Abstract:
The device is a self-contained-defense-system. The entire unit is housed inside a blended set of athletic gloves and emits an electrical charge against an unwanted attacker. It can be utilized by men or women, both young and old, for personal safety. The electrical charge emitted is not strong enough to kill, but the voltage can be increased in order to assist the military and the police.

Description:
BACKGROUND 
     This is something new and unparalleled to assist people, especially women, remain safe in today&#39;s crazy world. 
     The device is a self-contained-defense-system. The entire unit is housed inside a blended set of athletic gloves and emits an electrical charge against an unwanted attacker. It can be utilized by men or women, both young and old, for personal safety. The electrical charge emitted is not strong enough to kill but the voltage can be increased in order to assist the military and the police. 
     SUMMARY OF THE INVENTION 
     Too many people have the false hope that they will be safe if they carry a small knife, mace or a stun gun when they go outside to walk or run. Imagine the young professional female out running in the early morning or walking home late at night from work with her iPod plugged into both ears. The woman is basically oblivious to her surroundings and is therefore a prime candidate for an unwanted attack. 
     The advantage of The T.O.U.C.H. is that the victim is always prepared for that unprovoked assault. Nearly, every day there is a news-piece about some young girl or woman that has been attacked, beaten, raped or killed. In these types of situations, The T.O.U.C.H. is perfect to have at your fingertips because it could make the difference between life or death. 
     The actually invention, is the controlled shock and repelling application against an attacker. The purpose and advantage of The T.O.U.C.H. is to basically save a human life. 
    
    
     
       DETAILED DESCRIPTION 
         FIG. 1 : Shows the schematic of the electronics. 
         FIG. 2 : Shows the components, top view of both the cloth and the invisible view of the rubber glove. 
         FIG. 3 : Shows the top view of the cloth glove, invisible view of the rubber glove, velcro pocket, the invisible view of the secondary momentary tact switch and both invisible contact points. 
         FIG. 4 : Shows the bottom view of the glove, both contact tips and electrical conductive cloth. 
         FIG. 5 : Shows the enlarged cross section view of the blended set of both rubber and cloth gloves including where the hand fits. 
     
    
    
