MXPA97009779A - Assembly of security and desplie - Google Patents

Abstract

The present invention relates to a fastening assembly for a portable firearm having a barrel, a handle, a sliding element, a recoil spring and a mouth, a sliding member defining a mounting bracket, is characterized that comprises: a support member, an action arm extending from a first end of support member, an action arm having a projection, the projection that can be received in the firearm chamber, a restraining arm the mouth extending from a second end of the support member, the action arm of the projection and the retaining arm of the mouth captively holding the firearm between the chamber and the mouth, the recoil spring exerting directed forces Oppositely on the armrest and the action arm to secure the firearm when mounted on the mounting bracket.

Description

ASSEMBLY OF SECURITY AND DEPLOYMENT BACKGROUND OF THE INVENTION 1. Field of the invention The invention relates to a fastening assembly for semi-automatic pistols or automatic machine guns, and more particularly, to a fastening assembly that allows the user to safely carry a gun, which still provides for removal of the gun and Prepare the gun for the shot with only the action of the user's hand of fire.

Discussion of the prior art The most significant problem with military holsters, law enforcement personnel and civilians is the security of the weapon while it is carried and the security in deploying the weapon from the holster. Since a fully automatic or semi-automatic pistol is unable to fire a battery cartridge inside the pistol chamber, a dilemma is created with the use REF: 26445 of any conventional holster. The armed person must decide if he carries the weapon without a cartridge placed in a chamber in a battery; case in which the person must, after removing the gun from the holster, use both hands to hold the gun and operate the sliding cover to put a battery cartridge in camera. In a fast-acting situation, this maneuver can prove to be extremely dangerous to the trigger and other nearby people and can cost critical time when faced with the threat of immediate powerful action. For example, it is estimated that an average assailant can cover a distance of 21 feet in 1.5 seconds or more or less quickly than most officers or civilians can react, withdraw and fire their first shot. Greenberg, "The Tactical Edge", Combat Handguns, June 1995, p. 86. In the case of a single-action semi-automatic pistol of Colt 45 caliber and high-power Browning types of 9 mm, the most prevalent models in the world, both methods of carrying, that is, with or without a cartridge placed in camera, they are extremely dangerous and are prone to countless problems. First, when they are carried with a cartridge placed in a battery chamber, the hammer is cocked to the most rearward position. With a touch of the trigger, the hammer will fall, hitting the firing pin and unloading the firearm. This is by far the most dangerous method of carrying. Some personnel put the cartridge in camera, engage the hammer lock, thus restricting the hammer's fall until the safety lock is manually uncoupled, and place the gun inside the holster. Others put the cartridge in camera, leave the hammer lock out and rely on the restraint strap of conventional holsters to prevent the hammer from falling. This is equally dangerous. The users of the two methods of carrying with the cartridge put in the camera subscribe to a personal philosophy that it is better to have a cartridge inside the camera, instead of requiring to use the other hand for the action of sliding the cartridge with bullet to the camera. Both methods of carrying a cartridge placed in the camera, whether with the holster belt or strap on or not, are compromised by the dangerous reality that a weapon carried in this way can easily be discharged unintentionally, often with a tragic result. The records of the military, law enforcement personnel and civilians are replete with accidents caused by the method of carrying a cartridge placed in the camera. Some personnel have forgotten that the cartridge was placed in the chamber and in the removal of the pistol from the holster and in the removal of the magazine from the gun for cleaning or storage, they have inadvertently discharged the cartridge with a bullet placed in the chamber. Others have accidentally dropped the weapon before unloading it, causing the hammer to strike the firing pin and resulting in unintentional damage or death. Other damages and deaths have been caused by a fight between the user and the assailant, which is why the weapon has exploded in the attempt of the assailant to remove the gun from the holster; and at worst, when the assailant has successfully taken the user's weapon and uses it intentionally against his victim and / or other people. In 1986, there were 51 officers who execute the law, killed by firearms. Twenty-nine percent (29%) of these deaths occurred with the officer's own gun. Howe, "Officer Slain with Own Gun", Combat Handguns, June 1995, p. 24. To date, very few inventors have had a reasonably practical solution to this problem. Id. Many who select the cartridge option on camera believe that perhaps in some powerful circumstance their other hand can be coupled in another way, such as in defense against an assailant, driving, climbing, using a flashing light, etc., or their another hand can be damaged, thus making it practically impossible to put a cartridge into the chamber when the sliding element is operated. They are of the idea that although their method of carrying is inherently dangerous, their weapon is accessible for use with one hand, after the manual safety has been released or the strap is removed from the holster, or both. In guns of action both individual and double, a cartridge can be preposed in camera and in bacteria and is subjected to being shot by simply pulling the trigger. Accordingly, the other single portion of carrying a semi-automatic pistol of single or double action is to carry it in the conventional holster without the cartridge placed in battery chamber. Although it seems to be a safe method, it also presents many dangerous possibilities. Since both hands are required to put a bullet cartridge into the chamber after the gun is removed from the conventional holster, the weapon can not be used completely when both hands can not be used. Additionally, the staff has inadvertently depressed the breech release button that in some models is in the direct lateral path of the sliding element, while the sliding element is operated with the other hand, only to find that its weapon has become useless since the ammunition chamber of the weapon has been dropped. Finally, the only way to ensure that no cartridge with a bullet is placed in the chamber in the semi-automatic or automatic guns is to move the sliding element of the gun strongly to its most rearward position and to visually or manually examine the firing chamber. This is often difficult or goes unnoticed in low light or in situations of rapid action. Extrusion and ejector mechanisms in guns have been known to malfunction due to wear, material fatigue or improper maintenance, giving gun owners a false sense of security when the sliding element of the gun is moved backward and not eject the cartridge. A holster that could counteract the need for visual or manual inspection would be advantageous. U.S. Patent No. 3,804,306 to Azurin discloses a conventional automatic gun holster. The Azurin patent does not teach or teach the features or advantages of the present invention. U.S. Patent Nos. 2,577,869 to Adams and No. 2,893,615 to Couper, each addressed to a revolving holster, likewise does not teach or suggest the present invention. The object of the present invention is to allow military personnel, law enforcement and civilians to carry a pistol with maximum security for themselves and others without a cartridge being able to be in battery within the chamber. It is a further object to provide a fastening assembly for a holster in which a cartridge can be placed immediately in the chamber and the gun removed from the fastening assembly using only one hand.

