Field of the Invention
The present invention relates to firearms and, more particularly, to a ambidextrously operated charging handle for the manual manipulation of a firearms bolt carrier group, particularly the M16 family of firearms to include the AR15, AR10, M4 and all of their clones and derivatives.
Description of the Related Art
The charging handle is used to manually manipulate the bolt carrier group of a firearm. With the M16 family of firearms the charging handle is use to chamber an initial round of ammunition, clear malfunctions and as a means to retract the bolt carrier group for inspection of the firearms interior. In practice the charging handle is mounted within the upper receiver, engaging with a forward portion of the bolt carrier group, with the length of the handle running parallel with the bolt carrier group. In this orientation the handle portion of charging handle is manually operated to pull the bolt carrier group to the rear and load the first round of ammunition. Once the firearm is discharged the gas pressure produced by the discharged round of ammunition is sufficient to load subsequent rounds of ammunition.
This basic version of the charging handle has been in use since the early 1960's and is still the standard issue for all U.S. military M16/M4 style rifles and is found on the vast majority of clones used by civilians and law enforcement. The prior art charging handle for the M16 family of firearms has a shape approximating the capital letter “T”, with the transverse member of the “T” acting now as the grasping handle. The grasping handle is rounded and relatively small making it difficult to gain and maintain a firm grip of, especially when gloves are employed or when the user is trying to rapidly operate the charging handle under stress. The grasping handle is provided with a latch mechanism having a spring biased hook at one end that engages on a portion of the upper receiver to hold the charging handle in place when it is not in use. The latch mechanism is located on the left side of the grasping handle and is designed to be compressed by the user against the forward face of the grasping handle, thereby compressing the biasing spring, disengaging the hook portion from the upper receiver and allowing the charging handle to be rearwardly retracted. Specifically due to the location and size of the latch mechanism on the grasping handle, its operation is difficult for left handed shooters and for right handed shooters using their left hand.
The prior art charging handle relies on a spring force to bias the latch element into operational engagement with the upper receiver and thereby retain the charging handle in place. This spring is visible when the charging handle is viewed from the rear thus exposing the spring to the elements. This exposure can result in rusting and/or contamination of the spring by debris from the environment.
Modified latch mechanisms and extended latch elements have been made in an attempt to address some of the above deficiencies found in the prior art. For example, the modified latch by PRI (Big Latch 05-0041, Precision Reflex, Inc, New Breman, Ohio) has an enlarged grasping surface that extends laterally past the grasping handle and includes a textured gripping surface. However, this extended latch design and those like it still have several deficiencies. This design, and those like it, fail to provide a latch element on the right side of the charging handle which is operable by a left handed shooter, or a right handed short using their left hand, to manually operate the bolt carrier group of the host firearm.
The prior art roll pin used to secure the latch mechanism to the grasping handle of the charging handle is another point of deficiency. The roll pin used is designed to provide a fulcrum for the latch mechanism. Many of the extended latches found in the market rely on the prior art roll pin to provide an axis of rotation and to resist the rearward movement of the latch while it is being operated. As a result, the extended latch element will shear through the roll pin during hard use thereby separating the latch mechanism from the charging handle. It would be highly advantageous, therefore, to remedy the foregoing and other deficiencies inherent in the prior art.
In view of the foregoing, one object of the present invention is to overcome the shortcomings in the design of charging handles for M16 type firearms as described above
Another object of the present invention is to provide charging handle which can be ambidextrously operated.
Yet another object of the present invention is to provide a charging handle in accordance with the preceding objects in which an operable member of the latch mechanism is located on each side of the charging handle.
A further object of the present invention is to provide a charging handle in accordance with the preceding objects in which either operable member of the latch mechanism may be independently operated to disengage the charging handle from the firearms receiver.
A still further object of the present invention is to provide a charging handle in accordance with the proceeding objects in which the spring operating mechanism which biases the latch mechanism is protected from the elements.
Yet another object of the present invention is to provide a charging handle in accordance with the preceding objects in which both portions of the charging handles latch mechanism are secured in place through the use of a robust axial pin.
In accordance with these and other objects, the present invention is directed to a charging handle for use with an M16 type firearm. This charging handle may be retrofitted to an existing M16 type firearm without the need for any modification of the receiver of the firearm or any other part thereof.
The charging handle has a generally “T” shape with the forward end being configured to engage with a portion of a bolt carrier and the rear end acting as a grasping surface. There is provided a latch mechanism consisting of two handles that are in communication with each other through an intermediate element. One of the handles has a latch which engaged with a portion of a firearms receiver, but either handle may be retracted to disengage the latch. Each handle is independently secured to the charging handle thru the use of a robust axial pin.
In addition, the charging handle provides an internal housing for the spring and plunger which operationally connects the two handles of the latch mechanism. Each handle has a protrusion which is received within a recess located on the plunger. When either handle is retracted the plunger is depressed thereby retracting the other handle of the latch mechanism while at the same time disengaging the latch from the host firearms receiver.
These together with other improvements and advantages which will become subsequently apparent reside in the details of construction and operation as more fully hereinafter described and claimed, reference being had to the accompanying drawings forming a part hereof, wherein like numerals refer to like parts throughout.
