Not applicable.
Not applicable.
Not applicable.
1. Field of the Invention
The present invention relates generally to an apparatus for breaching structures, and more particularly to a flexible, finable, and/or inflatable bag for use with explosive charges for breaching locked or barricaded doors, walls, roofs and ceilings.
2. Discussion of Related Art
Special weapons and tactic (SWAT) teams or other police and military personnel frequently use breaching apparatus to gain entry into locked and barricaded buildings, where criminals, terrorists, hostages, drug caches and the like are located. SWAT teams routinely breach doors quickly by using battering rams, shotguns, and/or explosive charges. These devices can be employed singly or in combination to break the lock or hinges, or even to demolish the door frame itself.
It is known to use explosives to breach doors, but it is challenging to fashion a charge sufficient to blow open a door without causing injury to building occupants and while minimizing damage to property. Explosive charges can be shaped and the blast wave concentrated by reinforcing certain areas surrounding the charge. A shaped charge, by design, focuses its energy into a narrow blast trajectory, making it very accurate and controllable. When size is added to that accuracy, the effect can be dramatic. Shaped charges were first developed after World War I to penetrate tanks and other armored equipment. Their most extensive use today is in the oil and gas industry, where they are used to open rock around drilled wells.
In the case of doors and windows, it is desirable to concentrate a blast wave to impact a region roughly two to three feet in diameter directly on the structure. Additionally, it is important to eliminate potentially injurious back blast. Accordingly, a number of interacting factors must be carefully calculated, including the type, size and focus of the explosive charge, the stand-off distance with which the charge is placed, and the kind (if any) of casing or jacketing to shape, disperse, and direct the blast wave.
In recent years law enforcement agencies have discovered that it is possible to shape a suitable charge through the combination of detonating cord and conventional intravenous bags, plastic soda bottles, or similar containers. To avoid the inconsistencies occasioned by such use, a flexible and/or foldable and easily portable apparatus was designed and has been successfully been employed as a jacketing material for door breach charges. The present invention, hereafter referred to as a “breach bag,” is an apparatus that can be adapted to many different situations which necessitate the controlled penetration of a locked entryway, wall or armored surface. Essentially, the breach bag incorporates one or more bladders that can be filled with water (or another non-compressible fluid) or sand or with various metals in various shapes and sizes. By changing the configuration of the breach bag, a directed blast wave or a shaped charge projectile can be provided, the particular blast characteristics depending largely on the bladder configuration and contents. Few prior art references are known, the most notable among them including the following United States patents.
U.S. Pat. No. 3,658,006 to Nistler, et al., describes an explosively actuated egress and ingress device having a case formed of relatively light-weight material with an outer surface, and having a linear-shaped explosive positioned within the case adjacent to the outer surface. The case includes a resilient backing material. A pliable gathering material may also be provided within the case to the rear of the linear-shaped explosive charge. The device is designed to cut large holes.
U.S. Pat. No. 4,856,430 to Gibb, et al., discloses a small and lightweight breaching apparatus that provides sufficient energy to breach a wall. The apparatus consists of a number of panels, each including a material matrix and a linear shaped charge embedded in the matrix. Each end of the charge is located adjacent an edge of the panel. The panels are configured to be assembled edge to edge in an open condition with the linear shaped charges arranged end to end, or face to face in a closed condition, with charges on the inside of the assembly. The apparatus may be collapsed for storage and transport and assembled in its open condition to produce a linear charge of fixed shape.
U.S. Pat. No. 6,341,708 to Palley, et al., describes a blast resistant and blast-directing container assembly for receiving explosive articles and preventing or minimizing damage in the event of an explosion. The container assembly includes an opening covered by a band of blast resistant material with at least one slit in the band and possibly blast mitigating material disposed in the container. The container can be collapsible for storage when empty.
U.S. Pat. No. 7,000,545 to Sansolo, teaches a breaching apparatus including a housing constructed of a material and an explosive charge placed in the housing. When detonated, the housing disintegrates in the explosion without giving off significant material fragments.
