EP3001134A1 - Gun sound moderators - Google Patents
Gun sound moderators Download PDFInfo
- Publication number
- EP3001134A1 EP3001134A1 EP15181887.9A EP15181887A EP3001134A1 EP 3001134 A1 EP3001134 A1 EP 3001134A1 EP 15181887 A EP15181887 A EP 15181887A EP 3001134 A1 EP3001134 A1 EP 3001134A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- moderator
- gun
- gas
- gun sound
- deflector
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41A—FUNCTIONAL FEATURES OR DETAILS COMMON TO BOTH SMALLARMS AND ORDNANCE, e.g. CANNONS; MOUNTINGS FOR SMALLARMS OR ORDNANCE
- F41A21/00—Barrels; Gun tubes; Muzzle attachments; Barrel mounting means
- F41A21/30—Silencers
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41A—FUNCTIONAL FEATURES OR DETAILS COMMON TO BOTH SMALLARMS AND ORDNANCE, e.g. CANNONS; MOUNTINGS FOR SMALLARMS OR ORDNANCE
- F41A21/00—Barrels; Gun tubes; Muzzle attachments; Barrel mounting means
- F41A21/32—Muzzle attachments or glands
Definitions
- the present invention relates to gun sound moderators, including those for use on guns and firearms, e.g. small arms.
- Gun sound moderators are used to make the report from the end of gun barrel's muzzle quieter so that the operators of guns and the surroundings have limited exposure to loud noise.
- gun sound moderators should combine quietening of the report of the gun together with small size and lightness. Small size is preferred to ensure that gun sound moderators do not obscure the target through the sighting system of the gun and lightness is preferred so as to not overly impact the balance and handling of the gun to which the gun sound moderator is attached. Since the gun sound moderator is located at the end of the gun, this can have a significant impact due to the weight of the gun sound moderator being at a distance from the place at which the gun is held and high weight can adversely impact the package weight of the gun plus the gun sound moderator.
- Gun sound moderators are typically cylindrical with a concentric hole through them, the moderator being attached, by some means, to the end of the gun barrel such that a concentric hole through the centre of the gun sound moderator is in alignment with the bore of the gun barrel such that the projectile leaving the gun barrel can pass directly through the gun sound moderator, the projectile leaving the muzzle of the gun barrel and passing through the concentric hole of the gun sound moderator. In doing so, the report (noise) of the gun is reduced.
- Gun sound moderators typically use a series of baffles so as to reduce the report/noise of the gun when fired, the baffles reducing the report by interfering with the exit of the high-pressure gas that has been generated to push the projectile from the barrel.
- the present invention aims to alleviate at least to a certain extent the problems of the prior art.
- a gun sound moderator which is adapted to mount at a gun barrel muzzle, the moderator having a body, the body having a longitudinal axis and having a moderator cylinder wall having an internal surface within which are a plurality of moderating stages, each stage having (A) a baffle formed across and inside the cylinder wall and having a concentric hole which is concentric with the moderator cylinder wall; and (B) a deflector adapted to deflect gas flow from the concentric hole to move with a radial component so as to impact the internal surface of the moderator cylinder wall and be guided for circulation around the same.
- the gas leaving the barrel upon firing a projectile from the gun is deflected within the body such that the gas is deflected to move with a radial component out to and in and around the internal surface of the cylinder wall of the body before finally exiting the moderator.
- This allows for a much smaller and lighter gun sound moderator than those available in the prior art that with the same, or better, report/noise reducing properties.
- the report/noise of a gun is a result of the pressure wave generated by the high-pressure, hot gas leaving the barrel of the gun at the muzzle upon firing a round/projectile from the gun, for example a rifle or other cartridge. Reduction in the pressure/volume of the gas has a relationship in the reduction of the report/noise of the gun.
- the gas is rotated in a radial motion, or a motion first with a radial component outwardly to the internal wall and then a circulatory motion around inside the internal wall, within the body of the moderator so as to work to reduce the report/noise by two means. Firstly, the gas passing through the moderator spends more time than in prior art moderators in contact with the material of the moderator, cooling the gas.
- Rotating the gas around inside the moderator ensures that the gas, which is hot since it is a product of exothermic chemical reaction due to firing of the cartridge or round, spends more time than in prior art moderators in contact with the material of the construction of the moderator, particularly of the moderator cylinder wall where heat transfer to the atmosphere may occur, and the gas is therefore cooled further than would normally be possible in a given volume with known gun sound moderators.
- the radial movement and circulation of the gas and the internal construction of the moderator ensure that the hot gas spends as much time as possible within the external moderator cylinder wall of the moderator.
- the deflectors in different stages inside the gun sound moderator may be positioned rotated apart relative to one another at each stage.
- Each stage may have one or more than one said deflector.
- the gun sound moderator may have two said deflectors at each stage which are positioned angularly rotated 180° relative to one another about the longitudinal axis of the body.
- Each deflector when viewed cutaway in a direction from a side of the body, may look straight and angled at approximately 45° to the longitudinal axis of the body. Alternatively, each deflector may be curved and with a radius in a section viewed across the longitudinal axis of the body.
- the gun sound moderator may have a toroidal passage formed within the body for toroidal gas flow therethrough, the passage including at least one flow guide extending along within the toroidal passage.
- a further aspect of the invention provides a gun sound moderator which is adapted to mount at a gun barrel muzzle, the moderator having a body, the body having a longitudinal axis and having a moderator external wall having an internal surface within which is at least one moderating stage, each stage having (A) a baffle formed across and inside the external wall and having a gas passage formed for the flow of gas therepast; and (B) a deflector adapted to deflect gas flow from the gas passage to move so as to flow towards the inside of the moderator external wall and be guided for circulation around the same, the gas passage being toroidal for toroidal gas flow therethrough, the gas passage including at least one flow guide extending along within the toroidal passage.
