Abstract:
A cover for an electrical outlet, the invention prohibits the insertion of improper objects into an electrical outlet by providing a layer of insulation covering each female element of the electrical outlet. Further, the invention protects against an electrical shock during the insertion or removal of a plug by providing a thick layer of insulation surrounding the outlet. In addition, the invention protects persons and children in particular against electrical shock and prohibits insertion of foreign objects into the wall outlet with movable assemblies covering the outlet. Even further, the invention inhibits unwanted heat loss, or heat exchange in buildings.

Description:
The present application is a continuation in part of U.S. patent application Ser. No. 08/600,062 filed on Feb. 12, 1996 now abandoned and claims priority thereon pursuant to 35 U.S.C. 120. 
    
    
     BACKGROUND OF THE INVENTION 
     1. Field of Invention 
     This invention relates to an electrical insulator for an electrical outlet specifically for insulating a person against electric shock. Further, the invention protects an electrical wall outlet from the elements of the environment and inhibits heat exchange through electrical outlets located inside or outside of buildings. 
     2. The Prior Art 
     Attempts by inventors to protect small children and grown persons against electrical shock from electrical outlets or plugs engaged therewith, a serious hazard, have had limited success functionally and commercially. 
     Inventors have created many contraptions in attempts to protect against electrical shock. Small plastic inserts that are placed in unused electrical outlets frequently get lost and do not protect electrical wall outlets engaged with a plug. Other inventions that attempt to protect persons against electrical shock while a plug is engaged with an electrical wall outlet have proven to be cumbersome, limited in effectiveness, and not successful commercially. Further, they have not been aesthetically pleasing to interior decor. 
     Thus, accordingly, the subject invention alleviates these disadvantages. 
     SUMMARY OF THE INVENTION 
     It is an object of the subject invention to protect against electrical shock from an electrical wall outlet. 
     Specifically, it is an object of the subject invention to protect against electrical shock from an unused electrical outlet connected to electricity. 
     It is further an object of the invention to protect against electrical shock from a plug that is engaged with an electrical outlet. 
     Even further, it is an object of the subject invention to provide thermal insulation for buildings&#39; interior and exterior electrical outlets to prevent unwanted heat exchange. 
     Further, it is another object of the invention to inhibit insertion of improper objects into an electrical outlet. 
     Further, it is an object of the invention to protect an electrical wall outlet against the elements of the environment. 
     Even another object of the invention provides insulating material surrounding the electrical outlet. 
     Further, another object of the invention is to provide thin layers of insulating protection covering the female electrical elements of an electrical outlet. 
     It is another object of the invention to provide slits that partially perforate said layers of the invention. 
     Further, another object of the invention contemplates two movable assemblies—typically slidable extensions elements in the typical embodiment—sliding to uncover and cover the female electrical elements of an electrical outlet by squeezing to physically open. 
     An additional object of the subject invention proposes a method of securing the invention to the faceplate of the electrical wall outlet. 
     Another object of the invention is to produce a commercially successful invention, at a low cost that satisfies needs existing in the market, in an extremely safe and efficient manner. 
     The advantages of the invention: 
     Once applied to an outlet, it protects against the insertion of improper objects into the female electrical elements of an unused electrical outlet; 
     Once applied to an electrical outlet it protects the outlet from the environment; 
     Slits that only partially penetrate the layer covering the female electrical elements of an electrical outlet. An electrical outlet is thereby protected with the invention applied. At the time a plug is inserted into the outlet protected with the invention, the slits furnish guides for further penetrating the layer. 
     Movable assemblies that furnish solid protection against improper access to the female elements of an electrical wall outlet; 
     In the typical embodiment, the sides of each of the movable assemblies—slidable elements—must be squeezed simultaneously to allow a plug access to the outlet; 
     Further, the amount of pressure necessary to urge open either of the slidable elements sufficiently to gain access to electricity is difficult for a young child; 
     Additionally, the pressure necessary to urge open the slidable elements can be adjusted by the manufactured size of the sides of the slidable elements; 
     Use of an electrical outlet is simple after the invention is applied; 
     Removal of a plug is much safer and easier with the invention applied to the electrical outlet. 
