This invention relates to a striking mechanism for rifles that provides a semi-automatic operation whereby a single cartridge is fired with each pull of the trigger. More particularly the striking mechanism has been designed and adapted for use in an originally fully automatic firearm. The striking mechanism of the present invention is only capable of semi-automatic operation and has been designed to inhibit conversion of the firearm back to fully automatic operation. Methods for the conversion of cartridge firing firearms from fully automatic operation to semi-automatic operation are also provided. Additionally the present invention provides an assembly for the semi-automatic operation of a cartridge firing firearm.
There has always been interest in collecting and shooting weapons that have been developed for and used by the military, both handguns and rifles. This interest is held by many civilians, particularly those who served in the military. Because many of the firearms are capable of fully automatic fire, private ownership is both a right and a privilege and is available to qualified, law-abiding individuals who, in accordance with federal law, acquire a Class II or III Firearms Dealer license or those individuals who apply for and obtain the requisite permission from the local authority where they reside and the Bureau of Alcohol, Tobacco, Firearms and Explosives (BATFE) to become the registered owner of a NFA (National Firearms Act) firearm.
Semi-automatic firearms, on the other hand, are not subject to as rigorous a procedure to own and fire legally and in fact, can currently be legally transferred between individuals. While there is a good selection of handguns and rifles capable of semi-automatic operation, including some “civilian” versions of military firearms, original fully automatic firearms are not readily available in semi-automatic versions. The reasons are numerous including cost of the original firearm, costs to convert it, the necessity for a gunsmith or armorer to perform the work and, the realization on the part of one who has legally acquired such a firearm that the value is often seriously diminished by conversion to semiautomatic operation. Notwithstanding the foregoing reasons, there is a desire for original firearms that have been legally converted to semi-automatic operation and are thus, more readily acquired.
This invention involves the conversion of an M240 automatic rifle to semi-automatic fire. The M240 is a gas operated, air cooled automatic firearm. Expanding gases from the ignition of powder in the cartridge furnishes the energy for the operation or cycling of the rifle. Immediately after firing, as the bullet traverses the barrel and passes an internal gas port prior to exiting from the muzzle, the live gases expand through the gas port into the gas tube or cylinder to impinge against the head of a piston. In so doing, the piston within the gas cylinder is forced rearwardly, toward the buttstock, driving an operation rod assembly (herein “op rod assembly”) which cycles a combination of internal components while compressing a recoil spring that effects the return movement.
The op rod assembly carries the firing pin and a bolt link pivotally secures the op rod to the bolt lock. As the op rod assembly begins to travel rearwardly under the influence of the expanding gases resulting from the firing of a cartridge, the bolt link rotates and pulls the bolt lock up out of its cradle in the receiver, thereby unlocking the bolt from the receiver. Once free from the mating receiver surfaces, the bolt travels rearwardly with the bolt link and op rod assembly as it continues its rearward travel. In so doing, several additional operations continue. Cartridges for the M240 are belt fed, and the bolt carries a roller that engages a feed lever to feed cartridges into the receiver in a known manner, during this rearward travel. The op rod assembly contacts a buffer in the buttstock, halting its rearward movement, and immediately begins return travel in response to the compression of the recoil spring. Continued forward movement is then a function of the position of the trigger.
Assuming the trigger remains depressed, it will not engage the sear ledge on the underside of the op rod assembly and thus the op rod assembly will continue forward under the influence of the recoil spring. During the forward movement, the bolt strips a cartridge from the belt for chambering. Because they are associated with the op rod assembly, the bolt, bolt lock and bolt link also move forward until the very last increment of movement. The bolt moves until the cartridge is seated, which limits the forward movement of the bolt so that the bolt link is caused to rotate downward, lowering the bolt lock into locking engagement with the receiver, at which stage, the bolt cannot move rearwardly. Directly thereafter, the firing pin carried by the op rod assembly is forced to strike the primer of the chambered cartridge, thereby firing it whereby the above firing sequence is repeated in response to sustained depression of the trigger or until the ammunition is exhausted.