- the at least one flow guide may comprise a fin or vane.
- the fin or vane may be generally planar
- At least one said fin or vane may extend in a direction generally perpendicular to or perpendicular to the longitudinal axis of the body.
- the moderator external wall may be cylindrical, for example circularly cylindrical.
- the gun sound moderator may include a plurality of said stages.
- the gas passage may comprise a hole formed through the baffle and concentric with a centre longitudinal axis of the body of the gun sound moderator.
- Each deflector may include a first wall surface which is curved so as to deflect gas travelling from the hole towards the external wall.
- the first wall surface may be an at least part circularly cylindrical first wall surface and oriented with a longitudinal direction thereof substantially perpendicular to the central longitudinal axis of the body.
- Each deflector may include a second wall surface which is planar or substantially planar and which is oriented substantially parallel to the longitudinal direction of the at least part circularly cylindrical first wall surface
- Each deflector may include a third wall surface, the third wall surface together with the external wall forming the gas passage therebetween for the flow of gas therethrough with a circulatory or rotational motion around inside and guided by the external wall.
- the third wall surface may have a curved profile and substantially comprise part of a surface of revolution whose imaginary axis of rotation is on a convex side of the curved profile.
- the curved profile may be substantially semi-circular.
- a gun having a gun barrel with a muzzle and a gun sound moderator as set out in an earlier aspect hereof mounted at the muzzle.
- a gun sound moderator has an external moderator cylinder wall inside which is a series of stages, each having a baffle formed with a concentric hole which is concentric with the cylinder wall and a deflector, gas passing through the concentric hole being deflected by the deflector so as to move with a radial component towards and then to move with a circulatory motion along/around inside the moderator cylinder wall so as to achieve improved heat transfer from the gas through the moderator cylinder wall and into the ambient atmosphere outside the gun sound moderator so as to achieve cooling of the gas so as to reduce its volume and controlled gas release to atmosphere, so as to achieve a relatively quiet report/noise when a projectile is fired through the gun sound moderator.
- FIG. 1 shows a gun barrel 10 with a gun barrel muzzle 12 and a typical known baffled gun sound moderator 14 with baffles 16, the gun sound moderator 14 being mounted at the gun barrel muzzle 12.
- a projectile 20 with a direction of travel (longitudinal moderator axis) 22 through the gun barrel 10 and gun sound moderator 14, high velocity hot gas with a direction of travel depicted by arrows 24 passes through the gun sound moderator 14 with turbulent gas flow as depicted by arrows 26.
- a gun sound moderator 30 with baffles 32 is mounted to a gun barrel muzzle 34 of a gun barrel 36 and is provided with deflectors 38 whereby, when a projectile 40 with direction of travel 42 is fired through the gun barrel 36 and gun sound moderator 30, along a longitudinal axis 44 of the gun sound moderator 30, gas flows from concentric hole 46 in a baffle 32 of the gun sound moderator 34 first along arrow 1 to deflector 38 then is deflected off the deflector 38 in a radial direction 2, or at least a direction with a radial component. Then, as shown in Figure 3 , the gas is, as shown by arrow 3, subjected to circulation around and guidance from an internal surface 48 of moderator cylinder wall 50 with an external surface 52.
- the gas upon firing the projectile 40, exits the concentric hole 46 and travels along arrow 1, the gas impacts radial deflectors 38 and changes direction so as to have a radial component travelling in the direction of arrow 2, and then impacts the internal surface 48 of the moderator cylinder wall 50 to be deflected to a circulatory motion or circulation guided from internal surface 48 of moderator cylinder wall 50 before passing to a next stage 54 of the gun sound moderator 34 with a further baffle 32 and deflectors 38.
- each stage 54 includes a baffle 32 with its concentric hole 46 and the downstream part of the cylinder wall and deflectors 38 before the next baffle 32.
- Figure 2 shows the deflectors 38 as approximately 45° straight items. In practice, these can be shaped for better efficiency by looking at the multiple angles of the gas flow expanding through the concentric hole 46. Each angle will have a corresponding angle to which the deflector is shaped so as to ensure that the gas is deflected in a radial fashion at an approximately 90° angle to the movement of the projectile 40. In practice, this means that the deflector may be curved in shape and for the purposes of making a practical gun sound moderator is a radius.
- Figure 4 shows the projectile 40 with direction of travel 42 and the embodiment has radial deflectors 38, so this is an example of an advanced shape of the radial deflector 38 and shows how gas is sufficiently directed to travel in a radial way inside a single stage 54 of the gun sound moderator 30.
- Figure 7 shows a gun sound moderator body 100 mounted to a muzzle 102 of a barrel 104 of a gun 106.
- Figures 5 and 6 show the body with a circularly cylindrical external wall 108 thereof removed to reveal a central core 110 thereof.
- the central core 110 includes a threaded attachment mounting flange 112 for mounting the body 100 to the muzzle 102 and a set of four angularly spaced tension arms 114 connecting the flange 112 to a first of four baffle plates 110, each baffle plate 110 having a circular edge 134 which, together with a circular outer edge of the flange 112 and an exit flange 130 may be sealingly engaged against the inner surface 101 of the circularly cylindrical external wall 108, using mechanical or other means (not shown).
- the moderator body is therefore preferably sealed apart from where the projectile enters and leaves it.
- the arms 114 form a pre-chamber 116 whose design may vary in other embodiments, for example extending back over the muzzle 102.
- Each baffle plate 110 comprises a circular disc with a central hole 120 passing through it for the passage of hot gas through the moderator body 100.
