US20150205110A1 - Low profile mirror and media display device assembly - Google Patents
Low profile mirror and media display device assembly Download PDFInfo
- Publication number
- US20150205110A1 US20150205110A1 US14/531,104 US201414531104A US2015205110A1 US 20150205110 A1 US20150205110 A1 US 20150205110A1 US 201414531104 A US201414531104 A US 201414531104A US 2015205110 A1 US2015205110 A1 US 2015205110A1
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- United States
- Prior art keywords
- display device
- mirror
- media display
- platform
- media
- 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.)
- Abandoned
Links
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Classifications
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- C23F—NON-MECHANICAL REMOVAL OF METALLIC MATERIAL FROM SURFACE; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL; MULTI-STEP PROCESSES FOR SURFACE TREATMENT OF METALLIC MATERIAL INVOLVING AT LEAST ONE PROCESS PROVIDED FOR IN CLASS C23 AND AT LEAST ONE PROCESS COVERED BY SUBCLASS C21D OR C22F OR CLASS C25
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- A47G—HOUSEHOLD OR TABLE EQUIPMENT
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Definitions
- mirror and television devices typically include a television mounted to the back of a mirror. This arrangement is a convenient space saving device as it embeds a television in the existing space occupied by a mirror. Although available, these devices typically suffer from either poor transmissivity or reflectivity.
- the transmissivity and reflectivity of a mirror are roughly inversely related. That is, a mirror with high transmissivity generally has low reflectivity; and a mirror with high reflectivity generally has low transmissivity. As a result, a mirror with high transmissivity will allow more light from a television located behind the mirror to pass through the mirror, resulting in better viewing of the image displayed on the television. However, such a mirror will also have a relatively low reflectivity, resulting in a lower quality reflection in the mirror.
- a combination mirror and media display device assembly is provided.
- the combination mirror and media display device includes a mirror platform having a media display device viewing area and a media display device coupled to the mirror platform.
- the media display device is positioned to display images through the media display device viewing area.
- FIG. 1 is an isometric view of a representative mirror/media display device assembly constructed in accordance with one embodiment of the present disclosure
- FIG. 2 is an exploded front isometric view of the mirror/media display device assembly of FIG. 1 ;
- FIG. 3 is an exploded rear isometric view of the mirror/media display device assembly of FIG. 1 ;
- FIG. 4 is a cross-sectional view of the mirror/media display device assembly of FIG. 1 constructed in accordance with a first embodiment of the present disclosure
- FIG. 5 is a cross-sectional view of a mirror/media display device assembly constructed in accordance with a second embodiment of the present disclosure
- FIG. 6 is a cross-sectional view of a mirror/media display device assembly constructed in accordance with a third embodiment of the present disclosure
- FIG. 7 is a cross-sectional view of a mirror/media display device assembly constructed in accordance with a fourth embodiment of the present disclosure.
- FIG. 8 is an isometric view of a previously known media display device with an external power adapter
- FIG. 9 is an isometric view of the media display device of a mirror/media display device assembly, showing the media display device having power adapter constructed in accordance with one embodiment of the present disclosure
- FIG. 10A is an isometric view of a back side of a mirror platform according to embodiments of the invention.
- FIG. 10B is an isometric view of aback side of a mirror platform illustrating an opening in a chassis according to one embodiment of the invention.
- a mirror/media display device assembly 100 constructed in accordance with, one embodiment of the present disclosure may be best understood by referring to FIGS. 1 -4 .
- the mirror/media display device assembly 100 includes a framed or frameless mirror platform 102 attached to a chassis 140 .
- the minor platform 102 includes a substantially reflective surface 132 , one or more translucent back lit portions 130 , and a media display device viewing portion 128 , through which a media display device 120 located behind the mirror platform 102 can be viewed.
- the chassis 140 includes edge sections 142 arranged to form a perimeter (i.e., periphery) of the chassis 140 .
- the edge sections 142 include one or more apertures 148 .
- the chassis 140 is described as including apertures 148 , it should be apparent that chassis 140 without apertures 148 are also within the scope of the present disclosure.
- Light emanating from the assembly 100 is illustrated schematically by reference numeral 134 .
- the one or more back lit portions 130 located on the mirror platform 102 have substantially no reflectivity (e.g., frosted glass, acid etched glass or clear glass). These back lit portions 130 are translucent, allowing light emitted from one or more light sources 122 disposed within the mirror/media display device assembly 100 to pass through the mirror platform 102 .
- the number, configuration, and arrangement of back lit portions 130 can be varied to achieve different lighting effects.
- the back lit portion 130 is configured as a single, continuous portion extending around the perimeter of the mirror platform 102 .
- each side of the chassis includes a single aperture that extends along the length of the side of the chassis.
- the chassis includes a single aperture that extends along the length of the lower edge of the chassis, illuminating a sink or countertop above which the mirror/media display device assembly 100 is mounted.
- the apertures 148 of the chassis 140 can be optionally covered by a transparent or translucent material (e.g., a plastic strip).
- a transparent or translucent material e.g., a plastic strip
- the material can be colored so that light radiated through the apertures 148 creates a desired visual effect.
- back lighting is provided by radiating light through the back lit portions 130 of the mirror platform 102 .
- the back lit portions 130 include translucent areas having substantially no reflectivity or could be partially reflective. The low reflectivity allows light from the light source 122 to pass through the mirror, illuminating the back lit portions 130 of the mirror platform 102 .
- the number and shape of the back lit portions 130 can be varied to provide desired visual effects.
- the media display device 120 is mounted within the mirror/media display device assembly 100 so that the screen of the media display device 120 aligns with the media display device viewing area 128 of the mirror platform 102 .
- the term “media display device” should be understood to include any media display device suitable for receiving television signals, computer signals, VGA connections, digital signals, etc., and displaying a corresponding image.
- the media display device 120 includes a well-known indicator light 136 and infrared sensor 138 .
- the indicator light 136 provides a signal indicating whether the media display device is “powered on” or “powered off.”
- the infrared sensor 138 provides a remote communication port with the media display device 120 .
- the indicator light 136 and infrared sensor 138 are suitably located on a forward face of the media display device housing.
