Cosmetic case

Information

  • Patent Grant
  • 6386209
  • Patent Number
    6,386,209
  • Date Filed
    Monday, October 16, 2000
    24 years ago
  • Date Issued
    Tuesday, May 14, 2002
    22 years ago
Abstract
A cosmetic case containing a replaceable inner case which can be easily removed or inserted, and which is specifically structure to maintain the cosmetic material contained therein in a fresh and useable condition. The invention is comprised of an outer case with a floor area and inner peripheral wall defining a space for an inner container, an outer cover attached by a hinge to the outer case, a main latch employed to hold the outer cover closed, a replaceable inner container providing a cosmetic holding space, an inner container cover capable of opening or closing over the cosmetic holding space, and a sub-latch employed to hold the inner cover closed against the inner container. The inner case is equipped with a hinge part to allow opening and closing of the inner cover, the hinge part fitting into a cutout section on the peripheral wall of the outer case so as to expose the hinge and thus allow wide angle opening of the inner case cover. Inner case installation is aided by small protruding ribs formed within the outer case with the purpose of indexing and securing the inner case. An orifice is provided in the floor of the main case to allow the inner case to be pushed up and removed by finger pressure applied from below. The cosmetic case is characterized by a push-type latch mechanism which opens the outer and inner case covers simultaneously in one movement, an effective sealing mechanism between the inner case and cover, and specific inner cover structures to inhibit the fall of condensation droplets onto the cosmetic surface.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




The invention relates to a cosmetic case assembly of the type in which a sub-case can be easily installed to or detached from a main case, and in which each of the aforesaid cases is equipped with a cover which can be easily opened and closed as a means of allowing convenient access to the cosmetic material contained therein, and as further means of preserving the contained cosmetic material in a desirable and usable condition.




2. Description of the Related Art




Cosmetic cases are generally employed as convenient portable containers for carrying personal-use cosmetic substances. These cases consist of a container body in which a cosmetic substance is held, and an openable cover installed to the case as means of allowing access to the cosmetic material as well as means of sealing the internal case area when the cosmetic material contained therein is not being used. A latch mechanism is employed to keep the cover closed, and can be activated to open the cover when desired.




Recently, cosmetic cases are appearing in which an outer case, appropriately decorated to provide a pleasing external appearance, is structured so as to contain a separate refill case which is employed to hold the cosmetic material. The outer case is often made from expensive materials, designed to provide a beautiful and elegant appearance, and decorated in a pleasing fashion. The refill case contained therein, however, is specifically designed to be functional in regard to holding, preserving, and allowing access to the cosmetic material contained therein, and to be easily detached from and installed within the aforesaid outer case. The aforesaid outer case and refill case are often sold as separate items, thus allowing the purchaser to use the same cosmetic case to carry various types of cosmetics as dictated by personal preference, and to conveniently replace consumed cosmetics, in the form of these refill cases, without the need to buy a new outer cosmetic case.




The aforesaid refill cases, particularly when used together with relatively expensive outer cases, are often constructed similarly to conventional cosmetic cases in that a hinged cover is also installed to the refill case. The use of a hinged cover refill case, however, demands that the user open the outer case cover and refill case cover in multiple sequential operations that are, in many cases, clumsy and inconvenient.




Moreover, a cosmetic case offering the installation and removal of separate refill cases can be significantly improved through a structure which makes it easier and more convenient to both install and remove said refill cases. Furthermore, a preferable structure for this type of cosmetic case would also include a mechanism which eliminates the need to open the outer case and refill case covers as separate sequential operations.




Considering the design of the cosmetic case from a different point of view, it must also be taken into account that many recently developed cosmetic materials utilize water or oil components as solvents which are susceptible to evaporation. These types of cosmetics are becoming increasingly prevalent.




As solvent-based cosmetics are subject to relatively rapid evaporation, the cosmetic cases used to hold them must offer means of preventing evaporation by efficiently sealing the internal area of the case.




Even if a cosmetic case provides an efficient sealing effect for the substance contained therein, the condensation of solvents contained within the sealed cosmetic material can result in condensate droplets collecting on the surface of the cosmetic material and degrading the quality of said material.




The following inventions have been proposed as means of alleviating the problems mentioned above. Japanese patent unexamined publication No.9-37839 proposes various means of improving the sealing efficiency between a cosmetic case with an open and closable cover. Japanese unexamined patent publications Nos.8-347 and 9-37838 propose the installation of an inner cover between the cosmetic case and outer cover, said inner cover being utilized to seal the cosmetic case. In regard to a cosmetic case of the type which can contain a detachable refill case, Japanese unexamined patent publications Nos.9-65920 and 9-98829 propose a cosmetic case with detachable refill case whereby the refill case is specifically structured to hold a cosmetic material containing an evaporable solvent.




Refill cases have been proposed whereby a freely open and closable inner cover is installed to an inner tray. The areas between said inner tray and inner cover can be sealed, thus allowing the inner tray and cover to be employed as a refill case which is installable to and removable from an outer case. In regard to cosmetic cases applicable for use with evaporable solvent based cosmetic materials, Japanese unexamined patent publication No.9-47319 proposes a structure in which an inner tray only, without a cover, can be placed in or removed from an outer case. Japanese unexamined patent publications Nos.8-348 and 9-98828 propose a cosmetic case with a double cover whereby an internal cover is employed between a cosmetic case and external cover. Moreover, Japanese unexamined patent publication No.7-184717 proposes a cosmetic case which provides a condensation prevention effect.




The aforesaid Japanese unexamined patent publication No.9-37839 proposes the use of an elastic packing ring installed to the lower perimeter of the cosmetic container within the outer case, and a protruding part on the inner surface of the cover. When the cover is closed, the aforesaid protruding part is in contact with the aforesaid packing ring at a point below the joint formed between the case and cover. The aforesaid Japanese unexamined patent publication No.8-374 provides for an elastic packing ring of U-shaped cross section installed on the upper perimeter of the aforesaid inner tray, and an elastic packing piece installed to the cover, thus forming a structure in which the aforesaid elastic packing ring and packing piece come into mutual contact when the cover is closed. The aforesaid Japanese unexamined patent publication No.9-37838, similar to the aforesaid Japanese unexamined patent publication No.9-37839, provides for an elastic packing ring on the lower outer periphery of the cosmetic container, and a ring-shaped protrusion on the inner surface of the inner cover, said ring-shaped protrusion coming into contact with the aforesaid elastic packing ring at a point below the joint between the inner cover and cosmetic container.




In regard to a refill type cosmetic case, the aforesaid Japanese unexamined patent publication No.9-65920 mentions an outer case divided into two compartments separated by a wall structure, one of the aforesaid compartments being employed to hold a refill case, and the other as a storage area for a cosmetic application tool. A protrusion on the cover of the refill case fits into a cutout portion provided in the center of the separator wall, said protrusion extending into the space provided for the aforesaid application tool. Similar to the aforesaid Japanese unexamined patent publication No.9-65920, the aforesaid Japanese unexamined patent publication No.9-98829 mentions a separator wall forming two internal compartments within the cosmetic case. A first joint part is formed between the separator wall and facing surface of the cosmetic case, and a second joint part, capable of detaching from the aforesaid first joint part, is formed on the refill case. The connection formed between the first joint part and second joint part secures the refill case in position.




The cosmetic case proposed by the aforesaid Japanese unexamined patent publication No.9-47319 incorporates a separator wall within the case, said wall forming two separate internal compartments, one of said compartments being occupied by the aforesaid inner tray. A joint groove is formed on the lateral periphery of the inner tray. A first joint protrusion, capable of insertion into the aforesaid joint groove, is formed on the inner tray side of the separator wall. Moreover, multiple pairs of fingers are formed as vertical slits at the lower side of the wall surface opposite to the separator wall. A second protrusion capable of inserting into the aforesaid joint groove is also provided. The wall surface between the fingers is formed as a support wall with a lower surface acting as a free surface. The protrusion formed on the support wall presses against inner tray in a direction facing the first joint protrusion.




In the cosmetic case proposed by the aforesaid Japanese unexamined patent publication No.8-348, an inner cover opening piece, installed either on the cosmetic case or inner cover, is utilized as means of forcibly opening the inner cover. Moreover, the cosmetic case mentioned in the aforesaid Japanese unexamined patent publication No.9-98828 employs a first release mechanism as means of releasing a first latch connecting the outer cover to the cosmetic case, and a second release mechanism as means of releasing a second latch connecting the inner cover to the cosmetic case, both of the aforesaid release mechanisms being drivable by single push piece. A single action of the push-piece results in the release of the joints maintained by the aforesaid first and second latches.




The aforesaid Japanese unexamined patent publication No.7-184717 proposes the installation of an absorbent material on the inner side of the cosmetic case cover as means of absorbing the condensate produced by an evaporating solvent within the cosmetic material.




The cosmetic case structures put forth by the aforesaid Japanese unexamined patent publications Nos.9-37839 and 9-37838 require elastic packing rings at the lower periphery of the cosmetic material container, thus necessitating the formation of a recessed channel at the outer periphery of the joint area. As significant space is required for these channels, a cosmetic case made to specific external dimensions would have a smaller opening space than would be otherwise possible, thus decreasing the amount of cosmetic material that could be held in the case. As the aforesaid Japanese unexamined patent publication No.8-347 calls for a separate inner tray and cover to which separate elastic packing pieces must be installed, the number of components comprising the cosmetic case increases, the structure becomes more complicated, and the assembly operation for the cosmetic case becomes more expensive and time consuming. Moreover, the cosmetic case is relatively inconvenient to use as the outer and inner covers require separate operations to open and close.




As the aforesaid Japanese unexamined patent publication No.9-98829 requires a first joint at the separator and case wall, and a second joint at the inner tray, a relatively complex structure is required which correspondingly makes the fabrication of tooling, which is required to manufacture the case, more complex and expensive.




Furthermore, while the aforesaid Japanese unexamined patent publication No.8-348 proposes a push-type mechanism which provides a more convenient opening operation for the inner cover, the inner and outer covers must still be opened by separate operations. Resultantly, there is no significantly improvement in the ease with which the covers can be opened. As the aforesaid Japanese unexamined patent publication No.7-184717 employs a sliding push-piece, space must be provided for the sliding action, a design requirement which reduces the amount of cosmetic material the case can hold in regard to specific external dimensions.




SUMMARY OF THE INVENTION




Firstly, the invention proposes a cosmetic case in which the installation and removal of a refill case is a fast and simple operation, and in which the installation of a refill case cover (hereafter referred to as the inner cover) and outer case cover pose no restriction to convenient access to the cosmetic material contained in the inner case.




Secondly, the invention proposes a cosmetic case whereby both an inner and outer cover can be opened with a single operation when a refill case is installed within the outer case.




Thirdly, the invention proposes a cosmetic case able to effectively prevent the evaporation of solvents within the cosmetic material contained therein through the employment of a specific sealed structure.




Fourthly, the invention proposes a cosmetic case structured in a manner as to prevent the condensate from evaporated solvents within the cosmetic material from collecting on the surface of said material.




To achieve these ends, the cosmetic case invention is comprised of




an outer case defining an inner compartment space;




an open and closable outer cover installed to said outer case in a manner as to seal off or allow open access to the aforesaid inner space;




a main latch installed between the aforesaid outer case and outer cover as a means of connecting said outer case and outer cover,




a refill case comprised of a cosmetic container and inner cover, said inner cover being open and closable in a manner as to seal the aforesaid cosmetic container or allow access to the cosmetic material contained therein, the aforesaid refill case being further equipped with a sub-latch capable of joining or releasing the aforesaid cosmetic container and cover, the aforesaid refill case being further installable to or detachable from the aforesaid outer case,




and an operating mechanism installed to the aforesaid outer case or outer cover, said operating mechanism providing a one movement operation capable of simultaneously releasing the closed joints maintained by the aforesaid main latch and refill latch mechanism.




When the outer and inner covers are in a closed condition, activation of the operating mechanism will result in the main latch and sub-latch releasing simultaneously in a single action.




The aforesaid operating mechanism incorporates a push-piece pivotably installed to the outer case or outer cover, said push-piece functioning as the power input component of the operating mechanism. One part of the push-piece operates a first release mechanism to release the aforesaid main latch release mechanism, and another part of the push-piece operates a second release mechanism to release the aforesaid sub-latch.




When the outer and inner covers are in a closed condition, pressure applied to the push-piece will result in a swinging action which mechanically releases the main latch of the first release mechanism and the refill latch of the second release mechanism, thus allowing both the outer cover and inner cover to be opened from a single pivoting action of the push-piece.




Furthermore, as the push piece moves with a pivoting action, minimal space is required for its installation in comparison to a slide action piece, thus allowing the cosmetic case to be made to more compact dimensions.




As the first release mechanism is installed between the outer case and outer cover, the push-piece releases the main latch joint by applying an opposing force between the outer case and outer cover, and as the second release mechanism is installed between the aforesaid outer case and inner cover, the push-piece is also able to release the refill case latch through the application of the same type of opposing force.




