The present invention relates generally to articles of apparel. Stated more particularly, this patent discloses and protects a wearable that provides safety and security to a wearer by enabling the wearer to administer or threaten an electrical charge to a hostile person.
It is an unfortunate reality that three out of every four American women will fall victim to at least one violent crime during their lifetime. As a result, it is clear that there is a need for systems and methods for providing women with security. While a plurality of such systems and methods have been disclosed, even the combined prior art continues to suffer from a number of shortcomings that have prevented the arrangements of the prior art from achieving widespread success and usage. As a result, most such systems and methods of the prior art have remained primarily theoretical in nature. As a result, they have represented little actual improvement in the safety of women.
For example, many prior art self-protection devices for women are of dubious effectiveness. Other arrangements can additionally or alternatively present a danger to the female user in that the device that was intended to defend the woman could be converted into a weapon against her. In a still further shortcoming, many prior art devices demand that the woman brandish a hand-held device or its equivalent. As such, they require acts of aggression on the part of the user thereby rendering them unappealing to many users, particularly females. For these and further reasons, it is apparent that the conception and design of most prior art self-protection devices fail to accommodate the special and different needs of female users.
In any event, one knowledgeable in the art will be aware that a number of self-defense apparatuses, including some intended to be worn by the user, have sought to protect the user by enabling him or her to inflict an electrical charge on a hostile party. Exacting an electrical shock on an assailant at a suitable level certainly can be an appropriate and effective non-lethal means for confronting attacks on one's person. However, providing an electrically charged wearable that can exact such a shock has presented inventors of the prior art with a plurality of significant challenges that have been left substantially unmet.
Most basically, it is clear that the user must be confident that she can induce the electrical charge in a reliable and substantially immediate manner. Just as importantly, for the wearable to be usable in everyday life, it must be ensured that the wearable cannot become armed and charged unintentionally. Still further, to be most effective, it would be preferable if the charge to be exhibited by the wearable could be selectively controlled or calibrated to accommodate varied circumstances.
In light of the foregoing, it will be appreciated that a wearable overcoming one or more of the challenges described above would represent a useful advance in making non-lethal, electrically charged apparel a practical self-defense solution, particularly for female users. It will be further appreciated that an electrically charged wearable that would provide a solution to each of the shortcomings of the prior art while demonstrating a plurality of additional refinements thereover would represent a significant advance in the art.
Advantageously, the present invention is founded on the basic object of providing a self-defense system that overcomes each of the described disadvantages that have been demonstrated by the prior art while providing a number of heretofore unrealized advantages thereover.
A more particular object of the invention is to provide a wearable that enables the wearer to exact a disabling or discouraging charge upon an assailant immediately and reliably.
A further object of particular embodiments of the invention is to provide an electrically charged wearable that eliminates substantially all risk of inadvertent or unintended arming and charging.
A related object of embodiments of the invention is to provide such an electrically charged wearable that is not likely to pose as a danger to the wearer or to non-hostile parties.
In certain embodiments, yet another object of the invention is to provide an electrically charged wearable that can exact electrical shocks of selectively or automatically varied intensity depending on certain parameters, such as the perceived level of attack and environmental conditions.
Still another object of preferred embodiments of the invention is to provide an electrically charged wearable that can exploit the wearer's instinctive response to an attack to provide immediate self-defense protection.
An even further object of the invention is to provide an electrically charged wearable that can provide adequate self-defense without regard to the strength or psychological state of the wearer.
In particular embodiments, yet another object of the invention is to provide an electrically charged wearable that can apprise a potential attacker of its capacity to shock thereby to discourage attacks altogether.
These and further objects and advantages of the invention will become obvious not only to one who reviews the present specification and drawings but also to one who has an opportunity to make use of an embodiment of the present invention. However, it will be appreciated that, although the accomplishment of each of the foregoing objects in a single embodiment of the invention may be possible and indeed preferred, not all embodiments will seek or need to accomplish each and every potential advantage. Nonetheless, all such embodiments should be considered within the scope of the present invention.
