EP3520649B1 - Thin film affixing device - Google Patents
Thin film affixing device Download PDFInfo
- Publication number
- EP3520649B1 EP3520649B1 EP17855554.6A EP17855554A EP3520649B1 EP 3520649 B1 EP3520649 B1 EP 3520649B1 EP 17855554 A EP17855554 A EP 17855554A EP 3520649 B1 EP3520649 B1 EP 3520649B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- thin film
- application device
- image
- frame
- user
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Links
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Images
Classifications
-
- A—HUMAN NECESSITIES
- A45—HAND OR TRAVELLING ARTICLES
- A45D—HAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
- A45D44/00—Other cosmetic or toiletry articles, e.g. for hairdressers' rooms
- A45D44/002—Masks for cosmetic treatment of the face
-
- A—HUMAN NECESSITIES
- A45—HAND OR TRAVELLING ARTICLES
- A45D—HAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
- A45D44/00—Other cosmetic or toiletry articles, e.g. for hairdressers' rooms
- A45D44/22—Face shaping devices, e.g. chin straps; Wrinkle removers, e.g. stretching the skin
-
- A—HUMAN NECESSITIES
- A45—HAND OR TRAVELLING ARTICLES
- A45D—HAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
- A45D2200/00—Details not otherwise provided for in A45D
- A45D2200/10—Details of applicators
- A45D2200/1009—Applicators comprising a pad, tissue, sponge, or the like
- A45D2200/1036—Applicators comprising a pad, tissue, sponge, or the like containing a cosmetic substance, e.g. impregnated with liquid or containing a soluble solid substance
-
- A—HUMAN NECESSITIES
- A45—HAND OR TRAVELLING ARTICLES
- A45D—HAIRDRESSING OR SHAVING EQUIPMENT; EQUIPMENT FOR COSMETICS OR COSMETIC TREATMENTS, e.g. FOR MANICURING OR PEDICURING
- A45D2200/00—Details not otherwise provided for in A45D
- A45D2200/25—Kits
Definitions
- the present invention relates to a thin film application device, and in particular relates to a thin film application device used at a time of applying a thin film such as a beauty sheet or the like to an applied face (skin, in the case of a beauty sheet).
- the discoloration region on the skin is identified from an image taken of the skin.
- a beauty sheet that can be applied to the skin and has a non-discoloration region color printed thereupon is generated at the same size as the discoloration region or a larger size than the discoloration region. Applying a beauty sheet fabricated in this way enables the discoloration region of the skin to be made inconspicuous.
- Document JP3175155U discloses a device for attaching a ring-shaped sheet around the eyes of a used with an adhesive layer.
- the user holds the thin film described in PTL 1 with the hand and applies to the skin, so there is a possibility that the image portion on the thin film may be applied in a state deviated from the applied face that is the target of application. In such a case, the user will peel the thin film off of the applied face and reapply, which is troublesome and work efficiency is poor.
- the present invention provides a thin film applying device which can apply a thin film to an applied face in an efficient manner. Also provided is a thin film forming method, which does not form part of the present invention, suitable for use with such a thin film applying device.
- a thin film application device is a thin film application according to claim 1.
- a thin film can be efficiently applied to an applied face.
- a thin film application device 600 The structure of a thin film application device 600 according to the present embodiment will be described with reference to Figs. 1 through 4 .
- the thin film application device 600 is, for example, for applying a thin film 702 to an applied face (discoloration region 511) of a user 400, in a state of being mounted to an application object (user 400), as illustrated in Fig. 1 (hereinafter referred to as mounted state).
- the applied face is not restricted to a discoloration region 511, and various regions are applicable, such as wrinkle regions of wrinkles and so forth formed on the face of the user, scar regions of scars or the like, and so forth, for example.
- the orientation of the members will be described in the following description based on an orthogonal coordinates system (X, Y, Z) illustrated in Figs. 1 through 3 , to facilitate description.
- the X axis direction is the left-right direction and width direction of the user 400
- the Y axis direction is the up-down direction of the user 400
- the Z axis direction is the front-back direction of the user 400.
- the X axis direction is the left-right direction and width direction of a facial image 500 illustrated in Fig.
- the Y axis direction is the up-down direction of the facial image 500
- the Z axis direction is the front-back direction of the facial image 500 (in other words, the depth direction). Note that the up-down direction of the user 400 and the facial image 500 does not necessarily match the vertical direction (in other words, the direction in which gravity acts).
- the thin film application device 600 is formed generally in the shape of eyeglasses, and has a frame 620 and a pair of thin film holding members 640, as illustrated in Figs. 1 through 4 . Note that Figs. 2 and 3 omit the pair of thin film holding members 640 from illustration.
- the frame 620 functions to mount the thin film application device 600 to the user 400 like wearing eyeglasses.
- the pair of thin film holding members 640 is pivotably supported as to the frame 620, and has a function where thin film is tentatively applied to a tentative loading portion provided to the rear face thereof.
- the tentative loading portion of the pair of thin film holding members 640 services as a pressing portion that, in a mounted state, presses the thin film against an applied face that is the skin (normally the skin of the user him/herself).
- the pair of thin film holding members 640 may be supported on the frame 620 so as to be capable of displacement, such as sliding or the like, for example.
- the frame 620 is configured of silicon (Si), synthetic resin, metal, or the like, for example, and has a frame main unit 621, a pair of retaining portions 622, and a pair of supporting portions 623. Note that the frame main unit 621, the pair of retaining portions 622, and the pair of supporting portions 623 may be configured of the same material, or may be configured of different materials.
- the frame main unit 621 From the middle in the width direction, the frame main unit 621 curves backwards overall the further toward the outer side in the width direction, and has a pair of frame elements 624 that are separated in the width direction, and a consecutive portion 625.
- the frame main unit 621 is curved so as to follow the face 401 of the user 400 in the mounted state.
- This consecutive portion 625 makes the pair of frame elements 624 to be consecutive with each other in the width direction.
- the front face of the consecutive portion 625 has a width-direction reference line 626 in the form of a line formed extending in the width direction, and a vertical-direction reference line 627 in the form of a line formed extending in the vertical direction in the same way.
- An intersection between the width-direction reference line 626 and the vertical-direction reference line 627 serves as a device base point 501 that is a reference point instructing portion.
- the device base point 501 may be configured by a recess, a protrusion, a through hole, a decal, paint, or the like. The position of the device base point 501 is not restricted to the aforementioned position.
- the pair of frame elements 624 has a middle frame 628 extending in the width direction, an inner-side frame 629 extending downwards from the inner side of the middle frame 628 in the width direction, and an outer-side frame 630 extending downwards from the outer side edge in the same way.
- the pair of retaining portions 622 are portions for mounting the thin film application device 600 on the user 400.
- the pair of retaining portions 622 are equivalent to the temples of eyeglasses, with the rear end portions thereof being retained at the ears of the user 400.
- the retaining portions 622 are provided integrally with the frame elements 624, extending toward the rear side from both ends of the frame main unit 621 in the width direction. The rear end portions of these the retaining portions 622 are inclined downwards the further toward the rear side. Accordingly, stability of the retained state of the retaining portions 622 and the ears 402 of the user 400 can be realized in a mounted state.
- the pair of supporting portions 623 are generally pentagon-shaped platelike members in front-back view.
- the outer edge portions of these supporting portions 623 are pivotably supported at the outer-side frames 630 of the frame elements 624 via hinge mechanisms 631. That is to say, the pair of supporting portions 623 is capable of pivoting between a closed state illustrated in Figs. 1(e) , 2 , and 3 , and an open state illustrated in Fig. 1(a) .
- the width-direction inner edge portions of the pair of supporting portions 623 engage the inner-side frames 629 of the frame elements 624. This engaging preferably occurs at an engaging force of an extend to where the supporting portions 623 do not readily pivot.
- holding recess portions 632 in front-back view are formed on the rear face of the supporting portions 623. These holding recess portions 632 having a function of holding the thin film holding members 640 in a state regulated to a predetermined relation (i.e., in a uniquely determined state).
- the holding recess portions 632 preferably have shapes that are not rotationally symmetrical in front-back view (i.e., a shape that only matches itself after being rotated 360 degrees). Note that the shapes and number of the holding recess portions 632 are not restricted to the arrangement in the present embodiment.
- one or more holding recess portions 632a that are rotated by a predetermined angle from the holding recess portions 632 and have a different depth may be provided, as illustrated in Fig. 11 .
- the user 400 can select the holding recess portion to use in accordance with the shape of his/her own face 401, the position of the discoloration region 511, or the like.
- the structure illustrated in Fig. 11 is to describe a modification of the holding recess portions, and other structures are the same as a thin film application device 600b described in Fig. 13 which will be described later, so detailed description will be omitted.
- frame-side fixing portions 633 configured of magnets or the like are provided on the rear face of the holding recess portions 632.
- the structure of the rear face of the frame 620 differs between the structure illustrated in Figs. 2 and 3 and the structure illustrated in Fig. 1(c) .
- a pair of elastic members 662 and 662a made of sponge or the like is provided at a portion situated to the upper side of the pair of supporting portions 623 and the rear face of the consecutive portion 625, on the rear face of the frame 620. Accordingly, the thin mounted state of the film application device 600 according to the present embodiment can be adjusted within the range of elastic deformation of the elastic members 662 and 662a as to individual differences of the shape of the face 401 of the user 400.
- the thin film holding members 640 have a supporting base 641 and a soft member 642, as illustrated in Fig. 4 .
- the supporting base 641 is configured of synthetic resin, silicon (Si), metal, or the like, and is a plate-shaped member that is curved toward the rear side the further toward the outer side in the width direction.
- the supporting base 641 has a general pentagon shape that is the same shape or generally the same shape as that of the holding recess portion 632, in front-back view.
- the supporting base 641 also has a supporting-base-side fixing portion 643, formed of a magnet or the like, at the front face thereof.
- the supporting-base-side fixing portion 643 of the supporting base 641 can be detachably fixed to the frame-side fixing portion 633 of the holding recess portion 632.
- the supporting base 641 is disposed on the inner side of the holding recess portion 632 in a state with rattling substantially suppressed.
- the holding recess portion 632 and the supporting base 641 have the same shape in front-back view, and neither has rotational symmetry, so in a state where the supporting base 641 is disposed on the inner side of the holding recess portion 632, the supporting base 641 and holding recess portion 632 are restricted to a predetermined relation.
- the supporting-base-side fixing portion 643 may be provided on the rear face of the supporting base 641, or embedded in the supporting base 641.
- the structure where the positional relation between the supporting base 641 and holding recess portion 632 is restricted to a predetermined relation is realized by innovation of the form of the supporting base 641 and holding recess portion 632.
- a structure where the positional relation between the supporting base 641 and holding recess portion 632 is restricted to a predetermined relation may be realized by innovation of the structure of the frame-side fixing portion 633 and supporting-base-side fixing portion 643.
- the soft member 642 is a plate-shaped member such as a sponge, rubber sheet, or the like, for example, that is soft and absorbs water.
- An example of material for such a sponge is ethylene ⁇ -olefin copolymer, polyurethane, melamine resin, or the like.
- the soft member 642 has a general pentagon shape that is the same shape as the holding recess portion 632 and supporting base 641 in the front-back view.
- the front face of this soft member 642 is fixed to the rear face of the supporting base 641 by ab adhesive agent or the like.
- the rear face of the soft member 642 is a tentative application portion 644 where the thin film can be tentatively applied.
- This tentative application portion 644 is formed as a curved face that heads toward the rear side the further toward the outer side in the width direction.
- the thin film application device 600 that has the configuration such as described above is mounted to the user 400 by the pair of retaining portions 622 being retained at the ears 402 of the user 400, and the rear face of the consecutive portion 625 of the frame main unit 621 being engaged with the upper end portion of the nose 403 of the user 400, as illustrated in Figs. 1(a) and (e) .
- the eyes 404 of the user 400 are not covered by the thin film application device 600 in the mounted state. In other words, in the mounted state, the eyes 404 of the user 400 are not overlaid with the thin film application device 600 with regard to the front-back direction.
- a thin film structure 700 has a supporting member 701, and the thin film 702 on which an image portion 703 is formed on part of the front side.
- the supporting member 701 is a sheet-shaped member of a predetermined shape, and is configured of paper or non-woven fabric, porous film, nanofiber sheets, or the like, that absorbs water and has hydrophilicity.
- a second supporting member (omitted from illustration) that is different from the supporting member 701 may be further provided.
- the second supporting member is configured of plastic or the like, and is provided in close contact with the reverse face of the supporting member 701 to the face where the thin film 702 is placed.
- the area of the side of the second supporting member where the supporting member 701 is in contact may be the same area as that of the face of the supporting member 701, but preferably is a larger area. Assistance mark images may also be formed on the second supporting member.
- This supporting member 701 has a general pentagon shape that is of the same shape as the holding recess portion 632 of the frame 620 configuring the thin film application device 600, and the supporting base 641 of the thin film holding member 640, in plane view.
- the thin film 702 is a sheet-shaped member that has permeability and biocompatibility.
- the materials of such a thin film 702 are not restricted in particular, and an optional thin film can be used.
- the material of the thin film include polyesters of which polyglycolic acid, polylactic acid, polycaprolactone, polyethylene succinate, polyethylene terephthalate, and copolymers thereof are representative, polyethers of which polyethylene glycol and polypropylene glycol are representative, polyamides of which nylon, polyglutamic acid, polyaspartic acid, and salts thereof are representative, polysaccharides of which pullulan, cellulose, starch, chitin, chitosan, alginic acid, hyaluronic acid, corn starch, and salts thereof are representative, silicones of which acrylic silicone and trimethylsiloxysilicic acid are representative, acrylates of which alky acrylate, silicone acrylate, amide acrylate, and copolymers thereof are representative, polyvinyl
- This thin film 702 has a general pentagon shape that is of the same shape as the supporting base 641 and soft member 642 of the thin film holding member 640, in plane view. Also, the outer edge of the thin film 702 is the same as the outer edge of the supporting member 701 as illustrated in Fig. 8(a) , or slightly (e.g., 30 ⁇ m) smaller, as illustrated in Fig. 8(b) .
- the thin film 702 is loaded to one side face of the supporting member 701 (the front side face in Fig. 1(c) ) so as to be capable of being peeled away.