- the infrared sensor 138 and indicator light 136 each aligns with a part the mirror platform 102 having little or no reflectivity.
- the reduced reflectivity makes the indicator light more readily visible from the front side of the mirror platform 102 and also allows the infrared signal from a remote control to pass through the mirror platform 102 .
- the media display device 120 is attached to the mirror/media display device assembly 100 by a suitably shaped and configured mounting-bracket (not shown).
- the media display device 120 can be attached to the mounting bracket with removable fasteners, such as screws and magnets.
- the mounting bracket is open on one side, typically the top or bottom so that it does not interfere with audio/video connections of the media display device 120 .
- One version of the mounting bracket allows the media display device 120 to slide in from the bottom and snap into place without being mechanic-ally fastened.
- an access area (not shown) can be provided through the bottom of the chassis 140 .
- the access area allows a user to reach up behind the mirror platform 102 and remove the media display device 120 for repair or replacement. In a like manner, the media display device 120 can be easily remounted through the access area.
- the chassis 140 includes a central opening 166 sized for a direct connection of an external electrical cable 160 to a terminal block 158 which, in turn, is in electrical communication with an electrical ballast 156 .
- the connection at the terminal block 158 is covered with a metal box to provide an isolated electrical connection and thereby eliminate the need for an external electrical box.
- a further opening or openings are provided to accommodate a power receptacle and audio and video connections.
- the lighting components could be plugged into a receptacle.
- the chassis 140 is suitably manufactured from a variety of materials including, metal, wood, fiberglass, and various polymers. Polymers and other materials can optionally be transparent or translucent.
- the mirror platform 102 includes a rear surface 126 having flanges 152 .
- the flanges 152 include slots for receiving hanging pins 154 , which are attached to a the back surface 146 of the chassis 140 (see FIG. 2 ), to removably couple the mirror platform to the chassis 140 .
- the mirror platform can be coupled to the chassis through any of a variety of suitable methods, including temporary fasteners, permanent fasteners, adhesives, etc.
- FIG. 4 illustrates a mirror/media display device assembly 100 having a mirror platform 400 constructed in accordance with one embodiment of the present disclosure.
- the mirror platform 400 includes a glass layer 404 , a reflective layer 406 , and backing layer 408 .
- a mirror platform 400 is referred to as a “transmissive mirror.”
- the transmissive mirror includes a front surface 424 and a rear surface 426 .
- the reflective layer 406 provides a partial reflectivity to the transmissive mirror and is suitably formed by a reflective film, a sputter coating, or any other type of suitable reflective material.
- the reflective layer 406 is both reflective and transmissive. While the reflective layer 406 is shown on the rear surface 426 of the transmissive mirror, it can also be located on the front surface 424 or both the front and rear surfaces 424 and 426 of the transmissive mirror.
- the transmissive mirror is partially transmissive, preferably having a transmissivity of about 50%, although mirrors having transmissivity between about 30% and about 70% are within the scope of this embodiment.
- the backing layer 408 is selectively disposed on the rear surface 426 of the transmissive mirror.
- the backing layer 408 increases the reflectivity of the mirror platform 400 in areas to which it is applied. Because of the increased reflectivity, these areas provide a better reflection, which is closer to that of a standard mirror, than do the portions of the transmissive mirror to which the reflective backing is not applied.
- the backing layer 408 is not applied to the transmissive mirror in the media, display device viewing area 428 .
- the media display device viewing area 428 has some reflectivity due to the reflectivity of the transmissive mirror
- the media display device viewing area 428 has less reflectivity than the areas of the transmissive mirror to which the backing layer 408 has been applied.
- the reduced reflectivity in the media display device viewing area 428 causes less glare and consequently results in a clearer view of the images displayed on the media display device.
- the media display device 420 when the media display device 420 is turned off the substantially black media display device screen located behind the media display device viewing area 428 will change the light ratio between the front and back of the mirror; thereby, allowing transmissive mirror to operate at its maximum reflectivity. Accordingly, the reflection from the media display device viewing area 428 will, more closely match that of the rest of the transmissive mirror, causing the media, display device viewing area 428 to blend in with the rest of the transmissive mirror.
- the backing layer 408 is suitably formed from a reflective film, sputter coating, silvering, or any other material that enhances reflectivity when applied to a surface 426 .
- a variety of suitable techniques can be used to selectively apply the reflective backing, including masking areas in which the reflective backing is not to be applied, using computer controlled applicators, or applying the backing to the entire transmissive mirror and then selectively removing it.
- the transmissive mirror also includes first and second back lit portions 430 and 432 .
- the back lit portions 430 and 432 are suitably formed on the transmissive mirror by different methods. As previously described, the back lit portions are at least partially translucent, having lower reflectivity and/or higher transmissivity than the rest of the transmissive mirror. Accordingly, back lit portions 430 , 432 can be formed by decreasing the reflectivity of the back lit portion relative to the rest of the transmissive mirror.
- a first back lit portion 430 formed on the mirror platform 400 is similar in construction to the media display device viewing area 428 .
- the first back lit portion 430 is defined by an area where the backing layer 408 is not present.
- the first back lit portion 430 can be formed by the selective application of the backing layer 408 , during which the backing layer 408 is not applied to the first back lit portion, or the selective removal of the reflective backing after it has been applied to the first back lit portion.
- the backing layer 408 may be removed from the first back lit portion by any suitable method, including acid etching, and an acid dip prior to which areas of the reflective backing that are to remain are masked.
- a film simulating a “frosted” effect may be placed on the backside of reflective layer 406 .
- a second back lit portion 432 is provided on the mirror platform 400 .
- the second back lit portion 432 is similar to the first back lit portion 430 except that, in addition to the backing layer 408 , some or all of the reflective layer 406 of the transmissive mirror is also removed in the area of the second back lit portion 432 . Consequently, when light from the light source 422 is irradiated onto the rear surface 426 of the mirror platform 400 at a second back lit portion 432 , at least some of the light is transmitted through the transmissive mirror to illuminate the front surface of the mirror platform 400 at the second back lit portion 432 .