     The insulating main body of the invention protects a person against electrical shock during the entire insertion or removal of the plug from the electricity; 
     Finding, fumbling with or attaching a protective device is eliminated; 
     The invention is completely novel, useful and unobvious; 
     The typical embodiment of the invention provides synergy. 
    
    
     BRIEF DESCRIPTION OF THE INVENTION 
     FIG. 1 shows a typical embodiment of a perspective exploded view of the invention embodying each of the main parts of the invention. 
     FIG. 2 shows a cutaway side view of the main body and the inner layers of the invention. 
     FIG. 3 shows a cutaway, exploded end view of the typical embodiment of the invention. 
     FIG. 4 shows a front view of the typical embodiment of the invention, further showing the cutaway perspectives of FIG.  2  and FIG.  3 . 
     FIG. 5 shows another embodiment of the invention for a terminal strip. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     The parts that comprise the invention: the main body  10  of compressible, insulating material surrounding an electrical outlet; a thinner layer  11  of compressible, insulating material having slits partially penetrating said thin layer  11  of insulating material that covers each of the female electrical elements  2  of said electrical outlet  15 ; and hard, movable assemblies  69 L that cover the female electrical elements  2  of the electrical outlet  15 . The movable assemblies  69 L can be urged to allow access to the female electrical elements  2  of the electrical outlet  15 . 
     Further, the invention contains a method of attaching the invention to the electrical wall outlet as well—a peel-away type adhesive is used in the typical embodiment. 
     Specifically, the typical, preferred embodiment of the invention, illustrative of the best mode that the applicant has calculated, is shown in FIG.  1 . The invention main body  10  is composed of material that can be repeatedly compressed without structural damage; polyolefin, polyethylene, closed cell foam, cellulae elastomer, or thermoplastic elastomer type of insulating material. The main body  10  surrounds the electrical outlets  15  with approximately ¾″ thickness of insulating material, further forming hollow openings  8  thus exposing thinner layers  11  manufactured from the same material as the main body and connected therewith, located at the base of the plug-access, hollow openings  8 . Said thinner layers  11  cover the female electrical elements  2  of the electrical outlets  15 , may be repeatedly compressed without structural damage, and have slits  28  that correspond to the width and location of the female electrical elements  2  of the electrical outlet  15 . The slits  28  do not completely perforate the layer  11 . In the typical embodiment, the main body  10 , forming two hollow openings  8 , and layers  11  of the invention, are constructed as one piece. In the typical embodiment, the layer  11  covering each of the female electrical elements  2  is approximately ⅛″ thick, although may be thinner or thicker, but not so thick that a plug is forced out by the thin layer  11  when the plug is engaged with said electrical outlet  15 . 
     As shown in FIG. 1, the typical embodiment, two movable assemblies  69 L for each of the two electrical wall outlets  15 , are attached to the rear or back of the main body  10 , further sandwiched between the faceplate  17 , further overlapped by the thin layers  11 . FIG. 1 shows two movable assemblies  69 L detached in this exploded view and corresponding to the upper and lower portions of the invention, further corresponding to the positions of the upper and lower female electrical elements  2  of the electrical outlet  15 . In FIG. 1, specifically, the movable assemblies  69 L, comprising urging extensions  64 X and  68 Y which are visible when the invention is attached to the electrical outlet  15 , connecting interlocking means consisting of male elements  68 C and female elements  64 C, and covering extensions  68 A and  64 A, move when urged-pressed at the sides of urging extensions  64 X and  68 Y. But access to the female electrical elements  2  of the electrical outlet  15  is only gained if said sides of urging extensions  64 X and  68 Y are urged-pressed together such that covering extensions  68 A and  64 A are urged, thus moved, thus enlarging the gap  88 , thus exposing the female electrical elements  2  of the electrical outlet  15  and allowing the insertion of a plug because said covering extensions  68 A and  64 A cover the female electrical elements  2  of the electrical outlet when a plug is not engaged therewith. The ground terminal does not need to be covered. 
