阅读说明：本技术 紫外线阴影盒 (Ultraviolet shadow box ) 是由 D·F·迪迪尔 于 2019-06-14 设计创作，主要内容包括：提供一种用于展示物品的盒,所述物品中的至少一个是紫外线反应物品。盒的尺寸适合插入陈列柜。盒包括用于容纳待展示的物品的盒结构,并且具有至少一个遮蔽表面以及至少一个开口或装有玻璃的表面。提供与盒结构接线的照明装置,并且照明装置包括在可调节条带中的365nm紫外线LED二极管组件。提供了用于引导可调节条带的位置或取向的装置,使得紫外线LED刺激紫外线反应物品中的可见荧光,而盒中的区域经受穿过至少一个开口或装有玻璃的表面进入盒结构中的环境光或陈列柜白光照射；并且盒中的区域受到来自至少一个遮蔽表面的遮蔽。(A case for displaying articles is provided, at least one of the articles being a uv reactive article. The box is sized for insertion into a display case. The case includes a case structure for receiving an item to be displayed and has at least one obscuring surface and at least one opening or glazed surface. A lighting device wired to the box structure is provided and includes a 365nm ultraviolet LED diode assembly in an adjustable strip. Means are provided for directing the position or orientation of the adjustable straps such that the ultraviolet LEDs stimulate visible fluorescence in the ultraviolet reactive items while the area in the box is subjected to ambient or showcase white light illumination entering the box structure through at least one opening or glazed surface; and the area in the box is shielded from the at least one shielding surface.)

1. A case for displaying items, at least one of the items being a uv-reactive item, the case being sized for insertion into a display case, and the case comprising:

a box structure for containing said articles to be displayed, the structure comprising at least one screening surface and at least one opening or glazed surface;

a lighting device wired to the box structure, comprising:

at least one adjustable strap comprising:

an extrusion member in the shape of a U,

at least one compact ultraviolet LED assembly mounted on the extrusion,

an LED circuit and a 365nm ultraviolet LED diode arranged on the LED circuit are arranged in the ultraviolet LED component,

a narrow strip diffuser mounted across at least a portion of the open side of the extrusion and covering the LED assembly, an

A controller for controlling the lighting device; and

means for directing the position or orientation of the adjustable straps such that the ultraviolet LEDs stimulate visible fluorescence in the ultraviolet reactive items while the area in the box is subjected to ambient or showcase white light entering the box structure through at least one opening or glazed surface; and the area in the box is shielded from at least one shielding surface.

2. The case of claim 1, wherein at least a portion of the illumination device is concealed within the case structure.

3. The cartridge of claim 2, wherein the illumination device is obscured by the at least one obscuring surface.

4. The cassette of claim 1, wherein the cassette structure has a top portion and a base portion, and at least a portion of the illumination device is mounted in the base portion.

5. The case of claim 1, further comprising a display mount disposed in the case structure.

6. The cassette of claim 5, wherein the adjustable strap is directable toward the ultraviolet reactive articles on at least one of the mounts.

7. The cassette of claim 1, wherein the adjustable strip is directionally defined to prevent directing ultraviolet radiation upwardly through the glazed surface toward an eye of an observer.

8. The cassette of claim 1, wherein the illumination device further comprises a white light assembly wired and mounted in the same extrusion as the ultraviolet LED assembly.

9. The cartridge of claim 8, wherein the controller is programmable to selectively modulate the power output of the ultraviolet LED assembly and the white light assembly.

10. The cassette of claim 1, wherein the glazed surface is a transparent, translucent, sub-transparent, or micro-transparent material.

11. The cassette of claim 1, wherein the obscuring surface is an opaque solid structural member or an opaque portion of a glazed material, the obscuring surface being spaced apart from another surface on which the obscuring surface casts a shadow.

12. The cartridge of claim 11 wherein the ultraviolet reactive article is disposed at least partially in a shadow cast by the shadow surface.

