BACKGROUND OF THE INVENTION1. Field of the Invention[0001]
The present invention relates, in general, to a multifunctional compact mirror case designed to allow a user to easily carry the compact mirror case and to view a partial area of his/her face or the entire face, as desired, and, more particularly, to a multifunctional compact mirror case of which a case body to hold mirrors therein is made of a transparent material, with a lower surface of the case body and an upper surface of a lid being convex and concave to form a convex lens part and a concave lens part, respectively, thus forming a convex mirror function to reflect the partial area of the user's face while magnifying the partial area of the face, and a concave mirror function to reflect the entire face, and the user thereby conveniently using the compact mirror case.[0002]
2. Description of the Prior Art[0003]
Generally, a portable mirror is a makeup instrument which allows a user, particularly, a woman, views his/her face while making up the face indoors or outdoors, and thereby has a small size to be easily carried by the user within a handbag, a suitcase, or a pocket of a garment.[0004]
When the user needs to view partial areas of his/her face, such as the eyebrows, while magnifying the partial areas of the face during making up the face, the user wants to use a convex mirror. However, the conventional convex mirrors are produced at high costs, thus increasing the production costs of compact mirror cases and/or the cases of a variety of makeup compacts, such as pressed powder compacts, powder blusher compacts, cake mascara compacts, and eyeshadow compacts.[0005]
Furthermore, because the conventional compact mirror cases and the conventional cases of the variety of makeup compacts are small-sized to be easily carried by users and are typically equipped with plane mirrors, the users only view their faces on the limited reflection surfaces of the plane mirrors. Therefore, the conventional compact mirror cases and the conventional cases of the variety of makeup compacts are not multifunctional.[0006]
In a detailed description of the problems experienced in the conventional compact mirror cases and the conventional cases of the variety of makeup compacts, the plane mirrors installed in the conventional compact mirror cases and the conventional cases of the variety of makeup compacts have limited sizes of reflection surfaces, thus forcing a user to place the mirror at a position relatively far away from the user's face when the user needs to view his/her entire face reflected on the mirror. However, the user cannot clearly view the face since the image of the face focused on the mirror is too small.[0007]
In addition, when the user paints and/or powders partial areas of his/her face, such as the eye rims, the eyebrows or the lips, the user needs to view the partial areas of the face on the mirror while magnifying the partial areas to carefully make up the partial areas. In such a case, the user must repeatedly and alternately place the mirror at positions close to a partial area of the face to clearly view the partial area to be painted or powdered and at positions relative far away from the face to view the entire face to check the painted or powdered partial area with the other areas of the face. The conventional compact mirror cases and the conventional cases of the variety of makeup compacts are thus inconvenient to use.[0008]
SUMMARY OF THE INVENTIONAccordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a multifunctional compact mirror case, of which a case body is made of transparent material and seats, in a frame seating depression thereof, a mirror frame having upper and lower plane mirrors overlapping each other to form a double-sided plane mirror unit, and in which the upper surface of a lid and a lower surface of the case body are concave and convex to form a concave lens part and a convex lens part, or convex or concave to form a convex lens part and a concave lens part, respectively, thus allowing a user to use a concave mirror function formed by both the concave lens part and the double-sided plane mirror unit or a convex mirror function formed by both the convex lens part and the double-sided plane mirror unit when the lid is closed on the case body, and which allows the user to view his/her face on the upper plane mirror when the lid is open from the case body, and which is thus efficiently used by the user outdoors while traveling, such as traveling on business, or indoors, such as in an office room.[0009]
In order to achieve the above object, according to one aspect of the present invention, there is provided a multifunctional compact mirror case, comprising: a mirror frame to support therein upper and lower plane mirrors which overlap with each other while facing oppositely to form a double-sided plane mirror unit; a case body having inner and outer rings to form a fitting groove between the inner and outer rings so as to hold the mirror frame on the, case body; and a lid having a hinge boss which is coupled at both ends thereof to hinge shafts of the case body, thus forming a hinged joint around which the lid is opened or closed relative to the case body.[0010]
The case body may be made of a transparent plastic material, with a lower surface of the case body being depressed at a central area thereof, thus forming a lower depression on the lower surface of the case body and a thick lower rim along an outside edge of the case body, the lower depression of the case body being convex downward on a surface thereof to form a first lens part.[0011]