- Each baffle plate 110 is part of a stage 103 of the moderator body 100 which also includes two deflectors 105 linking the stage to the next downstream stage or the final exit flange 130.
- the two deflectors 105 of each stage 103 are the same as one another and positioned rotated angularly 180° relative to one another.
- the deflectors 105 of adjacent stages are positioned rotated angularly 90° relative to one another.
- each deflector can perform a second task in addition to gas deflection, namely to provide mechanical strength to the core of the moderator by ensuring relatively thick material, so a strong construction, in all regions of each baffle plate 110.
- These constructions could differ in other embodiments.
- three deflectors could be provided located 120° apart from one another.
- Each stage could have different numbers of deflectors, e.g. any number between one and about six, and the deflector(s) in different stages may have different axial lengths and dimensions to one another.
- Each of the two deflectors in Figures 5 and 6 has three wall surfaces 122, 124 and 126.
- the first wall surface 122 is curved and this surface is substantially part of the surface of an imaginary circular cylinder, the axis of which is perpendicular to or substantially perpendicular to and may substantially intersect with or actually intersect with the longitudinal axis 127 of the body 100.
- the diameter of the imaginary cylinder may be substantially the same as the distance between the baffle plates 110 located adjacent each deflector 105.
- the second wall surface 124 also has a curved profile and comprises part of an imaginary surface of revolution whose centre is on a convex side of the curved profile (and may be on the longitudinal axis 127 of the body 100), the curved profile optionally being substantially semi-circular, in which case the diameter of the curved profile is or may be substantially the same as or the same as the distance between the baffle plates 110 located adjacent each deflector 105.
- the second wall surface 124 together with the interior surface 101 of the external cylindrical wall 108 therefore forms a passage 129 between these surfaces for the flow of gas therethrough with a circulatory rotational motion around inside and guided by the inside surface 101 of the external wall 108.
- the third wall surface 126 is substantially planar or planar, lying parallel to or substantially parallel to the longitudinal axis 127 of the body 100.
- the plane of the third wall surface 126 may also be substantially perpendicular to the axis of the imaginary circular cylinder of the first wall surface 122.
- Parallel to the third wall surface 126 but facing oppositely is an optional relatively small planar eyelid-shaped surface 128 on each deflector which intersects with the curved first wall surface 122.
- the purpose of surface 128 is to split, separate and hold apart the respective gas flows flowing towards different deflectors 105. This therefore helps ensure that the gas flows to the intended deflectors 105.
- the surface 128 may have other shapes in other embodiments.
- the surface 128 may be employed to enhance noise reduction, being sometimes used but not necessarily always in every stage.
- the surface 128 may be omitted entirely in some embodiments or merely from one or more stages.
- high-pressure gas passing through each central hole 120 may first have an outwardly-flaring first path 142 to the first wall surface 122 from where it is deflected on a second path 144 with a radial component out to where it reaches the interior surface 101 of the cylindrical external wall 108 and is deflected into a circulatory or rotational motion path 146 along the interior wall 101 and through the passage 129 before passing radially inwardly again and out through the next central hole 120 of the moderator body 100 in one of the baffle plates 110 or the end flange 130.
- the circulation of the flow including through the passage 129, ensures good cooling of the flow and therefore a reduced report (noise) when the gun 106 is fired.
- flow exiting the internal hole 120 in the direction of the planar third wall surface 126 of each deflector is not significantly deflected by the third wall surface 126 because the third wall surface 126 substantially intersects with the longitudinal axis 127 and this flow is therefore drawn around into the passage 129 together with the flow which has been deflected by the curved first wall surface 122.
- the construction overall permits a substantial rotational circulation of flow around the passages 129 before the pressure differential across the stage 103 and between the stage 103 and to the next stage 103 forces the flow to move radially inwardly and out through the next central hole 120.
- the way in which the planar third wall surface 126 of one deflector is adjacent to the curved first wall surface 122 therefore assists in causing rotational flow around through the two passages 129 of each stage 103.
- the deflectors 105 have a second purpose, above deflection, which is structural: the deflectors 105 join baffle plates 110 of the core together and take substantial load in tension to hold the core together when the gun 106 is fired.
- the moderator body 100 shown in Figure 7 may be replaced on the gun 106 if desired by the arrangement shown and described with reference to Figures 2 and 3 above, or as modified with reference to figure 4 .
- Figure 8 schematically shows in isometric a section, through a plane coincident with a longitudinal axis 127 of a body of the gun sound moderator of Figures 5 and 6 , a toroidal flow path of gas within a stage 103 of the gun sound moderator next to the inner surface 101 of the external wall 108.
- the section through the toroidal flow path is D-shaped but may have other shapes in other embodiments.
- all of the deflectors 105 may be configured to create the toroidal gas spin round and through the passages 129 in the same rotational direction as the direction of projectile spin. However, in other embodiments only some deflectors may do so and some or all deflectors may create similar gas rotation in the opposite direction to projectile spin caused by rifling.
- Figure 9 shows how the passage 129 may be provided with one or more flow fins or vanes 200, 202, dotted for the purposes of clarity in Figure 9 but in practice which may or may not be solid plates or the like, aligned with the direction of intended toroidal circulatory flow.
- the fins 200, 202 may be planar or curved and at least when planar may be aligned perpendicular to the longitudinal axis of the moderator body or at a slant to it as shown schematically in Figure 9 .
- One or more fins or vanes 200, 202 in the direction of toroidal gas flow depending on stage geometry enhances sound reduction.