It is still a further object to provide a clamping assembly having positive safety mechanisms, which not only securely hold the weapon within the assembly but also prohibit only that a weapon containing a battery cartridge within the firing chamber is Inadvertently place inside the mount. Still further, it is an object of the present invention to provide a gun which, when placed in the clamping assembly, has an inoperable trigger and can not be removed from the assembly with the usual movement required in conventional holsters.

BRIEF DESCRIPTION OF THE INVENTION A mounting assembly for a portable firearm has a support member and an action arm extending from a first end of the support member. The action arm carries a projection that can be received in a firing chamber of the firearm. A retainer arm extends from a second end of the support member, and the protrusion and retainer arm captively retain the firearm between the firearm chamber and the firearm mouth. The projection can be formed and made of a size to be received at one end of the barrel of the firearm adjacent to the chamber. The retainer arm may include a barrel hole for passage of the barrel therethrough. The retainer arm may be contoured to conform to the shape of the firearm's muzzle. The support member, the action arm and the retainer arm can be attached to a body plate in a holster. The fastening assembly may include a safety bar positioned in the fastening assembly for coupling the firearm and restricting the movement of the firearm along its longitudinal axis. The safety bar can be located at the bottom of the retainer arm to restrict movement of the barrel through the bore of the barrel. Alternatively, the safety bar may be on the support member adjacent to the firearm chamber to engage part of the firearm adjacent to the chamber and prevent movement along the longitudinal axis of the firearm. In any case, the safety bar can be secured removably to the fastening assembly by a custom securing device, such as a star bolt and the corresponding tool. The invention also includes a fastening assembly for use with a portable firearm, the fastening assembly having a longitudinal support member and an action arm extending from a first end of the support member and having a projection . The action arm and the projection can be received in the chamber of the firearm. The protrusion can be received in the barrel of the firearm, and a retainer arm extends from a second end of the support member. The mouth of the firearm can be attached to the retainer arm. The retaining arm and the action arm are separated from each other to captively hold the firearm between the firearm chamber and the muzzle and secure the firearm when mounted in the fastening assembly. Still further, the invention includes a method for securing a portable firearm, which includes the steps of providing a fastening assembly with a longitudinal support member, an action arm extending from a first end of the support member and a retaining arm extending from a second end of the support member. The muzzle of the firearm is placed on the retaining arm, and the handle of the firearm is released in the direction of the retaining arm to move the barrel along the longitudinal axis of the firearm and to place an ejection hole in the firearm. the firearm in register with the action weapon. Then, the action weapon is inserted through the ejection hole in a chamber of the firearm, and the handle is released to allow recoil of the spring action of the barrel. The firearm is captured in this manner between the action arm in the chamber and the retainer arm in the mouth to secure the firearm in the fastening assembly. The method of the invention may also include the step of deploying the firearm by first releasing the handle in the direction of the retainer arm to move the barrel along the longitudinal axis of the firearm., providing free space for the removal of the action arm of the camera. Then, the firearm is tilted relative to the longitudinal axis of the clamping assembly to remove the action arm of the chamber. The depression of the handle is continued to open the camera completely and prepare for firing the firearm. The firearm is then removed from the holster. Finally, the invention includes, in combination, a gun and a holster. The gun has a handle, a barrel, a mouth and a sliding element, with the gun defining a chamber having an ejection hole adjacent to the face of the barrel. The sliding element and the barrel can be moved relative to each other with a recoil spring that interconnects the two. The new track has a body plate and a mounting bracket. The fastening assembly extends transversely through the body plate and comprises a support member with an action arm having a nail-like projection, both extending from a first end of the support member. A retainer arm extends from a second end of the support member. The projection and the action arm are located in the gun chamber via the ejection hole, with the projection received in the barrel of the gun on its face of the barrel. The mouth engages the retainer arm. The recoil spring of the gun is compressed in this way. The gun is held in the holster by the action of the action arm clamps and the protrusion and the retainer arm. The recoil spring exerts equal and opposite forces on the retaining arm and the action arm. On the release of the gun handle, the mouth is held in the retainer arm, the recoil spring is further compressed, and the barrel moves along the longitudinal axis of the firearm to provide clearance for the arm removal of action and the outgoing from the camera. The gun can then be removed from the holster. The above-described combined gun and holster may include a ramp on the gun body plate to engage a trigger ear on the gun when the handle is depressed, thereby aligning the trigger ear with a trigger of the gun and positioning the gun in a secured condition. The combined gun and holster may also include a barrel hole and / or a safety bar, as described above.

