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Title:
FIREARM FLOTATION DEVICE
Document Type and Number:
WIPO Patent Application WO/2018/111552
Kind Code:
A1
Abstract:
A firearm flotation system with a rearward buoyant body and a forward buoyant body is disclosed. The forward buoyant body may have a keyed rail slot constructed to allow the firearm rail system to be inserted therein. Alternatively, or in addition to, the forward buoyant body may include a first buoyant body portion and a second buoyant body portion. The first buoyant body portion has an interlocking tongue and the second buoyant body has an interlocking groove, wherein the tongue fits into the groove and connects the first buoyant body portion to the second buoyant body portion. The system is sufficiently buoyant to render the firearm buoyant in water when the firearm is attached to the system.

Inventors:
ZOOK KRISTIAN DAWN (US)
ONDASH DAVID PHILLIP (US)
Application Number:
PCT/US2017/063711
Publication Date:
June 21, 2018
Filing Date:
November 29, 2017
Export Citation:
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Assignee:
GREEN DRAGON VENTURES (US)
International Classes:
B63B22/00; F41C23/00; F41C23/16; F41C27/00; F41G11/00
Foreign References:
US3641694A1972-02-15
USD704294S2014-05-06
US2298678A1942-10-13
US20120137562A12012-06-07
Other References:
VAN HARL: "Henry AR -7 Survival Rifle - Review & Video", AMMOLAND, 30 October 2015 (2015-10-30), XP055516927, Retrieved from the Internet [retrieved on 20180108]
THE LATE BOY SCOUT: "Henry U.S. Survival Rifle AR-7 Float Test, Accuracy Test, Field Review", YOUTUBE, 5 September 2013 (2013-09-05), XP054978798, Retrieved from the Internet [retrieved on 20180108]
Attorney, Agent or Firm:
DE LA CERRA, Manuel (US)
Download PDF:
Claims:
CLAIMS

1. A flotation device for a firearm with a rail system, the device comprising:

a buoyant body comprising a first keyed rail slot constructed to allow the firearm rail system to be inserted therein;

wherein the buoyant body is sufficiently buoyant to render the firearm buoyant in water when the firearm is attached to the buoyant body.

2. The device of claim 1 , wherein the buoyant body comprises a first buoyant body portion and a second buoyant body portion.

3. The device of claim 1 , comprising a second keyed rail slot constructed to allow the rail system to be inserted therein.

4. The device of claim 1 , comprising a barrel slot.

5. The device of claim 1 , comprising a hand grip slot.

6. The device of claim 1 , comprising a hand grip.

7. The device of claim 6, the hand grip comprising finger divots.

8. The device of claim 1 , comprising a rail lock and release mechanism, the mechanism comprising a rail engagement pin that can move between an engaged position and a disengaged position, wherein when the pin is in the engaged position, the buoyant body is locked to the firearm and when the pin is in the disengaged position, the buoyant body can be detached from the firearm.

9. The device of claim 8, wherein the rail lock and release mechanism comprises a

complaint structure that biases the rail engagement pin in the engaged position.

10. The device of claim 9, wherein the rail system has a plurality of bumps and the rail engagement pin tip is shaped to allow the rail engagement pin to slide over the plurality of bumps when the mechanism moves in a first direction and the rail engagement pin catches on at least one of the plurality of bumps when the mechanism moves in an direction opposite to the first direction.

1 1. The device of claim 8, wherein the rail lock and release mechanism comprises a pull tab or pull button connected to the rail engagement pin such that pulling the pull tab or pull button changes the rail engagement pin from the engaged to the disengaged position.

12. The device of claim 8, wherein the rail lock and release mechanism comprises a push button connected to the rail engagement pin such that pushing the button changes the rail engagement pin from the engaged to the disengaged position.

1 3. The device of claim 1 , comprising a rail lock and release mechanism, the mechanism comprising:

a first and second rail engagement pins that can each move between an

engaged position and a disengaged position, wherein: the first pin is located in the first keyed rail slot and when the first pin is in the engaged position, the first buoyant body portion is locked to the firearm and when the first pin is in the disengaged position, the first buoyant body portion can be detached from the firearm; and

the second pin is located in the second keyed rail slot and when the second pin is in the engaged position, the second buoyant body portion is locked to the firearm and when the second pin is in the disengaged position, the second buoyant body portion can be detached from the firearm.

14. The device of claim 13, wherein the rail lock and release mechanism comprises compliant structures that bias the first and second rail engagement pins in the engaged position.

15. The device of claim 13, wherein the rail lock and release mechanism comprises a pull tab or pull button connected to at least one of the rail engagement pins such that pulling the pull tab or pull button changes the rail engagement pin from the engaged to the disengaged position.

16. The device of claim 13, wherein the rail lock and release mechanism comprises a push button connected to at least one of the rail engagement pins such that pushing the button changes the rail engagement pin from the engaged to the disengaged position.

17. The device of claim 2, wherein the first buoyant body portion comprises an interlocking tongue and the second buoyant body comprises an interlocking groove, wherein the tongue fits into the groove and connects the first buoyant body portion to the second buoyant body portion.

18. The device of claim 17, wherein the tongue is tapered and the groove is tapered.

19. The device of claim 17, wherein the tongue comprises a longitudinal axis and the axis is substantially parallel to the axis defined by the barrel of the firearm when the device is mounted to the firearm.