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Abstract
A gun sound moderator 30 has an external moderator cylinder wall 50 inside which is a series of stages 54 each having a baffle 32 formed with a concentric hole 46 which is concentric with the cylinder wall 50 and a deflector 38, gas passing through the concentric hole being deflected by the deflector 38 so as to move with a radial component towards an end to move with a circulatory motion along/around inside the moderator cylinder wall 30 so as to achieve improved heat transfer from the gas through the moderator cylinder wall and into the ambient atmosphere outside the gun sound moderator so as to achieve cooling of the gas so as to reduce its volume and controlled gas release to atmosphere, so as to achieve a relatively quiet report/noise when a projectile 20 is fired through the gun sound moderator.
Description
- The present invention relates to gun sound moderators, including those for use on guns and firearms, e.g. small arms.
- Gun sound moderators are used to make the report from the end of gun barrel's muzzle quieter so that the operators of guns and the surroundings have limited exposure to loud noise. Ideally, gun sound moderators should combine quietening of the report of the gun together with small size and lightness. Small size is preferred to ensure that gun sound moderators do not obscure the target through the sighting system of the gun and lightness is preferred so as to not overly impact the balance and handling of the gun to which the gun sound moderator is attached. Since the gun sound moderator is located at the end of the gun, this can have a significant impact due to the weight of the gun sound moderator being at a distance from the place at which the gun is held and high weight can adversely impact the package weight of the gun plus the gun sound moderator.
- Gun sound moderators are typically cylindrical with a concentric hole through them, the moderator being attached, by some means, to the end of the gun barrel such that a concentric hole through the centre of the gun sound moderator is in alignment with the bore of the gun barrel such that the projectile leaving the gun barrel can pass directly through the gun sound moderator, the projectile leaving the muzzle of the gun barrel and passing through the concentric hole of the gun sound moderator. In doing so, the report (noise) of the gun is reduced. Gun sound moderators typically use a series of baffles so as to reduce the report/noise of the gun when fired, the baffles reducing the report by interfering with the exit of the high-pressure gas that has been generated to push the projectile from the barrel.
- To achieve a level of report/noise reducing properties, however, known gun sound moderators tend to be relatively large. Thus, it is difficult to produce a small, light gun sound moderator that is also quiet.
- The present invention aims to alleviate at least to a certain extent the problems of the prior art.
- According to one aspect hereof there is provided a gun sound moderator which is adapted to mount at a gun barrel muzzle, the moderator having a body, the body having a longitudinal axis and having a moderator cylinder wall having an internal surface within which are a plurality of moderating stages, each stage having (A) a baffle formed across and inside the cylinder wall and having a concentric hole which is concentric with the moderator cylinder wall; and (B) a deflector adapted to deflect gas flow from the concentric hole to move with a radial component so as to impact the internal surface of the moderator cylinder wall and be guided for circulation around the same.
- Advantageously, the gas leaving the barrel upon firing a projectile from the gun is deflected within the body such that the gas is deflected to move with a radial component out to and in and around the internal surface of the cylinder wall of the body before finally exiting the moderator. This allows for a much smaller and lighter gun sound moderator than those available in the prior art that with the same, or better, report/noise reducing properties.
- The report/noise of a gun is a result of the pressure wave generated by the high-pressure, hot gas leaving the barrel of the gun at the muzzle upon firing a round/projectile from the gun, for example a rifle or other cartridge. Reduction in the pressure/volume of the gas has a relationship in the reduction of the report/noise of the gun.
- The gas is rotated in a radial motion, or a motion first with a radial component outwardly to the internal wall and then a circulatory motion around inside the internal wall, within the body of the moderator so as to work to reduce the report/noise by two means. Firstly, the gas passing through the moderator spends more time than in prior art moderators in contact with the material of the moderator, cooling the gas. Rotating the gas around inside the moderator, rather than merely interfering with its progress within the moderator, ensures that the gas, which is hot since it is a product of exothermic chemical reaction due to firing of the cartridge or round, spends more time than in prior art moderators in contact with the material of the construction of the moderator, particularly of the moderator cylinder wall where heat transfer to the atmosphere may occur, and the gas is therefore cooled further than would normally be possible in a given volume with known gun sound moderators. The radial movement and circulation of the gas and the internal construction of the moderator ensure that the hot gas spends as much time as possible within the external moderator cylinder wall of the moderator. It is the external surface of the moderator cylinder wall which has the greatest ability to lose heat due to its direct contact with ambient temperature air which allows the gun sound moderator to continue to work efficiently. Cooling the gas reduces its volume, as described by Charles's law. The volume of gas can approximate to being proportional to the temperature of the gas and reducing the temperature of the gas within the gun sound moderator reduces the volume of the gas and therefore the pressure wave which creates the report/noise. Secondly, deliberately rotating the gas within the gun sound moderator ensures that the gas is retained within the body of the gun sound moderator before finally exiting in a controlled way over a greater period of time compared to that of the uncontrolled release from a gun barrel alone.
- The deflectors in different stages inside the gun sound moderator may be positioned rotated apart relative to one another at each stage.
- Each stage may have one or more than one said deflector. In this case, the gun sound moderator may have two said deflectors at each stage which are positioned angularly rotated 180° relative to one another about the longitudinal axis of the body.
- Each deflector, when viewed cutaway in a direction from a side of the body, may look straight and angled at approximately 45° to the longitudinal axis of the body. Alternatively, each deflector may be curved and with a radius in a section viewed across the longitudinal axis of the body.
- The gun sound moderator may have a toroidal passage formed within the body for toroidal gas flow therethrough, the passage including at least one flow guide extending along within the toroidal passage.