13. A case for displaying items, at least one of the items being a uv-reactive item, the case being sized for insertion into a display case, and the case comprising:

a box structure for containing said articles to be displayed, the structure comprising at least one screening surface and at least one opening or glazed surface;

a lighting device wired to the box structure and shielded by the at least one shielding surface, the lighting device comprising:

at least one compact UV LED assembly mounted on the extrusion, in which UV LED assembly there is arranged an LED circuit and a 365nm UV LED diode arranged on the LED circuit, and

a controller for controlling the lighting device; and

means for directing the position or orientation of the illumination means such that the ultraviolet LEDs stimulate visible fluorescence in the ultraviolet reactive materials while the area in the box is subjected to ambient or showcase white light entering the box structure through at least one opening or glazed surface; and the area in the box is shielded from at least one shielding surface.

14. The cassette of claim 13, wherein the cassette structure has a top portion and a base portion, and at least a portion of the illumination device is mounted in the base portion.

15. The case according to claim 13, further comprising a display mount disposed in the case structure.

16. The cassette of claim 15, wherein the illumination device is directable toward the ultraviolet reactive articles on at least one of the mounts.

17. The cassette according to claim 13, wherein the illumination device is directionally defined to prevent directing ultraviolet radiation upwardly through the glazed surface toward an eye of an observer.

18. The cassette recited in claim 13, wherein the illumination device further comprises a white light assembly wired and mounted in the same extrusion as the ultraviolet LED assembly.

19. The cartridge of claim 18, wherein the controller is programmable to selectively modulate the power output of the ultraviolet LED assembly and the white light assembly.

20. The cassette of claim 13, wherein the glazed surface is a transparent, translucent, sub-transparent, or micro-transparent material.

21. The cassette of claim 13, wherein the obscuring surface is an opaque solid structural member or an opaque portion of a glazed material, the obscuring surface being spaced apart from another surface on which the obscuring surface casts a shadow.

22. The cartridge of claim 21 wherein the ultraviolet reactive article is disposed at least partially in a shadow cast by the shadow surface.

Technical Field

The present invention relates to cases and display cases for displaying items and, more particularly, to lighting and effects systems for such display cases and display cases.

Background

An interesting property of ultraviolet radiation is that it stimulates the phosphors of certain reactive materials and substances to produce a visually striking effect through the fluorescence of the material or substance.

Jewelers and jewellers have been aware of the presence of phosphors in certain gemstones (e.g., diamonds) for many years. In the case of diamond, the phosphor may be present as impurity atoms of nitrogen, hydrogen and boron. Under natural light conditions, these phosphors are largely undetectable. However, under ultraviolet light, the phosphor may emit fluorescence in orange, blue, yellow, or green color tone. Fluorescence refers to the property of a substance to emit light through absorbed UV radiation while being exposed to UV (ultraviolet) radiation. The american college of gemstones estimates that about 25% to 35% of the diamonds have some degree of fluorescence. Diamonds containing different concentrations of phosphors are almost indistinguishable from each other in natural light, but become differentially fluorescent when exposed to ultraviolet radiation. The fluorescence appears to be emitted in lumens directly from the stone.

The presence of these phosphors, when present in strong concentrations, is associated with defective or low quality stones. Thus, fluorescence has been used as a grading and description tool by jewellers and gemmologists. Ultraviolet inspection light is generally used under laboratory conditions where external light is blocked. Such ultraviolet light is not used by customers, nor in a shop environment with typical bright ambient lighting. Furthermore, the perceived negativity of the fluorite means that the jeweler has attempted to hide or de-emphasize this feature from the customer. Stones with medium or strong blue or very strong blue fluorescence ratings are traded at a very large discount. This effect has not been used in display environments where the phosphor-containing properties of the article are particularly emphasized or enhanced.