The case body may have a frame seating depression on the upper surface thereof to seat the mirror frame having the double-sided plane mirror unit, and the thick lower rim formed along the outside edge of the case body, with the inner and outer rings formed along an upper surface of the lower rim and the fitting groove defined between the inner and outer rings to hold the mirror frame on the upper surface of the case body having the frame seating depression.[0012]
The case body may be provided at a side thereof with two hinge holders which are spaced apart from each other to define a space between the two hinge holders, with the hinge shafts provided on the inside surfaces of the two hinge holders to extend toward each other and inserted into both ends of a hinge hole formed in the hinge boss of the lid, thus forming the hinged joint around which the lid is opened or closed relative to the case body.[0013]
The lid may be made of a transparent plastic material, with an upper surface of the lid being depressed at a central area thereof, thus forming an upper depression on the upper surface of the lid and a thick upper rim along an outside edge of the lid, the upper depression of the lid being concave on the surface thereof to form a second lens part.[0014]
The lid and the case body may be constructed such that the upper surface of the lid forms a concave mirror function and the lower surface of the case body forms a convex mirror function when the lid is closed on the case body.[0015]
The lid and the case body may be constructed such that the upper plane mirror forms a plane mirror function and the lower surface of the case body forms the convex mirror function when the lid is open from the case body.[0016]
The lower surface of the case body may be depressed at the central area thereof, thus forming the lower depression on the lower surface of the case body and the thick lower rim along the outside edge of the case body, the lower depression of the case body being concave on the surface thereof, thus allowing the lower surface of the case body to form the concave mirror function.[0017]
The upper surface of the lid may be depressed at the central area thereof, thus forming the upper depression on the upper surface of the lid and the thick upper rim along the outside edge of the lid, the upper depression of the lid being convex on the surface thereof, thus allowing the upper surface of the lid to form the convex mirror function when the lid is closed on the case body.[0018]
The lid and the case body may be constructed such that the multifunctional compact mirror case have the convex mirror function, the concave mirror function and the plane mirror function, due to the double-sided plane mirror unit which is fabricated by the upper and lower plane mirrors set in the mirror frame that is seated along the fitting groove of the case body.[0019]
BRIEF DESCRIPTION OF THE DRAWINGSThe above and other objects, features and other advantages of the present invention will be more clearly understood from the following detailed description when taken in conjunction with the accompanying drawings, in which:[0020]
FIG. 1 is an exploded perspective view of a multifunctional compact mirror case, according to a preferred embodiment of the present invention;[0021]
FIG. 2 is a perspective view of the multifunctional compact mirror case of FIG. 1, with the elements of the compact mirror case being completely assembled into a single body and a lid being open from a case body;[0022]
FIG. 3 is a sectional view of the multifunctional compact mirror case of FIG. 2, when the lid is closed on the case body; and[0023]
FIG. 4 is a partially sectioned perspective view of a mirror frame which is included in the multifunctional compact mirror case of FIG. 1 to support upper and lower plane mirrors in the compact mirror case.[0024]
DETAILED DESCRIPTION OF THE INVENTIONReference will now be made in greater detail to a preferred embodiment of the invention, an example of which is illustrated in the accompanying drawings. Wherever possible, the same reference numerals will be used throughout the drawings and the description to refer to the same or like parts.[0025]
FIG. 1 is an exploded perspective view of a multifunctional compact mirror case, according to a preferred embodiment of the present invention. As shown in FIG. 1, the multifunctional compact mirror case comprises a[0026]case body10, alid20, amirror frame30, and upper andlower plane mirrors40 which are supported in themirror frame30 while overlapping with each other to face oppositely to form a double-sided plane mirror unit.
FIG. 2 is a perspective view of the multifunctional compact mirror case of FIG. 1, with the elements of the compact mirror case being completely assembled into a single body and the[0027]lid20 being open from thecase body10. As shown in FIG. 2, the upper andlower plane mirrors40 which overlap with each other while facing oppositely are set in themirror frame30, and themirror frame30 having the twoplane mirrors40 is seated in aframe seating depression16 of thecase body10. Because themirror frame30 having the two plane mirrors40 which overlap with each other while facing upward and downward to form the double-sided plane mirror unit, is seated in theframe seating depression16 of thecase body10, theupper plane mirror40 forms a conventional plane mirror function when thelid20 is open from thecase body10. The lower surface of thecase body10 is constructed to form afirst lens part15 which is a convex lens part as will be described in detail later herein. The lower surface of thecase body10 thus forms a convex mirror function by a combination of thelower plane mirror40 and thefirst lens part15.