- A further aspect of the invention provides a gun sound moderator which is adapted to mount at a gun barrel muzzle, the moderator having a body, the body having a longitudinal axis and having a moderator external wall having an internal surface within which is at least one moderating stage, each stage having (A) a baffle formed across and inside the external wall and having a gas passage formed for the flow of gas therepast; and (B) a deflector adapted to deflect gas flow from the gas passage to move so as to flow towards the inside of the moderator external wall and be guided for circulation around the same, the gas passage being toroidal for toroidal gas flow therethrough, the gas passage including at least one flow guide extending along within the toroidal passage.
- The at least one flow guide may comprise a fin or vane.
- The fin or vane may be generally planar
- At least one said fin or vane may extend in a direction generally perpendicular to or perpendicular to the longitudinal axis of the body.
- The moderator external wall may be cylindrical, for example circularly cylindrical.
- The gun sound moderator may include a plurality of said stages.
- The gas passage may comprise a hole formed through the baffle and concentric with a centre longitudinal axis of the body of the gun sound moderator.
- Each deflector may include a first wall surface which is curved so as to deflect gas travelling from the hole towards the external wall. The first wall surface may be an at least part circularly cylindrical first wall surface and oriented with a longitudinal direction thereof substantially perpendicular to the central longitudinal axis of the body.
- Each deflector may include a second wall surface which is planar or substantially planar and which is oriented substantially parallel to the longitudinal direction of the at least part circularly cylindrical first wall surface
- Each deflector may include a third wall surface, the third wall surface together with the external wall forming the gas passage therebetween for the flow of gas therethrough with a circulatory or rotational motion around inside and guided by the external wall.
- The third wall surface may have a curved profile and substantially comprise part of a surface of revolution whose imaginary axis of rotation is on a convex side of the curved profile. The curved profile may be substantially semi-circular.
- According to a further aspect hereof, there is provided a gun having a gun barrel with a muzzle and a gun sound moderator as set out in an earlier aspect hereof mounted at the muzzle.
- According to a further aspect hereof, a gun sound moderator has an external moderator cylinder wall inside which is a series of stages, each having a baffle formed with a concentric hole which is concentric with the cylinder wall and a deflector, gas passing through the concentric hole being deflected by the deflector so as to move with a radial component towards and then to move with a circulatory motion along/around inside the moderator cylinder wall so as to achieve improved heat transfer from the gas through the moderator cylinder wall and into the ambient atmosphere outside the gun sound moderator so as to achieve cooling of the gas so as to reduce its volume and controlled gas release to atmosphere, so as to achieve a relatively quiet report/noise when a projectile is fired through the gun sound moderator.
- In the drawings:
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Figure 1 shows a side cutaway view of a typical known prior art gun sound moderator with baffles, together with a gun barrel/muzzle; -
Figure 2 shows a side cutaway schematic view of a first embodiment of a gun sound moderator in accordance with the invention; -
Figure 3 shows a schematic end view cross-section along a longitudinal axis of the moderator shown inFigure 2 ; -
Figure 4 schematically shows part of a gun sound moderator as shown inFigures 2 and3 , but with a modified deflector; -
Figure 5 shows an isometric view of part of a second embodiment of a gun sound moderator in accordance with the invention; -
Figure 6 shows a further isometric view of the gun sound moderator ofFigure 5 ; -
Figure 7 shows a gun with a gun sound moderator as shown inFigures 2 and3 , or as modified with reference toFigure 4 or as inFigures 5 and6 , mounted at the muzzle of the gun barrel thereof; -
Figure 8 schematically shows in isometric a section, in a plane coincident with a longitudinal axis of a body of the gun sound moderator ofFigures 5 and6 , through a toroidal flow path of gas within a stage of the gun sound moderator; and -
Figure 9 shows a schematic side elevational cross section through the gun sound moderator ofFigures 5 ,6 and8 , modified by the inclusion of flow-guiding fins within a toroidal flow passage thereof. -
Figure 1 shows agun barrel 10 with agun barrel muzzle 12 and a typical known baffledgun sound moderator 14 withbaffles 16, thegun sound moderator 14 being mounted at thegun barrel muzzle 12. Upon firing aprojectile 20 with a direction of travel (longitudinal moderator axis) 22 through thegun barrel 10 andgun sound moderator 14, high velocity hot gas with a direction of travel depicted byarrows 24 passes through thegun sound moderator 14 with turbulent gas flow as depicted byarrows 26. As the gas from thegun barrel 10 exits thebarrel 10 and passes within themoderator 14, it expands, approximated to a cone (as shown by arrows 24) inFigure 1 , with a velocity in the direction of anexit 28 of thegun sound moderator 14 furthest from thegun barrel muzzle 12. The baffles 18 within this typical known moderator "strip" the high velocity gas from theprojectile 20, as shown schematically inFigure 1 . - In one embodiment in accordance with the invention as shown in
Figure 2 , agun sound moderator 30 withbaffles 32 is mounted to agun barrel muzzle 34 of agun barrel 36 and is provided withdeflectors 38 whereby, when aprojectile 40 with direction oftravel 42 is fired through thegun barrel 36 andgun sound moderator 30, along alongitudinal axis 44 of thegun sound moderator 30, gas flows fromconcentric hole 46 in abaffle 32 of thegun sound moderator 34 first along arrow 1 todeflector 38 then is deflected off thedeflector 38 in aradial direction 2, or at least a direction with a radial component. Then, as shown inFigure 3 , the gas is, as shown byarrow 3, subjected to circulation around and guidance from aninternal surface 48 ofmoderator cylinder wall 50 with anexternal surface 52. - Thus, as shown in
