US3031963A - Priming apparatus for detonating underwater explosive charges - Google Patents

Priming apparatus for detonating underwater explosive charges Download PDF

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Publication number
US3031963A
US3031963A US18369A US1836960A US3031963A US 3031963 A US3031963 A US 3031963A US 18369 A US18369 A US 18369A US 1836960 A US1836960 A US 1836960A US 3031963 A US3031963 A US 3031963A
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depth
balls
priming apparatus
head
bolts
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US18369A
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Jose Mena Y Vieyra De Abreu
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F42AMMUNITION; BLASTING
    • F42CAMMUNITION FUZES; ARMING OR SAFETY MEANS THEREFOR
    • F42C5/00Fuzes actuated by exposure to a predetermined ambient fluid pressure

Definitions

  • the present invention relates to a new priming apparatus for underwater explosive charges, that is to say, a device for causing the explosion of an explosive charge, generally called a depth bomb, which when launched into the water explodes, upon reaching a predetermined depth.
  • the new priming apparatus may be set to explode the depth charge at a variety of depths, such precision having been obtained in the priming apparatus that it can be regulated to explode the charge even within the range of a meter, when this is deemed convenient.
  • the priming apparatus thus triggers the explosion of the general charge as soon as the latter attains the desired depth.
  • the setting mechanism is reversible at any moment, so that, when the indicator 'of the mechanism I points to a particular depth of explosion, it is possible to increase or'decrease the depth setting, or to set the mechanism to the safety position, it will suffice to rotate the setter, causing it to mark a subsequently chosen depth, or to assume the safety position, on a numbered dial without the need of any further operation.
  • the present invention is characterized by the simplicity of its mechanism, and also great accuracy of its performance, as confirmed by a multitude of tests in workshops and laboratories, and in all cases ratified by optimum results of tests made underwater.
  • the invention even permits the priming apparatusto be coupledto the explosive charge without any risk what soever, because the detonator, which initiates the explosive charge, can be keptseparated from the priming apparatus,
  • the priming apparatus being provided in the first instance with a handling and carrying safety device to preventall action while said .device is incorporatedin the apparatus.
  • a second security element called the inertia safety device is also provided, and tends to block action of the 3,031,963 Patented May 1, 1962.
  • FIG. 1 represents in vertical mid-section the priming apparatus, coupled to a small depth charge or underwater mme;
  • FIG. 2 represents on an enlarged scale a part of the section shown in FIG. 1 in which the depth setter occupies the safety position, to provide handling and carrying safety;
  • FIG. 3 is a perspective view of the triggering element of the priming apparatus with its detonator holder
  • FIG. 4 is a broken vertical mid-section of the priming apparatus illustrating the manner in which the inertia safety device blocks the mechanisms, preventing descent of the triggering element; 7
  • FIG. 5 is a similar vertical mid-section wherein the inertia safety device no longer blocks the descent of the triggering element of the priming apparatus;
  • FIG. 6 is a partial mid-section of the depth bomb illus- FIG. l2-is a broken longitudinal mid-section through the priming apparatus showing the detonator holder in contact with the obturator diaphragm;
  • FIG. l'af is a similar broken longitudinal mid-section illustrating the position of the parts at the moment of percussion.
  • FIG. 14 is a vertical mid-section through a valve cap which may replace the upper cap shown, inFIGS. 1, 2 and 11.
  • the priming apparatus comprises a head 7 and a tubular extension 13which is coupled with a depth charge or mine 12. by means of a thread 11,.whereas a gasket 23 is located between the head and the depth charge, to prevent passing of water therebetween.
  • the general explosive charge 14 is in the inside of the depth charge.
  • - 16 is situated in the form of a sleeve or stem. This is apparatus as long as the charge has not entered the water,
  • FIG. 6 shows these elements on an enlarged scale, and in FIG. 7 they are shown in detail.
  • the triggering element 26 (FIGS. 1 and 3) is a cylinder with a ground and polished external surface corresponding to the internal surface-of the extension 13, likewise ground and polished, so that the piston will slide smoothly and without sticking along the whole length of the extension, adjusted in such a way that when lubricated it does not permit the passage of water between both surfaces.
  • the internal surface of the element 26 is ground and polished in the same way, so that an inertia safety device 5 can slide smoothly along its inside, adjusted, however,
  • a depth setter 8 (FIGS. 1 and 2), which is formed as a cover or cowl and rests with its lower part on the head 7, remaining fixed to same by means of an annular throat 24 therein in which balls 25 are engaged, the same being lodged in bores in the head and pushed inwards by the action of spiral springs 9 compressed by screws 10.
  • the depth setter In order to separate the depth setter from the head it is suflicient to pull it strongly outwards, overcoming the resistance of the balls engaging the depth setter throat. Inversely, the depth setter will engage the head in order to be retained thereon in the above described manner.