The operating mechanism consists of a single push-piece which can be freely installed to the outer case or outer cover as a means of applying an operating movement to release the main latch, and an intermediate piece positioned within the outer case. Said intermediate piece is displaced by the movement of the aforesaid push-piece so as to release the sub-latch on the refill case.




Use of the aforesaid intermediate piece allows the movement of the push-piece to be transferred to the sub-latch as a means of releasing the sub-latch simultaneously with release of the main latch. Such simultaneous release of the outer cover and inner cover through a single movement of the push-piece provides for a refill-type cosmetic case opening action which is simple, easy, and convenient.




Moreover, as the aforesaid intermediate piece can also be structured as integral with the outer case or inner cover, and as the push-piece is an independent component, they can be made of different materials, surface finished to desired colors, and designed to shapes that separately compliment the appearance of the cosmetic case. For example, the push-piece can be formed as an integral design element of the outer case in terms of color and shape, while the intermediate link can be likewise designed to match the interior appearance of the cosmetic case.




As the push-piece is oriented between the outer case and outer cover, it is able to release the main latch joint through an opposing force applied between the outer case and outer cover, and as the intermediate link is oriented between the outer case and refill cover, it is likewise able to release the refill latch through an opposing force applied between the outer case and refill latch.




The intermediate link is structured as an integral component of the outer case, and because it can be fabricated together with the outer case, the number components comprising the cosmetic case can reduced, manufacturing costs lowered, and the assembly process simplified. Furthermore, structural integration of the intermediate piece eliminates the chances of it loosening or separating from the case.




Moreover, the inner cover is attached to the cosmetic container by means of a hinge installed on the opposite side of the cosmetic container from the aforesaid sub-latch, thus allowing the inner cover to extend outward and away from the outer case when opened within the outer case.




A floor surface and perimeter wall are formed within the outer case, said perimeter wall circumscribing and defining said floor area to dimensions larger than the refill case. A cutout area is provided within the aforesaid perimeter wall to allow clearance for the aforesaid refill case hinge and inner cover when said cover is in a open condition and extending out from the outer case. A protruding rib is formed within the aforesaid inner space as means of indexing the position of the refill case when said case is installed within the outer case.




The aforesaid rib establishes the position of the refill case within the outer case, and provides for a secure and stable attachment of said refill case therein. Moreover, a cosmetic application device, such as a soft puff or other like implement, can be placed within the part of the outer case inner space not occupied by the refill case.




As a cutout section is provided within the outer case perimeter wall at the inner case hinge area, the refill cover is able to open widely, without interference with the aforesaid wall, to provide free and convenient access to the cosmetic material within the refill case.




An orifice is provided within the aforesaid floor surface as means of aiding in the removal of the refill case from the outer case. Applying upward pressure to the lower surface of the refill case with a finger, through the aforesaid orifice, allows easy and convenient removal of the refill case from the outer case. The aforesaid orifice is formed as an oblong hole within the area of the outer case floor covered by the installed refill case.




A sealing mechanism is provided at the periphery of the cosmetic container opening, as means of sealing the space enclosed therein. The aforesaid sealing mechanism is comprised of an elastic sealing ring peripherally installed at the opening to the cosmetic container, either to the cosmetic container or inner cover, and a ring-shaped sealing ridge formed on the opposing component, said sealing ridge being oriented so as to come into pressure contact with the aforesaid sealing ring when the inner cover is closed.




The inner or outer diameters of the aforesaid sealing ring and protruding sealing ridge are structured so as to provide sealing surfaces on which a mutually abrasive rubbing action occurs during the inner cover closing movement. Thus, the closing movement of the inner cover results in a highly effective seal being former between the inner cover and inner case. Specifically, as a mutually abrasive rubbing effect is created between the aforesaid sealing ring and sealing ridge, any residual cosmetic material adhering to the sealing ring or ridge is rubbed away and removed from the sealing surfaces, thus creating a clean and tight seal.




To aid in this sealing effect, at least one inclined abrasion surface is formed either on the aforesaid sealing ring or sealing ridge. This inclined abrasion surface operates to steadily increase the abrasion pressure between the sealing ring and sealing ridge as the inner cover is closed, an effect which not only enhances the abrasive cleaning action, but also provides for a maximum sealing pressure between the sealing ring and ridge when the inner cover is fully closed.




Furthermore, the seal surface established between the aforesaid sealing ring and sealing ridge is arranged at a level above the level of the cosmetic material contained in the case.




Moreover, the aforesaid sealing ring is capable of elastic deformation in an inward or outwardly radial direction, thus allowing means to be established either on the inner case or inner case cover to purposely radially deform the sealing ring.




Furthermore, a joint groove is formed along the periphery of the aforesaid sealing ring, on either the inner case or inner cover, and a ring part is likewise installed on either the inner case or inner cover as means of securing the aforesaid sealing ring to the aforesaid joint groove.




Moreover, a seal protrusion part may be radially formed on either the upper or lower side of the aforesaid sealing ring as means of applying additional pressure to the sealing ring.




Furthermore, an elastic expanded part is formed into the outer periphery of the aforesaid sealing ring. The inner perimeter of the aforesaid ring-shaped ridge is formed to a smaller diameter than the aforesaid elastic expanded part of the sealing ring, and thus the ring-shaped ridge generates abrasive pressure against said elastic expanded part while the inner cover is closing. As the inner periphery of the sealing ridge provides an abrasive action and pressurized joint at the expanded part of the sealing ring, a highly effective seal is maintained for the internal area of the cosmetic container.




Moreover, when the ring-shaped sealing ridge applies abrasive pressure to the expanded part of the sealing ring as a result of the inner cover closing movement, any cosmetic material which may be adhering to the inner periphery of the sealing ridge is wiped away as a result of the abrasive cleaning effect, and thus a clean, tight, and efficient seal is propagated.




A compression ridge is formed on the component to which the aforesaid ring-shaped sealing ridge is formed, either the inner case or inner cover, as means of applying compression pressure to the upper or lower side of said sealing ring and thus further radially deforming the aforesaid expanded part in an outward direction.




When the inner cover is closed, the aforesaid compression ridge makes it possible to further pressurize the sealing ring while the aforesaid expanded part of the sealing ring is pressurized by the inner perimeter of the sealing ridge, and thus provides for a stronger and tighter seal.




The invention also provides a condensation droplet collection means whereby a specific inner cover structure is provided to collect and hold condensation droplets resulting from the condensation of evaporated solvents contained in the cosmetic material. The underside of the inner cover is specifically structured to serve as means of collecting and/or guiding the movement of the aforesaid droplets. The invention is therefore able to prevent said droplets from gathering on the surface of the cosmetic material and thus maintain the cosmetic material in a desirably usable condition.




A multiply grooved surface is formed on the underside of the inner cover, said grooved surface extending from the central part of said cover and sloping downward to the peripheral region, as means of collecting and guiding condensation droplets form the center area of the inner cover to the peripheral area. The droplets are prevented from falling onto the surface of the cosmetic material as a result of their flow toward the peripheral inner case area within the grooves on the aforesaid grooved surface.




The aforesaid grooved surface provides means for smoothly guiding the flow of condensation droplets to the peripheral area of the case. The grooved surface also provides a larger surface area compared to a flat surface, and thus also aids in inhibiting condensation of evaporated cosmetic solvents. The enlarged surface area of the grooved surface also provides for a larger adhesion area for droplets to collect on, and is thus able to hold more droplets and reduce the possibility of said droplets falling onto the cosmetic material surface.




The aforesaid grooved surface can be formed as a separate grooved surface inner plate attached to the underside of the inner cover.




The aforesaid condensation droplet collection means may also exist as a structure in which a condensation space is formed between the aforesaid inner plate and the underside of the inner cover, and in which orifices are provided to aid in the flow of air between the spaces below and above the aforesaid inner plate.




Moreover, the use of an inner plate installed to the underside of the inner cover has the effect of reducing the number of condensation droplets which can form directly over the cosmetic material. Furthermore, this construction eliminates the need to use an absorbent material on the underside of the inner cover, and thus improves the appearance of the inner case.




The aforesaid condensation droplet collection means can also be structured as multiple line grooves, said line grooves also providing means of preventing condensation droplets from collecting on the cosmetic material surface. The aforesaid line grooves also make the undersides of the inner case easier to clean, and thus allow a clean appearance of the inner case to be maintained with less effort.




The aforesaid multiple line grooves can be oriented in parallel and in the same direction as the aforesaid inner cover hinge as means of further preventing condensation droplets from falling when the inner cover is opened.




The condensation droplet collection means may further be structured as multiple hemispherical depressions and/or protrusions located on the underside of the inner cover, or on any gap forming surfaces within the inner cover. These hemispherical depressions and protrusions are particularly effective in holding condensation droplets. Furthermore, use of these hemispherical depressions and protrusions in specific sizes and patterns can add a pleasing decorative effect to the underside of the inner cover and add to the appeal of the cosmetic case.











BRIEF DESCRIPTION OF THE DRAWING





FIG. 1

is an oblique view of the first embodiment of the cosmetic case invention.





FIG. 2

is a plan view of the

FIG. 1

embodiment with the outer cover open.





FIG. 3

is an oblique view of the

FIG. 1

embodiment showing the push-piece in a removed condition.





FIG. 4

is a cross section at line IV—IV of FIG.


1


.





FIG. 5

is a cross section at line V—V of FIG.


1


.





FIG. 6

is a cross section at line VI—VI of

FIG. 1

with the outer and inner covers closed.





FIG. 7

is the same cross section as

FIG. 6

with the outer cover open.





FIG. 8

is an oblique view of the second embodiment of the cosmetic case invention.





FIG. 9

is a plan view of the

FIG. 8

embodiment with the outer cover open.





FIG. 10

is a cross section at line X—X of FIG.


8


.





FIG. 11

is a cross section at line XI—XI of FIG.


8


.





FIG. 12

is an oblique view of the third embodiment of the cosmetic case invention.





FIG. 13

is a cross section at line XIII—XIII of FIG.


12


.





FIG. 14

is a cross section at line XIV—XIV of

FIG. 12

with the inner and outer cover closed.





FIG. 15

is the

FIG. 1

cross section showing the outer cover in a released condition.





FIG. 16

is an enlarged view of part C of FIG.


14


.





FIG. 17

is an enlarged view of part D of FIG.


15


.





FIG. 18

is a modified example of the mechanism shown in the enlarged cross section of FIG.


16


.





FIG. 19

is a modified example of the mechanisms shown in the enlarged cross sections of

FIG. 17 and 18

.





FIG. 20

is a fourth embodiment of the cosmetic case invention.





FIG. 21

is a cross section at line XXI—XXI of FIG.


20


.





FIG. 22

is a cross section at line XXII—XXII of FIG.


20


.





FIG. 23

is an enlarged view of FIG.


22


.





FIG. 24

is the

FIG. 23

cross section with the push-piece mechanism released.





FIG. 25

is a modified example of the

FIG. 23

mechanism.





FIG. 26

is a modified example of the

FIG. 23

mechanism.





FIG. 27

is a preferred cosmetic case sealing mechanism shown as an enlargement of part F in FIG.


5


.





FIGS. 28 through 37

are possible modifications of the sealing mechanism shown in FIG.


27


.





FIG. 38

is a lateral cross sectional view of a modification of the sealing mechanism used in the cosmetic case invention.





FIG. 39

is a front cross sectional view of the case shown in FIG.


38


.





FIG. 40

is an enlarged view of the sealing mechanism of the

FIG. 38

cross section.





FIG. 41

is a modified version of the

FIG. 40

sealing mechanism.





FIG. 42

is an addition modified version of the sealing mechanism shown in FIG.


40


.





FIG. 43

is a still further modified version of the sealing mechanism shown in FIG.


40


.





FIG. 44

is a lateral cross sectional view of the inner cosmetic case specified by the invention.





FIG. 45

is the

FIG. 44

cross section with the addition of adhered condensed droplets.





FIG. 46

is the

FIG. 44

cross section with the addition of the flow movement of adhered condensed droplets.





FIG. 47

is a plan view of a modification of the cosmetic case invention with the inner cover open.





FIG. 48

is a lateral cross sectional view of the cosmetic case invention shown in FIG.


47


.





FIG. 49

is a plan view of a modified version of the cosmetic case invention.





FIG. 50

is lateral cross section of the

FIG. 49

view.





FIG. 51

is a modified version of the cosmetic case invention.





FIG. 52

is an oblique view of a further version of the cosmetic case invention.





FIG. 53

is a lateral cross section of the

FIG. 52

cosmetic case.





FIG. 54

is an enlarged cross section of the ventilation orifices which can be applied to the cosmetic case invention.





FIG. 55

is an enlarged cross section of a modification of the ventilation orifices shown in FIG.


54


.





FIG. 56

is an oblique view of the cosmetic case invention showing a modification of the ventilation orifices.





FIG. 57

is an oblique view of the cosmetic case invention showing a still further modification of the ventilation orifices.





FIG. 58

is a lateral cross section of a modified version of the cosmetic case invention.





FIG. 59

is a lateral cross section of a further modified version of the cosmetic case invention.





FIG. 60

is an oblique view of a still further modified version of the cosmetic case invention.





