The present invention relates to concertina-wire barriers and, in particular, it concerns their deployment in locations with a changing travel gradient and in locations removed from a deployment vehicle's line of travel.
U.S. Pat. No. 6,682,279 discloses a vehicular deployment method for concertina-wire barriers along a path of travel by loading a compressed barrier onto a vehicular deployment rack, anchoring a portion of the wire to a substrate and driving along the deployment path so that the anchored concertina wire applies a tension to the compacted concertina-wire coil arrangement and stretches it longitudinally onto the deployment path. However, there are settings that pose problems for such a deployment method. During uphill deployments the coil arrangement tends to slide off the rack prematurely. Proposed deployments along routes difficult for vehicles to negotiate or along paths set apart from the existing vehicle access track render the above-mentioned method almost useless. An additional shortcoming is its inability to load the coils onto the deployment rack. U.S. Pat. No. 7,290,756 discloses a method and device employing a magazine that deploys the concertina-wire coil arrangements while being towed by a vehicle. Several shortcomings emerge when deploying the barrier over distance requiring many lengths of concertina-wire coil arrangements. Since the deployment magazine is unable to contain all the required coil arrangements together, each additional coil arrangement must either be transported to the deployment location and then loaded onto the deployment magazine, or pre-loaded onto separate deployment magazines and then transported to the deployment location. Both options suffer from shortcomings. The first option requires additional lift equipment and manpower, while the second option requires a supply of deployment magazines, transport to the deployment location, and return transport to a storage area. On site, the latter method necessitates an additional task of tracking the unloaded magazines. Upon retrieval, another problem emerges; since the deployment magazines are not configured to collect deployed concertina-coil arrangements they must be collected manually. These shortcomings exacerbate expenses, complicate deployment logistics and diminish deployment effectiveness.
There is therefore a need for a concertina-wire barrier deployment method enabling loading, deployment, and retrieval via a single vehicle. The method must be capable of efficiently deploying a number of coil arrangements along uphill travel gradients or along paths removed from available transport routes.
The present invention is method and device for loading, deploying, and retrieving concertina-wire barrier along paths of varying gradients or along paths set apart from available vehicle access routes via a single vehicle.
According to the teachings of the present invention there is provided a method for rapid deployment of concertina-wire barriers along varying travel gradients comprising: (a) providing a compacted concertina-wire coil arrangement and a carry structure including a support structure, said support structure supporting said concertina-wire coil arrangement; (b) moving said carry structure along the varying travel gradient so as to progressively deploy the concertina wire from said compacted concertina-wire coil arrangement as a barrier; and (c) adjusting a tilt of said support structure while said carry structure moves along the varying travel gradient so that said supported, compacted concertina-wire coil arrangement is gravitationally biased not to slide off said support structure thereby establishing a required deployment tension.
According to a further feature of the present invention, the support structure is implemented as a structure possessing at least one tine.
According to a further feature of the present invention, the support structure is implemented as a platform.
According to a further feature of the present invention, the changing travel gradient includes an uphill slope.
According to a further feature of the present invention, the adjusting is performed by actuating a mechanism so as to vary an inclination of said support structure relative to a vehicle carrying said carry structure, and wherein said mechanism varies said inclination though an angular range of at least 45 degrees relative to said vehicle.
There is also provided according to the teachings of the present invention, a rapid-deployment device for concertina-wire barriers comprising: (a) at least one tine disposed on a first tier and at least one additional tine disposed on an at least one additional tier, said tines further disposed so as to support a compacted concertina-wire coil arrangement during transport; (b) a vehicular connect arrangement including an adjustable vehicular-hitch arrangement and a tine carrying structure, said tine carrying structure adapted to connect to said adjustable vehicular-hitch arrangement and being configured to render an adjustable vehicular-hitch arrangement action-of-adjustment into a corresponding angular adjustment of said tine.
According to a further feature of the present invention, the at least one said tine disposed on a first tier is implemented as three tines.
According to a further feature of the present invention, the at least one tine disposed on a first tier and at least one additional tine disposed on an at least one additional tier is rigidly connected to said tine carrying structure.
According to a further feature of the present invention, a control mechanism including a level sensor operatively coupled to said adjustable vehicular-hitch arrangement, said control mechanism being operative to maintain a predetermined tilt of said tine as travel gradient changes.
There is also provided according to the teachings of the present invention, a rapid-deployment rack for concertina-wire barriers comprising: (a) a tine carrying structure adapted to connect to an adjustable-tilt, vehicular-hitch structure; (b) a tine carrying structure adapted to connect to an adjustable-tilt, vehicular-hitch structure.
According to a further feature of the present invention, the at least one said tine disposed on a first tier is implemented as three tines.