     A screw hole  18  gives access to a screw of a faceplate of an electrical outlet. 
     When access to electricity is specifically necessary, a person squeezes urging extensions  64 X and  68 Y with one hand, places a plug in a hollow opening  8  with the other hand, pushes and perforates the thin layer  11  of insulating material with the plug by pushing the plug until it is fully seated. The plug may be inserted into one of the hollow openings prior to pressing the sides of the movable assemblies but the plug cannot be pushed into the outlet without urging the movable assemblies  69 L. Further, the force necessary to sufficiently open the slidable assemblies is directly proportional to the manufactured size of the sides of the slidable assemblies. That is, the smaller the sides the lesser the amount of pressure necessary and the larger the sides the greater amount of pressure necessary. 
     When a plug that is engaged with the electrical outlet and the invention is to be removed, instead of pulling said plug out of said electrical outlet which can damage the plug-cord connection, a person pushes the compressible body of the invention with the thumb and forefinger, thus compressing the main body against the outlet faceplate. This compression of the invention in removal of the plug applies the main force against the outlet. A person then grasps the plug and removes the plug allowing the decompression of the invention to assist in removal. 
     FIG. 2 shows a cutaway side view of the main body  10  and thin layers  11  without the movable assemblies. In FIG. 2, specifically, groove  12  located on the underside of the invention allows the movable assemblies or faceplate to move freely while sandwiched between the compressible insulating material and the outlet faceplate. Positions  22  show the locations where the adhesive is of fixed Further, screw access hold  18  is shown. 
     FIG. 3 shows a cutaway exploded end view of the typical embodiment of the invention. In FIG. 3, specifically, groove  12  further allows the movable assemblies  69 L to move freely while sandwiched between the compressible insulating material of the main body  10  and the outlet faceplate  17 . Protruding male element  68 C is engaged with female element  64 C after being snapped together during assembly. Abutment  64 P limits the travel of the movable assemblies. Slits  28  show the relative positions on thin layer  11  corresponding to the positions of the female electrical elements  2  of the outlet  15 . 
     FIG. 4 shows a front view of the typical embodiment of the invention, further showing the relative cutaway perspectives of FIG.  2  and FIG.  3 . 
     FIG. 5 discloses another embodiment of the invention in which the invention is formed for terminal strip. The terminal strip version operates in the same manner as previously explained in the embodiment of FIGS. 1-4. 
     RAMIFICATIONS AND SCOPE OF INVENTION 
     The descriptions of the invention as previously mentioned contain many specificities that should not be construed to limit the scope of the invention. Some alternative applications and additional ramifications X: foreign electrical outlets that have an alternative shape, manufacture of the invention for power strips that have a multitude of outlets joined in series, etc. Further, the shape, topology, concavity, activity, color, resiliency, size, and texture, specifically, can vary in addition to the materials used to manufacture the invention. Moreover, the manufacturing process can also vary. Even further, the invention may be manufactured attached to the faceplate. 
     Further, there are several possibilities in the construction or composition of the invention for common electrical outlets. Additional embodiments and compositions are possible with the same level and effect of protection. The movable assemblies may be manufactured from hard rubber or other nonconductive material or may be manufactured such that they shut the gap  88 , in a static state with no plug inserted into the outlet. 
     It is important to note that each of the parts are effective independently to a lesser degree; the invention is effective with just the compressible, main body of insulation surrounding the female electrical elements of the outlet as shown in FIG. 5, the terminal strip version; the invention is effective with only a partially slitted layer covering the female electrical elements of the electrical outlet; the invention is effective with a combination of said main body and layers without the slidable assembles. However, synergy exists when the parts are combined to form the product shown in FIG.  1 .