- the difference between the outer edge of the thin film 702 and the outer edge of the supporting member 701 is substantially within the range of being the same shape, as described above.
- optional slits are provided to the thin film 702 at the periphery or in plane, so as to be able to conform to the shape of the discoloration region 511 or the periphery of the discoloration region 511.
- the image portion 703 is configured of a coloring matter such as cosmetics or the like, for example, and is formed by printing or the like, for example, on one side face (the front side face in Fig. 1(c) ) of the thin film 702.
- the image portion 703 may be printed not only of coloring matter, but for example, active components such as medical substances or the like that promote improvement of the discoloration region 511 (whitening components, vitamins, or moisturizing components), UV absorbents, UV reflective agents, and so forth.
- a moisturizing component may be printed on the image portion 703 and the image portion 703 applied to the wrinkle region.
- This image portion 703 is provided at a portion overlaying the discoloration region 511 in the front-back direction in a state where the thin film 702 is tentatively applied to a portion of the tentative application portion 644 of the thin film application device 600, and the user 400 has mounted the thin film application device 600 (hereinafter, simply referred to as "usage state").
- the image portion 703 does not necessarily have to be the same size and shape as the discoloration region 511.
- the image portion 703 may be larger than the discoloration region 511 by a predetermined largeness.
- the thin film 702 making up the thin film structure 700 is arranged such that the image portion 703 is applied to the discoloration region 511 by one side face of the thin film 702 being pressed against the discoloration region 511, for example.
- a makeup support system 100 has an image processing device 200 including an illumination unit 201, a camera 202, and a display unit 203 such as a liquid crystal display with a touch panel or the like, and a printing device 300, communicably connected to the image processing device 200.
- the image processing device 200 and printing device 300 are installed in, for example, factories, cosmetics shops, beauty shops, medical institutions, makeup rooms for grooming, event sites, private residences, and so forth.
- the image processing device 200 may be a portable device that is readily carried.
- An image acquiring unit (omitted from illustration) that the image processing device 200 has photographs the face 401 of the user 400 situated at the front of the display unit 203, using the camera 202 situated near the display unit 203, in a state of being illuminated by the illumination unit 201.
- the image processing device 200 displays a facial image 500 (see Fig. 1 ) which is the photographed image that has been inverted in the horizontal direction on the display unit 203. That is to say, the image processing device 200 is configured to give the user 400 a sensation close to that of looking into a mirror.
- Fig. 5 only illustrates a part of the facial image 500.
- the facial image 500 includes a mounting object image where the user 400 has mounted the thin film application device, and a non-mounting object image where the same is not mounted.
- photographing by the camera 202 may be omitted.
- an input device (omitted from illustration) for reading in the facial image that the user 400 has as data is preferably provided.
- a mounting determining unit (omitted from illustration) that the image processing device 200 has analyzes the facial image 500, and determines whether or not the user 400 in the facial image 500 has mounted the above-described thin film application device 600 (see (a) and (d) in Fig. 1 ).
- a device information obtaining unit that the image processing device 200 has obtains the device base point 501 provided on the thin film application device 600 from the facial image 500.
- the method for obtaining the device base point 501 from the facial image 500 is almost the same as a method for obtaining feature points of faces from facial images, described in Japanese Unexamined Patent Application Publication No. 2014-183917 for example, so detailed description will be omitted.
- the device information obtaining unit of the image processing device 200 sets a device coordinates system (e.g., a coordinates system where the horizontal direction of the user 400 is an X 1 axis and the vertical direction is a Y 1 axis) of which the device base point 501 is the origin, as illustrated in Fig. 1(b) .
- the device coordinates system may be three dimensional, and is not limited to being two-dimensional. In a case of being three dimensional, a three-dimensional coordinates system is set based on multiple images taken from different angles, for example.
- An object information obtaining unit (omitted from illustration) that the image processing device 200 has obtains the discoloration region 511 that is the applied face from the facial image 500, and obtains object coordinates that are the coordinates of the discoloration region 511 relating to the device coordinates system.
- the image processing device 200 can obtain the coordinates of all points making up the discoloration region 511, or a part of the coordinates. In a case where there are discoloration regions 511 at multiple locations that are separated from each other, the coordinates of each discoloration region 511 are obtained.
- the object information obtaining unit of the image processing device 200 also obtains information relating to the color of a peripheral region 512 of the discoloration region 511.
- a print information obtaining unit that the image processing device 200 has obtains, coordinates of a portion of an uncut structure 704 (see Fig. 1(c) ) where the image portion 703 is to be printed as image portion position information, based on the object coordinates set as described above.
- the uncut structure 704 is a material of the thin film structure 700, and is a sheet-shaped member before being cut into the usage state form, and on which the image portion 703 is printed.
- the uncut structure 704 has a sheet-shaped uncut supporting member 705, and a sheet-shaped uncut thin film 706 that is loaded to one side face (the front side face in Fig. 1(c) ) of the uncut supporting member 705 in a state capable of being peeled away.
- the method of obtaining the image portion position information specifically is to obtain coordinates of a portion corresponding to the coordinates of the discoloration region 511 in the uncut structure 704, in a state where the uncut structure 704 is assumed to have been placed in the device coordinates system, as image portion position information.
- the portion corresponding to the device base point 501 i.e., the origin of the device coordinates system
- printing base point position information is obtained as position information of a printing base point 707 (hereinafter referred to as printing base point position information).
- An image data generating unit (omitted from illustration) that the image processing device 200 has generates print image data from the printing base point position information and image portion position information, and outputs to the printing device 300.
- the image data generating unit also outputs cutting position information to the printing device 300.
- print image data may be generated and output to the printing device 300 based on cutting position information and image portion position information, instead of the printing base point position information.
- the printing device 300 prints an image on the thin film 702 making up the uncut structure 704, based on the print image data obtained from the print information obtaining unit that that the image processing device 200 has. Specifically, in a case where the pint image data includes the printing base point position information and image portion position information, the printing device 300 prints the printing base point 707 illustrated in Fig. 1(c) and the image portion 703 that is an overlaid image on the uncut structure 704.
- the printing device 300 prints the image portion 703, and a portion corresponding to the perimeter of the thin film structure 700 indicated by a two-dot dashed line, illustrated in Fig. 1(c) on the uncut structure 704.
- Materials such as ink that the printing device 300 uses for printing, and specific configurations of each portion are described in PTL 3 through 5 for example, so detailed description will be omitted here.
- the printing device 300 obtains a portion corresponding to the perimeter of the thin film structure 700 based on the cutting position information received from the image processing device 200 (the portion indicated by the two-dot dashed line in Fig. 1(c) ), and cuts the uncut structure 704 along this portion.
- the printing device 300 cuts the uncut structure 704 along this portion.
- the printing device 300 cuts the thin film structure 700 along the periphery while irradiating the portion corresponding to the periphery of the thin film structure 700 in the uncut structure 704 with a laser 708, as illustrated in Fig. 9(b) .
- the material making up the thin film 702 is less tolerant to heat than the material making up the supporting member 701, so the cut face of the thin film 702 shrinks more in a direction away from the laser 708 than the cut face of the supporting member 701, due to the heat of the laser 708.
- the perimeter of the thin film 702 is situated slightly toward the middle side of the thin film 702 from the perimeter of the supporting member 701.
- a thin film structure 700 having the same features can be obtained in a case of employing a configuration where the uncut structure 704 is cut by a heated cutter 709 as illustrated in Fig. 9(c) for example, instead of the laser 708.
- just the supporting member 701 can be engaged by the fingers when peeling the supporting member 701 away from the thin film structure 700, so the supporting member 701 can be peeled away from the thin film structure 700 more easily.
- FIG. 9 illustrates the uncut supporting member 705 being cut as well
- an arrangement can be made where only the uncut thin film 706 is cut while leaving the uncut supporting member 705 uncut, by adjusting the laser output.
- a thin film structure obtained by cutting in this way will have a structure where multiple thin films 702 are loaded on one side of the uncut supporting member 705.
- pressing the tentative application portion 644 against the thin film 702 so that the cut portion of the thin film 702 matches the perimeter of the tentative application portion 644 of the thin film holding member 640 enables just the thin film of a necessary shape to be peeled away (lifted) from the uncut supporting member 705 following the cut.
- FIG. 1 An example of a thin film forming method performed using the film application device 600 according to the first embodiment will be described with reference to Figs. 1 and 6 . Note that the thin film forming method according to the present example is performed using the above-described image processing device 200.
- step S1 the user 400 mounts the thin film application device 600 in an opened state as illustrated in Fig. 1(a) , and obtains the facial image 500 that is a mounting object image by photographing the face 401 using the camera 202 (see Fig. 5 ) of the image processing device 200.
- the film application device 600 is in the opened state, so the discoloration region 511 is in the facial image 500.
- the facial image 500 is input from an input device that the image processing device 200 has.
- the facial image 500 is also displayed on the display unit 203 as necessary.
- a state where the user 400 has mounted the thin film application device 600 in an opened state and the pair of supporting portions 623 of the film application device 600 do not cover the discoloration region 511 that is the applied face (e.g., not overlaid in the front-back direction), illustrated in Fig. 1(a) corresponds to a second position of the pair of supporting portions 623.
- step S2 the device information obtaining unit that the image processing device 200 has analyzes the facial image 500, and obtains the device base point 501 provided on the thin film application device 600 mounted by the user 400 in the facial image 500.
- a device coordinates system with the device base point 501 as the origin is set as illustrated in Fig. 1(b) .
- step S3 the object information obtaining unit that the image processing device 200 has obtains the discoloration region 511 from the facial image 500, and also obtains object coordinates that are the coordinates of the discoloration region 511 relating to the device coordinates system.
- step S4 the print information obtaining unit that the image processing device 200 has obtains image portion position information that is the coordinates corresponding to the portion of the image portion 703 in the uncut structure 704 (see Fig. 1(c) ), based on the object coordinates. Specifically, coordinates corresponding to the coordinates of the discoloration region 511 in the uncut structure 704, in a state where the uncut structure 704 (uncut supporting member 705 or uncut thin film 706) is assumed to be placed in the device coordinates system, are obtained as image portion position information, as illustrated in Fig. 1(c) .
- step S5 the print information obtaining unit that the image processing device 200 has obtains a portion corresponding to the device base point 501 (i.e., origin) in the device coordinates system as print base point position information.
- Print image data including the image portion position information and the print base point position information is generated.
- step S6 the print information obtaining unit that the image processing device 200 has obtains coordinates of the portion corresponding to the perimeter of the thin film structure 700, in a state where the uncut structure 704 is assumed to be placed in the device coordinates system, and obtains these coordinates as cutting position information.
- step S7 the printing device 300 prints the image portion 703 and printing base point 707 on the uncut thin film 706 making up the uncut thin film 700, based on the print image data.
- step S8 the printing device 300 cuts the uncut structure 704 into a predetermined shape (in the case of the present example, a general pentagon shape).
- a predetermined shape in the case of the present example, a general pentagon shape.
- the printing device 300 obtains the portion of the uncut structure 704 that corresponds to the perimeter of the thin film structure 700 (the portion indicated by two-dot dashed lines in Fig. 1(c) ) based on cutting position information received from the image processing device 200, and cuts along this position.
- the cutting method of the uncut structure 704 by the printing device 300 is as described above. Note that a sheet-shaped member already cut in the shape of the perimeter of the thin film structure 700 can be provided before the printing in step S7. In this case, step S8 can be omitted.
- FIG. 1 An example of a thin film application method performed using the thin film application device 600 according to the first embodiment will be described with reference to Figs. 1 and 7 .
- the basic thin film application method is the same in a case where there are discoloration regions 511 on both cheeks.
- step S11 the user 400 removes one thin film holding member 640 from the thin film application device 600.
- step S12 the thin film structure 700 is placed in a recess 661 of a holding member 660 illustrated in Fig. 4(a) in a state where the thin film 702 is on the top.
- the shape of the recess 661 in plane view i.e., the shape as viewing from above in Fig. 4
- substantially the same includes difference where the thin film structure 700 can be placed within the recess 661 without rattling.
- the shape of the recess 661 of the holding member 660 in plane view does not have rotational symmetry, either.
- step S13 the soft member 642 of the thin film holding member 640 is wetted using a mister or the like.
- step S14 the tentative application portion 644 of the soft member 642 is pressed against the front face of the thin film 702 that has been placed in the recess 661 of the holding member 660.
- the thin film structure 700 is tentatively applied to the tentative application portion 644 of the soft member 642 across the thin film 702.
- the supporting member 701 is loaded on the thin film 702.
- the shape of the soft member 642 in the front-back direction is substantially the same as the shape of the recess 661 of the holding member 660 in plane view. Accordingly, the positional relation between the soft member 642 and the thin film structure 700 is restricted to a predetermined relation in a state where the thin film structure 700 is tentatively applied to the soft member 642. Note that the thin film 702 of the thin film structure 700 can be tentatively applied to the tentative application portion 644 of the soft member 642 by hand, as long as the positional relation between he soft member 642 and the thin film structure 700 can be restricted to a predetermined relation.
- step S15 one thin film holding member 640 is inserted to the inner side of the holding recess portion 632 of one supporting portion 623, in a state where the thin film application device 600 is closed, and the supporting-base-side fixing portion 643 of one thin film holding member 640 is detachably fixed to the frame-side fixing portion 633 of one supporting portion 623, as illustrated in Fig. 1(d) .
- the positional relation between the one thin film holding member 640 and the frame 620 (one supporting portion 623) is restricted to a predetermined relation.
- the positional relation between the thin film structure 700 and thin film application device 600 is also restricted to a predetermined relation. Note that the above-described work may be performed in a state where the thin film application device 600 is opened, and then the thin film application device 600 is placed in a closed state after having fixed the one thin film holding member 640 to the frame 620.
- step S16 the user 400 peels the supporting member 701 away from the thin film structure 700, as illustrated in Fig. 4(b) .
- a water layer 663 has been formed on the supporting member 701 between the supporting member 701 and the thin film 702 as illustrated in Fig. 10(a) , so the supporting member 701 can be easily peeled away from the thin film structure 700 (thin film 702).
- step S17 the user 400 mounts the thin film application device 600 in a closed state, as illustrated in Fig. 1(e) .