FIG. 61

is a lateral cross sectional view of the

FIG. 60

cosmetic case.





FIG. 62

is an enlarged cross section of the protruding and recessed lines preferred by the invention.





FIG. 63

shows a modified version of the protruding and recessed lines preferred by the invention.





FIG. 64

shows a further modified version of the protruding and recessed lines preferred by the invention.





FIG. 65

shows a still further modified version of the protruding and recessed lines preferred by the invention.





FIG. 66

is a plan view of a further modified version of the cosmetic case invention with the inner cover in an open condition.





FIG. 67

is a plan view of a still further modified version of the cosmetic case invention with the inner cover in an open condition.





FIG. 68

is an oblique view of a still further modified version of the cosmetic case innovation with the inner cover in an open condition.





FIG. 69

is a lateral cross section of the cosmetic case shown in FIG.


68


.





FIG. 70

is an enlarged cross sectional view of the dimple structure preferred by the invention.





FIG. 71

is an enlarged cross sectional view of the hemispherical protrusions preferred by the invention.











DESCRIPTION OF PREFERRED EMBODIMENTS




The following discussion will explain the preferred embodiments of the cosmetic case invention.





FIGS. 1 and 2

present a first embodiment of the invention. In this embodiment, cosmetic case


10


is comprised of outer case


12


to which outer cover


16


is installed by means of outer hinge


14


. A compartment area is defined within outer case


12


by means of peripheral wall


12




a


and floor


12




b


, and rectangular compartment


18


is formed along the outer periphery of the aforesaid compartment area. First compartment


18




a


is formed on one side of space


18


and serves as the installation space for inner case


20


. Outer hinge


14


is installed to outer case


12


at recessed space


14




a


which is formed in the center outer edge of outer case


12


, protruding part


14




b


is formed as part of outer cover


16


, and hinge pin


14




c


is inserted into outer hinge


14


in the area occupied by recessed space


14




a


and protruding part


14




b


. Second latch


48




b


is installed to the outer edge on the underside of outer cover


16


, and first latch


48




a


is installed in a recessed section located in the center of the peripheral edge of outer case


12


. Second latch


48




b


connects or disconnects to first latch


48




a


as a means of maintaining outer cover


16


in a closed condition or releasing said outer cover. vanity mirror


16




b


is installed to a recessed area on the underside of outer cover


16


.




Refill case


20


is employed as a container to hold the cosmetic material, and functions as what is commonly known as a cosmetic powder compact. Refill case


20


is comprised of cosmetic container


22




a


in which the cosmetic material is placed, inner case


22


, and inner cover


24


which is employed to seal inner case


22


. Inner cover


24


is pivotably installed to the left side of inner case


22


by means of hinge mechanism


26


. Hinge mechanism


26


protrudes from the left side of inner case


22


between hinge support posts


26




a


, and is connected to inner case


22


by means of hinge pin


26




c


which is inserted in the aforesaid hinge support posts and the protruding part of inner cover


24


. As hinge mechanism


26


is established on refill case


20


in this type of protruding condition, upward facing cutout section


12




d


is formed on peripheral wall


12




a


of first compartment


18




a


as means of allowing clearance for hinge part


26


when inner case


20


is installed to the cosmetic case.




Second latch


50




b


is peripherally installed to the opening side periphery of inner cover


24


and connects to or releases from first latch


50




a


, latch


50




a


being installed to inner case


22


in a manner as to be able to maintain inner cover


24


in a closed condition. First latch


50




a


is installed within recess


22




b


at the center of the right side of inner case


22


. Second latch


50




b


resides in recess


22




b


when inner cover


24


is in a closed condition. Relatively large angular cutout section


22




c


forms a void at the right front corner of inner case


22


, and right front corner


24




a


of inner cover


24


extends beyond cutout section


22


C when inner cover


24


is in a closed condition.




A sealing mechanism is provided between inner cover


24


and inner case


22


with the purpose of maintaining the internal cosmetic container


22




a


in a sealed condition. As shown in

FIG. 4

, sealing ring


28


is installed around the peripheral opening to cosmetic container


22




a


, and sealing ridge


30


is formed on inner cover


24


in the same general contours as sealing ring


28


. Sealing ring


28


is of band shape and composed of rubber or other known appropriate sealing material. As shown in

FIG. 27

, sealing ring


28


is installed in sealing groove


22




d


on the upper periphery of cosmetic container


22




a


. The upper part of sealing ring


28


extends above the upper peripheral edge of cosmetic container


22




a


to form seal head


28




a


. Seal chamfer


28




b


is formed along the inner periphery of sealing ring


28




a


directly beneath seal head


28




a


, and establishes an area of elastic compression when sealing ring


28


is compressed. Seal chamfer


28




b


forms space “δ” at the inner circumference of sealing groove


22




d


, the purpose of space “δ” being to provide an expansion area for the inward radial deformation of sealing ring


28


. Inner sealing flange


28




c


is formed on the inner circumference of sealing ring


28


and extends in an inward radial direction from seal head


28




a


over horizontal surface


22




e


of cosmetic container


22




a


in a manner as to slide freely over horizontal surface


22




e


. First inclined sealing surface


32


is formed on the upper outer circumference of seal head


28




a


at the outer periphery of inner case


22


, and forms an increasingly larger diameter in the downward direction.




Recess


24




c


is formed on the inner surface of inner cover


24


opposite to cosmetic container


22




a


, and sealing ridge


30


is formed by the resulting stepped configuration at the periphery of recess


24




c


. Second inclined sealing surface


34


is formed on the inner periphery of inner cover


24


extending upward from seal ridge


30


over first inclined sealing surface


32


on seal head


28




a


. Because angle “θ1” of second inclined sealing surface


34


is larger than angle “θ2” of first inclined sealing surface


32


, the following mechanism can take place. As inner cover


24


closes, sealing ridge


30


comes into contact with seal head


28




a


after which the angular face on the inner circumference of sealing ridge


30


(second inclined sealing surface


34


) rides over and abrades against first inclined sealing surface


32


on sealing ring


28


until inner cover


24


is completely closed. In this first embodiment of the invention, second inclined sealing surface


34


(angle “θ2”) is established as a 90-degree right angle.




As shown in

FIG. 1

, fore-aft length dimension L


1


of space


18


formed within outer case


12


is approximately equivalent to the fore-aft W


1


width dimension of inner case


22


, and width dimension L


2


of outer case


12


is approximately twice as long as the width dimension W


2


of inner case


22


. Ribs


18




e


are formed on wall surfaces


18




c


and


18




d




18


and extend inwardly into space


18


. Tabs


18




f


are formed on walls


18




c


and


18




d


of first compartment


18




a


, and indexing slots


28




j


are opened on walls


22




g


and


22




h


of inner case


22


as a means of positioning inner case


22


within first compartment


18




a


. Push-out orifice


12




f


is opened within floor


12




b


of outer case


12


, within the area defined by first compartment


18




a


, as a means of allowing refill case


20


to be pushed out of outer case


12


by applying finger pressure from below in an upward direction.




Push-piece


36


is installed to outer case


12


as a means of releasing main latch mechanism


48


and sub-latch mechanism


50


. As shown in

FIG. 3

, push-piece


36


is installed to recess


12




c


on outer cover


12


, width L


3


of push-piece


36


being approximately equivalent to width W


3


of recess


12




c


. Split pivot orifices


36




a


are formed toward the upper internal area of push-piece


36


, and fit over a pair of pivot pins


38


installed within recess


12




c


as means of allowing push-piece


36


to move with a pivoting action. Touch part


36




b


is formed as a horizontally protruding edge at the lower area of push-piece


36


. First release tab


36




c


is formed on the upper ride side, and second release tab


36




d


on the upper left side of push-piece


36


. As can be seen in

FIG. 2

, first release tab


36




c


extends to first latch


48




a


within recess


12




c


, and second release tab


36




d


passes through slot


12




e


formed on the upper surface of recess


12




c


. The lower surface of outer cover


16


is in contact with the end of first release tab


36




c


when cover


24


is in a closed condition, and the lower surface of part


24




a


at the front right of inner cover


24


is in contact with second release tab


36




d.






With the first embodiment of cosmetic case


10


being thus structured, main latch mechanism


48


′ and sub-latch mechanism


50


are able to maintain outer cover


16


and inner cover


24


in a closed condition as shown in

FIGS. 4 and 6

. Pressing in push-piece


36


, however, will release both main latch mechanism


48


and sub-latch mechanism


50


, and thereby cause outer cover


16


and inner cover


24


to open simultaneously, thus providing fast and convenient access to cosmetic material P contained within cosmetic container


22




a


. Specifically, applying pressure to touch part


36




b


of push-piece


36


will result in push-piece


36


rotating on pivot pins


38


which results in an upward motion of first and second release tabs


36




c


and


36




d


, a movement which forcefully pushes open outer cover


16


and inner cover


24


. The upward force applied through the push-piece releases the joint at first latch


48




a


and second latch


48




b


, and also the connection at first latch


50




a


and second latch


50




b


.

FIG. 7

shows outer cover


16


and inner cover


24


in a released and slightly opened condition from which the user can easily open the covers to their full open positions.




This first embodiment of the cosmetic case invention has presented a structure in which a single pushing action applied to a push-piece is able open both outer cover


16


and inner cover


24


of the refill-type cosmetic case. The aforesaid structure not only provides means for convenient opening of a dual-compartment refill-type cosmetic case, but also provides for the efficient use of the inner case area as a result of the minimum amount of space required by the pivoting action of the aforesaid push-piece.




As cutout section


12




d


is provided on outer wall


12




b


as clearance for hinge mechanism


26


, the opening of inner cover


24


does not interfere with outer wall


12




b


, thereby allowing inner cover


24


to open completely in an outward direction from outer case


12


as means of providing free and convenient access to the cosmetic material. As further shown in

FIG. 7

, the mechanism can be structured so inner cover


24


pushes up against outer cover


16


when push-piece


36


is pressed, thus creating a larger initial opening angle for outer cover


16


.




Closing inner cover


24


and then outer cover


16


in sequence engages sub-latch mechanism


50


and main latch mechanism


48


so as to maintain both covers in a tightly closed condition. Maintaining inner cover


24


tightly closed in this manner provides an effective seal of the inner area of cosmetic container


22




a


through the operation of sealing ring


28


. The sealing mechanism set forth in this embodiment provides for an increasing pressurization and abrasive rubbing action applied against sealing ring


28


along the entire length of sealing ridge


30


while inner cover


24


is in the process of closing, the aforesaid rubbing action serving as means whereby cosmetic material adhering to sealing ring


28


or sealing groove


30


is removed to maintain a tight and effective sealing condition. As a result, when inner cover


24


comes to a completely closed position, sealing ridge


30


is applying pressure to sealing ring


28


through a sealing surface which has been cleansed of any residual cosmetic materials, thus forming a tight and effective seal.




Moreover, as first inclined sealing surface


32


operates as the seal contact area between sealing ring


28


and sealing ridge


30


, the closing action of inner cover


24


provides an abrasive action of continuously increasing pressure between the sealing surfaces, thus providing a process which is highly effective in removing residual cosmetic material from the sealing area. With inner cover


24


in a completely closed condition, the operation of first inclined sealing surface


32


provides effective sealing pressure between sealing ring


28


and sealing ridge


30


in a manner which further improves the abrasive cleaning and sealing effect. The result is that the cosmetic material stored within cosmetic container


22




a


can be maintained in a desired and usable condition for a longer time period despite the escape and adherence of cosmetic material around the sealing area of the cosmetic case.




Moreover, sealing ring


28


provides a more positive sealing effect by means of establishing seal head


28




a


around the opening of cosmetic container


22




a


at the upper surface of inner case


22


to form a seal above cosmetic container


22




a


. This structure differs from conventional cosmetic cases which employ a grove around the lower part of the opening to cosmetic container


22


, and being so differed, requires only the establishment of sealing groove


22




d


as means of attaching sealing ring


28


around the opening to cosmetic container


22




a


. As a result, the access area to cosmetic container


22




a


is enlarged, and the amount of cosmetic material carried within cosmetic case


10


can be increased without increasing external dimensions. Furthermore, as gap “δ” provides for elastic deformation of sealing ring


28


in an inwardly radial direction, a mechanism which causes inner sealing flange


28




c


to slide along horizontal surface


22




e


, the compression force applied to sealing ring


28


by ridge


30


is received by horizontal surface


22




e


as seal deformation proceeds inwardly in the radial direction. As a result of this mechanism, ridge


30


makes use of the elastic property of sealing ring


28


to create the aforementioned abrasive rubbing action thereon as a means of removing any cosmetic material adhering to the sealing surfaces.




Refill case


20


is secured within first compartment


18




a


of inner space


18


by means of ribs


18




e


, and by further means of tabs


18




f


of inner walls


18




c


and


18




d


inserting into slots


22




j


on inner case


22


. Cosmetic application puff


40


or other like device can be held in second compartment


18




b.






