NO136770B - - Google Patents

Description

This invention relates to a submersible rock generator

one in a watertight house arranged for roking and ignition devices.

It is known that during surveys of the seabed it will be

used devices, e.g. photographic devices or sampling devices, and these are often of the type called "free-falling", which means that they are released from a ship to which they are not attached. Being attached to ballast and floats, the free-falling devices sink into the water under the action of the ballast and then come into contact with the seabed whereupon the ballast is released and the photography or collection of samples is done by means of various automatic devices which are not sTcally described here since they are not form any part of the invention. The device then rises to the surface under the action of the floats to

be collected.

The ship carrying out the collection of the devices, as usual

is the launching ship, is usually far from the survey device at the moment it reaches the surface, and it is necessary that the devices be equipped with marking means that allow their location from a great distance. These marking means are of various types, including radio beacons, flash generators, inflatable balloons, and rock generators. The present invention has a special connection with the latter type.

One of the purposes of the invention is to provide a submersible rok generator which will emit rok automatically when it reaches the surface of the water after having sunk to and retuxed from the seabed.

Another purpose of the present invention is to provide a device of this type which is waterproof up to depths of as much as 6000 m.

A further aim is to provide a device of this type which provides great operational reliability and is particularly protected against accidental release, e.g. as it is dropped overboard.

An additional object of the invention is to provide a roe generator where the development of the roe does not occur before the apparatus has actually reached the surface.

Another purpose of the invention is to provide an apparatus of this type which can be easily assembled and taken apart, and which can be reused many times.

In accordance with the invention, a submersible rock generator of the type mentioned at the outset has been provided, characterized by the fact that it comprises a release device arranged at the release end of the housing in which a connecting link can be connected to the arming position by means of an external hydrostatic pressure, which connecting links in the event of a fall of this pressure to approximately zero value ends electrical contact with a built-in current source for igniting an igniter cartridge; pyrotechnic transfer link for transferring the ignition to a smoke-generic mixture; and a closing cap that can be depressurized by means of the internal pressure arising due to the rok development from the rok outlet end, thereby releasing the rok outlet.

The firing control device preferably consists of an ignition cylinder made of metal which slides inside an insulating sleeve in said cylindrical housing and which is displaced between a standby position in contact with a collar formed inside the sleeve and a firing position in contact with a metal disc mounted inside, but electrically isolated from the cylindrical housing; an elastic member arranged to force the ignition cylinder toward the standby position; an ignition cap electrically connected to one end of the cylindrical housing and arranged so that at the other end it is in communication with a pole of an electric element; and means for connecting the second pole of the electric element to the ignition cylinder.

The elastic element indicated in the previous paragraph preferably comprises a tension spring of metal firmly attached at one end to the ignition cylinder and at the other end - to a second metal disc which rests against a shoulder formed in the insulating sleeve.

In this case, the means for connecting the second pole of the electric element or the battery electrically to the ignition cylinder comprises the metal spring together with a connecting wire and a pressure spring of metal arranged between the second metal disc or plate and the second pole of the electric element. This compression spring also serves the purpose of forcing the element against the ignition cap and holding the other metal disc against its shoulder.

Said means for influencing the firing control device preferably comprise a sleeve which is screwed to the end portion of the cylindrical housing and which has an axial bore with an outer conical recess; a control pin slidably mounted in the axial bore of the sleeve and terminating in a conical portion projecting toward the interior of the cylindrical housing; two resilient blades which are fastened together along the greater part of their length and which are fixedly attached at one end to the firing control device and separated in a V shape at the other end, having openings near this end suitable for holding the projecting edges of the conical part; and an elastic cover which closes the sleeve and the corresponding end of the cylindrical body and which, when under the influence of external pressure, is arranged to take the shape of the conical recess in said sleeve and to force the guide pin inwards, the guide pin being fixed attached to said elastic cover, e.g. when plugging in.

It will be understood that when the rock generator apparatus according to the invention sinks towards the seabed, the hydrostatic pressure exerted on the elastic cover will hold the cover against the conical recess in the sleeve which is screwed onto the outer end of the cylindrical housing, and at the same time the guide pin will be forced towards the inside of the -arrangement. The projecting cone of this pin is then secured between the resilient blades without the rest of the firing control device being moved from its standby position.