For further details and advantages of the invention, it can be seen from the following detailed description, in conjunction with the accompanying drawings, in which like reference numerals represent similar parts.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a front elevational view of a fastening assembly in a holster in accordance with the present invention; Figure 2 is an elevation, side view and a fastening assembly according to the present invention, which additionally includes a safety bar; Figure 3 is a front view of a semiautomatic closed bolt gun, partially separated, with the bolt in a fully open position to facilitate securing of the gun in the fastening assembly of the present invention; Figure 4 is a front view of the gun of Figure 3 in its secured position, held in the clamping assembly of the present invention, and further showing a chamber with ammunition cartridges in the gun; Figure 5 is a view of the upper part of the gun and the fastening assembly of Figure 4; Figure 6 is a front view of a fully automatic, open-bolt, partially separated, partial cross-sectional machine gun secured in a grip and holster assembly in accordance with the present invention; Figure 7 is a front view of the gun and a fastening assembly of Figure 6, partially separated and in partial cross-section, where the gun handle is pressed down so that the gun can be deployed from the assembly of subject; Figure 8 is a side elevation view of a fastening assembly according to the present invention, including an alternative safety bar arrangement; Y Figure 9 is a view of the upper part of the gun and mounting assembly of the Figure 6, which shows a safety bar placed adjacent to the firing chamber of the gun.

DETAILED DESCRIPTION OF THE PREFERRED MODALITIES With reference to Figures 1 and 2, the holster 10 of the present invention is made of two sections of aircraft high strength aluminum, Zytel composite materials or others similar to high strength plastics. Materials that will not harm a gun provide even needed strength and durability under extreme conditions of weather or force are expected to be appropriate for use in the present invention. A body plate 12 is designed to be contoured around the user's hip or torso, with the openings 14 to fit a belt for use. An action holding assembly 16 extends transversely through the body plate 12 and is made exactly in size for the specific gun to be secured. The action clamping assembly 16 includes a flat support member 18 which includes the holes 20 embedded to receive the bolts 22. The action clamping assembly is removably secured in a vertical position to the body plate 12 by the bolts 22. Bolts 22 are uniquely designed and customized for each individual gunman so that they can only be removed by a regular tool. For example, the bolts 22 may include a star pattern 24, as shown in Figure 1. The action fastening assembly 16 also includes an action fastening arm 26 extending from a first upper end of the fastener member 18. support. The action holding arm carries an action holding projection 28, which is in the nail shape and extends downwardly from the arm 26, generally parallel to the support member 18 and perpendicular to the arm 26. A retainer arm 30 extends from a second lower end of the support member 18.

The retainer arm may include a barrel hole 32 having a contoured or beveled edge 34, as described in detail below. The body plate 12 can be used as a normal fixture fixed to the action clamping mounts 16, specifically made to size, which can be customized to accept specific weapons and can be designed either for left-handed or right-handed personnel and straight or crossover withdrawal mode. A user can purchase multiple action holding mounts to fit their various weapons. Figure 3 depicts a semiautomatic dual-action, single-action, bolt pistol 36 for mounting on the holster 10 of the present invention. The gun 36 is shown with the bolt fully open to expose the firing chamber 38. There is no ammunition cartridge displayed in the firing chamber or battery. The gun includes a barrel 40, a handle 42, and a sliding member 44. The phrase "on battery" is proposed to describe the condition where a cartridge is placed in the barrel 40 and is ready to be struck by the trigger pin ( not shown) for download. A trigger 46 with a trigger guard 48 and a hammer 50 are also shown. A mouth 52 is located at the firing end of the gun. The gun also includes the sights 54. The sliding element 44 includes an ejection orifice 56, which is basically a cut in the upper part and side portions of the sliding element to expose the trigger chamber 38. The ejection orifice 56 opens to the left when the gun 36 is pointing forward. The size and location of the ejection orifice, chamber and barrel varies from one gun model to another. Some ejection holes may open to the left, some to the right and some directly up. Therefore, the size and configuration of the action arm 36 and the projection 28 will have to be designed in accordance with the particular firearm or the type of firearm to be used with the holster 10. It is believed that , in reading the present specification, those skilled in the art will be able to customize the design of the action clamping arm 26 and the projection 28, and in some cases the size and profile of the retaining arm 30, to achieve the present invention. without undue experimentation.