Refill case


20


is indexed within inner space


18


by means of the slight protrusion of ribs


18




e


formed on inner walls


18




c


and


18




d


. As a result of this structure, the need for a separator wall to define first compartment


18




a


(for refill case


20


) and second compartment


18




b


(for the aforesaid application puff


40


) is eliminated. As ribs


18




e


only protrude a small amount within inner space


18


, inner space


18


can be generally defined as one continuous space over the length of outer case


12


, a characteristic which simplifies the formation of inner space


18


through the use of less complex dies to manufacture outer case


12


. While the figures show ribs


18




e


formed on both wall


18




c


and


18




d


, a single rib


18




e


may be formed on either wall


18




c


or


18




d


and provide the same indexing effect for refill case


20


.




Furthermore, establishing orifice


12




f


in the floor area of outer case


12


allows the user of the cosmetic case to easily remove refill


20


from inner space


18


by pushing up on the bottom surface


22




i


of inner case


22


through orifice


12




f


, and thus easily separating slots


22




j


from tabs


18




f


. Refill case


20


can also be removed from inner space


18


by gripping said case from above and pulling out, thus providing two convenient methods of removal.





FIGS. 8 through 11

describe a second embodiment of the cosmetic case invention. In this second embodiment, cosmetic case


10


generally resembles that described in the first embodiment, but has an enlarged orifice


12




f


opened within floor area


12




b


of outer case


22


, orifice


12




f


being of the approximate same shape but slightly smaller than lower part


22




i


of inner case


22


. Also, protruding surface


28




k


is formed on lower part


22




i


of inner case


22


to the approximate same size as orifice


12




f


and in a manner as to allow protruding surface


28




k


to fit within orifice


12




f


when refill case


20


is installed.




Enlarged orifice


12




f


exposes a larger area of lower part


22




i


of inner case


22


, and thus allows multiple fingers to be used to press against lower part


22




i


to remove refill case


20


. This structure allows easier separation and release of the joint formed between tabs


18




f


and slots


22




j.







FIGS. 12 through 17

describe a third embodiment of the cosmetic case invention in which cosmetic case


10


is comprised of;




outer case


12


,




outer cover


16


open and closably installed to outer case


12


to allow access therein,




inner case


22


of refill case


20


, inner case


22


being installable or removable to first compartment


52




b


within inner space


18


,




inner cover


24


which is able to open or close on inner case


22


to allow access therein,




second latch


48




d


formed to outer cover


16


and able to install to or detach from outer case


12


,




push-piece


54


installed to outer case


12


, push-piece


54


being operable in a manner so as to release the joint formed at second latch


48




d,






second latch


50




d


formed on inner cover


24


, second latch


50




d


being able to form a joint with inner case


22


, and intermediate piece


56


installed between main case


22


and push-piece


54


, intermediate piece


56


being employed to release the joint between second latch


50




d


and inner case


22


by means of the movement of push-piece


54


.




As shown in

FIGS. 12 through 14

, inner tray


52


is installed within outer case


12


, inner tray


52


forming two separate compartments


52




b


and


52




c


. Divider wall


52




a


is established in the center of inner tray


52


in the fore-aft direction which results in the formation of first compartment


52




b


on the left side of divider wall


52




a


, and second compartment


52




c


on the right side. Tabs


52




d


a reformed on the outer perimeter of inner tray


52


as a means of connecting inner tray


52


to outer case


12


through slots


12




g


formed on the inner wall of outer case perimeter


12




a


. Flange


52




e


comes into contact with the upper surface of perimeter


12




a


of outer case


12


when inner tray


52


is installed to outer case


12


.




Refill case


20


holds cosmetic material P and can be easily installed to or removed from first compartment


52




b


. Tab


52


is formed on the inner periphery of first compartment


52




b


and is able to insert into slot


22




j


formed on the outer perimeter of inner case


22


as a means of securing refill case


20


in first compartment


52




b.






Orifice


12




f


is formed in floor


12




b


of outer case


12


beneath first compartment


52




b


. Inserting a finger through orifice


12




b


from the bottom of outer case


12


will allow the convenient removal of inner case


20


from first compartment


52




b.






Push-piece


54


is installed within cutout section


12




e


formed on outer case


12


in a manner as to be movable in the fore-aft direction. Part of push-piece


54


includes touch part


54




a


, the main body thereof being of hollow square cross section. Plate spring


54




b


is installed at the rear portion of touch part


54




a


and at each side thereon. With touch part


54




a


residing in cutout section


12




e


, the outer ends of plate springs


54




b


contact the front surface of inner tray


52


, and are thus able to support touch part


54




a


and allow its fore-aft movement within cutout section


12




e.






Second latch


48




d


is installed on the inner opening side of outer cover


16


, and 1st latch


48




c


is installed on the rear surface within the hollow internal area of touch part


54




a


. Second latch


48




d


and first latch


48




c


together comprise main latch mechanism


48


. As shown in

FIG. 14

, when outer cover


16


is in a closed condition, second latch


48




d


resides within orifice


52




g


formed within flange


52




e


of inner tray


52


, and forms a latched joint with first latch


48




c


, said latched joint serving as means of maintaining outer cover


16


in a closed condition.




Incorporating much the same structure as outer cover


16


, second latch


50




d


is formed as a protruding part on the center of the opening side of inner cover


24


, and first latch


50




c


is formed at the center of the right side of inner case


22


, second latch


50




d


and first latch


50




c


comprising sub-latch mechanism


50


. Second latch


50




d


joins with first latch


50




c


at the time when inner cover


24


is, and serves as means whereby inner cover


24


is secured in a closed condition.




As shown in

FIG. 14

, intermediate piece


56


is installed in the area between inner cover


24


and push-piece


54


, and serves as means through which the forward movement of push-piece


54


can be converted into a vertical movement capable of pushing open inner cover


24


. Intermediate piece


56


is comprised of release plate


56




a


which inclines to push up against the underside of the opening edge of inner cover


24


, and inverted T-shaped drive part


56




b


located at the opposite end to plate


56




a


, drive part


56




b


being in contact with and drivable by push-piece


54


. Horizontal plate


56




a


resides in cutout section


52




h


formed on the upper surface of inner tray


52


, and drive part


56




b


resides in orifice


52




i


formed at the lower part of cutout section


52




h


. Contact piece


54




c


is formed on the back of touch part


54




a


and incorporates connector slot


54




d


at its forward part into which drive part


56




b


is inserted.




As shown in

FIG. 16

, pivot lip


56




c


is formed on the front lower part of release plate


56




a


, and mates with channel


52




j


(which is formed on the front edge of cutout section


52




h


) at the time when intermediate piece


56


is resting within cutout section


52




h.






Pawl


56




d


is formed on the lower front extremity of drive part


56




b


and connects to notch


54




e


which is formed within connector slot


54




d


. Bending part


54




f


is formed in contact piece


54




c


at the point where contact piece


54




c


is joined to touch part


54




a


as means of allowing a small amount of flex within contact piece


54




c.






Vanity mirror


16




b


is installed to the inner surface of outer cover


16


. Protruding part


24




f


is formed on the top of inner cover


24


, and will come into contact with vanity mirror


16




b


when outer cover


16


is closed, thus providing means securely closing inner cover


24


simultaneously with outer cover


16


. As shown in

FIGS. 12 and 13

, packing


29


is installed on the underside of inner cover


24


as a means of sealing the interior area of inner case


22


.




As shown in

FIGS. 13 and 14

, when outer cover


16


and inner cover


24


are closed, main latch mechanism


48


and sub-latch mechanism


50


are in a mutually latched condition with push-piece


54


being maintained in an outward position as a result of the pressure applied by plate springs


54




b


. In this condition, push-piece


54


and intermediate piece


56


allow release plate


56




a


to reside beneath inner cover


24


in a horizontal position through contact piece


54




c.






As shown in

FIGS. 15 and 17

, pressing push-piece


54


in an inward direction against the pressure applied by plate springs


45




b


will result in the release of main latch mechanism


48


. As a result of this same action, contact piece


54




c


moves rearward and pushes back drive part


56




b


of intermediate piece


56


, thus causing a upward rotating angular displacement of release plate


56




a


from pivot lip


56




c


. The increasing inclination of release plate


56




a


causes it to push up against inner cover


24


and release sub-latch mechanism


50


. Intermediate piece


56


itself does not release in an upward direction due to pawl


56




d


of drive part


56




b


being connected to notch


54




e


of contact piece


54




c.






This mechanism releases both main latch mechanism


48


and sub-latch mechanism


50


as a means of opening both outer cover


16


and inner cover


24


to provide access to cosmetic material P contained within refill case


20


. As a result of this structure, a simple one-push operation of push-piece


54


makes it possible to easily, conveniently, and simultaneously release two latching joint mechanisms.




Moreover, as intermediate piece


56


exists separately from inner cover


24


and push-piece


54


, intermediate piece


56


and push-piece


54


can be made from different materials and applied with different color treatments. This factor allows the appearance of push-piece


54


to easily conform to the external appearance requirements of cosmetic case


10


, and intermediate piece


56


to be fabricated in a manner which compliments the internal appearance of the cosmetic case. This factor also provides other advantages, such as the ability to fabricate intermediate piece


56


of a highly abrasion-resistant material so as to offer good durability, and the ability to fabricate push-piece


54


and intermediate piece


56


in various colors and surface finishes to allow for multiple design variations of cosmetic case


10


.




The employment of intermediate piece


56


provides other advantages, such as the ability to adjust the operation of push-piece


54


so as to attain the desired type of release action and the desired extent of inclination of release plate


56




a


and corresponding opening of inner cover


24


.





FIGS. 18 and 19

describe a modification of the structure of intermediate piece


56


as presented in the previous third embodiment in which pivot lip


56




c


was formed on the front lower edge of release plate


56




a


. In place of the aforesaid pivot lip


56




c


, this modified version provides for round pivot


56




e


to be formed as a spherical or cylindrical shape on the front lower edge of release plate


56




a


. Furthermore, pivot orifice


52




k


is formed as a support for round pivot


56




e


within cutout section


56




h


on inner tray


52


. As pivot orifice


52




k


is formed smaller than round pivot


56




e


and at its upper side, and larger than round pivot


56




e


at its lower side, pivot orifice


52




k


is able to securely maintain round pivot


56




e


at a fixed point from where said round pivot can rotate as the inclination angle of release plate


56




a


changes. This modification eliminates the need to employ pawl


56




d


of the third embodiment, and allows the lower part of intermediate piece


56


to be of simple shaft construction residing in slot


54




d


of contact piece


54




c.






As shown in

FIG. 19

, when push-piece


54


is depressed to open outer cover


16


and inner cover


24


, drive part


56




b


is displaced by pressure applied from connector piece


54




c


, thus causing release plate


56




a


to incline upward as a result of its rotation on round pivot


56




e


in pivot orifice


52




k.







FIGS. 20 through 24

present a fourth embodiment of the invention in which cosmetic case


10


is comprised of;




outer case


12


,




outer cover


16


open and closably installed to outer case


12


,




inner case


22


of refill case


20


, inner case


22


being installable or removable to first compartment


52




b


inner tray


52


,




inner cover


24


open and closably attached to inner case


22


,




main latch mechanism


48


installed between outer cover


16


and outer case


12


and forming an open and closable joint between outer cover


16


and outer case


12






sub-latch mechanism


50


installed between inner case


22


and inner cover


24


and forming an open and closable joint between inner case


22


and inner cover


24


,




push-piece


58


installed to outer case


12


and capable of operating in a manner as to release main latch mechanism


48


,




and flex piece


60


formed as an integral component extending inwardly from outer case


12


, residing between outer case


12


and inner cover


24


, and capable of releasing main latch


50


through a displaced movement provided by push-piece


58


.




Push-piece


58


is structured as a hollow body square in cross section, and installed in cutout section


12




e


of outer case


12


so as to be movable in the fore-aft direction. Push-piece


58


includes touch part


58




a


as the external operating part, has a width dimension approximately equal to width L


4


of cutout section


12




e


in outer cover


12


, and is able to tightly slide within cutout section


12




e


without looseness. Plate springs


58




b


are attached to each side of touch part


58




a


and are in contact with the front surface of inner tray


52


in a manner which maintains the position of touch part


58




a


within cutout section


12




e


. The tension applied by plate springs


58




b


maintain touch part


58




a


in an extended condition in relation to outer case


12


.




Second latch


48




f


is formed as an extension of outer cover


16


at the front center edge. First latch


48




e


is formed as an inward extension from the inner surface of touch part


58




a


. Second latch


48




f


and first latch


48




e


comprise main latch mechanism


48


. As shown in

FIG. 22

, when outer cover


16


is in a closed condition, second latch


48




f


extends through first orifice


52




m


formed in flange


52




e


of inner tray


52


, and forms a locked joint with first latch


48




e.






Second latch


50




f


is formed on the edge of the opening side of inner cover


24


, and first latch


50




e


is formed at the center of the right side of inner case


22


. Second latch


50




f


and first latch


50




e


form sub-latch mechanism


50


. When inner cover


24


is in a closed condition, second latch


50




f


forms a locked joint with first latch


50




e


to maintain inner cover


24


in a closed condition.




