in the ground, e.g. impact devices that work by stomping or knocking. These devices have a high efficiency but their application is difficult...

Especially when it comes to underwater work, pyrotechnic devices are already used to get

able anchoring devices which are mainly used for mooring vessels. Such devices have the disadvantage that they cannot be used in the water, since, when the system is used, they produce a shock wave. These devices cannot therefore be accepted for use, e.g. in a petroleum area where pipes, appliances and electrical cables have already been installed.

One purpose of the present invention is to provide anchoring in the ground of piles and other anchoring devices, or to push impact tools into the ground to retrieve soil samples.

Another purpose is to optimize the rate of placement of such piles, objects or impact tools, without this leading to large financial investments.

Another purpose is to carry out the aforementioned work during underwater activities and especially during petroleum investigations at sea.

The main problems to be solved by using pyrotechnic methods underwater is to suppress the shock wave produced during ignition, so that the device can be used by a diver or submarine, especially in a petroleum area.

The problem is solved and the objects mentioned above are achieved by a pyrotechnic device for anchoring piles and other similar objects in the ground, which comprises a top piece which is equipped with a device for igniting a cartridge and which is extended downwards by of a pipe which is equipped at the lower end with means for removing.. the air contained in the pipe, characterized in that the pipe can receive both a pile and a movable mass for striking this pile, and in that the pile which is introduced into the guide tube or the mass comprises, in its upper part, a head, which comprises detachable devices for holding in position in the tube, before firing, the said pile or the said mass, so that the head rests against the top piece, which comprises a housing for the said cartridge, where this housing is extended on the same side as the location of the head in an expansion chamber for the gas which is restricted in its lower part of the said head, where the device further comprises sealing parts for the expansion chamber e i.f or gas vertically on the connection between the head and the top piece.

In such a device where the head along its periphery comprises a collar where said collar forms a shoulder, which can rest against a circular holder which is produced in the top piece, at the level of the upper end of the guide tube, the head comprises in the connection between the collar and the main part of the head, a zone of less resistance for at the moment of launch to . produce a clipping of the collar and the main part of the head.

The space for the cartridge and the expansion chamber for gas is found in a removable piece, produced in the middle of the top piece and coaxial with the guide tube, so that this piece, which can be removed before firing, rests against the aforementioned head.

In one embodiment, the head of the pile is threaded, and is screwed onto the upper part of the pile, and this is likewise threaded, so that the threading along the periphery of the pile extends below the head of the pile when this is brought level with the upper part of the pile, with the aim of improve the anchoring of the pile in the ground after firing, by screwing the head firmly to the pile. It comprises a ring, located approximately on the lower 3 part

in relation to the length of the pile, which goes around the periphery of this and can slide with little clearance in the guide tube, and this ring is made of soft metal and is clamped around the pile so that

a relative movement is allowed between the ring and the pile at the moment of firing, and ensures a damping effect which is introduced between the head of the pile and the ground to absorb excess energy developed by the charge.

In one embodiment, the ring is in the form of a coil, and has a breast at each end to reduce friction and improve the control of the pile in the guide tube.

In the underwater version, the guide tube in the upper part includes a sleeve, which, when the tube is extended, includes a coaxial opening that is closed by one removable, tight lid, which is driven out with each firing, and the sleeve is further equipped with a valve and connection devices for vacuum apparatus to apply vacuum to the guide tube and check the tightness before firing.

In this version, the device in the upper part comprises a linge which forms a wreath around the top piece in order to utilize the energy developed by the charge during firing due to the recoil.

This ling has the shape of a cone where the wall diverges from below upwards, and it is equipped with a number of openings which are distributed along the periphery, so that the device can fall into the water along a largely vertical axis after launch.

In an embodiment where the pile grips in its lower part,

an end in the form of an elongated point, an explosive charge placed in a chamber in the axis of the pile, longitudinal channels in the wall of said chamber, which form fracture lines and devices for firing this charge, where this chamber is located just above the pointed end , so that one can produce, after the charge has exploded, a break in the wall of the chamber along the aforementioned lines, and an outward deformation of the metal bands that the lings limit, so that a bulging of the pile occurs in this area, to ensure anchoring basicly.

The aforementioned pile is tubular and comprises, on the same side as the elongated tip, a partition in the form of a •

ring equipped with a central channel of small cross-section closed by a metal cap of low resistance, where said ring is placed in the pipe and acts as a nozzle, limiting

on the one hand between it and the head of the pile a chamber closed at the level of the head of the pile with a removable lid, this chamber containing a synthetic resin, and on the other hand a chamber of a much smaller volume, located on the same side as the elongated tip, and which contains the explosive charge and the devices for firing this charge, where this is separated from the said ring by means of a felt precharge.

In another embodiment, the pile is provided on one side, on the same side as the oblong tip, a partition consisting of a disk of small thickness, which limits a comb-, more containing a synthetic resin, and in front of this disk, is placed a piercing device attached to the point, and placed vertically on the disk, so that it can be pierced at the moment when the pile meets the ground, due to the relative movement of the point and the pile, and on the other hand, at the level of the head of the pile, a removable lid which closes the chamber in which the resin is located in the upper part and so that it is protected by the lid, a partition which forms a support in front of the valve for injecting into the chamber a quantity of compressed gas which is kept enclosed before firing in that part of the chamber which is placed between the valve support and the resin to expel it through openings found along the periphery of the tip.