Display cases are typically glass-filled enclosures or boxes or cabinets used to display and protect items. It can be used in various environments, either permanently or temporarily installed, to display an item (or a single item) in a particularly attractive or advantageous aspect. Typically, display cases are used to display particularly high value or rare items to enable closer inspection of the items.

Historically, however, display cases have not been used to demonstrate the fluorescent properties of uv reactive materials, since it is believed that such materials require inspection in very low light or preferably complete darkness to provide a visible effect of the uv radiation.

In applicant's patent application US 15/636,878, an option is provided for a new method of constructing or retrofitting a display case with combined white light and UV light (incorporated herein by reference). Applicants have discovered that the fact that ultraviolet radiation and white light can be used together without substantially compromising the ability to stimulate visible fluorescence of the ultraviolet-reactive article provides a new experience for the viewer (e.g., prospective buyer). Even in the presence of white light, applicants have found that uv reactive species may naturally "pop up" to attract the attention of the viewer.

However, display cases are a major investment item for store owners. Many store owners prefer to use existing display cases with existing lighting systems, and also prefer to replace such large items with new display cases with dedicated lighting systems. There should be an option for providing a substructure to be inserted into an existing display case to provide new and significant supplemental UV and white light display possibilities.

Disclosure of Invention

A case for displaying articles, at least one of which is a uv-reactive article, is provided. The box is sized for insertion into a display case. The box includes a box structure for receiving the items to be displayed and has at least one obscuring surface and at least one opening or glazed surface (i.e., an opening in the box that may or may not be glazed). A lighting device wired to the box structure is provided, and the lighting device includes: at least one adjustable strap comprising: a U-shaped extrusion, at least one compact ultraviolet LED assembly mounted on the extrusion, in which are disposed an LED circuit and a 365nm ultraviolet LED diode disposed on the LED circuit, and a narrow-band diffuser mounted across at least a portion of the open side of the extrusion and covering the LED assembly; and a controller for controlling the lighting device. Means are provided for directing the position or orientation of the adjustable straps such that the ultraviolet LEDs stimulate visible fluorescence in the ultraviolet reactive items while the area in the box is subjected to ambient or showcase white light entering the box structure through at least one opening or glazed surface; and the area in the box is shielded from the at least one shielding surface.

At least a portion of the illumination device is preferably concealed within the box structure. The illumination device may be shielded by at least one shielding surface.

The box structure preferably has a top portion and a base portion. At least a portion of the lighting device may be mounted in the base portion (i.e., the foot lamp). For example, the lighting device may be mounted below the top panel portion of the box, or along a side or end wall, and may be directed toward the bottom of the side or end wall as a foot light.

The display mount may be disposed in the box structure. Preferably, the adjustable strip is capable of being directed towards the uv reactive species on at least one of the mounts.

The adjustable strip may be defined in its guidance to prevent directing ultraviolet radiation upwardly through the glazed surface toward the viewer's eye.

In some embodiments, the lighting device further comprises a white light assembly wired and mounted in the same extrusion as the ultraviolet LED assembly. Preferably, the controller is programmable to selectively modulate the power output of the ultraviolet LED assembly and the white light assembly.

The glazed surface may be a transparent, translucent, sub-transparent or micro-transparent material.

The mask surface may be an opaque solid structural member or an opaque portion of a glazed material, the mask surface being spaced from another surface on which the mask surface projects a shadow. The ultraviolet reactive species may be disposed at least partially in a shadow cast by the shadow surface.

Drawings

FIG. 1 is a perspective view of a display case containing a plurality of shadow boxes according to a preferred embodiment.

FIG. 2 is a front view of the display case showing the shadow box containing the items for display.

Figure 3 is a front view of the display case with the items removed to show the shadow box array.

Fig. 4 and 5 are end views of the display case.

Figure 6 is a top view of the display case showing the items for display (with the top of the shadow box removed for clarity).

Figure 7 is a lower side view of the display case.

Figure 8 is an exploded view of the display case and shadow box.

FIG. 9A is a perspective view of a lighting strip having a U-shaped extrusion showing one UV LED.

