Patent Grant
10676691
Conventional candle holders provide a base or container for securing a candle. Some conventional candle holders provide merely mechanical functionality, while other conventional candle holders provide decorative functionality in addition to the mechanical functionality.
For example, as illustrated in
The candle 20 is positionable within the hollow section of the main body and can provide, when lit, illumination to the body. It is further noted that the candle 20 may be removable from the candle holder 10.
As illustrated in
However, as illustrated in
The illumination from flame 40 is transmitted through imagery 31 and may interact with imagery 31 to create a brighter or warmer impression of imagery 31.
In this situation, the majority of imagery 31, being visually perceived, is created by light from flame 40 passing through (transmitted) imagery 31, whereas when the candle 20 is not lit, the majority of imagery 30, being visually perceived, is created by light reflecting from imagery 30. The difference between reflected illumination and transmitted illumination may cause a brighter or warmer impression of imagery 31 or other desirable aesthetic characteristics.
Although conventional candle holders provide a mechanism for providing imagery, thereby providing a decorative functionality, the imagery is static in that the actual imagery does not change, but the various aesthetic characteristics can be changed due to the imagery's interaction with the illumination source.
It is desirable to provide a candle holder that provides mechanical functionality for securing a candle in addition to providing decorative functionality, wherein the imagery is dynamic in response to the state of the illumination source.
Moreover, it is desirable to provide a candle holder that provides mechanical functionality for securing a candle in addition to providing decorative functionality, wherein the imagery is changed in response to the state of the illumination source.
Furthermore, it is desirable to provide a candle holder that provides mechanical functionality for securing a candle in addition to providing decorative functionality, wherein the imagery is changed in response to the state of the illumination source, and the aesthetic characteristics of the imagery is changed in response to the state of the illumination source.
In addition, it is desirable to provide a candle holder that provides mechanical functionality for securing a candle in addition to providing decorative functionality, wherein the imagery is dynamic in response to the state of the illumination source, and the aesthetic characteristics of the imagery is dynamic in response to the state of the illumination source.
The drawings are only for purposes of illustrating various embodiments and are not to be construed as limiting, wherein:
For a general understanding, reference is made to the drawings. In the drawings, like references have been used throughout to designate identical or equivalent elements. It is also noted that the drawings may not have been drawn to scale and that certain regions may have been purposely drawn disproportionately so that the features and concepts may be properly illustrated.
As illustrated in
In a first embodiment of the candle holder 10 of
With respect to the first embodiment, imagery 350 is created with conventional inks or marking materials that allow illumination to be transmitted therethrough to enable visual perception of imagery 351 (
On the other hand, the imagery 300 is created with thermochromic inks or marking materials. Imagery 300, as illustrated in
As illustrated in
Alternatively, as not illustrated in
Moreover, as illustrated in
In other words, as illustrated in
In the second embodiment of
In the second embodiment of
More specifically, in the example of the second embodiment of
As illustrated in
With respect to
On the other hand, the imagery 300 is created with thermochromic inks or marking materials. Imagery 300, as illustrated in
The imagery 300 is visually perceptible when the temperature of the candle holder 10, the temperature around the imagery 300, is within a first predetermined range.
As illustrated in
Moreover, as illustrated in
In other words, as illustrated in
In a second embodiment of
In the second embodiment of
More specifically, in the example of the second embodiment of
The imagery 500 is formed of thermochromic inks and/or marking materials that change from a color to clear (non-visible to human observer) when the thermochromic inks and/or marking materials are heated (heated from the flame of a candle). The imagery 600 is formed of thermochromic inks and/or marking materials that change from clear (non-visible to human observer) to a color when the thermochromic inks and/or marking materials are heated (heated from the flame of a candle).
The imagery 500 and imagery 600 are formed on a surface of the transparent or translucent candle holder 10, typically on an outer surface of the transparent or translucent candle holder 10. However the imagery 500 and imagery 600 can be formed on an inner surface of the transparent or translucent candle holder 10.
As illustrated in
Moreover, as illustrated in
As illustrated in
Moreover, as illustrated in
In other words, as illustrated in
As illustrated in
Moreover, as illustrated in
In the various embodiments described above, candle holder includes imagery created by thermochromic inks or marking materials. The thermochromic inks or marking materials may be water based or UV curable.
Moreover, the thermochromic inks or marking materials may disappear (non-visible to human observer) or change color when the thermochromic inks or marking materials are heated (heated from the flame of a candle).
More specifically, the thermochromic inks or marking materials may change from a color to clear (non-visible to human observer) when the thermochromic inks or marking materials are heated (heated from the flame of a candle) and/or the thermochromic inks or marking materials may change from clear (non-visible to human observer) to a color when the thermochromic inks or marking materials are heated (heated from the flame of a candle)
In the various embodiments described above, although the images have been described as distinct images (cloud vs. sun), the images can be of the same subject (circle) but wherein the temperature-responsive imagery causes the color of the circle to change from a first color to a second color as a result of the first color changing to clear or “disappearing” in response to encountering heat.