20. The device of claim 2, wherein the first buoyant body portion comprises the first keyed rail slot and the second buoyant body portion comprises a second keyed rail slot constructed to allow the firearm rail system to be inserted therein.

21 . A firearm flotation device for a firearm with a stock post and an aiming structure, the device comprising:

a buoyant body comprising a receiving hole for the stock post, the buoyant body comprising a cheek weld adapted to cradle a user's cheek and align the user's sightline with the firearm aligning structure;

wherein the device comprises a density that is less than 30% of the density of water.

22. The device of claim 21 further comprising a release and adjustment mechanism that mates with the stock post.

23. The device of claim 21 , wherein the firearm has a rail system, the device further comprising a second buoyant body comprising a keyed rail slot constructed to allow the firearm rail system to be inserted therein.

24. The device of claim 21, further comprising:

a second buoyant body comprised of a first buoyant body portion and a second buoyant body portion, wherein the first buoyant body portion comprises an interlocking tongue and the second buoyant body comprises an interlocking groove, wherein the tongue fits into the groove and connects the first buoyant body portion to the second buoyant body portion.

25. A firearm flotation system for a firearm with a rail system, the system comprising:

a rearward buoyant body; and

a forward buoyant body comprising a keyed rail slot constructed to allow the firearm rail system to be inserted therein;

wherein the system is sufficiently buoyant to render the firearm buoyant in water when the firearm is attached to the system.

26. The system of claim 25, wherein the firearm has a stock post, wherein the rearward buoyant body comprises a receiving hole for the stock post.

27. The system of claim 26, wherein the rearward buoyant body comprises a release and adjustment mechanism that mates with the stock post.

28. The system of claim 25, wherein the firearm has an aiming structure, wherein the rearward buoyant body comprises a cheek weld adapted to cradle a user's cheek and align the user's sightline with the firearm aligning structure.

29. The system of claim 25, wherein rearward buoyant body is constructed to exert a buoyant force that is sufficient to maintain the firearm in a substantially horizontal orientation when in water.

30. The system of claim 25, wherein the rearward buoyant body exerts a first buoyant force and the forward buoyant body exerts a second buoyant force on the firearm when mounted to the firearm in water, wherein the ratio of the first to second buoyant force is less than 1.8:9.6.

31. The system of claim 25, wherein the system exerts a total buoyant force on the

firearm when mounted to the firearm in water, wherein the total buoyant force supports a firearm weighing at least seven pounds.

32. The system of claim 25, wherein the system exerts a total buoyant force on the

firearm when mounted to the firearm in water, wherein the total buoyant force supports a firearm weighing at least twenty pounds.

33. A firearm flotation system for a firearm comprising:

a rearward buoyant body; and

a forward buoyant body comprising a first buoyant body portion and a second buoyant body portion, wherein the first buoyant body portion comprises an interlocking tongue and the second buoyant body comprises an interlocking groove, wherein the tongue fits into the groove and connects the first buoyant body portion to the second buoyant body portion;

wherein the system is sufficiently buoyant to render the firearm buoyant in water when the firearm is attached to the rearward and forward buoyant bodies.

34. The system of claim 33, wherein the firearm has a stock post, wherein the rearward buoyant body comprises a receiving hole for the stock post.

35. The system of claim 34, wherein the rearward buoyant body comprises a release and adjustment mechanism that mates with the stock post.

36. The system of claim 33, wherein the firearm has an aiming structure, wherein the rearward buoyant body comprises a cheek weld adapted to cradle a user's cheek and align the user's sightline with the firearm aligning structure.

37. The system of claim 33, wherein rearward buoyant body is constructed to exert a buoyant force that is sufficient to maintain the firearm in a substantially horizontal orientation when in water.

38. The system of claim 33, wherein the rearward buoyant body exerts a first buoyant force and the forward buoyant body exerts a second buoyant force on the firearm when mounted to the firearm in water, wherein the ratio of the first to second buoyant force is greater than less than 1.8:9.6.

39. The system of claim 33, wherein the system exerts a total buoyant force on the

firearm when mounted to the firearm in water, wherein the total buoyant force supports a firearm weighing at least seven pounds.

40. The system of claim 33, wherein the system exerts a total buoyant force on the

firearm when mounted to the firearm in water, wherein the total buoyant force supports a firearm weighing at least twenty pounds.

Description:
1.0 TECHNICAL FIELD

[001] The present invention relates to devices that can be used with firearms, and more specifically relates to devices that can be attached to firearms to provide buoyancy.

2.0 RELATED APPLICATIONS

[002] This application claims priority as a continuation-in-part of U.S. Application No. 15/620536 filed on June 12, 2017, titled "FIREARM FLOTATION DEVICE", which in turn claims priority as a divisional of U.S. Provisional Application No. 15/384274 filed on December 19, 2016, titled "RIFLE FLOTATION DEVICE". This application also claims priority to U.S. Provisional Patent Application No. 62/430914 filed on December 6, 2016, titled "FLOTATION DEVICE FOR RIFLE "; and priority as a continuation-in-part to U.S. Design Patent Application No. 29/587874 filed on December 15, 2016, titled "RIFLE FLOTATION DEVICE". The disclosures of all of these applications are herein incorporated by reference in their entirety.