As shown by

FIG. 22

, flex piece


60


is positioned between inner cover


24


and push-piece


58


in a manner whereby the inward movement of push-piece


58


causes flex piece


60


to bend upwards and apply pressure against open inner cover


24


. Flex piece


60


is positioned within second orifice


52




n


formed to the rear of first orifice


52




m


of inner tray


52


, first orifice


52




m


being employed to provide passage for second latch


48




f


when outer cover


16


is closed. Flex part


60




a


is formed integrally with inner tray


52


through connector part


60




a


, and extends rearward within second orifice


52




n.






Block


58




c


is formed as a rearward protrusion of touch part


58




a


and incorporates inclined surface


58




d


on its rearward extremity, inclined surface


58




d


being oriented so as to be in contact with the lower part of flex piece


60


. The upper surface of flex piece


60


is in contact with the underside of inner cover


24


, and the lower surface is in contact with floor


12




b


of outer case


12


. Stopper


12




h


is formed on floor


12




b


of outer case


12


as a means of preventing flex piece


60


from falling.




As shown in

FIGS. 21 and 22

, when outer cover


16


and inner cover


24


are in a closed condition, corresponding main latch mechanism


48


and sub-latch mechanism


50


are closed and locked, and push-piece


58




a


is maintained in an extended position through the pressure applied by plate springs


58




b


(FIG.


23


). In this condition, the outer face of touch part


58




a


is on approximately the same plane as the front face of outer case


12


. Also, flex piece


60


is in a lowered position and in contact with inclined face


58




d


of operating block


58




c.






As

FIG. 24

demonstrates, applying pressure to push-piece


58


against the counter pressure provided by plate springs


58




b


will release main latch mechanism


48


while block


58




c


moves in a rearward direction applying inclined face


58




d


against flex piece


60


and thus causing flex piece


60


to rise upward. As stopper


12




h


prevents flex piece


60


from moving in a rearward direction, flex piece


60


rises upward as a result of the elastic bending of connector piece


60




a


and pushes against inner cover


24


to release sub-latch mechanism


50


. The release of sub-latch mechanism


50


and main latch mechanism


48


through this mechanism allows outer cover


16


and inner cover


24


to open.




Main latch


48


and sub-latch mechanism


50


can be thus sequentially released through the operation of push-piece


58


. As a single displaced movement of push-piece


58


is able to open both outer cover


16


and inner cover


24


, a remarkably easy and convenient mechanism is provided for opening a cosmetic case with an inner outer cover.




Specifically, as flex piece


60


operates as a component part of inner tray


52


installed on the main case side, inner tray


52


and flex piece


60


can be fabricated as a single piece, an advantage which reduces the number of required manufacturing processes, the number of components of which the cosmetic case is comprised, and the number of assembly processes needed to produce the cosmetic case. Moreover, as flex piece


60


is an integral part of inner tray


52


, flex piece


60


will not rattle, vibrate, or come loose within the cosmetic case structure.





FIGS. 25 and 26

describe other possible modifications of the flex-piece type of latch release mechanism.




First latch


48




e


of main latch mechanism


48


is not formed as part of the push-piece


48


, but as an integral component of outer case


12


, and therefore can be released by the forward movement of inclined piece


58




h


which is a integral component of push-piece


58


. Specifically, latch


12




i


is formed within cutout section


12




e


of outer case


12


. First latch


48




e


is formed as a protrusion on the upper extremity of latch


12




i


. Push-piece


58


is formed as an L-shaped structure comprised of operating part


58




e


and horizontal slide bar


58




f


. Inclined piece


58




h


protrudes out and inclines upward in a rearward direction from the rear surface of touch part


58




e


. The upper edge of inclined piece


58




h


is positioned against the front surface of first latch


48




e


and the lower edge of second latch


48




f


when both latches are forming a locked joint.




Slide bar


58




f


inserts through passageway


12




j


formed at the lower end of latch


12




i


. Inclined end surface


58




d


is formed on the extremity of slide bar


58




f


and contacts the lower end of flex piece


60


. Stop dog


58




g


is formed on the bottom surface of slide bar


58




f


and rides in guide channel


12




k


in floor


12




b


of outer case


12


so as to limit the amount of outward travel of push-piece


58


.




As shown by

FIG. 25

, depressing push-piece


58


when outer cover


24


is in a closed condition will result in inclined piece


58




h


riding up latch


12




i


, and as shown in

FIG. 26

, pushing up and releasing second latch


48




f


, and thereby releasing main latch mechanism


48


. At the same time, inclined surface


58




d


of slide bar


58




f


pushes up flex piece


60


(as previously discussed in the fourth embodiment), thereby releasing latch mechanism


50


.





FIGS. 28 through 37

present additional embodiments of the sealing mechanism applied to seal cosmetic container


22




a


. As discussed previously, refill case


20


is a replaceable type which can be installed to or removed from cosmetic case


10


and utilized as what is generally referred to as a “compact.”

FIGS. 28 through 30

illustrate the sealing mechanism as the previously discussed embodiment in which ring-shaped sealing ridge


30


, which is formed on the lower surface of inner cover


24


, applies pressure to the outer circumference of seal head


28




a


of sealing ring


28


.

FIGS. 31 through 34

illustrate a type of sealing mechanism whereby sealing ridge


30


, which is formed on the lower surface of inner cover


24


, applies pressure to the inner circumference of seal head


28




a


.

FIGS. 35 through 37

illustrate a sealing mechanism in which sealing ring


28


is installed to inner cover


24


, and sealing ridge


30


is formed on inner cases


22


.




In the

FIG. 28

structure, angle “θ2” of second inclined surface


34


, formed on sealing ridge


30


of inner cover


24


, is established as smaller than angle “θ1” of first inclined surface


32


(formed on seal head


28




a


of sealing ring


28


). This structure provides the same operating mechanism and effect as the aforementioned sealing mechanism embodiment. While the figure shows angle “θ2” of second inclined surface


34


as smaller than 90 degrees, this angle may also be established as larger than 90 degrees.





FIG. 29

shows a sealing structure in which a gap is formed on the upper surface of inner case


22


at the periphery of sealing ring


28


by means of upwardly facing ring-shaped protrusion


28




m


. Protrusion


28




m


defines the inner and outer areas of cosmetic container


22




a


, and is formed at a level higher than inner surface


22




e.






In this embodiment, space “δ” is formed between sealing ring


28


and ring-shaped ridge


28




m


as a means of preventing cosmetic material from collecting on the outer perimeter of cosmetic container


22




a.






In

FIG. 30

, ridge


28




m


is formed by means of separate ring piece


42


which is installed to the top perimeter of inner case


22


at the outer circumference of sealing ring


28


. Circular groove


22




n


is formed at the outer periphery of seal ring


28


as a means of providing installation space for separate ring piece


42


. Lip


42




s


is formed on the inner circumference of ring piece


42


and extends over sealing ring outer lip


28




d


as a means of retaining sealing ring


28


.




In this embodiment, ring piece


42


provides means of securing sealing ring


28


to inner case


22


by retaining said ring within groove


22




d


at the outer perimeter of sealing ring. This structure provides a more convenient means of installing sealing ring


28


as compared to the more difficult process of pressure inserting an elastic ring into a groove.




In the embodiment shown in

FIG. 31

, sealing ring


28


is installed within ring groove


22




d


formed at the outer perimeter opening of cosmetic container


22




a


, and first inclined surface


34


is formed on the upper inner periphery of sealing ring


28


. Ring-shaped sealing ridge


30


is formed on the underside of inner cover


24


at the inner periphery of sealing ring


28


, the outer circumference of ridge


30


being in pressure contact against second inclined surface


34


. First inclined surface


32


angle “θ1” is established as a larger angle than second inclined surface


34


angle “θ2”. The top of protruding part


22




p


is established at approximately the same height as the top of seal head


28




a


as means of preventing the outward deformation of seal head


28




a


. Compression ridge


44


is formed as a radial protrusion of inner cover


24


, is positioned at the top surface of seal head


28




a


, and will come into pressure contact with the top of seal head


28




a


when inner cover


24


is in a closed condition.




When inner cover


24


is in the process of closing, any cosmetic material, which may be adhering to second inclined surface


34


of inner cover


24


and first inclined surface


32


of sealing ring


28


, is removed as a result of the mutual abrasive rubbing action generated on surfaces


32


and


34


, thus providing an effective self-cleaning effect for the sealing mechanism. Moreover, when inner cover


24


is completely closed, compression ridge


44


is in pressurized contact with sealing ring


28


, thus creating an additional sealing point to increase the effectiveness of the sealing mechanism.





FIG. 32

presents a sealing mechanism in which second inclined surface


34


angle “θ2” on ridge


30


is established as a significantly larger angle than that of first inclined surface angle


32


on seal head


28




a


, angle “θ2” being so inclined as to form an approximate right angle. Moreover, angle “θ2” may be further established as exceeding 90-degrees.





FIG. 33

presents a sealing mechanism in which sealing ring groove


28




e


is formed on the upper outer periphery of sealing ring


28


opposite to first inclined surface


32


. Groove


28




e


results in a smaller adjacent sealing ring cross section, thereby aiding the elastic deformation within that area. Furthermore, groove


28




e


provides space “δ” within groove


22




d


as an area into which sealing ring


28


can elastically expand in an outward direction. This embodiment provides means for a highly efficient sealing effect for cosmetic container


22




a


whereby sealing ring


28


is allowed to elastically deform in an outward direction during the mutual abrasive rubbing action occurring between inclined surfaces


32


and


34


.





FIG. 34

describes a sealing mechanism whereby protruding part


22




p


is formed separately from inner case


22


by means of separate ring part


46


which is in contact with the outer circumference of sealing ring


28


. Groove


22




n


is formed at the outer circumference of sealing ring


28


to provide an installation space for ring part


46


. Lip


46




a


is formed on the upper inner perimeter of ring part


46


, and edge


28




f


on the upper outer circumference of sealing ring


28


, lip


46




a


serving as means of retaining sealing ring


28


through contact at edge


28




f.






In this embodiment, sealing ring


28


is effectively secured to inner case


22


by means of ring part


46


and groove


22




d


, ring part retaining sealing ring


26


at said ring's outer circumference. This structure also provides easier means of installing sealing ring


28


to inner case


22


as compared to the more difficult process of pressure inserting an elastic ring into a groove.





FIG. 35

describes a sealing mechanism in which ridge


30


is formed on the upper circumference and as an integral part of cosmetic container


22




a


. In this embodiment, sealing ring channel


24




c


is formed on the lower surface of inner cover


24


opposite to ridge


30


, and sealing ring


28


is installed to ring channel


24




c


. Seal head


28




a


is formed at the lower end of sealing ring


28


, first inclined surface


32


is formed on the outer circumference of sealing ring


28


. and second inclined surface


34


is formed on the inner periphery of ridge


30


opposite to first inclined surface


32


. First inclined surface


32


angle “θ1” is established as a smaller angle than that of second inclined surface


34


angle “θ2”. The upper surface of inner case


22


formed by ridge


30


resides at a higher point than surface


22




e


which is located at the lower inner periphery of ridge


30


. Edge


24




d


is formed at the lower inner perimeter of ring channel


24




c


at a position approximately equal to the lower extremity of seal head


28




a


, and functions so as to prevent the inward expansion of sealing ring


28


.




As a result of this structure, first inclined surface


32


on seal head


28




a


comes into contact with second inclined surface


34


on ridge


30


when inner cover


24


closes, and a mutual abrasive rubbing action is generated between surfaces


32


and


34


to remove any adhering cosmetic material off of ridge


30


and sealing ring


28


. Resultantly, this mechanism provides means of cleaning the sealing surfaces when inner cover


24


is closing.





FIG. 36

describes a sealing mechanism in which second inclined surface


34


angle “θ2”, formed on ridge


30


of inner case


22


, is established as an approximate right angle and as an angle greater than angle “θ1” of first inclined surface


32


on seal head


28




a


. In this case angle “θ2” may also be established as greater than 90-degrees.





FIG. 37

describes a sealing mechanism in which sealing ring groove


28




g


is formed on the inner circumference of seal


28


opposite to first inclined surface


32


. Ring channel


28




g


forms a smaller adjacent cross section within seal


28


thereby aiding in the seal's elastic deformation. Ring channel


28




g


also creates space “δ” which allows sealing ring


28


to deform in an inward radial direction. This structure provides increased sealing efficiency by utilizing the inward deformation of sealing ring


28


to improve the mutual abrasive rubbing action occurring between inclined surfaces


32


and


34


. Moreover, as sealing ring


28


is deformed in the inward direction as a result of the pressure applied by ridge


30


to seal head


28




a


, cutout section


24




e


, formed within edge part


24




d


, limits the sliding length of seal head


28




a


. This mechanism not only provides for a cosmetic material removal effect resulting from the mutually abrasive rubbing action between the sealing surfaces, but also establishes an appropriate level of elastic deformation to maximize the cleansing action.




The aforementioned embodiments of the cosmetic case invention as relating to the cutout section


12




d


provided for hinge part


26


of refill case


20


, the structures of container space


18


and ribs


18




e


, the configuration of container space


18


and orifice


12




f


, the sealing mechanisms formed by sealing ring


28


and ring ridge


30


, and the design of the push-piece assembly are not limited solely to the embodiments presented here, but encompass other embodiments and variants which may become apparent to those skilled in the art.





