To improve situational awareness, electronic accessory devices such as lights, radios, thermal imaging cameras, range finders, displays, and the like are added to firearms. Each electronic accessory device typically has its own batteries as a power source. The batteries in each electronic accessory device can add a significant amount of weight and bulk to a firearm which can make the firearm difficult to carry and aim.
Another problem is to reliably provide electrical power to the electronic accessory devices while mounted on the firearm in an environmentally hostile environment. Rain, humidity, dirt, corrosion, and extreme temperatures can interfere with the steady supply of electrical power to the electronic accessory devices when mounted on a firearm.
In general terms, the present disclosure relates to a firearm with an electrical power source. In one possible configuration and by non-limiting example, the firearm includes a pivot pin device providing a mechanical pivot point between an upper receiver and a lower receiver, and further providing a transfer of electrical power from the electrical power source in the lower receiver to at least one accessory rail mounted on the upper receiver.
In one aspect, a firearm comprises a lower receiver storing an electrical power source, an upper receiver attached to the lower receiver, and a pivot pin device providing a mechanical pivot point between the upper and lower receivers. The pivot pin device further provides a transfer of electrical power from the electrical power source in the lower receiver to at least one accessory rail attached to the upper receiver. The at least one accessory rail having electrical contacts configured to engage corresponding contacts on an electronic accessory device to supply the electrical power to the electronic accessory device.
In another aspect, a pivot pin device for a firearm comprises a housing defining an interior cavity for routing electrical conductors from a first end of the pivot pin device to a second end of the pivot pin device, the housing including: a cylindrical portion terminating at the first end and being configured to provide a mechanical pivot point between upper and lower receivers of a firearm; and a lateral portion extending substantially orthogonal from the cylindrical portion and terminating at the second end; first and second electrical contacts positioned at the first end, the first and second electrical contacts axially spaced apart from one another and each having an exterior portion configured to engage a respective coil contact inside a receptacle in the lower receiver, and each having an interior portion engaging a respective electrical conductor; and a plug portion positioned at the second end, the plug portion being configured for insertion inside a ruggedized connector port in the upper receiver to mate the electrical conductors with corresponding conductors inside the ruggedized connector port for transferring electrical power from the lower receiver to the upper receiver.
In another aspect, an electrical system for a firearm comprises an electrical power source; a socket drawing electrical power from the electrical power source; lower conductors carrying the electrical power from the socket to a receptacle, the receptacle configured for being incorporated into a lower receiver of a firearm; a pivot pin device transferring the electrical power from the receptacle to a ruggedized connector port, the ruggedized connector port configured for being incorporated into an upper receiver of a firearm, the pivot pin device being configured to provide a mechanical pivot point between the upper and lower receivers of the firearm; upper conductors carrying the electrical power from the ruggedized connector port to a conductive bus, the conductive bus configured for attachment to the upper receiver; and at least one accessory rail receiving the electrical power from the conductive bus, the at least one accessory rail configured for attachment to the upper receiver and having electrical contacts configured to engage corresponding contacts on an electronic accessory device to supply the electrical power to the accessory electronic accessory device.
In another aspect, a power coupling for use on an accessory rail comprises: a housing defining an interior space; a conductive bus housed inside the interior space, the conductive bus configured to transfer electrical power around a barrel of a firearm; receptacles electrically connected to the conductive bus, each receptacle configured to receive an end of a conductive strip; and sealing glands sealing a connection between each receptacle and conductive strip.
A variety of additional inventive aspects will be set forth in the description that follows. The inventive aspects can relate to individual features and to combinations of features. It is to be understood that both the forgoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the broad inventive concepts upon which the examples disclosed herein are based.
The following drawing figures, which form a part of this application, are illustrative of described technology and are not meant to limit the scope of the disclosure in any manner.
Various embodiments will be described in detail with reference to the drawings, wherein like reference numerals represent like parts and assemblies throughout the several views. Reference to various embodiments does not limit the scope of the claims attached hereto. Additionally, any examples set forth in this specification are not intended to be limiting and merely set forth some of the many possible embodiments for the appended claims.