In describing a preferred embodiment of the invention illustrated in drawings, specific terminology will be resorted to for the sake of clarity. However, the invention is not intended to be limited to the specific terms so selected, and it is to be understood that each specific term includes all technical equivalents which operate in a similar manner to accomplish a similar purpose.
The present invention is directed towards a charging handle for use with the M16 family of firearms which includes the AR15, AR10, M16 and M4 rifles of all varieties and other derivatives to include those which use a gas piston in place of a gas tube.
As used herein, “front”, “forward”, and “distal” correspond to the end of the charging handle 10 where the bolt carrier engagement portion 34 is located (i.e., to the right as shown in
As shown in
As shown in the exploded view of the charging handle assembly provided in
The latch mechanism 40 consists of a primary handle 41, a secondary handle 50, a spring 22 and plunger 24. The primary handle consists of a body 45 portion extending between a hook 43 formed on it's distil end, an integrally formed textured grasping surface 42 and protrusion 60A located on its proximal end. The secondary handle 50 has a body 55 portion extending between a protrusion 60B located adjacent is proximal end and a textured grasping surface 51 on it's distil end. The recess 46 located on the left side of the grasping handle 20 is configured to house the primary handle 41 while the recess 52 on the right side is configured to house the secondary handle 50. The hook 43 of the primary handle 41 is configured to engage with a recess found on all prior art upper receiver groups used with M16 type firearms.
Located on the back side of the grasping handle 20 is an opening 32 for the spring 22 and plunger 24 that includes a longitudinal bore which extends from the back end of the grasping handle 20 forward for a distance sufficient to accommodate the spring 22 and plunger 24 when the charging handle 10 is fully assembled (see
The recesses 26A and 26B of the plunger 24 are concave openings, with a semicircular shape if viewed from the side (see
The grasping handle 20 of the charging handle assembly 10 is also provided two openings 28A and 28B which extend through its top surface 27 and bottom surface 29, each of which is of sufficient diameter and depth to receive an axial pin 44. The axial pin 44 has a head 48 portion, a tail portion 47 and is constructed from a solid piece of stainless steel, but alternatively could be constructed from any ferrous or aluminum alloy. Both the primary handle 41 and the secondary handle 50 have an opening 48A and 48B, respectively, which is designed to receive a portion of an axial pin 44 (see
The axial pin 44 is essentially a rivet, having a head portion 48, trail portion 47 with a body portion 49 extending therebetween. The head portion 48 is larger in diameter than the body portion 49 which in turn is larger in diameter than the tail portion 47. To function as a fastener, the tail portion 47 of the axial pin 44 is deformed by an arbor press which simultaneously compresses and expands it.
The shaft 30 and grasping handle 20 portions of the charging handle assembly 10 are manufactured from 7075 aluminum, alternatively 6065 aluminum or other alloys with similar structural characteristics could be used. The shaft 30 and grasping handle 20 are machined from a single piece of aluminum that is type III hard coat anodized after machining.
The charging handle is assembled by inserting the spring 22 and plunger 24 into the provided opening 32 in the grasping handle 20. The primary handle 41 is then inserted into the recess 46 provided on the left side of the grasping handle 20 such that its protrusion 60A member is received by the recess 26A of the plunger 24 while the opening 48A on its body portion 45 is aligned with the opening 28A of the grasping handle 20. An axial pin is then pressed through the openings 28A and 48A of the grasping handle 20 and primary handle 41, respectively, securing the primary handle 41 in place. The axial pin 44 is secured in place by having its tail portion 47 deformed by an arbor press. The secondary handle 50 is inserted into the recess 52 found on the right side of the grasping handle 20 such that its protrusion 60B is received within the recess 26B of the plunger 24 while the opening 48B on its body portion 55 is aligned with the opening 28B of the grasping handle. Similarly, an axial pin 44 is pressed through the openings 28B and 48B of the grasping handle 20 and the secondary handle 50, respectively. The axial pin 44 is retained in place in the same manner as described above. The axial pins 44 both retain the handles 41 and 50 in place within their respective recesses 46 and 52 and provide a surface about which the handles 41 and 50 may rotate. The opening 32 which houses the plunger 24 runs perpendicular to an interior aperture 56 which connects the two recesses 46 and 52. The aperture 56 is of sufficient width to allow for the rotational movement of the protrusions 60A and 60B.
In the preferred embodiment, the primary handle 41 and secondary handle 50 each extend laterally past the exterior of the grasping handle 20 portion of the changing handle assembly 10. In some embodiments the width of the handles 41 and 50 grasping surface may be increased or decreased based on the end users needs without departing from the scope of the invention disclosed herein. Further, in the preferred embodiment of the charging handle assembly 10 the primary handle 41 and secondary handle 50 extend laterally past the exterior of the grasping handle 20 an equal distance as measured from the center line of the grasping handle 20. Both the primary and secondary handles 41 and 50 extend past the left and right sides of the grasping handle 20, respectively, by approximately 0.189″.