As shown in Figure 4, the barrel also includes a face 58 of the barrel, and a chamber 60 can be loaded into a chamber 61 of the chamber in the handle 42 to feed the cartridges 64 to the shooting chamber 38. In particular, the chamber has a breech spring 62 for feeding the cartridges 64 to the firing chamber 38 via a feed ramp 46. As shown in Figure 5, the sliding element and the barrel are interconnected by a main return spring 68 which provides a spring action sliding movement between the barrel 40 and the sliding member 44. In order to fully understand the invention, a brief description of the operation of the gun 36 will continue. In the case of an individual action gun, the trigger 46 will not operate unless the trigger 50 is in the backward (hammered) position. This position is shown in Figure 3. The hammered position is established either by pulling the hammer 50 to the rear with the thumb of the hand not holding the gun 36 or by moving the sliding member 44 to the rear. Figure 3 shows the sliding element 44 moved to the sup- posite further back. The displacement of the sliding element will establish the hammer in the cocked position. When the sliding member 44 is pulled to its most rearward position, an extractor and an ejector (not shown) are designed to eject any cartridge placed in the chamber of the gun 36 via the ejection orifice 56. The movement of the sliding element 44 forward will then lead another cartridge 64, under the combined action of the breech spring 62 and the feeding chute 66, to the chamber 68 and in battery on the face 58 of the barrel. When the sliding member 44 is moved backward, the barrel 40 remains relatively stationary and thus extends from the mouth 52, a distance provided beyond the sliding element 44. The same occurs if the handle 42 and the barrel 40 are pushed forward and the sliding member 44 is made to remain stationary. In any case, the return spring 68 causes the sliding element 44 and the barrel 40 to return to their normal position, that is, with the firing end of the barrel 40 abutting the mouth 52.

