AN ADJUSTABLE FIREARM STABILIZER
SUMMARY OF THE INVENTION When a firearm is fired, the muzzle tends to climb. This tendency of a. firearm to climb when it is fire is a complex result of the recoil forces acting on the huma body of the firer, and the reaction of the firer to those forces. As a result every firer, and the reaction of the firer to those forces. As a result every firer of a firear will experience a different and unique amount of muzzle climb, because the firer,s response both psychologically an physically will be unique. The invention is a device that enables the firer to direct a controlled amount of escaping gas from the muzzle of a firearm in a desired direction, so that the recoil force is effectively negated by the force caused by the directed escaping gases. Consequently, the firer can compensate, not only fore the mechanics of the weapon and the ammunition, such as slug mass, powder charge and mass of the weapon, but the firer can also compensate for his own reactions. That is, the device can be tuned to the individual requirements of the firer. Indeed, as is common among self-loaders, the firer can with experience an practice adjust the device for each individual caliber and powder charge selected by the self-loader. The invention comprises a means for attaching the stabilizer to the muzzl of a firearm, a body which has one or more gas screen ports and one or more gas vent slots oriented transversely to the longitudinal direction of the body and being spaced with respect to each other, and a nose cap which mates with the body is such a fashion that the nose cap may be adjusted to open or close a portion or all of the gas vent slots. The body is attached to the firearm so that the orientation of the gas screen ports and the gas vent slots may be varied either left or right from the vertical toward either side i
the desired angularity. Thus the magnitude and direction o the forces caused by the controlled escaping gases can be adjusted minutely to the smallest desire and whim of the firer.
BACKGROUND OF THE INVENTION
1. Field of the invention. This invention relates generally to muzzle devices for firearms, and more particularly to adjustable, personalized stabilizers for firearms.
2. Description of the Prior Art. Muzzle brakes for firearms have been utilized for many years. Probably one of the best known muzzle brakes is the Cutts Compensato which came into relatively wide use around 1930. The Cutts Compensator is described in CUTTS, U.S. Patent No.
1,636,357. The Cutts Compensator as shown in the patent, has a body with slots through which the escaping gases are _ forced by <the pressure -in the body, and the slots are all slanted toward the rear of the weapon and toward the firer. The slots on the Cutts device are also in two general configurations. First the slots are all oriented so that they permit gas to escape in one direction such as vertical, or they are disposed about the body to permit the gas to escape in two directions namely horizontally and vertically. Mention is made in the text that the orientation of the Cutts device can be adjusted so that the direction of the force caused by escaping gases can be controlled. There ar two distinct disadvantages to the Cutts Compensator. First, the gases escaping from the slots tend to be blasted to the rearward in the around the face and hands of the firer. Secondly, the amount of escaping gases can only be controlled by determining the size and number of slots to b cut into the body of the Cutts Compensator. There is no provision for adjusting for the amount of controlled
escaping gases after the Cutts Compensator is manufactured. Two other patents typify the developments in the field of attachment to muzzles of firearms. Moore, U.S. Patent No. 2,110,165 teaches a type of muzzle device for machine guns that enhances the rearward recoil in order to compensate fo a massive bolt and barrel arrangement. The Moore teaching shows that a plug may be inserted in the end of the barrel of a weapon allowing the escaping gases to impinge thereon to enhance the recoil rather than to diminish or control th effects of recoil. Russell, U.S. patent No. 2,340, 821 teaches an extension of the barrel inside of a compensator to provide rifling for shot guns. Russell's device is to provide a means to spread the shot pattern after the shot wad leaves the muzzle of the weapon by imparting a rotary motion to the shot wad. Russell did provide that his shot spreader could be slightly separated from the muzzle of the weapon so as to permit communication by the gases with the compensator in which the Russell device was installed. However, the communication is necessarily limited because the shot wad must not be permitted to substantially expand before entering the shot spreader. A device substantially different in principle, but which to a degree tends to accomplish the same objectives as the present invention is taught by Gwinn, U.S. Patent No. 4,392,413. Gwinn uses two chambers into which gas is trapped and permitted to escape under designed conditions.
BRIEF DESCRIPTION OF THE DRAWING Figure 1 is an isometric exploded view of the invention.