The firearm 10 includes an upper receiver 12 attached to a lower receiver 14. The upper receiver 12 includes a barrel 16, a handguard 18 that partially surrounds the barrel 16, at least one accessory rail 204, and a muzzle 22. The lower receiver 14 includes a grip 24, a trigger guard 26, a trigger 28, a magazine well 30, and a buttstock 32. Alternative configurations are contemplated such that the upper and lower receivers 12, 14 of the firearm 10 may include additional components not shown in the figures or may not include all components shown in the figures such that some of the components can be optional.
In addition to providing a mechanical pivot point between the upper and lower receivers 12, 14, the pivot pin device 100 provides a transfer of electrical power from an electrical power source 202 (see
Referring now to
When the upper and lower receivers 12, 14 are in the open position, the lobe 118 disengages the tab 56 allowing removal of the pivot pin device 100 from the firearm 10. For example, when in the open position shown in
Still referring to
While the drawings show the electrical power source 202 as having a plurality of batteries, the electrical power source 202 may include a single battery or may include more than one battery such as a plurality of batteries. In a preferred embodiment, the electrical power source 202 includes one or more rechargeable batteries. In other embodiments, the electrical power source 202 can include one or more disposable batteries such as AA batteries.
A socket 206 in the lower receiver draws electrical power from the electrical power source 202. Lower conductors 208 carry the electrical power from the socket 206 to a receptacle 210 in the lower receiver. The lower conductors 208 can include a pair of electrical wires that carry the +/−DC voltage generated from the electrical power source 202. The lower conductors 208 can be housed inside a cable jacket 209 to protect them from outside elements.
As shown in
Upper conductors 216 carry the electrical power from the ruggedized connector port 214 to a conductive bus assembly 218 that is mounted on the upper receiver 12. The upper conductors 216 can include a pair of electrical wires that carry the +/−DC voltage generated from the electrical power source 202. The upper conductors 216 can be housed inside a cable jacket 217 to protect them from outside elements. As shown in
The channel 52 routes the lower conductors 208 along the second side of the firearm 10 while the sheath 54 routes the upper conductors 216 along the first side of the firearm 10. Thus, the pivot pin device 100 not only transfers the electrical power from the lower receiver 14 to the upper receiver 12, but also transfers the electrical power across the firearm 10 from the second side of the firearm 10 to the first side of the firearm 10. Advantageously, running the lower and upper conductors 208, 216 on opposites sides of the firearm 10 improves the weight distribution and balance of the firearm 10 which can make the firearm 10 easier to carry and aim.
The conductive bus assembly 218 transfers the electrical power from the upper conductors 216 to the at least one accessory rail 204.
Each accessory rail 204 also includes grips 222 that enable each accessory rail 204 to be mechanically gripped by an electronic accessory device for attachment of the electronic accessory device to the firearm 10. In some examples, the grips 222 correspond to the structure of a Picatinny rail such that a variety of electronic accessory devices can be attached to the accessory rails 204 for mounting onto the firearm 10.
In the examples illustrated in the figures, the electrical system 200 includes four accessory rails 204 mounted around the handguard 18 of the firearm 10. Alternative configurations are contemplated such that fewer than four accessory rails 204 can be mounted to the firearm 10 or more than four accessory rails 204 can be mounted to the firearm 10. Also, the location where the accessory rails 204 are mounted on the upper receiver 12 may vary such that the accessory rails 204 can be mounted to different portions of the upper receiver 12 without mounting to the handguard 18 such as a top portion of the upper receiver 12.
As shown in
Advantageously, the switch 230 can be used to enforce light discipline during combat such that electronic accessory devices when mounted to the firearm 10 are not accidentally turned on during battle (if accidentally turned on, the electronic accessory devices can be seen by the enemy and give away the position of the user of the firearm 10). Another advantage of the switch 230 when turned off is that it can eliminate parasitic energy losses from the electronic accessory devices to preserver the battery life of the electrical power source 202.
As shown in
In the examples illustrated in the figures, the control module 240 is at least partially secured to the handguard 18 by a mechanical fastener 242 (see
The housing 102 has a cylindrical portion 108 that terminates at the first end 104 and a lateral portion 110 that extends substantially orthogonal from the cylindrical portion 108 and that terminates at the second end 106. The housing 102 is substantially L-shaped such that the cylindrical portion 108 is configured to traverse between the first and second sides of the firearm 10 and the lateral portion 110 is configured to be substantially parallel to the first side of the firearm 10 when the pivot pin device 100 is inserted into the upper and lower receivers 12, 14.