- the reflective layer 406 and the hacking layer 408 may be removed from the second back lit portion by any suitable method, including sand blasting, acid etching, and an acid dip. Areas of the reflective layer 406 and backing layer 408 that are to remain are masked prior to removal treatment. Sandblasting, is particularly effective for providing a “frosted” effect in the back lit portion 432 . A protective coating may be applied to the sand blasted areas of the glass to allow the sand blasted areas to be more easily cleaned and prohibit staining from finger prints, dirt, etc. This could occur for sand blasting on the front or back surface of the mirror.
- the resist used to mask off the mirror for sandblasting may also be used as a safety back material.
- the resist is removed from the mirror after it has been sand blasted. In this case the resist would be left on and act as a safety backing.
- the resist may be laid on the back of the mirror and cut by a laser or other method or may be plotted and then placed on the back of the mirror.
- Areas of the backing layer 408 and/or the reflective layer 406 of the transmissive mirror can also be selectively removed to provide areas of tower reflectivity to accommodate an indicator light 136 or an infrared sensor 138 (see FIG. 1 ).
- FIG. 5 illustrates a mirror/media display device assembly 100 having a mirror platform 500 constructed in accordance with a second embodiment of the present disclosure.
- the mirror platform 500 is substantially identical in construction, material and operation as the mirror platform 400 described above with the following exceptions.
- the mirror platform 500 includes a glass layer 504 and a backing layer 506 , and also includes a front surface 524 and a rear surface 526 .
- the rear surface 526 of the backing layer 506 is typically painted with a protective paint.
- the mirror platform 500 is referred to as a “standard mirror.”
- the standard mirror provides substantially no transmissivity, while reflecting almost all incident light.
- Commercially available standard mirrors which are suitable for use with this embodiment, typically have a reflectivity of about 98%, which provides a very good reflection in the mirror portion of the mirror platform 500 .
- a mirror having a lower reflectivity than a standard mirror can be used within the scope of this embodiment.
- a standard mirror usually has a backing layer 506 located on the rear surface 526 of the mirror, a standard mirror with a reflective material located on the front surface 524 of the mirror can also be used.
- the mirror platform 500 also includes a media display device viewing area 528 .
- the media display device viewing area 528 is formed by an area that has been made non-reflective by selectively removing the backing layer 506 from the glass layer 504 .
- a preferred method for selectively removing the reflective backing includes isolating the area by applying tape, printed ink or a similar item to the back of the standard mirror around the area from which the reflective backing is to be removed. Paint remover or a similar solvent is then applied to the rear surface 526 , and paint is removed with a scraping device such as a razor blade.
- the area is then washed with water or other suitable material to remove the paint and expose the backing layer 506 of the standard mirror.
- a sharp instrument is used to define the outer perimeter of the media display device viewing area 528 , and an etching solution, such as Ferric chloride (FECl3), printed circuit board etching solution, or a similar material is applied to the exposed backing layer 506 .
- an etching solution such as Ferric chloride (FECl3), printed circuit board etching solution, or a similar material is applied to the exposed backing layer 506 .
- FECl3 Ferric chloride
- the solution is wiped away, which removes the backing layer 506 , leaving only the glass layer 504 .
- the media display device viewing area 528 is masked off on a piece of glass, and backing layer 506 is added to the glass layer 504 .
- the media display device viewing area 528 is close to 100% transmissive. Accordingly, when the media display device 520 is aligned with the media display device viewing area 528 , the light from the media, display device is transmitted through the glass layer 504 with minimal loss, making the images on the media display device screen readily visible from the front of the mirror platform 500 .
- the backing layer 506 can also be removed from locations on the mirror platform 500 corresponding to an indicator light 136 or an infrared sensor 138 (see FIG. 1 ).
- a back lit portion 530 of the mirror platform 500 allows light from a light source 522 located behind the rear surface 526 to pass through to illuminate a portion of the front surface 524 of the mirror platform 500 .
- Back lit portions 530 are at least partially translucent and can be formed using the same processes employed to create the media display device viewing area 528 . Alternately, sand blasting, chemical etching, dipping in a chemical bath, or treatment in any other manner previously disclosed, are also within the scope of the present, disclosure to form back lit portions.
- a clear backing film may be added to the back side of the mirror to create safety mirror while at the same time allowing for light and display image to shine through.
- FIG. 6 illustrates a mirror/media display device assembly 100 having a mirror platform 600 constructed in accordance with yet another embodiment of the present disclosure.
- the mirror platform 600 is substantially identical in construction, material and operation as the mirror platforms described above with the following exceptions.
- the mirror platform 600 includes a glass layer 604 and a reflective layer 606 .
- the reflective layer 606 is selectively removed from the rear surface 626 of the mirror platform 600 to form a media display device viewing area 628 .
- Light emitted from the media display device 620 passes through the front surface 624 of the glass layer 604 , making the images from the media display device 620 visible from the front surface of the mirror platform 600 .
- the mirror platform 600 also includes a polarized film 632 .
- the polarized film 632 is disposed between the media display device 620 and the glass layer 604 .
- the media display device 620 emits polarized light, approximately 100% of which is selectively allowed to pass through the polarized film 632 .
- suitable media, display device is an LCD media display device, which is known to emit polarized light. The light passes through the polarized film 632 and the glass layer 604 , allowing the media display device images to be viewed from the front of the mirror platform 600 .
- the polarized film 632 is reflective when the media display device is off, resulting in an increased reflectivity in the media display device viewing area. As a result, the media display device viewing area 628 of the mirror platform 600 blends into the surrounding mirror, making it less noticeable when the media display device is in an “off” state.
- the polarized film 632 is preferably attached directly to the glass layer 604 of the mirror platform 600 . Attaching the polarized film 632 in this manner places the film in substantially the same plane as the backing layer 606 , thereby minimizing the difference between the appearance of the standard mirror portion and the media display device viewing portion. Alternately, the polarized film 632 can be mounted on a separate piece of glass, which is then disposed between the media display device 620 and the glass layer 604 . As an alternative to the polarized film 632 , a transmissive mirror may be used.
- the minor platform 600 may also include one or more back lit portions 630 .