Repeat of this cycle is dependent upon the trigger remaining in the fired position. If the operator releases the trigger, the sear is immediately raised into the path of the sear ledge on the reciprocating op rod assembly. In rearward travel, the op rod assembly can push the sear down to pass over it. However, upon the return, the sear is raised by a spring and engages the sear ledge, halting continued forward movement of the op rod assembly. When this occurs, the action remains opened, and no new round is loaded. Accordingly, the M240 rifle is one which fires from the open bolt and, as soon as the trigger is again pulled, the sear is pulled out of engagement with the sear ledge, allowing the op rod assembly to move forward causing all of the foregoing operations. The bolt closes, taking with it a fresh round from the belt, which is simultaneously chambered and instantaneously thereafter fired, as the foregoing sequence is allowed to repeat.
Basically, the art has not provided a facile means or device by which the M240 can be essentially permanently converted to semi-automatic only operation. Accordingly, there is a need for a striking mechanism that is capable of rendering the M240 rifle a semi-automatic firearm. Moreover, to comply with the existing federal laws, such a firearm must meet BATFE approval which is given where the Bureau determines that the firearm is not readily converted back to fully automatic operation.
In general, this invention provides a striking mechanism for the semi-automatic operation of a cartridge firing firearm. The striking mechanism includes a receiver, a barrel attached to the receiver and providing a breach, an op rod assembly, and a bolt adapted for reciprocating movement within the receiver and engagable with the breach of the barrel and the face of a cartridge chambered therein. The bolt carries a primary firing pin, and a bolt lock means is pivotally connected to the bolt for selectively locking the bolt within the receiver. A bolt link assembly is pivotally connected to the bolt lock means and to the op rod assembly. The bolt link assembly provides a bolt link transfer pin. An op rod transfer pin is carried by the op rod assembly and can engage the bolt link transfer pin. A linear hammer can engage the op rod transfer pin such that, when a cartridge is chambered and the primary firing pin, the bolt link transfer pin and the op rod transfer pin are in alignment, the force of the linear hammer engaging the op rod transfer pin is transferred through the op rod transfer pin, the bolt link transfer pin and the primary firing pin to strike the primer of a cartridge chambered within the barrel.
The present invention also includes a method for converting a cartridge firing firearm from fully automatic operation to semi-automatic operation, wherein the cartridge firing firearm of fully automatic operation provides a receiver; a barrel attached to the receiver, the barrel providing a breach; a bolt reciprocable within the receiver, the bolt being engageable with the breach of the barrel and the face of a cartridge chambered therein; a bolt lock pivotally connected to the bolt for selectively locking the bolt within the receiver, and an op rod assembly movable within the receiver and providing a sear ledge and carrying a firing pin, a bolt link pivotally connected to the bolt lock and to the op rod assembly and permitting passage of the firing pin through the bolt link; and a trigger assembly including a sear engagable with the sear ledge on the op rod assembly. The method for converting comprises replacing the bolt with a converted bolt providing a primary firing pin; replacing the bolt link with a converted bolt link providing a bolt link transfer pin; replacing the op rod assembly with a converted op rod assembly having no sear ledge for interaction with the sear, the converted op rod assembly providing an op rod transfer pin; and providing a linear hammer having a sear ledge for interaction with the sear of the trigger assembly, the linear hammer being urged toward the op rod assembly by a hammer spring.
The striking mechanism according to the present invention has been adopted for use in a formerly fully automatic rifle, and is provided to cause the rifle to operate as a semi-automatic firearm. The striking mechanism herein is shown used in what was formerly a fully automatic M240 Rifle, though it will be appreciated that the striking mechanism could have further applications elsewhere, and this invention is not limited to or by use in an M240 Rifle. Fully automatic fire, or true “automatic” occurs when the trigger of the firearm is pulled or depressed without release and a plurality of cartridges are continuously cycled through the rifle, each being fired in succession until either the trigger is released or the supply of cartridges has been exhausted. As soon as the trigger is released, firing ceases; when it is again depressed automatic firing re-commences, assuming a remaining supply of cartridges. Semi-automatic fire is that operation that fires only a single cartridge or round every time the trigger is depressed, whether the trigger is held depressed or released. Once the trigger is released, components of the striking mechanism are re-aligned for the next “pull” of the trigger, whereupon another cartridge is fired.