3.0 BACKGROUND

[003] For military personnel engaged in combat, being able to fire your weapon can mean the difference between life and death. But when personnel are in or around water, the weapon can be dead weight that creates a hazard. For example, where a military team is compromised exiting or entering the water while engaged in a fire fight, the weapon can be heavy and requires the personnel to swim and simultaneously hold the weight of the weapon and shoot. Personnel not engaged in direct combat still need to both maintain buoyancy and swim/float and maintain security in order to complete the mission. For example, for those that are in some type of water craft, a weapon that is dropped overboard would sink and compromise the mission.

[004] To address these concerns, life jackets have been taped to the weapon in a makeshift fashion to provide buoyancy. Alternatively, the weapons have been tethered to the watercraft to prevent them from being inadvertently dropped overboard. [005] However, these previous efforts have several shortcomings in that they either require an adhesive (such as tape) to secure the float to the weapon (but adhesive is often comprised or ineffective in a moist environment), or they require complicated fasteners that can be difficult to fasten in the heat of a military campaign. Furthermore, these previous efforts are large and bulky, making them difficult to store in the personnel's backpacks.

[006] Therefore, a need exists for device that quickly connects to a firearm to provide buoyancy, which may also break down into a size and shape that is more easily stored.

4.0 SUMMARY

[007] The following presents a simplified summary in order to provide a basic understanding of some aspects of the claimed subject matter. This summary is not an extensive overview, and is not intended to identify key/critical elements or to delineate the scope of the claimed subject matter. Its purpose is to present some concepts in a simplified form as a prelude to the more detailed description that is presented later.

[008] The apparatus, systems, and methods described herein elegantly solve the problems presented above. A firearm flotation device for providing buoyancy to a firearm is disclosed. The device includes a buoyant body with a first buoyant body portion and a second buoyant body portion, wherein the first buoyant body portion includes an interlocking tongue and the second buoyant body includes an interlocking groove. The tongue fits into the groove and connects the first buoyant body portion to the second buoyant body portion. The buoyant body is sufficiently buoyant to render the firearm buoyant in water when the firearm is attached to the buoyant body. The tongue-in-groove system may be tapered.

[009] The device may also have a keyed firearm rail slots constructed to allow the firearm rail system to be inserted therein. The device may have a firearm barrel slot or a firearm hand grip slot. The firearm may also have a hand grip that includes finger divots.

[010] To lock the device to the firearm, a firearm rail lock and release mechanism may be used. The mechanism may include one or more rail engagement pins that can move between an engaged position and a disengaged position, wherein when the pin is in the engaged position, the body is locked to the firearm and when the pin is in the disengaged position, the body can be detached from the firearm. This mechanism can be used on either or both buoyant body portions. The mechanism can include a compliant structure such as a spring that biases the rail engagement pin in the engaged position. A pull tab, pull button, or push button may be used to change the rail engagement pin from the engaged to disengaged position.

[Oil] Also disclosed is a firearm flotation device that may be used on the rearward portion of the fire arm. This rearward device may be used on a firearm with a stock post and an aiming structure. The device includes a buoyant body comprising a receiving hole for the stock post. The buoyant body also includes a cheek weld adapted to cradle a user's cheek and align the user's sightline with the firearm aligning structure. The device may have a release and adjustment mechanism that mates with the stock post, and the device may have a density that is less than 30% of the density of water.

[012] The rearward device may be used in conjunction with the forward flotation device as a system. Specifically, the system includes a rearward buoyant body and a forward buoyant body. The forward buoyant body may have a keyed rail slot constructed to allow the firearm rail system to be inserted therein. Alternatively, or in addition to, the forward buoyant body may include a first buoyant body portion and a second buoyant body portion. The first buoyant body portion has an interlocking tongue and the second buoyant body has an interlocking groove, wherein the tongue fits into the groove and connects the first buoyant body portion to the second buoyant body portion. The system is sufficiently buoyant to render the firearm buoyant in water when the firearm is attached to the system.

[013] The rearward buoyant body of the system may have a receiving hole for the stock post of a firearm, and may further include a release and adjustment mechanism that mates with the stock post. The rearward buoyant body may also include a cheek weld adapted to cradle a user's cheek and align the user's sightline with the firearm aligning structure. Further, the rearward buoyant body is constructed to exert a buoyant force that is sufficient to maintain the firearm in a substantially horizontal orientation when in water. [014] The rearward buoyant body may exert a first buoyant force and the forward buoyant body may exert a second buoyant force on the firearm when mounted to the firearm in water, wherein the ratio of the first to second buoyant force is less than 1.8:9.6. The total buoyant force exerted on the firearm by the system when mounted to the firearm in water may support a firearm weighing at least seven pounds. The buoyant bodies may be enlarged to support a firearm weighing at least twenty pounds

[015] Additional aspects, alternatives and variations as would be apparent to persons of skill in the art are also disclosed herein and are specifically contemplated as included as part of the invention. The invention is set forth only in the claims as allowed by the patent office in this or related applications, and the following summary descriptions of certain examples are not in any way to limit, define or otherwise establish the scope of legal protection.

5.0 BRIEF DESCRIPTION OF THE DRAWINGS

[016] The invention can be better understood with reference to the following figures. The components within the figures are not necessarily to scale, emphasis instead being placed on clearly illustrating example aspects of the invention. In the figures, like reference numerals designate corresponding parts throughout the different views and/or embodiments. It will be understood that certain components and details may not appear in the figures to assist in more clearly describing the invention.

[017] FIG. l is a top front perspective view of a first embodiment of a forward firearm flotation device.