In another embodiment of the device, the pile<:>'before the launch is in extension of the guide tube where the mass displaces and the pile is in contact with the lid covering the sleeve placed in the lower part of the guide tube through an independently movable part, and this device further comprises devices for aiming in before the launch, the tube and the pile, and for controlling this during the launch.

The arrangement of the guide tube and the pile and the control thereof is achieved by means of a frame which encloses the guide tube and the pile, and the sleeve cooperates through its periphery with the side wall of the frame which is coaxial with the pipe and the pile, and the lower part of the frame forms a central opening where the pile goes through, and where it is enclosed with little clearance, likewise a support block that slides just under the guide tube and closes the frame in the upper part. This frame rests against an edge that extends along the periphery of the pile.

The head of the pile, called the anvil, can be removed

from the pile, and comprises in its upper part a central, cylindrical space that is coaxial with the pile and the guide tube, and in this space is placed a damping disk that covers the bottom of the space, and this disk is overlaid with a metal disk that is centered in the space and which cooperates in the periphery with the side wall of the room, and this metal disk is in contact with the lid located at the bottom of the aforementioned sleeve.

The mass is in the form of a simple cylinder with a diameter smaller than the internal diameter of the guide tube where one end of this cylinder is threaded to receive the head with its severable collar, and this mass is recessed in its central part, where this the part is occupied by a material with high density to make the mass heavier.

The result of the invention is that one can place,

in the ground or in the ground under the sea, piles and other objects such as e.g. impact tools using pyrotechnic devices that do not produce shock waves that can cause damage to the surroundings around the insertion device.

Such an arrangement makes it possible with a starting point

in a single tool, to anchor piles in the ground, and likewise in the ground under the sea at any depth: 1000 m or more.

In its version with impact material, the device is

small in size and light in weight: 30-35 kg in air, and it is capable of generating large energies. These energies. are comparable e.g. with those produced by falling objects with a mass of 5.4 tonnes with a drop height of 3 m, or with a mass of 18.15 tonnes with a drop height of 0.862 m.

Other advantages and characteristic features of the invention will be apparent from the description of the various embodiments of the invention which are given as examples with reference to the attached drawings. Fig. 1 shows a device according to the invention for use on the "ground surface" in half longitudinal section. Fig. 2 is a partial section on a larger scale of the placement of the pile in the device, where the head of the pile is inserted with its crown between the top piece and the guide tube. Fig. 3 is a device according to the invention for. use at sea seen from the side and in half-length section. Fig. 4 is an anchoring pile seen from the side and in half longitudinal section. Fig. 5 is a longitudinal section of a device according to the invention for use at sea with an impact device for hitting the ground, e.g. piles or impact tools.

Fig. 6 is a section along the line VI-VI in Fig.5.

Fig. 7 is a section along the line VII-VII in fig. 5. Fig. 8 is a section along the line VIII-VIII in the aforementioned figure... Fig. 9 is a schematic section of an anchor pile according to the invention, which comprises a quantity of resin and pyrotechnic devices to achieve a deformation of the pile along fracture lines in the lower part to drive the resin out through the deformed parts after the firing in order to reinforce the anchoring of the pile in the ground. Fig. 10 is a section of an anchoring pile according to the invention, which is equipped with a quantity of resin and compressed gas and devices for releasing the resin under the influence of the gas, in order after firing to reinforce the anchoring of the pile in the ground. Fig. 11 is a section of the tip of the pile along the line XI-XI in fig. 10. Fig. 1 and 2 illustrate a pyrotechnic device according to the invention in an embodiment that can be used on the earth's surface. This device can be used either to anchor piles in the ground or to push down tools to bring up solid soil samples. It consists of a cylindrical guide tube 1, which will guide the pile during launch. In the vertical position, it comprises in its upper part a top piece 2, which consists of 2 parts, 2/22 placed in each other.

The top piece 2 has a cylindrical shape, so that the two parts 2-j_/22 are coaxial.

The guide tube 1 includes a thickening eh in its upper part, so that a shoulder, a, is formed, and fits together with the part 22 in the top piece, which is cut out, in the center to make room for the guide tube l, which rests on the shoulder a, on a other shoulder 22a produced in the top piece..

The part 22 in the top piece comprises a peripheral gap 22b produced in the inner surface of the wall, and in this gap a sealing ring 3 is placed. The part 22 is threaded along its outer periphery, so that strong threads with a trapezoidal cross-section are formed.

The part 2^ has in the center a cylindrical space 2j_a, which is threaded along its inner circumference in the open end 2]_b, so that threads are formed which correspond to the threads in part 22, and which thus make it possible to screw the two parts together <2>1/22.

The top piece 2 is equipped with a removable piece 4, which is equipped with a central, cylindrical space 4a, which can receive a cartridge 5.