In accomplishing the aforementioned objects, a most basic embodiment of the present invention for a self-defense wearable enables a wearer to exact or threaten an electrical charge on a physical assailant. The self-defense wearable is founded on a body portion that overlies one or more body parts of a wearer. The body portion has an outer surface and an inner surface and is formed of at least one layer of material. An electrically conductive pathway is applied in a given pattern over the at least one layer of material, and a means is associated with the electrically conductive pathway for producing an electric charge capable of being imparted to an entity in contact with or proximity to the outer surface of the body portion. A power source provides electrical power to the electrically conductive pathway, and at least one activating switch can be employed to induce the self-defense wearable into a charged condition wherein an electric charge will be produced. A wiring network achieves an electrical association between the electrically conductive pathway, the power source, the at least one activating switch, and any other electrical components of the self-defense wearable.
In certain embodiments, the self-defense wearable can incorporate an arming device, such as a key switch, a coded keypad, a dial, or any other appropriate arrangement, for arming and disarming the self-defense wearable to enable or disable electrical power transmission between the power source and the electrically conductive pathway. A visual indicator, such as a light emitting diode, can indicate to the wearer and to others whether the self-defense wearable is armed or disarmed. That or another visual indicator can be employed also to indicate battery strength.
A preferred body portion can have one layer of material comprising an electrically conductive sub-layer and a second layer comprising an outer shell that overlies the electrically conductive sub-layer. Under such a construction, the electrically conductive sub-layer can be formed by a substrate with the electrically conductive pathway applied thereto. The electrically conductive pathway can be formed by one or more strands of conductive material, such as conductive wire, conductive fiber, or conductive paint. An interior lining can be provided for being disposed in contact with a wearer, and an electrically insulative sub-layer can be interposed between the interior lining and the electrically conductive sub-layer. The interior lining can preferably be coupled to the electrically insulative sub-layer by a plurality of coupling tabs of insulative polymeric material, such as rubber, that are interposed between the interior lining and the electrically insulative sub-layer. With this, the interior lining need not be fastened directly to the electrically insulative sub-layer such that potential damage to the electrically insulative sub-layer can be avoided.
In certain embodiments, all or a portion of the electric charge can be visually exposed relative to the outer shell. In such a case, the exposed electric charge can be produced by first and second conductive terminals, which can comprise part of the conductive pathway, separated by a given gap. As a result, an exposed electric arc will be produced between the terminals when sufficient electrical power is provided. The first and second conductive terminals can be incorporated into an electrically charged seam construction that includes a channel formed in the outer shell that exposes at least part of the gap between the first and second conductive terminals. In one construction, the first and second conductive terminals can be sandwiched between the outer shell and the substrate adjacent to opposing terminal faces in the outer shell. Under such an embodiment, when electricity is sent along the conductive pathway at a sufficient level, the electricity will tend to span the gap between the first and second conductive terminals thereby creating the exposed electric arc.
The self-defense wearable could further include a means for adjusting the power of the electric arc. Although that means could comprise a dial or the like, one embodiment of the self-defense wearable allows an adjustment of the power of the electric charge by producing an electric arc with a power that is dependent on a degree to which a compression-type activating switch is compressed. In one potential refinement of the invention, there could be a means for producing a constant or intermittent electric arc, most likely over a small segment of the electrically conductive pathway, even while the activating means is not activated. Such an arc could provide a constant or intermittent indication of the electrically conductive character of the self-defense wearable and, additionally or alternatively, could function as an indication of the source of the self-defense wearable.
The wearable certainly could take a number of forms within the scope of the invention. In one embodiment, for example, it can be an upper body covering, such as a jacket. As such, it will have a torso portion and first and second arms. The activating switch can be a pressure activated switch and can be disposed adjacent to a distal end of the first arm on a tongue that underlies the wearer's palm. With that, the self-defense wearable can be induced into a charged condition by a clenching of the wearer's hand, a natural response to an attack situation. In a still more particular embodiment, the arm or arms where the switch is so disposed can terminate in an extended cuff formed by a first jaw and a second jaw with the tongue being disposed between the first and second jaws.
With a basic object of the invention being the provision of an effective self-defense mechanism for women, embodiments of the invention can be designed and crafted with a goal of limiting their use to women. As such, the dimensions and details of the self-defense wearable could be selected to accommodate the sizes and shapes common to women to the exclusion of the sizes and shapes common to men. Still further, the self-defense wearable could incorporate a means for preventing activation of the self-defense wearable based on the sex of the wearer.