The striking mechanism of the present invention has been specifically designed and reduced to practice for use in an automatic rifle as a replacement for the original striking mechanism that produced fully automatic fire. One such rifle in particular is the M240 Automatic Rifle, Caliber 7.62×51 mm, including the known model variations. A portion of such a rifle is depicted in
The forward and backward movement of the op rod assembly 18 cycles internal components, commonly referred to as the action. After a cartridge has been fired, the op rod assembly 18, which carries a firing pin 24, is forced rearward (to the right in
Thus, the original M240 Rifle is provided with a striking mechanism for fully automatic operation. Private ownership of such firearms is restricted by federal law to Class II and III Firearms Dealers and those citizens who apply for and obtain the requisite permission from the local authority where they reside and the Bureau of Alcohol, Tobacco, Firearms and Explosives (BATFE) to become the registered owner of a NFA (National Firearms Act) firearm. By converting the fully automatic fire rifle to permanent semi-automatic operation, the rifle can be owned by qualified and approved citizens without registration as an NFA firearm.
The present invention provides such a conversion by the means of a novel striking mechanism, as depicted in
The striking mechanism 116 includes a bolt 130 (
Before proceeding with a detailed description of the striking mechanism 116, a general discussion pertaining to the interaction of the other components will be useful. With reference to
With reference to
Similarly, with reference to
With reference to
As best depicted in
In order to cycle the action without firing, for loading and clearing, a cocking slide provides a handle at the right side of the receiver 114. The cocking slide reciprocates within a longitudinal recess cut into the receiver 114. A stop at the forward edge of the recess defines a rest or home position for the cocking slide. The slide carries a lug on its inner side that is engageable with the op rod assembly 118 such that pulling rearwardly on the handle draws the op rod assembly 118 rearwardly. The initial movement of components causes the bolt link assembly 126 to rotate, drawing the bolt lock 128 upwardly to unlock the bolt 130. Subsequently, the bolt 130 is moved rearwardly and extracts any cartridge within the chamber. The movement of the op rod assembly 118 pushes the linear hammer 146 rearwardly. When pulled far enough, a sear ledge 136 machined on the bottom of the linear hammer 146 catches on the sear 132 of the trigger assembly 148. As the bolt 130 is allowed to move forwardly, due to the return spring 122, it strips another round, and eventually closes on the chamber 152, while the linear hammer 146 remains held back by the interaction of the sear 132 and sear ledge 136 and is under tension to move forwardly by the action of a hammer spring 199.
With reference again to
The trigger assembly 148 includes a trigger 134 that is pivotally carried on a pin 135. The crescent portion of the trigger 134 is below the pivot point established by the pin 135, but the body of the trigger 134 extends above that pivot point to interact with a disconnector 137 pivotally secured to the trigger 134 by a pin 138. The disconnector 137 is biased by a compression spring 139 to engage a latch end 200 of the sear 132, which is itself biased for limited rotational movement by a torsion spring 202. With reference to
More particularly, when the trigger 134 is squeezed, the disconnector 137 is pulled at pin 138 forwardly against cam 206, thus forcing the disconnector 137 to also move downwardly against the compression spring 139. The forward movement causes the disconnector 137 to pull on the latch end 200 of the sear 132, thus causing the sear 132 to pivot and its tip 204 to disconnect from the sear ledge 136, thus leading to the firing of the cartridge. At substantially the same time, the disconnector 137 disconnects from the sear 132, thus permitting the sear 132 to move independent of the trigger 134 under the influence of torsion spring 202 to catch the sear ledge 136 as it travels back under the influence of the expanding gases from the firing of the cartridge as already disclosed.