To secure the gun 36 in the holster 10, the chamber 60 and any of the cartridges 64 in the chamber 38 are first removed from the chamber 61 of the chamber. The end 52 of the mouth of the gun 36 is then placed on the retainer arm 30. The pressure with a downward movement, slow and firm with the right hand (for the right-handed staff) on the handle 42 of the gun 36, the chamber 38 opens sufficiently to adjust the nail-shaped projection 38 through the hole 56 of ejection in the chamber 38. This arrangement is shown in Figure 3. The firm downward pressure on the handle of the gun 36 exerts pressure on the return spring 68, adding compressive force to the spring. The gun 36 tilts slightly inwards (towards the body plate 12) so that the projection 28 aligns with the face 58 of the barrel. With reference to Figure 4, in the relief of the downward pressure on the handle 42, the barrel returns upwards and the projection 28 is received in the barrel 40 on the barrel face 58, while the barrel 26 The action is placed in the chamber 38, directly above the chamber 61 of the chamber. The projection 68 is accurately configured to fit within the barrel of the particular weapon to be used with the holster. The length of the projection 28 should be such that the projection can be placed in the chamber and fit into the barrel 40 when the sliding member and 44 moves to place the chamber 38 in the half open position. The projection 28 can not be removed by any forward, backward, upward or lateral movement of the gun 36 once the projection is placed on the curtain 40 and the pressure on the handle 42 is released. The presence of the action clamping arm 26 in the chamber 38 prevents the operation of the trigger 46. The release of the pressure in the handle 42 allows the recoil spring 68 to extend approximately half of its originally compressed state., and the chamber 38 closes inwardly of the thickness of the action clamping arm 26. Since the force of the return spring 68 is exerting equal pressure on either side of the spring, the mouth is firmly clamped within the precisely contoured levels of the retainer arm. The retainer arm can be contoured exactly or bent to accept the specific mouth of the gun used with the holster. The retainer arm can also be in the horseshoe shape with an open end, if the particular gun mouth requires them, for ease of removal. The projection 28 is at the same time firmly constrained within the barrel 40 by the force of the return spring 68. The gun is thus rigidly held securely within the equally pressed clamps of the retainer arm 30 and the action clamping arm 26 and the projection 28 at appropriate ends of the clamping assembly 16. In this way, the gun 36 can not be removed from the holster 10 by normal upward movement, as is the case with normal holsters. If an unauthorized attempt is made to remove the gun from the holster by normal upward movement, this attempt will be frustrated because it is contracted by the resistance and rigid positioning of the projection 28 and the action holding arm 26 within the truck 40 and camera 38, respectively. After the gun 46 is placed in the action clamping assembly, the user places a loaded chamber 60 in the recess 61 of the chamber. When the chamber 39 has been closed and secured by the action holding arm 26 and the projection 28, cartridges 64 can not be placed inside the chamber 38 itself since the action holding arm 26 is directly above the route of the cartridges 64. The only way to put a battery cartridge 64 in the chamber is to remove the grip arm 26 from the action, from the obstruction and the projection 28. In this way put into the holster, a pistol 36 can now be carried in a safe without a cartridge 64 put in camera. The specifically contoured levels of the retainer arm 30 stabilize the gun 36 from any forward, backward, upward, downward or lateral movement. To deploy the gun, controlled speed is of primary importance. By rapid downward movement with one hand on the handle 42 of the gun 36, the chamber 38 opens. Particularly, the downward pressure on the handle 42 forces the barrel 40 downwardly through the specifically designed barrel hole. in the retainer arm 30. The mouth end of the sliding member 44 is retained against downward movement by the retainer arm 30. With the chamber 38 open and the face 58 of the barrel moved downward, the action holding arm 26 and the projection 28 can now be removed from the chamber 38. The arm 26 and the projection 28 are removed from the chamber 38 with a slight tilting movement and the gun 36 from the longitudinal axis of the action holding assembly 16, after the handle 42 and the barrel 40 have been forced to the maximum downward position. At the same time, the hammer 50 is cocked by virtue of its contact with the sliding element 44. The cartridge 64 previously restricted in the breech or magazine 40 is now free to continue, under the force of the spring 62 of the breech, upwards towards the feeding ramp 66 in the chamber 38. The forward movement of the sliding member 44 places the cartridge 64 in battery on the face 58 of the barrel. In this way, with the use of only one hand, the gun 36 is now safely out of the holster 10, with the cartridge 64 placed in battery chamber, ready to be fired. A manual safety lever (not shown) can be employed in the gun 36, by the user if the crisis requiring removal of the gun has been alleviated. When the crisis has abated, the cartridge 64 in the chamber is removed from the chamber 38, and the chamber 60 is removed from the handle 42. The gun 36 is then placed in the holster 10, as described above. Once placed in the holster 10, the breech of the gun is placed back to the handle 42. Again, there is no cartridge 64 in battery chamber. To simply remove the gun from the holster for storage, the chamber 64 is first removed from the handle 42, thus ensuring that no cartridges can be buried in the chamber 38 since they are all within the chamber 60. With the chamber set to On one side, the gun can be removed from the holster as described above. The compressive force of the spring 68 will then close the chamber 38, and the gun 36 in this manner is in a discharged and safe condition. In passive, non-threatening situations, the user may choose to carry the gun in the holster 10 without the chamber 60. With conventional holsters, one must remove the gun, work the action of removing and ejecting a cartridge with a bullet in camera, and then recover the cartridge with a non-fired bullet, eject it, clean it and recharge it inside the chamber, put the pistol back in the holster. This situation is completely dangerous if you forget that a cartridge with a bullet is on battery and only removes the chamber, creating a dangerous condition. With the invention, the user can remove the chamber 60 of the gun 36 without removing it from the holster 10. The chamber can be removed by pressing the appropriate release button on the handle 42 (not shown) and pocketing the fully charged chamber. The presence of the clamping arm 26 and the projection 28 in the chamber 38 ensures that there is no cartridge 64 in battery. Re-arming the weapon is easily accomplished by inserting the chamber into the handle with one hand. Unlike the use of conventional holsters when used for storage, where one must rely on memory as to whether or not the weapon was stored with a charged chamber or a battery cartridge, the storage of a weapon subject to the invention ensures that cartridges with bullets are not in camera, despite the state of the chamber. The invention has a single, additional, action safety securing device, one type for semi-automatic closed-bolt pistols, and the other for pistols with fully automatic, open-bolt machinery. For closed bolt semi-automatic pistols, such as gun 36, holster 10 is provided with a specially designed safety bar 70, as shown in Figure 2. As described above in conjunction with support member 18, the safety bar can only be designed with a bolt 72 of a recessed star, which requires a usual tool (not shown). The tool and bolt can be manufactured in series for each holster so that each one is unique to the given gun. The safety bar 70 is placed in a lower portion of the retainer arm 30 after the gun 36 has been secured in the holster. Positioned in this manner, the safety bar 70 prevents the barrel 40 from extending through the bore 32 of the barrel. As described above, this movement of the barrel is necessary to provide clearance for the removal of the projection 28 from the face 28 of the barrel. When the barrel 40 is restricted, the protrusion remains on the barrel face and the gun 36 can not be removed from the mounting action assembly 16. With the safety bar 70 installed, it is virtually impossible to remove the gun 36 from the holster 10 without having the specific tool designed to be used in conjunction with the usual star bolts 72. The holster 10 of the present invention can also be used with open-bolt automatic machinery guns, such as the machine gun shown and described in US Patent No. 4., 5779, 037 referred to herein as the "CHAMP" gun ("CHAMP" is an acronym for "automatic, portable, controllable machine gun", for its acronym in English). The 78 CHAMP gun is shown in use with the holster 10 in Figures 6 and 7. The CHAMP gun includes a bolt 80 and a shroud 82 with a recoil spring 84 and a barrel 86. A handle 88 with a release 90 of the The chamber is adjacent to a trigger 92 and protective device 94 of the trigger. The trigger guard includes a safety ear 96 that rotates with respect to the longitudinal plane of the gun CHAMP 78 and is deflected by the spring 98. A chamber 100 is defined between the bolt 80 and the face 102 of the barrel. In the embodiment shown in Figures 6 and 7, the chamber 100 is open to the left since the gun 78 is held pointing forward. The action arm 26 and the projection 28 thus fitted directly into the chamber 100 when the gun is carried on the belt on the right side of the user of the holster. Additional details can be seen with respect to the CHAMP gun in U.S. Patent No. 4,5779,037, incorporated herein by reference. When cocked, the bolt 80 of the 78 CHAMP gun is placed on the rear of the weapon, with the first cartridge 64 aligned immediately in front of the bolt 80. The trigger pressure will cause the bolt 80 to move rapidly forward, collecting the cartridge and placing it on the face 102 of the barrel (in battery) instantly striking the previous one to shoot the cartridge with bullet. The counterforce of the bullet cartridge forces the bolt towards the rear, opening the chamber 100 to eject the spent cartridge out of the ejection hole (not shown). The CHAMP machinery gun 78 will maintain operation in this manner as long as the pressure on the trigger 92 is maintained or until the ammunition is exhausted. It is imperative that machine guns support and deploy under conditions of maximum safety to protect users and spectators. The invention can be made to accommodate virtually any well-known machine gun, micro-sub-machine guns, etc., such as mini-uzi submachine guns, Cobrya M-ll, MAC-10, H &; K MP-5K, Beretta, FN or Steyhr or machine guns. As was the case with the semiautomatic gun described above, the CHAMP 78 is placed in the holster only after the chamber 60 is removed from the handle 88. To mount the gun 78 in the holster 10, the user presses down on the handle 88 to open the chamber 100 so that the projection 28 and the arm 26 can be received therein. The position of the open chamber is shown in Figure 7. Once the projection aligns with the face 102 of the barrel, the user presses the trigger 92 and releases the pressure in the handle, allowing the recoil spring 84 to carry the barrel upwards towards the projection so that the projection is received on the face 102 of the barrel, as shown in Figure 6. The pin also moves towards the arm 26, when the trigger is pressed, so that the arm 26 and the projection 28 is sandwiched between the bolt 80 and the face 102 of the barrel, as shown in Figure 6.