The foregoing patents reflect the current state of the art of which the present inventor is aware. Reference to, and discussion of, these patents is intended to aid in discharging Applicant's acknowledged duty of candor in disclosing information that may be relevant to the examination of claims to the present invention. However, it is respectfully submitted that none of the above-indicated patents disclose, teach, suggest, show, or otherwise render obvious, either singly or when considered in combination, the invention described and claimed herein.
The present invention is a flexible and/or foldable container with at least one fillable water chamber which is employed in conjunction with an explosive charge for use in breaching locked or barricaded doors or penetrating surfaces. It is therefore usefully described as a “breach bag.” It comprises a planar body and at least one water chamber structure for containing fluid or solid materials. The breach bag can be utilized to focus an explosive shock wave, create a concussive force, or create an explosively formed projectile, depending upon the configuration of the fillable water chamber(s) and the nature of the fill material used to fill the water chamber(s).
In a preferred embodiment of the inventive breach bag, the apparatus utilizes an annular water chamber integrally connected to a planar body material and structure. A capped fill port is used to selectively introduce a non-compressible material such as water into the water chamber. Detonating cord (also known as “detcord”, “detonation cord”, “detacord,” det cord,” “primer cord”, “primacord”, and “cordtex”), sheet explosive, or another explosive charge, is attached to the annular water chamber by adhesives, tape, or other attachment means, and then sandwiched between the water chamber and the structure (wall, roof, door, and the like) to be penetrated. The breach bag is brought into contact with the surface of the structure using a static pole fitted into a boot on the planar body of the breach bag, or alternatively by hanging the breach bag from a line connected to a nail or other structure, such as a plastic shower hook, double-sided adhesive tape, and so forth, located above the breach bag and tied to grommets disposed on the perimeter of the planar body structure of the bag. When the explosive material is detonated, the blast wave is focused into the structure according to the annular shape of the filled water chamber. The result is a ring-shaped breach in the structure corresponding to the shape of the water chamber. In effect, this creates an open port into the structure. Such an opening may function as a man way or urgent ingress into, or egress from, the building, or as a gun port, when such uses are called for.
In another preferred embodiment of the breach bag, the bag has a generally planar body structure in a substantially rectangular shape. At least one rectangular water chamber with at least one capped fill port is defined within the perimeter of the planar body. Grommets are disposed on and about the perimeter of the planar body material. Detonation cord, sheet explosive, or another explosive substance is attached to the water chamber in the manner described above, and the breach bag is then attached to the structure, also in the manner described above. When the explosive material is detonated, the blast wave is partly confined and contained by the mass of the filled water chamber into a relatively small region of high explosive energy, thus providing ample force to blow through a wall, door, roof, or other building structures. This embodiment may also be folded lengthwise and held in that conformation by hook and loop material on the edges of the planar body. This conformation creates an essentially hollow space within which an explosive material may be inserted. Upon detonation with an initiating device to the explosive material used, there is a concussive force shaped, confined, and directed into the building structure by the water chamber.
In yet another embodiment, the breach bag includes two or more water chambers, each with individual capped fill ports. In one such configuration, two water chambers are disposed in a generally parallel orientation along a spine defined by seams that separate the water chambers within the perimeter of the planar material body. The breach bag may thus be folded along the spine and secured in a folded configuration by a hook and loop material disposed on outer seams of the planar material body. This folded configuration creates an essentially hollow sleeve within which explosive material may be inserted. The segregated water chambers may be filled with materials of different densities or compressibility to tailor the blast wave to the circumstances at hand. When the explosive material is detonated, the blast forces the more compressible material away from the less compressible material, creating a plume or a projectile that can penetrate even an armored surface.
Another embodiment of a two-chamber device includes first and second water chambers spaced apart on each side of the mid-line of a generally rectangular planar panel of flexible material. The first water chamber has a depth dimension roughly half that of the second water chamber, the latter provided with a centered rectangular pocket for the disposition of a plastic explosive. When the water chambers are filled and the planar panel folded so as to place the first water chamber atop the second water chamber, the explosive charge is surrounded on all sides by a wall of water having roughly equal width dimensions. Thus, the percussive forces from the explosion are distributed fairly evenly around the breach bag.
