Search Images Maps Play YouTube News Gmail Drive More »
Sign in
Screen reader users: click this link for accessible mode. Accessible mode has the same essential features but works better with your reader.

Patents

  1. Advanced Patent Search
Publication numberUS3398302 A
Publication typeGrant
Publication dateAug 20, 1968
Filing dateOct 13, 1965
Priority dateOct 13, 1964
Also published asDE1263174B
Publication numberUS 3398302 A, US 3398302A, US-A-3398302, US3398302 A, US3398302A
InventorsGunter Backstein, Hans-Dieter Harnau
Original AssigneeEssex Wire Corp
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Electrical impulse generator
US 3398302 A
Abstract  available in
Images(1)
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

O -l 4 SR bLHKbH nuuw:

FIP85U2 OR 3398302 Aug. 20, 1968 HANS-DIETER HARNAU ET AL 3,3

ELECTRICAL IMPULSE GENERATOR Filed Oct. 13, 1965 Inventors Q DLE%I- Hamau 5y VZZEf- Buckskin United States Patent 3,398,302 ELECTRICAL IMPULSE GENERATOR Hans-Dieter Harnau, Gevelsberg, and Giinter Backstein,

Hattingen (Ruhr), Germany, assignors to Essex Wire Corporation, Fort Wayne, Ind., a corporation of Michigan Filed Oct. 13, 1965, Ser. No. 495,605 Claims priority, application Germany, Oct. 13, 1964,

38,996 3 Claims. (Cl. 31014) ABSTRACT OF THE DISCLOSURE An electrical impulse generator in which a housing contains a magnetic support together with an induction coil in the support with a movable armature. An actuating cap fits over the housing and is moveable relative to the armature and an energy store is located in the cap.

The invention relates to an electrical impulse generator, in particular for igniting the propellant or explosive charge in a projectile, in which on movement of an armature by means of an energy store a permanent-magnet circuit is opened and an electrical impulse is produced in an induction coil, and which has an actuating member in the form of a cap engaged over the front end of the housing of the electrical impulse generator. An example of such a generator is found in British patent specification No. 913,896.

The present invention concerns a further improvement to an electrical impulse generator of that form in which, by simplification of the construction, easier and thus more economic manufacture is made possible together with greater reliability of operation.

An electrical impulse generator according to the present invention is characterised by the fact that the energy store is arranged within the cap-like actuating member and acts by way of a plunger on the armature, which consists, in a known manner, of a cylindrical piston. This construction allows the generator to be assembled from turned and moulded parts which are comparatively simple and cheap to produce, thus rendering manufacture particularly economic.

As a subsidiary feature of the invention, means (stop, pins or similar) are provided on the actuating member, which in the end position of the actuating member ensure the discharge of the energy store and thus the opening of the permanent magnet circuit by mechanical means. An electrical impulse is even produced with certainty, therefore, if the energy store should fail, as is quite possible.

By way of example only, an embodiment of the invention will now be described in greater detail with reference to the accompanying single figure of the drawing which is in section through the embodiment.

The housing 1 of the electrical pulse generator consists substantially of a tube into which a thread is cut at both ends in order to fix the individual components of the electrical impulse generator. Inside the housing 1 is arranged an annular permanent magnet 2, with its pole surface in contact with soft iron pole plates 3 and 4. Inside the annular magnet 2 is situated an induction coil 5 wound on a former 6 made of non-magnetic material. The upper pole plate 3 has a tubular extension 3a which projects into the former 6 for about half the length of the latter. In the free space in the former an armature 7 in the form of a cylindrical piston is arranged so that it is longitudinally displacea ble and fits with its end face against the annular surface of the extension 311 of the pole plate 3 forming a surface 21. The pole plates 3 and 4and thus the annular magnet 2 and the induction coil 7 3,398,302 Patented Aug. 20, 1968 "ice 5are held in the housing 1 between an annular disc 8 screwed into the housing and a distance piece 10 held in place by a cover disc 9 also screwed into the housing. The lower pole plate 4 has a tubular extension 4a which projects into the space formed by the distance piece 10 and serves to guide the armature 7.

The housing 1 is closed, at its upper end, by a caplike actuating member 11 which consists of a pressure plate 11a, which is guided on the housing 1 by means of a tubular extension 11b of the plate. Movement of member 11 which is described later is helped by two circlips 12 fitted externally on the housing 1. A further circlip 13 is positioned on the lower end of the tubular section 11b and prevents the cap being lifted off the housing. A recess 14 is provided on the housing 1 to enable this circlip to be fitted.