  • the permanent fastening of the head to the depth setter can be obtained by substituting for any of the balls 25 and its spring 9 a longer screw 10, so that same penetrates the throat 24 of the depth setter, and thus immobilises same.
  • the flanges which prevent the balls from escaping from their bores may be replaced by a star-shaped or fluted profile so that the air and water can pass between the ball and the flange, thus preventing the ball from closing like a valve.
  • the spiral spring 30 is interposed, and is guided by the bolt stud 32.
  • This spring bears with one of its ends against the ball and with the other against the bolt stud 29.
  • the outer part of the bolt head is finished in spherical form in order to receive the round thrust of the depth setter 8, as the pressure of the spring forces the rounded part of the bolt 28 out of its housing.
  • the triggering element In the upper part ofthe triggering element are lodged several small balls 3, the diameter of which is greater than the thickness of the partition wall containing them, so that when introducing such part as the inertia safety device 5 into the inside of the piston, the small balls 3 project beyond the outer face of the triggering element, as can be seen in FIGS. 1, 2, 3 and 4. If on the other hand, the balls are pushed from the outer face and nothing prevents them from entering the inside of the element, the balls will project to the inner face. In both cases these balls do not leave their partition wall because the two faces of the bore which contains them have been flanged conveniently and in such a way as to permit the balls to move inwards or outwards, but Without being able to leave the wall in which they are disposed.
  • FIG. 4 shows the inertia safety device 5 preventing the triggeringelement 26 from descending, since the balls 3 pushed outwards by said inertia safety device, form a latch which impinges upon a step 4 of the head, preventing thus the descending of the element.
  • FIG. 5 shows the moment at which the inertia safety device has descended, pushed by the hydrostatic pressure, thus terminating its action on the two balls 3, which cannot act as a latch upon the step 4, because when they touch said step they slide inwards, permitting the triggering element 26 to descend.
  • FIG. '8 represents the inner part of the depth setter, that is to say, the piece which regulates the depth of the explosion, showing a double eccentric cam 27, which progressively extends its projection until its inner surface almost coincides with the diameter of the head.
  • the depth setter is slowly turned towards the left, the effective diameters of the cams gradually increase with respect to the bolts and thus the latter, through being pushed by their springs perform the reverse stroke, that is to say, from inside to outside until they reach the Zero position, where the cams do not exert any additional force upon the bolts.
  • the bolts extend a maximum distance out of their bores, and a minimum force is exerted upon the balls 33 by the springs 30.
  • the depth setter may be turned to vary the resilient force exerted upon the balls 33 whereby the hydrostatic force upon the triggering element 26 is opposed.
  • the force, thrust or pressure which in each case has to be applied to the triggering element so as to detach same from the balls which retain it, is definitely the same as the hydrostatic pressure necessary to break the resistance of the balls which are pushed by their-springs, under the action of the bolts compressed by the cam of the depth setter.
  • positions of the depth setter are determined, which correspond to any depth of explosion.
  • the depth of the explosion is fixed, as can be seen in FIG. 11.
  • the explosion cannot occur, because the descent of the triggering element 26 is held in fixed position as it is caught between the two balls which retain it.
  • FIGS. 8 and 9 show the position of the cams 27 and FIG. 10 shows also in a conventional manner the rogressive increase'in inward projection of both cams, which terminate in a substantially straight radial line.
  • both bolts are represented in the zero position, which corresponds to the positions shown in FIG. 1.
  • the bolts have been given appropriate dimensions in order that when the depth setter rotates and reaches the maximum thrust position on the bolts on their movement towards the interior, the latter almost bear upon their respective balls, which thus being unable to move back forms latching position with the triggering element in whose throat it is engaged, securing the position of the triggering element and preventing thus any displacement along the tubularextension. In this manner a further safety position is reached by means of the depth setter itself. By only effecting an inverse rotation the outward displacement of the bolt is started, thus giving rise to new operating positions, and the safety or closing position ceases.
  • FIGS. 1 and the depth setter appears in the zero position, that is to say, without any thrust upon the bolts, which thus occupythe position of maximum opening, because of their displacement towards the outside by the action of their springs 30.
  • the depth setter is shownin its safety position, wherein the bolts have been pushed towards the inside by the double excentric threads of the depth setter.
  • the bolt stud 32 buts or almost buts against its ball'33, in such a mannerthat the triggering element, as has been said, cannot be displaced along the bore of the tubular extension, because the balls 33, engage its throat 6 (FIG. 2) and hold same without any possibility of escape, as the ballscannot leave the throat of the piston.
  • the balls are pushedby their own bolts, which likewise cannot move back because the double cam of the depth setter pushes them inwards.