- the back lit portions 630 are at least partially translucent and can be formed using any previously disclosed method suitable for forming the back lit portions 530 .
- FIG. 7 illustrates a mirror/media display device assembly 100 having a mirror platform 700 constructed in accordance with still yet another embodiment of the present disclosure.
- the mirror platform [ 700 ] is substantially identical in construction, material and operation as the mirror platforms described above with the following exceptions.
- the mirror platform 700 includes a glass layer 704 and a reflective layer 706 .
- the mirror platform 700 also includes a front surface 724 and a rear surface 726 .
- the reflective layer 706 which is not completely opaque, is affixed to one or both sides of the glass layer 704 .
- the reflective layer 706 gives the mirror platform 700 a high reflectivity.
- the reflective coating imparts a low transmissivity, typically in the range of about 10% to about 25%.
- the media display device 720 is a high brightness media display device, having a brightness in the range of about 500 to about 2000 nits.
- the low transmissivity of the mirror platform 700 prevents transmission of about 75% to 90% of the light emitted from the media display device 720 .
- the remaining 10% to 25% of the emitted light passes through the glass layer 704 and can be viewed from the front of the mirror platform 700 .
- Standard media display devices typically operate in a range of about 300 to 500 nits of brightness. Accordingly the brightness of the media display device 720 and the transmissivity of the mirror platform 700 can be chosen to provide a desired image brightness.
- a transparent minor with a transmissivity of 25% can be paired with a media display device having about 2000 nits of brightness, resulting in an image viewed from the front side of the mirror platform 700 with a brightness of about 500 nits.
- the operating environment can also influence the selection of the transmissivity of the transparent mirror and the brightness of the media display device.
- the quality of the reflection from the mirror platform 700 can be improved by applying a backing layer 740 to the rear surface 726 in locations other than the media display device viewing area 728 or a back lit portion 730 .
- the backing layer 740 is preferably black, and may also act as a safety backing, and reduces the transmissivity of the mirror, thereby improving the quality of the reflection in those areas of the mirror to which the black backing is applied.
- the media display device 720 has a generally black screen when turned off, increasing the reflectiveness of the mirror in the media display device viewing area 728 . As a result, the quality of the reflection in the media display device viewing area is improved when the media display device is in a “or” state.
- the mirror platform 700 may also include one or more back lit portions 730 .
- the back lit portion 730 is formed by selectively removing the reflective layer 706 from the glass layer 704 .
- Sandblasting is preferably used, but any suitable method can be used, including chemical etching, chemical bath, or abrasion.
- the back lit portions 730 are at least partially translucent and allow more light to pass through than, do the portions of the mirror platform 700 from which the reflective coating has not been selectively removed. As a result, light from a light source 722 located behind the mirror platform 700 passes through the glass layer 704 , illuminating the back lit portion 730 .
- the media display device 120 has a thin profile, such as about one inch or less. Such a thin profile minimizes the distance that the mirror/media display device assembly 100 extends from a wall to which it is mounted. In general, the overall thickness of the mirror/media display device assembly 100 is less than about two and one-quarter inches and, in some embodiments, as thin as one and one-quarter inches, or less.
- the media display device 120 is configured so that audio and visual connection components (such as the audio wire, RF cable, S-video cable, power cable) come directly out the top or in some cases, the bottom of the housing of the media display device 120 rather than from the rear of the media display device 120 .
- the disclosed media display device has an integral, low-profile power adapter 900 that fits within the thin (e.g., one inch) media display device housing.
- FIG. 8 illustrates an integral, low-profile power adapter 900 constructed in accordance with one embodiment of the present disclosure.
- the power adapter 900 is contained in the housing of a media display device 120 .
- a suitable low-profile power adapter is Model No. TR36A-12, manufactured by Cincon Electronics Co. LTD. Making the low-profile power adapter 900 integral to the media display device also simplifies assembly by reducing the number of parts to be assembled.
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Abstract
Description
- This application is a divisional of U.S. patent application Ser. No.: 13/374,430, tiled on Dec. 28, 2011, which is a continuation of U.S. patent application Ser. No. 11/563,119, filed on Nov. 24, 2006 (now U.S. Pat. No. 8,099,247), which claims the benefit of U.S. Provisional Application No. 60/794209, filed Apr. 21, 2006; U.S. Provisional Application No. 60/739399, filed Nov. 23, 2005; and U.S. Provisional Application No. 60/739156, filed Nov. 23, 2005, the disclosures of which are all expressly incorporated herein by reference.
- Currently available mirror and television devices typically include a television mounted to the back of a mirror. This arrangement is a convenient space saving device as it embeds a television in the existing space occupied by a mirror. Although available, these devices typically suffer from either poor transmissivity or reflectivity.
- The transmissivity and reflectivity of a mirror are roughly inversely related. That is, a mirror with high transmissivity generally has low reflectivity; and a mirror with high reflectivity generally has low transmissivity. As a result, a mirror with high transmissivity will allow more light from a television located behind the mirror to pass through the mirror, resulting in better viewing of the image displayed on the television. However, such a mirror will also have a relatively low reflectivity, resulting in a lower quality reflection in the mirror.
- In addition to the presenting the difficulty of balancing television image quality with the reflection quality, current mirror/television combinations do not provide additional sources of illumination, such as back lighting. This results in the need for separate light fixtures in addition to the mirror/television combination, which can cause additional installation costs and unsightly clutter.
- This summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This summary is not intended to identify key features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.
- A combination mirror and media display device assembly is provided. The combination mirror and media display device includes a mirror platform having a media display device viewing area and a media display device coupled to the mirror platform. The media display device is positioned to display images through the media display device viewing area.