The upper wall 2]_c of the part 2^ is provided in the center with a circular opening 2-^d, and the removable piece which is cylindrical is through the part 4b adapted to the said opening 2^d. The piece 4 comprises a large diameter part 4c, which is connected to the part 4b by a conical piece 4d, and is adapted to the part 22i of the top piece which it closes completely. The part 4c is at the bottom on the same side as the pile 6, aligned with an annular gap 4e, e.g. with a rectangular cross-section where a seal 7 is placed, e.g. an annular gasket.

The movable part 4, is likewise equipped in the extension of the cavity 4a, and on the same side as the part 4c, with a cylindrical chamber' 4f, which is coaxial with the chamber 4a and opens out on the side of the pile 1. This chamber 4f, constitutes expansion ion chamber for gas.

The top piece is equipped in its upper part with a device for firing 8, which is known in and of itself.

The guide tube 1, comprises in its lower part, recesses where certain lb, are perpendicular to the generatrixes in the tube, and others lc, are inclined in relation to the said generatrixes.

The system 1, 2 and 8 is carried by a beam which can be attached to a vehicle, so that the end of the pile is at a distance from the ground that is at least equal to its length to avoid reaction with the ground when the pile is driven in.

The part 6 is cylindrical and in its upper part is equipped with a pile head 10. The lower part 6 is pointed and has the shape of a pointed arch.

The outer diameter of the pile 6 is altogether smaller than the inner diameter of the guide tube 1.

The upper part of the pile is threaded at 6b, so that the pile head 10 can be attached, the threading 6b extends below the pile head so that after driving, the anchoring of the pile in the ground can be improved by screwing the head 10, or against a support plate that will be described in what follows.

The pile holder 10 is in the form of a cylindrical piece which is pierced in the centre, and threaded so that it can be screwed around the pile 6, the said piece has an outer diameter which is slightly smaller than the inner diameter of the guide tube 1, in order to guide the end of the pile during firing, and likewise center the pile in the guide tube.

The head 10 is equipped in its upper circumference with a notch 10a, which, when the pile is placed in the guide tube, rests against the shoulder ld, which is produced in the reinforced part of the guide tube.

To introduce the pile 6 into the device, the two elements 2]_/22 of the top piece are separated, the pile 6 is guided into the guide pipe 1, a cartridge 5 is placed in the removable piece 4, which is placed on the pile head 10, and this the piece 4, is centered using the element 2 2 in the top piece.

As a function of the ejection force for the pile that one wants to achieve, one can place, in the gas expansion chamber 4f, one or more metal discs to vary the volume.

One also creates the closeness of the connection between the collar 10a and the main part of the head 10, a zone of less resistance 10, by producing a gap from the upper surface of the head of the pile and where the depth is determined according to different parameters: type of metal that the pile head 10 is produced by, the desired launch kr.aft, the volume in the chamber 4f, and the strength of the cartridge 5.

In order to cut off the collar 10a, there is another gap 10d below this, which lies up to the collar and which is produced in the circumference of the pile head 10.

The density in the chamber 4f is achieved by means of a

ring gasket 7.

The pile 6 is likewise adjusted with a ring 11, which is fixed around the pile, but which can make a relative movement in relation to it. This ring has the shape of a "reel", to form two projections lia, located at the ends of the reel. The projections 1a have a diameter which is slightly smaller than the inner diameter in the pipe 1, so that the pile 6 can move in the pipe. The special shape of the ring 11 ensures good control of the pile, while reducing rubbing during shooting. This ring 11 is made of a soft metal, e.g. in lead, to likewise act as a damping device at the moment the head 10 comes into contact with the ground. From the beginning it is placed approximately on the lower 3rd part in relation to the length of the pile 6. From the launch and until the ring meets the ground, the pile 6, under the influence of the residual force in the gas, will continue its penetration into the ground as it slides in ring 11.

The ring 11 also acts as a device to

prevent strong bending when the pile comes into contact with the ground.

The lower end of the part is equipped with a tip 6a, in stainless steel, with a safety pin 12, and is equipped with a central recess 6c, at a distance of approx. 10 cm from the lower end. In this recess 6c, there is placed an explosive microcharge 13, which is fired by means of a micro sinker to cause expansion of the pile in the ground after penetration, and to ensure attachment and good hold in the longitudinal direction of the pile.

As shown in fig. 1 to 4, the pile 6, at the end above the tip 10a and in the wall of the recess 6c, is provided with longitudinal slits 6d, which form fracture lines limiting the ties. These bands, which are deformed by the explosion of the charge 13, give this part of the pile the general shape of a

"lantern" due to the large openings between the bands and their outward deformation. The shape of the said part of the pile after firing is illustrated by dashed lines 6e, in fig. 4.

In order to improve the fixing of the pile especially as a function of the nature of the ground, and cracks that can be created by the explosion of the microcharge 13, it has also been envisaged to fill the lantern with a synthetic resin which hardens in water.