[018] FIG.2 is a bottom rear perspective view of the first embodiment.

[019] FIG.3 is a front view of the first embodiment.

[020] FIG. 4A is rear view of the first embodiment.

[021] FIG. 4B is a depiction of the keyed firearm slot and the firearm rail system inserted therein.

[022] FIG. 5 is a top view of the first embodiment.

[023] FIG. 6 is a bottom view of the first embodiment. [024] FIG. 7 is a right-side view of the first embodiment.

[025] FIG. 8 is a left-side view of the first embodiment.

[026] FIG. 9 is a top front perspective exploded view of the first embodiment.

[027] FIG. 10 is a bottom rear perspective exploded view of the first embodiment.

[028] FIG. 11 is a front exploded view of the first embodiment.

[029] FIG. 12 is a rear exploded view of the first embodiment.

[030] FIG. 13 is a top exploded view of the first embodiment.

[031] FIG. 14 is a rear exploded view of the first embodiment.

[032] FIG. 15 is a right-side exploded view of the first embodiment.

[033] FIG. 16 is a left-side exploded view of the first embodiment.

[034] FIG.17 is a top front perspective view of a second embodiment of a forward firearm flotation device.

[035] FIG.18 is a bottom rear perspective view of the second embodiment.

[036] FIG. 19 is a front view of the second embodiment.

[037] FIG. 20 is rear view of the second embodiment.

[038] FIG. 21 is a top view of the second embodiment.

[039] FIG. 22 is a bottom view of the second embodiment.

[040] FIG. 23 is a right-side view of the second embodiment.

[041] FIG. 24 is a left-side view of the second embodiment.

[042] FIG. 25 is a top front perspective exploded view of the second embodiment.

[043] FIG. 26 is a bottom rear perspective exploded view of the second embodiment.

[044] FIG. 27 is a front exploded view of the second embodiment.

[045] FIG. 28 is a rear exploded view of the second embodiment.

[046] FIG. 29 is a top exploded view of the second embodiment.

[047] FIG. 30 is a rear exploded view of the second embodiment.

[048] FIG. 31 is a right-side exploded view of the second embodiment.

[049] FIG. 32 is a left-side exploded view of the second embodiment.

[050] FIG. 33 is a top rear perspective view of a portion of the first embodiment of the forward firearm flotation device mounted to a firearm. [051] FIG. 34 is a right-side view of a portion of the first embodiment of the forward firearm flotation device mounted to a firearm.

[052] FIG. 35 is a right-side view of a portion of the second embodiment of the forward firearm flotation device mounted to a firearm.

[053] FIG. 36 is a top front perspective view of both portions of the forward first embodiment of the forward firearm flotation device mounted to a firearm.

[054] FIG. 37 illustrates a firearm rail lock and release mechanism.

[055] FIG. 37A illustrate a firearm rail lock and release mechanism in a disengaged position.

[056] FIG. 37B illustrate the firearm rail lock and release mechanism of FIG. 37A in an engaged position.

[057] FIG. 38 illustrates a firearm rail lock and release mechanism.

[058] FIG. 39 illustrates a firearm rail lock and release mechanism.

[059] FIG. 40 illustrates the movement of the rail engagement pin with a unique tip shape.

[060] FIG.41 is a top front perspective view of a third embodiment of a forward firearm flotation device.

[061] FIG.42 is a bottom rear perspective view of the third embodiment.

[062] FIG. 43A illustrates a side view of a rearward firearm flotation device, formed as part of the stock, mounted on a firearm.

[063] FIG. 43B illustrates a side perspective view of a rearward firearm flotation device, formed as part of the stock, mounted on a firearm.

[064] FIG. 44 illustrates a side perspective view of a rearward firearm flotation device, formed as part of the stock, mounted on a firearm.

[065] FIG. 45A illustrates a top view of a rearward firearm flotation device, formed as part of the stock, with preferred dimensions.

[066] FIG. 45B illustrates a top perspective view of a rearward firearm flotation device, formed as part of the stock, with preferred dimensions. [067] FIG. 45C illustrates a side view of a rearward firearm flotation device, formed as part of the stock, with preferred dimensions.

[068] FIG. 45D illustrates a front view of a rearward firearm flotation device, formed as part of the stock, with preferred dimensions.

[069] FIG. 45E illustrates a cross-sectional perspective view of a rearward firearm flotation device, formed as part of the stock.

[070] FIG. 46A illustrates a side view of a rearward firearm flotation device, formed as part of the stock, and a forward firearm flotation device, both mounted on a firearm as a system.

[071] FIG. 46B illustrates a side perspective view of a rearward firearm flotation device, formed as part of the stock, and a forward firearm flotation device, both mounted on a firearm as a system.

[072] FIG. 47 illustrates a cross-sectional perspective view of a rearward firearm flotation device, formed as part of the stock, and a forward firearm flotation device, both mounted on a firearm as a system.

[073] FIG. 48A illustrates a top view of a rearward firearm flotation device, formed as part of the stock, and a forward firearm flotation device, both mounted on a firearm as a system, with preferred dimensions.

[074] FIG. 48B illustrates a side view of a rearward firearm flotation device, formed as part of the stock, and a forward firearm flotation device, both mounted on a firearm as a system, with preferred dimensions.

[075] FIG. 48C illustrates a bottom view of a rearward firearm flotation device, formed as part of the stock, and a forward firearm flotation device, both mounted on a firearm as a system, with preferred dimensions.