DESCRIPTION OF THE PREFERRED EMBODIMENT The invention, a stabilizer for firearms, is limited to firearms that fire one projectile at each firing as contrasted to a shotgun, for reasons that will become obvious and will be explained hereinafter. Figure 1 shows the invention to be comprised of a means for attaching 1, a
body 2, and a nose cap 3. The attaching means 1 may be any convenient means for attaching the body 2 to the muzzle 6 o a firearm. As shown the muzzle 6 of the firearm and the body 2 are generally cylindrical in shape with the body 2 having an inside diameter such that when threaded, will mat with the external threads on the muzzle of a firearm. The attaching 1 is shown in Figure 1 to consist of simple internal threads 4 which permit screwing of the stabilizer onto the muzzle 6 of a firearm, and set screw hole 7, with lead pellet 8 in the bottom thereof, through the body in th vicinity of the threads 4 such that when the body 2 is affixed to the muzzle 6 of the firearm, a set screw 17 may be screwed into the screw hole 7 bearing against the lead pellet 8 licking the body 2 onto the muzzle 6 without substantial wear on the threads on the muzzle 6 of the firearm. The location of the screw hole 7 radially around the longitudinal axis of the body 2 defines the top of the body 2, and the rear end 5 of the body 2. The other end of the body-2 is .designated the forward end 10. Adjacent"to the screw hole 7 and toward the forward end 10 is first, on or more gas screen ports 9. The gas screen ports 9 are angled away from the vertical and slant, from the inside surface of the body 2 to the exterior surface of the body 2 toward the forward end 10. The gas screen ports 9 are slot cut through the wall of the body 2, providing a communication from the interior of the body 2 to the outsid atmosphere. Forward toward the forward end 10 of the body of the gas screen ports 9, yet adjacent to the gas screen ports 9 on top of the body 2 are a plurality of gas vent slots 12. The gas vent slots 12 are arranged paralleled to each other and are arcuate slots cut perpendicular to the longitudinal axis of the body 2. The slots are cut through the body 2 so as to provide a gas communication from the interior of the body 2 to the outside atmosphere The gas vent slots 12 are sized according to the caliber of the
ammunition to be fired in the firearm. The front end 10 of the body 2 is also threaded internally to mateably accept the nose cap 3. The nose cap 3 is shown to be in the general shape of a plug which has external threads to mate with the internal adjusting threads 11 in the forward end 1 of the body 2. The nose cap 3 has a center hole 16 the center of which is on the longitudinal axis of the bore of the firearm, and the center hole 16 is sized to the same or slightly larger diameter as is the bore diameter of the barrel of the firearm. The forward end 10 of the body 2 ha a set screw hole 13 through the area of the internal adjusting internal adjusting threads 11 in the bottom the body 2. The nose cap 3 when threaded into the forward end 10 of the body 2 extends as desired into the interior of th body 2, thus forming with the body 2 a chamber 19 between the muzzle 6 of the firearm and the nose cap 3. The nose cap 3 is locked into the desired position by another set screw 17 inserted into the set screw hole 13 which bears 'against the nose cap 3 in slots 15 provided at desired locations around the nose cap 3 partially but not totally the longitudinal length of the threads of the nose cap 3. portion of the threads which does not have a slot 15 is designated portion 20. This portion 20 provides a seal to the chamber 19 within the body 2. When the firearm is fired the bullet emerges from the muzzle 6 and passes through the chamber 19 and then through the center hole 16 in the nose cap 3 on its way to the target. However, for the instant that the bullet is within the center hole 16, the bullet forms a loose seal in the chamber 19 allowing very little gas to escape through the center hole 16. The gases from the exploding cartridge which are following the bullet ente the chamber 19 and the pressure therein rises very rapidly forcing some of the gases out the gas screen ports 9 and substantially more of the gases out the gas vent slots 12. The gases escaping from the gas screen ports 9 and the gas
vent slots 12 cause a force on the body 2 opposite to the direction of movement of the escaping gas. The body 2 can be adjusted in angularity with respect to the muzzle 6 of the firearm, and thus with respect to the entire firearm an therefore the direction of the force caused by the escaping gas can be controlled and directed to counter the normal climb of the muzzle 6. The nose cap 3 is fashioned with screw driver slots 18 at the very exit of the center hole 16, to enable the firer to screw the nose cap 3 into the body 2 as far as desired. The nose cap 3 can effectively cover the gas vent slots 12 and reduce the volume of the chamber 19. Thus, the size of the chamber 19 and the effective number and size of exits for the gas to escape ca be controlled. This provides a direct control over how muc gas can escape through the gas vent slots 12 and the gas screen ports 9. Thus, the stabilizer controls not only the direction but the magnitude of force that will counter the recoil forces. The gas screen ports 9 also perform another very useful function. If the gas vent slots 12 alone were used to chamber 19, the hot gases would in an very short time arrive at the face and hands of the firer, causing great discomfort if not burns. The gas screen ports 9 permit and force escaping gases to flow forward away from the firer, and these forward flowing gases mix with the vertically rising gases from the gas vent slots 12 causing the entire escaping gas mass to have a generally forward movement away from the firer.
To appreciate the stabilizer and to use it effectively, it is necessary to understand the mechanics of muzzle climb. Muzzle climb is caused primarily by reaction forces from a bullet being fired, acting on the human body of the firer. The human body is and acts like a flexible platform. Two distinct motions combine to cause muzzle climb. First, because the weapon is fired from the firer's shoulder, waist, or some other freehand position, but almos
invariably from one side of the firer, not directly in fron of the firer's torso. This gives the weapon a moment arm, and the recoil forces acting through this moment arm cause twisting of the firer's body about its vertical axis. The other motion is caused by the fact that the firer is usuall standing on his feet, and the recoil forces act through the firer's shoulder, waist, or arms and the torso is bent rearwards because of the firer's flexible back and legs. The firer may and probably will react, somewhat belatedly, to the impulse of the forces and in all likelihood over react. Indeed, the likelihood that even an experienced firer can reactively compensate accurately for the impulse type forces, and do so on a repetitive basis is a function of extreme skill and proficiency seldom attained. And eve an expert when firing under other than ideal conditions wi find it difficult to be extremely accurate. With the stabilizer, and a little practice, the firer can take the guess work out of compensating and fine the exact amount a - direction of stabilizing forces required for himself. It" now obvious that the amount and direction of compensating forces varies with the weight, strength, and skill of the individual firer, and will vary with the charge with which shell is loaded. The stabilizer can be fine tuned to the desires of the firer and the conditions of fire.