FIGS. 38 and 39

describe refill case


20


. The basic structure of refill case


20


is comprised of main body


62


on which cosmetic container


62




a


is formed, and cover part


64


rotatably installed to main body


62


so as to cover or reveal the inner area of cosmetic container


62




a


. Sealing ring


66


is installed around the peripheral opening of cosmetic container


62




a


formed within main body


62


, and expanded seal part


66




a


is formed on the outer periphery of sealing ring


66


. Cover


64


forms a joint with the outer periphery of sealing ring


66


by means of cylindrical rib


68


which has an inner diameter smaller than the outer diameter of expanded seal part


66




a


. While cover


64


is moving to a closed position, inner surface


68




a


of rib


68


simultaneously rubs against and compresses the largest external diameter area of expanded seal part


66




a


of sealing ring


66


.




Cover


64


is pivotably installed to main body


62


by means of hinge


26


so as to cover or expose the inner area of cosmetic container


62




a


. Latch


50


is employed at the front edge and between main body


62


and cover


64


as means of maintaining cover


64


in a closed condition. Outer hinge part


26




b


, formed as an extended section of the center rear part of cover


64


, is installed over inner hinge part


26




a


which is formed as an extended section of the center rear part of main body


62


. Hinge pin


26


is inserted through outer hinge part


26




b


and inner hinge part


26




a


. Hinge


26


is structured so as to provide sufficient play as means of allowing cover


64


to smoothly and evenly compress sealing ring


26


. Latch mechanism


50


is comprised of first latch


50




a


formed within recess


62




b


at the center front edge of main body


62


, and second latch


50




b


formed as an extension of cover


64


at the center front edge thereon. First latch


60




a


and second latch


50




b


interlock to form a secured latching mechanism when cover


63


is in a closed condition.




Sealing ring


66


is formed from rubber or other elastic material and is installed within channel


62




f


located around the external perimeter of the opening to cosmetic container


62




a


. Lower seal part


62




g


is formed at the bottom of sealing ring


66


and is inserted within lower channel


62




f


and compressed by inner walls


62




h


to prevent inner radial movement of the seal. Seal groove


66




c


is provided on the inner circumference of sealing ring


66


, opposite to expanded seal part


66




a


, to allow the inward radial deformation of expanded seal part


66




a.






The upper area of expanded seal part


66




a


is positioned in area


62




i


formed within ring channel


62




f


. The area between the largest external diameter of outer seal part


66




a


and inner wall of channel


62




f


defines space “δ2” into which cylindrical lip


68


enters as it compresses outer seal part


66




a


. As shown in

FIG. 40

, taper face


66




e


starts from top surface


66




d


of sealing ring


66


and inclines downward to form a diametrically increasing dimension. The cross section of outer seal part


66




a


turns inward sharply soon after the largest diameter formed by taper face


66




e


. While top surface


66




d


of sealing ring


66


is established at the same height as outer wall


62




c


of cosmetic container


62




a


, establishing said height a small amount over or under that of outer wall


62




c


will have no adverse effect.




Cylindrical rib


68


is structured as a low cylinder shape integral with bottom surface


64




a


of cover


64


, along a path prescribed by the contour of sealing ring


66


, and to a smaller inner diameter than the outer diameter of sealing ring


66


. As a result of these structures, rib


68


forms a joint at the outer circumference of sealing ring


66


by sliding over the sealing ring and compressing expanded seal part


66




a


. Chamfered section


68




b


is provided on the extremity of the inner circumference of rib


68


as a means of guiding rib


68


over sealing ring


66


.




When cover


64


is in a closed condition, inner wall


68




a


of cylindrical rib


68


is in pressure contact with the outer diameter of outer seal part


66




a


, and thus provides for an effective seal of cosmetic container


62




a


. This type of sealing mechanism is able to maintain cosmetic material P in a desirable and usable condition by preventing the evaporation of any solvents contained therein.




Moreover, as sealing ring


66


is in proximity to cosmetic container


62




a


, using a puff or other like implement to remove cosmetic material P from container


62


will commonly result in some of the cosmetic material falling onto the sealing ring. In this embodiment, the closing action of cover


64


will generate an abrasive rubbing action between rib


68


and expanded seal part


66




a


, a rubbing action which has the effect of removing any cosmetic material P which may have adhered to sealing ring


66


. With cover


64


in a closed condition, a tight and effective seal is provided as a result of the pressurization of expanded seal part


66




a


by cylindrical lip


68


at a sealing surface which has been cleaned of cosmetic material residue.





FIG. 41

describes a further embodiment of the sealing mechanism in which outer seal part


66




a


is formed as a partial round cross section around the perimeter of sealing ring


66


. Round channel


66




c


is formed on the inner periphery of sealing ring


66


as a similar cross section opposite to outer seal part


66




a


. This structure also provides for the formation of an abrasive rubbing action type of sealing action between the inner perimeter of cylindrical lip


68


and the outer circumference of outer sealing part


66




a


. An effective seal is formed for cosmetic container


62




a


as a result of outer seal part


66




a


being compressed by the inner circumference of cylindrical lip


68


on a sealing surface which has been cleaned of cosmetic material residue.





FIG. 42

describes a further embodiment of the sealing mechanism in which, similar to that shown in

FIG. 41

, outer seal part


66




a


is formed to partial round cross section. In this modification, however, step part


62




d


is formed at the upper area of wall


62




c


of cosmetic container


62




a


, the outer circumference of step


62




d


being formed lower than its inner circumference. Ring channel


62




e


is formed at the bottom of step


62




d


around the perimeter of wall


62




c


. The end of sealing ring


66


extends into step


62




d


along the entire circumference. Space “δ2” is formed in the area between the bottom of seal extension part


66




f


and step


62




d


. The tip of seal extension part


66




f


is secured within ring channel


62




e


. An inner area extending from extended seal part


66




a


to seal extension part


66




f


is open and separated from wall


62




c


by seal groove


66




c


and space “δ2”.




Compression ridge


64




b


is formed on lower surface


64




a


of cover


64


and opposed to upper surface


66




d


of seal extension part


66




f


. When cover


64


is in a closed condition, ridge


64




b


compresses seal extension part


66




f


. As compression ridge


64




b


applies pressure on upper surface


66




d


of seal extension part


66




b


when cover


64


is closed, this pressure has the effect of further outwardly deforming outer seal part


66




a


, and thereby applying still further pressure against perimeter wall


68




a


of rib


68


. The mechanism provides a further improvement insealing efficiency.





FIG. 43

describes a sealing structure similar to that shown in FIG.


42


. Expanded seal part


66




a


is formed to partial round cross section, and top surface


66




d


extends along step


62




d


of wall


62




c


at the perimeter of cosmetic container


62




a


. Space “δ3” is formed between seal extension part


66




f


and step


62




d


, and the leading extremity of seal extension part


66




f


is secured within channel


62




e.






In this embodiment, compression ridge


66




b


is formed on the upper surface of seal extension part


66




f


in proximity to underside


64




a


of cover


64


. When cover


64


is in a closed condition, ridge


66




b


compresses seal extension part


66




f


. As ridge


66




b


provides for increased compression pressure on the upper surface of seal extension part


66




f


when cover


64




b


is closed, this pressure has the effect of further outwardly deforming outer seal part


66




a


, and thereby applying still further pressure against perimeter


68




a.






While all of the aforementioned embodiments describe sealing ring


66


as being installed to main body


62


, and cylindrical rib


68


to cover


64


, it is also possible, and in certain cases may be preferable, to install sealing ring


66


to cover


64


and cylindrical rib


68


. to main body


62


around the perimeter opening cosmetic container


62




a.







FIG. 44

presents a further embodiment of the cosmetic case invention in which refill case


20


is comprised of main case


70


, as the cosmetic material containing space, and cover


72


which is capable of sealing said material containing space. As previously discussed, refill case


20


is a replaceable type capable of insertion to and removal from a main cosmetic case, and is further usable independently as what is commonly referred to as a compact. Main case


70


and cover


72


may be fabricated from polypropylene or other synthetic resin material. Recessed part


26




a


and extending part


26




b


are correspondingly formed on main case


70


and cover


72


, and hinge pin


26




c


is inserted through outer hinge part


26




b


and inner hinge part


26




a


as means of pivotably attaching cover


72


to main case


70


. First latch


50




a


and second latch


50




b


are provided at the opposite side or main case


70


and cover


72


from the hinge, both of said latch pieces being mutually connectable as means of maintaining cover


72


in a closed condition.




Cosmetic container


70




a


is formed as a flat bottomed round space within main case


70


, and is filled with cosmetic material P which may include a large proportion of evaporable solvent material.




Sealing ring


28


is installed to inner surface


72




a


of cover


72


, may be comprised of rubber or other similar elastic material, and is formed to provide an opening larger than that of cosmetic container


70




a


. When cover


72


is in a closed condition, sealing ring


28


provides a pressure seal against the upper perimeter of main case


70


around the opening to container


70




a


. Sealing ring


28


maintains the internal area of main case


20


in a sealed condition at this time.




Concave surface


74


is formed within the perimeter of sealing ring


28


on inner surface


72




a


of cover


72


, and is of partial hemispherical shape. Curved inclined surface


74




c


is a radially expanding dome shape defined by ceiling part


74




a


and lower periphery


74




b


. The flat area at the perimeter of concave surface


74


is formed to the approximate same contour as that of cosmetic container


70




a


. When cover


72


in a closed condition, peripheral part


74




b


of concave surface


74


is positioned directly above peripheral part


70




b


of cosmetic container


70




a.







FIGS. 45 and 46

describe a first embodiment of the mechanism which prevents condensation droplets from falling onto the cosmetic material surface. The placement of refill case


20


in a high temperature environment will hasten the evaporation of oil-based or other solvent components within cosmetic material P. Evaporated solvents are contained within the internal space of refill case


20


due to the sealing effect provided by sealing ring


28


until the ambient temperature falls, thus resulting in the cooling of refill case


20


and the condensation of the aforesaid solvents into multiple droplets that collect on inner surface


72




a


of cover


72


.




Continuous condensation of the evaporated solvents will result in an increase of droplets D collecting on cover recess


74


. Before dropping onto the cosmetic material, however, droplets D will flow, as shown in

FIG. 46

, from ceiling part


74




a


to outer perimeter


74




b


in an outward radial direction along curved inclined surface


74




c


. Upon reaching outer perimeter


74




b


, the lowest point on the inside of cover


72


, droplets D will then fall onto the outer peripheral area of cosmetic material P.




In this manner, the flow of droplets D is controlled along curved inclined surface


74




c


to outer perimeter


74




b


, and thus droplets D are prevented from falling onto the center area of cosmetic material P. This mechanism results in the surface condition of material P being maintained in a visually pleasing, usable, and unadulterated condition.




Space S is formed between cosmetic material P and the inner perimeter of cosmetic container


70




a


as a result the shrinkage of cosmetic material P resulting from solvent evaporation. As this embodiment establishes the position of outer perimeter


74




b


of concave surface


74


and outer perimeter


70




b


of cosmetic container


70




a


at the same location, droplets D forming on concave surface


74


will flow to the perimeter area, fall into space S, and be eventually absorbed back into cosmetic material P.





FIGS. 47 and 48

describe a further embodiment of the mechanism to prevent the fall of condensation droplets within the refill case. In this embodiment, radially oriented grooves are formed on concave surface


74


as means of guiding condensation droplets to the peripheral area. As shown in

FIG. 48

, concave surface


74


is formed on inner surface


72




a


of cover


72


, and a round recessed area is formed at ceiling part


74




a


. Radial channel


74




b


is formed as a ring-shaped recess at the perimeter of concave surface


74


. Multiple radially dispositioned grooves


74




d


are formed on inclined concave surface


74




c


and connect to the aforesaid ring-shaped recess.




As a result of refill case


20


being structured in this manner, condensation droplets forming on concave surface


74




c


flow radially outward within grooves


74




d


to radial channel


74




b


. Droplets collecting in radial channel


74




b


then fall back onto the peripheral area of cosmetic material P, and are thus prevented from falling onto the center area.




Moreover, grooves


74




d


on concave surface


74


provide a larger surface area compared to a flat dome surface, thus promoting the condensation of solvent droplets within grooves


74




d


. Furthermore, as grooves


74




d


provide an enlarged surface area for the collection of condensation droplets, more droplets can be formed with out the risk of prematurely falling. Moreover, radial grooves


74




d


generate a smooth and controlled flow of droplets along concave surface


74


to perimeter


74




b


where said droplets are disposed of.




While this embodiment prescribes refill case


20


as incorporating radial grooves


74




d


, these grooves can also be established as a stepped grooves following the radial contours of the inclined surface. This type of structure will also provide an effective condensate droplet disposal function as will other types of groove formations.





