The invention described herein may be manufactured and used by or for the Government of the United States of America for governmental purposes without payment of any royalties thereon or therefor.
1. Field of the Invention
The present invention pertains to the field of aiming devices, more particularly to end of barrel sighting aiming devices, and most particularly end of barrel sighting aiming devices for small caliber dearming units used to render safe unexploded ordnance (UXO) or improvised explosive devices (IEDs).
2. Description of the Related Art
The military often must dispose of UXO or IEDs such as mines and live ammunition under difficult conditions. In order to safely dispose of UXO or IEDs, the firing train of the explosive must be jammed, removed or interrupted (disrupted) in order to render it safe, thus precluding its detonation or explosive functioning. Most current methods employ a gun type system to drive a low velocity projectile into the fuze mechanism, jamming the firing train components or interrupting/moving the firing train components out-of-line such that they can not function the explosive as designed. The firing train consists of combustible and explosive elements arranged in order of decreasing sensitivity. A fuze explosive train may consist of a primer, a detonator, a delay, a relay, a lead and a booster charge used in combination to generate suitable energy to actuate the main charge. The momentum (velocity and mass dependant) of the projectile must be of a sufficient magnitude to effectively penetrate and disrupt the fuze by move the fuzing train/component(s) out-of-line or to decapitate the fuze from the explosive components without initiating an energetic response in the fuzing/initiation train. As such, the projectile velocity must be minimal enough so the shock delivered by the projectile impacting the explosive fuze does not cause an explosive response in the fuze firing train components. For smaller UXO or IEDs, that are not heavily encased, an MK 38 small caliber dearmer is used by the military in the above described capacity. The MK 38 small caliber dearmer is designed to use either 9 mm or .22 caliber rounds to dearm UXO or IEDs as described above. A standoff of at least the length of the projectile being used is required in order to ensure that the projectile achieves maximum velocity prior to engaging the fuze. The target area for dearmers can be quite small due to having to hit an exact spot on fuzes ranging from one quarter inch to about one inch for small caliber dearmers.
One problem associated with the use of the system described above is due to the standoff requirement and the relative small target area described above. Due to these constraints, it is difficult for an operator to aim the device with the accuracy necessary to render safe the UXO or IEDs. The operator is also normally in a heavy suit, which makes aiming the very narrow barrel of the device even more difficult. Due to the small nature of the MK 38 small caliber dearmer, using a normal electronic sight would be extremely cumbersome. Such sights are also very costly. Also, due to safety concerns, the operator should spend as little time as possible near the unexploded UXO or IED. Thus, any method of reducing aiming time is a significant benefit.
Therefore, an inexpensive, light-weight device that could assist operators in more accurately and more quickly aiming the MK 38 small caliber dearmer is desired.
The present invention comprises an aiming device that is attached to the end of the barrel of a small caliber dearmer to assist operators in aiming the dearmer more quickly and more accurately. The aiming device of the present invention is inexpensive and light-weight, so it can easily be added to a bomb technician's standard field pack.
Accordingly, it is an object of this invention to provide an aiming device for a small caliber dearmer.
It is a further object of this invention to provide an inexpensive aiming device.
A still further object of this invention is to provide a light-weight aiming device.
This invention accomplishes these objectives and other needs related to aiming devices for small caliber dearmers by providing an aiming device having attaching means to attach the aiming device to the barrel of a dearmer or gun system. Two extensions, approximately opposite one another, extend from the attaching means. The length of these extensions is the minimum standoff for the dearmer or gun system upon which the aiming device will be employed. At the ends of these extensions, two more extensions extend at an angle to create an almost V-shape. The aiming device is attached to the end of the barrel of the dearmer or gun system. In order to align the system, the V-shaped extensions are aligned with the periphery of the target. The V-shaped extensions are pushed toward the target until both extensions are against the target, with the āVā. This aligns the dearmer or gun system with the direct center of the target. The angle, the length of the two extensions extending from the attaching means, and the distance between these extensions assist in ensuring that the target remains at least at the minimum standoff requirement for the dearmer or guns system.
The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention, and, together with the description, serve to explain the principles of the invention.
The invention, as embodied herein, comprises an aiming device that is attached to the end of the barrel of a dearmer or gun system in order to more quickly and more precisely align the dearmer or gun system with precise, small target. The aiming device also ensures that the dearmer or gun system remains at the minimum standoff distance required without the need to specifically measure the placement.