From the foregoing it will be readily appreciated that it is a principal object of the present invention to provide a new and improved breach bag for use with explosive charges in breaching locked and/or barricaded doors.
It is another object of the present invention to provide a new and improved flexible and fillable breach bag that is effectively flat, or planar, when not filled with fluid.
A further object or feature of the present invention is to provide a new and improved breach bag that may be selectively filled in one or more segregated water chambers.
It is still another object of the present invention to provide a new and improved breach bag having alternative filling means.
It is yet another object of the present invention to provide a breach bag with two or more fillable water chambers that may be filled with different materials of varying compressibility, and that provides a highly predictable, standardized blast wave when explosive charges are disposed within the bag and detonated.
An even further object of the present invention is to provide a novel breach bag that may be combined and deployed in a serial or linear array with other breach bags to provide an expanded blast wave.
Other novel features which are characteristic of the invention, as to organization and method of operation, together with further objects and advantages thereof will be better understood from the following description considered in connection with the accompanying drawing, in which preferred embodiments of the invention are illustrated by way of example. It is to be expressly understood, however, that the drawing is for illustration and description only and is not intended as a definition of the limits of the invention. The various features of novelty which characterize the invention are pointed out with particularity in the claims annexed to and forming part of this disclosure. The invention resides not in any one of these features taken alone, but rather in the particular combination of all of its structures for the functions specified.
The invention will be better understood and objects other than those set forth above will become apparent when consideration is given to the following detailed description thereof. Such description makes reference to the annexed drawings wherein:
of a third embodiment in an elongated rectangle with two water chambers.
Referring first to
For use in a wall or door breaching application, such as depicted in
The preferred material for the planar panel from which the breach bag of the first preferred embodiment is made is 30 mil PVC plastic. Various weights, densities, and material thicknesses may be employed according to the intended use.
Referring next to
As with the earlier described embodiments, the fifth preferred embodiment of the inventive breach bag may be deployed on vertical or horizontal building structures, while it is especially well suited for use in breaching a door. This is accomplished by filling the breach bag with the desired volume of water, sand, or other material, or a combination of materials, according to the force, shape, and size of the desired blast wave. The bag is then folded on itself to form a generally hollow tube with openings at the upper and lower ends 1680/1690 and a closure at the sides 1710, 1720. When closed in such a fashion, the interior sides of the water-filled water chambers are pushed against one another so as to provide force sufficient to capture and retain a length of detonation cord 400 inserted through the tube. This provides the explosive charge. The bag is then positioned against a door by stringing a line through one or more of the grommets and hanging the filled bag on a hook, nail, or other structure immediately above the door.
As will be clear from the foregoing, the preferred embodiments of the breach bag of the present invention are all fabricated from two panels or layers of flexible material, preferably two discrete thin sheets of PVC or a single sheet folded onto itself to create two layers. 30 mil PVC has been shown to be effective for use in breaching most structures encountered in conventional law enforcement. However, material choice and thickness is a matter of design choice. When panels of PVC or other RF excitable thermoplastic materials are used (including various polyurethane materials), seams defining the finable water chambers are created using Radio Frequency welding (also known as RF, Dielectric or High Frequency welding). Similarly, the fluid inlet is installed using RF welding. As is well known, RF welding is a process of fusing materials together by focusing radio frequency energy on the region to be joined, and it creates seams in the present invention that are essentially as strong as the parent material. Other materials that may be employed include polyethylene terephthalate (PET), nylon, and some ABS resins. However, these materials may require special preheated welding bars in addition to RF power. When other, non-RF excitable materials are employed, such as polyethylene, either a hot welding process or adhesives may be employed to create the seams.
Accordingly, fabrication is relatively simple and entails providing a panel of suitable flexible material for the bag. In the case of the first, third, and fifth preferred embodiments, a fluid inlet valve is installed on a portion of the panel, and the panel is cut or folded to create front and back layers of substantially the same size. When RF welding is employed, the layers are placed onto a planar bed plate, where die tooling in an RF welding system is brought into close proximity with the material in a pattern of the seams to be created. The welds are rapidly completed and excess material is removed from any perimeter seams where welding was effected.