[076] FIG. 48D illustrates a rear view of a rearward firearm flotation device, formed as part of the stock, and a forward firearm flotation device, both mounted on a firearm as a system, with preferred dimensions. [077] FIG. 48E illustrates a front view of a rearward firearm flotation device, formed as part of the stock, and a forward firearm flotation device, both mounted on a firearm as a system, with preferred dimensions.

[078] FIG. 49A illustrates a perspective view of a rearward firearm flotation device, formed as part of the stock, and a forward firearm flotation device, both mounted on a M240L firearm as a system.

[079] FIG. 49B illustrates a side view of a rearward firearm flotation device, formed as part of the stock, and a forward firearm flotation device, both mounted on a M240L firearm as a system.

[080] FIG. 49C illustrates a top view of a rearward firearm flotation device, formed as part of the stock, and a forward firearm flotation device, both mounted on a M240L firearm as a system.

[081] FIG. 49D illustrates a front view of a rearward firearm flotation device, formed as part of the stock, and a forward firearm flotation device, both mounted on a M240L firearm as a system.

6.0 DETAILED DESCRIPTION

[082] Reference is made herein to some specific examples of the present invention, including any best modes contemplated by the inventor for carrying out the invention. Examples of these specific embodiments are illustrated in the accompanying figures. While the invention is described in conjunction with these specific embodiments, it will be understood that it is not intended to limit the invention to the described or illustrated embodiments. To the contrary, it is intended to cover alternatives, modifications, and equivalents as may be included within the spirit and scope of the invention as defined by the appended claims.

[083] In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. Particular example embodiments of the present invention may be implemented without some or all of these specific details. In other instances, process operations well known to persons of skill in the art have not been described in detail in order not to obscure unnecessarily the present invention. Various techniques and mechanisms of the present invention will sometimes be described in singular form for clarity. However, it should be noted that some embodiments include multiple iterations of a technique or multiple mechanisms unless noted otherwise. Similarly, various steps of the methods shown and described herein are not necessarily performed in the order indicated, or performed at all in certain embodiments. Accordingly, some implementations of the methods discussed herein may include more or fewer steps than those shown or described. Further, the techniques and mechanisms of the present invention will sometimes describe a connection, relationship or communication between two or more entities. It should be noted that a connection or relationship between entities does not necessarily mean a direct, unimpeded connection, as a variety of other entities or processes may reside or occur between any two entities. Consequently, an indicated connection does not necessarily mean a direct, unimpeded connection unless otherwise noted.

[084] The following list of example features corresponds with FIGS. 1-49D and is provided for ease of reference, where like reference numerals designate corresponding features throughout the specification and figures:

[085] First Embodiment of a Forward Firearm Flotation Device 10A

[086] Second Embodiment of a Forward Firearm Flotation Device 10B

[087] Third Embodiment of a Forward Firearm Flotation Device IOC

[088] First Buoyant Body Portion 15

[089] Second Buoyant Body Portion 20

[090] Tapered Portion-to-Portion Interlocking Tongue 25

[091] Initial Tongue Depth 26

[092] Terminal Tongue Depth 28

[093] Tapered Portion-to-Portion Interlocking Groove 30

[094] Fastener 32

[095] Gripping non-slip material 33

[096] First Keyed Firearm Rail Slot 35

[097] Direction Arrow 36 [098] Second Keyed Firearm Rail Slot 40

[099] Firearm Barrel Slot 45

[100] Firearm Hand Grip Slot 50

[101] Rail Engagement Compliant Tab 51

[102] Pivot Direction of Rail Engagement Compliant Tab 52

[103] Compliant Tab Portion 51A

[104] Engagement Portion of Compliant Tab 53

[105] Engagement Slide Direction 54

[106] First Embodiment of a Firearm Rail Lock and Release Mechanism 55A

[107] Altemate Embodiment of a Firearm Rail Lock and Release Mechanism 55AA

[108] Altemate Embodiment of a Firearm Rail Lock and Release Mechanism 55B

[109] Hand Grip 56

[110] Figure Divots 56A

[111] Third Keyed Firearm Rail Slot 57

[112] Extended Tapered Portion-to-Porti on interlocking Tongue 58

[113] Extended Tapered Portion-to-Portion interlocking Groove 59

[114] Firearm Rail Lock and Release Mechanism 55A,B

[115] Pull Tab/Button 60

[116] Firearm 61

[117] Firearm Hand Grip 62

[118] Buoyant Body Portion Surface 64

[119] Buoyant Body Portion Side Surface 64A

[120] Flexible Cable 65

[121] Connecting Rod 70

[122] Rail Engagement Pin 75

[123] Spring 80

[124] Retaining Structure 82

[125] Firearm Rail System 85

[126] Rail Bump 86 [127] Pull Tab Release Direction 87

[128] Push Button 90

[129] Flotation Device Surface Recess 95

[130] Connecting Rod with Gearing Teeth 100

[131] Gear 105

[132] Rail Engagement Pin with Gearing Teeth 110

[133] Push Button Release Direction 115

[134] Pivot Arm 120

[135] Pivot 125

[136] Rail Engagement Pin Tip 130

[137] Engagement Slide Direction 135

[138] Rail Engagement Pin Movement 140

[139] Rail Engagement Pin Tip Jumps 145

[140] Rearward Flotation Device 200

[141] Firearm Stock Post 205

[142] Firearm Aiming Structure 210

[143] Buoyant Body 215

[144] Stock Post Receiving Hole 220

[145] Stock Post Receiving Hole Length 222

[146] Cheek Weld 225

[147] Release and Adjustment Mechanism 230

[148] User Sightline 235

[149] Conventional Firearm Stock 240

[150] Section 6.1 below discloses a forward firearm flotation device that is mounted on the rail system of a firearm. The rail system is generally on the forward side of the weapon - i.e., toward the barrel as opposed to the grip or stock. Section 6.2 discloses a rearward firearm flotation device that may be mounted to the rearward side of the weapon. A flotation system using both of these flotations devices allows for a more even distribution of buoyancy, maintaining the weapon is a more balanced position when floating. The flotation system also allows for buoyance force to be distributed to multiple positions on the firearm, instead of concentrating the flotation at one position. This is advantageous for large and heavy weapons that would require a correspondingly large buoyancy volume. Placing such a large volume at one position would make the weapon clunky and difficult to maneuver. These features and advantages will be discussed in more detail below.

6.1 FORWARD FIREARM FLOTATION DEVICE

[151] Now turning to FIGS. 1 -16, a first embodiment 10A of a forward firearm flotation device is shown. The device 10A has a buoyant body that is intended to be mounted to a firearm with a firearm rail system and includes at least two portions 15 and 20. The first buoyant body portion 15 also includes a first keyed firearm rail slot 35 which allows the firearm rail system to be inserted therein. The second buoyant body portion 20 has a second keyed firearm rail slot 40 that also accommodates the firearm rail system. This unique two piece design allows a user to break down and store the device in his backpack.

[152] The rail slots 35 and 40 are keyed (shown in greater detail in FIGS. 4A and 4B), which means that they form a shape that complements and accommodates the insertion firearm rail system 85. As shown in FIG. 4B, once the firearm rail system is inserted into the keyed firearm rail slot 35, it cannot be removed in the direction of arrow 36, rather it must be slid off the rail system. This is also shown in FIG. 33.

[153] The first buoyant body portion 15 may also have an interlocking tongue 25 that mates with an interlocking groove 30 found on the second buoyant body portion, connecting the two portions together. The interlocking tongue 25 and groove 30 may be tapered as shown in greater detail in FIGS. 13 and 14. The initial tongue depth 26 is smaller than the terminal tongue depth 28. This tapering allows the two buoyant body portions to connect together by sliding the tongue into the groove, but when the portions are in their final desired connected position relative to each other, the taper prevents the interlocking tongue 25 (and as a consequence the first buoyant body portion 15 attached to it) from sliding any further. When the interlocking tongue-in-groove is used, the device 10 may not use the first or second keyed firearm rail slots; rather, when the two buoyant body portions are mated together, they can fit snugly against the firearm such that an attachment to the rail system would be unnecessary. To further assist with keeping the device 10 snugly fitted to the firearm, a fastener 32 may be used that brings the first and second buoyant body portions together. Non-limiting examples of the fastener 32 include a strap, Velcro®, and an elastic band. Also, to better grip the firearm, the device 10 may have a gripping non-slip material 33 that grips the firearm so as to prevent slippage. This alternative would be useful when attaching to a firearm that does not have a firearm rail system.

[154] The interlocking tongue 25 and interlocking groove 30 may run substantially parallel to the axis define by the barrel of the firearm when the device is mounted to the firearm. This orientation of the tongue and grooves allows a user to easily mount the float to the firearm, one buoyant body portion at a time. For example, FIG. 34 illustrates the first buoyant body portion 15 mounted to the firearm via the first keyed firearm rail slot, shown in detail under FIG. 33. And as described in more detail below, the first buoyant body portion 15 may have a mechanism that locks the portion to the firearm. After mounting the first buoyant body portion 15 the user can slide the second buoyant body portion 20 by inserting the tongue into the groove and sliding the second buoyant body portion in the direction from firearm muzzle tip to the trigger. The fully mounted device 10A with both buoyant body portions is shown in FIG. 36.

[155] When the two buoyant body portions are joined, they may form a firearm barrel slot 45 that allows the firearm barrel to pass through the device without obstruction, and further allows the user to continue use of the firearm site as shown in FIG. 45. The first embodiment 10A also forms a firearm grip slot 50 when the two portions are joined. The firearm grip slot 50 accommodates a front firearm hand grip 62 that is used on some models of firearms, as shown in FIG. 34.

[156] FIGS. 17-32 illustrate a second embodiment of the forward firearm flotation device 10B. The device 10B is presented with the same views as that of the first embodiment 10A and is similar in many respects to the first embodiment 10A, except that the second embodiment 10B has a hand grip 56 that may have finger divots 56A to help the user better grip the device 10B when it is mounted to a firearm. The tapered portion-to-portion interlocking tongue 25 from the first embodiment 10A has been extended 58, and is formed into the hand grip 56. Likewise, the tapered portion-to-portion interlocking groove 30 has been extended 59. The second embodiment 10B can be used with a firearm that does not have a front firearm handgrip, as shown in FIG. 35. Moreover, the union of the first and second buoyant body portions forms a third keyed firearm rail slot 57, which also allows the firearm rail system to be inserted therein. This adds more stability to the device 1 OB as it is mounted to the firearm.