Into the free space between the upper annular disc 8 and the pressure plate 11a projects a plunger 15 made of non-magnetic material, and guided for movement by the extension 3a of the pole plate 3. The plunger 15 rests on the armature 7. At its upper end, the plunger carries a spring disc 16 between which and the pressure plate 11a is arranged an energy store in the form of a spiral spring 17. In addition, a further spiral spring 18 serving as a return spring is compressed between the annular disc 8 and the pressure plate 11a.

When the actuating member 11 is depressed, the force of the spiral spring 17 acts, by way of the plunger 15, on the armature 7 and the spiral spring 17 is compressed until the force stored in the spring exceeds the magnetic holding force of the armature 7 at the annular surface 21 of the extension 3a, whereupon the armature pulls away. The intensity of the magnetic flux is suddenly altered by the resulting air gap and an electric impulse is induced in the induction coil 5. The armature accele- -rates downward, to return again quickly into its initial position, so that the plunger 15 with spring disc 16 is also returned to its initial position.

The return spring 18 also guides the actuating member 11 back into its rest position. In this way, electrical impulses of constant strength are produced in quick succession.

In order to protect the housing, during operation of the electrical impulse generator, from hard knocks and jolts, which might lead to damage and distortion of the armature, a buffer cap 20 made of resilient material and supported against a buffer spring 19 is provided in the space provided by the distance piece 10. The armature which is accelerating downwards after pulling away from the gap surface 21 is thereby brought resiliently to rest.

The buffer spring 19 and buffer cap 20 are covered over by a plastic tube 22 which separates them from the surrounding space 23 which contains the leads to and from the induction coil and is also filled with an insulating and sealing mass. In addition, for the resilient stopping of the spring disc 16, a buffer disc 24 is provided which is held by the annular disc 8. A further spring 25 initiates and ensures the return of the spring disc 16 with plunger 15. The spring 25 is supported against the upper pole plate 3 and is dimensioned so that its pre-loading is equal to or slightly less than that of the energy store spring 17. This also ensures that the plunger, in the rest position, fits on the armature 7 without loading it by means of the pre-loading of the energy store spring 17.

Almost complete reliability of operation of the electrical impulse generator just described is achieved in the event of failure of the energy store spring 17 due to weakening or breakage. In that event, when the pressure plate is actuated, a pin 26 provided on the latter meets the spring disc 16, thereby pushing the armature away from the gap surface 21 by way of the plunger 15. The

pin 26 does not normally meet the spring disc when the electrical impulse generator is actuated as described previously. The compression spring 17 acting as an energy store is for this purpose so dimensioned that the travel of the spring until the holding force of the magnet is [reached is less than the distance between the pin 26 and the spring disc 16.

We claim:

1. An electrical impulse generator comprising in combination a housing containing a normally-closed magnetic circuit, an induction coil located within the magnetic circuit, a movable armature forming part of said magnetic circuit, an actuating cap fitted over said housing and movable relatively to said armature, an energy store located in the actuating cap and operable on movement of said actuating cap and an actuating plunger linking said energy store to said armature whereby initial movement of the actuating cap first stores energy in said energy store until the force existing between the actuating cap and the anmature is equal to the magnetic force between the armature and the magnetic circuit when further movement of the actuating cap separates the armature from the magnetic circuit, the energy stored in said energy store serving to accelerate the armature away from the magnetic circuit, and a return device for the actuating cap located within the latte-r.

2. An electrical impulse generator comprising in combination a housing containing a normally-closed magnetic circuit, an induction coil located within the magnetic circuit, a movable armature forming part of said magnetic circuit, an actuating cap fitted over said housing and movable relatively to said armature, an energy store located in the actuating cap and operable on movement of said actuating cap and an actuating plunger linking said .energy store to said armature whereby initial movement of the actuating cap first stores energy in said energy store until the force existing between the actuating cap and the armature is equal to the magnetic force between the armature and the magnetic circuit when further movement of the actuating cap separates the armature from the magnetic circuit, the energy stored in said energy store serving to accelerate the armature away from the magnetic circuit, and a projection on said actuating cap, which ensures release of energy stored in said energy store and mechanical separation of said armature and said magnetic circuit.

3. An electrical impulse generator comprising in combination a housing containing a normally-closed magnetic circuit, an induction coil located within the magnetic circuit, a movable armature forming part of said magnetic circuit, an actuating cap fitted over said housing and movable relatively to said armature, an energy store located in the actuating cap and operable on movement of said actuating cap and an actuating plunger linking said energy store to said armature whereby initial movement of the actuating cap first stores energy in said energy store until the force existing between the actuating cap and the armature is equal to the magnetic force between the armature and the magnetic circuit when further movement of the actuating cap separates the armature from the magnetic circuit, the energy stored in said energy store serving to accelerate the armature away from the magnetic circuit, and resilient means acting on said armature in a sense opposite to that in which said energy store acts on said armature to relieve the latter, when in its initial position, of the etfect of the energy store.