Fig. 9B is a cross-sectional view of the illumination strip of fig. 9A.

FIG. 9C is a cross-sectional view of an embodiment of an illumination strip with a narrow band diffuser (held by a flange).

FIG. 9D is an interior view of an illumination strip with multiple UV and white LEDs.

Fig. 9E is a rear view of the shadow box, showing the switches and controller.

Fig. 9F is a simplified view of an illumination strip assembly with an adjustment device.

Fig. 10A and 10B are photographic views of several sample UV reactive articles (here diamonds). Fig. 10A shows only a view of the article under white light. Fig. 10B shows the same article under the influence of UV radiation, showing fluorescence emitted by the stone.

Fig. 11 is a front perspective (simplified) view of the shadow box, illustrating the light and UV radiation effects and selective shielding under portions of the top plate of the shadow box.

Detailed Description

The shadow box is used in standard display cases of known type, for example in jewelry stores and jewelry displays. The shadow box allows dramatic presentations of UV-reactive or UV-sensitive items using the combined effect of (i) selective shadows and (ii) UV LEDs stimulating fluorescence of the items, resulting in particularly compelling and noticeable presentations. At the same time, ambient light (or sunlight) and/or showcase lighting can enter the shadow box to provide full visibility of the contents, which can also include non-UV reactive items.

Articles that exhibit fluorescence under ultraviolet radiation include ultraviolet-reactive gemstones, minerals, and even animals (e.g., fish), as well as man-made articles (e.g., candy/desserts, toys, cosmetics, decorative accents on various products, displays, labels, tags, and decorations associated with home and/or commercial displays) that are manufactured or coated with phosphorus chemicals, paints, or dyes.

Some examples of such articles 200 are shown in fig. 10A and 10B. These items (here diamonds with natural phosphors) are shown only in white light in fig. 10A and in UV radiation in fig. 10B. Diamonds present themselves in a unique and striking form. Under the effect of the ultraviolet radiation, the stone itself emits visible light through its fluorescence 500. The effect stops when the radiation source is switched off.

A basic display case is shown in fig. 1-8. The display case 10 includes a structure or frame 20 (here, a shell or cabinet) and a base 30 (here, with legs). As is well known, display cases have glazed walls 40 and a cabinet base 50 (opaque or glazed). The display case can include its own conventional lighting or can be illuminated by ambient light or an external spotlight (not shown). While a conventional arrangement is shown, it should be understood that any type of display case configuration can be used with the present invention-with or without a base; free standing or built into another structure; and have any shape, any size, any number of walls or edges, so long as there is at least one surface with glass (glass, plastic, etc.) present through which the contents of the display case (here the shadow box and the interior items for display) can be seen. The display case itself can contain an interior mount 200, and items can be placed or presented or carried on the interior mount 200, or the mount can be within the shadow box 100. Such a mount 200 may include any type of riser, rack, box, platform, display, stand, etc., whether removable or fixed.

Preferably, the display case is provided with an open end, window, door, or the like, through which the shadow box can be inserted into the display case and positioned as desired.

As shown, for example, in fig. 3, the shadow boxes 100 for display within such a display case 10 can be provided in a multi-box arrangement (e.g., linearly positioned as shown, or they can be stacked or otherwise arranged in any desired arrangement).

Each shadow box acts as its own mini-theater in which one or more valuable items are displayed. Thus, the display case can also have non-shadow cases to display items; wherein the shaded boxes are used to particularly highlight one or more items that are very specific. Further, the shadow box may include a combination of UV reactive items 210 and non-UV reactive items 220 mounted on various mounts 200. These set the feel of the scene and provide dramatic settings and structural means to enhance the presentation (e.g., props, effects, surfaces).