FIGS. 49 and 50

describe a modification of refill case


20


in which circumferential compartments are formed between the radial grooves shown in the

FIG. 47

embodiment. In the

FIG. 49

embodiment, concave surface


74


is formed on inner surface


72




a


of cover


72


, and in addition to multiple radial grooves


74




d


, a multiplicity of concentric circular ridges form compartments


74




e


on inclined surface


74




c


with ceiling part


74




a


defining the center.




Thus structured, refill case


20


provides a mechanism by which condensation droplets not only flow along radial grooves


74




d


for disposal at perimeter


74




b


, but are also more efficiently collected by means of concentric circumferential compartments


74




e


. This structure of grooves


74




d


and compartments


74




e


also enlarges the effective surface area, thus propagating the condensation of evaporated solvents, preventing the premature falling of droplets onto the cosmetic material surface, and aiding the smooth flow of droplets along concave surface


74


to perimeter


74




b.







FIG. 51

presents a further embodiment in which refill case


20


incorporates a separate concave part installed to the inner surface of cover


72


. In this embodiment, recess


72




b


is formed on inner surface


72




a


of cover


72


, and sealing ring


76


and concave plate


77


are installed to recess


72




b


. Concave plate


77


is a concave disc form with a raised center section, positioned at the center of ceiling part


77




a


, and thereby establishes inclined surface


77




c


from the aforesaid ceiling part to plate perimeter


77




b


. Ring-shaped rib


77




e


is formed on plate perimeter


77




b


of concave plate


77


.




Concave plate


77


is inserted against the inner perimeter of sealing ring


76


and attached to recess


72




b


on the lower surface of cover


72


. Inner flange


76




a


is formed at the base of sealing ring


76


. Rib


77




e


, which extends upward from concave plate


77


, is secured to recess


72




b


formed in cover


72


, thus pressing seal inner flange


76




a


against the inner periphery of the inner cover.




The previous embodiment of refill case


20


described a structure in which concave surface


74


was formed on inner surface


72




a


as an integral part of cover


72


. As a result of this structure, the material thickness of cover


72


steadily increases in a radial direction extending from ceiling part


74




a


to perimeter


74




b


. Resultingly, a significantly large amount of material is required to form cover


72


at the perimeter


74




b


region, specifically in cases where concave surface


74


has a deep concave cross section, thus posing problems in regard to the fabrication process and resin-forming dies needed to manufacture cover


72


. It thus becomes relatively difficult to form a concave surface


74


to a deep concave cross section using the aforesaid integral structure. If, however, the lower surface of cover


72


is formed as a separate component, the thickness of cover


72


has no relation to the inclination angle of its lower surface. Therefore, the lower surface can be made to a desirably large inclination to provide for an effective condensate droplet disposal mechanism within the cover.




As the contact area between the lower surface of cover


72


and concave plate


77


is relatively small, space F is formed between both structures, thus providing an insulating effect for the internal area of refill case


20


in regard to changes in external ambient temperature. The result of this effect is that condensation within refill case


20


is, to a certain extent, inhibited. Furthermore, an insulating material can be inserted within space F as a means of still further suppressing the condensation resulting from evaporated solvents.




Moreover, differing from the previous embodiments, the separate construction of concave plate


77


and cover


72


allows these components to be made from different materials. For example, a material for concave plate


77


can be selected not according to the appearance or decorative requirements of the cover, but according the insulation effect needed to suppress condensation within the case.




While the aforementioned embodiments have described the concave lower surface of cover


72


as a round shape, other shapes such as oblong, square, or rectangular shapes can effectively make use of the structures and mechanisms provided by the invention. While the aforementioned embodiment shave shown the highest point of the concave surface as oriented in the center of the cover, said highest point can also be located at other areas within the cover. While the aforementioned embodiments have presented the inclined cover lower surface as a curved concave plane, a straightly inclined lower surface such as an umbrella form, cone form, or other like formation may also be employed.





FIGS. 52 and 53

describe another embodiment of refill case


20


in which main case


70


incorporates cosmetic container


70




a


formed to approximate square shape in the center of refill case


20


. Cover


72


is pivotably installed to the upper external surface of refill case


20


, and is secured to refill case


20


by means of outer hinge part


26




b


and second latch piece


50




b


, said latch piece being of integral structure to external cover


78


. When cover


72


is in a closed condition, external cover


78


is in contact with the upper surface of refill case


20


, and inner cover plate


80


is oriented directly above cosmetic material P. Upper surface


78




a


of external cover


78


is the part of the refill case exposed to the environment. Condensation space Q is provided at lower surface


78




b


of external cover


78


and upper surface


80




a


of inner cover plate


80


. Internal space R is provided between inner surface


80




b


of inner cover plate


80


and the surface of cosmetic material P.




A matrix pattern of multiple ventilation orifices


80




d


are formed within inner cover plate


80


as means of connecting condensation space Q and internal space R. Circular lip


80




d


is formed at peripheral part


80




c


of inner cover plate


80


.




Sealing ring


76


is installed at the upper surface of inner cover plate


80


at peripheral part


80




c


. Sealing ring


76


is of compliant rubber or other elastic material construction and is structured so as to include ring upper perimeter


76




b


and ring flange


76




a


. Sealing ring


76


has a diametric dimension larger than that of cosmetic container


70




a


, and comes into pressure contact with refill case


20


when cover


72


is in a closed condition. Ring flange


76




a


is compressed by peripheral part


80




c


of inner cover plate


80


. Therefore, sealing ring


76


can be secured to outer cover


72


by means of employing an ultra-high frequency welding or other process to join lip


80




d


of inner cover plate


80


to lower surface


78




b


of external cover


78


.




The following discussion will deal with the capability of refill case


20


to prevent the fall of droplets formed on the inner cover surface through condensation as a result of the presence of evaporated solvents.




Fumes generated as a result of solvent evaporation within space R are not only present within space R, but will travel to condensation space Q through ventilation holes


82


provided in the inner cover. Therefore the solvent fumes are able to condense on lower surface


78




b


of external cover


78


as well as upper and lower surfaces


80




a


and


80




b


of inner cover plate


80


. This structure provides three times the condensation surface area compared to that of a single surface cover.




Therefore, considered in terms of a specific volume of evaporable solvent existing within the cosmetic substance, the condensation propagation capability provided by lower surface


80




c


of inner cover plate


80


is reduced by two thirds as a result of lower surface


78




b


(on external cover


78


) and upper surface


80




a


(on inner cover plate


80


) existing within the same space. Moreover, condensation droplets forming within space Q are further prevented from dropping on cosmetic material P as a result of their collecting on surface


80




a


which is on top of inner cover plate


80


. As a result of this structure, the fall of condensation droplets onto cosmetic material P is not only significantly reduced, but the excess formation of said droplets within a limited enclosed space is prevented.




As upper surface


78




a


of external cover


78


is exposed to the environment, the temperature of said surface will change in relation to external temperatures to a greater extent than inner cover plate


80


, thus promoting the condensation of solvent droplets on lower surface


78




b


. Therefore, a major proportion of condensed solvent will collect within condensation space Q, and the condensation taking place within space R will be decreased with a resultant lesser chance of droplets falling onto the cosmetic material.





FIGS. 54 and 55

present further embodiments regarding the structure of the ventilation orifices.

FIG. 54

illustrates lip


84


being formed as a raised step structure extending upward from the upper perimeter of orifice


82




a


. Lip


84


prevents condensation droplets formed on upper surface


80




a


(inner cover plate


80


) from easily falling through the orifice and collecting on cosmetic material P.





FIG. 55

depicts a structure in which orifice


82




b


is formed as a tapered cone in cross section as resulting from the diameter of orifice wall


86


increasing steadily from upper surface


80




a


to bottom surface


80




b


. As the diameter of the orifice is smaller on upper surface


80




a


, condensation droplets accumulating on upper surface are prevented from easily falling through the orifice. As an additional structure to this mechanism, a drain channel can be formed within cover


72


as a means of guiding condensation droplets back to cosmetic material P at a desirable location.





FIGS. 56 and 57

present an additional embodiment of the ventilation orifices prescribed by the invention. In the

FIG. 56

embodiment, ventilation orifices


82




c


are formed as multiple slits radially disposed so as to extend outward from the center of inner cover


80


. In the

FIG. 57

embodiment, multiple slits


82




d


are formed within inner over


80


in parallel lines. As the aforementioned embodiments illustrate, the ventilation orifices employed within cover


72


can be formed in any number of shapes and disposed in any number of patterns and still provide the benefits set forth by the invention.




A second embodiment of the condensation droplet control mechanism prescribed by the invention is presented in

FIG. 58

in which a structure is formed in the central region of inner cover plate


80


opposed to external cover


78


. Cylindrical ridge


80




c


is formed in the center of upper surface


80




a


of inner cover plate


80


, and is installed within protruding part


78




c


formed on lower surface


78




b


of external cover


78


. Thus, cylindrical ridge


80




c


and protruding part


78




c


serve as means of attaching inner cover plate


80


to external cover


78


. The height of condensation space Q is therefore determined by the height of cylindrical ridge


80




c


or protruding part


78




c


. As a result of this attachment structure, ventilation orifice


82




e


can be formed as a space between the peripheral edge of inner cover plate


80


and external cover


78


, and thus serves as means of connecting condensation space Q and space R.




Sealing ring


28


is secured to the inner periphery of external cover


78


beyond the peripheral edges of inner cover plate


80


, and is formed to a diameter greater than that of cosmetic container


70




a


, thereby forming a pressure seal between cosmetic container


70




a


and cover


78


when cover


78


is closed, and thus effectively isolating space R and condensation space Q from the external environment.




As this type of structure establishes ventilation orifice


82




e


at the perimeter of inner cover plate


80


, opening cover


72


will expose lower surface


80




b


as a continuous flat surface, and thus enhance the appearance of refill case


20


when in an open condition.




As compared to the previous embodiment, this embodiment forms a smaller attachment area between inner cover plate


80


and external cover


78


, a characteristic which has the effect of decreasing the extent of temperature change of inner cover plate


80


in relation to the temperature change of external cover


78


. As a result, the formation of condensation droplets on lower surface


80




b


(on inner cover plate


80


) is inhibited, and there is less change of condensation droplets falling onto cosmetic material P.





FIG. 59

presents a third embodiment of the droplet prevention mechanism prescribed by the invention whereby the aforesaid inner cover plate is integrated to the refill case cover in a manner as to become an integral component of refill case


20


. In this embodiment, external cover


78


forms a separate outer surface of the refill case, and second latch piece


50




b


and outer hinge part


26




b


are formed as integral components of inner cover plate


80


. Upper surface


80




a


of inner cover plate


80


is recessed so as to create condensation space Q beneath lower surface


78




b


of external cover


78


. Space R is formed between lower surface


80




b


of inner cover plate


80


and the surface of cosmetic material P. Multiple orifices


82


are formed in inner cover plate


80


as a means of connecting spaces R and Q.




Sealing ring


88


is secured within the outer periphery of cosmetic container


70




a


. Closing cover


72


will form a pressure seal between the upper edge of sealing ring


88


and lower surface of inner cover plate


80


, thus effective isolating space R and condensation space Q from the external environment.




Incorporating latch piece


50


B and outer hinge part


26




b


, and their corresponding functions, as integral components of inner cover plate


80


allows external cover


78


to be installed to inner cover


80


as a separate and non-structural component of the refill case. Therefore, external cover


78


can be fabricated to a desirable external appearance before attachment to inner cover plate


80


, and thus be employed as a separate decorative component. External cover


78


can be separately constructed from various materials and decorated in various ways, thus providing means to change the external appearance of the refill case without changing the underlying structure.




While the refill case embodiments presented here have been of approximate square shape, it is obvious that the refill case can also be formed to round, oblong, or other shapes without effecting the structures and mechanisms prescribed by the invention. While the refill case embodiments presented here have shown a cosmetic container directly fillable with a cosmetic material, a tray-type cosmetic material refill element can also be employed as means of placing a cosmetic material into the cosmetic container.





FIGS. 60 and 61

present another embodiment of the refill case in which multiple groove lines


90


are formed on inner surface


72




a


of cover


72


within the perimeter of sealing ring


28


. As shown in cross section in

FIG. 61

, groove lines


90


form square linear channels on inner surface


72




a


, are parallel with hinge pin


26




c


, and cover the area directly above cosmetic material.




This structure is also capable of preventing condensation droplets on the inner surface of the cover from falling onto the cosmetic material beneath. As groove lines


90


provide for a larger surface area of inner surface


72




a


compared to a flat surface of the same dimensions, there is a lesser volume of potential condensate for each unit of surface area, a factor which inhibits the condensation of droplets on inner surface


72




a.






As shown in

FIG. 62

, solvent fumes condense into droplets D on surface


72




a


, and collect in the corners of groove lines


90


as a result of the liquid surface tension effect. As droplets D in groove lines


90


are prevented from joining with droplets in adjacent grooves, the formation of larger and heavier condensation droplets is inhibited, and the chances of droplets falling on the surface of the cosmetic material reduced. Moreover, as cover


72


stands vertically when the refill case is open, the horizontal orientation of grooves


90


prevents condensation droplets D from falling, and thus lessens the chances of the droplets from coming into contact with the hands of the person using the cosmetic case.




