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EP 0 093 211 B1 |
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EUROPEAN PATENT SPECIFICATION |
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Mention of the grant of the patent: |
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16.12.1987 Bulletin 1987/51 |
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Date of filing: 30.04.1982 |
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(51) |
International Patent Classification (IPC)4: F41C 21/18 |
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Adjustable sound suppressor for weapon
Einstellbarer Schalldämpfer für Feuerwaffen
Amortisseur de son ajustable pour armes à feu
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Designated Contracting States: |
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AT BE CH DE FR GB IT LI SE |
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Date of publication of application: |
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09.11.1983 Bulletin 1983/45 |
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Applicant: Finn, Charles Albert |
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Oceanside
California (US) |
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Inventor: |
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- Finn, Charles Albert
Oceanside
California (US)
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Representative: Molyneaux, Martyn William et al |
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c/o Ladas & Parry,
Altheimer Eck 2 D-80331 München D-80331 München (DE) |
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Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] This invention relates to a sound suppressor for a firearm and particularly to means
for increasing sound suppression in a sound suppressor when desired by increasing
its length and to reduce the length of the suppressor on the weapon when desired by
retraction.
[0002] Sound suppressors for use with weaponry are well known and have taken the form of
a single sound suppressor can attachable to the muzzle of a rifle barrel, for example.
Efficient sound reduction is dependent to a large extent on baffles within the suppressor
can. However, such suppressors are not able to cope successfully with the precursor
wave, that is, the compressed air volume in front of a projectile nor with the expansion
of gases within the can thereby reducing the efficiency of the sound suppression.
[0003] These problems have to some extent been reduced by increasing the lateral dimension
of the suppressor can, relative to the projectile path. However, much known sound
suppressors are bulky and difficult to handle. Further attempts to overcome the above
mentioned problems and the unacceptable increase in size of the suppressor can, has
substantially been overcome by providing an additional expansion chamber on the exit
end of the sound suppressor can.
[0004] A telescopic suppressor is disclosed in U.S. Patent 4,203,347 positioned at the rear
end and not muzzle end of the barrel of a rocket launcher and is closed for transportation
and extended when mounted on the rocket launcher. However, once extended the suppressor
remains extended and is discarded after a single round. The suppressor has only two
positions and is not movable to intermediate positions between the extremities of
movement. Furthermore, the length of the individual sections of the telescopic sections
is short and an insufficient noise reduction is achieved because the shock wave resulting
from the emission of the rear plug of the launcher passes quickly through the extended
suppressor. Moreover the disclosed suppressor is not an attachment to the existing
suppressor.
[0005] DE-C-214226 discloses a sound suppressor for attachment to firearms of the type defined
in preamble of claim 1 and is adjustable laterally by twisting superimposed cylindrical
tubes to open or close slits in the side walls of the tubes. However, no significant
longitudinal movement between the tubes is considered possible. Furthermore, grasping
the casing during a firing sequence to adjust the slits would result in a burned hand
since hot gases are emitted from the slits. This latter emission of gases through
the slits reduces the efficiency of the sound suppressor.
[0006] The present invention seeks to overcome the above problems and to obtain considerable
sound reduction by providing a telescopic sound suppressor in which a secondary expansion
chamber receives and dampens sound caused by the precursory wave in front of the projectile
as defined by claim 1. The secondary chamber is adjustable by mechanical interlocking
of the telescopic sections to vary the size of the expansion chamber according to
operating conditions. The can defining the secondary chamber is mountable on an existing
sound suppressor and allows the projectile, in each operative condition, to exit prior
to the precursory wave thus considerably reducing sound emission.
[0007] Whilst seeking to achieve these ends, particularly to maximize sound suppression
it is also advantageous to minimize the bulk or length of the suppressor for easier
handling.
[0008] The structure is of a simple, safe and reliable action, and seeks to devise means
for operation even in the dark, to provide means to lock the structure in a selected
position, and to devise a low cost device and one requiring minimum maintenance.
[0009] The invention will now be described by way of example with reference to the accompanying
drawings, in which
Figure 1 is a longitudinal view, partly in section of a specific embodiment of my
new adjustable sound suppressor for a weapon;
Figure 2 is another longitudinal view, partly in section;
Figure 3 is an exploded perspective view;
Figure 4 is a view, partly in section, taken on line 4-4 of Figure 1; and
Figure 5 is a view, partly in section, taken on line 5-5 of Figure 1.