In order to ensure injection of this resin, the pile, according to an embodiment illustrated in fig. 4, preferably equipped with a central line 6f, which extends from the upper end to the cylindrical recess 6c, which forms a cylindrical space 6g, where the line 6f opens.

A threaded plug 6h is screwed into an internally threaded recess at the upper end of the wire, and this is closed in its lower part by means of a disc 6j, made of metal with little resistance, e.g. aluminum. A pre-charge 14 is placed in the cavity 6g, between the disc 6j and the charge 13. This pre-charge must absorb part of the shock wave since the explosive material acts radially and not axially to produce the "lantern".

After firing, the plug 6h is unscrewed, and the resin is injected through the central conduit 6f, and the resin, which first occupies the cavity deformed by the charge 13, flows out through the openings limited by the bands 6e, and infiltrates cracks and cavities 15, which is created in the ground by the explosion, which, around the entire pile 6, forms a zone occupied by resin, which, after hardening, ensures a connection between the pile and the ground.

Fig. 10 and 11 illustrate another embodiment of the pile 6, without an expansive head, and this consists of a tube which is threaded at one end to receive the pile head 10. The other end is equipped with a cylindrical recess 6u, and is closed of a cover consisting of eri metal disk 6p, welded to the pile, and which limits a cylindrical chamber 6q. This chamber 6q, is closed in its upper part by a piece 41, which forms a valve holder, and the piece is screwed into the pile on the side of the head 10. To place the piece 41, the internal cross-section of the pile is enlarged, and threaded, and forms a shoulder 6v, against which the piece 41 rests. The piece extends down to the chamber 6q, and is equipped with a peripheral gap 41a, where a sealing ring 43 is placed.

The piece 41 is pierced and threaded in the center to receive a valve 42. A shutter 40, in the form of a cylindrical plug, is screwed into the pile, and covers the valve 42. This plug 40 is to protect the valve during firing, and after be screwed in, it is level with the upper part of the pile.

The tip 6a has a cylindrical space 6t, the inner diameter of which is somewhat larger than the outer diameter of the recess 6u on the pile, and this is partly led into this cavity 6t. The cavity is extended by a coaxial cylindrical part 6w, which forms a shoulder 6x.

The tip is equipped with 4 slits 6s, made perpendicular to each other (fig. 11), which open into the cavity 6t,

and likewise a perforating device 6r, coaxial with the tube and the tip, and encapsulated in the tip. The perforation device 6r is in the form of a cylindrical rod, which is perforated in the centre, so that a tubular part is formed, and

this is led into a non-through cutout 6y, i

. the tip. This tubular part is cut obliquely at 6r at the end, and it is placed near the lid 6p. This perforator likewise comprises cutouts 6^ along the circumference, e.g. in a number of 4.

As shown in fig. 10, the tip before the launch is fixed by gluing to the recess 6u, and is located at a certain distance from the shoulder 6z, so that it can slide until it comes into contact with this shoulder, after the adhesive connection has been broken after the launch.

The shoulder 6x, forms due to the incisions 6s, 4

edges against which the pipe rests during launch.

Before it is placed in the top piece 2, the piece 41 is pulled out, and the chamber 6q in the pile is filled, e.g. with 20 cm<3>

of a synthetic resin which hardens under the influence of moisture 39. The piece 41 is then placed again in the cavity.

By means of the valve 42, the upper part of the chamber 6q, which is without resin, is filled with compressed air to pressurize the resin 39. For a pile with a diameter of less than 16 mm, and for a depth of 20 meters and a volume of 20 cm<3>in the gas chamber, a pressure of

20 bars.

The protective plug 40 is placed over the valve 42.

When the pile hits the ground, the per liner device 6r, which is attached to the tip 6a, will penetrate the disk 6p, which holds back the resin 39. The overpressure created by filling the available volume with compressed air (approx. 20 cm 3), produces a forced injection of resin that passes through the openings 6r2 and the incisions 6s, and penetrates into the exterior and around the pile, and reinforces its anchoring to the ground.

Another embodiment of the pile 6 with an expansive head according to the invention is illustrated in fig. 9. The pile 6 consists of a tube, and a pile head 10 is attached to the upper end of the tube. This is screwed to the pile through a thread which is produced in the outer periphery of the pile. The pile is equipped at the other end with a tip 6a, the pile is also internally equipped with a partition wall 6k, which divides the internal volume into 2 parts and forms 2 chambers 6m and 6c. This dividing wall 6c is placed on the side of the tip 6a, and consists of a kind of ring, placed in the tube and attached to it, e.g. by means of 4 cylindrical pins 6k]_, placed in a cross and extending radially. Each pin passes through an opening in the tube, and a non-through cut in the ring. The ring is equipped in the center with a wire of small cross-section 61, which extends coaxially with the pipe, and which on the same side as the chamber 6m is closed with a lid 6j, made of metal with low resistance, e.g. an aluminum alloy.

The aforementioned lid is e.g. glued to the ring 6k..

The chamber 6m, in its upper part on the side of the head 10, is closed by a lid, 35, which has the form of a cylindrical plug, which is threaded around the circumference and screwed down into the tube 6, which also has an internal thread. Said chamber 6m is filled with a synthetic resin which is a polymer in serbar in contact with water.