There is also provided according to the teachings of the present invention, a method for rapid deployment of a concertina-wire barrier removed from a transport vehicle comprising: (a) providing a vehicle transporting a support structure at a distance from its own path of travel, said support structure supporting a compacted concertina-wire coil arrangement; (b) restraining at least a portion of said compacted concertina-wire which has been removed from said coil arrangement; and (c) transporting said support structure supporting said compacted concertina-wire coil arrangement so that said concertina-wire is pulled off said support structure while said carry structure and said supported compacted concertina-wire coil arrangement are transported along a path of deployment at a distance from the path the path of travel of said transport vehicle.
According to a further feature of the present invention, the transporting is performed by advancing said vehicle along its own line of travel, thereby deploying the concertina wire barrier at a distance from the vehicle's line of travel.
According to a further feature of the present invention, the transport vehicle is implemented as a mobile crane.
According to a further feature of the present invention, the transport vehicle is implemented as a helicopter.
According to a further feature of the present invention, the transport vehicle is implemented as a structure possessing at least one tine.
According to a further feature of the present invention, the transport vehicle is implemented as a platform.
There is also provided according to the teachings of the present invention, a rack for rapid deployment of a concertina-wire barrier from a transport vehicle adapted to support a load hanging freely comprising: (a) a tine carrying structure adapted to dangle from said transport vehicle; (b) at least one tine disposed on a first tier and at least one additional tine disposed on at least one additional tier on said tine carrying structure, said tines further disposed so as to support a compacted concertina-wire coil arrangement during transport and to gravitationally bias said compacted concertina-wire coil arrangement from sliding off said tine and to allow said concertina-wire to be pulled off said tine at a desired deployment tension by a portion of said concertina-wire which has been removed from said tine and has been retained.
According to a further feature of the present invention, the transport vehicle adapted to support a load hanging freely is implemented at a distance from its own travel route.
There is also provided according to the teachings of the present invention, a device for rapid, removed deployment of a concertina-wire barrier from a transport vehicle adapted to transport a load at a distance from its own travel route comprising: (a) at least one tine disposed on a first tier and at least one additional tine disposed on an at least one additional tier, said tines further disposed so as to support a compacted concertina-wire coil arrangement during transport, said tines being tilted so as to gravitationally bias said compacted concertina-wire coil arrangement from sliding off said tines and to allow said coil arrangement to be pulled off said tine at a desired deployment tension by a portion of said concertina-wire which has been removed from said tines and has been retained; (b) an adaptation structure including an adjustable vehicular-hitch structure and a tine carrying structure, said adjustable vehicular-hitch structure being configured to transport said tine carrying structure, said tine carrying structure being adapted to connect to said adjustable vehicular-hitch structure and further configured to render an adjustable vehicular-hitch structure action-of-adjustment into a corresponding angular adjustment of said tines.
According to a farther feature of the present invention, the tine carrying structure is implemented as a free hanging support structure so as to gravitationally maintain a predetermined optimal tilt of said tines.
There is also provided according to the teachings of the present invention, a method for loading and deploying concertina-wire barriers comprising: (a) providing a compacted concertina-wire coil arrangement and a tine structure; (b) inserting said tine structure into space circumscribed by said concertina-wire, (c) lifting tine structure so that said compacted concertina-wire coil arrangement is hanging from the tine structure; (d) moving said tine structure and said hanging concertina-wire coil arrangement along an intended deployment path so as to progressively deploy the concertina wire from said compacted concertina-wire coil arrangement as a barrier.
According to a further feature of the present invention, further comprising adjusting a tilt of said tine structure while moving along a varying travel gradient so that said hanging concertina-wire coil arrangement is gravitationally biased not to slide off said tine structure thereby establishing a required deployment tension.
According to a further feature of the present invention, the adjusting is performed by actuating a mechanism so as to vary an inclination of said tine structure relative to a vehicle carrying said tine structure, and wherein said mechanism varies said inclination though an angular range of at least 45 degrees relative to said vehicle.
According to a further feature of the present invention comprising; (a) inserting said tine structure into space circumscribed by said deployed concertina-wire; (b) advancing said tine structure through a space circumscribed by said deployed concertina-wire so that said coil arrangement is progressively removed from its said deployment location and compacted into its pre-deployment state on said tine structure.
There is also provided according to the teachings of the present invention a method for retrieving deployed concertina-wire barriers comprising: (a) providing a tine structure including at least one tine configured for insertion into a space circumscribed by a concertina-wire coil, said tine structure being disposed in a deployment configuration with said at least one tine at a first angle with an upward inclination towards the tip of said at least one tine; (b) redeploying said tine structure in a retrieval configuration with said at least one tine at a second angle with a downward inclination towards the tip of said at least one tine; and (c) advancing said tine structure through a space circumscribed by a deployed concertina-wire coil such that said deployed concertina-wire coil is successively lifted and collected onto said tine structure as said tine structure advances.