  • FIG. 1 shows, behind the left hand bolt, the cam 27 which, as can be seen in FIGS. 8, 9 and 10," decreases progressively in thickness in order to effect a simultaneous movement of the two bolts, due to rotation of the depth setter.
  • inward movement of the two bolts 28 is effected by turning the depth setter and its cams to the right, and opposite movement of the bolts is effected as the depth setter is turned to the left to decrease the thrust of the cams upon the bolts and permit the springs 30 to move the bolts outwardly.
  • the depth setter has been turned to the position illustrated in FIGS. 1 and.
  • FIGS. 1 and 2 show the carrying safety device, which consists of a simple spring whose two ends go through a ring 35 of the inertia safety device 5 and also through two holes 34 formed in upwardly extending flanges of the triggering element, thus preventing inward movement of the element 26.
  • the operation is as follows: Assuming the priming apparatus is coupled with the charge (FIG. 1), it is sufficient to operate the depth charge, causing it to mark the depth at which the explosion is to be produced on the graduated sector. After taking away the cap 1, the carrying safety device 2 is withdrawn by hand and the charge is launched into the water. As the latter sinks down, the thrust of the hydrostatic pressure causes the inertia safety device to advance and to pass the line of the balls 3, as can be seen in FIG. 5.
  • a series of bores facilitate the escape of air and in FIG. 1, suitable for harbor defense, fighting against divers or frog-men, and also against similar targets, as well as in fighting submarines at great depth, using explosive charges of high'capacity, because the method of operation is the same. .It is suflicient to dimension the pieces and elements of the apparatus as is deemed convenient,'using adequate springs for the pressures and depths at which the devices,-are to be utilized.
  • the depth setter which has been described above in its most elemental form, is provided with only a double eccentric cam 27 so as to act simultaneously on two bolts 28.
  • the depth setter may, however, be constructed with a threefold or quadruple cam to act on three or four bolts respectively, with their corresponding springs and balls. In this case the disposition of the projections 27 would not be of two sections of degrees, as de-' spring30 and a ball 33.
  • a second throat can be made in the piston under the throat 6, which, in exactly the same manner as described above, would contain a second series of balls, springs and bolts, placed respectively one for one directly beneath the first bores.
  • the widths of the cams of the depth setter in this case are doubled so as to act simultaneously on the pairs of bolts arranged so that the depth setter, upon rotation, will operate simultaneously on all the pairs of bolts and, consequently, on all the pairs of balls.
  • valve immediately re-opens by the action of its spring, and the water once again enters, and the priming apparatus returns to, normal operation.
  • a locking mechanism for said triggering element comprising a ball in the radial bore of said head adapted to engage the external circumferential throat of said triggering element, a bolt in the radial bore of said head extending outwardly thereof, and a spring between said ball and said bolt to hold said ball resiliently in engagement with the circumferential throat of said triggering element; and a rotary cap carried by said head, said cap having thereon at least one inwardly extending cam surface engaging the end of said bolt extending outwardly of said head to ary the pressure upon said ball; said triggering element being held in locked position by said locking mechanism until hydrostatic pressure thereon overcomes the pressure of said spring upon said ball and moves said element within the axial bore of said head until 'said detonator strikes said firing p n.
  • said locking mechanism comprises a plurality of balls disposed in radial bores equally spaced circumferentially of said triggering element, a bolt for each ball and a spiral spring disposed in each radial bore between each ball and the bolt therein, corresponding inner carn surfaces formed on said rotary cap for applying pressure to each bolt, and registering markings on said rotary .cap and said head calibrated to read the depth at which said apparatus is preset to be detonated.
  • a cap valve is screwed into said rotary cap to control sudden increases in hydrostatic pressure
  • said cap valve comprising a valve seat, a valve member, and a spring disposed between said valve seat and said valve member to hold said valve open, but to permit closing of said valve member upon said seat upon the existence of sudden increase in hydrostatic pressure.
  • said triggering element is cup-shaped and extends out of said head beyond the radial bores therein, the axial bore of said head having a countersunk expansion at its end beyond which said triggering element extends to form an internal shoulder in the bore, radial openings extending through the wall of said triggering element beyond the internal shoulder in the axial bore of said head, and balls in the radial openings in the wall of said triggering element, in combination with acup-shaped inertia safety device within said triggering element pressing said balls partly into the countersunk expansion of the axial bore in said head to prevent movement of the end of said element past the internal shoulder of said head, said inertia safety device being subject to hydrostatic pressure to move into said triggering element and release said balls for inward movement to permit said element to move completely past the shoulder, and a carrying safety device fixing said inertia safety device against movement into said triggering element.