The chamber 6c, which has a much smaller volume than the chamber 6m, encloses an explosive charge 13, and devices for igniting this: a microfor sinker 44, and a blast cap 45, which is affected by an impact between the pile and the ground by means of an igniter 6a ^, attached to the tip 6a.

As the pile described in fig. 4, the pile 6 has, above the tip 6a, and in the walls of the chamber 6e, longitudinal slits 6d, which form fracture lines to produce deformation of the pile and secure the anchoring. The space between the explosive charge 13 and the ring 6k is completely filled with 3 disks 37/38/37]^. The disks 37/37}. is felt for charges, and disc 38. is in polystyrene foam.

For an internal diameter of the piles less than 16 mm, e.g. the precharge 37 has a thickness of 5 mm, the disk 38 a thickness of 10 mm, and the disk 37 a thickness of 15 mm. These discs have to. purpose of dampening the shock wave in the chamber containing the synthetic resin 36, at the moment of explosion of the charge 13 which is to produce expansion of the pile.

The effect of the pile in this embodiment is to force the resin 36, originally contained in the chamber 6m, upon explosion of the charge 13, to pass through the gap in the wall of the chamber 6c.

The gas pressure created by detonating the charge 13 is used in part to spray resin out of the pile. However, it is necessary, on the one hand, to suppress the effect of the shock in the direction of the pile head 10, which is achieved by means of the plates 37/38/37^; on the other hand, it is necessary to reduce the gas velocity from the explosion of the velocity 13. The reduction of the gas velocity is achieved by means of the ring 6k, which, since it is placed between the charge 13 and the chamber 6m filled with resin, acts as a nozzle . The ring 6k, due to the central line 6e, which has a small cross-section, allows to vary the gas velocity on each side of the ring in proportion to the cross-sections present, since the amount of gas from the explosion is the same at the entrance and exit of the line 61.

After the impact between the pile 6 and the ground, the tip 6a, with the help of the igniter 45 and the micro-delay 44, will produce an explosion of the charge 13. Part of the gas pressure created by the explosion is used to cause the resin 36 to flow out of the pile and around this, and into cracks and cavities in the ground, in order to increase the anchorage between the pile and the ground after hardening.

Fig. 3 shows a device according to the invention in its "underwater" version.

In this figure, the references 2, 4, 6, 8 and 10 are the same as those described in fig. 1, 2 and 4.

As in the "ground" version, the steering tube includes 16,

in its upper part a thickening 16a, which forms a shoulder which can rest against the shoulder 22a, in the element 22 in the top piece 2. The said pipe 16 is equipped at its lower end with a sleeve 17, which e.g. is screwed firmly around the pipe. The tightness between the pipe and the sleeve is ensured by a sealing ring 18, placed in a gap 17a, which is made in the inner circumference. the muff. This has a part 17b with a much larger diameter which forms a bottom piece. This bottom piece is equipped with a line 17c which extends vertically on the longitudinal axis in the sleeve, and where a valve 19 is screwed in, which is equipped with a sealing plug 19a. The valve 19 occupies part of the line 17b. The sleeve 17a, likewise in its lower part, a coaxial, ring-shaped breast, 17d, which defines a shoulder 17e. This breast 17d, limits a conical "entrance" 17f, which forms a cavity which can be occupied by a cover 20, which closes the guide tube 16, in its lower part.

This lid is made of ink, and forms a conical plug which interacts tightly with the cavity 17r, which has a peripheral gap 17g, where a sealing ring 21 is placed.

Before the device is used on the seabed, it is necessary that the inner volume of the guide tube, where the pile containing the charge 13 is placed, is completely dry.

The purpose of the valve 19 is to control the tightness in the control tube 16, by creating a relative vacuum in it, e.g. in the order of 500 millibars.

Lure 20, destroyed during firing.

The device is placed on the bottom using a base plate 22, which e.g. can be circular, and this has in the center an opening with a circular cross-section 22a, with a. diameter which is larger than the outer diameter of the pile 6, so that this can pass. The plate 22 likewise has a cavity in the center coaxial with the opening 22a, which can receive the annular breast 17d, in the sleeve. The plate 22 is likewise equipped with spikes 22c, or other similar devices, to secure the attachment in the transverse direction, and likewise anchoring rings (not shown).

The reaction effect with the ground when firing in a watery environment is held back by means of an anti-recoil wing 23, attached to the top piece 2. This wing is e.g. produced in a metal plate, and has a circular shape. The said plate extends, in one embodiment, in a plane perpendicular to the longitudinal axis of the device and is attached to a ring 23a, which, with a small clearance, encloses 2-^ in the top piece 2. Radial jacks 23b, with a triangular outline, secure at using welding, the connection between the plate 23 and the ring 23a.

The anti-recoil wing is attached to the top piece by means of several screws 24, e.g. a number of 4 or 6,

which goes through the plate and which is screwed into recesses in the top piece.

This is equipped with a centering shoulder 2jd,

for the plate, and this has a central opening which can cooperate with the aforementioned shoulder 2-^d.