- The foregoing aspects and many of the attendant advantages of this invention will become better understood by reference to the following detailed description, when taken in conjunction with the accompanying drawings, wherein:
-
FIG. 1 is an isometric view of a representative mirror/media display device assembly constructed in accordance with one embodiment of the present disclosure; -
FIG. 2 is an exploded front isometric view of the mirror/media display device assembly ofFIG. 1 ; -
FIG. 3 is an exploded rear isometric view of the mirror/media display device assembly ofFIG. 1 ; -
FIG. 4 is a cross-sectional view of the mirror/media display device assembly ofFIG. 1 constructed in accordance with a first embodiment of the present disclosure; -
FIG. 5 is a cross-sectional view of a mirror/media display device assembly constructed in accordance with a second embodiment of the present disclosure; -
FIG. 6 is a cross-sectional view of a mirror/media display device assembly constructed in accordance with a third embodiment of the present disclosure; -
FIG. 7 is a cross-sectional view of a mirror/media display device assembly constructed in accordance with a fourth embodiment of the present disclosure; -
FIG. 8 is an isometric view of a previously known media display device with an external power adapter; -
FIG. 9 is an isometric view of the media display device of a mirror/media display device assembly, showing the media display device having power adapter constructed in accordance with one embodiment of the present disclosure; -
FIG. 10A is an isometric view of a back side of a mirror platform according to embodiments of the invention; and -
FIG. 10B is an isometric view of aback side of a mirror platform illustrating an opening in a chassis according to one embodiment of the invention. - A mirror/media
display device assembly 100 constructed in accordance with, one embodiment of the present disclosure may be best understood by referring toFIGS. 1 -4 . The mirror/mediadisplay device assembly 100 includes a framed orframeless mirror platform 102 attached to achassis 140. Theminor platform 102 includes a substantiallyreflective surface 132, one or more translucent backlit portions 130, and a media displaydevice viewing portion 128, through which amedia display device 120 located behind themirror platform 102 can be viewed. Thechassis 140 includesedge sections 142 arranged to form a perimeter (i.e., periphery) of thechassis 140. Theedge sections 142 include one ormore apertures 148. Although thechassis 140 is described as includingapertures 148, it should be apparent thatchassis 140 withoutapertures 148 are also within the scope of the present disclosure. Light emanating from theassembly 100 is illustrated schematically byreference numeral 134. - The one or more back
lit portions 130 located on themirror platform 102 have substantially no reflectivity (e.g., frosted glass, acid etched glass or clear glass). These backlit portions 130 are translucent, allowing light emitted from one or more light sources 122 disposed within the mirror/mediadisplay device assembly 100 to pass through themirror platform 102. The number, configuration, and arrangement of backlit portions 130 can be varied to achieve different lighting effects. As a non-limiting example, theback lit portion 130 is configured as a single, continuous portion extending around the perimeter of themirror platform 102. - Light radiated from the light source 122 radiates through the plurality of apertures 14S to illuminate the surroundings of the mirror/media,
display device assembly 100. Illuminating the surroundings, such as the wall on which the mirror/mediadisplay device assembly 100 is mounted, creates a back lighting effect. The number and location of the apertures can be varied to achieve the desired visual atmosphere. For example, each side of the chassis includes a single aperture that extends along the length of the side of the chassis. In another embodiment, the chassis includes a single aperture that extends along the length of the lower edge of the chassis, illuminating a sink or countertop above which the mirror/mediadisplay device assembly 100 is mounted. - The
apertures 148 of thechassis 140 can be optionally covered by a transparent or translucent material (e.g., a plastic strip). In addition to helping to prevent dirt and moisture from entering the mirror/mediadisplay device assembly 100, the material can be colored so that light radiated through theapertures 148 creates a desired visual effect. - In another embodiment, back lighting is provided by radiating light through the back
lit portions 130 of themirror platform 102. As noted above, the backlit portions 130 include translucent areas having substantially no reflectivity or could be partially reflective. The low reflectivity allows light from the light source 122 to pass through the mirror, illuminating the backlit portions 130 of themirror platform 102. The number and shape of the backlit portions 130 can be varied to provide desired visual effects. - The
media display device 120 is mounted within the mirror/mediadisplay device assembly 100 so that the screen of themedia display device 120 aligns with the media displaydevice viewing area 128 of themirror platform 102. The term “media display device” should be understood to include any media display device suitable for receiving television signals, computer signals, VGA connections, digital signals, etc., and displaying a corresponding image. - The
media display device 120 includes a well-knownindicator light 136 andinfrared sensor 138. Theindicator light 136 provides a signal indicating whether the media display device is “powered on” or “powered off.” Theinfrared sensor 138 provides a remote communication port with themedia display device 120. Theindicator light 136 andinfrared sensor 138 are suitably located on a forward face of the media display device housing. - When the media display device is installed, the
infrared sensor 138 and indicator light 136 each aligns with a part themirror platform 102 having little or no reflectivity. The reduced reflectivity makes the indicator light more readily visible from the front side of themirror platform 102 and also allows the infrared signal from a remote control to pass through themirror platform 102. - In one embodiment, the
media display device 120 is attached to the mirror/mediadisplay device assembly 100 by a suitably shaped and configured mounting-bracket (not shown). Themedia display device 120 can be attached to the mounting bracket with removable fasteners, such as screws and magnets. The mounting bracket is open on one side, typically the top or bottom so that it does not interfere with audio/video connections of themedia display device 120. One version of the mounting bracket allows themedia display device 120 to slide in from the bottom and snap into place without being mechanic-ally fastened. - For circumstances in which the mirror/media
display device assembly 100 cannot be easily removed from a wall, an access area (not shown) can be provided through the bottom of thechassis 140. The access area allows a user to reach up behind themirror platform 102 and remove themedia display device 120 for repair or replacement. In a like manner, themedia display device 120 can be easily remounted through the access area. - Referring to
FIG. 2 , thechassis 140 includes acentral opening 166 sized for a direct connection of an externalelectrical cable 160 to aterminal block 158 which, in turn, is in electrical communication with anelectrical ballast 156. The connection at theterminal block 158 is covered with a metal box to provide an isolated electrical connection and thereby eliminate the need for an external electrical box. A further opening or openings are provided to accommodate a power receptacle and audio and video connections. As an alternative electrical connection the lighting components could be plugged into a receptacle. Thechassis 140 is suitably manufactured from a variety of materials including, metal, wood, fiberglass, and various polymers. Polymers and other materials can optionally be transparent or translucent. - As best seen in