To use the charging handle assembly 10 when assembled on a rifle 80 as shown in
The charging handle assembly 10 functions as follow. Each handle 41 and 50 has an opening 48A and 48B, respectively, which receives and rotates about a portion of the axial pin 44 used to secure it to the grasping handle 20. While secured to the grasping handle the protrusion 60A of the primary handle 41 and the protrusion 60B of the secondary handle are secured within their respective recesses 26A and 26B on the plunger 24. The plunger 24 places each handle 41 and 50 in operational contact with the other.
When neither handle 41 and 50 are in use the spring 22 biases the plunger 24 towards the rearward end of the charging handle assembly 10, or first position. Retracting either handle 41 and 50 causes the force applied to the grasping surfaces 42 and 51 to be transferred to the plunger 24, thereby compressing the spring 22 and plunger 24 towards the forward end of the charging handle assembly 10. This in turn disengages the hook 43 of the primary handle 41 from the upper receiver 70 and also, through the operation of the plunger 24 and spring 22 results in both handles 41 and 50 being retracted even if only one of them is having a force applied to it by the user. This is also referred to as the second position for the latch mechanism 40.
The textured applied to the grasping surfaces 42 and 51 is intended to aid the user in acquiring and maintaining a grip on the handles 41 and 50 during use of the charging handle assembly 10.
Each axial pin 44 is constructed from a solid piece of metal and is larger in diameter that the prior art roll pin 90. The use of a solid pin of increased diameter, as compared to the prior art roll pin 90, results in a more robust axial pin 44 that is resistant to shearing. Shearing occurs when a force is applied to the latch during operation of the charging handle resulting in the latch shearing through the pin retaining it in place, particularly the prior art roll pin 90. Latches which extend laterally past the grasping handle are particularly prone to this failure, thus the need to provide a more robust means of securing a latch element(s) to the grasping handle exist.
An alternate embodiment of the charging handle assembly, generally designated by reference numeral 100, is illustrated in
In general, the charging handle assembly 100 consists of a shaft 130 which is integrally connected to a transverse member which acts as a grasping handle 120 and a primary handle 141 with an integral hook 143. A bolt carrier engagement portion 134 is located on the forward end of the shaft 130. The primary handle 141 consists of a body portion 145 with the hook 143 being located at it's distil end connected to a gasping surface 142 and a protrusion 160 located at its proximal end. The grasping surface 142 of the primary handle 141 is textured. The primary handle 141 is housed within a recess 146 formed between the top surface 127 and bottom surface 129 of the grasping handles 120 left side. A longitudinal opening 132 located on the backside of the grasping handle is configured to receiver a spring 122 and plunger 124. The plunger 124 has two identical recesses 126A and 126B. The primary handle 141 is attached to the grasping handle 120 and retained in place though the use of an axial pin 144 in substantially the same manner as disclosed in connection with the preferred embodiment charging handle assemble 10 above.
As shown in the partial cutaway view in
The primary handle 141 of the charging handle assembly 100 laterally extends past the left side exterior 147 of the grasping handle 120 by approximately 0.189″.
The alternate embodiment charging handle assembly 100 may be constructed from the same materials as the preferred embodiment charging handle assembly 10.
The texture applied to the grasping surfaces 42, 51 and 142 of the handles 41, 50 and 141 respectively is composed of a series of latitudinal furrows which form a series of peaks and valleys along the forward face of the handles 41, 50 and 141. The texture applied to these surfaces could be modified without departing from the inventive concepts disclosed herein.
The plunger 24 and spring 22 being housed within a longitudinally extending opening 32 within the grasping handle offers several benefits. First, when assembled the plunger protects the spring from water, dirt and other debris which may migrate into the inner workings of the charging handle and compromise the charging handles proper function. Second, the plunger places the two handles 41 and 50 into communication with each others, providing the user with operational flexibility and ambidextrous operation capabilities. Third, the plunger provides a robust way by which the handles 41 and 50 may be held in operational communication that is not likely to succumb to hard use. Fourth, the axial pin 44 provides a significantly more robust way to secure a rotatable handle to the grasping surface 20. Many of these same advantages are also offered by the alternate embodiment charging handle assembly 100.
Illustrated in
The foregoing description and drawings should be considered illustrative only of the principles of the invention. The invention may be configured in a variety of shapes and sizes and is not limited by the dimensions of the preferred embodiment. Numerous applications of the present invention will readily occur to those skilled in the art. Therefore, it is not desired to limit the invention to the specific examples disclosed or the exact construction and operation shown and described. Rather, all suitable modifications and equivalents may be resorted to, falling within the scope of the invention.
This application is a continuation of U.S. patent application Ser. No. 14/579,704, filed Dec. 22, 2015, which is a continuation of U.S. patent application Ser. No. 13/730,950, filed Dec. 29, 2012, now U.S. Pat. No. 8,960,066, which is a non-provisional application claiming priority from and the benefit of U.S. Provisional Application No. 61/587,348, filed Jan. 17, 2012. The contents of each is incorporated herein in their entirety.
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20170038170 A1 | Feb 2017 | US |
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Parent | 14579704 | Dec 2014 | US |
Child | 15165537 | US | |
Parent | 13730950 | Dec 2012 | US |
Child | 14579704 | US |