The system 17/16/2/8 and 23 is attached to a three-legged stand 9, which has a collar 9a, with a blocking device 9c, with a sliding rod 9d. The feet 9b,• are mounted so that they can tilt around hoops 9e, so that they can assume an inclined position during installation; of device in firing position, or they can be folded back along the guide tube 16, when the device is not in use.

In fig. 5-9 shows another embodiment of the invention, based on the same principle, but illustrating a device called a "fall hammer", for driving anchor piles or impact tools into the ground.

The devices 2/4/8/9/10/16/17/19 and 20 are not described, since they are largely identical to those already described.

In this embodiment, the pipe 16 secures the steering

of a cylindrical mass of steel 24. The other diameter is somewhat smaller than the inner diameter of the guide tube 16, and is equipped at its upper end with a thread to which the head 10 is screwed with its clippable collar. This cylindrical mass 24, is

hollowed out in its central part 24a, which is occupied by a material 25, with great density, e.g. lead, to make the mass heavier.

The anti-recoil wing 26, which is attached to the top piece 2, has the shape of a cone, and the wall diverges from below upwards. The wall 26, which is in contact with the top piece 2, has a circular opening which makes it possible to center the wing and the top piece, and which cooperates with the shoulder 2^_ d. The fastening of the wing to the top piece takes place by means of screws 27 in a number of e.g. 4-6, which go through the wall 26a, and which are screwed into recesses in the top piece.

The conical side walls of the wing are pierced by a series of holes 26b, with small dimensions and which are distributed over the entire surface.

The conical shape of the wing has the purpose of allowing an axial immersion of the device in an aqueous environment, and this immersion is further promoted by the presence of the aforementioned holes 26b, through which the water can circulate during the immersion.

The pile or weights to be driven down are placed

in the extension of the pipe 16.

In fig. 5 shows the device according to the invention where an impact tool 28 is to be driven into the subsoil below the sea surface.

In the requirements, the term pile is used whether it is a pile or an impact tool.

The impact tool 28 is in the form of a tube, and has in its upper part a head called "anvil" 29. This head has a recess 29a, in its lower part, and can be removed after it has been placed in the tube 28.

The upper part of the head is cut out so that a cylindrical, open cavity 29b is formed, where there is. positioned so that it occupies the entire cross-section, a stop disk 30, made of compressed leather or similar material, which is to act as damping, and this material is overlaid with a metal disk 31, which is to distribute the impact force on the mass 24. The disk 31, which consists of a piece that can be removed separately, they are placed in l-wise down into the cavity 29b.

As shown in fig.5, the head 29, placed together with the plate 30 and 31 against the lid 20, which covers the guide tube 16 in its lower part, and the guide tube 16, the mass 24 and the pile 28 are coaxial.

Maintenance of this position is ensured by

by means of a cylindrical frame 32, which encloses the guide tube and the pile, and this frame has an inner diameter which is somewhat larger than the outer diameter of the sleeve 17, so that one can slide in relation to the other.

In its lower part, the frame 32 has for steps.4 centering buttons 32a, placed in a cross (fig. 8), which extend towards each other 2 and 2 in the interior of the frame.

The said knobs 32a are fixed to the cylindrical ring in the frame, and the free end is made so that the system of buttons limits a circular opening 32b, which is coaxial with the ring, and where the pile 28 is placed.

The pile which is centered in relation to the guide tube 16,

is fitted slidingly in the frame. This further has in its upper part another circular centering cam 33, which is pierced in the middle to receive the pipe 16, and this cam is

adjusted around the steering tube, so that it can slide around it. The frame 32 has a conical "entrance" 32c. The cam 33 is likewise conical, so that it fits in the aforementioned entrance 32.

Along the periphery, the pile 28 has a continuous stop edge 28a, against which the frame rests.

A three-legged stand, not shown, is of a . type shown in fig. 3, freely encloses the pile 28 below the aforementioned stop edge 28a.

Before firing, the device is placed in the 3-part stand, the firing device 8 in the cartridge is armed, the mass 24 is placed in the upper part of the guide tube 16,

in contact with this through the clip-off collar in the head 10. A relative vacuum is created in the pipe 16 by connecting the valve 19 to a vacuum pump, the anvil 19, on

the pile 28 is placed in contact with the intermediate piece 31, against the lid 20, which closes the pipe 16.

After the cartridge 5 has been fired, and the collar 10a has been broken, the mass 24 is brought to the pile 28, which it brings down by striking the lid 20 and the intermediate disc 31.

The anvil 29 is separated from the pipe, and taken up together with the mass, the plates 3.0/31 and possibly the lid in the frame 32.

The lid 20 can possibly be placed when firing again.