Alternatively, the temperature-responsive imagery may be that of an egg and the underlying image is that of a developing chick such that the developing chick becomes visually perceptible and the egg “disappears” when the imagery encounters heat.
On the other hand, the temperature-responsive imagery may be that of a clothed person and the underlying image is that of the person only clothed in undergarments such that the person only clothed in undergarments becomes visually perceptible and the outer garments of the person “disappear” when the imagery encounters heat.
In another example as described above, the temperature-responsive imagery may be that of a clothed person and the underlying image is that of the person only clothed in undergarments however the undergarments are not visually perceptible from a backside of the candle holder because the ambient temperature around undergarment imagery is below the activation temperature of the thermochromic inks and/or marking materials forming the undergarment imagery. In this example, the person only clothed in undergarments becomes visually perceptible and the outer garments of the person “disappear” when the imagery encounters heat.
In summary, the various embodiments, described above, provide examples of temperature-responsive imagery, wherein an image changes to another image when a predetermined temperature range is encountered.
It is further noted that the imagery may be created directly upon the candle holder.
Alternatively, the imagery may be created on a transparent or translucent medium or a partially transparent or translucent medium that can be adhered to or attached to the candle holder.
It is noted that the candle holder may be transparent or translucent.
Alternatively, the candle holder may include non-transparent or non-translucent areas and transparent or translucent areas.
It is additionally noted, that although the various embodiments have been described in conjunction with a candle, the candle can be replaced with an illumination source which also produces enough heat to trigger the color change of thermochromic inks or marking materials.
For example, the illumination source may be a battery powered or electric powered device that has a separate illumination source and heat source or a combined illumination/heat source, wherein the heat generated is sufficient to trigger the color change of thermochromic inks or marking materials.
It is noted that the candle may also provide aromatic stimuli when lit.
A candle holder comprises a housing for securing a candle; the housing including first thermochromic material formed on the housing and second thermochromic material formed on the thermochromic material; the first thermochromic material changing a perceivable state of the first thermochromic material when an ambient temperature of first thermochromic material is above a first pre-determined activation temperature, the perceivable state of the first thermochromic material being visually perceivable or non-visually perceivable; the second thermochromic material changing a perceivable state of the second thermochromic material when an ambient temperature of second thermochromic material is above a second pre-determined activation temperature, the perceivable state of the second thermochromic material being visually perceivable or non-visually perceivable; the perceivable state of the first thermochromic material, when the ambient temperature of first thermochromic material is above the first pre-determined activation temperature, being different from the perceivable state of the second thermochromic material when the ambient temperature of second thermochromic material is above the second pre-determined activation temperature; the perceivable state of the first thermochromic material, when the ambient temperature of first thermochromic material is below the first pre-determined activation temperature, being different from the perceivable state of the second thermochromic material when the ambient temperature of second thermochromic material is below the second pre-determined activation temperature.
The perceivable state of the first thermochromic material, when the ambient temperature of first thermochromic material is above the first pre-determined activation temperature, may be non-visually perceivable; the perceivable state of the second thermochromic material, when the ambient temperature of second thermochromic material is above the second pre-determined activation temperature, may be visually perceivable; the perceivable state of the first thermochromic material, when the ambient temperature of first thermochromic material is below the first pre-determined activation temperature, may be visually perceivable; the perceivable state of the second thermochromic material, when the ambient temperature of second thermochromic material is below the second pre-determined activation temperature, may be non-visually perceivable.
The perceivable state of the first thermochromic material, when the ambient temperature of first thermochromic material is above the first pre-determined activation temperature, may be visually perceivable; the perceivable state of the second thermochromic material, when the ambient temperature of second thermochromic material is above the second pre-determined activation temperature, may be non-visually perceivable; the perceivable state of the first thermochromic material, when the ambient temperature of first thermochromic material is below the first pre-determined activation temperature, may be non-visually perceivable; the perceivable state of the second thermochromic material, when the ambient temperature of second thermochromic material is below the second pre-determined activation temperature, may be visually perceivable.
The housing may be transparent. The housing may be translucent. The first thermochromic material may be a thermochromic ink. The second thermochromic material may be a thermochromic ink.
The first pre-determined activation temperature may be substantially equal to the second pre-determined activation temperature. The first pre-determined activation temperature may be different from the second pre-determined activation temperature.
A transferable medium comprises a substrate; first thermochromic material formed on the housing, and second thermochromic material formed on the thermochromic material; the first thermochromic material changing a perceivable state of the first thermochromic material when an ambient temperature of first thermochromic material is above a first pre-determined activation temperature, the perceivable state of the first thermochromic material being visually perceivable or non-visually perceivable; the second thermochromic material changing a perceivable state of the second thermochromic material when an ambient temperature of second thermochromic material is above a second pre-determined activation temperature, the perceivable state of the second thermochromic material being visually perceivable or non-visually perceivable; the perceivable state of the first thermochromic material, when the ambient temperature of first thermochromic material is above the first pre-determined activation temperature, being different from the perceivable state of the second thermochromic material when the ambient temperature of second thermochromic material is above the second pre-determined activation temperature; the perceivable state of the first thermochromic material, when the ambient temperature of first thermochromic material is below the first pre-determined activation temperature, being different from the perceivable state of the second thermochromic material when the ambient temperature of second thermochromic material is below the second pre-determined activation temperature.