FIG. 3 is a sectional view of the multifunctional compact mirror case of FIG. 2, when the[0028]lid20 is closed on thecase body10. As shown in FIG. 3, themirror frame30 having the upper andlower plane mirrors40 which overlap with each other to form the double-sided plane mirror, is seated in theframe seating depression16 of thecase body10. In addition, the lower surface of thecase body10 forms thefirst lens part15, while the upper surface of thelid20 forms asecond lens part21.
FIG. 4 is a partially sectioned perspective view of the[0029]mirror frame30 to support the upper andlower plane mirrors40 in the compact mirror case. Themirror frame30 is made of a plastic material having elasticity, with theplane mirrors40 set in themirror frame30 to form the double-sided plane mirror unit.
As shown in FIG. 4, the[0030]mirror frame30 has a ring-shaped structure with an opening. Astop flange34 is formed on an upper surface of themirror frame30 around an inside edge of the opening to stop theplane mirrors40, thus preventing the plane mirrors40 from being undesirably removed from themirror frame30. Themirror frame30 further includes aninner ring31 and anouter ring32 to form afitting groove33 between theinner ring31 and theouter ring32.
The[0031]mirror frame30 further has anotch11′ at a side thereof to correspond to aspace11 which is formed between two hinge holders of thecase body10.
To allow the[0032]case body10 to transmit light to theplane mirrors40 of themirror frame30 seated in theframe seating depression16, thecase body10 is made of a transparent plastic material. The lower surface of thecase body10 is depressed at a central area thereof, thus forming a lower depression, with a thicklower rim14 formed along an outside edge of thecase body10. The lower depression of thecase body10 is constructed to form thefirst lens part15 in the lower depression. When thecase body10 is placed on a support surface, thefirst lens part15 is spaced apart from the support surface by thelower rim14, thus being protected from being scratched or damaged.
The lower depression of the[0033]case body10, which is defined inside thelower rim14, is convex downward on the surface thereof to form thefirst lens part15. The lower surface of thecase body10 thus forms the convex mirror function by the combination of thelower plane mirror40 and thefirst lens part15. Therefore, a user can clearly view a partial area of his/her face on the convex lower surface of thecase body10 while magnifying the partial area of the face.
As best seen in FIG. 3, the thick[0034]lower rim14 of thecase body10 protrudes downward lower than the lowermost surface of thefirst lens part15, thus forms a protection rim of thefirst lens part15. Therefore, when the compact mirror case of the present invention is carried by the user within a bag or a pocket, or is placed on a support surface, thefirst lens part15 is prevented from contact with another article or the support surface. Thefirst lens part15 thus maintains its clear state for a lengthy period without being easily scratched or damaged, so that the lens function of thefirst lens part15 is not likely to reduce.
The[0035]lid20 has a profile corresponding to thecase body10, with ahinge boss23 formed at a side of thelid20 and ahinge hole24 axially formed in thehinge boss23. Thehinge boss23 of thelid20 is coupled at both ends of thehinge hole24 to hingeshafts12 of thecase body10, thus forming ahinged joint13 around which thelid20 is opened or closed relative to thecase body10. The upper surface of thelid20 is depressed at a central area thereof, thus forming an upper depression, with a thickupper rim22 formed along an outside edge of thelid20. The upper depression of thelid20 is concave to form thesecond lens part21. In a similar manner to that described for thelower rim14 of thecase body10, the thickupper rim22 of thelid20 protrudes upward higher than the uppermost surface of thesecond lens part21, thus form a protection rim of thesecond lens part21. Due to theupper rim22, thesecond lens part21 is protected from being scratched or damaged, thus maintaining its clear state for a lengthy period.
Due to the above-mentioned construction of the multifunctional compact mirror case, the user views his/her face on either surface of the closed mirror case which forms the convex mirror function or the concave mirror function. That is, when the[0036]lid20 is closed on thecase body10, the user views his/her face on the upper surface of thelid20 which forms the concave mirror function, or on the lower surface of thecase body10 which forms the convex mirror function.
Because the[0037]mirror frame30 with the upper and lower plane mirrors40 overlapping with each other while facing oppositely to form the double-sided plane mirror unit is seated in thecase body10, the user can view his/her face on theupper plane mirror40 after opening thelid20. Conventional inexpensive plane mirrors are used as the upper and lower plane mirrors40 of the double-sided plane mirror unit, thus reducing the production costs of the multifunctional compact mirror case.