With a plurality of embodiments of the present invention briefly described, one will appreciate that the foregoing discussion broadly outlines the more important features of the invention merely to enable a better understanding of the detailed description that follows and to instill a better appreciation of the inventors' contribution to the art. Before an embodiment of the invention is explained in detail, it must be made clear that the following details of construction, descriptions of geometry, and illustrations of inventive concepts are mere examples of the many possible manifestations of the invention.
In the accompanying drawings:
As is the case with many inventions, the present invention for an electrically charged self-defense wearable is subject to a wide variety of embodiments. However, to ensure that one skilled in the art will fully understand and, in appropriate cases, be able to practice the present invention, certain preferred embodiments of the broader invention revealed herein are described below and shown in the accompanying drawings.
With this in mind and looking more particularly to the accompanying figures, a first preferred embodiment of the present invention for an electrically charged self-defense wearable is indicated generally at 10 in
Advantageously, however, the open mouth of the extended cuffs 22 allows the wearer use of her hands. By combined reference to
Looking to
As can be seen by reference to
The conductive pathway 20 can be formed from a flexible conductive material, such as wire or wire mesh. Alternatively or additionally, the electrically conductive sub-layer 14 can be formed with an electrically conductive textile formed onto the non-conductive substrate 15. In a presently preferred arrangement, however, the conductive pathway 20 can be formed by a conductive fiber or thread that can be sewn, woven, or otherwise incorporated into the non-conductive substrate 15. Alternatively, the conductive pathway 20 could be formed by applying a conductive material, such as a paint, to the non-conductive substrate 15 by any appropriate process, such as screen printing or any other appropriate method. When the conductive pathway 20 is formed under any of the described methods, the self-defense wearable 10 advantageously remains comfortably wearable and relatively easily manufactured.
The conductive pathway 20 of the electrically conductive sub-layer 14 follows a given pathway pattern over the distal surface of the non-conductive substrate 15. The pattern of conductive material, whether it be conductive strands of thread, conductive wire, conductive paint, or any other suitable material, that forms the conductive pathway 20 preferably has adjacent lengths of conductive material generally spaced no less than one inch from each other such that they remain separated as two independent terminals as is discussed further herein. The conductive pathway 20 preferably will traverse the torso 44 and arms 46 and 48 thereby providing the wearer's body and arms with protective surface coverage.
However, the conductive pathway 20 should be patterned to avoid areas where the conductive material might short, such as where a thread or fiber acting as the conductive material could potentially contact itself or another thread or fiber. In addition, to prevent inadvertent contact with the wearer, the conductive pathway 20 preferably will avoid being disposed where the head and face of the wearer could come into contact therewith. As such, it will preferably avoid the area within the radial rotation or extension of the wearer's head and the areas of the interior shoulder, upper chest, neck, and underarms. This preferred arrangement of the conductive pathway 20 is supplemented in protecting the wearer from inadvertent shock by, among other things, the extended collar 40, which comprises a relatively high and wide shield. Also, as can be seen, for example, in
As its name would suggest, the electrically insulative sub-layer 16, which is exposed in
The self-defense wearable 10 is unique in its high voltage operation and offers many advantages over prior art lower voltage wearable systems. For example, under the present invention's high voltage format wherein voltages ranging from approximately 20 kV to 100 kV can be employed, electricity can be made to jump and pass through porous material up to roughly one inch thick or more such that a need for direct contact between a body and a conductive terminal is obviated. That is enabled, in part, by the electrically insulative sub-layer 16, which protects the wearer from the high voltage charge. Of course, after reading this disclosure, one skilled in the art would find a number of suitable materials for the electrically insulative sub-layer 16 obvious. One presently preferred material for the electrically insulative sub-layer 16 is rubber or a rubberized material.
In addition to the specific material requirements necessitated by the high voltage format, particular construction methods are desirable for allowing the self-defense wearable 10 to be worn without risk of inadvertent shock. For example, any seams or perforations in the electrically insulative sub-layer 16 ideally will be sealed, such as by electrically insulative adhesive, to be impervious to electricity. Furthermore, in one preferred embodiment, an overlap of one inch or more in the seams of the electrically insulative sub-layer 16 is provided to prevent electricity from arcing through the seam should the adhesive or other sealant fail or be insufficient. On seams where such an overlap is not possible, a separate strip of electrically insulative material can be centered on the underside of the seam and adhered thereto.