[157] FIGS. 41 and 42 illustrate a third embodiment IOC of the device where the device is a comprised of a single buoyant body that is mounted to the firearm by the first and second keyed firearm rail slots 35 and 40. This device IOC can also have a firearm barrel slot 45, a firearm hand grip slot 50 and a hand grip (not shown). Device IOC may also have a firearm rail lock and release mechanism 55A, 55B, and, given that it is a single buoyant body, only one such mechanism may be used to lock the entire device to the firearm.

[158] Locking the flotation devices described above to the firearm adds greater stability and reliability. Thus, the devices may have a firearm rail lock and release mechanism 55A, 55B that locks and releases the device from the firearm. While the firearm rail lock and release mechanism 55A, 55B is shown in certain positions on the device, it would be apparent that the location of the mechanism can be changed.

[159] Now with reference to FIGS. 37-40, a firearm rail lock and release mechanism 55A, 55AA, and 55B will be described. In FIG. 37, a mechanism 55A is disposed of inside of a buoyant body portion of the flotation device. It would be preferable to have such a mechanism in each buoyant body portion of the flotation device. The mechanism 55A is comprised of a rail engagement pin 75 with a compliant structure, such as a spring 80, that biases it towards the firearm rail system 85, such that the rail engagement pin can catch on one of the rail bumps 86, thus preventing the portion from sliding off the firearm rail system 85. The rail engagement pin 75 can move between an engaged position and a disengaged position, wherein when the pin is in the engaged position (shown in FIG. 37), the buoyant body portion is locked to the firearm and when the pin is in the disengaged position (i.e., lifted away from the firearm rail system 85 such that the rail engagement pin 75 can clear the rail bumps 86) the buoyant body portion can be detached from the firearm. The movement of the rail engagement pin 75 shown in FIG. 37 is by way of a pull tab/button 60 that is connected to a connecting rod 70 by way of a flexible cable 65 that exits the buoyant body portion through the surface 64. Pulling the pull tab/button 60 in the direction of arrow 87 changes the position of the rail engagement pin from the engaged to the disengaged. Retraining structures 82 may be used to maintain the installation of mechanism 55A within the buoyant body portion.

[160] FIG. 37A and B illustrate a similar mechanism 55AA, where the pin and compliant structure are formed into a rail engagement compliant tab 51 that pivots in the direction of arrow 52. FIG 37A is the disengaged position and FIG. 37B is the engaged position. Because the rail engagement tab 51 is made of a compliant material it acts as the spring that can bias the rail engagement tab 51 into the engaged position. The rail engagement tab 51 can be located near the side surface 64B of the buoyant body, such that the user can access and lift the rail engagement tab 51 to adjust the location of the buoyant body on the firearm rail system 85. The rail engagement tab 51 may have a portion 51 A that exits the side surface 64B of the buoyant body to provide easy access. The engagement portion of the tab 53 may be tapered such that it can jump along the firearm rail system bumps 86 when the buoyant body is pushed in the direction 54. This same feature is discussed in more detail below in relation to FIG. 40. Lifting the rail engagement tab 51 would allow movement of the buoyant body in the direction opposite to direction 54. The rail engagement tab 51 may be formed integrally into the keyed firearm rail slot (35 or 40), and to add more durability the keyed firearm rail slot may be made of a resilient material, such as metal or hard plastic so as to withstand several engagements and disengagements from the firearm rail system. The buoyant body may include this keyed firearm rail slot as well as a buoyant material, such as foam, formed around the keyed firearm rail slot, such that the buoyant body provides buoyancy to the firearm, while also providing a robust firearm rail lock and release mechanism. The terms rail engagement pin or a rail engagement tab are interchangeable in this disclosure. [161] FIG. 38 illustrates another mechanism 55B that changes the position of the rail engagement pin from the engaged to disengaged position via a push button. Specifically, a push button 90 may be connected to a connecting rod with gearing teeth 100. The rail engagement pin 110 may also have gearing teeth. Between the connecting rod 100 and the rail engagement pin 110 is a gear 105 that mates with the gearing teeth such that pushing the push button 90 in the direction of arrow 1 15 rotates the gear 105 and slides the rail engagement from the engaged to the disengaged position. A compliant structure, such as a spring 80,. may be used to bias the rail engagement pin 110 towards the firearm rail system 85, such that the rail engagement pin can catch on one of the rail bumps 86; thus preventing the portion from sliding off the firearm rail system 85. Alternatively, or in addition, the spring 80 may be a rotational spring that biases the gear 80 in a certain rotation, which in turn biases the rail engagement pin 110. The push button 90 may be disposed of in a recess 95 in the surface of the buoyant body portion, which may prevent the push button 90 from snagging on something, or being inadvertently pressed. Again, retraining structures 82 may be used to maintain the installation of mechanism 55B within the buoyant body portion.

[162] FIG. 39 is a graphical illustration of another embodiment of the mechanism that operates similarly to that shown in FIG. 38; however, instead of a gear 105 between the connecting rod 100 and rail engagement pin 110, a pivot arm 120 connects to the connecting rod and the rail engagement pin. Pushing down on the rod causes the pivot arm 120 to pivot about pivot 125, translating the movement to the rail engagement pin.