The structure of the shadow box can be seen in fig. 8 and 9E. In the basic embodiment, each cassette has a base 110, side walls 120, one or two end walls 130, and a top/ceiling 140. The base can be provided with an opening 115 or a fully open floor so that the displayed items can be placed on the base of the shadow box or on the floor 50 of the display case itself (i.e., the shadow box can be configured to provide a top covering over only the displayed items and their mounts). While a standard box shape is as described, it is also contemplated that such a "box" may in fact take a variety of forms (e.g., cylindrical, spherical or hemispherical, pyramidal, and truncated forms of these shapes, to name a few alternatives). Furthermore, the shadow box may not be completely enclosed, and indeed any or most of the walls may be omitted or reduced in size.

The walls of the shadow box may be opaque or transparent, glazed or unglazed. Any rigid material may be used. Some possible materials for the shadow box include, but are not limited to, rigid composites (e.g., Gatorboard, DiBond), metals, wood, plastics, and the like. The entire wall itself may be illuminated.

The walls and base may also be coated with a coating selected to achieve a particular effect in lighting. For example, fluorescent paint may be used to provide another fluorescent surface that is reactive to UV light, a glossy surface may better reflect ambient light, emphasize contrast with shaded areas, a matte surface (e.g., matte black) may absorb light, and provide a different kind of contrast to show fluorescent surfaces and items. Textiles may also be used in shadow boxes to create a luxury or perceptual effect. In the case of particular exposure to UV radiation, a UV stable coating or surface may be selected.

The top panel 140 preferably has an opening 150 that allows for being in the environment (e.g., natural white), in the exterior, or in the display case light. The structural portion of the top plate surrounding these openings provides a shadow surface, i.e., a surface that casts shadows on the opposing surface and interior portions of the shadow box. Thus, the distribution and shape of the openings can be used strategically to allow access through which the items in the box can be viewed. In addition, surrounding slats or non-open areas may operate like a template such that certain selected areas are obscured or shadowed from beneath the ceiling. It should be understood that other sides or ends of the shadow box may have such openings. The opening may be glazed. The structural portion of the cassette may be any opaque material (or a completely opaque portion of a continuous surface, where the "opening" may be sub-transparent).

The structure of the shadow box may be used as a mounting structure for a UV lighting device, and in some cases, a white light lighting device, in addition to a natural opening through which light can pass and an enclosed area for creating shadows.

The lighting device preferably includes a lighting strip 160, the lighting strip 160 being wired to a controller 163 (including switches, dimmers, etc.), shown in greatly simplified form in fig. 9E. The strips are preferably adjustable, dimmable and modulatable. In one example, white light and UV light may be modulated. In this case, the controller would operate to modulate the lumen intensity (relatively "dark" or "bright") of the ultraviolet (and, if provided, white) light to optimize the intensity of the light (and/or the mix of light) for optimal presentation of the items. The structure of the controller may include various programmable user controls such as dials, sliders, and the like.

The sample enhancement function of the controller may include a user preprogrammed light combination. For example, special dramatic sparkling or magic effects may be produced, as well as other specific lighting patterns or "scenes". Further, in some embodiments, timing effects (e.g., on/off timing) may be programmed.

It should be understood that the shadow box illumination device can be wired directly into the shadow box as a fixture (e.g., through a defined channel, conduit, or raceway in the shadow box). The controller 163 may be located in direct wired communication with the shadow box lighting fixture (as shown in fig. 9E), or it may be configured as a remote device, or even as an application (app) that remotely controls the shadow box lighting fixture.

The lighting strip 160 may have a generally U-shaped extrusion 180 (by which we intend to include a V-shape or hemispherical or flat-bottomed shape) in which one or more UV LED assemblies are mounted. Each UV LED assembly has a circuit board 175 and a UV LED diode 170. The UV LED preferably has a specific wavelength of 365 nanometers (nm). The diodes are preferably high power diodes of 3 watts to better project the UV energy into the shadow box. Applicants have found that this particular wavelength and this particular power are particularly effective for stimulating the fluorescence of UV reactive articles such as gemstones, and are much better than can be achieved using the more common household or commercial grade UV lamps.