The perceivable state of the first thermochromic material, when the ambient temperature of first thermochromic material is above the first pre-determined activation temperature, may be non-visually perceivable; the perceivable state of the second thermochromic material, when the ambient temperature of second thermochromic material is above the second pre-determined activation temperature, may be visually perceivable; the perceivable state of the first thermochromic material, when the ambient temperature of first thermochromic material is below the first pre-determined activation temperature, may be visually perceivable; the perceivable state of the second thermochromic material, when the ambient temperature of second thermochromic material is below the second pre-determined activation temperature, may be non-visually perceivable.
The perceivable state of the first thermochromic material, when the ambient temperature of first thermochromic material is above the first pre-determined activation temperature, may be visually perceivable; the perceivable state of the second thermochromic material, when the ambient temperature of second thermochromic material is above the second pre-determined activation temperature, may be non-visually perceivable; the perceivable state of the first thermochromic material, when the ambient temperature of first thermochromic material is below the first pre-determined activation temperature, may be non-visually perceivable; the perceivable state of the second thermochromic material, when the ambient temperature of second thermochromic material is below the second pre-determined activation temperature, may be visually perceivable.
The substrate may be transparent. The substrate may be translucent. The first thermochromic material may be a thermochromic ink. The second thermochromic material may be a thermochromic ink.
The first pre-determined activation temperature may be substantially equal to the second pre-determined activation temperature. The first pre-determined activation temperature may be different from the second pre-determined activation temperature.
It will be appreciated that several of the above-disclosed embodiments and other features and functions, or alternatives thereof, may be desirably combined into many other different systems or applications. Also, various presently unforeseen or unanticipated alternatives, modifications, variations, or improvements therein may be subsequently made by those skilled in the art which are also intended to be encompassed by the description above.
The present application claims priority, under 35 U.S.C. § 119(e), from U.S. Provisional Patent Application, Ser. No. 62/559,882, filed on Sep. 18, 2017. The entire content of U.S. Provisional Patent Application, Ser. No. 62/559,882, filed on Sep. 18, 2017, is hereby incorporated by reference.
| Number | Name | Date | Kind |
|---|---|---|---|
| 598173 | Henke | Aug 1897 | A |
| 3268492 | Steinberg | Aug 1966 | A |
| 4163333 | Kwiatkowski | Aug 1979 | A |
| 4334909 | Chupp | Jun 1982 | A |
| 4818215 | Taga | Apr 1989 | A |
| 4947299 | Lin | Aug 1990 | A |
| 5083251 | Parker | Jan 1992 | A |
| 5605765 | Rudick | Feb 1997 | A |
| 6165234 | Kanakkanatt | Dec 2000 | A |
| 6200129 | Sullivan | Mar 2001 | B1 |
| 6474980 | LaVanier | Nov 2002 | B2 |
| D470623 | Kwok | Feb 2003 | S |
| 6537335 | Friars | Mar 2003 | B1 |
| 6654448 | Carpenter et al. | Apr 2003 | B1 |
| 6706081 | Mack et al. | Mar 2004 | B2 |
| 6759099 | Lodge | Jul 2004 | B2 |
| 6808297 | Jansen et al. | Oct 2004 | B2 |
| 6979120 | Wolfe | Dec 2005 | B1 |
| 7011425 | Micele, Jr. et al. | Mar 2006 | B2 |
| 7422355 | Hirata | Sep 2008 | B2 |
| 9062835 | White | Jun 2015 | B2 |
| 20010031438 | Hannington | Oct 2001 | A1 |
| 20010043469 | Carpenter | Nov 2001 | A1 |
| 20080050540 | Christofer | Feb 2008 | A1 |
| 20110045415 | Shitrit | Feb 2011 | A1 |
| 20130203002 | Aster | Aug 2013 | A1 |
| Number | Date | Country |
|---|---|---|
| 1471924 | Apr 1977 | GB |
| 2220734 | Jan 1990 | GB |
| Entry |
|---|
| Magic Color Changing Funny Mug (website: https://www.amazon.com/Magic-Color-Changing-Funny- Mug/dp/B01KYGHCXM/ref=pd_lpo_vtph_79_lp_t_3?_encoding=UTF8&psc=1&refRID=VCEVRSGSY2ADPYCD2F6Z 2018. |
| “The Time for Thermochromics,” Materials Today, vol. 11, Issues 11, p. 6, Nov. 2008 Nov. 2008. |
| “Glowing Photo Luminaries” (website: ourbestbites.com/glowing-photo-luminaries/) downloaded Jul. 16, 2018 2018. |
| “Thermochromatic Tech Data Sheet” CTI, downloaded Aug. 31, 2017 2017. |
| Number | Date | Country | |
|---|---|---|---|
| 20190085263 A1 | Mar 2019 | US |
| Number | Date | Country | |
|---|---|---|---|
| 62559882 | Sep 2017 | US |