In this presently preferred embodiment, the interior lining 18 is coupled to the electrically insulative sub-layer 16 by coupling tabs 56 that are evenly spaced over and positioned on the seams of the torso 44 and arms 46 and 48 and an extended coupling tab 56 around the neck 40. The coupling tabs 56 can be formed from an insulative polymeric material, such as rubber, of a given thickness. They can be joined with the electrically insulative sub-layer 16 by, for example, gluing or any other appropriate method. The interior lining 18 can be sewn or otherwise coupled to the coupling tabs 56. With this, the interior lining 18 will be supported against sagging and the like while limiting stitching holes and other damage to the electrically insulative sub-layer 16 thereby further preventing high voltage electricity from reaching the wearer.
In
Under one embodiment, the voltage output adjusting means could be geographically controlled by Global Positioning System (GPS) coordinates such that it could be adjusted or it could adjust automatically based on local laws and regulations and, additionally or alternatively, based on levels of danger associated with given areas derived, for example, from crime statistics. Alternatively or additionally, the voltage output adjusting means could be controlled by biofeedback sensors that could activate or adjust the voltage based on, for example, the wearer's level of fear or other biofeedback, such as heart rate, galvanic skin response, or blood pressure. Even further, the voltage output adjusting means could be controlled by a wearer's voice commands. Still further, the voltage output adjusting means could employ impact sensors that activate or adjust the voltage based on an impact or on a level of impact to the wearer.
As
The arming device 30 could be located anywhere on the interior or exterior of the self-defense wearable 10. However, in the embodiment of
Since the arming status of the self-defense wearable 10 certainly would be important for a number of reasons, the self-defense wearable 10 further incorporates a means for indicating whether the self-defense wearable 10 is armed or disarmed. In this embodiment, the indicating means comprises a visual indicator 32, which is shown in
Looking to
The power source 28 is electrically coupled to the conductive pathways 20 of the electrically conductive sub-layer 14 by conductive snap engagement members 50 that are embedded in the power source 28 to act as two voltage differential terminals. The conductive snap engagement members 50 are accessible through an opening 51 through the lining layer 18 and electrically insulative layer 16 to snap into conductive snap engagement member counterparts 53, shown in
The self-defense wearable 10 certainly could be activated by a wide variety of possible activating means within the scope of the present invention. Under the present embodiment, the self-defense wearable 10 employs what is considered to be a uniquely advantageous arrangement for activating the power source 28 and, by doing so, the conductive pathway 20 to induce the self-defense wearable 10 into a charged condition provided the self-defense wearable 10 is in an armed condition. As one can see best with reference to
The self-defense wearable 10 can be designed to enter a charged condition upon a triggering of either activating switch 26 or only upon a simultaneous triggering of both activating switches 26. Under certain embodiments, the level of activation of the self-defense wearable 10 can be dependent on the degree to which the activating switches 26 are pressed or squeezed. To help ensure that the tongues 27 retain their structural integrity and location between the first and second jaws 24 and 25, they can be formed with a generally rigid structure, such as by incorporating a panel of rigid foam, a skeletal structure, or some other arrangement. Furthermore, the activating switches 26 and the wiring leading thereto are preferably water and weather resistant.
In
The self-defense wearable 10 could further incorporate a means for producing a visually exposed electric arc. In this embodiment, that means comprises an electrically charged seam construction 52, shown in an enlarged view in
A channel with opposing faces is formed in the material forming the outer shell 12. The channel could be formed in any appropriate manner, including by a simple termination of adjacent material sections of the outer shell 12. In this embodiment, the channel is formed by a folding over and securing, such as by sewing, of adjacent sections of the outer shell 12 to form first and second construction seams 38 and 41. The first and second conductive terminals 37 and 39, which are segments of the conductive pathway 20, are disposed to opposite sides of the channel, and the channel can be formed only over the length where the first and second conductive terminals 37 and 39 are separated by the consistent narrowed distance. As such, the first and second conductive terminals 37 and 39 form spaced first and second strands of conductive material, such as conductive thread, conductive fiber, conductive paint, or any other functional conductive material. In this case, the first and second conductive terminals 37 and 39 are sandwiched between the opposing faces of the outer shell 12 and an under layer 90 of the outer shell 12. The substrate 15 of the electrically conductive sub-layer 14 lies just beneath the under layer 90. Under this arrangement, when the self-defense wearable 10 is armed and charged, electricity will be sent along the conductive pathway 20 and will tend to span the narrowed portion of the gap between the first and second conductive terminals 37 and 39 thereby creating an exposed electric arc 36. Where the first and second conductive terminals 37 and 39 are evenly spaced over the narrowed portion, the particular location of the electric arc or arcs 36 will vary generally randomly.