- the image portion 703 of the thin film 702 that has been tentatively applied to the tentative application portion 644 of the thin film application device 600 overlays the discoloration region 511 in the front-back direction.
- the coordinates of the image portion 703 of the thin film 702 tentatively applied to the tentative application portion 644 are equal to the coordinates of the discoloration region 511 in the device coordinates system. Accordingly, the thin film 702 is pressed against the discoloration region 511 in the state illustrated in Fig.
- step S18 the user 400 removes the thin film application device 600, whereupon the thin film 702 is peeled away from the tentative application portion 644 of the thin film application device 600, and the image portion 703 of the thin film 702 is applied to the discoloration region 511, as illustrated in Fig. 1(f) .
- portions of the thin film 702 other than the image portion 703 are applied to the periphery of the discoloration region 511, but are inconspicuous due to be uncolored and transparent.
- There is the water layer 663 formed between the thin film 702 and tentative application portion 644 as illustrated in Fig. 10(b) so the thin film 702 readily peels away from the tentative application portion 644 when removing the thin film application device 600.
- the thin film 702 can be efficiently applied to the discoloration region 511. That is to say, when the user 400 mounts the thin film application device 600 in a state where the thin film 702 formed by the above-described forming method is tentatively applied to the tentative application portion 644 of the thin film application device 600, the image portion 703 of the thin film 702 overlays the discoloration region 511 in the front-back direction. Accordingly, the image portion 703 of the thin film 702 can be accurately applied to the discoloration region 511 that is the application target. As a result, the task of peeling and reapplying the thin film 702 can be reduced, and the work efficiency of applying the thin film 702 can be improved.
- the task of pressing the thin film 702 against the discoloration region 511 can be performed without using the hands. Accordingly, the possibility of the thin film 702 being deformed or damaged at the time of application work can be reduced. Also, according to the thin film application device 600 of the present embodiment, photography of the user 400 when carrying out the forming method using the thin film application device 600 only needs to be performed once, so the work efficiency of forming the thin film 702 can be improved.
- the thin film application device 600 has the tentative application portion 644 formed to the rear face of the soft member 642
- a hydrophilic member that has hydrophilicity at a face that faces the discoloration region 511 at least in the usage state can be employed instead of the soft member.
- the rear face of the hydrophilic member serves as the tentative application portion.
- a thin film application device 600a according to a second embodiment will be described with reference to Fig. 12 .
- the structure of the thin film application device 600a according to the present embodiment differs from the thin film application device 600 according to the above-described first embodiment with regard to the structure of a pair of supporting portions 623a.
- Other structures are the same as the thin film application device 600 according to the first embodiment, so description will be made below primarily regrading points of difference.
- the thin film application device 600a has the one pair of supporting portions 623a formed integrally with the frame main unit 621. Accordingly, the one pair of supporting portions 623a do not pivot as to the frame main unit 621. Accordingly, the discoloration region 511 cannot be viewed form the front side in a state where the user 400 has mounted the thin film application device 600a, as illustrated in Fig. 12(b) .
- Other structures are the same as with the thin film application device 600 according to the above-described first embodiment.
- an object information obtaining unit that the image processing device 200 has analyzes facial images (e.g., facial images 500a and 500b in Figs. 5 and 12 ) and determines that the user 400 in the facial images does not have the thin film application device 600a mounted, obtains an object base point 406, which is a feature point, from the facial image 500a that is a mounting object image.
- the object information obtaining unit sets an object coordinates system where the object base point 406 is the origin (e.g., a coordinates system where the horizontal direction of the face 401 of the user 400 is the X 2 axis and the vertical direction is the Y 2 axis), as indicated by the dashed lines in Fig.
- Feature points are, for example, the intersection between a line ⁇ 1 that follows the ridge of the nose and a line ⁇ 2 that connects the eyes, between the eyebrows, the eyes, the mouth, or the like.
- a method for obtaining feature points from facial images is described in Japanese Unexamined Patent Application Publication No. 2014-183917 for example, so detailed description will be omitted.
- a base point determining unit (omitted from illustration) that the image processing device 200 has determines whether the device base point 501 that is a reference point indicating portion overlays the object base point 406 in the front-back direction in the facial image 500b illustrated in Fig. 12(b) .
- a position information correcting unit that the image processing device 200 has converts object coordinates that are coordinates of the discoloration region 511 relating to the object coordinates system into coordinates of the discoloration region 511 relating to the device coordinates system, and obtains these as corrected object coordinates.
- the position information correcting unit that the image processing device 200 has maintains the object coordinates that are the coordinates of the discoloration region 511 relating to the object coordinates system as they are.
- FIG. 12 An example of a thin film forming method using the thin film application device 600a according to the second embodiment will be described with reference to Figs. 12 and 14 . Note that description of the thin film application method will be omitted, since it is the same as the thin film application method described with reference to Fig. 1 .
- the thin film forming method described below is carried out using the above-described image processing device 200.
- the thin film forming method according to the present example is a method suitable for a cause of using the thin film application device 600a where the pair of supporting portions 623a cannot pivot as to the frame main unit 621, and the discoloration region 511 cannot be visually recognized from the front side in a mounted state.
- step S21 the user 400 photographs the face 401 using the camera 202 of the image processing device 200 (see Fig. 5 ) in a state of not mounting the thin film application device 600a, as illustrated in Fig. 12(a) , thereby obtaining the facial image 500a.
- the discoloration region 511 is in the facial image 500a in this state.
- the facial image 500a is input from an input device that the image processing device 200 has.
- the facial image 500 is also displayed on the display unit 203 as necessary.
- an object base point 406 that is a feature point is obtained from the facial image 500a, by the object information obtaining unit that the image processing device 200 has.
- An object coordinates system e.g., a coordinates system where the horizontal direction of the face 401 of the user 400 is an X 2 axis and the vertical direction is the Y 2 axis
- the object base point 406 as the origin is set, such as illustrated by dashed lines in Fig. 12(c) .
- step S23 the object information obtaining unit that the image processing device 200 has obtains the discoloration region 511 from the facial image 500a, and coordinates of the discoloration region 511 relating to the object coordinates system are obtained as object coordinates.
- step S24 the user 400 mounts the thin film application device 600a as illustrated in Fig. 12(b) , and photographs the face 401 by the camera 202 of the image processing device 200 to obtain the facial image (mounting object image) 500b.
- the facial image 500b is input from an input device that the image processing device 200 has.
- the facial image 500b is also displayed on the display unit 203 as necessary.
- step S25 the facial image 500b is analyzed by the device information obtaining unit that the image processing device 200 has, and the device reference point 501 provided to the thin film application device 600a is obtained.
- step S26 the base point determining unit that the image processing device 200 has determines whether or not the device reference point 501 and the object base point 406 are overlaid in the front-back direction in the facial image 500b illustrated in Fig. 12(b) .
- the correlation between the facial image 500a and the facial image 500b is adjusted beforehand.
- the object coordinates system set to the facial image 500a is set to the facial image 500b, for example.
- Position information of the object base point 406 in the facial image 500b is obtained. Note that the device reference point 501 and the object base point 406 are not overlaid in the facial image 500b.
- a device coordinates system (e.g., a coordinates system where the horizontal direction of the face 401 of the user 400 is the X 1 axis and the vertical direction is the Y 1 axis) of which the device base point 501 is the origin is set, as indicated by solid lines in Fig. 12(c) .
- step S28 object coordinates that are coordinates of the discoloration region 511 relating to the object coordinates system are converted into coordinates of the discoloration region 511 relating to the device coordinates system, and the coordinates after coordinate conversion are obtained as corrected object coordinates.
- (X 2a , Y 2a ) that are coordinates of the discoloration region 511 with regard to the object coordinates system (X 2 , Y 2 ) are converted into (X 1a , Y 1a ) that are coordinates of the device coordinates system (X 1 , Y 1 ), as illustrated in Fig. 12(c) , for example.
- Such coordinate conversion is performed regarding all points making up the discoloration region 511.
- step S29 the print information obtaining unit that the image processing device 200 has obtains image portion position information that is the coordinates of the portion corresponding to the image portion 703 in the uncut structure 704 (see Fig. 1(c) ) as correction object coordinates. Specifically, coordinates corresponding to the corrected object coordinates in the uncut structure 704 are taken as image portion position information in a state where the uncut structure 704 is assumed to be placed in the device coordinates system.
- step S30 the print information obtaining unit that the image processing device 200 has obtains image portion position information that is the coordinates of a portion corresponding to the image portion 703 in the uncut structure 704 (see Fig. 1(c) ), based on the object coordinates obtained in step S23.
- the subsequent steps are the same as the thin film forming method described with reference to Fig. 6 . Also, detailed description of the thin film application method will be omitted, since it is the same as the thin film application method described with reference to Fig. 7 .
- the pair of supporting portions 623a do not pivot as to the frame main unit 621, so there is no need to provide a pivoting mechanism, and the structure of the thin film application device 600a can be simplified. As a result, the manufacturing costs of the thin film application device 600a can be reduced.
- a thin film can be formed that is suitable for use with the thin film application device 600a according to the present embodiment where the discoloration region 511 cannot be visually recognized form the front side in a state where the user 400 has the thin film application device 600a mounted.
- a thin film application device 600b such as illustrated in Fig. 13 , for example, can be used with the thin film forming method described above.
- the thin film application device 600b will be briefly described below.
- the thin film application device 600b has the pair of supporting portions 623a formed integrally with the frame main unit 621, in the same way as the thin film application device 600a according to the second embodiment described above. Accordingly, the pair of supporting portions 623a do not pivot as to the frame main unit 621. Thus, the discoloration region 511 cannot be visually recognized form the front side in a state where the user 400 has the thin film application device 600b mounted, as illustrated in Fig. 13(c) , with the thin film application device 600b as well.
- a forehead covering portion 634 is provided to the frame main unit 621 of the thin film application device 600b, at a portion that overlays the lower edge of the forehead 405 of the user 400 in the front-back direction when mounted.
- a pair of through holes 635 that pass through the frame main unit 621 in the front-back direction is formed at portions relating to the vertical direction of the forehead covering portion 634 and the pair of supporting portions 623a. These through holes 635 are overlaid on the eyes 404 of the user 400 in the front-back direction, in a mounted state. Accordingly, the user 400 can see through in the front-back direction, in a mounted state.
- elastic members 637a and 637b such as sponge or the like are fixed by adhesive agent or the like. Accordingly, in the mounted state, the thin film application device 600b can be adjusted within the range of elastic deformation of the elastic members 637a and 637b as to individual differences of the shape of the face 401 of the user 400.
- the mounted state of the thin film application device 600b that has the configuration such as described above can be stabilized, since the area of the portion facing the user 400 in the front-back direction is larger in the mounted state.
- a thin film application device 600c according to a third embodiment will be described with reference to Fig. 15 .
- the structure of the thin film application device 600c according to the present embodiment differs from the thin film application device 600 according to the above-described first embodiment with regard to the structure of a frame consecutive portion 625a making up a frame 620b.
- Other structures are the same as those of the thin film application device 600 according to the first embodiment, so description will be made below primarily regrading points of difference.
- a base point through hole 636 that passes through the consecutive portion 625a in the front-back direction is formed at the middle in the width direction and toward the upper edge of the consecutive portion 625a making up the frame 620b.
- This base point through hole 636 is formed having a circular shape as viewed in the front-back direction. Note that the shape of the base point through hole 636 is not restricted to the case of the present embodiment.
- the base point through hole 636 may be, for example, a rectangle, polygon, or the like, in the front-back direction, for example.
- the base point through hole 636 serves as the device base point that is the base point indicating portion in the case of the present embodiment.
- Other structures are the same as those of the thin film application device 600 according to the first embodiment described above.
- an object base point 406b is obtained from the facial image 500c that is a mounting object image.
- the object information obtaining unit sets an object coordinates system where the object base point 406b is the origin (e.g., a coordinates system where the horizontal direction of the face of the user 400 is the X 1 axis and the vertical direction is the Y 1 axis), as indicated by the solid lines in Fig. 12(c) .
- the object base point 406b is configured of a decal applied to the face of the user 400, paint, or the like.
- the method of obtaining the object base point 406a from the facial image 500c is almost the same as the method for obtaining feature points from facial images that is described in Japanese Unexamined Patent Application Publication No. 2014-183917 for example, so detailed description will be omitted.
- FIG. 15 An example of a thin film forming method using the thin film application device 600c according to the third embodiment will be described with reference to Figs. 15 and 16 . Note that description of the thin film application method will be omitted, since it is the same as the thin film application method described with reference to Fig. 1 .
- the thin film forming method described below is carried out using the above-described image processing device 200.
- the user 400 sets the object base point 406b, configured of a decal or the like, on an object base point setting portion 407 that is a portion of the face 401 of the user 400 overlaid by the base point through hole 636 in the front-back direction in a state where the thin film application device 600c is mounted, as illustrated in Fig. 15(a) .
- the object base point 406b is inserted inside the base point through hole 636 of the thin film application device 600c from the front of the thin film application device 600c, and applied to the object base point setting portion 407.
- the object base point 406b may be set by applying paint or the like, for example, to the object base point setting portion 407, instead of a decal.
- step S32 the user 400 photographs the face 401 by the camera 202 of the image processing device 200 (see Fig. 5 ) to obtain the facial image 500c.
- the discoloration region 511 is in the facial image 500c.
- the facial image 500c is input from an input device that the image processing device 200 has.
- the facial image 500c is also displayed on the display unit 203 as necessary.
- step S33 the object base point 406b is obtained from the facial image 500c by the object information obtaining unit that the image processing device 200 has.
- An object coordinates system is then set where the object base point 406b is the origin (e.g., a coordinates system where the horizontal direction of the face 401 of the user 400 is the X 1 axis and the vertical direction is the Y 1 axis), as indicated by the solid lines in Fig. 15(c) .
- step S34 the object information obtaining unit that the image processing device 200 has obtains the discoloration region 511 from the facial image 500c, and also obtains object coordinates that are the coordinates of the discoloration region 511 relating to the object coordinates system.
- step S35 the print information obtaining unit that the image processing device 200 has obtains image portion position information that is the coordinates of a portion corresponding to the image portion 703 in the uncut structure 704 (see Fig. 1(c) ), based on the object coordinates. Specifically, coordinates corresponding to the coordinates of the discoloration region 511 in the uncut structure 704, in a state assuming the uncut structure 704 to be placed in the object coordinates system, are taken as image portion position information.