Figure 3 , the gas, upon firing theprojectile 40, exits theconcentric hole 46 and travels along arrow 1, the gas impactsradial deflectors 38 and changes direction so as to have a radial component travelling in the direction ofarrow 2, and then impacts theinternal surface 48 of themoderator cylinder wall 50 to be deflected to a circulatory motion or circulation guided frominternal surface 48 ofmoderator cylinder wall 50 before passing to anext stage 54 of thegun sound moderator 34 with afurther baffle 32 anddeflectors 38. - For clarity in
Figure 2 , thedeflectors 38 are shown in the same plane but they may be positioned rotated apart at eachstage 54 or have more than onedeflector 38 in eachstage 54.Figure 3 shows twodeflectors 38 which are located 180° apart with respect to one another. Eachstage 54 includes abaffle 32 with itsconcentric hole 46 and the downstream part of the cylinder wall anddeflectors 38 before thenext baffle 32. -
Figure 2 shows thedeflectors 38 as approximately 45° straight items. In practice, these can be shaped for better efficiency by looking at the multiple angles of the gas flow expanding through theconcentric hole 46. Each angle will have a corresponding angle to which the deflector is shaped so as to ensure that the gas is deflected in a radial fashion at an approximately 90° angle to the movement of the projectile 40. In practice, this means that the deflector may be curved in shape and for the purposes of making a practical gun sound moderator is a radius. - This is shown in
Figure 4 with only asingle stage 54 for clarity.Figure 4 shows the projectile 40 with direction oftravel 42 and the embodiment hasradial deflectors 38, so this is an example of an advanced shape of theradial deflector 38 and shows how gas is sufficiently directed to travel in a radial way inside asingle stage 54 of thegun sound moderator 30. - In a further embodiment in accordance with the invention,
Figure 7 shows a gunsound moderator body 100 mounted to amuzzle 102 of abarrel 104 of agun 106.Figures 5 and6 show the body with a circularly cylindricalexternal wall 108 thereof removed to reveal acentral core 110 thereof. Thecentral core 110 includes a threadedattachment mounting flange 112 for mounting thebody 100 to themuzzle 102 and a set of four angularly spacedtension arms 114 connecting theflange 112 to a first of fourbaffle plates 110, eachbaffle plate 110 having acircular edge 134 which, together with a circular outer edge of theflange 112 and anexit flange 130 may be sealingly engaged against theinner surface 101 of the circularly cylindricalexternal wall 108, using mechanical or other means (not shown). The moderator body is therefore preferably sealed apart from where the projectile enters and leaves it. - The
arms 114 form a pre-chamber 116 whose design may vary in other embodiments, for example extending back over themuzzle 102. - Each
baffle plate 110 comprises a circular disc with acentral hole 120 passing through it for the passage of hot gas through themoderator body 100. Eachbaffle plate 110 is part of astage 103 of themoderator body 100 which also includes twodeflectors 105 linking the stage to the next downstream stage or thefinal exit flange 130. The twodeflectors 105 of eachstage 103 are the same as one another and positioned rotated angularly 180° relative to one another. Thedeflectors 105 of adjacent stages are positioned rotated angularly 90° relative to one another. This can enable the material of the deflectors to perform a second task in addition to gas deflection, namely to provide mechanical strength to the core of the moderator by ensuring relatively thick material, so a strong construction, in all regions of eachbaffle plate 110. These constructions could differ in other embodiments. For example, three deflectors could be provided located 120° apart from one another. Each stage could have different numbers of deflectors, e.g. any number between one and about six, and the deflector(s) in different stages may have different axial lengths and dimensions to one another. - Each of the two deflectors in
Figures 5 and6 has threewall surfaces - The
first wall surface 122 is curved and this surface is substantially part of the surface of an imaginary circular cylinder, the axis of which is perpendicular to or substantially perpendicular to and may substantially intersect with or actually intersect with thelongitudinal axis 127 of thebody 100. The diameter of the imaginary cylinder may be substantially the same as the distance between thebaffle plates 110 located adjacent eachdeflector 105. - The
second wall surface 124 also has a curved profile and comprises part of an imaginary surface of revolution whose centre is on a convex side of the curved profile (and may be on thelongitudinal axis 127 of the body 100), the curved profile optionally being substantially semi-circular, in which case the diameter of the curved profile is or may be substantially the same as or the same as the distance between thebaffle plates 110 located adjacent eachdeflector 105. Thesecond wall surface 124 together with theinterior surface 101 of the externalcylindrical wall 108 therefore forms apassage 129 between these surfaces for the flow of gas therethrough with a circulatory rotational motion around inside and guided by theinside surface 101 of theexternal wall 108. - The
third wall surface 126 is substantially planar or planar, lying parallel to or substantially parallel to thelongitudinal axis 127 of thebody 100. The plane of thethird wall surface 126 may also be substantially perpendicular to the axis of the imaginary circular cylinder of thefirst wall surface 122. Parallel to thethird wall surface 126 but facing oppositely is an optional relatively small planar eyelid-shapedsurface 128 on each deflector which intersects with the curvedfirst wall surface 122. The purpose ofsurface 128 is to split, separate and hold apart the respective gas flows flowing towardsdifferent deflectors 105. This therefore helps ensure that the gas flows to the intendeddeflectors 105. Thesurface 128 may have other shapes in other embodiments. Dependent upon geometry of the size or stages and the number of deflectors, thesurface 128 may be employed to enhance noise reduction, being sometimes used but not necessarily always in every stage. Thesurface 128 may be omitted entirely in some embodiments or merely from one or more stages. - As depicted by
flow path arrow 140, high-pressure gas passing through eachcentral hole 120 may first have an outwardly-flaringfirst path 142 to thefirst wall surface 122 from where it is deflected on asecond path 144 with a radial component out to where it reaches theinterior surface 101 of the cylindricalexternal wall 108 and is deflected into a circulatory orrotational motion path 146 along theinterior wall 101 and through thepassage 129 before passing radially inwardly again and out through the nextcentral hole 120 of themoderator body 100 in one of thebaffle plates 110 or theend flange 130. The circulation of the flow, including through thepassage 129, ensures good cooling of the flow and therefore a reduced report (noise) when thegun 106 is fired. - As