If touched, the exposed electric arc 36 will be tactile to a physical assailant such that it will induce at least some level of discomfort or pain, which would naturally tend to discourage further attack. Advantageously, the electric arc 36 will also be visible and audible. As such, it will tend to intimidate and discourage any contemplated or threatened attack. Furthermore, the tactile, visible, and audible characteristics of the electric arc 36 can be accentuated, such as by the degree to which the activating switches 26 are pressed or squeezed, by a control dial or switch 54, which is shown in
Under certain embodiments of the self-defense wearable 10, all or merely the area of the conductive pathway 20 that comprises the means for producing a visually exposed electric arc can be continuously or continually charged whereby an exposed electric arc 36 or electric arcs 36 can be produced constantly or intermittently for apprising others, including would-be assailants, of the electrically conductive character of the self-defense wearable 10. Such a constant or continuous electric arc 36 could additionally be employed in certain embodiments as a particularly unique source indicator for the self-defense wearable 10. For example, while the remainder of the conductive pathway 20 could be armed and charged as previously described in response to an actual or threatened attack, an exposed electric arc 36 could be produced intermittently or constantly in a predetermined location to act as an indicator of the source or brand of the self-defense wearable 10.
One or more warning labels 64 can be applied to select locations on the outer shell 12 and, additionally or alternatively, the interior lining 18. The warning labels 64 could be of a color, such as yellow or red, designed to have inherent warning capabilities. The color of the warning labels 64 can be supplemented by descriptive warning text or graphics. As such, the warning labels 64 can warn and remind bystanders and the wearer herself of the self-defense capabilities and potential dangers of the self-defense wearable 10.
As one reviewing the drawing figures will appreciate, the embodiment of the self-defense wearable 10 shown herein is crafted specifically for female wearers in light of the typically more pronounced security concerns of women as compared to men. As such, the preferred self-defense wearable 10 has a plurality of refinements designed for limiting the wearing of the self-defense wearable 10 to women, ideally to the exclusion of men where so intended. To carry this forth, the self-defense wearable 10 has princess seams, a fuller bust, smaller sizing, and relatively narrow armholes such that it would not be likely to fit a man comfortably. With this, the risk of men adopting such embodiments of the self-defense wearable 10 can be reduced. Of course, one will appreciate that the self-defense wearable 10 could be readily designed and crafted for being worn specifically by men and, additionally or alternatively, for unisex wear.
In a still more advanced embodiment of the self-defense wearable 10, the sizing and construction of the self-defense wearable 10 can be supplemented in limiting the wearing of the self-defense wearable 10 to wearer's of a given sex, such as women, by a means for sensing the wearer's sex and for arming, disarming, or preventing the arming or charging of the self-defense wearable 10 based on the sensed sex of the wearer. Under one such construction, for example, the sensing means can sense whether the wearer is a man or a woman and can enable the arming or charging of the self-defense wearable 10 only when the wearer is a woman. Although a number of types of such sensing means could be incorporated, one presently preferred sensing means could gain a reading of the hormone levels of the wearer and determine the wearer's sex based thereon.
From the foregoing, it will be clear that the present invention has been shown and described with reference to certain preferred embodiments that merely exemplify the broader invention revealed herein. Certainly those skilled in the art can conceive of alternative embodiments. For instance, those with the major features of the invention in mind could craft embodiments that incorporate those major features while not incorporating all of the features included in the preferred embodiments.
With the foregoing in mind, the following claims are intended to define the scope of protection to be afforded the inventors, and the claims shall be deemed to include equivalent constructions insofar as they do not depart from the spirit and scope of the present invention. A plurality of the following claims may express certain elements as a means for performing a specific function, at times without the recital of structure or material. As the law demands, these claims shall be construed to cover not only the corresponding structure and material expressly described in this specification but also equivalents thereof.
This application claims priority to U.S. Provisional Patent Application No. 60/350,717, filed Nov. 13, 2001.
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Number | Date | Country | |
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60350717 | Nov 2001 | US |