FIG. 3 , themirror platform 102 includes arear surface 126 havingflanges 152. Theflanges 152 include slots for receiving hangingpins 154, which are attached to a theback surface 146 of the chassis 140 (seeFIG. 2 ), to removably couple the mirror platform to thechassis 140. It should be appreciated that the mirror platform can be coupled to the chassis through any of a variety of suitable methods, including temporary fasteners, permanent fasteners, adhesives, etc. -
FIG. 4 illustrates a mirror/mediadisplay device assembly 100 having amirror platform 400 constructed in accordance with one embodiment of the present disclosure. Themirror platform 400 includes aglass layer 404, areflective layer 406, andbacking layer 408. For ease of description and clarity, such amirror platform 400 is referred to as a “transmissive mirror.” - The transmissive mirror includes a
front surface 424 and arear surface 426. Thereflective layer 406 provides a partial reflectivity to the transmissive mirror and is suitably formed by a reflective film, a sputter coating, or any other type of suitable reflective material. Thereflective layer 406 is both reflective and transmissive. While thereflective layer 406 is shown on therear surface 426 of the transmissive mirror, it can also be located on thefront surface 424 or both the front andrear surfaces - Still referring to
FIG. 4 , thebacking layer 408 is selectively disposed on therear surface 426 of the transmissive mirror. Thebacking layer 408 increases the reflectivity of themirror platform 400 in areas to which it is applied. Because of the increased reflectivity, these areas provide a better reflection, which is closer to that of a standard mirror, than do the portions of the transmissive mirror to which the reflective backing is not applied. - The
backing layer 408 is not applied to the transmissive mirror in the media, displaydevice viewing area 428. As a result, while the media displaydevice viewing area 428 has some reflectivity due to the reflectivity of the transmissive mirror, the media displaydevice viewing area 428 has less reflectivity than the areas of the transmissive mirror to which thebacking layer 408 has been applied. The reduced reflectivity in the media displaydevice viewing area 428 causes less glare and consequently results in a clearer view of the images displayed on the media display device. - It should be appreciated, however, that when the
media display device 420 is turned off the substantially black media display device screen located behind the media displaydevice viewing area 428 will change the light ratio between the front and back of the mirror; thereby, allowing transmissive mirror to operate at its maximum reflectivity. Accordingly, the reflection from the media displaydevice viewing area 428 will, more closely match that of the rest of the transmissive mirror, causing the media, displaydevice viewing area 428 to blend in with the rest of the transmissive mirror. - The
backing layer 408 is suitably formed from a reflective film, sputter coating, silvering, or any other material that enhances reflectivity when applied to asurface 426. Depending on the material used, a variety of suitable techniques can be used to selectively apply the reflective backing, including masking areas in which the reflective backing is not to be applied, using computer controlled applicators, or applying the backing to the entire transmissive mirror and then selectively removing it. - The transmissive mirror also includes first and second back lit
portions portions portions - A first back lit
portion 430 formed on themirror platform 400 is similar in construction to the media displaydevice viewing area 428. The first back litportion 430 is defined by an area where thebacking layer 408 is not present. As previously discussed with regard to the media display device viewing area, the first back litportion 430 can be formed by the selective application of thebacking layer 408, during which thebacking layer 408 is not applied to the first back lit portion, or the selective removal of the reflective backing after it has been applied to the first back lit portion. Thebacking layer 408 may be removed from the first back lit portion by any suitable method, including acid etching, and an acid dip prior to which areas of the reflective backing that are to remain are masked. A film simulating a “frosted” effect may be placed on the backside ofreflective layer 406. - When light from a
light source 422 is irradiated on the rear surface of themirror platform 400, the portions of the transmissive mirror to which thebacking layer 408 has been applied to reflect the light back from therear surface 426 of the transmissive mirror and consequently, substantially none of the light passes through the transmissive mirror to illuminate thefront surface 424mirror platform 400. In contrast, when light from thelight source 422 strikes a portion of the transmissive mirror withoutbacking layer 408, at least part of the light travels through the transmissive mirror, thereby illuminating the back litportion 430 of themirror platform 400. When the light-source 422 is in an “off” state, the back litportion 430 reverts back to having the reflectivity of a standard mirror. - A second back lit
portion 432 is provided on themirror platform 400. The second back litportion 432 is similar to the first back litportion 430 except that, in addition to thebacking layer 408, some or all of thereflective layer 406 of the transmissive mirror is also removed in the area of the second back litportion 432. Consequently, when light from thelight source 422 is irradiated onto therear surface 426 of themirror platform 400 at a second back litportion 432, at least some of the light is transmitted through the transmissive mirror to illuminate the front surface of themirror platform 400 at the second back litportion 432. - Further, because at least some of the
reflective layer 406 of the transmissive mirror has been removed, a greater percentage of light from the light,source 422 will pass through the second back litportion 432 than will pass through the first back litportion 430. It should be appreciated that any suitable number of back lit portions, such as three, four, five, six, etc., can be formed on theplatform assembly 400 and, therefore, are also within the scope of the present disclosure. - The
reflective layer 406 and thehacking layer 408 may be removed from the second back lit portion by any suitable method, including sand blasting, acid etching, and an acid dip. Areas of thereflective layer 406 andbacking layer 408 that are to remain are masked prior to removal treatment. Sandblasting, is particularly effective for providing a “frosted” effect in the back litportion 432. A protective coating may be applied to the sand blasted areas of the glass to allow the sand blasted areas to be more easily cleaned and prohibit staining from finger prints, dirt, etc. This could occur for sand blasting on the front or back surface of the mirror. - In addition, the resist used to mask off the mirror for sandblasting may also be used as a safety back material. Typically, the resist is removed from the mirror after it has been sand blasted. In this case the resist would be left on and act as a safety backing. The resist may be laid on the back of the mirror and cut by a laser or other method or may be plotted and then placed on the back of the mirror.
