Patent Application
20200292370
This invention relates generally to containers, dispensers, and the like and, more particularly, to a method and apparatus for illuminating the interior of a container to determine fill level.
In many industries, containers, dispensers and other vessels are mounted or left in a particular location, yet require refilling when their contents are depleted. One such industry is the hospitality industry, which includes hotel/motel lodging, conference and event venues, travelling and additional fields within the tourism industry.
With respect to lodging in particular, it is now a common practice to provide containers and dispensers in rooms for guest use. Such containers and dispensers, often wall-mounted, may contain liquid soaps, shampoos, cream and other hygiene products. As these substances are used, it is important for the service staff to ensure that the containers are refilled to avoid complaints.
One way to easily determine fill level is to provide transparent or translucent vessels so that the fill level is immediately apparent. However, this may make the container or dispenser unsightly, as the obvious fill line may interfere with the appearance of the product or obscure desired labeling, packaging or instruction details.
An alternative to the use of a fully transparent or translucent container is to incorporate a transparent or translucent “sight window” on the container to determine fill level. This technique is used on some plastic motor oil containers in the form of a vertical translucent strip that runs up the side of the container.
Sight windows are also used on some wall-mounted containers in the hospitality industry. One example is disclosed in U.S. Pat. No. 7,066,357, entitled WALL-MOUNTED DISPENSER ASSEMBLY WITH TRANSPARENT WINDOW. However, even the dispenser in this instance anticipates the use of a transparent container. More particularly, this prior art reference contemplates the use of a sight window in conjunction with a much larger light window at the top of cover to admit greater amounts of light to the inside of the container when the cover is in the closed position. This purportedly enables enhanced viewing through the sight window as well as viewing through the window. “Such an arrangement is particularly advantageous when the container itself is fabricated from clear material.”
Given the undesirable appearance of clear containers in the hospitality industry and other fields of use, the need remains for a refillable container, dispenser or other vessel that can be surreptitiously interrogated to determine fill level without the use of sight windows.
In broad and general terms, this invention resides in a vessel that uses light from an external source to illuminate the interior of the vessel to determine the level of vessel contents without the need for separate sight windows in the wall(s) of the vessel. The vessel may be a refillable vessel, and the external light source may be a flashlight.
The vessel comprises a top portion, a bottom portion, and a sidewall extending from the top portion to the bottom portion. At least the sidewall of the vessel incorporates a one-way mirror that visually obscures the contents of the vessel in ambient light conditions. However, when light from an external source enters into the vessel and illuminates the interior of the vessel, the fill level of the contents of the vessel becomes visible through the one-way mirror. The external source of light is preferably a portable, hand-held LED flashlight.
The vessel may be constructed from any suitable material such as glass or plastic. In the preferred embodiment, the one-way mirror is implemented with a metallized film or coating that covers at least the sidewall of the vessel. A portion of the vessel such as a portion of the bottom of the vessel may not include the one-way mirror, thereby forming a transparent or translucent window through which the interior of the vessel may be more readily illuminated.
The vessel may be received by a wall-mounted bracket including an opening that aligns with a light-receiving region or area in the vessel. For example, a portion of the bottom of the vessel may include a transparent or translucent window in alignment with a hole in the bracket, enabling the interior of the vessel to be illuminated from the bottom up. Conveniently, the hole in the bracket may form part of a drainage opening.
The vessel may be dispenser received by a wall-mounted bracket, in which case the top portion of the vessel may include a manually operated pump. The contents of the vessel may include a liquid, a cream, or a gel, such as a personal hygiene product which could include, without limitation, shampoos, conditioners, shower gels, soaps or cleansers, hand or body lotions or creams, sanitizers, oral hygiene or shaving products.
In broad and general terms, this invention uses an externally supplied light source to illuminate the inside of a vessel to reveal at least the fill level of the contents therein.
The vessel 100 in
Nor is the invention limited in terms of vessel contents, which may include any liquid, preferably light-permeable liquids, ranging from highly viscous creams and gels to very watery fluids. As such, the invention is applicable to any suitable hygiene products including, without limitation, shampoos, conditioners, shower gels, soaps or cleansers, hand or body lotions or creams, sanitizers oral hygiene and shaving products. The invention may also be used in conjunction with consumable liquids including water, soft drinks, and so forth.
In accordance with the invention, at least the sidewall of the vessel includes a “one-way mirror” (sometimes referred to as a “two-way mirror”). As such, prior to illumination, the vessel intentionally appears to be a sealed metal or metallic container.
The one-way mirror may be implemented in any manner, including a spray-on coating or with substances embedded within the walls of the container. In the preferred embodiment, however, a metallized, metallic or “semi-silvered” mirrored film is applied onto or over at least the sidewall of the vessel. The film may be permanently bonded to the vessel through heat and/or adhesive(s), or the vessel may be shaped to retain the film in a desired position; i.e., the film may be in the form of a sleeve that is trapped by structures on or in the vessel. Alternatively, the film may be shrink-wrapped onto the vessel. Decorative textual or graphical elements 108 may be applied in any suitable manner, including printed onto the mirrored film or printed onto a transparent, translucent or opaque adhesive label.
Various one-way films may be used, including thermoplastic PETG films that can be injection molded, sheet extruded and colored during processing. Films of this type may be sold under the name Mylar. A preferred film thickness is in the range of 1.9 to 2 mil, with a preferred opacity in the range of 80% to 100%. In use, the film is highly reflective without back-illumination, thereby obscuring the contents of the vessel under normal ambient-light conditions, while becoming more light transmissive, and at least semi-transparent or translucent when back-illuminated to facilitate temporary fill level visualization.
Thus, the film is “light reactive” in the sense that the film transitions from reflective to translucent when illuminated as described herein. As shown in
The vessel may be supported in a wall-mounted bracket 114, which may include a bottom 112 with a retainer lip 110. To facilitate bottom's-up illumination, the bracket may include port(s) 116 through the bracket and underneath each vessel, as shown in
Different types of materials may be used to form the vessel, including plastics with polyethylene formulations, polycarbonates, silicones, glass, and so forth. The invention is not limited in terms of the type of material used as long as the vessel-mirror combination allows the fill level to be visibly evident through the sidewall when illuminated as disclosed herein. As such, the vessel walls should be at least translucent or transparent prior to the including of the one-way mirror substance or film. The top portion(s) of the vessel, for example the cap 104 and pump 106, need not be translucent or transparent, and in fact may be opaque.