flow arrow 148 shows, flow exiting theinternal hole 120 in the direction of the planarthird wall surface 126 of each deflector is not significantly deflected by thethird wall surface 126 because thethird wall surface 126 substantially intersects with thelongitudinal axis 127 and this flow is therefore drawn around into thepassage 129 together with the flow which has been deflected by the curvedfirst wall surface 122. Although some of the flow passing generally along theflow arrow 140 or alongside it may mix with flow exiting from the second of the twopassages 129 in thesame stage 103, the construction overall permits a substantial rotational circulation of flow around thepassages 129 before the pressure differential across thestage 103 and between thestage 103 and to thenext stage 103 forces the flow to move radially inwardly and out through the nextcentral hole 120. The way in which the planarthird wall surface 126 of one deflector is adjacent to the curvedfirst wall surface 122 therefore assists in causing rotational flow around through the twopassages 129 of eachstage 103. - It is noted that the
deflectors 105 have a second purpose, above deflection, which is structural: thedeflectors 105join baffle plates 110 of the core together and take substantial load in tension to hold the core together when thegun 106 is fired. - The construction described with respect to
Figures 5 to 7 permits a gun sound moderator which is small and light yet which has good performance in moderating or attenuating the report of a gunshot and the shot is not heard so easily so as to limit the sound of the shot in the surrounding area. Although a supersonic projectile fired from thegun 106 may still create significant noise due to the shockwave caused by supersonic flight through air, the noise experienced by the operator firing the gun is substantially reduced. - The
moderator body 100 shown inFigure 7 may be replaced on thegun 106 if desired by the arrangement shown and described with reference toFigures 2 and3 above, or as modified with reference tofigure 4 . -
Figure 8 schematically shows in isometric a section, through a plane coincident with alongitudinal axis 127 of a body of the gun sound moderator ofFigures 5 and6 , a toroidal flow path of gas within astage 103 of the gun sound moderator next to theinner surface 101 of theexternal wall 108. The section through the toroidal flow path is D-shaped but may have other shapes in other embodiments. - With the
gun barrel 104 rifled so as spin the projectile, all of thedeflectors 105 may be configured to create the toroidal gas spin round and through thepassages 129 in the same rotational direction as the direction of projectile spin. However, in other embodiments only some deflectors may do so and some or all deflectors may create similar gas rotation in the opposite direction to projectile spin caused by rifling. -
Figure 9 shows how thepassage 129 may be provided with one or more flow fins orvanes Figure 9 but in practice which may or may not be solid plates or the like, aligned with the direction of intended toroidal circulatory flow. Thefins Figure 9 . One or more fins orvanes - Various modifications may be made to the embodiments described without departing from the scope of the invention.
Claims (15)
- A gun sound moderator (30) which is adapted to mount at a gun barrel muzzle (34; 102), the moderator having a body (100), the body having a longitudinal axis (22; 127) and having a moderator cylinder wall (50; 108) having an internal surface (48; 101) within which are a plurality of moderating stages (54; 103), characterised in that each stage has (A) a baffle (32; 110) formed across and inside the cylinder wall and having a concentric hole (46; 120) which is concentric with the moderator cylinder wall; and (B) a deflector (38; 105) adapted to deflect gas flow from the concentric hole to move with a radial component so as to impact the internal surface of the moderator cylinder wall and be guided for circulation around the same.
- A gun sound moderator as claimed in claim 1 in which the deflectors (38; 105) in different stages (54; 103) are positioned rotated apart relative to one another at each stage.
- A gun sound moderator as claimed in claim 1 or claim 2 in which each stage (54; 103) has more than one said deflector (38; 105).
- A gun sound moderator as claimed in claim 3 in which two said deflectors (38; 105) at each stage are positioned angularly rotated 180° relative to one another about the longitudinal axis (22; 127) of the body.
- A gun sound moderator as claimed in claim 3 or claim 4 in which each deflector (38), when viewed cutaway in a direction from a side of the body, looks straight and angled at approximately 45° to the longitudinal axis of the body.
- A gun sound moderator as claimed in claim 3 or claim 4 in which each deflector (38; 105) is curved with a radius in a section viewed across the longitudinal axis (22; 127) of the body.
- A gun sound moderator as claimed in any preceding claim which has a toroidal passage (129) formed within the body for toroidal gas flow therethrough, the passage including at least one flow guide (200, 202) extending along within the toroidal passage.
- A gun sound moderator which is adapted to mount at a gun barrel muzzle (102), the moderator having a body (100), the body having a longitudinal axis (127) and having a moderator external wall having an internal surface (101) within which is at least one moderating stage (103), each stage having (A) a baffle (110) formed across and inside the external wall and having a gas passage (129) formed for the flow of gas therepast; and (B) a deflector adapted to deflect gas flow from the gas passage to move so as to flow towards the inside of the moderator external wall and be guided for circulation around the same, the gas passage being toroidal for toroidal gas flow therethrough, the gas passage including at least one flow guide (200, 202) extending along within the toroidal passage.
- A gun sound moderator as claimed in claim 7 or claim 8 in which the at least one flow guide (200, 202) comprises a fin or vane; optionally in which the fin or vane is generally planar; optionally in which at least one said fin or vane extends in a direction generally perpendicular to or perpendicular to the longitudinal axis (127) of the body.
- A gun sound moderator as claimed in any one of claims 8 to 9 in which the moderator external wall (108) is cylindrical, for example circularly cylindrical.