References Cited UNITED STATES PATENTS 3,035,520 2/1962 Koeppen 310-12 3,116,428 12/1963 Blodgett et a1. 310--15 3,130,332 4/1964 Zehfeld et a1. 310-15 3,132,268 5/1964 Abel et a1. 31015 3,153,735 10/1964 Branagan et al. 310-15 3,259,769 7/1966 Stoltt 31014 MILTON O. HIRSHFIELD, Primary Examiner.

D. F. DUGGAN, Assistant Examiner.

UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3 398 302 August 20 i968 Hans-Dieter Harnau et a1.

It is certified that error appears in the above identified patent and that said Letters Patent are hereby corrected as shown below:

In the heading to the printed specification, lines 4 to 6, "assignors Fort Wayne, Ind. a corporation of Michigan" to Essex Wire Corporation,

Dusseldorf Germany should read assignors to Firma Rheinmetall G.m.b.H.

(SEAL) Attest:

WILLIAM E. SCHUYLER, JR.

Commissioner of Patents Edward M. Fletcher, Jr.

Attesting Officer

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US3035520 *Jan 24, 1955May 22, 1962Koeppen Robert EInertia actuated electric unit
US3116428 *Oct 16, 1961Dec 31, 1963Space Equipment CorpForce responsive electrical impulse generator
US3130332 *Mar 15, 1960Apr 21, 1964Rheinmetall GmbhElectric impulse generator for the detonation of charges
US3132268 *Mar 5, 1962May 5, 1964Force Controls CompanyMotion e.m.f. generating transducer
US3153735 *Dec 14, 1959Oct 20, 1964Branagan Edward FInertia electro-magnetic generator
US3259769 *Jan 30, 1964Jul 5, 1966Stott Albert MElectrical pulse generator
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3500086 *Feb 1, 1967Mar 10, 1970Baermann MaxMagneto - electric pulse generator especially for igniting gas-operated devices
US3693033 *Jun 24, 1971Sep 19, 1972Electromechanisms IncKey operated pulse generating device
US3718828 *Aug 11, 1971Feb 27, 1973Guardian Electric Mfg CoPush button pulse signal generator
US3766399 *Oct 19, 1972Oct 16, 1973M DemetrescuCombustion engine driven generator including spring structure for oscillating the inductor at the mechanical resonant frequency between power strokes
US3772669 *Jul 14, 1972Nov 13, 1973Westinghouse Electric CorpMagnetic pulse generator
US3774058 *Jun 30, 1972Nov 20, 1973Permawick CoForce transducer
US3781836 *Jul 14, 1972Dec 25, 1973Westinghouse Electric CorpSelf-powered wireless intrusion alarm system
US3855488 *Sep 17, 1973Dec 17, 1974Guardian Electric Mfg CoPush button pulse signal generator
US3937992 *Nov 18, 1974Feb 10, 1976Stackpole Carbon CompanyPulse keyboard switch
US3984707 *Jul 13, 1973Oct 5, 1976Mcclintock Richard DSpring return linear signal generator
US4574323 *Oct 19, 1982Mar 4, 1986Kabushiki Kaisha Suwa SeikoshaFlexible magnetic disk drive
US5038061 *May 25, 1990Aug 6, 1991Olsen John HLinear actuator/motor
US7199480Apr 15, 2004Apr 3, 2007Halliburton Energy Services, Inc.Vibration based power generator
US7208845Apr 15, 2004Apr 24, 2007Halliburton Energy Services, Inc.Vibration based power generator
US7242103Feb 3, 2006Jul 10, 2007Welldynamics, Inc.Downhole electrical power generator
US7332825 *Jan 6, 2006Feb 19, 2008Aerodyne Research, Inc.System and method for controlling a power generating system
US7484566Aug 3, 2006Feb 3, 2009Welldynamics, Inc.Pulse width modulated downhole flow control
US7485977Jan 6, 2006Feb 3, 2009Aerodyne Research, Inc.Power generating system
US7629699Jan 4, 2007Dec 8, 2009Aerodyne Research, Inc.System and method for controlling a power generating system
US7785080May 30, 2006Aug 31, 2010Welldynamics, Inc.Downhole ram pump
US7819194Feb 3, 2006Oct 26, 2010Halliburton Energy Services, Inc.Flow regulator for use in a subterranean well
US8234932Jul 20, 2010Aug 7, 2012Halliburton Energy Services, Inc.Annulus vortex flowmeter
Classifications
U.S. Classification310/14, 310/15
International ClassificationH02K39/00
Cooperative ClassificationH02K39/00
European ClassificationH02K39/00