As the apparatus rises to the surface after the discharge of the ballast as previously mentioned, no roll develops because the elastic cover continues to hold the guide pin in position due to the action of the external pressure. However, when the device reaches the surface or just before it reaches the surface, the hydrostatic pressure drops to something close to zero and the elastic cover resumes its original shape and pulls the guide pin which pulls the blades it is caught in and thus pulls the firing device towards its firing position. The rook-forming mixture is ignited as will be described below, and the development of rook begins.

It is thus clear that rok develops automatically when the apparatus returns to the surface without any external control device being necessary.

The elastic cover mentioned above is conveniently made with a gripping groove in its flat outer surface where a rigid protective plate is inserted which has at least one hole. -Thus it is almost impossible to trigger the firing device unintentionally by e.g. to drop it into the water: If pressure is inadvertently exerted on the release end of the device according to the invention, the rigid protective plate will prevent the transfer of this pressure to the control elements.

In one embodiment, the rook development device comprises a metal cover which closes the corresponding end of the cylindrical housing;

an elastic cover that closes said metal cover and part of the cylindrical housing; a through-holed cup-like part which is arranged so that its base faces -inwards -in-the .cylindrical housing between the charge of said root-forming mixture and said metal cover with an_ring-shaped gasket between.

The smoke formed by the smoke-forming mixture thus escapes through the funnel in the cup-shaped part after having pushed back the metal cover and the elastic cover covering that end of the apparatus.

The means for igniting the propellant mixture when the firing control device is moved to the firing position preferably comprises a pyrotechnic delay device such as a slow fuse installed in an axial rudder extending from the igniter cap toward the propellant mixture; a pyrotechnic connecting element and an intermediate combustible substance between the fuse and the combustible mixture; means for connecting the space between the slow fuse and the axial rudder to an annular groove located inside the cylindrical housing; a sealing part which externally seals the annular groove; and an elastic sleeve which encloses ^the cylindrical housing on .each side of the sealing part.

This arrangement -allows gases produced by the burning of the slow fuse to escape which is important for even combustion. The effect of the slow fuse is to provide a delay between the time when the shot is released and the time when the development of the hook begins. In reality :the firing occurs somewhat before the -apparatus has reached the surface, and that

is correct -to prevent ignition of the smoke-forming mixture under water in order to -prevent the risk of extinguishment. Finally, the medium serves to aid the ignition of the smoke-

forming the mixture.

The cylindrical body is advantageously constructed from two parts

which is inserted into a cylindrical coupling part with a gasket in between, these two parts being held in position by means of a nut. It will be understood that this arrangement facilitates assembly and disassembly of the device according to the invention which can be used again after replacing e.g. the pyrotechnic substances.

An exemplary embodiment of the present invention shall then be described with reference to the accompanying drawings, of which: Fig. 1 shows one end of the rock generator apparatus according to the invention in longitudinal section; Fig. 2 shows the central part of the apparatus also in longitudinal section;

and

Fig. 3 shows the other end of the device, again in longitudinal section.

The submersible rock generator apparatus according to the invention is shown

in three parts in the drawings. In each of the drawing's figures, the parts are given the same reference number. The drawings show that the rock generator apparatus comprises a cylindrical housing consisting of two parts-la and lb made of a metal which is resistant to corrosion by water, such as an aluminum alloy containing magnesium. The release elements are like one. whole denoted by 2 in fig. 1, reference number 3 denotes an electric element or battery (fig. 1), and a charge of smoke-forming powder 4 is shown in figures 2 and 3. Elements for the discharge of smoke formed by the powder charge 4 after firing are designated under one with 5 on fig 3. To simplify the description, the expressions "release end" will be used for the part shown in fig. 1, and the term "rock-extending" will be used for the part illustrated in fig. 3. The terms "inside" and "outside" are used to denote the inside and outside of the appliance as a whole.

The releasing elements 2 comprise a control housing 6 which has an outer conical recess and which is screwed into the end of the housing part 1a. The sleeve 6 has an axial bore in which a stud 7 is slidably mounted. Towards the outside, the stud 7 has its head attached to an elastic cover 8, preferably of vulcanized rubber such as Neoprene, which covers the guide sleeve 6 and the outer part of the cylindrical housing la. On its outer surface, the cover 8 is equipped with a protective metal disk 9 which has a hole in the middle and which is held in a groove formed in the cover 8.