- A gun sound moderator as claimed in any one of claims 8 to 10 which includes a plurality of said stages (103).
- A gun sound moderator as claimed in any one of claims claims 8 to 11 which the gas passage (122) comprises a hole formed through the baffle (110) and concentric with a centre longitudinal axis (127) of the body of the gun sound moderator; optionally in which each deflector (105) includes a first wall surface (122) which is curved so as to deflect gas travelling from the hole towards the external wall, the first wall surface preferably being an at least part circularly cylindrical first wall surface and oriented with a longitudinal direction thereof substantially perpendicular to the central longitudinal axis of the body; optionally in which each deflector includes a second wall surface (126) which is planar or substantially planar and which is oriented substantially parallel to the longitudinal direction of the at least part circularly cylindrical first wall surface
- A gun sound moderator as claimed in claim 12 in which each deflector includes a third wall surface (124), the third wall surface together with the external wall forming a passage (29) therebetween for the flow of gas therethrough with a circulatory or rotational motion around inside and guided by the external wall.
- A gun sound moderator as claimed in claim 13 in which the third wall surface(124) has a curved profile and substantially comprises part of a surface of revolution whose imaginary axis of rotation is on a convex side of the curved profile; and optionally in which the curved profile is substantially semi-circular.
- A gun having a gun barrel with a muzzle and a gun sound moderator as claimed in any preceding claim mounted at the muzzle.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB1414871.2A GB2529462A (en) | 2014-08-21 | 2014-08-21 | Gun sound moderator: by means of radial gas circulation for the use on small arms/firearms |
Publications (1)
Publication Number | Publication Date |
---|---|
EP3001134A1 true EP3001134A1 (en) | 2016-03-30 |
Family
ID=51726895
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP15181887.9A Withdrawn EP3001134A1 (en) | 2014-08-21 | 2015-08-20 | Gun sound moderators |
Country Status (3)
Country | Link |
---|---|
US (1) | US20160054086A1 (en) |
EP (1) | EP3001134A1 (en) |
GB (2) | GB2529462A (en) |
Families Citing this family (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9506710B2 (en) | 2015-01-16 | 2016-11-29 | Ra Brands, L.L.C. | Modular silencer system |
US9746267B2 (en) | 2015-01-16 | 2017-08-29 | R A Brands, L.L.C. | Modular silencer |
KR102522668B1 (en) * | 2015-09-02 | 2023-04-18 | 쿠퍼스탠다드오토모티브앤인더스트리얼 주식회사 | Silencer for Vehicle |
EP3538834A4 (en) | 2016-11-14 | 2021-02-17 | Spectre Enterprises, Inc. | Sound suppressor |
US11268776B1 (en) * | 2017-05-24 | 2022-03-08 | F.M. Products Inc | Expansion chamber assembly and a method of manufacturing the same |
US10563944B2 (en) | 2018-10-24 | 2020-02-18 | Kevin C. Campbell | Gun barrel sound suppressor |
US10690432B2 (en) | 2019-01-11 | 2020-06-23 | Kevin C. Campbell | Sound suppressing gun barrel |
US11092399B2 (en) | 2019-09-05 | 2021-08-17 | Centre Firearms Co., Inc. | Monolithic noise suppression device with cooling features |
US20230175802A1 (en) * | 2021-08-30 | 2023-06-08 | Maxim Defense Industries, LLC | Firearm suppressor and self-torquing feature |
US11703303B1 (en) * | 2023-03-10 | 2023-07-18 | Polaris Capital Corporation | Air gun moderator and multi-layer moderator core |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US958934A (en) * | 1908-10-28 | 1910-05-24 | Maxim Silent Firearms Company | Silent firearm. |
US2375617A (en) * | 1943-08-30 | 1945-05-08 | Maxim Silencer Co | Gun silencer |
WO1983001680A1 (en) * | 1981-11-03 | 1983-05-11 | Mitsuo Taguchi | Silencer for firearms |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US959400A (en) * | 1909-06-23 | 1910-05-24 | James Henry Stinson | Gun-muffler. |
US7412917B2 (en) * | 2004-12-13 | 2008-08-19 | George Vais | Sound suppressor silencer baffle |
US7073426B1 (en) * | 2005-02-22 | 2006-07-11 | Mark White | Sound suppressor |
NO20093389A (en) * | 2009-11-20 | 2010-09-27 | A Tec Holding As | Muffler |
US8196701B1 (en) * | 2010-02-11 | 2012-06-12 | OS Inc. | Acoustic and heat control device |
-
2014
- 2014-08-21 GB GB1414871.2A patent/GB2529462A/en not_active Withdrawn
-
2015
- 2015-08-20 EP EP15181887.9A patent/EP3001134A1/en not_active Withdrawn
- 2015-08-20 GB GB1514885.1A patent/GB2529561A/en not_active Withdrawn
- 2015-08-21 US US14/832,532 patent/US20160054086A1/en not_active Abandoned
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US958934A (en) * | 1908-10-28 | 1910-05-24 | Maxim Silent Firearms Company | Silent firearm. |
US2375617A (en) * | 1943-08-30 | 1945-05-08 | Maxim Silencer Co | Gun silencer |
WO1983001680A1 (en) * | 1981-11-03 | 1983-05-11 | Mitsuo Taguchi | Silencer for firearms |
Also Published As
Publication number | Publication date |
---|---|
GB201414871D0 (en) | 2014-10-08 |
GB2529462A (en) | 2016-02-24 |
GB2529561A (en) | 2016-02-24 |
US20160054086A1 (en) | 2016-02-25 |
GB201514885D0 (en) | 2015-10-07 |
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