If a cartridge were inside the face of the barrel, the action holding projection 28 would be restricted from entry into the barrel, thereby indicating to the user that the stock should be cleaned before the gun is placed in the holster. The action fastening boss 28 must be specifically designed to be off-center from the plane of the firing pin on the bolt 80 and the primer in the cartridge 64. This ensures that it is virtually impossible for the action fastening boss 28 to inadvertently fire an cartridge with bullet when putting in contact the primer or loading priming. With the action clamping arm 26 and the projection 28 secured within the partially open chamber 100, the force of the compressed return spring 84 generates a strong clamping action between the arm and the projection 26, 28 and the retainer arm 30, holding the gun 78 securely within the holster 10. Even if a loaded chamber were inadvertently placed inside the gun 78 before closing in the holster 10, the bottom surface of the bolt 80 of the action holding arm 26 would push the cartridge 64 further upwards within the chamber downward, out of alignment with the normal route of the cartridge to chamber 100, thereby restricting the cartridge from entering face 102 of the barrel. The deployment of the gun 78 is the same as described above in conjunction with the gun 36. The holster can also be provided with an automatic trigger activation ramp 104, specifically designed for the CHAMP gun. In particular, the safety ear 96 of the trigger remains out of line with the trigger 92, until the user presses down on the handle 88 to remove the gun from the holster 10. The downward movement of the gun causes the safety ear 96 of the trigger is coupled to the inclined safety ramp 104, placed on the body plate 12 in the appropriate location. The safety ear of the trigger thus rotates approximately 60 ° from the deflection or inclination 98 by spring, so that access to the trigger 92 is blocked by the safety ear 96. Therefore, in order to fire the first cartridge with bullet from the gun 78, the user's finger must push the safety ear 96 of the trigger to its open position.

When the pistol 78 is returned to the holster, the chamber moves from the gun, the chamber 100 is cleaned and the action holding arm 26 and the projection 28 are placed in the chamber 100, as discussed above. With reference to Figures 8 and 9, an alternative safety bar assembly is shown for use with automatic open bolt guns. In this embodiment, the action safety bar 71 is secured on the support member 18 by the star bolt 72. The action safety bar 71 includes two ribs 74 which are received in the slots 76 in the support member 18 to prevent rotation of the action safety bar 71 relative to the support member 18. The location and size of the action safety bar 71 in this mode will be provided for the weapon to be secured. For the gun 78, the action safety bar 71 can be placed in the action of the weapon, between the shroud 82 and a portion 106 of the gun adjacent to the firing chamber, as shown in Figure 9. The bar action safety 71 engages the portion 106 to prevent its movement along the longitudinal axis of the gun when the handle 88 is pressed downward. The chamber 100 can not be opened further to allow removal of the action arm 26 and the projection 28, and the weapon is secured or fully secured within the holster 10. The gun 78 can only be removed from the holster 10 by removing first the action safety bar 71 with a specific tool customized to fit the star bolt 78. The ribs 78 slide into the slots 76 to lift the safety bar 71 out of the action of the gun. Is contemplated, that, in some applications, it will be desirable to provide an articulating action arm 26, loaded with spring and / or action fastening 28. For example, the action retaining boss 28 can be loaded with a recessed spring. The spring would remain compressed, keeping the projection 28 in alignment with the barrel of the firearm when it is in the holster 10. As the downward pressure is applied to the firearm and the firearm tilts outwards, the projection 28 rotates outside the barrel and the ejection hole, and the spring returns the projection 28 to its proper position.