The effect of the arrangement according to the invention is as follows:

The volume of gas created by burning the gunpowder

in the cartridge 5, is held back by the expansion chamber for gas 4f, and produces in this chamber a pressure increase. When this pressure reaches a threshold, a force is produced which ensures the shearing off of the collar 10a, in the head 10, attached to the pile 6, or to the mass 24, and which is placed in the guide tube 1/16, this head is in contact with the shoulder ld , placed at the level of the part 22 in the top piece 2, the guide tube 1/16 likewise constitutes a chamber which holds back the gas. The guide tube 1/16 can thus be compared to a diffuser where the gas flow that takes place between the chamber 4f and the guide tube 1/16 has

a negligible loss. Kinetic energy in the gas is almost completely converted into pressure in the control tube, where the volume increases as the pile 6 is driven forward. This gas relaxation

gen suppresses any effect of the shock wave on the outlet in the guide tube 1/16.

Claims (20)

1. Pyrotechnic device for anchoring piles and similar objects in the ground, comprising a top piece (2), equipped with a firing device (8), for a cartridge (5), and extended downwards, by a guide tube (1/16), which at its lower end is equipped with devices for removing air contained in the pipe (.1/16), characterized in that the pipe (1/16) can receive either a part (6) or a movable mass (24), for to drive the aforementioned pile (28) and in that the pile (6) which is introduced into the guide tube (1/16) or the mass (24) has a head (10) at its upper end, which has devices that can be cut off (10a) , to hold the pile (6) or the aforementioned mass (24) in the tube (1/16) before firing, so that the head (10) is kept in contact with the top piece (2), which is equipped with a cavity (4a), for the said cartridge (5), and this cavity is extended on the same side as the location of the head (10) by an expansion chamber for gas (4f) which is limited in its lower part by the said head (10), the device further has internal tnings (4e/7) to ensure tightness in -expansion chamber a for gas (4f) in the area at the connection between the head (10) and the top piece (2), and said chamber (4f) increases its volume at the moment of launch as the pile or the mass (24) is driven forward through the guide tube (1/16). 2. Device according to claim 1, where the head (10) along the periphery is equipped with a collar (10a), characterized in that the collar (10a) forms a shoulder which can be in contact with a circular chest (ld), which is found in the top piece (2), approximately at the level of the upper end of the guide tube (1/16), where said head (10) at the connection between the collar (10a) and the main part of the head has a zone of less resistance (10b) , so that at the moment of firing a separation is achieved by clipping between the collar (10a) and the main part of the head. 3. Device according to claim 2, characterized in that the head (10). has at least one groove (10c), which extends vertically on the connection zone (10b) in the collar (10a) and the main part of the body, where the depth of this groove (10c) is determined as a function of the volume in the expansion chamber for gas (4f). 4. Device according to claim 1, where the top piece (2) is made in at least 2 parts (2] _/22 ), which can be inserted into each other, characterized in that the cavity (4a) for the cartridge (5) and the expansion chamber for gas ( 4f), is made in a piece that is removable (4), located in the center of the top piece (2), and coaxial with the guide tube (1/16), where the removable piece (4) before firing rests against the aforementioned head ( 10). 5. Device according to any one of claims 1 - 4, characterized in that the pile head (10) is threaded and screwed to the upper end of the pile (6), which is likewise threaded, so that the threading (6d) along the periphery of the pile , extends under the pile head (10), when this is at the level of the upper part of the pile, in order to make the anchoring of the pile (6) in the ground better after firing, by screwing the head (10) to the pile (6). 6. Device according to any one of claims 1 - 5, characterized in that the pile (6) is equipped with a ring (11), placed approx. on the lower 3-part in relation to the length of the pile, which encloses the periphery of this, and which can slide with little clearance in the guide tube (1/16), where the mentioned ring (11) is made of soft metal, and is fixed around the pile (.6), so that a relative movement can be obtained between the ring (11) and the pile (6) at the moment of launch, and produce a damping effect at the moment when it is locked between the pile head (10) and the ground, to absorb excess energy produced by the charge. 7. Device according to claim 6, characterized in that the ring (11) has the shape of a "spool", which at each end is equipped with a breast (lia) to reduce friction and increase the steering of the pile (6) in the guide tube (1/16). 8. Device according to any one of claims 1-7, characterized in that the control tube (161) in its lower part is equipped with a sleeve (17), which in the extension of the tube has an opening (17f) coaxial with, Mette and where the opening is closed by a removable, tight lid (20) which is destroyed with each firing, and in that the sleeve (17) is equipped with a valve (191 and connection devices for a vacuum device to produce a vacuum in the control tube (16), and control the density before launch. 