The closing action of cover


72


poses the risk of droplets D in grooves


90


moving in a manner as to connect with adjacent droplets to form larger and heavier droplets, and thus increasing their chances of falling from the peripheral edges of inner surface


72




a


onto the cosmetic material. To prevent this, inner surface


72




a


is made to a larger surface area than cosmetic container


70




a


. Any droplets that fall will land on the upper surface of main case


70


and adhere to the contact part of sealing ring


28


as a result of the liquid surface tension effect. This mechanism prevents droplets from moving to the surface area of cosmetic material P, and thus serves as another means of preventing condensation droplets from falling onto cosmetic material P.




Moreover, any cosmetic material adhering to inner surface


72




a


can be easily removed from grooves


90


by wiping with a cloth or tissue, thus maintaining the pleasing and desirable appearance of both cosmetic material P and inner surface


72




a.






While the

FIG. 2

embodiment describes groove lines


90


formed on inner surface


72




a


as square in cross section, protruding square ridges


90




a


such as shown in

FIG. 63

will provide the same effect. Moreover, round grooves


90




b


such as shown in

FIG. 64

, or round protruding ridges


90




c


such as shown in

FIG. 65

will further provide the same effect. Employing round grooves or round ridges such as these eliminates the angular groove corners, and thus makes it easier to wipe the surface without catching the aforesaid cloth or tissue on the ridges.





FIG. 66

presents a further embodiment of the interior of refill case


20


. While the previous embodiment provided for multiple grooves


90


as being oriented in a parallel line pattern on inner surface


72




a


, the

FIG. 66

embodiment provides for groove lines


90




d


formed as multiply repeated concentric square shapes extending from the center of inner surface


72




a


and conforming to the shape of cover


72


. In other words, the length of each groove is longer than the length of the adjacent inner groove positioned closer to the center of cover


72


.




Groove lines


90




d


inhibit the formation of large droplets by preventing condensation droplets from passing over from one groove to the next, and thus repress the fall of condensation droplets on cosmetic material P. Moreover, the square shape of each groove eliminates open groove ends and therefore makes it difficult for droplets to fall, even when refill case


20


is in an inclined orientation.





FIG. 67

describes a still further embodiment of refill case


20


in which cosmetic container


70




a


is formed as a round space within main case


70


, and is filled with cosmetic material P. Sealing ring


28


is also of a round shape approximately corresponding to the size of the perimeter opening of cosmetic container


70




a


, an is installed to the inner surface of cover


72


. When cover


72


is in a closed condition, sealing ring


28


comes into pressure contact with the upper surface of main case


70


around the perimeter of cosmetic container


70




a.






Multiple concentric circular grooves


90




e


are formed on inner surface


72




a


within the area defined by sealing ring


28


, and extend repeatedly in an outward direction from the center of inner surface


72




a


. This structure maintains the position of condensation droplets which may form on inner surface


72




a


, and prevents said droplets from becoming larger by joining with adjacent droplets. Thus, the fall of condensation droplets onto cosmetic material P is inhibited.




Furthermore, as circular grooves


90




e


have no ends from which condensation droplets can escape, the fall of droplets is further inhibited even when refill case


20


is inclined at an angle. Moreover, as grooves


90




e


are smooth and continuous, any cosmetic material P adhering to inner surface


72




a


may be easily removed.





FIGS. 68 and 69

present an additional embodiment of refill case


20


in which multiple dimples


92


are formed within the perimeter of sealing ring


28


on inner surface


72




a


of cover


72


. As

FIG. 69

describes, dimples


92


are multiple hemispherical depressions formed in a matrix pattern on inner surface


72




a


. The area covered by dimples


92


is directly opposed to cosmetic material container


70




a


when cover


72


is closed.




This structure also provides means for preventing the fall of condensation droplets within refill case


20


. Dimples


92


have the effect of increasing the surface area of inner surface


72




a


over an equivalent flat surface of the same external dimensions. As. a result of this increased surface area, there is a lesser volume of potential condensate in relation to each unit of surface area. This effect inhibits the condensation of droplets on inner surface


72




a.






As shown in

FIG. 70

, any condensation droplets D forming on inner surface


72




a


will be maintained within dimples


92


as a result of the liquid surface tension effect. As dimples


92


form hemispherical voids, a relatively large surface area on each droplet is able to form contact with the concave surface of the dimple, a characteristic which further inhibits the fall of the droplet from the dimple. Even in cases where droplets D become relatively large, the corresponding increase in surface area and the liquid surface tension effect operate to adhere the droplets within the dimples and prevent droplets from falling onto cosmetic material P.




Dimples


92


are mutually arranged so as to form specific gaps there between, the dimensions of which can be determined according to the predicted extent of evaporation of the solvent existing within cosmetic material P. The gaps can be made narrower, and the number of dimples increased, in cases where there is a large amount of solvent evaporation. Conversely, the gaps can also be made wider, and the number of dimples decreased, in cases where there is a smaller amount or solvent evaporation.




While the embodiment presented here describes dimples


92


as arranged in a matrix pattern, said dimples can also be arranged in concentric circles, placed in radial alignment, or oriented in any number of possible patterns. Moreover, dimples


92


maybe further varied in size as a means of providing a pleasing decorative pattern on inner surface


72




a.






Moreover, dimples


92


may be formed as integral depressions within inner surface


72




a


, or may be formed on a separate plate which can be installed to inner surface


72




a.







FIG. 71

presents an additional embodiment of the dimple structure in which multiple hemispherical ridges


92




a


are formed on inner surface


72




a


as means of increasing the surface area, thereby reducing the amount of solvent capable of condensing on a specific unit of surface area and thus inhibiting the formation of condensation droplets.




Furthermore, in this embodiment of inner surface


72




a


, flat angular corners are not formed in the depressions between hemispherical ridges


92




a


. As a result, any adhered cosmetic material may be easily removed with a cloth, tissue, or other cleaning implement without said cloth, tissue, or other cleaning implement catching on inner surface


72




a


, and thus the structure provides for an easy means of removing any adhered cosmetic material or condensation droplets from inner surface


72




a.





Claims
  • 1. A cosmetic case, comprisingan external case which encloses a container space; an external cover part attached to said external case, said external cover part being capable of covering or exposing said container space; a main latch mechanism installed between said external cover part and said external case, said main latch mechanism being capable of joining or releasing said external cover part to or from said external case; a replaceable container capable of being installed to or removed from said container space, said replaceable container comprising: a) a cosmetic material holding part formed within a container body, b) a container cover part attached to said container body by means of a hinge part, said container cover part being capable of exposing or covering said cosmetic material holding part, and c) a sub-latch installed between said container cover part and said container body, said sub-latch being capable of joining or releasing said container cover part to or from said container body; and a single-action release mechanism pivotably installed to either said external case or said external cover part, said release mechanism being capable of simultaneously releasing the joints maintained by said main latch mechanism and said sub-latch, wherein said hinge part of said replaceable container projects outward from said container body on a side opposite from said sub-latch; said container space is defined within said external case by means of a floor part and a perimeter wall encompassing said floor part, said container space being formed of larger dimensions than the external dimension of said replaceable container; a cutout section is provided within said perimeter wall for installing said hinge part within said perimeter wall, said hinge part being exposed from said external case in an installed condition; and said release mechanism comprising a push-piece to which external pressure is manually applied as a means of operation; d) one part of said push-piece being equipped with a first release part having a first purpose of releasing said main latch joint and a second purpose of pushing said external cover part upwardly; and e) one part of said push-piece being equipped with a second release part having a first purpose of releasing said sub-latch joint and a second purpose of pushing said container cover part upwardly, said second release part extending into said container space.
  • 2. A cosmetic case as set forth in claim 1, wherein said first release part of said push-piece is installed between said external case and said external cover part as a means of releasing said main latch and of pushing said external cover part upwardly through an opposing operating pressure applied between said external case and said external cover part;and said second release part of said push-piece is installed between said external case and said container cover part as a means of releasing said sub-latch and of pushing said container cover part upwardly through an opposing operating pressure applied between said external case and said container cover part.
  • 3. A cosmetic case as set forth in claim 1, wherein a slightly projecting lip part is formed within said container space for establishing and maintaining the position of said replaceable container within said container space.
  • 4. A cosmetic case as set forth in claim 1, wherein an orifice is formed in said floor part as means for allowing said replaceable container to be pushed out of said container space.
  • 5. A cosmetic case as set forth in claim 4, wherein an inner perimeter of said orifice is of the same contour as an outer perimeter of said replaceable container.
  • 6. A cosmetic case, comprising an external case which encloses a container space;an external cover part attached to said external case, said external cover part being capable of covering or exposing said container space; a main latch mechanism installed between said external cover part and said external case, said main latch mechanism being capable of joining or releasing said external cover part to or from said external case; a replaceable container capable of being installed to or removed from said container space, said replaceable container comprising: a) a cosmetic material holding part formed within a container body, b) a container cover part attached to said container body by means of a hinge part, said container cover part being capable of exposing or covering said cosmetic material holding part, and c) a sub-latch installed between said container cover part and said container body, said sub-latch being capable of joining or releasing said container cover part to or from said container body; and a single-action release mechanism installed to either said external case or said external cover part, said release mechanism being capable of simultaneously releasing the joints maintained by said main latch mechanism and said sub-latch, wherein said hinge part of said replaceable container projects outward from said container body on a side opposite from said sub-latch; said container space is defined within said external case by means of a floor part and a perimeter wall encompassing said floor part, said container space being formed of larger dimensions than the external dimension of said replaceable container; a cutout section is provided within said perimeter wall for installing said hinge part within said perimeter wall, said hinge part being exposed from said external case in an installed condition; and said release mechanism comprising: a push-piece displaceably installed to either said external case or said external cover part, said push-piece being employed to release said main latch by means of applied operating pressure; and an intermediate piece pivotably installed within said container space, said intermediate piece operating as an extension of said push-piece, and having a first purpose of releasing said sub-latch and a second purpose of pushing at least said container cover part upwardly.
  • 7. A cosmetic case as set forth in claim 6, wherein said push-piece is installed between said external case and said external cover part as a means of releasing said main latch and of pushing said external cover part upwardly through an application of an opposing operating pressure between said external case and said external cover part;and said intermediate piece is pivotably installed between said external case and said container cover part as a means of releasing said sub-latch and of pushing said container cover part upwardly through an application of an opposing operating pressure between said external case and said container cover part.
  • 8. A cosmetic case as set forth in claim 6, wherein said main latch is formed as an integral projecting part of said push-piece, said projecting part operating in a manner so as to separate either said external case or said external cover part from the opposing case or said cover part as a means of releasing said main latch;and said intermediate piece is pivotably installed between said external case and said container cover part as a means of releasing said sub-latch and of pushing both said container cover part and said external cover part upwardly through an application of an opposing operating pressure between said external case and said container cover part.
  • 9. A cosmetic case as set forth in claim 6, wherein said intermediate piece is formed as an integral part of said external case.
  • 10. A cosmetic case as set forth in claim 6, wherein a slightly projecting lip part is formed within said container space for establishing and maintaining a position of said replaceable container within said container space.
  • 11. A cosmetic case as set forth in claim 6, wherein an orifice is formed in said floor part as means for allowing said replaceable container to be pushed out of said container space.
  • 12. A cosmetic case as set forth in claim 11, wherein an inner perimeter of said orifice is of the same contour as an outer perimeter of said replaceable container.
Priority Claims (4)
Number Date Country Kind
9-214523 Aug 1997 JP
9-218452 Aug 1997 JP
9-226688 Aug 1997 JP
10-14386 Jan 1998 JP
REFERENCE TO RELATED APPLICATION

This application is a continuation of Ser. No. 09/107,178 filed Jun. 29, 1998, now U.S. Pat. No. 6,192,895.

US Referenced Citations (13)
Number Name Date Kind
1626613 Kendall May 1927 A
2054004 Sandberg Sep 1936 A
2078096 Parkin Apr 1937 A
2137886 Zell Nov 1938 A
2399997 Flaster May 1946 A
4369799 Napoleon Jan 1983 A
4989622 Kozuka et al. Feb 1991 A
5353818 Suzuki et al. Oct 1994 A
5875795 Bouix Mar 1999 A
5908037 Peirson Jun 1999 A
6076679 Yuhara et al. Jun 2000 A
6129089 Yuhara Oct 2000 A
6138686 Yuhara Oct 2000 A
Foreign Referenced Citations (17)
Number Date Country
0804382 Oct 1936 FR
58-40003 Mar 1983 JP
63-28407 Feb 1988 JP
7-11697 Mar 1995 JP
7-184717 Jul 1995 JP
8-347 Jan 1996 JP
8-348 Jan 1996 JP
8-38242 Feb 1996 JP
8-196337 Aug 1996 JP
9-37838 Feb 1997 JP
9-37839 Feb 1997 JP
9-47319 Feb 1997 JP
9-56452 Mar 1997 JP
9-65920 Mar 1997 JP
9-98828 Apr 1997 JP
9-98829 Apr 1997 JP
9-140442 Jun 1997 JP
Continuations (1)
Number Date Country
Parent 09/107178 Jun 1998 US
Child 09/688231 US