The[0038]case body10 has aninner ring17 and anouter ring18 to form afitting groove19 between the inner andouter rings17 and18, so that themirror frame30 is firmly seated in thecase body10. Thecase body10 is also provided at a side thereof with two hinge holders that are spaced apart from each other to define thespace11 between the two hinge holders. Thehinge shafts12 of thecase body10 are formed on the inside surfaces of the two hinge holders to extend toward each other. When themirror frame30 with the upper and lower plane mirrors40 to form the double-sided plane mirror unit is seated in thecase body10, theouter ring32 of theframe30 is fitted into thefitting groove19 of thecase body10. Furthermore, theinner ring17 of thecase body10 is fitted into thefitting groove33 of theframe30, while theinner ring31 of theframe30 comes into close contact with an inside surface of theinner ring17 of thecase body10.
In the above state, the two plane mirrors[0039]40 to form the double-sided plane mirror unit are firmly set in themirror frame30 such that the outside edge of theupper plane mirror40 is supported by thestop flange34 of themirror frame30, and thelower plane mirror40 is supported on the bottom surface of theframe seating depression16 of thecase body10. Therefore, the two plane mirrors40 are not undesirably moved in or separated from themirror frame30.
To assemble the[0040]mirror frame30 having the plane mirrors40 with thecase body10 into a single body, themirror frame30 is forcibly seated in theframe seating depression16 of thecase body10 by a machine during a process of producing the multifunctional compact mirror case.
The operation and effect of the multifunctional compact mirror case having the above-mentioned construction will be described in detail herein below.[0041]
When the user needs to clearly view a partial area of his/her face using the mirror case, for example, while painting or powdering the partial area of the face, the user can use the convex mirror function formed by the combination of the[0042]first lens part15 of thecase body10 and thelower plane mirror40. That is, because thefirst lens part15 formed on the lower surface of thecase body10 is the convex lens part, thefirst lens part15 forms the convex mirror function in cooperation with thelower plane mirror40, thus allowing the user to clearly view the partial area of his/her face using the convex mirror function while carefully painting or powdering the partial area of the face, such as the eyebrows.
When the user wants to view his/her entire face to check the painted or powdered partial area with the other areas of the face, the user views his/her face on the[0043]second lens part21 of thelid20 which is closed on thecase body10. In such a case, because thesecond lens part21 forms the concave mirror function in conjunction with theupper plane mirror40, thesecond lens part21 reflects the user's entire face while reducing the size of the image focused thereon. The user thus efficiently finishes the painting or powdering on the partial area of the face, without repeatedly moving the mirror case between positions close to and relative far away from the face.
When the user wants to view his/her face using the plane mirror function of the compact mirror case, the user opens the[0044]lid20 and directly views his/her face on theupper plane mirror40 of themirror frame30 that is seated in theframe seating depression16 of thecase body10.
In the above-mentioned preferred embodiment, the[0045]first lens part15 formed on the lower surface of thecase body10 is designed as the convex lens part, and thesecond lens part21 formed on the upper surface of thelid20 is designed as the concave lens part. However, it should be understood that thefirst lens part15 formed on the lower surface of thecase body10 may be designed as a concave lens part, and thesecond lens part21 formed on the upper surface of thelid20 may be designed as a convex lens part, without affecting the functioning of the present invention.
In a brief description, the compact mirror case of the present invention provides the convex mirror function, the concave mirror function and a plane mirror function, and allows the user to selectively use the above-mentioned three functions, as desired, while easily carrying the compact mirror case.[0046]
Furthermore, to form the convex and concave mirror functions through the first and[0047]second lens parts15 and21, thecase body10 and thelid20 are preferably made of the transparent plastic material. In addition, to improve the appearance of the compact mirror case, themirror frame30 is preferably colored such that the color of theframe30 can be seen through on the outer surfaces of both thetransparent case body10 and thetransparent lid20.
As apparent from the above description, the present invention provides a multifunctional compact mirror case which has a transparent case body, a transparent lid, and a mirror frame having a double-sided plane mirror unit and set in the case body, with a convex lens part and a concave lens part formed on opposite outer surfaces of the case body and the lid, thus providing a convex mirror function formed by a combination of the plane mirror unit and the convex lens part, a concave mirror function formed by a combination of the plane mirror unit and the concave lens part, and a plane mirror function formed by the plane mirror unit. Thus, a user selectively uses the convex mirror function or the concave mirror function, as desired, while closing the lid on the case body. The user also uses the plane mirror function after opening lid from the case body.[0048]
Furthermore, each of the convex mirror part and the concave mirror part is surrounded by a thick protection rim which prevents the convex mirror part or the concave mirror part from contact with another article or a support surface when the compact mirror case is carried by the user or placed on the support surface. The convex and concave lens parts thus maintain their clear states for a lengthy period without being scratched or damaged.[0049]
Although a preferred embodiment of the present invention has been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.[0050]