- the subsequent steps are the same as the thin film forming method described with reference to Fig. 6 . Also, detailed description of the thin film application method will be omitted, since it is the same as the thin film forming method described with reference to Fig. 7 .
- the thin film application device that has the configuration such as described above, providing the base point through hole 636 to serve as the device base point in the thin film application device 600c enables the object base point 406b to be set on the face 401 of the user 400, overlaid by the device base point in the front-back direction, in a state of the user 400 mounted with the thin film application device 600c. Accordingly, the number of times of photography of the face 401 can be made to be once in the thin film forming method performed using the thin film application device 600c, and there is no need to perform coordinate conversion as with the thin film forming method described with reference to Fig. 14 .
- a thin film application device 600d according to a fourth embodiment will be described with reference to Fig. 17 .
- the thin film application device 600d according to the present embodiment differs from the thin film application device 600a according to the above-described second embodiment with regard to the structure of a frame consecutive portion 625b. Specifically, the thin film application device 600d has the width-direction reference line 626 and vertical-direction reference line 627 formed on the front face of the consecutive portion 625b, in the same way as with the thin film application device 600 according to the first embodiment described above. Other structures are the same as those of the thin film application device 600a according to the second embodiment. Note that the configuration of the image processing device is almost the same as the configuration of the image processing device 200 described above, so detailed description will be omitted.
- FIG. 17 An example of a thin film forming method for forming the thin film used by thin film application device 600d according to the fourth embodiment will be described with reference to Figs. 17 and 18 .
- the thin film forming method according to the present example is carried out using the above-described image processing device 200.
- the user 400 sets an object base point 406c, configured of a decal or the like, on an object base point setting portion 407a that is any portion of the face 401 of the user 400 (below the left eye in Fig. 17(a) in the case of the present example), as illustrated in Fig. 17(a) .
- the object base point 406c may be set by applying cosmetics, paint such as a coloring material, or the like, for example, to the object base point setting portion 407a, instead of a decal.
- step S42 the user 400 photographs the face 401 by the camera 202 of the image processing device 200 (see Fig. 5 ) to obtain the facial image 500d, without mounting the thin film application device 600d.
- the discoloration region 511 is in the facial image 500d.
- the facial image 500d is input from an input device that the image processing device 200 has.
- the facial image 500d is also displayed on the display unit 203 as necessary.
- step S43 the object base point 406c is obtained from the facial image 500d by the object information obtaining unit that the image processing device 200 has.
- An object coordinates system is then set where the object base point 406c is the origin (e.g., a coordinates system where the horizontal direction of the face 401 of the user 400 is the X 2 axis and the vertical direction is the Y 2 axis), as indicated by the dashed lines in Fig. 17(b) .
- step S44 the object information obtaining unit that the image processing device 200 has obtains the discoloration region 511 from the facial image 500d, and also obtains object coordinates that are the coordinates of the discoloration region 511 relating to the object coordinates system.
- step S45 in a state where the thin film application device 600a is mounted, a portion of the facial image 500d that is overlaid by the intersection between the width-direction reference line 626 and vertical-direction reference line 627 of the thin film application device 600a (in the case of the present example, the intersection between the line ⁇ 1 that follows the ridge of the nose and the line ⁇ 2 that connects the eyes) is taken as a device reference point 501b that is a base point indicating portion, and a device coordinates system (e.g., a coordinates system where the horizontal direction of the face 401 of the user 400 is the X 1 axis and the vertical direction is the Y 1 axis) of which the origin is the device reference point 501b is set, as indicated by solid lines in Fig. 17(b) .
- a device coordinates system e.g., a coordinates system where the horizontal direction of the face 401 of the user 400 is the X 1 axis and the vertical direction is the Y 1 axis
- step S46 object coordinates that are coordinates of the discoloration region 511 relating to the object coordinates system are converted into coordinates of the discoloration region 511 relating to the device coordinates system, and the coordinates after coordinate conversion are obtained as corrected object coordinates.
- (X 2a , Y 2a ) that are coordinates of the discoloration region 511 with regard to the object coordinates system (X 2 , Y 2 ) are converted into (X 1a , Y 1a ) that are coordinates of the device coordinates system (X 1 , Y 1 ), as illustrated in Fig. 17(b) , for example.
- Such coordinate conversion is performed regarding all points making up the discoloration region 511.
- step S47 the print information obtaining unit that the image processing device 200 has obtains image portion position information that is the coordinates of the portion corresponding to the image portion 703 in the uncut structure 704 (see Fig. 1(c) ). Specifically, coordinates corresponding to the coordinates of the discoloration region 511 in the uncut structure 704 are taken as image portion position information in a state where the uncut structure 704 is assumed to be placed in the device coordinates system. Subsequent steps are the same as in the thin film forming method described with reference to Fig. 6 .
- the thin film application device 600a When applying the thin film 702 (see Fig. 1 ) to the discoloration region 511, the thin film application device 600a is mounted in a state where the intersection of the width-direction reference line 626 and the vertical-direction reference line 627 of the thin film application device 600a overlays the intersection between the line ⁇ 1 that follows the ridge of the nose of the user 400 and the line ⁇ 2 that connects the eyes, in the front-back direction.
- Other aspects of the thin film application method are almost the same as the thin film forming method described with reference to Fig. 7 , so detailed description will be omitted.
- the number of times of photography of the face 401 of the user 400 can be made to be once in the thin film forming method performed described above, so work time can be reduced and work efficiency can be improved.
- the above-described thin film forming method is effective, for example, in a case where the distance between the device reference point 501b and the discoloration region 511 is long, and the coordinates of the discoloration region 511 based on the device reference point 501b are not readily directly obtained.
- the thin film application device and thin film forming method according to the present disclosure can be carried out in usages such as applying fake tattoos, body paint, and so forth, to the skin of a user.
- a face to apply the fake tattoo or body paint is obtained as a virtual face by simulation in the image processing device 200, and the thin film forming method according to the present disclosure is applied with this virtual face as an applied face.
- the thin film application device based on data obtained by 3D scanning of the face of the user beforehand enables a thin film application device of a shape suitable for individual users.
- aggregating data of a great number of users e.g., facial shape
- designing a standard-shape thin film application device that meets the needs of a great number of users would enable mass-production, and reduction in manufacturing costs can be reduced.
- the thin film application device and thin film forming method according to the present disclosure are particularly useful with regard to beauty.
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- Cosmetics (AREA)
- Management, Administration, Business Operations System, And Electronic Commerce (AREA)
- User Interface Of Digital Computer (AREA)
Description
- The present invention relates to a thin film application device, and in particular relates to a thin film application device used at a time of applying a thin film such as a beauty sheet or the like to an applied face (skin, in the case of a beauty sheet).
- Heretofore, there has been technology to make discoloration regions on the skin, such as blemishes on the cheeks, less conspicuous (e.g., see PTL 1). In the technology described in PTL 1, first, the discoloration region on the skin is identified from an image taken of the skin. A beauty sheet (thin film) that can be applied to the skin and has a non-discoloration region color printed thereupon is generated at the same size as the discoloration region or a larger size than the discoloration region. Applying a beauty sheet fabricated in this way enables the discoloration region of the skin to be made inconspicuous.
- Document
JP3175155U -
- PTL 1: Japanese Unexamined Patent Application Publication No.
2015-43836 - PTL 2: Japanese Unexamined Patent Application Publication No.
2014-140978 - PTL 3: Japanese Unexamined Patent Application Publication No.
3-157313 - PTL 4: Japanese Unexamined Patent Application Publication No.
9-302294 - PTL 5: Japanese Unexamined Patent Application Publication No.
2012-203425 - The user holds the thin film described in PTL 1 with the hand and applies to the skin, so there is a possibility that the image portion on the thin film may be applied in a state deviated from the applied face that is the target of application. In such a case, the user will peel the thin film off of the applied face and reapply, which is troublesome and work efficiency is poor.
- Accordingly, the present invention provides a thin film applying device which can apply a thin film to an applied face in an efficient manner. Also provided is a thin film forming method, which does not form part of the present invention, suitable for use with such a thin film applying device.
- A thin film application device according to the present invention is a thin film application according to claim 1.
- According to the present disclosure, a thin film can be efficiently applied to an applied face.
-
- [
Fig. 1] Fig. 1 is schematic diagrams for describing a thin film forming method performed using a thin film application device according to a first embodiment of the present disclosure, and a thin film application method. - [
Fig. 2] Fig. 2 is a perspective view illustrating the thin film application device according to the first embodiment of the present disclosure obliquely from the front side. - [
Fig. 3] Fig. 3 is a perspective view illustrating the thin film application device according to the first embodiment of the present disclosure obliquely from the rear side. - [
Fig. 4] Fig. 4(a) is a perspective view of a holding member for tentatively holding a thin film at the time of using the thin film application device according to the first embodiment of the present disclosure, and (b) is a perspective view illustrating the way in which a supporting member is peeled away from thin film held by a thin film holding face. - [
Fig. 5] Fig. 5 is a schematic diagram illustrating an example of a makeup support system that performs forming of a thin film used with the thin film application device according to the first embodiment of the present disclosure. - [
Fig. 6] Fig. 6 is a flowchart of a thin film forming method performed using the thin film application device according to the first embodiment. - [
Fig. 7] Fig. 7 is a flowchart of a thin film forming method performed using the thin film application device according to the first embodiment. - [
Fig. 8] Fig. 8(a) is a cross-sectional view illustrating one example of thin film, and (b) is a cross-sectional view illustrating another example of thin film. - [
Fig. 9] Fig. 9 is schematic cross-sectional views for describing methods of cutting the thin film. - [
Fig. 10] Fig. 10(a) is a schematic diagram for describing a state at the time of thin film being peeled away from the supporting member, and (b) is a schematic diagram for describing the state at the time of the thin film being peeled away from a soft member. - [
Fig. 11] Fig. 11 is a perspective view illustrating a modification of the thin film application device according to the first embodiment. - [
Fig. 12] Fig. 12 is schematic diagrams for describing a thin film forming method performed using a thin film application device according to a second embodiment. - [
Fig. 13] Fig. 13(a) is a perspective view illustrating a modification of the thin film application device according to the second embodiment obliquely from the front side, (b) is a perspective view of the modification from the rear side, and (c) is a schematic diagram illustrating a user mounting the thin film application device. - [
Fig. 14] Fig. 14 is a flowchart of a thin film forming method performed using the thin film application device according to the second embodiment. - [
Fig. 15] Fig. 15 is schematic diagrams for describing a thin film forming method performed using a thin film application device according to a third embodiment. - [
Fig. 16] Fig. 16 is a flowchart of the thin film forming method performed using the thin film application device according to the third embodiment. - [
Fig. 17] Fig. 17 is schematic diagrams for describing a thin film forming method performed using a thin film application device according to a fourth embodiment. - [
Fig. 18] Fig. 18 is a flowchart of the thin film forming method performed using the thin film application device according to the fourth embodiment. Description of Embodiments - The structure of a thin
film application device 600 according to the present embodiment will be described with reference toFigs. 1 through 4 . - The thin
film application device 600 is, for example, for applying athin film 702 to an applied face (discoloration region 511) of auser 400, in a state of being mounted to an application object (user 400), as illustrated inFig. 1 (hereinafter referred to as mounted state). Note that the applied face is not restricted to adiscoloration region 511, and various regions are applicable, such as wrinkle regions of wrinkles and so forth formed on the face of the user, scar regions of scars or the like, and so forth, for example. - Now, the orientation of the members will be described in the following description based on an orthogonal coordinates system (X, Y, Z) illustrated in
Figs. 1 through 3 , to facilitate description. Specifically, in the orthogonal coordinates system (X, Y, Z), the X axis direction is the left-right direction and width direction of theuser 400, the Y axis direction is the up-down direction of theuser 400, and the Z axis direction is the front-back direction of theuser 400. In other words, in the orthogonal coordinates system (X, Y, Z), the X axis direction is the left-right direction and width direction of afacial image 500 illustrated inFig. 1 , the Y axis direction is the up-down direction of thefacial image 500, and the Z axis direction is the front-back direction of the facial image 500 (in other words, the depth direction). Note that the up-down direction of theuser 400 and thefacial image 500 does not necessarily match the vertical direction (in other words, the direction in which gravity acts). - The thin
film application device 600 is formed generally in the shape of eyeglasses, and has aframe 620 and a pair of thinfilm holding members 640, as illustrated inFigs. 1 through 4 . Note thatFigs. 2 and3 omit the pair of thinfilm holding members 640 from illustration. - The
frame 620 functions to mount the thinfilm application device 600 to theuser 400 like wearing eyeglasses. - The pair of thin
film holding members 640 is pivotably supported as to theframe 620, and has a function where thin film is tentatively applied to a tentative loading portion provided to the rear face thereof. The tentative loading portion of the pair of thinfilm holding members 640 services as a pressing portion that, in a mounted state, presses the thin film against an applied face that is the skin (normally the skin of the user him/herself). Note that the pair of thinfilm holding members 640 may be supported on theframe 620 so as to be capable of displacement, such as sliding or the like, for example. - Next, the configurations of each of the
frame 620 and the pair of thinfilm holding members 640 will be described with reference toFigs. 1 through 4 . - The
frame 620 is configured of silicon (Si), synthetic resin, metal, or the like, for example, and has a framemain unit 621, a pair ofretaining portions 622, and a pair of supportingportions 623. Note that the framemain unit 621, the pair ofretaining portions 622, and the pair of supportingportions 623 may be configured of the same material, or may be configured of different materials. - From the middle in the width direction, the frame
main unit 621 curves backwards overall the further toward the outer side in the width direction, and has a pair offrame elements 624 that are separated in the width direction, and aconsecutive portion 625. In other words, the framemain unit 621 is curved so as to follow theface 401 of theuser 400 in the mounted state. Thisconsecutive portion 625 makes the pair offrame elements 624 to be consecutive with each other in the width direction. - The front face of the