     This is a detailed description of the The T.O.U.C.H. (Temporary Offense for Ultimate Control against Harm). The invention is a self-contained, personal, protective device which I have developed. 
     The apparatus emits a momentary, electrical charge against an unwanted attacker for personal safety. The entire unit is housed completely inside a modified set of athletic gloves. 
     Please refer to  FIG. 1 , it shows the schematic layout of the electronics. It also details the transformer ( 8 ) the AC/DC converter ( 9 ) the ground ( 10 ) the battery ( 11 ) the primary power switch ( 12 ) the secondary momentary tact switch ( 13 ) and both contact points ( 14 ). 
     Please refer to  FIG. 2 , it shows the electrical component&#39;s, the top view of both the cloth ( 1 ) and rubber ( 2 ) gloves. First, the primary power switch ( 12 ) is connected to the secondary momentary tact switch ( 13 ) which is connected to the battery ( 11 ). From there the battery ( 11 ) is connected to the ground ( 10 ) and the transformer ( 8 ) and the AC/DC converter ( 9 ). The two contact points ( 14 ) are located on the thumb ( 15 ) and the middle index finger ( 16 ). The contact points ( 14 ) are connected directly to the transformer ( 8 ). The transformer ( 8 ) is connected to the AC/DC converter ( 9 ). The entire unit is housed inside the velcro pocket ( 7 ) on the back of each cloth glove ( 1 ). 
     The full power comes from three button-cell batteries ( 11 ) also hidden inside the velcro pocket ( 7 ) on the back of each cloth glove ( 1 ). There is a total of four wires and two small metal contact points ( 14 ). The contact points ( 14 ) are located on the tips of the thumb ( 15 ) and the middle index finger ( 16 ) of each cloth glove ( 1 ). 
     A DC/AC converter ( 9 ) in conjunction with the transformer ( 8 ) generates the controlled shock that is released through the contact points ( 14 ) on the thumb ( 15 ) and the middle index finger ( 16 ) coupled with the electrical conductive cloth ( 6 ) on each of the outer part of the cloth gloves ( 1 ). 
     In order to utilize the controlled shock, both metal contact points ( 14 ) must engage and make physical contact with the assailant. At that point the victim applies minimal pressure to the secondary miniature tact momentary switch ( 13 ) inside the rubber glove ( 2 ) on the first index finger ( 17 ) permitting a brief shock to be generated through the two contact points ( 14 ) and the electrical conductive cloth ( 6 ). 
     The sudden electrical emission is not strong enough to kill the attacker. The electrical emission is a sufficient amount of a discharge that is released through the contact points ( 14 ) on the thumb ( 15 ) and the middle index finger ( 16 ) and electrical conductive cloth ( 6 ) to stun the attacker momentarily, allowing the victim to break free and escape. 
     Please refer to  FIG. 3 , it shows the top view of the glove, the invisible view of the rubber glove ( 2 ) the invisible view of the two metal contact points ( 14 ) that releases and administers the electrical shock against the attacker. The invisible view of the secondary momentary tact switch ( 13 ) which is located on the first index finger ( 17 ). 
     The two metal contact points ( 14 ) are located on the thumb ( 15 ) and the middle index finger ( 16 ) of each cloth glove ( 1 ). The velcro-components pocket ( 7 ) located on the back of each cloth glove ( 1 ) is where the electronics is located. 
     On the tip of each glove&#39;s first index finger ( 17 ) located inside of the rubber glove ( 2 ) is a secondary miniature tact momentary switch ( 13 ). The secondary miniature tact momentary switch ( 13 ) activates the electrical charge and is released through each of the metal contact points ( 14 ). The metal contact points ( 14 ) are located on each of the thumbs ( 15 ) and the middle index fingers ( 16 ) on both cloth gloves ( 1 ). 
     The secondary miniature tact momentary switch ( 13 ) is hidden underneath the first index finger ( 17 ) of each of the rubber ( 2 ) and the cloth glove ( 1 ). The secondary miniature tact momentary switch ( 13 ) instantly activates the electrical defense system when the victim physically engages the unwanted attacker. 
     Please refer to  FIG. 4 , it shows the special electrical conductive cloth ( 6 ). Its purpose is to increase the shock area of the glove in conjunction with the contact points ( 14 ) on the thumb ( 15 ) and the middle index finger ( 16 ) of each cloth glove ( 1 ). 
     Please refer to  FIG. 5 , it shows an enlarged cross section of the blend of both the cloth ( 1 ) and the rubber glove ( 2 ). The rubber part of the blend, where the hand is seated ( 3 ), prevents the victim from shocking themselves while storing the electronics in a hidden velcro pocket ( 7 ) on the back of each cloth glove ( 1 ). The electrical components, inside of the velcro pocket ( 7 ) generate the charge used to deter the attacker. 
     In addition,  FIG. 5 , details the cross section of both the cloth ( 1 ) and the rubber ( 2 ) gloves&#39; unit. The drawing, depicts where the hand ( 3 ) is inserted and firmly seated. The top of the glove is the first cloth layer ( 1 ). Immediately below is the second layer glove which is rubber ( 2 ). The middle part of the drawing is where the hand fits ( 3 ). 
     Inverting the process, the next layer under the palm of the hand is the bottom side of the second glove which is rubber ( 4 ). In between the cloth ( 1 ) and rubber gloves&#39; section ( 2 ) is one of two wires running along the thumb ( 15 ) and middle index fingers ( 16 ) which is connected to a metal contact point ( 14 ) on the thumb ( 15 ) and the middle index finger ( 16 ). 
     The last part is the bottom of the cloth glove ( 5 ). Attached to the cloth glove is a separate piece of electrical conductive cloth ( 6 ) which increases the shock area. Attached to the conductive cloth ( 6 ) is one of the two metal-conductive tips ( 14 ). There is a metal contact tip ( 14 ) on the end of each of the thumb ( 15 ) and each middle index finger ( 16 ) of the outer portion of the cloth glove ( 1 ).