The invention is herein described, by way of example only, with reference to the accompanying drawings, wherein:
The present invention is method and a device for the loading, rapid deployment, and retrieval of concertina-wire barriers along varying travel gradients and along paths removed from transport routes.
The principles, method and operation of the concertina-wire barrier deployment according to the present invention may be better understood with reference to the drawings, the accompanying description, and the following term usages throughout this document. The term “tine” refers to a primarily prong-like structure. Such structures possessing slight curvatures, bends, or textured surfaces are all included within the scope of the term “tine”. The terms “tilt”, “slope”, “inclination”, or “angle”, refer to such entities in relation to the transport vehicle unless otherwise noted. The term “coil” refers to any unit formed from left or right hand wire helices or a combination thereof or any other arrangement of coils or loops of wire that provide the functionality associated a concertina-wire coil. A barrier formed from one or more such coil units is referred to as a “coil arrangement”. The “wire” referred to may be barbed wire, razor wire or any other elongated flexible element effective for forming a barrier.
As mentioned above, known deployment methods for concertina-wire barriers in many commonly encountered scenarios do not provide the needed effective deployment. For example, during uphill transport as illustrated in
Therefore, a steep travel gradient requires the carry tines to be sharply inclined, a moderate gradient requires them to be moderately inclined; a level path of travel requires them to be mildly inclined. A changing travel gradient requires an adjustable tine tilt that reflects the changes in gradient.
An active-tilt concertina-wire deployment rack as illustrated in
Referring now to
It should be noted that the above-mentioned embodiment employs a deployment rack 9 possessing rigidly connected tines 10 whose tilt is adjusted by changing the tilt of the entire rack as shown in
The tine tilt may be regulated manually or automatically.
As mentioned above, deployment paths set apart from an access route or too rugged for conventional transport vehicles to negotiate require alternative deployment methods. The present invention addresses this need.
Referring now to
It should be noted that alternative transport vehicles capable of transporting suspended loads are also effective deployment vehicles. A few non-limiting examples include helicopters, loaders and tractors fitted with the appropriate hardware enabling suspension at a distance from the travel path. An additional non-limiting embodiment combines both the removed deployment and active gradient-responsive tilt features. By way of example,
It should be noted that the tilt feature is responsive to the changing gradient encountered by the transport vehicle and not the changing gradient of the removed deployment location, since this slope effects the tine tilt. The tine tilt may be regulated manually or automatically.
The remote deployment method and devices taught herewith provide for deployment along paths horizontally or vertically distant from the access route. Those distances may vary between a few millimeters or tens of meters, depending on the span of the crane boom 29 employed. A deployment at any distance removed from an access route is within the scope of the current invention.
It should be noted that a variant of each of the described embodiments employs a platform in place of the above-mentioned tines. The platform may be implemented in a variety of forms, all of which provide support to the concertina-wire coil arrangement. A number of non-limiting examples include a flat horizontal surface, a flat horizontal surface with attachable walls, a flat surface with walls curving upwards at a point corresponding to the cumulative width of the bottom layer of coils, or a number of interconnected parallel semi-circular channels disposed so that each bottom-tier coil is seated within a separate channel. These elements may be integrally connected or non-integrally connected to facilitate the addition or removal of seating elements to match the number of bottom level coils to be deployed.
It should be further noted that both rear-end and front-end vehicular hitch accessories fall within the scope of the current invention.
Turning now to loading features, as mentioned above, current loading methods require either the assistance of lift equipment or carry accessories like pallets. The current invention discloses a method and device for performing these functions without the assistance of such agents.
Turning now to the retrieval features, by means of example,
It should be noted that the above described loading and retrieval methods apply to both deployment paths in discussion, i.e. paths with a varying gradient and paths distant from an access route.
It will be appreciated that the above descriptions are intended only to serve as examples, and that many other embodiments are possible within the scope of the present invention as defined in the appended claims.
Number | Name | Date | Kind |
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3070946 | Kirsch et al. | Jan 1963 | A |
3463455 | Meckel | Aug 1969 | A |
4484729 | Mainiero et al. | Nov 1984 | A |
4503423 | Mainiero et al. | Mar 1985 | A |
6682279 | Pessach et al. | Jan 2004 | B2 |
7290756 | Pavlov | Nov 2007 | B2 |
Number | Date | Country | |
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20090200415 A1 | Aug 2009 | US |