Referring now to
In the case of the second preferred embodiment, FIGS. 5 and 9-11, after fluid inlets are installed on the panels, the water chambers are fabricated independently with side seams and top and bottom seams so as to place the two water chambers in a generally a side-by-side configuration. The material region defined by the side seams separating the two water chambers is then employed as a folding portion wherein the bag can be folded so as to place the two water chambers into a front and back orientation and to leave a portion of material on the edge of the bag opposite the folding portion. A weld is then made between the edges of material opposite the fold to form a permanent closure around the hollow tube portion 950.
As with the second preferred embodiment, the fourth preferred embodiment requires the installation of two fluid inlet ports, and fabrication follows along the lines of the second preferred embodiment. However, rather than forming a permanent weld to effect the closure at the unfolded edge, selectively closeable means are disposed on the outside edges 1264, 1265 of the bag so that it can be closed at the option of the user.
It will also be seen that one of the first and second water chambers is configured with an integral pocket or recess 1880 shaped to accept a shaped plastic explosive charge 1890. The interior and exterior sides also include closure elements means for closing the bag around the water chamber, in this instance the elements comprising complementary elongate hook and loop fastener strips 1900, 1910 disposed lengthwise proximate the edges of the fabric panel. Such a closure is shown in
The operation of filling the bag properly is critical to its effectiveness. Care is therefore taken to ensure even filling of the water chambers and proper alignment of the panel closure when preparing the apparatus for use. As a first step in preparing the breach bag, the explosive charge is placed in the pocket or recess 1880 in second water chamber 1870. The breach bag is then stood on end with the end closures oriented vertically and the caps 1930, 1940 removed from the water chamber closures. The water chambers are then partially filled with water, perhaps slightly less than half full, and the chambers are recapped. The breach bag is then laid back onto a side with the first water chamber under the second and the caps in a generally vertical orientation. The closure strips are brought into close alignment along their entire lengths and then approximated to effect a closure. The breach bag is then once again stood on end with the caps in the uppermost position. The caps are removed and the water chambers alternately filled in stages until each chamber is full. The caps are replaced and the breach bag is then ready for deployment.
Referring particularly to
In each of the preferred embodiments the breach bag is lightweight, foldable, flexible, compact, easily stored and transported, and rapidly prepared for use in the field. It is ideal, therefore, for military and law enforcement applications. In any of the embodiments with segregated front and back water chambers, the back side of the bag may be filled with fill material, or, alternatively, it may be left empty. When filled the bag functions to create a fluid impulse charge, whereas when left empty, the material tend to confine or “tamp” the explosive charge.
The foregoing disclosure is sufficient to enable those with skill in the relevant art to practice the invention without undue experimentation. The disclosure further provides the best mode of practicing the invention now contemplated by the inventor. It will be appreciated by those skilled in the art that the basic breach bag design may take on a multitude of configurations depending upon the desired application.
While the particular breach bag apparatus and method herein shown and disclosed in detail is fully capable of attaining the objects and providing the advantages stated herein, it is to be understood that it is merely illustrative of the presently preferred embodiment of the invention and that no limitations are intended concerning the detail of construction or design shown other than as defined in the appended claims. Accordingly, the proper scope of the present invention should be determined only by the broadest interpretation of the appended claims so as to encompass obvious modifications as well as all relationships equivalent to those illustrated in the drawings and described in the specification.
The present application is a continuation-in-part of U.S. Utility patent application Ser. No. 12/305,059, filed Dec. 16, 2008 (Dec. 16, 2008) which is a Section 371 United States National Stage application based on International Patent Application Serial Number PCT/US07/71883, filed Jun. 22, 2007 (Jun. 22, 2007) which claims the benefit of the priority date of U.S. Provisional Patent Application Ser. No. 60/807,977, filed Jul. 21, 2006 (Jul. 21, 2006.)
Number | Date | Country | |
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60807977 | Jul 2006 | US |
Number | Date | Country | |
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Parent | 12305059 | Dec 2008 | US |
Child | 13088239 | US |