[0010] The applicant's concepts of an adjustable sound suppressor can be summarized in part
as follows:
1. Provide a telescoping sleeve on a sound suppressor can that may be extended to
provide an expansion chamber forward of the can. The forward chamber can accommodate
the precursor wave, i.e., the compressed air volume in front of a projectile. Depending
on the speed of the projectile relative to the speed of sound, this can be a shock
wave. In other words, the compressed air may expand or displace to the side thereby
permitting the projectile to exit before the precursor wave, instead of the precursor
wave having to exit from the sound suppressor before the projectile. By exiting after
the projectile, the wave or volume of compressed air may exit over a longer duration
of time and therefore exit at a considerably lower sound level.
2. When the sleeve is extended, a large secondary expansion chamber is provided in
the sleeve forward of the end of the can. The extra chamber allows for further expansion
of gases, in addition to the expansion of gases that occur in the can. In this way,
gases not only expand more before exiting from the suppressor but also the gases escape
over a longer duration of time and produce a lower sound level.
3. The sleeve concept, by its collapsible nature and its efficiency, makes it possible
to reduce the overall size of a sound suppressor, i.e., for a given amount of sound
suppression, the collapsed suppressor will have less length or volume than the normal
non-collapsible suppressor.
4. The sleeve concept lends itself to basically every known suppressor type.
5. Preliminary tests of a prototype have shown 68% greater sound suppression by adding
the sleeve to the can of an existing type of sound suppressor.
[0011] It should be understood that the preceding discussion of the operation of compressed
air, etc., involved in the addition of an extended sleeve to a sound suppressor, as
shown and described, is theoretical. The important thing is the results obtained,
which are not theoretical, whether or not the technical explanation of operation is
correct or complete. As far as is known, the 68% improvement is representative of
what can be achieved with my invention, whether or not my description of why or how
it works is completely accurate technically or scientifically. When sleeves of various
lengths, etc., are added to other suppressors, possibly greater or less sound reductions
will be achieved, but I have demonstrated that results can be quite significant.
[0012] In the drawings a suppressor 10 is added to weapon 12 symbolized by its barrel. A
sound suppressor can 14 has sound suppressing means 16 indicated by a general block.
The sound suppression means 16 can be of any conventional or suitable type which will
commonly involve baffles.
[0013] Can 14 has a bored projectile entrance plug 20 and a bored projectile exit plug 22
shown as threadedly secured in place by threads 24 on the interior of the can and
by threads 26 on the exterior of the plugs. The flange 28 on exit plug 22 should be
small enough to fit within sleeve 30, whereas the flange 32 on entrance plug 24 may
be of sufficient diameter to lap the ends of sleeve 30 when the sleeve is retracted
although other stop means for the retraction of sleeve 30 are provided.
[0014] Sleeve 30 is slidably mounted on can 14 and is movable between a first fully retracted
position and a second fully extended position with only the adjacent ends of sleeve
and can lapping. It will be observed that when sleeve 30 is fully extended it forms
another secondary sound suppressing expansion chamber 34 in addition to the chamber
of can 14. The chamber 34 is closed by a bored projectile exit plug 40 secured in
place by threads 42 on plug 40 and by threads 44 on the inside of sleeve 30. Plug
40 has a flange 46.
[0015] The sound suppressing action of sleeve chamber 34 presumably has something to do
with providing expansion room for gas exiting with or ahead of a projectile. As above
indicated, the correct analysis of the reason for its effectiveness is not necessarily
known but its effectiveness has been measured at 68% increase in sound suppression
in one model.
[0016] The sound suppressor 10 is suitably attached to the barrel 12 of a weapon. In the
attaching structure shown, it is part of can entrance plug 20 and includes the threaded
bore 50 of plug 20 which engages with threads 52 on barrel 12. To secure suppressor
10 from becoming unthreaded from barrel 12, the rear portion or boss 54 of plug 20
is diametrically split at 56. Boss 54 has external threads 58 and a split nut 60 with
internal threads 62 engages threads 58. Set screws 64 extend through openings 66 and
are threaded into openings 68 on opposite sides of the split 70 of nut 60, whereby
screws 64 can be tightened to compress boss 54 on barrel 12 to lock plug 20 from becoming
unthreaded from the barrel. Surface 72 inside boss 54 is not threaded but may be scored
in the process of making threads 50 whereby surface 72 will have additional functional
gripping on barrel 12.
[0017] Sleeve 30 has a longitudinal slot 80 and a series of notches 82 extending laterally
therefrom. A stop 84 attached to can 14 extends into slot 80. When stop 84 is at one
end of slot 80, sleeve 30 is fully extended, and when stop 84 is at the other end
of slot 80, sleeve is fully retracted. Notches 82 represent other selected positions
which, along with the extreme ends of slot 80, may be sensed tactilely without looking
or even in the dark, so that positioning of sleeve 30 on can 14 does not depend on
light or on having time to look, but instead can be done rapidly by sense of feeling
as the user gains experience with use of suppressor 10.