Towards the inside, the pin 7 terminates in a projecting conical part 10, the tip of which is placed inside a "V" formed by the end of two connected blades 11. An opening 12 is formed in each of these blades close to the point where they are bent outwards for to form a "V", and the size of these openings is such that when the conical part 10 of the pin 7 is pressed between the blades 11 so that these are spread apart, the base of the cone will be caught in the openings 12.

Inside the cylindrical housing part 1a, a metal contact disc 13 is held between the end of the control sleeve 6 and an insulating sleeve 14, which will be described later. The blades 11 are mounted on an ignition cylinder 15 made of metal which can slide inside the insulating sleeve 14 between the contact disc 13 and a first shoulder or abutment formed inside the sleeve. This cylinder 15 is forced away from the contact disc 13 by a tension spring 16 which is anchored in a metal plate 17 which is held against a second shoulder formed in the sleeve 14. Towards the rbkutlbpsend the sleeve 14 also contains an electric element or battery 3 whose positive pole is pressed into contact with a contact screw 18 by means of a spring 19 placed between the base of the element, i.e. its negative pole, and the metal plate 17.

Towards the working end of the device, a cartridge 20 is equipped with a filament 21 which is connected at one end to the contact screw 18 and at the other end to the cartridge's 20 metal sleeve.

The insulating sleeve 14 rests against a second shoulder formed inside the housing part 1a with an annular gasket 14a in between. The plate 17 is held in position by the tension spring 1-6 and by the compression spring 19, and the latter spring also holds the element 3 firmly in its housing. The attachment method for the cartridge 20 and its contact screw 18 will be described later.

The operation of this release system is as follows. When the rock generator device sinks below the surface of the water, the hydrostatic pressure will push the elastic cover 8 which is protected by the metal disk 9 against any accidental impact,

into the conical recess in the sleeve 6, and this moves the conical part 10 of the pin 7 between the blades 11 where it is caught as described above.

When the device rises to the surface again, the reduction in pressure on the elastic cover 8 will cause the tab 7 to slide outwards and pull the blades 11 and the ignition cylinder 15 with it. The ignition cylinder then comes into contact with the metal disk 13 so that the electrical circuit which includes the battery 3 closes. Starting from the negative terminal, this circuit includes the spring 19, the spring 16 -together with a connecting wire not shown, the cylinder 15, the disk 13, the cylindrical housing part 1a, the filament 21, and the contact screw 18.

The electric current through the filament 21 heats the filament so that it ignites and ignites the cartridge 20, which in turn ignites the root-forming powder.

The parts of the root forming part are illustrated in Figs. 2 and 3 and comprises the cylindrical housing part 1b mounted on the housing part 1a by means of a nut 22 and a coupling element -23. More specifically, the housing la icobling element 23 with an annular gasket 24 and a sealing disc in between, and the nut 22 between the housing part la and lb holds the whole in position; the nut 22 "has a shoulder which rests against the end of the housing part la. The connection between these parts is shielded by a sleeve 25 of synthetic material such as Neoprene.

The cartridge 20 is screwed into the coupling element 23 on the release side of the latter.

-The coupling element .23, which has an axial through opening,

is also provided with ventilation hole 26 which connects its axial opening with a groove 27 formed at the end of and in the inner surface of the nut 22. A metal disk 28 closes this groove 27 and rests on its other side against a shoulder or ledge formed in the sleeve 25.

A slow fuse 29 connects the cartridge 20 to the rocket outlet part of the apparatus, the fuse passing through an axial rudder 30 which leads into the bore of the coupling element 23 and which is firmly attached to this element. The rook-forming charge 4 is placed between the rudder 30 and the housing part lb.

The root-forming elements 5, shown in fig. 3, comprises a metal cover 3i which encloses the outer end of the cylindrical part 1b. The cover 31 is itself covered by a cover 33 which is made of synthetic material such as Neoprene and which also covers part of the housing part lb. A disc 34, in the form of an axially pierced cup, is placed with the base facing the housing part lb between the rock-forming charge and the cover 31 with an annular gasket 35 between.

In fig. 3, showing the end of the slow fuse 29 and the rudder 30, a medium combustible mixture 36 fills the outer part of the housing part lb. A connecting pyrotechnic element 32 ensures transfer of combustion between the slow fuse 29 and the medium mixture 36.

The way the rook discharge system works is as follows. Ignition of the cartridge 20, which occurs as explained above, ignites the slow fuse 29 which leads into the rudder 30. Gases released by the combustion of this fuse can escape outwards through the passages 26 by pushing back the disk 28 and the elastic sleeve 25.