[163] FIG. 40 illustrates a unique rail engagement pin tip 130 that may be used with the embodiments of the mechanism just discussed. The pin tip 130 is shaped to allow the tip 130 to contact the rail bump 85 and slide over the bump 85 (arrow 140) when the mechanism slides in the direction of arrow 135. This would be helpful when the buoyant body portions 15 and 20 are slid onto the firearm rail system. The user could simply slide the buoyant body portions and the mechanisms therein in the direction of arrow 135 and the rail engagement pin would jump each bump as shown by arrows 145 until it reaches its final attached position on the firearm. Because of the tip's 130 shape, the user would not need to actively disengage the rail engagement pin, but rather it would "zip" over the rail bumps 85. However, movement of the buoyant body portions and the mechanisms therein in a direction opposite to arrow 135 would cause the rail engagement pin tip 130 to catch on the rail bump 85, preventing any further movement. To remove the buoyant body portions from the firearm, the user would have to actively disengage the rail engagement pin.

6.1 REARWARD FIREARM FLOTATION DEVICE

[164] Now turning to FIGS. 43A-45E, a rearward firearm flotation device 200 is shown mounted to a firearm stock post 205. The device 200 has a stock post receiving hole 220 into which the firearm stock post 205 is inserted. The length 222 of the stock post receiving hole is shown in FIG. 45E. The device may also have a release and adjustment mechanism 230 that mates with the stock post 205, allowing the device 200 to slide along the stock post 205 and lock into place. The device 200 includes a buoyant body 215 that is made of a buoyant material, preferably a closed cell foam. In one embodiment, a conventional firearm stock 240 is encased in a foam buoyant body, as shown in FIG. 45E.

[165] The firearm may also have an aiming structure 210, which is shown as an iron sight. Other aiming structures may include a scope. The device 200 may have formed into the buoyant body 215 a cheek weld 225 that cradles a user's cheek and aligns the user's sightline 235 (FIG. 44) with the firearm aligning structure. This is helpful because standard firearm stocks do not have such a structure and the user may not have as full contact with the stock as possible, which can affect accuracy. Further, since the buoyant body is preferably made of foam, the check weld provides shock absorbance that increases comfort to the user.

[166] FIGS. 45A, 45C and 45D provide dimensions in inches for an embodiment of the rearward flotation device 200.

[167] The forward firearm flotation devices discussed in Section 6.1 (i.e., devices 10A, 10B and IOC) can be used in combination with the rearward flotation device 200 just described. The tongue-in-groove forward flotation device 10A in combination with the rearward flotation device 200 is shown in FIGS. 46A-48E. Dimensions in inches for an embodiment of the flotation devices are provided in FIG. 48A-48E. [168] The figures referenced thus far illustrate an M4 (AR-15) rifle as the firearm. It would be apparent to one of skill in the art the teachings herein can be applied to other firearms. For example, FIGS. 49 A through 49D illustrate the forward and rearward flotation devices are mounted to a M240L firearm. This is a much larger and heavier firearm than the M4. As described below with relation to Table 1, the size of the flotations devices may be adjusted to accommodate the additional weight.

[169] The devices described herein can be manufactured out of closed cell foam including materials such as SpongEx® thermoplastic elastomer foam, polypropylene, FloTex ® foam, Styrofoam®, EVA foam, Volara foam, polystyrene, expanded polystyrene, urethane foam, epoxy foams, and PVC foam. The device can also be made out of lightweight wood like balsa. The device can alternatively be constructed from plastic with a hollow core, whereby the air inside of the device creates the buoyancy. While this is a possible construction, it is not optimal because a puncture of the outer plastic (e.g. by a bullet) would cause the device to take in water. The key point is that the construction type or material should yield a device that is buoyant in saltwater and freshwater when it is mounted to a firearm. Moreover, the firearm may be fully outfitted with attachments and large ammunition magazines, so the firearm weight can vary.

[170] Table 1 shows the weights of various rifles loaded with ammunition and the corresponding size of the flotation devices that can be used, where the foam used has a buoyancy force of 30.8 inVlb of buoyant lift.

Table 1: Weights of Rifles and Size of Flotation Devices

[171] When the rearward floatation device is constructed with a foam of a density of 6.8 lbs/ft3, the rearward flotation device is about a 0.11 the weight of the water displaced. In other words, the density of the rearward device is a 0.11 that of water. When the rearward flotation device includes the receiving hole for the stock post and a release and adjustment mechanism that mates with the stock post, the device can have a total density that is a third of water. Also various types of materials can be used, again affecting the relative density of the flotation device. For example, FloTex® is a polyethylene foam that is cross-linked, closed cell and very rigid with a 5.8 lbs/ft 3 . SpongeEx® can be extruded into a density of as low as 1 lbs/ft 3 to 3 lbs/ft 3 . In the preferred embodiment, however, the higher density foam is used because it is more durable and will not break apart when used.

[172] As shown in Table 1 , the forward flotation device is sufficient to maintain the rifle buoyant. The use of the rearward flotation device adds additional buoyant force and distributes that force more evenly across the firearm; thus making the fire arm more manageable when in water.

[173] Although exemplary embodiments and applications of the invention have been described herein, including as described above and shown in the included example Figures, it is not intended that the invention be limited to these exemplary embodiments and applications or to the manner in which the exemplary embodiments and applications operate or are described herein. Indeed, many variations and modifications to the exemplary embodiments are possible, as would be apparent to a person of ordinary skill in the art. The invention may include any device, structure, method, or functionality, as long as the resulting device, system or method falls within the scope of one of the claims that are allowed by the patent office based on this or any related patent application.