[0018] Stop 84 is a bolt screwed into can 14 and having a knurled head 86 and a locking
washer 88. Thus, stop 84 can be secured in adjusted position in slot 80 or in one
of the notches 82 by manually tightening the bolt by means of knurled head 86.
1. A sound suppressor for firearms in which the sound suppressor (10) comprises a
cylindrical can (14) having a projectile entrance plug (20) at one end which is attachable
to the muzzle (12) of a firearm, internal sound suppressing means (16) and an opposite
end having an end plug (22) with a projectile exit opening, characterised by a secondary
cylindrical sleeve (30) having an internal diameter dimensioned to slidably fit over
the sound suppressor can (14), said secondary cylindrical sleeve having an end plug
(46) with a bore therein to allow the exiting of a projectile therethrough, said end
plug (46) and secondary cylindrical sleeve (30) defining a secondary suppressor chamber
of variable volume depending upon the extent of overlap of the secondary cylindrical
sleeve over the cylindrical wall of the standard sound suppressor, said secondary
cylindrical sleeve including securing means (20) having multiple securing positions
(82) to allow securing of the second cylindrical sleeve at any of a number of extended
positions, said securing means (60) including a manual control operable by the user
of the firearm by tactilely selecting and locking the secondary cylindrical sleeve
at the desired position while the firearm is in a firing position.
2. A sound suppressor as claimed in Claim 1, characterised in that said securing means
includes a slot (80) in said sleeve extending longitudinally of said suppressor (10)
in a stop (84) extending from said can into said slot (80) thereby limiting movement
of said sleeve (30) relative to said can (14).
3. A sound suppressor as claimed in Claim 2, characterised in that the stop (84) is
a threaded body with a manually operable knob (86) with lock means (88) whereby said
stop can be tightened to lock said sleeve in position on said can.
4. A sound suppressor as claimed in Claim 3, characterised in that the securing positions
(82) are provided by a plurality of notches (82) extending laterally from said slot
(80) in which said stop can be selectively positioned to index extension of said sleeve
relative to said can (14) and for locking of said stop in a selected position.
5. A sound suppressor as claimed in any preceding claim, characterised in that said
exit end plug (28) of said can (14) has a flange fitting the interior of said sleeve
(30) and in which said entrance end wall on said can (14) is a bored entrance end
plug (20) having an external flange (32) against which said sleeve abuts in said first
position of said sleeve as an inner stop, and in which said plugs are threadably secured
in place in said can and sleeve.
1. Schalldämpfer für Feuerwaffen, wobei der Schalldämpfer (10) einen zylindrischen
Topf (14) besitzt, der am einen Ende mit einem Geschoßeintrittsstopfen (20) versehen
ist, der an der Mündung (12) einer Feuerwaffe anbringbar ist, wobei der Topf im Innern
schalldämpfende Mittel (16) enthält und an seinem entgegengesetzten Ende einen Geschoßaustrittsstopfen
(22) mit einer Geschoßaustrittsöffnung besitzt, gekennzeichnet durch eine zylindrische
Sekundärhülse (30), deren Innendruchmesser so bemessen ist, daß er auf den Schalldämpfertopf
(14) im Gleitsitz aufschiebbar ist, wobei die zylindrische Sekundärhülse einen Endstopfen
(46) mit einer Bohrung besitzt, durch die hindurch ein Geschoß austreten kann, der
genannte Endstopfen (46) und die zylindrische Sekundärhülse (30) eine Sekundär-Schalldämpferkammer
begrenzen, deren Volumen in Abhängigkeit von dem Maß der Überlappung zwischen der
zylindrischen Sekundärhülse und der zylindrischen Wand des normalen Schalldämpfers
variabel ist, die zylindrische Sekundärhülse Mittel (20) zum Befestigen in einer Mehrzahl
von Befestigungsstellungen (82) besitzt, so daß die zylindrische Sekundärhülse in
einer Mehrzahl von Stellungen verschieden weit vorstehend befestigbar ist, und die
Befestigungsmittel (60) ein handbetätigbares Stellglied umfassen, das bei in Schießstellung
befindlicher Feuerwaffe von dem Schützen mit der Hand betätigbar ist, wobei er mit
Hilfe des Tastgefühls die gewünschte Stellung der zylindrischen Sekundärhülse wählt
und diese Hülse in der genannten Stellung festlegt.
2. Schalldämpfer nach Anspruch 1, dadurch gekennzeichnet, daß die Befestigungsmittel
einen Schlitz (80) umfassen, der sich in der Hülse in der Längsrichtung des Schalldämpfers
(10) erstreckt, und einen Anschlag (84), der sich von dem Topf in den Schlitz (80)
erstreckt und dadurch die Bewegung der Hülse (30) gegenüber dem Topf (14) begrenzt.