The cylindrical portion 108 is configured to provide the mechanical pivot point between upper and lower receivers 12, 14 of the firearm 10. Additionally, the cylindrical portion 108 is configured to prevent detachment of the upper and lower receivers 12, 14 when the pivot pin device 100 is inserted through the upper and lower receivers 12, 14.
First and second electrical contacts 112, 114 are axially spaced apart from one another on the cylindrical portion 108 towards the first end 104. The first and second electrical contacts 112, 114 are each configured to engage corresponding first and second coil contacts 232, 234 inside the receptacle 210 (see
A plug portion 116 positioned at the second end 106 is configured for insertion inside the ruggedized connector port 214 in the upper receiver 12 to mate the electrical conductors inside the pivot pin device 100 with the corresponding upper conductors 216 inside the ruggedized connector port 214 for transferring the electrical power from the electrical power source 202 in the lower receiver 14 to the accessory rails 204 in the upper receiver 12.
The lobe 118 (described above with reference to
As shown in
As further shown in
A gasket 132 surrounds the plug portion 116 to provide an environmental seal between the plug portion 116 and the ruggedized connector port 214. For example, the gasket 132 can engage a housing 215 (see
Still referring to
As shown in
The conductive bus assembly 218 has receptacles 238 electrically connected around the conductive bus 228. The receptacles 238 receive ends of conductive strips 250 to transfer the electrical power from the conductive bus 228 onto the conductive strips 250. The conductive strips 250 are mounted to the accessory rails 204 (see also
In some examples, the conductive bus assembly 218 includes four receptacles 238 such that four conductive strips 250 can be mounted around the barrel 16. It is contemplated that the number of receptacles 238 mounted to the conductive bus 228 can vary such that fewer than four conductive strips 250 can be mounted to the firearm 10 or more than four conductive strips 250 can be mounted to the firearm 10. In some examples, the receptacle 238 are female connectors while the ends of the conductive strips 250 are male connectors. In some examples, the conductive bus assembly 218 daisy chains a plurality of conductive strips 250 together such that each conductive strip 250 powers a plurality of electronic accessory devices.
The conductive bus assembly 218 further includes sealing glands 248 that seal the electrical connection between the receptacles 238 and the ends of the conductive strips 250. In some examples, the sealing glands 248 are made from a soft rubber material. The sealing glands 248 protect the electrical connection between the conductive bus assembly 218 and the conductive strips 250 from outside elements such as water, humidity, dirt, and the like. Advantageously, the sealing glands 248 ensure a steady supply of electrical power to the conductive strips 250 such that the electrical power to one or more electronic accessory devices mounted onto the accessory rails 204 is not interrupted.
Advantageously, the conductive bus assembly 218 including the conductive strips 250 are a modular system that can be added onto a standard firearm with little or no modification of the original components of the firearm. For example, the housing 224 of the conductive bus assembly 218 can be mounted around the handguard of the firearm, while the conductive strips 250 can be added to the accessory rails of the firearm (e.g., Picatinny rails) without substantial modifications to the handguard and accessory rails, respectively. Accordingly, in some examples, the conductive bus assembly 218 is a power coupling for use on an accessory rail. Additionally, the receptacles 238 and sealing glands 248 allow accessory rails equipped with the conductive strips 250 to be simply plugged into the conductive bus assembly 218, and thus simplify the assembly of the electrical system 200 onto the firearm 10.
The various embodiments described above are provided by way of illustration only and should not be construed to limit the claims attached hereto. Those skilled in the art will readily recognize various modifications and changes that may be made without following the example embodiments and application illustrated and described herein, and without departing from the true spirit and scope of the following claims.
This application is a Continuation of U.S. application Ser. No. 16/746,749, filed on Jan. 17, 2020, the disclosure of which is hereby incorporated by reference in its entirety. To the extent appropriate a claim of priority is made to the above-disclosed application.
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Number | Date | Country | |
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Number | Date | Country | |
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Parent | 16746749 | Jan 2020 | US |
Child | 17196882 | US |