- Areas of the
backing layer 408 and/or thereflective layer 406 of the transmissive mirror can also be selectively removed to provide areas of tower reflectivity to accommodate anindicator light 136 or an infrared sensor 138 (seeFIG. 1 ). -
FIG. 5 illustrates a mirror/mediadisplay device assembly 100 having amirror platform 500 constructed in accordance with a second embodiment of the present disclosure. Themirror platform 500 is substantially identical in construction, material and operation as themirror platform 400 described above with the following exceptions. - The
mirror platform 500 includes aglass layer 504 and abacking layer 506, and also includes afront surface 524 and arear surface 526. Therear surface 526 of thebacking layer 506 is typically painted with a protective paint. For ease of description and clarity, themirror platform 500 is referred to as a “standard mirror.” - The standard mirror provides substantially no transmissivity, while reflecting almost all incident light. Commercially available standard mirrors, which are suitable for use with this embodiment, typically have a reflectivity of about 98%, which provides a very good reflection in the mirror portion of the
mirror platform 500. However, it should be appreciated that a mirror having a lower reflectivity than a standard mirror can be used within the scope of this embodiment. Further, while a standard mirror usually has abacking layer 506 located on therear surface 526 of the mirror, a standard mirror with a reflective material located on thefront surface 524 of the mirror can also be used. - The
mirror platform 500 also includes a media displaydevice viewing area 528. The media displaydevice viewing area 528 is formed by an area that has been made non-reflective by selectively removing thebacking layer 506 from theglass layer 504. A preferred method for selectively removing the reflective backing includes isolating the area by applying tape, printed ink or a similar item to the back of the standard mirror around the area from which the reflective backing is to be removed. Paint remover or a similar solvent is then applied to therear surface 526, and paint is removed with a scraping device such as a razor blade. - The area is then washed with water or other suitable material to remove the paint and expose the
backing layer 506 of the standard mirror. A sharp instrument is used to define the outer perimeter of the media displaydevice viewing area 528, and an etching solution, such as Ferric chloride (FECl3), printed circuit board etching solution, or a similar material is applied to the exposedbacking layer 506. After the solution sits for a suitable length of time, the solution is wiped away, which removes thebacking layer 506, leaving only theglass layer 504. In an alternative embodiment, the media displaydevice viewing area 528 is masked off on a piece of glass, andbacking layer 506 is added to theglass layer 504. - After the
backing layer 506 has been removed, the media displaydevice viewing area 528 is close to 100% transmissive. Accordingly, when themedia display device 520 is aligned with the media displaydevice viewing area 528, the light from the media, display device is transmitted through theglass layer 504 with minimal loss, making the images on the media display device screen readily visible from the front of themirror platform 500. - In addition to the media display
device viewing area 528, thebacking layer 506 can also be removed from locations on themirror platform 500 corresponding to anindicator light 136 or an infrared sensor 138 (seeFIG. 1 ). - A back lit
portion 530 of themirror platform 500 allows light from a light source 522 located behind therear surface 526 to pass through to illuminate a portion of thefront surface 524 of themirror platform 500. Back litportions 530 are at least partially translucent and can be formed using the same processes employed to create the media displaydevice viewing area 528. Alternately, sand blasting, chemical etching, dipping in a chemical bath, or treatment in any other manner previously disclosed, are also within the scope of the present, disclosure to form back lit portions. A clear backing film may be added to the back side of the mirror to create safety mirror while at the same time allowing for light and display image to shine through. -
FIG. 6 illustrates a mirror/mediadisplay device assembly 100 having amirror platform 600 constructed in accordance with yet another embodiment of the present disclosure. Themirror platform 600 is substantially identical in construction, material and operation as the mirror platforms described above with the following exceptions. - The
mirror platform 600 includes aglass layer 604 and a reflective layer 606. The reflective layer 606 is selectively removed from therear surface 626 of themirror platform 600 to form a media displaydevice viewing area 628. Light emitted from themedia display device 620 passes through thefront surface 624 of theglass layer 604, making the images from themedia display device 620 visible from the front surface of themirror platform 600. - The
mirror platform 600 also includes apolarized film 632. Thepolarized film 632 is disposed between themedia display device 620 and theglass layer 604. Themedia display device 620 emits polarized light, approximately 100% of which is selectively allowed to pass through thepolarized film 632. One example of suitable media, display device is an LCD media display device, which is known to emit polarized light. The light passes through thepolarized film 632 and theglass layer 604, allowing the media display device images to be viewed from the front of themirror platform 600. - The
polarized film 632 is reflective when the media display device is off, resulting in an increased reflectivity in the media display device viewing area. As a result, the media displaydevice viewing area 628 of themirror platform 600 blends into the surrounding mirror, making it less noticeable when the media display device is in an “off” state. - The
polarized film 632 is preferably attached directly to theglass layer 604 of themirror platform 600. Attaching thepolarized film 632 in this manner places the film in substantially the same plane as the backing layer 606, thereby minimizing the difference between the appearance of the standard mirror portion and the media display device viewing portion. Alternately, thepolarized film 632 can be mounted on a separate piece of glass, which is then disposed between themedia display device 620 and theglass layer 604. As an alternative to thepolarized film 632, a transmissive mirror may be used. - The
minor platform 600 may also include one or more back litportions 630. The back litportions 630 are at least partially translucent and can be formed using any previously disclosed method suitable for forming the back litportions 530. -
FIG. 7 illustrates a mirror/mediadisplay device assembly 100 having amirror platform 700 constructed in accordance with still yet another embodiment of the present disclosure. The mirror platform [700] is substantially identical in construction, material and operation as the mirror platforms described above with the following exceptions. - The