The single-action fastening assembly 16 in the present invention counteracts the question of whether or not the safety is put on when the firearm is placed inside the holster 10. When a firearm is carried within the present invention, it , is always by design without a cartridge in camera and is unable to be fired, until the gun is removed from the holster 10. When put in the holster, the user can uncouple the safety of his weapon with the confidence that the gun can not be shot accidentally. This improved safety and rapid deployment feature of the present invention is not available from prior art holsters. The placement of the action holding arm 26 and the projection 28 within the chamber the firearm positively blocks and renders the trigger inoperative while the firearm is inside the holster 10. The present invention not only ensures a method of positive and secure carrying, fastened, but also allows the rapid deployment of the firearm, ready to shoot, by the use of only one hand. The ability to safely deploy a weapon with only one hand during a crisis situation allows wounded military or law enforcement personnel to actively self-defend. The present invention offers the maximum ability to conceal fully automatic weapons without compromising the security and immediate access and immediate deployment of the weapon. It is contemplated that a device for securing spare chambers or boots to the holster, such as a spring clip or a sleeve, can be incorporated in the invention described above. It is also contemplated that the holster of the present invention can be adapted for permanent securement to removable within a vehicle, such as a police patrol or in a military tank armed so that the weapon can be easily available without the need of use the holster. Having described the presently preferred embodiments of the invention it will be understood that certain variations can be made to the embodiments described above with the same results and without departing from the spirit and scope of the invention. For example, various arrangements for using the holster with a belt or with a shoulder harness for use under the arm, in addition to the openings 14 shown and described above, will be obvious to those skilled in the art. The body plate and the support member can be integrally manufactured and molded as one piece. The above description and the drawings are not intended to limit the invention, so that the scope of the invention can only be determined by reading the following claims. It is noted that in relation to this date, the best method known by the applicant to carry out the present invention is that which is clear from the present description of the invention.

Having described the invention as above, the contents of the following are claimed as property:

Claims (24)

1. A mounting assembly for a portable firearm having a barrel, a handle, a sliding element, a recoil spring and a mouth, a sliding member defining a mounting assembly, is characterized in that it comprises: support, an action arm extending from a first end of support member, an action arm having a projection, the protrusion that can be received in the chamber of the firearm, a retaining arm of the mouth extending of a second end of the support member, the action arm of the projection and the retaining arm of the mouth that captively captures the firearm between the chamber and the mouth, the recoil spring exerting opposing forces on the retainer arm and the action arm to secure the firearm when it is mounted in the clamping assembly:

2. The fastening assembly according to claim 1, characterized in that the projection is formed and made of a size to be able to be decided at one end of the barrel adjacent to the chamber.

3. The fastening assembly according to claim 2, characterized in that the projection is in the form of a nail and its longitudinal dimension is in a plane perpendicular to the action arm and the mouth retaining arm.

4. The fastening assembly according to claim 1 is characterized in that the support member, the action arm and the mouth retainer arm are attached to a holster.

5. A clamping assembly according to claim 1, characterized in that the mouth retaining arm includes a barrel hole for the passage of the barrel or through it, the mouth retaining arm which retains the sliding element in a stationary position with relation to the barrel, when a user presses the handle in the direction of the retainer arm of the mouth.

6. The fastening assembly according to claim 1, characterized in that the mouth retaining arm is contoured to adjust the mouth.

7. The fastening assembly according to claim 1, characterized in that it includes a safety bar placed in the fastening assembly for coupling the firearm and restricting the movement of the firearm along the axial axis of the firearm.

8. The fastening assembly according to claim 7, characterized in that the safety bar is placed, when the firearm is mounted in the fastening assembly, to couple a portion of the firearm adjacent to the chamber and restrict the movement of the firearm. firearm along the longitudinal axis of the firearm.

9. The fastening assembly according to claim 7, characterized in that the safety bar is removably secured to the support member by a personalized securing device.

10. The fastening assembly according to claim 7, characterized in that the safety bar includes at least one protruding rib received in a corresponding slot in the support member to restrict relative movement of the safety bar of the support member.

11. The clamping assembly according to claim 7, characterized in that the safety bar is placed on the mouth retaining arm to restrict the movement of the barrel in response to the depression of the handle.

12. A fastening assembly for use with a portable firearm, a firearm including a barrel, a handle, a sliding element, a recoil mold and a muzzle, a sliding member defining a chamber, and a mounting assembly is characterized in that it comprises: a longitudinal support member, an action arm extending from a first end of the support member, the action arm having a projection, the action arm and the projection that can be received in the chamber of the firearm, and a retainer arm extending from a second end of the support member, the projection that can be received in the barrel and the engageable mouth in the retainer arm, the retainer arm, the action arm is separated from each other and the recoil spring exerting equal and oppositely directed forces on the retainer arm and the action arm to captively hold the firearm between the chamber and the mouth to secure the firearm. or when mounting on the mounting bracket.