consecutive portion 625 has a width-direction reference line 626 in the form of a line formed extending in the width direction, and a vertical-direction reference line 627 in the form of a line formed extending in the vertical direction in the same way. An intersection between the width-direction reference line 626 and the vertical-direction reference line 627 serves as adevice base point 501 that is a reference point instructing portion. Thedevice base point 501 may be configured by a recess, a protrusion, a through hole, a decal, paint, or the like. The position of thedevice base point 501 is not restricted to the aforementioned position. - The pair of
frame elements 624 has amiddle frame 628 extending in the width direction, an inner-side frame 629 extending downwards from the inner side of themiddle frame 628 in the width direction, and an outer-side frame 630 extending downwards from the outer side edge in the same way. - The pair of retaining
portions 622 are portions for mounting the thinfilm application device 600 on theuser 400. In other words, the pair of retainingportions 622 are equivalent to the temples of eyeglasses, with the rear end portions thereof being retained at the ears of theuser 400. Specifically, the retainingportions 622 are provided integrally with theframe elements 624, extending toward the rear side from both ends of the framemain unit 621 in the width direction. The rear end portions of these the retainingportions 622 are inclined downwards the further toward the rear side. Accordingly, stability of the retained state of the retainingportions 622 and theears 402 of theuser 400 can be realized in a mounted state. - The pair of supporting
portions 623 are generally pentagon-shaped platelike members in front-back view. The outer edge portions of these supportingportions 623 are pivotably supported at the outer-side frames 630 of theframe elements 624 viahinge mechanisms 631. That is to say, the pair of supportingportions 623 is capable of pivoting between a closed state illustrated inFigs. 1(e) ,2 , and3 , and an open state illustrated inFig. 1(a) . In the closed state of the thinfilm application device 600, the width-direction inner edge portions of the pair of supportingportions 623 engage the inner-side frames 629 of theframe elements 624. This engaging preferably occurs at an engaging force of an extend to where the supportingportions 623 do not readily pivot. - Also, generally pentagon-shaped
holding recess portions 632 in front-back view are formed on the rear face of the supportingportions 623. These holdingrecess portions 632 having a function of holding the thinfilm holding members 640 in a state regulated to a predetermined relation (i.e., in a uniquely determined state). The holdingrecess portions 632 preferably have shapes that are not rotationally symmetrical in front-back view (i.e., a shape that only matches itself after being rotated 360 degrees). Note that the shapes and number of the holdingrecess portions 632 are not restricted to the arrangement in the present embodiment. For example, one or moreholding recess portions 632a that are rotated by a predetermined angle from the holdingrecess portions 632 and have a different depth may be provided, as illustrated inFig. 11 . Theuser 400 can select the holding recess portion to use in accordance with the shape of his/herown face 401, the position of thediscoloration region 511, or the like. Note that the structure illustrated inFig. 11 is to describe a modification of the holding recess portions, and other structures are the same as a thinfilm application device 600b described inFig. 13 which will be described later, so detailed description will be omitted. - Also, frame-
side fixing portions 633 configured of magnets or the like are provided on the rear face of the holdingrecess portions 632. - Note that the structure of the rear face of the
frame 620 differs between the structure illustrated inFigs. 2 and3 and the structure illustrated inFig. 1(c) . Specifically, in the case of the structure illustrated inFig. 1(c) , a pair ofelastic members portions 623 and the rear face of theconsecutive portion 625, on the rear face of theframe 620. Accordingly, the thin mounted state of thefilm application device 600 according to the present embodiment can be adjusted within the range of elastic deformation of theelastic members face 401 of theuser 400. - The thin
film holding members 640 have a supportingbase 641 and asoft member 642, as illustrated inFig. 4 . - The supporting
base 641 is configured of synthetic resin, silicon (Si), metal, or the like, and is a plate-shaped member that is curved toward the rear side the further toward the outer side in the width direction. The supportingbase 641 has a general pentagon shape that is the same shape or generally the same shape as that of the holdingrecess portion 632, in front-back view. The supportingbase 641 also has a supporting-base-side fixing portion 643, formed of a magnet or the like, at the front face thereof. The supporting-base-side fixing portion 643 of the supportingbase 641 can be detachably fixed to the frame-side fixing portion 633 of the holdingrecess portion 632. - In this state, the supporting
base 641 is disposed on the inner side of the holdingrecess portion 632 in a state with rattling substantially suppressed. In the case of the present embodiment, the holdingrecess portion 632 and the supportingbase 641 have the same shape in front-back view, and neither has rotational symmetry, so in a state where the supportingbase 641 is disposed on the inner side of the holdingrecess portion 632, the supportingbase 641 and holdingrecess portion 632 are restricted to a predetermined relation. - Note that the supporting-base-
side fixing portion 643 may be provided on the rear face of the supportingbase 641, or embedded in the supportingbase 641. In the case of the present embodiment, the structure where the positional relation between the supportingbase 641 and holdingrecess portion 632 is restricted to a predetermined relation is realized by innovation of the form of the supportingbase 641 and holdingrecess portion 632. Note however, that a structure where the positional relation between the supportingbase 641 and holdingrecess portion 632 is restricted to a predetermined relation may be realized by innovation of the structure of the frame-side fixing portion 633 and supporting-base-side fixing portion 643. - The
soft member 642 is a plate-shaped member such as a sponge, rubber sheet, or the like, for example, that is soft and absorbs water. An example of material for such a sponge is ethylene α-olefin copolymer, polyurethane, melamine resin, or the like. Thesoft member 642 has a general pentagon shape that is the same shape as the holdingrecess portion 632 and supportingbase 641 in the front-back view. The front face of thissoft member 642 is fixed to the rear face of the supportingbase 641 by ab adhesive agent or the like. The rear face of thesoft member 642 is atentative application portion 644 where the thin film can be tentatively applied. Thistentative application portion 644 is formed as a curved face that heads toward the rear side the further toward the outer side in the width direction. - The thin
film application device 600 that has the configuration such as described above is mounted to theuser 400 by the pair of retainingportions 622 being retained at theears 402 of theuser 400, and the rear face of theconsecutive portion 625 of the framemain unit 621 being engaged with the upper end portion of thenose 403 of theuser 400, as illustrated inFigs. 1(a) and (e) . Note that in the case of the present embodiment, theeyes 404 of theuser 400 are not covered by the thinfilm application device 600 in the mounted state. In other words, in the mounted state, theeyes 404 of theuser 400 are not overlaid with the thinfilm application device 600 with regard to the front-back direction. - Next, the thin film structure used in the thin
film application device 600 according to the first embodiment will be described. - A
thin film structure 700 has a supportingmember 701, and thethin film 702 on which animage portion 703 is formed on part of the front side. - The supporting
member 701 is a sheet-shaped member of a predetermined shape, and is configured of paper or non-woven fabric, porous film, nanofiber sheets, or the like, that absorbs water and has hydrophilicity. A second supporting member (omitted from illustration) that is different from the supportingmember 701 may be further provided. The second supporting member is configured of plastic or the like, and is provided in close contact with the reverse face of the supportingmember 701 to the face where thethin film 702 is placed. The area of the side of the second supporting member where the supportingmember 701 is in contact may be the same area as that of the face of the supportingmember 701, but preferably is a larger area. Assistance mark images may also be formed on the second supporting member. Providing the second supporting member in this way can impart thethin film structure 700 with strength, and the user can handle thethin film structure 700 more readily. This supportingmember 701 has a general pentagon shape that is of the same shape as the holdingrecess portion 632 of theframe 620 configuring the thinfilm application device 600, and the supportingbase 641 of the thinfilm holding member 640, in plane view. - The
thin film 702 is a sheet-shaped member that has permeability and biocompatibility. The materials of such athin film 702 are not restricted in particular, and an optional thin film can be used. Examples of the material of the thin film include polyesters of which polyglycolic acid, polylactic acid, polycaprolactone, polyethylene succinate, polyethylene terephthalate, and copolymers thereof are representative, polyethers of which polyethylene glycol and polypropylene glycol are representative, polyamides of which nylon, polyglutamic acid, polyaspartic acid, and salts thereof are representative, polysaccharides of which pullulan, cellulose, starch, chitin, chitosan, alginic acid, hyaluronic acid, corn starch, and salts thereof are representative, silicones of which acrylic silicone and trimethylsiloxysilicic acid are representative, acrylates of which alky acrylate, silicone acrylate, amide acrylate, and copolymers thereof are representative, polyvinyl alcohol, polyurethane, polycarbonate, polyanhydrides, polyethylene, and polypropylene. 10 to 10,000 nm (10 nm to 10 µm) can be used for the thickness of thethin film 702, and particularly 10 to 1,000 nm is preferable. In a case where the thin film has hydrophobic nature, 10 to 800 nm is particularly preferable. Thisthin film 702 has a general pentagon shape that is of the same shape as the supportingbase 641 andsoft member 642 of the thinfilm holding member 640, in plane view. Also, the outer edge of thethin film 702 is the same as the outer edge of the supportingmember 701 as illustrated inFig. 8(a) , or slightly (e.g., 30 µm) smaller, as illustrated inFig. 8(b) . Thethin film 702 is loaded to one side face of the supporting member 701 (the front side face inFig. 1(c) ) so as to be capable of being peeled away. The difference between the outer edge of thethin film 702 and the outer edge of the supportingmember 701 is substantially within the range of being the same shape, as described above. There are cases where optional slits are provided to thethin film 702 at the periphery or in plane, so as to be able to conform to the shape of thediscoloration region 511 or the periphery of thediscoloration region 511. - The
image portion 703 is configured of a coloring matter such as cosmetics or the like, for example, and is formed by printing or the like, for example, on one side face (the front side face inFig. 1(c) ) of thethin film 702. Theimage portion 703 may be printed not only of coloring matter, but for example, active components such as medical substances or the like that promote improvement of the discoloration region 511 (whitening components, vitamins, or moisturizing components), UV absorbents, UV reflective agents, and so forth. In a case where a wrinkle region such as wrinkles is detected from the facial image that has been taken, a moisturizing component may be printed on theimage portion 703 and theimage portion 703 applied to the wrinkle region. Thisimage portion 703 is provided at a portion overlaying thediscoloration region 511 in the front-back direction in a state where thethin film 702 is tentatively applied to a portion of thetentative application portion 644 of the thinfilm application device 600, and theuser 400 has mounted the thin film application device 600 (hereinafter, simply referred to as "usage state"). Note that theimage portion 703 does not necessarily have to be the same size and shape as thediscoloration region 511. For example, theimage portion 703 may be larger than thediscoloration region 511 by a predetermined largeness. - The
thin film 702 making up thethin film structure 700 is arranged such that theimage portion 703 is applied to thediscoloration region 511 by one side face of thethin film 702 being pressed against thediscoloration region 511, for example. - Next, the overview of the makeup support system used for forming the above-described thin film will be described with reference to
Fig. 5 . - In
Fig. 5 , amakeup support system 100 has animage processing device 200 including anillumination unit 201, acamera 202, and adisplay unit 203 such as a liquid crystal display with a touch panel or the like, and aprinting device 300, communicably connected to theimage processing device 200. Theimage processing device 200 andprinting device 300 are installed in, for example, factories, cosmetics shops, beauty shops, medical institutions, makeup rooms for grooming, event sites, private residences, and so forth. Note that theimage processing device 200 may be a portable device that is readily carried. - An image acquiring unit (omitted from illustration) that the
image processing device 200 has photographs theface 401 of theuser 400 situated at the front of thedisplay unit 203, using thecamera 202 situated near thedisplay unit 203, in a state of being illuminated by theillumination unit 201. Theimage processing device 200 then displays a facial image 500 (seeFig. 1 ) which is the photographed image that has been inverted in the horizontal direction on thedisplay unit 203. That is to say, theimage processing device 200 is configured to give the user 400 a sensation close to that of looking into a mirror. Note thatFig. 5 only illustrates a part of thefacial image 500. Thefacial image 500 includes a mounting object image where theuser 400 has mounted the thin film application device, and a non-mounting object image where the same is not mounted. - Note that in a case where the
user 400 has a facial image as data or a printed article beforehand, photographing by thecamera 202 may be omitted. In this case, an input device (omitted from illustration) for reading in the facial image that theuser 400 has as data is preferably provided. - A mounting determining unit (omitted from illustration) that the
image processing device 200 has analyzes thefacial image 500, and determines whether or not theuser 400 in thefacial image 500 has mounted the above-described thin film application device 600 (see (a) and (d) inFig. 1 ). In other words, the mounting determining unit that theimage processing device 200 has determines whether thefacial image 500 is a mounting object image where theuser 400 is in a state of having mounted the thin film application device, or a non-mounting object image where theuser 400 is in a state of having not mounted the thin film application device. - In a case where the mounting determining unit determines that the
user 400 has mounted the thinfilm application device 600, a device information obtaining unit (omitted from illustration) that theimage processing device 200 has obtains thedevice base point 501 provided on the thinfilm application device 600 from thefacial image 500. The method for obtaining thedevice base point 501 from thefacial image 500 is almost the same as a method for obtaining feature points of faces from facial images, described in Japanese Unexamined Patent Application Publication No.2014-183917 - The device information obtaining unit of the
image processing device 200 sets a device coordinates system (e.g., a coordinates system where the horizontal direction of theuser 400 is an X1 axis and the vertical direction is a Y1 axis) of which thedevice base point 501 is the origin, as illustrated inFig. 1(b) . Note that the device coordinates system may be three dimensional, and is not limited to being two-dimensional. In a case of being three dimensional, a three-dimensional coordinates system is set based on multiple images taken from different angles, for example. - An object information obtaining unit (omitted from illustration) that the
image processing device 200 has obtains thediscoloration region 511 that is the applied face from thefacial image 500, and obtains object coordinates that are the coordinates of thediscoloration region 511 relating to the device coordinates system. Theimage processing device 200 can obtain the coordinates of all points making up thediscoloration region 511, or a part of the coordinates. In a case where there arediscoloration regions 511 at multiple locations that are separated from each other, the coordinates of eachdiscoloration region 511 are obtained. The object information obtaining unit of theimage processing device 200 also obtains information relating to the color of a peripheral region 512 of thediscoloration region 511. - A print information obtaining unit (omitted from illustration) that the