In general the aiming device comprises two extensions connected to an attaching means for attaching the aiming device to the barrel of a dearmer of gun system. The two extensions are approximately opposite one another and comprise a length of about the minimum standoff distance for the dearmer or gun system being used. Two further extensions extend from the ends of the initial extensions at an angle from the barrel, again, approximately opposite one another. When the aiming device is attached to the barrel of a dearmer or gun system, one aims the system by placing the two angled extensions around the periphery of the target. The target can be slid along the extensions, toward the barrel, until the target cannot move further. This aims the barrel directly at the center of the target. Due to the angle, the space between the two extensions extending from the attaching means, and the length of those extensions, the end of the barrel of the dearmer or gun system will always remain at least the minimum standoff distance from the target, without the necessity of measuring the distance.
Referring to
The device can be made of almost any material and a material may be selected by one skilled in the art. One preferred material is plastic due to its light weight and low cost. The dimensions of the device may also be selected by one skilled in the art. The dimensions of the device depend directly upon the dearmer or gun system being employed, as well as the size of the target 110. The invention may be used with almost any type of dearmer or gun system having an extended barrel 101. However, the device was specifically designed to be used with a small caliber dearmer device in order to address specific issues related to that device as described above. As noted above, the length of the first and second extensions 104, 106 are about the minimum standoff distance required for the dearmer or gun system being used.
The distance 108 between the first and second extensions 104, 106 and the angle 116 depend mainly upon the size of the target 110 against which the system is being employed. For the device to operate at maximum efficiency, the distance 108 is less than the diameter of the minimum size of the target 110 in order to ensure that the target 110 does not go between the first and second extensions 104, 106. This ensures that the target 110 remains at least the mimimum standoff distance from the dearmer or gun system. However, the distance 108 must inherently be at least the diameter of the barrel 101. For a small caliber dearmer, the diameter of the barrel 101 is between 0.4ā0.5 inches. Therefore, the distance 108 will normally be the same as the diameter. The first and second extensions 104, 106 are connected to the attaching means 100. Any method of connecting may be selected by one skilled in the art that holds the first and second extensions substantially rigid, in place. One preferred connection method is to provide separate extensions 105 molded to the ends of attaching means 100 that can be joined to the first and second extensions through adhesive material or other connection methods. Finally, it is preferred that the first and second extensions 104, 106 be approximately parallel to one another so the extensions 104, 106 do not interfere with the exit of the projectile from the barrel 101.
The third and fourth extensions 112, 114 are attached to first and second extensions 104, 106 and extend at an angle 116 from the barrel 101. The attachment method can be selected by one skilled in the art. When the materials of the entire system are plastic, the preferred attachment method is to mold the first and third extensions 104, 112 and the second and fourth extensions 106, 114 together. The size of the angle 116 depends upon the length of the third and fourth extensions 112, 114, the distance 108 and the diameter of the target 110 and may be determined by one skilled in the art. For a maximum diameter target 110, the ends of the third and fourth extensions 112, 114 should be a distance 118 equivalent to that maximum diameter from one another. This allows both the third and fourth extensions 112, 114 to contact the target 110 to align the barrel 101 with the center of the target 110 as depicted in
The attaching means may comprise numerous methods and devices that may be selected by one skilled in the art. One preferred attaching means is depicted in
The invention also includes a method of using the device in order to render safe unexploded ordnance. In practice the device operates in the following manner. The invention is placed over the end of the barrel 101 and locked in place using the attaching means 100. The device is positioned so that the plane made by the V-shape of the third and fourth extensions 112, 114 is approximately perpendicular to the target 110. The operator aligns the ends of the V-shape with the target 110 and pushes the V-shape toward the target 110 until the third and fourth extensions both contact the target 110 without in any way bending or deforming the extensions 112, 114. This aligns the barrel 101 with the center of the target 110 and ensures that the target 110 is at least the minimum standoff distance from the barrel 101. The operator finally initiates the dearmer or gun system in order to fire a projectile at the target 110.
What is described are specific examples of many possible variations on the same invention and are not intended in a limiting sense. The claimed invention can be practiced using other variations not specifically described above.
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1854974 | Bernat | Apr 1932 | A |
2466203 | Bristow | Apr 1949 | A |
4436017 | Mohlin | Mar 1984 | A |
5333529 | Brockman | Aug 1994 | A |
5596161 | Sommers | Jan 1997 | A |
6216578 | Ledys et al. | Apr 2001 | B1 |
Number | Date | Country |
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0 178 039 | Apr 1986 | EP |
2 680 235 | Feb 1993 | FR |