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  • General Engineering & Computer Science (AREA)
  • Emergency Lowering Means (AREA)
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US18369A 1959-04-06 1960-03-29 Priming apparatus for detonating underwater explosive charges Expired - Lifetime US3031963A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3179048A (en) * 1961-03-25 1965-04-20 Jose Mean Y Vieyra De Abreu Device to provoke underwater explosions
US4016815A (en) * 1974-11-01 1977-04-12 Aktiebolaget Thulinverken Depth charge igniter

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
ES436905A1 (es) * 1975-04-24 1977-01-01 Amado Laguna De Rins Sa Espoleta de seguridad para artefactos subacuaticos.
DE3441385A1 (de) * 1984-11-13 1986-05-22 Gebrüder Junghans GmbH, 7230 Schramberg Zuendsystem fuer lenkflugkoerper und raketengeschosse
CN101806563B (zh) * 2010-03-10 2013-06-26 杜文博 安全起爆装置

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB793324A (en) * 1954-11-10 1958-04-16 Jose Mena Y Vieyra De Abreu Improvements in and relating to fuzes for submarine explosive devices

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB793324A (en) * 1954-11-10 1958-04-16 Jose Mena Y Vieyra De Abreu Improvements in and relating to fuzes for submarine explosive devices

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3179048A (en) * 1961-03-25 1965-04-20 Jose Mean Y Vieyra De Abreu Device to provoke underwater explosions
US4016815A (en) * 1974-11-01 1977-04-12 Aktiebolaget Thulinverken Depth charge igniter

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NL250216A (en))
NL104585C (en))

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