In use, the white light fixture 172 (on the same strip, as shown in fig. 9D, or a separate strip) may be provided by a white light bulb or diode (preferably in the color temperature range of 2800K to 5500K). The white light source may be an LED, incandescent lamp, halogen lamp, xenon lamp, or the like.

The extrusion of the lighting strip may be provided with a narrow-band diffuser to diffuse the UV radiation across a wider area (horizontal or vertical). In one example, the diffuser 185 may be a simple acrylic element that slides onto the flange 187 or is held by clips or the like (not shown) on the edge of the extrusion to at least partially cover the open side 190 of the extrusion.

In the energized state, the UV LED emits a beam of UV radiation that may be directed to irradiate the ultraviolet reactive species. The invisible UV energy is the radiation output (i.e. the intensity of the power output) in watts (here, preferably at least 3 watts). The energy becomes visible fluorescent light emitted by the article 210, as shown by the stone in fig. 10B. The fluorescent light 500 emitted by the article 210 (the example in fig. 10A and 10B is a gemstone) is in the form of a photometric output, typically measured in lumens, depending on the brightness of the light presented to a human observer.

The power supply to the lighting strip may be provided by an AC (alternating current) line voltage to an integrated low voltage transformer. Alternatively, a USB connection may be used to power the lighting strip. In one embodiment, the system may be battery powered. Lithium ion batteries of at least about 1000mAh can be used to provide sufficient power for high power diodes.

The structure of the shadow box means that the illumination strip can be mounted in different positions in the box (which may be hidden on the interior surface or built into the wood of the box). The shadow boxes allow the lighting strips to be located above and below the display items (e.g., like spot lights and "footlights" in theaters). The problem of aiming UV radiation directly at the viewer's line of sight (damaging the eye) can be avoided by the structure of the shadow box itself (i.e. the shading surface) or by the positioning and orientation of the illumination strips. For example, the illumination strip may be provided with a simple adjustment mechanism 168 to direct the beam of the strip inwardly towards the interior of the cassette, and a divider (not shown) may be provided to limit the range of adjustment. The adjustment may be manual or motorized. In the case of manual, they can be adjusted by, for example, a manual knob or roller, or can be turned with an allen key. Other adjustment devices may include flexible, telescoping or telescoping positioning arms, variable height suspended lighting devices, and various sliding mechanisms (not shown).

FIG. 11 best illustrates the combined effect of the box shading, lighting and fluorescence effects. At least five types of light/energy activity (when energized) occur simultaneously in the cartridge:

openings (or glazed areas) 150 allowingAmbient, shop or showcase lighting400 into the cassette.

This light may in turn be reflected from a shiny item or surface in the cartridge (e.g., non-UV reactive item 220)Reflected light450。

At the same time, other regions of the cassette may be located formed by non-open portions of the top plate 140Penumbra or shadowBelow 410, the non-opening portion serves as a shielding surface.

·UV radiationProvided by UV LEDs 170 in the illumination strip 160. These UV LEDs may be directed such that UV radiation 300 travels towards the UV reactive objects 210. UV is not visible by itself.

Emission of UV-reactive substances 210 in visible form under the influence of UV radiation 300Fluorescence500。

The effect of fluorescence may also be enhanced by placing UV reactive items in the shadow 410, the shadow 410 providing a spot that is slightly darker than the surrounding environment while still being visible through the opening of the shadow box.

There is no particular size limitation. However, it should be understood that UV radiation will decay with distance. Thus, at a greater distance from the item to be stimulated, the power of the UV LEDs must also be greater (or the number of such LEDs increases).

Although the present invention has been disclosed with reference to particular forms and embodiments, it will be apparent that numerous changes may be made without departing from the spirit and scope of the invention. For example, equivalent elements may be substituted for those specifically disclosed, and certain features of the invention may be utilized independently of other features, all without departing from the invention as defined in the appended claims.