9. Device according to claim 8, which in its upper part is equipped with a wing (23/26), which forms a screen around the top thickness (21) to absorb energy developed by the charge during launch due to recoil, characterized in that the wing (26) has the shape of a cone where the wall diverges from below upwards, and in that the wall has a number of openings (26b) distributed along the periphery, so that the device can be more easily lowered into an aqueous environment before firing, mostly along the vertical axis. 10. Device according to any one of claims 1 - 9, where the pile (6) in its lower part has an end in the form of a pointed arc (6a), an explosive charge (13) placed in a chamber (6c) in the pile's axis, longitudinal section (6d) in the wall of said chamber (6c) which forms fracture lines and devices for firing the charge, where said chamber is located just above the pointed, arcuate end (6a), so that explosion of the charge produces rupture on the walls of the chamber (6c) along the aforementioned lines (6d), and outward deformation of the metal bands which limit these, to produce an out- bending of the pile in this area to secure the pile's anchoring in the ground, characterized in that the pile (6), which is tubular, on the same side as the pointed arch (6a) has a dividing wall in the form of a ring (6k) which has a central channel (61) of small cross-section, closed by a lid (6j) of metal with little resistance, against said ring, which is thus placed in the pipe, acts as a nozzle and limits on one side, between itself and the head of the pile ( 10) a chamber (6m), closed at the level of the pile head (10) by a removable lid (35), this chamber (6m) contains a synthetic resin (36), and on the other hand a chamber (6c) placed on same side as the pointed arc-shaped end of the pile (6a), and which contains the explosive charge (13) and devices for firing said charge, where this is separated from the ring (6k) by means of a precharge (37). 11. Device according to claim 10, characterized in that the explosive charge (13) is separated from the ring (6k) by means of at least one felt precharge (37) and at least one disc (38) of polystyrene foam. 12. Device according to any one of claims 1 - 9, where the pile (6) in its lower part has an end in the form of a pointed arc (6a), characterized in that the pile (6) which is tubular, on one side and on the same side as the pointed arc-shaped end (6a) has a partition wall (6p) consisting of a disc of small thickness which limits a chamber (6q) containing a synthetic resin, (39), and where in front of this disc is placed a perforating device (6r) which is attached to the pointed arc-shaped end (6a) and placed vertically on the disc (6t), so that the disc can be pierced at the moment when the pile meets the ground due to the relative movement of the tip (6a) and the pile, and on the other hand, at the level of the head of the pile (10), a removable cover (40) which closes the chamber (6qj in its upper part, and likewise means for bringing the resin into contact with a gas under pressure, to push the resin out through openings (6s) found in the periphery of the pointed arcuate end (6a). 13. Device according to claim 12, characterized in that the pile at its upper end and so that it can be protected by a lid (40), is equipped with a dividing wall (41) which forms a valve holder (42) to lead into the chamber (6q) a compressed gas (43) which is kept contained before firing in a part of the chamber (6q), which is between the valve holder (42) and the resin (39). 14. Device according to any one of claims 12 and 13, characterized in that the tip (6a) has a cavity (6t) in which the end of the tubular part of the pile (6) comprising the disk (6p), when placed before firing in near the perforator (6r), the tip (6a) is attached to the pile by gluing to keep the disc (6p) and the perforator (6r) in this position. 15. Device according to claim 14, characterized in that the perforator (6r) is coaxial with the chamber (6q) and in that the tip (6a) has the shape of a tube, which is cut at an angle at the end (6r^), placed near the disk (6p), and is equipped with openings (6r2 ) in the periphery to allow the resin to flow out after the pile is driven into the ground after perforating the disk (6p). 16. Device according to any one of claims 12-15, characterized in that the pointed arc-shaped end (6a) has longitudinal grooves (6s) which open into the cavity (6t) and likewise stop cams (6x) to prevent tight contact between the pile and the tip (6a), and to allow the flow of resin in said openings (6s). 17. Device according to any one of claims 4 and 8-16, characterized in that the pile (28) before firing is in the extension of the guide tube (16), where the mass (24) displaces, said pile (28) is in contact with the lid (20) which closes the sleeve (17), located in the lower part of the guide tube (16), through an independent, movable part (31), where the mentioned device further has devices (32) for before firing to bring the said pipe (16) and said pile (28) in the correct position, and control the pile during firing. 18. Device according to claim 17, characterized in that the setting of the pipe (16) and the pile (28) and their control takes place with the help of a frame (32) which encloses the guide pipe (16) and the pile (28) and in that the sleeve (17) along the periphery cooperates with the side wall of the frame (32), which is coaxial with the pipe (16) and the pile (29), where the lower part (32a) of the frame (32) forms a central opening (32b) where the pile ( 28) passes through and encloses this with a small clearance, likewise a centering cam (32) which slides in the guide tube (16) and closes the frame (32) in its upper part, and by the fact that the frame (32) rests against a stop edge (28a) ), which extends along the periphery of the pile (28). 19. Device according to any one of claims 17 and 18, characterized in that the head of the pile (29), which is called an anvil, is crimped onto the pile (28), and can be disconnected from it, and comprises in its upper part a central, cylindrical cavity ( 29b) coaxially with the pile (28) and the control tube (16J), where a damping disc (30) is placed which covers the bottom of the cavity, where this disc is placed on a metal disc (31) which is centered by the aforementioned cavity (29b), and which along the periphery interacts with the side wall of the cavity (29b) where said disc (31) is in contact with the lid (29). 20. Device in any of claims 18 and 19, characterized in that the mass (24) is in the form of a single cylinder with a diameter somewhat smaller than the inner diameter of the guide tube (16), where one end of said cylinder is threaded to receive the head (10) with detachable collar (10a), wherein said mass (24) is hollowed out in its central part (24a) where this part is occupied by a high density material (25) to make the mass heavier.