image processing device 200 has obtains, coordinates of a portion of an uncut structure 704 (seeFig. 1(c) ) where theimage portion 703 is to be printed as image portion position information, based on the object coordinates set as described above. Note that theuncut structure 704 is a material of thethin film structure 700, and is a sheet-shaped member before being cut into the usage state form, and on which theimage portion 703 is printed. - Specifically, the
uncut structure 704 has a sheet-shaped uncut supportingmember 705, and a sheet-shaped uncutthin film 706 that is loaded to one side face (the front side face inFig. 1(c) ) of the uncut supportingmember 705 in a state capable of being peeled away. - The method of obtaining the image portion position information specifically is to obtain coordinates of a portion corresponding to the coordinates of the
discoloration region 511 in theuncut structure 704, in a state where theuncut structure 704 is assumed to have been placed in the device coordinates system, as image portion position information. At this time, the portion corresponding to the device base point 501 (i.e., the origin of the device coordinates system) is obtained as position information of a printing base point 707 (hereinafter referred to as printing base point position information). - The print information obtaining unit that the
image processing device 200 has obtains coordinates of a portion making up the perimeter (outline) of thethin film structure 700 in the usage state, in a state where theuncut structure 704 is assumed to have been placed in the device coordinates system, as cutting position information. - An image data generating unit (omitted from illustration) that the
image processing device 200 has generates print image data from the printing base point position information and image portion position information, and outputs to theprinting device 300. In this case, the image data generating unit also outputs cutting position information to theprinting device 300. Note that print image data may be generated and output to theprinting device 300 based on cutting position information and image portion position information, instead of the printing base point position information. - The
printing device 300 prints an image on thethin film 702 making up theuncut structure 704, based on the print image data obtained from the print information obtaining unit that that theimage processing device 200 has. Specifically, in a case where the pint image data includes the printing base point position information and image portion position information, theprinting device 300 prints theprinting base point 707 illustrated inFig. 1(c) and theimage portion 703 that is an overlaid image on theuncut structure 704. - On the other hand, in a case where the printing image data includes the cutting position information and image portion position information, the
printing device 300 prints theimage portion 703, and a portion corresponding to the perimeter of thethin film structure 700 indicated by a two-dot dashed line, illustrated inFig. 1(c) on theuncut structure 704. Materials such as ink that theprinting device 300 uses for printing, and specific configurations of each portion are described in PTL 3 through 5 for example, so detailed description will be omitted here. - In a case where only the
printing base point 707 andimage portion 703 are printed on theuncut structure 704, theprinting device 300 obtains a portion corresponding to the perimeter of thethin film structure 700 based on the cutting position information received from the image processing device 200 (the portion indicated by the two-dot dashed line inFig. 1(c) ), and cuts theuncut structure 704 along this portion. - On the other hand, in a case where the
image portion 703 and a portion corresponding to the perimeter of thethin film structure 700 are printed on theuncut structure 704, theprinting device 300 cuts theuncut structure 704 along this portion. - A method for cutting the
uncut structure 704 by theprinting device 300 will be briefly described below. Theprinting device 300 cuts thethin film structure 700 along the periphery while irradiating the portion corresponding to the periphery of thethin film structure 700 in theuncut structure 704 with alaser 708, as illustrated inFig. 9(b) . At this time, the material making up thethin film 702 is less tolerant to heat than the material making up the supportingmember 701, so the cut face of thethin film 702 shrinks more in a direction away from thelaser 708 than the cut face of the supportingmember 701, due to the heat of thelaser 708. As a result, the perimeter of thethin film 702 is situated slightly toward the middle side of thethin film 702 from the perimeter of the supportingmember 701. Note that athin film structure 700 having the same features can be obtained in a case of employing a configuration where theuncut structure 704 is cut by aheated cutter 709 as illustrated inFig. 9(c) for example, instead of thelaser 708. According to this cutting method, just the supportingmember 701 can be engaged by the fingers when peeling the supportingmember 701 away from thethin film structure 700, so the supportingmember 701 can be peeled away from thethin film structure 700 more easily. - While
Fig. 9 illustrates the uncut supportingmember 705 being cut as well, an arrangement can be made where only the uncutthin film 706 is cut while leaving the uncut supportingmember 705 uncut, by adjusting the laser output. A thin film structure obtained by cutting in this way will have a structure where multiplethin films 702 are loaded on one side of the uncut supportingmember 705. In a case of such a structure, pressing thetentative application portion 644 against thethin film 702 so that the cut portion of thethin film 702 matches the perimeter of thetentative application portion 644 of the thinfilm holding member 640 enables just the thin film of a necessary shape to be peeled away (lifted) from the uncut supportingmember 705 following the cut. - An example of a thin film forming method performed using the
film application device 600 according to the first embodiment will be described with reference toFigs. 1 and6 . Note that the thin film forming method according to the present example is performed using the above-describedimage processing device 200. - First, in step S1, the
user 400 mounts the thinfilm application device 600 in an opened state as illustrated inFig. 1(a) , and obtains thefacial image 500 that is a mounting object image by photographing theface 401 using the camera 202 (seeFig. 5 ) of theimage processing device 200. In the case of the thin film forming according to the present example, thefilm application device 600 is in the opened state, so thediscoloration region 511 is in thefacial image 500. Note that in a case where theuser 400 has afacial image 500 as data or a printed article beforehand, thefacial image 500 is input from an input device that theimage processing device 200 has. Thefacial image 500 is also displayed on thedisplay unit 203 as necessary. Note that a state where theuser 400 has mounted the thinfilm application device 600 in an opened state and the pair of supportingportions 623 of thefilm application device 600 do not cover thediscoloration region 511 that is the applied face (e.g., not overlaid in the front-back direction), illustrated inFig. 1(a) , corresponds to a second position of the pair of supportingportions 623. - Next, in step S2, the device information obtaining unit that the
image processing device 200 has analyzes thefacial image 500, and obtains thedevice base point 501 provided on the thinfilm application device 600 mounted by theuser 400 in thefacial image 500. A device coordinates system with thedevice base point 501 as the origin is set as illustrated inFig. 1(b) . - Next, in step S3, the object information obtaining unit that the
image processing device 200 has obtains thediscoloration region 511 from thefacial image 500, and also obtains object coordinates that are the coordinates of thediscoloration region 511 relating to the device coordinates system. - Next, in step S4, the print information obtaining unit that the
image processing device 200 has obtains image portion position information that is the coordinates corresponding to the portion of theimage portion 703 in the uncut structure 704 (seeFig. 1(c) ), based on the object coordinates. Specifically, coordinates corresponding to the coordinates of thediscoloration region 511 in theuncut structure 704, in a state where the uncut structure 704 (uncut supportingmember 705 or uncut thin film 706) is assumed to be placed in the device coordinates system, are obtained as image portion position information, as illustrated inFig. 1(c) . - Next, in step S5, the print information obtaining unit that the
image processing device 200 has obtains a portion corresponding to the device base point 501 (i.e., origin) in the device coordinates system as print base point position information. Print image data including the image portion position information and the print base point position information is generated. - Next, in step S6, the print information obtaining unit that the
image processing device 200 has obtains coordinates of the portion corresponding to the perimeter of thethin film structure 700, in a state where theuncut structure 704 is assumed to be placed in the device coordinates system, and obtains these coordinates as cutting position information. - Next, in step S7, the
printing device 300 prints theimage portion 703 andprinting base point 707 on the uncutthin film 706 making up the uncutthin film 700, based on the print image data. - Finally, in step S8, the
printing device 300 cuts theuncut structure 704 into a predetermined shape (in the case of the present example, a general pentagon shape). In the case of the thin film forming method according to the present example, only theprinting base point 707 andimage portion 703 are printed on theuncut structure 704. Accordingly, theprinting device 300 obtains the portion of theuncut structure 704 that corresponds to the perimeter of the thin film structure 700 (the portion indicated by two-dot dashed lines inFig. 1(c) ) based on cutting position information received from theimage processing device 200, and cuts along this position. The cutting method of theuncut structure 704 by theprinting device 300 is as described above. Note that a sheet-shaped member already cut in the shape of the perimeter of thethin film structure 700 can be provided before the printing in step S7. In this case, step S8 can be omitted. - An example of a thin film application method performed using the thin
film application device 600 according to the first embodiment will be described with reference toFigs. 1 and7 . Note that in the following description, a case will be described where there is adiscoloration region 511 on only one cheek (the left cheek inFig. 1(a) ) of theuser 400. However, the basic thin film application method is the same in a case where there arediscoloration regions 511 on both cheeks. - First, in step S11, the
user 400 removes one thinfilm holding member 640 from the thinfilm application device 600. - Next, in step S12, the
thin film structure 700 is placed in arecess 661 of a holdingmember 660 illustrated inFig. 4(a) in a state where thethin film 702 is on the top. The shape of therecess 661 in plane view (i.e., the shape as viewing from above inFig. 4 ) is substantially the same as the shape of thethin film structure 700 in plane view. Note that substantially the same includes difference where thethin film structure 700 can be placed within therecess 661 without rattling. The shape of therecess 661 of the holdingmember 660 in plane view does not have rotational symmetry, either. - Next, in step S13, the
soft member 642 of the thinfilm holding member 640 is wetted using a mister or the like. - Next, in step S14, the
tentative application portion 644 of thesoft member 642 is pressed against the front face of thethin film 702 that has been placed in therecess 661 of the holdingmember 660. Thus, thethin film structure 700 is tentatively applied to thetentative application portion 644 of thesoft member 642 across thethin film 702. In this state, the supportingmember 701 is loaded on thethin film 702. - Note that in the case of the thin film applying method according to the present example, the shape of the
soft member 642 in the front-back direction is substantially the same as the shape of therecess 661 of the holdingmember 660 in plane view. Accordingly, the positional relation between thesoft member 642 and thethin film structure 700 is restricted to a predetermined relation in a state where thethin film structure 700 is tentatively applied to thesoft member 642. Note that thethin film 702 of thethin film structure 700 can be tentatively applied to thetentative application portion 644 of thesoft member 642 by hand, as long as the positional relation between hesoft member 642 and thethin film structure 700 can be restricted to a predetermined relation. - Next, in step S15, one thin
film holding member 640 is inserted to the inner side of the holdingrecess portion 632 of one supportingportion 623, in a state where the thinfilm application device 600 is closed, and the supporting-base-side fixing portion 643 of one thinfilm holding member 640 is detachably fixed to the frame-side fixing portion 633 of one supportingportion 623, as illustrated inFig. 1(d) . In this state, the positional relation between the one thinfilm holding member 640 and the frame 620 (one supporting portion 623) is restricted to a predetermined relation. Accordingly, the positional relation between thethin film structure 700 and thinfilm application device 600 is also restricted to a predetermined relation. Note that the above-described work may be performed in a state where the thinfilm application device 600 is opened, and then the thinfilm application device 600 is placed in a closed state after having fixed the one thinfilm holding member 640 to theframe 620. - Next, in step S16, the
user 400 peels the supportingmember 701 away from thethin film structure 700, as illustrated inFig. 4(b) . At this time, awater layer 663 has been formed on the supportingmember 701 between the supportingmember 701 and thethin film 702 as illustrated inFig. 10(a) , so the supportingmember 701 can be easily peeled away from the thin film structure 700 (thin film 702). - Next, in step S17, the
user 400 mounts the thinfilm application device 600 in a closed state, as illustrated inFig. 1(e) . In this state, theimage portion 703 of thethin film 702 that has been tentatively applied to thetentative application portion 644 of the thinfilm application device 600 overlays thediscoloration region 511 in the front-back direction. In other words, in the case of thethin film 702 that has been fabricated by the thin film forming method such as described above, the coordinates of theimage portion 703 of thethin film 702 tentatively applied to thetentative application portion 644 are equal to the coordinates of thediscoloration region 511 in the device coordinates system. Accordingly, thethin film 702 is pressed against thediscoloration region 511 in the state illustrated inFig. 1(e) . Note that the front face of one (the left side inFig. 1(e) ) supportingportion 623 may be pressed toward thediscoloration region 511 as necessary. Note that the state where theuser 400 has mounted the thinfilm application device 600 in a closed state and the pair of supportingportions 623 of the thinfilm application device 600 cover (i.e., overlaid in the front-back direction) thediscoloration region 511 that is the applied face, as illustrated inFig. 1(e) , corresponds to the first position of the pair of supportingportions 623. - Finally, in step S18, the
user 400 removes the thinfilm application device 600, whereupon thethin film 702 is peeled away from thetentative application portion 644 of the thinfilm application device 600, and theimage portion 703 of thethin film 702 is applied to thediscoloration region 511, as illustrated inFig. 1(f) . Note that in the case of the thin film application method according to the present example, portions of thethin film 702 other than theimage portion 703 are applied to the periphery of thediscoloration region 511, but are inconspicuous due to be uncolored and transparent. There is thewater layer 663 formed between thethin film 702 andtentative application portion 644 as illustrated inFig. 10(b) , so thethin film 702 readily peels away from thetentative application portion 644 when removing the thinfilm application device 600. - According to the thin
film application device 600 of the present embodiment having the configuration described above, thethin film 702 can be efficiently applied to thediscoloration region 511. That is to say, when theuser 400 mounts the thinfilm application device 600 in a state where thethin film 702 formed by the above-described forming method is tentatively applied to thetentative application portion 644 of the thinfilm application device 600, theimage portion 703 of thethin film 702 overlays thediscoloration region 511 in the front-back direction. Accordingly, theimage portion 703 of thethin film 702 can be accurately applied to thediscoloration region 511 that is the application target. As a result, the task of peeling and reapplying thethin film 702 can be reduced, and the work efficiency of applying thethin film 702 can be improved. - Also, in the case of the thin
film application device 600 according to the present embodiment, the task of pressing thethin film 702 against thediscoloration region 511 can be performed without using the hands. Accordingly, the possibility of thethin film 702 being deformed or damaged at the time of application work can be reduced. Also, according to the thinfilm application device 600 of the present embodiment, photography of theuser 400 when carrying out the forming method using the thinfilm application device 600 only needs to be performed once, so the work efficiency of forming thethin film 702 can be improved. - Although the thin