13. A method for securing a portable firearm having a handle, a sliding element, a pierced cannon with a spring and a mouth, the firearm defining a chamber having an ejection orifice adjacent to a face of the barrel, the method is characterized in that it comprises: (a) providing a fastening assembly with a longitudinal support member, an action arm extending from a first end of the support member, and a retainer arm extending from a second end of the support member; support; (b) place the mouth in the retainer arm; (c) depress the handle of the firearm in the direction of the retainer arm to move the barrel along the longitudinal axis of the firearm place the ejection hole in register with the action arm, (d) insert the arm of action through the ejection hole in the chamber; and (e) releasing the handle to allow the recoil action of the barrel spring and capturing the firearm between the action arm in the chamber and the retaining arm in the mouth, thereby securing the firearm in the assembly of subject

14. The method according to claim 13, characterized in that it includes the step of deploying the firearm from its fastening assembly to: (f) releasing the spring in the direction of the retainer arm to move the barrel along the longitudinal axis of the firearm, providing free space for the removal of the action arm from the camera. (g) tilting the firearm relative to the longitudinal axis of the clamping assembly to remove the action arm of the chamber; (h) further depress the handle to completely open the chamber and prepare the firearm for firing; and (i) removing the firearm from the attachment assembly.

15. A method of conformity to claim 13, characterized in that the action arm is provided with a projection the projection is received on the face of the barrel in step (e).

16. In combination, a gun and a holster, characterized in that they comprise: a gun having a handle, a barrel, a mouth and a sliding element, the gun defining a chamber having an ejection orifice adjacent to a face of the barrel, the sliding element and the barrel are connected by a recoil spring and can be moved relative to one another along the longitudinal axis of the gun; a holster having a body plate and a clamp assembly, the clamp assembly extending transversely through the body plate and comprising a support member as an action arm having a nail-like projection that extends from a first end of the support member and a retainer arm extending from a second end of the support member, the projection and the action arm are located in the gun chamber via the ejection orifice, the projection being receives in barrel on the face of the barrel, the mouth that engages the retainer arm, the recoil spring and is partially compressed to exert equal and opposite forces on the retainer arm and the action arm; after the depression of the handle, the recoil spring is further compressed, the mouth has in the retainer arm and the barrel moves along the longitudinal axis of the gun to provide clearance for the removal of the action arm and the protrusion from the camera, thus allowing the withdrawal of the gun from the holster.

17. The combination according to claim 16, characterized in that it includes a barrel hole in the retainer arm for the passage of the barrel through it in the depression of the handle of the gun.

18. The combination according to claim 16, characterized in that it includes a safety bar placed in the holster for coupling the gun and restricting the movement of the barrel along the longitudinal axis of the gun, preventing the removal of the action arm and the protrusion. of the camera and preventing the removal of the pistol from the holster.

19. The combination according to claim 16, characterized in that it includes a ramp in the body plate for coupling a trigger ear on the gun when the handle is released, thereby aligning the trigger ear with a trigger of the gun by positioning the trigger. gun in a secured condition.

20. The combination according to claim 18, characterized in that the safety bar is removably secured to the holster by a personalized securing device.

21. A fastening assembly for a portable firearm having a barrel, a handle, a sliding element and a mouth, the sliding element defining a chamber, in the fastening assembly is characterized in that it comprises: a support member; an action arm extending from a first end of the support member, the action arm having a projection, the projection that can be received in a chamber of the firearm; and a mouth retainer arm extending from a second end of the support member; the action arm and the projection and the retaining arm of the mouth that captively holds the firearm between the chamber and the mouth to secure the firearm when mounted in the fastening assembly; the support member, the action arm and the mouth restraint arm that attaches to a holster:

22. A fastening assembly for a portable firearm having a barrel, a handle, a sliding element and a mouth, the sliding element having to define a chamber, a fastening assembly is characterized in that it comprises: a support member; an action arm extending from a first end of support member, an action arm having a projection, the projection that can be received in the firearm chamber; and a mouth retainer arm extending from a second end of the support member; the action arm and the protrusion and the retaining arm of the mouth that captively holds the firearm between the chamber and the mouth to secure the firearm when a mounting assembly is mounted, the retainer arm of the mouth including a barrel hole for the passage of the barrel through this, the mouth retainer arm that retains the sliding element in a stationary position relative to the barrel, when a user depresses the handle in the direction of the mouth retainer arm.

23. A fastening assembly for a firearm having a firing chamber, a barrel and reciprocating member and sliding, loaded with a spring, the barrel having the barrel face and a mouth end, the sliding element having an end by mouth, the securing assembly is characterized in that it comprises: an action holding arm having a projection, the protrusion that can be received from a firing chamber and the gun face of the firearm; a device for blocking the sliding element separated from, and structurally connected to the action holding arm, the device for locking the sliding element, having an opening for the passage of the muzzle end of the barrel through it; the mouth end of the barrel can extend through the opening when the mouth end of the sliding member is placed in contact with the sliding element locking device; whereby when the projection is received on the barrel face and the briefly sliding mouth end is in contact with the locking device on the sliding element, the firearm is retained in the fastening assembly.

24. A fastening assembly according to claim 23, characterized in that the fastening assembly is incorporated in a holster.