mirror platform 700 includes aglass layer 704 and areflective layer 706. Themirror platform 700 also includes afront surface 724 and arear surface 726. Thereflective layer 706, which is not completely opaque, is affixed to one or both sides of theglass layer 704. Thereflective layer 706 gives the mirror platform 700 a high reflectivity. In addition, the reflective coating imparts a low transmissivity, typically in the range of about 10% to about 25%. - The
media display device 720 is a high brightness media display device, having a brightness in the range of about 500 to about 2000 nits. The low transmissivity of themirror platform 700 prevents transmission of about 75% to 90% of the light emitted from themedia display device 720. The remaining 10% to 25% of the emitted light passes through theglass layer 704 and can be viewed from the front of themirror platform 700. Standard media display devices typically operate in a range of about 300 to 500 nits of brightness. Accordingly the brightness of themedia display device 720 and the transmissivity of themirror platform 700 can be chosen to provide a desired image brightness. - For example, a transparent minor with a transmissivity of 25% can be paired with a media display device having about 2000 nits of brightness, resulting in an image viewed from the front side of the
mirror platform 700 with a brightness of about 500 nits. The operating environment can also influence the selection of the transmissivity of the transparent mirror and the brightness of the media display device. - The quality of the reflection from the
mirror platform 700 can be improved by applying abacking layer 740 to therear surface 726 in locations other than the media displaydevice viewing area 728 or a back litportion 730, Thebacking layer 740 is preferably black, and may also act as a safety backing, and reduces the transmissivity of the mirror, thereby improving the quality of the reflection in those areas of the mirror to which the black backing is applied. Further, themedia display device 720 has a generally black screen when turned off, increasing the reflectiveness of the mirror in the media displaydevice viewing area 728. As a result, the quality of the reflection in the media display device viewing area is improved when the media display device is in a “or” state. - The
mirror platform 700 may also include one or more back litportions 730. The back litportion 730 is formed by selectively removing thereflective layer 706 from theglass layer 704. Sandblasting is preferably used, but any suitable method can be used, including chemical etching, chemical bath, or abrasion. The back litportions 730 are at least partially translucent and allow more light to pass through than, do the portions of themirror platform 700 from which the reflective coating has not been selectively removed. As a result, light from alight source 722 located behind themirror platform 700 passes through theglass layer 704, illuminating the back litportion 730. - As may be best seen by referring to
FIG. 9 , it is preferred that themedia display device 120 has a thin profile, such as about one inch or less. Such a thin profile minimizes the distance that the mirror/mediadisplay device assembly 100 extends from a wall to which it is mounted. In general, the overall thickness of the mirror/mediadisplay device assembly 100 is less than about two and one-quarter inches and, in some embodiments, as thin as one and one-quarter inches, or less. - To assist in achieving the desired thin profile, the
media display device 120 is configured so that audio and visual connection components (such as the audio wire, RF cable, S-video cable, power cable) come directly out the top or in some cases, the bottom of the housing of themedia display device 120 rather than from the rear of themedia display device 120. To further decrease the space required to house themedia display device 120, the disclosed media display device has an integral, low-profile power adapter 900 that fits within the thin (e.g., one inch) media display device housing. - As illustrated in
FIG. 8 , known media display device units that are less than two inches in thickness have large, external,power adapters 800 that take up considerable space. The added thickness of thepower adapter 800 often requires a wall recess behind the mirror/media display device assembly.FIG. 9 illustrates an integral, low-profile power adapter 900 constructed in accordance with one embodiment of the present disclosure. - The
power adapter 900 is contained in the housing of amedia display device 120. One example of a suitable low-profile power adapter is Model No. TR36A-12, manufactured by Cincon Electronics Co. LTD. Making the low-profile power adapter 900 integral to the media display device also simplifies assembly by reducing the number of parts to be assembled. - While illustrative embodiments have been illustrated and described, it will be appreciated that various changes can be made therein without departing from the spirit and scope of the invention.
Claims (3)
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US17/221,808 Active US11859293B1 (en) | 2005-11-23 | 2021-04-04 | Vanishing viewing windows apparatuses and methods |
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US11496887B1 (en) * | 2010-05-18 | 2022-11-08 | Electric Mirror, Llc | Apparatuses and methods for streaming audio and video |
US11566784B2 (en) | 2012-03-08 | 2023-01-31 | Simplehuman, Llc | Vanity mirror |
US10746394B2 (en) | 2012-03-08 | 2020-08-18 | Simplehuman, Llc | Vanity mirror |
US11371692B2 (en) | 2012-03-08 | 2022-06-28 | Simplehuman, Llc | Vanity mirror |
USD1009485S1 (en) | 2012-03-08 | 2024-01-02 | Simplehuman, Llc | Vanity mirror |
US11859807B2 (en) | 2012-03-08 | 2024-01-02 | Simplehuman, Llc | Vanity mirror |
US11013307B2 (en) | 2015-03-06 | 2021-05-25 | Simplehuman, Llc | Mirror system with software module or app |
US12102211B2 (en) | 2015-03-06 | 2024-10-01 | Simplehuman, Llc | Vanity mirror with second mirror assembly magnetically attached thereto |
US11622614B2 (en) | 2015-03-06 | 2023-04-11 | Simplehuman, Llc | Vanity mirror |
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US10869537B2 (en) | 2017-03-17 | 2020-12-22 | Simplehuman, Llc | Vanity mirror |
US11457721B2 (en) | 2017-03-17 | 2022-10-04 | Simplehuman, Llc | Vanity mirror |
US11819107B2 (en) | 2017-03-17 | 2023-11-21 | Simplehuman, Llc | Vanity mirror |
US11026497B2 (en) | 2018-02-14 | 2021-06-08 | Simplehuman, Llc | Compact mirror |
US11708031B2 (en) | 2018-03-22 | 2023-07-25 | Simplehuman, Llc | Voice-activated vanity mirror |
USD990174S1 (en) | 2019-03-01 | 2023-06-27 | Simplehuman, Llc | Vanity mirror |
US11640042B2 (en) | 2019-03-01 | 2023-05-02 | Simplehuman, Llc | Vanity mirror |
USD927863S1 (en) | 2019-05-02 | 2021-08-17 | Simplehuman, Llc | Vanity mirror cover |
Also Published As
Publication number | Publication date |
---|---|
US9845537B2 (en) | 2017-12-19 |
US8880360B2 (en) | 2014-11-04 |
US10968523B1 (en) | 2021-04-06 |
WO2007062409A2 (en) | 2007-05-31 |
US20150205109A1 (en) | 2015-07-23 |
US20070159316A1 (en) | 2007-07-12 |
US20150203970A1 (en) | 2015-07-23 |
WO2007062409A3 (en) | 2008-07-10 |
US20120293723A1 (en) | 2012-11-22 |
US11859293B1 (en) | 2024-01-02 |
US8099247B2 (en) | 2012-01-17 |
US10106896B2 (en) | 2018-10-23 |
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