film application device 600 according to the above-described first embodiment has thetentative application portion 644 formed to the rear face of thesoft member 642, a hydrophilic member that has hydrophilicity at a face that faces thediscoloration region 511 at least in the usage state can be employed instead of the soft member. In this case, the rear face of the hydrophilic member serves as the tentative application portion. - A thin
film application device 600a according to a second embodiment will be described with reference toFig. 12 . - The structure of the thin
film application device 600a according to the present embodiment differs from the thinfilm application device 600 according to the above-described first embodiment with regard to the structure of a pair of supportingportions 623a. Other structures are the same as the thinfilm application device 600 according to the first embodiment, so description will be made below primarily regrading points of difference. - The thin
film application device 600a has the one pair of supportingportions 623a formed integrally with the framemain unit 621. Accordingly, the one pair of supportingportions 623a do not pivot as to the framemain unit 621. Accordingly, thediscoloration region 511 cannot be viewed form the front side in a state where theuser 400 has mounted the thinfilm application device 600a, as illustrated inFig. 12(b) . Other structures are the same as with the thinfilm application device 600 according to the above-described first embodiment. - Next, an overview of the makeup support system, used in a thin film forming method that will be described later, will be described with reference to
Figs. 5 and12 . Note that description of configurations of the image forming device that the makeup support system has, that would be redundant with content already described, will be omitted as possible. - In the case of the present example, in a case where an object information obtaining unit (omitted from illustration) that the
image processing device 200 has analyzes facial images (e.g.,facial images Figs. 5 and12 ) and determines that theuser 400 in the facial images does not have the thinfilm application device 600a mounted, obtains anobject base point 406, which is a feature point, from thefacial image 500a that is a mounting object image. The object information obtaining unit then sets an object coordinates system where theobject base point 406 is the origin (e.g., a coordinates system where the horizontal direction of theface 401 of theuser 400 is the X2 axis and the vertical direction is the Y2 axis), as indicated by the dashed lines inFig. 12(c) . Feature points are, for example, the intersection between a line α1 that follows the ridge of the nose and a line α2 that connects the eyes, between the eyebrows, the eyes, the mouth, or the like. A method for obtaining feature points from facial images is described in Japanese Unexamined Patent Application Publication No.2014-183917 - Also, the object information obtaining unit that the
image processing device 200 has obtains thediscoloration region 511 from thefacial image 500a and obtains object coordinates that are coordinates of thediscoloration region 511 relating to the object coordinates system. - A base point determining unit (omitted from illustration) that the
image processing device 200 has determines whether thedevice base point 501 that is a reference point indicating portion overlays theobject base point 406 in the front-back direction in thefacial image 500b illustrated inFig. 12(b) . - In a case where, as a result of the base point determining unit performing determining, the
device base point 501 and objectbase point 406 are judged to not be overlaid in the front-back direction, a position information correcting unit (omitted from illustration) that theimage processing device 200 has converts object coordinates that are coordinates of thediscoloration region 511 relating to the object coordinates system into coordinates of thediscoloration region 511 relating to the device coordinates system, and obtains these as corrected object coordinates. - On the other hand, in a case where, as a result of the base point determining unit performing determining, the
device base point 501 and objectbase point 406 are judged to be overlaid in the front-back direction, the position information correcting unit that theimage processing device 200 has maintains the object coordinates that are the coordinates of thediscoloration region 511 relating to the object coordinates system as they are. - An example of a thin film forming method using the thin
film application device 600a according to the second embodiment will be described with reference toFigs. 12 and14 . Note that description of the thin film application method will be omitted, since it is the same as the thin film application method described with reference toFig. 1 . The thin film forming method described below is carried out using the above-describedimage processing device 200. - The thin film forming method according to the present example is a method suitable for a cause of using the thin
film application device 600a where the pair of supportingportions 623a cannot pivot as to the framemain unit 621, and thediscoloration region 511 cannot be visually recognized from the front side in a mounted state. - Specifically, first, in step S21, the
user 400 photographs theface 401 using thecamera 202 of the image processing device 200 (seeFig. 5 ) in a state of not mounting the thinfilm application device 600a, as illustrated inFig. 12(a) , thereby obtaining thefacial image 500a. Thediscoloration region 511 is in thefacial image 500a in this state. Note that with the forming method according to the present example as well, in a case where theuser 400 has afacial image 500a as data or a printed article beforehand, thefacial image 500a is input from an input device that theimage processing device 200 has. Thefacial image 500 is also displayed on thedisplay unit 203 as necessary. - Next, in step S22, an
object base point 406 that is a feature point is obtained from thefacial image 500a, by the object information obtaining unit that theimage processing device 200 has. An object coordinates system (e.g., a coordinates system where the horizontal direction of theface 401 of theuser 400 is an X2 axis and the vertical direction is the Y2 axis) with theobject base point 406 as the origin is set, such as illustrated by dashed lines inFig. 12(c) . - Next, in step S23, the object information obtaining unit that the
image processing device 200 has obtains thediscoloration region 511 from thefacial image 500a, and coordinates of thediscoloration region 511 relating to the object coordinates system are obtained as object coordinates. - Next, in step S24, the
user 400 mounts the thinfilm application device 600a as illustrated inFig. 12(b) , and photographs theface 401 by thecamera 202 of theimage processing device 200 to obtain the facial image (mounting object image) 500b. Note that in a case where theuser 400 has afacial image 500b as data or a printed article beforehand, thefacial image 500b is input from an input device that theimage processing device 200 has. Thefacial image 500b is also displayed on thedisplay unit 203 as necessary. - Next, in step S25, the
facial image 500b is analyzed by the device information obtaining unit that theimage processing device 200 has, and thedevice reference point 501 provided to the thinfilm application device 600a is obtained. - Next, in step S26, the base point determining unit that the
image processing device 200 has determines whether or not thedevice reference point 501 and theobject base point 406 are overlaid in the front-back direction in thefacial image 500b illustrated inFig. 12(b) . At this time, the correlation between thefacial image 500a and thefacial image 500b is adjusted beforehand. Specifically, the object coordinates system set to thefacial image 500a is set to thefacial image 500b, for example. Position information of theobject base point 406 in thefacial image 500b is obtained. Note that thedevice reference point 501 and theobject base point 406 are not overlaid in thefacial image 500b. - Next, in a case where the base point determining unit that the
image processing device 200 has determined that thedevice reference point 501 and objectbase point 406 are not overlaid in the front-back direction in thefacial image 500b, in step S27 a device coordinates system (e.g., a coordinates system where the horizontal direction of theface 401 of theuser 400 is the X1 axis and the vertical direction is the Y1 axis) of which thedevice base point 501 is the origin is set, as indicated by solid lines inFig. 12(c) . - Next, in step S28, object coordinates that are coordinates of the
discoloration region 511 relating to the object coordinates system are converted into coordinates of thediscoloration region 511 relating to the device coordinates system, and the coordinates after coordinate conversion are obtained as corrected object coordinates. Specifically, (X2a, Y2a) that are coordinates of thediscoloration region 511 with regard to the object coordinates system (X2, Y2) are converted into (X1a, Y1a) that are coordinates of the device coordinates system (X1, Y1), as illustrated inFig. 12(c) , for example. Such coordinate conversion is performed regarding all points making up thediscoloration region 511. - Next, in step S29, the print information obtaining unit that the
image processing device 200 has obtains image portion position information that is the coordinates of the portion corresponding to theimage portion 703 in the uncut structure 704 (seeFig. 1(c) ) as correction object coordinates. Specifically, coordinates corresponding to the corrected object coordinates in theuncut structure 704 are taken as image portion position information in a state where theuncut structure 704 is assumed to be placed in the device coordinates system. - Note that in a case where the base point determining unit that the
image processing device 200 has determines that thedevice reference point 501 and objectbase point 406 are overlaid in the back-front direction in thefacial image 500b, in step S30 the print information obtaining unit that theimage processing device 200 has obtains image portion position information that is the coordinates of a portion corresponding to theimage portion 703 in the uncut structure 704 (seeFig. 1(c) ), based on the object coordinates obtained in step S23. The subsequent steps are the same as the thin film forming method described with reference toFig. 6 . Also, detailed description of the thin film application method will be omitted, since it is the same as the thin film application method described with reference toFig. 7 . - In a case of the thin film application device according to the second embodiment described above, the pair of supporting
portions 623a do not pivot as to the framemain unit 621, so there is no need to provide a pivoting mechanism, and the structure of the thinfilm application device 600a can be simplified. As a result, the manufacturing costs of the thinfilm application device 600a can be reduced. - Also, according to the thin film forming method using the thin
film application device 600a according to the present embodiment, a thin film can be formed that is suitable for use with the thinfilm application device 600a according to the present embodiment where thediscoloration region 511 cannot be visually recognized form the front side in a state where theuser 400 has the thinfilm application device 600a mounted. - Separate from the thin
film application device 600a described above, a thinfilm application device 600b such as illustrated inFig. 13 , for example, can be used with the thin film forming method described above. The thinfilm application device 600b will be briefly described below. - The thin
film application device 600b has the pair of supportingportions 623a formed integrally with the framemain unit 621, in the same way as the thinfilm application device 600a according to the second embodiment described above. Accordingly, the pair of supportingportions 623a do not pivot as to the framemain unit 621. Thus, thediscoloration region 511 cannot be visually recognized form the front side in a state where theuser 400 has the thinfilm application device 600b mounted, as illustrated inFig. 13(c) , with the thinfilm application device 600b as well. - Also, a
forehead covering portion 634 is provided to the framemain unit 621 of the thinfilm application device 600b, at a portion that overlays the lower edge of theforehead 405 of theuser 400 in the front-back direction when mounted. A pair of throughholes 635 that pass through the framemain unit 621 in the front-back direction is formed at portions relating to the vertical direction of theforehead covering portion 634 and the pair of supportingportions 623a. These throughholes 635 are overlaid on theeyes 404 of theuser 400 in the front-back direction, in a mounted state. Accordingly, theuser 400 can see through in the front-back direction, in a mounted state. - At portions of the rear face of the frame
main unit 621 where thenose 403 of theuser 400 and the lower edge portion of theforehead 405 are overlaid in the front-back direction,elastic members film application device 600b can be adjusted within the range of elastic deformation of theelastic members face 401 of theuser 400. - The mounted state of the thin
film application device 600b that has the configuration such as described above can be stabilized, since the area of the portion facing theuser 400 in the front-back direction is larger in the mounted state. - A thin
film application device 600c according to a third embodiment will be described with reference toFig. 15 . - The structure of the thin
film application device 600c according to the present embodiment differs from the thinfilm application device 600 according to the above-described first embodiment with regard to the structure of a frameconsecutive portion 625a making up aframe 620b. Other structures are the same as those of the thinfilm application device 600 according to the first embodiment, so description will be made below primarily regrading points of difference. - In the case of the thin
film application device 600c, a base point throughhole 636 that passes through theconsecutive portion 625a in the front-back direction is formed at the middle in the width direction and toward the upper edge of theconsecutive portion 625a making up theframe 620b. This base point throughhole 636 is formed having a circular shape as viewed in the front-back direction. Note that the shape of the base point throughhole 636 is not restricted to the case of the present embodiment. The base point throughhole 636 may be, for example, a rectangle, polygon, or the like, in the front-back direction, for example. The base point throughhole 636 serves as the device base point that is the base point indicating portion in the case of the present embodiment. Other structures are the same as those of the thinfilm application device 600 according to the first embodiment described above. - Next, a configuration of the makeup support system, used in a thin film forming method that will be described later, will be described with reference to
Figs. 5 and15 . Note that description of configurations of the image processing device that the makeup support system has, that would be redundant with content already described, will be omitted as possible. - In the case of the present example, in a case where an object information obtaining unit (omitted from illustration) that the
image processing device 200 has analyzes afacial images 500c and determines that theuser 400 in thefacial image 500c does not have the thinfilm application device 600c mounted, anobject base point 406b is obtained from thefacial image 500c that is a mounting object image. The object information obtaining unit then sets an object coordinates system where theobject base point 406b is the origin (e.g., a coordinates system where the horizontal direction of the face of theuser 400 is the X1 axis and the vertical direction is the Y1 axis), as indicated by the solid lines inFig. 12(c) . Theobject base point 406b is configured of a decal applied to the face of theuser 400, paint, or the like. The method of obtaining the object base point 406a from thefacial image 500c is almost the same as the method for obtaining feature points from facial images that is described in Japanese Unexamined Patent Application Publication No.2014-183917 - Also, the object information obtaining unit that the
image processing device 200 has obtains thediscoloration region 511 from thefacial image 500c and obtains object coordinates that are coordinates of thediscoloration region 511 relating to the object coordinates system. - An example of a thin film forming method using the thin
film application device 600c according to the third embodiment will be described with reference toFigs. 15 and16 . Note that description of the thin film application method will be omitted, since it is the same as the thin film application method described with reference toFig. 1 . The thin film forming method described below is carried out using the above-describedimage processing device 200. - In the thin film forming method according to the present example, first, in step S31, the
user 400 sets theobject base point 406b, configured of a decal or the like, on an object basepoint setting portion 407 that is a portion of theface 401 of theuser 400 overlaid by the base point throughhole 636 in the front-back direction in a state where the thinfilm application device 600c is mounted, as illustrated inFig. 15(a) . Specifically, in a state where the thinfilm application device 600c is mounted, theobject base point 406b is inserted inside the base point throughhole 636 of the thinfilm application device 600c from the front of the thinfilm application device 600c, and applied to the object basepoint setting portion 407. Note that theobject base point 406b may be set by applying paint or the like, for example, to the object basepoint setting portion 407, instead of a decal. - Next, in step S32, the