The slow fuse ignites the connecting pyrotechnic ele-

ment 32 which in turn ignites the medium substance 36, and. also in this case the combustion gases can escape as previously mentioned by passing through the opening between the rudder 30 and the slow fuse 29.

Part: the medium substance 36 in turn ignites the rook-forming charge 4, and the rook which is thus formed and passes through the hole in the disk 34 blows away the covers 31 and 33. The rook then flows out of the apparatus. This flowing roe makes it possible to locate the position of the roe generator device far away from and thus easily recover the tll-hearing underwater submersible device.

Claims (10)

1. Submersible rock generator with a rock and ignition device arranged in a watertight housing, characterized in that it comprises a release device (2) arranged at the release end of the housing in which connecting link (7 - 12) can be connected to arming position by means of an external hydrostatic pressure , which connection links when this pressure drops to approximately zero value ceases electrical contact with a built-in current source (3) for igniting an ignition cartridge (20); pyrotechnic transfer links for transferring the ignition to a rbk-generating mixture (4); and a closing cap (31, 33) that can be depressurized by means of the inner pressure arising due to the rbk development from the rbkutlbpsend and thereby released. 2. Smoke generator in accordance with claim 1, characterized in that the functionally designed housing consists of two parts (la, lb) both of which are pushed together and held together by a nut (22) in or on a cylindrical connecting piece (23) with a seal between. 3. Rock generator according to claim 1 or 2, characterized in that the release device (2) has a sleeve (t>) inserted into the end of the tubular housing part (la), which sleeve's outward-facing end surface is "provided with a central, conical depression which is covered of the membrane-like end surface of a cap 18) which covers the housing end, and which sleeve -furthermore exhibits a central, axial bore which accommodates a pin (7) which is fixed to the inside of the cap (8) by means of a plate placed on its outer end ) membrane surface and which at its inner end is provided with a protruding end cone (10) in relation to its diameter which can be retained in the opening (12) of the V-shaped deflected end of slats (11) which over most of its length lies against each other, the other end of the slats (11) being connected to a reinforcing cylinder (15). 4. Rock generator according to claim 2 or 3, characterized in that the metal reinforcing cylinder (15) is slidably arranged in an electrically insulating sleeve (14) inserted in one tube-shaped housing part (la) and rests against an inner shoulder in the sleeve ( 14) under the action of an elastic return member (16) in the initial position and in the release position rests against a metal disc (13) which is in electrical contact with the housing. 5. Rocker generator according to claim 4, characterized in that the elastic return member consists of a metal tension spring (16), one end of which is connected to the reinforcing cylinder (15) and the other end of which is connected to a second metal disc (17) which rests against the shoulder in the insulating sleeve (14), that the electrical connection means between the second pole of the electric current source (3) and the arming cylinder consist of this metal tension spring and of a metal compression spring (19) which is inserted between the second metal disc (17) and the second pole of the electric current source (3), which presses the electric current source (3) against the ignition cartridge (20) and which holds the second metal disc against its abutting shoulder. 6. Rock generator according to claim 4 or 5, characterized in that the insulating sleeve (14) is blocked in the cylindrical housing (1) against one end by means of the threaded metal disc screwed into the cylindrical housing body (la) ( 13) and at its other end is retained by an 0-ring (14a) supported against a shoulder in the cylindrical housing. 7. Rock generator According to claim .3., characterized in that the elastic cap (8) has an annular groove on its outer end surface, in which is inserted a rigid protective disc (9) provided with at least one hole. 8. Rock generator according to claim 3, characterized in that the elastic slats (11) are attached as a piece to the reinforcing cylinder (15). 9. Roe generator according to one of the preceding claims, characterized in that the cover cap that closes the roe outlet of the housing part (lb) comprises a metal cap (31) that encloses the end of the cylindrical housing (lb) and an elastic cap (33) that encloses the metal cap and a part of the cylindrical housing 10. Smoke generator according to one of the preceding claims, characterized in that the means for igniting the rbk-generating mixture consist of a pyrotechnic fuse (29) and a device that allows the escape of the fuse's combustion gases, which device in turn has a of the housing part (lb) arranged and in connection with the pyrotechnic fuse standing ring groove (27) as well as a sealing disk (28) which closes the ring groove outwards, and an elastic sleeve (25) which encloses the housing body on both sides of the sealing disk.