Firing the rifle can be viewed with reference to
As the trigger 134 is pulled, the linear hammer 146 is released and slides forwardly in the direction of the op rod assembly 118. As seen in
Immediately thereafter, the gases are partially expelled into the gas cylinder156 to impact the gas piston 120 and initiate rearward movement of the op rod assembly 118. This also moves the linear hammer 146 rearwardly, because it abuts the rear portion of the op rod assembly 118. As the op rod assembly 118 travels rearwardly, the bolt link assembly 126 rotates, pulling the bolt lock 128 upwardly to unlock the bolt 130. Because the bolt link assembly 126 pivots and all transfer pins and the primary firing pin 140 are thus no longer in contact, the primary firing pin 140 and the bolt link transfer pin 142 assume their extended rest positions relative to their respective through bores 186 and 176 due to the influence of the springs 190 and 180. The op rod transfer pin 144 remains in its fired position due to the contact of the linear hammer 146 with the contact end 166. Continued rearward movement of the op rod assembly 118 and linear hammer 146 brings the sear ledge 136 of the linear hammer 146 into contact with the sear 132 of the trigger assembly 148, such that the linear hammer 146 remains held in the ready fire position of
If there has been any attempt to alter the engagement of the sear 132 and sear ledge 136, or should the same break or wear, the linear hammer 146 may not lock in the ready fire position of
The method of the present invention for converting the full automatic action of the M240 Rifle, or similar firing firearms to semi-automatic operation involves the steps of converting the bolt, the bolt link, and the op rod assembly to carry transfer and firing pins as disclosed, and further involves associating a linear hammer with the op rod assembly. The trigger assembly is also converted. Particularly, where the bolt and bolt link of the fully automatic M240 simply permitted the passage of the primary firing pin carried by the op rod assembly, they must now provide their own spring-biased primary firing pin and bolt link transfer pin. The op rod assembly must be converted to provide a shorter pin, here called the op rod transfer pin, to interact with the converted bolt link transfer pin and primary firing pin. The op rod transfer pin is also preferably designed to block the alignment of the bolt link transfer pin with the op rod transfer pin and primary firing pin, as disclosed above, when the op rod transfer pin is contacted by the linear hammer during a forward cycling of the op rod assembly
As should be apparent from the foregoing description, the original fully automatic rifle 10 is converted to the semi-automatic rifle 110 by the conversion of striking mechanism elements and trigger mechanism elements. While it is desirable to provide a receiver that will operate with the original barrel design, gas tube, buttstock and internal components, such as the bolt lock, in the preferred embodiment, the receiver is altered sufficiently so as to no longer accommodate the original components that allowed fully automatic operation. In this manner, BATFE regulations are satisfied because the rifle cannot readily be converted back to fully automatic operation merely by acquiring and re-installing the original components.
Components that can be readily remanufactured to work with the striking mechanism of the present invention include the receiver and the op rod assembly. Making the receiver narrower internally than the original design will readily prohibit the reintroduction of original components, as will moving several of the slots, bores and recesses for assembly and movement of internal component parts. Use of a different op rod assembly will also inhibit restoration of the fully automatic action. Moreover, the use of the novel striking mechanism 116 ensures that the semi-automatic firearm cannot be readily modified to allow fully automatic operation of the firearm.
Thus it should be evident that the striking mechanism 116 and trigger assembly 148 of the present invention are useful for providing a semi-automatic firearm. The invention is particularly suited and has been reduced to practice for conversion of the M240 Rifle, but is not necessarily limited thereto. Similarly, the striking mechanism and trigger assembly of the present invention can be used with existing components of automatic firearms as well as with modifications thereof. In addition, the methods of the present invention allow the conversion of fully automatic firearms to semi-automatic operation. The methods also can be employed for the permanent conversion of fully automatic firearms to semi-automatic operation. By modifying the sizes of more of the components of the original automatic firearm, such as, for instance the receiver and the op rod assembly, restoration of the fully automatic action will also be more completely inhibited.
Based upon the foregoing disclosure, it should now be apparent that the present invention provides advances in the art by providing means for converting a fully automatic firearm to semi-automatic operation and inhibiting conversion thereof back to fully automatic operation. Notably, the structures of the present invention are not limited to rifle conversion and could be employed in the manufacture of wholly new firearms. It is, therefore, to be understood that any variations evident fall within the scope of the claimed invention and thus, the selection of specific component elements can be determined without departing from the spirit of the invention herein disclosed and described. Thus, the scope of the invention shall include all modifications and variations that may fall within the scope of the attached claims.
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