3. Schalldämpfer nach Anspruch 2, dadurch gekennzeichnet, daß der Anschlag (84) ein
gewindetragender Körper mit einem von Hand betätigbaren Knopf (86) und mit Festlegemitteln
(88) ist, so daß der Anschlag festgezogen werden kann, um die Hülse auf dem Topf festzulegen.
4. Schalldämpfer nach Anspruch 3, dadurch gekennzeichnet, daß die Befestigungsstellungen
(82) von einer Mehrzahl von Kerben (82) bestimmt werden, die sich von dem Schlitz
(80) seitwärts erstrecken und in denen der Anschlag wahlweise positioniert werden
kann, um den Überstand der Hülse über den Topf (14) zu bestimmen und den Anschlag
in einer gewählten Stellung festzulegen.
5. Schalldämpfer nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet,
daß der Austrittsendstutzen (28) des Topfs (14) einen Flansch besitzt, der passend
im Innern der Hülse (30) sitzt, daß die eintrittsseitige Stirnwand des Topfes (14)
ein durchbohrter eintrittsseitiger Endstopfen (20) ist, der einen Außenflansch (32)
besitzt, an dem die Hülse in ihrer ersten Stellung als an einem Innenanschlag angreift,
und daß die genannten Stopfen in dem Topf und der Hülse durch Einschrauben befestigt
sind.
1. Silencieux pour arme à feu dans lequel le silencieux (10) comporte un tube cylindrique
(14) qui présente, à l'une de ses extrémités, un bouchon d'entrée (20) du projectile
qui peut se fixer à la bouche (12) d'une arme à feu, des moyens intérieurs (16) de
suppression du bruit et une extrémité opposée présentant un bouchon d'extrémité (22)
avec une ouverture de sortie de projectile, caractérisé par un manchon cylindrique
secondaire (30) d'un diamètre intérieur dimensionné pour s'ajuster avec coulissement
par dessus le tube (14) formant silencieux, le-dit manchon cylindrique secondaire
présentant un bouchon d'extrémité (46) qui est foré pour permettre la sortie d'un
projectile à travers lui, le-dit bouchon d'extrémité (46) et le-dit manchon cylindrique
secondaire (30) définissant une chambre secondaire du silencieux de volume variable
en fonction de l'extension de recouvrement du manchon cylindrique secondaire par dessus
la paroi cylindrique du silencieux standard, le-dit manchon cylindrique secondaire
incluant des moyens de fixation (20), qui présentent des positions de fixation multiples
(82), pour permettre de fixer le manchon cylindrique secondaire en n'importe laquelle
d'un certain nombre de positions en extension, les-dits moyens de fixation (60) incluant
une commande manuelle que l'utilisateur de l'arme à feu peut actionner en sélectionnant
et en verrouillant le manchon cylindrique secondaire à la position désirée au toucher,
alors que l'arme à feu se trouve en position de tir.
2. Silencieux selon la revendication 1, caractérisé en ce que les-dits moyens de fixation
incluent une fente (80) dans le-dit manchon, qui s'étend dans la direction longitudinale
du-dit silencieux (10) ainsi qu'une butée (84) qui, depuis le-dit tube, se loge dans
la-dite fente (80) limitant ainsi le mouvement du-dit manchon (30) par rapport au-dit
tube (14).
3. Silencieux selon la revendication 2, caractérisé en ce que la butée (84) est un
corps fileté avec un bouton (86) manoeuvrable manuellement et avec un moyen d'arrêt
(88), ce par quoi on peut serrer la-dite butée pour verrouiller le-dit manchon en
position sur le-dit tube.
4. Silencieux selon la revendication 3, caractérisé en ce que les positions de fixation
sont fournies par une pluralité d'encoches (82) qui s'étendent latéralement depuis
la-dite fente (80) et dans lesquelles on peut sélectivement positionner la-dite butée
pour indexer l'extension du-dit manchon par rapport au-dit tube (14) et pour verrouiller
la-dite butée dans une position sélectionnée.
5. Silencieux selon une quelconque des revendications précédentes, caractérisé en
ce que le-dit bouchon d'extrémité de sortie (28) du-dit tube (14) présente un flasque
qui s'ajuste à l'intérieur du-dit manchon (30); et en ce que la-dite paroi d'extrémité
d'entrée du-dit tube (14) est un bouchon foré (20) d'extrémité d'entrée qui présente
un flasque extérieur (32) contre lequel le-dit manchon vient buter dans la-dite première
position du-dit manchon comme butée intérieure; et en ce que les-dits bouchons sont
fixés en place par vissage dans le-dit tube et dans le-dit manchon.