user 400 photographs theface 401 by thecamera 202 of the image processing device 200 (seeFig. 5 ) to obtain thefacial image 500c. In this state, thediscoloration region 511 is in thefacial image 500c. Note that in the case of the present embodiment as well, if theuser 400 has afacial image 500c as data or a printed article beforehand, thefacial image 500c is input from an input device that theimage processing device 200 has. Thefacial image 500c is also displayed on thedisplay unit 203 as necessary. - Next, in step S33, the
object base point 406b is obtained from thefacial image 500c by the object information obtaining unit that theimage processing device 200 has. An object coordinates system is then set where theobject base point 406b is the origin (e.g., a coordinates system where the horizontal direction of theface 401 of theuser 400 is the X1 axis and the vertical direction is the Y1 axis), as indicated by the solid lines inFig. 15(c) . - Next, in step S34, the object information obtaining unit that the
image processing device 200 has obtains thediscoloration region 511 from thefacial image 500c, and also obtains object coordinates that are the coordinates of thediscoloration region 511 relating to the object coordinates system. - Next, in step S35, the print information obtaining unit that the
image processing device 200 has obtains image portion position information that is the coordinates of a portion corresponding to theimage portion 703 in the uncut structure 704 (seeFig. 1(c) ), based on the object coordinates. Specifically, coordinates corresponding to the coordinates of thediscoloration region 511 in theuncut structure 704, in a state assuming theuncut structure 704 to be placed in the object coordinates system, are taken as image portion position information. The subsequent steps are the same as the thin film forming method described with reference toFig. 6 . Also, detailed description of the thin film application method will be omitted, since it is the same as the thin film forming method described with reference toFig. 7 . - In the case of the thin film application device according to the third embodiment that has the configuration such as described above, providing the base point through
hole 636 to serve as the device base point in the thinfilm application device 600c enables theobject base point 406b to be set on theface 401 of theuser 400, overlaid by the device base point in the front-back direction, in a state of theuser 400 mounted with the thinfilm application device 600c. Accordingly, the number of times of photography of theface 401 can be made to be once in the thin film forming method performed using the thinfilm application device 600c, and there is no need to perform coordinate conversion as with the thin film forming method described with reference toFig. 14 . - A thin
film application device 600d according to a fourth embodiment will be described with reference toFig. 17 . - The thin
film application device 600d according to the present embodiment differs from the thinfilm application device 600a according to the above-described second embodiment with regard to the structure of a frameconsecutive portion 625b. Specifically, the thinfilm application device 600d has the width-direction reference line 626 and vertical-direction reference line 627 formed on the front face of theconsecutive portion 625b, in the same way as with the thinfilm application device 600 according to the first embodiment described above. Other structures are the same as those of the thinfilm application device 600a according to the second embodiment. Note that the configuration of the image processing device is almost the same as the configuration of theimage processing device 200 described above, so detailed description will be omitted. - An example of a thin film forming method for forming the thin film used by thin
film application device 600d according to the fourth embodiment will be described with reference toFigs. 17 and18 . The thin film forming method according to the present example is carried out using the above-describedimage processing device 200. - In the thin film forming method according to the present example, first, in step S41, the
user 400 sets anobject base point 406c, configured of a decal or the like, on an object basepoint setting portion 407a that is any portion of theface 401 of the user 400 (below the left eye inFig. 17(a) in the case of the present example), as illustrated inFig. 17(a) . Note that theobject base point 406c may be set by applying cosmetics, paint such as a coloring material, or the like, for example, to the object basepoint setting portion 407a, instead of a decal. - Next, in step S42, the
user 400 photographs theface 401 by thecamera 202 of the image processing device 200 (seeFig. 5 ) to obtain thefacial image 500d, without mounting the thinfilm application device 600d. In this state, thediscoloration region 511 is in thefacial image 500d. Note that in the case of the present embodiment as well, if theuser 400 has afacial image 500d as data or a printed article beforehand, thefacial image 500d is input from an input device that theimage processing device 200 has. Thefacial image 500d is also displayed on thedisplay unit 203 as necessary. - Next, in step S43, the
object base point 406c is obtained from thefacial image 500d by the object information obtaining unit that theimage processing device 200 has. An object coordinates system is then set where theobject base point 406c is the origin (e.g., a coordinates system where the horizontal direction of theface 401 of theuser 400 is the X2 axis and the vertical direction is the Y2 axis), as indicated by the dashed lines inFig. 17(b) . - Next, in step S44, the object information obtaining unit that the
image processing device 200 has obtains thediscoloration region 511 from thefacial image 500d, and also obtains object coordinates that are the coordinates of thediscoloration region 511 relating to the object coordinates system. - Next, in step S45, in a state where the thin
film application device 600a is mounted, a portion of thefacial image 500d that is overlaid by the intersection between the width-direction reference line 626 and vertical-direction reference line 627 of the thinfilm application device 600a (in the case of the present example, the intersection between the line α1 that follows the ridge of the nose and the line α2 that connects the eyes) is taken as adevice reference point 501b that is a base point indicating portion, and a device coordinates system (e.g., a coordinates system where the horizontal direction of theface 401 of theuser 400 is the X1 axis and the vertical direction is the Y1 axis) of which the origin is thedevice reference point 501b is set, as indicated by solid lines inFig. 17(b) . - Next, in step S46, object coordinates that are coordinates of the
discoloration region 511 relating to the object coordinates system are converted into coordinates of thediscoloration region 511 relating to the device coordinates system, and the coordinates after coordinate conversion are obtained as corrected object coordinates. Specifically, (X2a, Y2a) that are coordinates of thediscoloration region 511 with regard to the object coordinates system (X2, Y2) are converted into (X1a, Y1a) that are coordinates of the device coordinates system (X1, Y1), as illustrated inFig. 17(b) , for example. Such coordinate conversion is performed regarding all points making up thediscoloration region 511. - Next, in step S47, the print information obtaining unit that the
image processing device 200 has obtains image portion position information that is the coordinates of the portion corresponding to theimage portion 703 in the uncut structure 704 (seeFig. 1(c) ). Specifically, coordinates corresponding to the coordinates of thediscoloration region 511 in theuncut structure 704 are taken as image portion position information in a state where theuncut structure 704 is assumed to be placed in the device coordinates system. Subsequent steps are the same as in the thin film forming method described with reference toFig. 6 . - When applying the thin film 702 (see
Fig. 1 ) to thediscoloration region 511, the thinfilm application device 600a is mounted in a state where the intersection of the width-direction reference line 626 and the vertical-direction reference line 627 of the thinfilm application device 600a overlays the intersection between the line α1 that follows the ridge of the nose of theuser 400 and the line α2 that connects the eyes, in the front-back direction. Other aspects of the thin film application method are almost the same as the thin film forming method described with reference toFig. 7 , so detailed description will be omitted. - In the case of the thin film application device according to the present embodiment having the above-described configuration as well, the number of times of photography of the
face 401 of theuser 400 can be made to be once in the thin film forming method performed described above, so work time can be reduced and work efficiency can be improved. The above-described thin film forming method is effective, for example, in a case where the distance between thedevice reference point 501b and thediscoloration region 511 is long, and the coordinates of thediscoloration region 511 based on thedevice reference point 501b are not readily directly obtained. - Description has been made regarding a thin film application device used to hide blemishes on the skin of a user in the above-described embodiments. However, the thin film application device and thin film forming method according to the present disclosure can be carried out in usages such as applying fake tattoos, body paint, and so forth, to the skin of a user. In this case, a face to apply the fake tattoo or body paint is obtained as a virtual face by simulation in the
image processing device 200, and the thin film forming method according to the present disclosure is applied with this virtual face as an applied face. - Further, making the thin film application device according to the present disclosure based on data obtained by 3D scanning of the face of the user beforehand enables a thin film application device of a shape suitable for individual users. On the other hand, aggregating data of a great number of users (e.g., facial shape) and designing a standard-shape thin film application device that meets the needs of a great number of users would enable mass-production, and reduction in manufacturing costs can be reduced.
- The thin film application device and thin film forming method according to the present disclosure are particularly useful with regard to beauty.
-
- 100
- makeup support system
- 200
- image processing device
- 201
- illumination unit
- 202
- camera
- 203
- display unit
- 300
- printing device
- 400
- user
- 401
- face
- 402
- ears
- 403
- nose
- 404
- eyes
- 405
- forehead
- 406, 406a, 406b, 406c
- object base point
- 407, 407a
- object base point setting portion
- 500, 500a, 500b, 500c, 500d
- facial image
- 501, 501b
- device reference point
- 511
- discoloration region
- 512
- peripheral region
- 600, 600a, 600b, 600c, 600d
- thin film application device
- 620, 620b
- frame
- 621
- frame main unit
- 622
- retaining portion
- 623, 623a
- supporting portion
- 624
- frame element
- 625, 625a, 625b
- consecutive portion
- 626
- width-direction reference line
- 627
- vertical-direction reference line
- 628
- middle frame
- 629
- inner-side frame
- 630
- outer-side frame
- 631
- hinge mechanism
- 632, 632a
- holding recess portion
- 633
- frame-side fixing portion
- 634
- forehead covering portion
- 635
- through hole
- 636
- base point through hole
- 637a, 637b
- elastic member
- 640
- thin film holding member
- 641
- supporting base
- 642
- soft member
- 643
- supporting-base-side fixing portion
- 644
- tentative application portion
- 660
- holding member
- 661
- recess
- 662, 662a
- elastic member
- 663
- water layer
- 700
- thin film structure
- 701
- supporting member
- 702
- thin film
- 703
- image portion
- 704
- uncut structure
- 705
- uncut supporting member
- 706
- uncut thin film
- 707
- printing reference point
- 708
- laser
- 709
- cutter
Claims (5)
- A thin film application device used to apply a thin film (702) on a skin (511) of an application object (400), the thin film application device comprising:a frame (620, 620b) mountable to the application object (400);a thin film holding member (640), that has a tentative application portion (644) to which the thin film (702) can be tentatively applied to a side face facing the skin (511) in use, and that is supported by the frame (620, 620b) so that the tentative application portion (644) can be pressed against the skin (511), and that is detachably mountable to the frame (620, 620b); anda supporting portion (623, 623a) supports the thin film holding member (640) with the side face of the thin film holding member (640) facing the skin (511) when the frame (620, 620b) is mounted to the application object (400);characterized in that the supporting portion (623, 623a) is provided to be capable of displacement as to a frame main unit (621) of the frame (620, 620b), and moves between a first position where the supporting portion (623, 623a) covers the skin (511) when the frame (620, 620b) is mounted on the application object (400), and a second position where the supporting portion (623, 623a) does not cover the applied face (511) when the frame (620, 620b) is mounted on the application object (400).
- The thin film application device according to Claim 1,
wherein the thin film holding member (640) includesa supporting base (641) detachably mountable to the frame (620, 620b), anda soft member (642) fixed to the supporting base (641) in a layered state,wherein the tentative application portion (644) is provided on a side face of the soft member (642) that faces the skin (511) in use. - The thin film application device according to Claim 1 or 2,
wherein the frame (620, 620b) has a retaining portion (622) that is capable of being retained to the application object (400). - The thin film application device according to one of Claims 1 to 3,
wherein the tentative application portion (644) has the shape of a curved face. - The thin film application device according to one of Claims 1 to 4,
wherein the frame (620, 620b) has a reference point indication portion that indicates a reference point for position coordinates obtaining of the skin (511) when mounted to the application object (400).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2016187856 | 2016-09-27 | ||
PCT/JP2017/031299 WO2018061596A1 (en) | 2016-09-27 | 2017-08-31 | Thin film affixing device and thin film formation method |
Publications (3)
Publication Number | Publication Date |
---|---|
EP3520649A1 EP3520649A1 (en) | 2019-08-07 |
EP3520649A4 EP3520649A4 (en) | 2020-01-15 |
EP3520649B1 true EP3520649B1 (en) | 2021-01-20 |
Family
ID=61763392
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP17855554.6A Active EP3520649B1 (en) | 2016-09-27 | 2017-08-31 | Thin film affixing device |
Country Status (5)
Country | Link |
---|---|
US (1) | US20190200732A1 (en) |
EP (1) | EP3520649B1 (en) |
JP (1) | JPWO2018061596A1 (en) |
CN (1) | CN109788838A (en) |
WO (1) | WO2018061596A1 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113749381A (en) * | 2016-09-27 | 2021-12-07 | 松下知识产权经营株式会社 | Film attaching device |
JP2020081323A (en) * | 2018-11-22 | 2020-06-04 | パナソニックIpマネジメント株式会社 | Skin analysis device, skin analysis method, and computer program |
Family Cites Families (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2107820U (en) * | 1991-11-30 | 1992-06-24 | 姚泽寰 | Beauty face cover |
US20030125958A1 (en) * | 2001-06-19 | 2003-07-03 | Ahmet Alpdemir | Voice-interactive marketplace providing time and money saving benefits and real-time promotion publishing and feedback |
TWM297835U (en) * | 2006-03-22 | 2006-09-21 | Usun Technology Co Ltd | Film application device |
US8747383B2 (en) * | 2009-12-18 | 2014-06-10 | University Medical Pharmaceuticals Corp. | Process and system for iontophoretic wrinkle reduction |
JP3175155U (en) * | 2011-12-22 | 2012-04-26 | 秀雄 島崎 | In vivo charge remover |
WO2014003450A1 (en) * | 2012-06-29 | 2014-01-03 | Chai Chan | Face pack apparatus |
JP2012236087A (en) * | 2012-09-10 | 2012-12-06 | Hitachi Maxell Ltd | Beauty device |
TW201424624A (en) * | 2012-12-21 | 2014-07-01 | Zong Jing Investment Inc | Method for moving cosmetic tool of auto-makeup apparatus |
CN104270996B (en) * | 2013-03-01 | 2018-04-03 | 松下知识产权经营株式会社 | Device and printing process to the film printing functional material with biocompatibility |
KR20150131082A (en) * | 2013-03-12 | 2015-11-24 | 로레알 | Non-woven face mask and corresponding cosmetic treatment method |
JP2015043836A (en) * | 2013-08-27 | 2015-03-12 | 大日本印刷株式会社 | Image processing apparatus, program, and image processing system |
TWI537181B (en) * | 2014-05-28 | 2016-06-11 | Curved lens film method and device thereof |
-
2017
- 2017-08-31 EP EP17855554.6A patent/EP3520649B1/en active Active
- 2017-08-31 WO PCT/JP2017/031299 patent/WO2018061596A1/en unknown
- 2017-08-31 CN CN201780058260.6A patent/CN109788838A/en active Pending
- 2017-08-31 JP JP2018542022A patent/JPWO2018061596A1/en not_active Ceased
-
2019
- 2019-03-12 US US16/299,215 patent/US20190200732A1/en not_active Abandoned
Non-Patent Citations (1)
Title |
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None * |
Also Published As
Publication number | Publication date |
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US20190200732A1 (en) | 2019-07-04 |
JPWO2018061596A1 (en) | 2019-07-18 |
CN109788838A (en) | 2019-05-21 |
WO2018061596A1 (en) | 2018-04-05 |
EP3520649A1 (en) | 2019-08-07 |
EP3520649A4 (en) | 2020-01-15 |
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