Device for illuminating centripetally viewed three-dimensional objects in wet locations

Disclosed are devices and systems for the indirect, substantially glare-free, directional lighting of three-dimensional objects, such as plants and outdoor sculptures. Artificial light is generated at a central point which is recessed, in close proximity to, and below the objects which may be exposed to rain or other sources of water. The light is directed upwardly through transparent areas in a water-tight housing in the shape of a predetermined light mantle substantially enveloping the object without significant scattering of the light, which is indirectly visible by its reflections from the illuminated object. When illuminating objects such as a flower arrangement, a disclosed device permits lighting the inside of such flower arrangement, as well as its outer reaches. The devices permit substantially glare-free viewing by a plurality of observers grouped around the illuminated object in a circle.

BACKGROUND OF THE INVENTION 
The present invention relates to the directional lighting of objects having 
three-dimensional surfaces, such as plants, sculptures and other defined 
objects. 
It particularly relates to the glare-free illumination of objects intended 
to be centripetally viewed by a plurality of observers grouped around such 
lighted object and where such objects may be exposed to moisture, such as 
plants requiring watering or objects exposed to rain. 
Conventional methods used to light three-dimensional objects involve the 
use of spotlights, ceiling lights, track lights and the like, normally 
beamed at and around the object to be illuminated from a distance, 
normally of several meters. Such lighting methods and devices have a 
number of disadvantages. A primary disadvantage stems from the distance at 
which conventional lights are mounted from the object to be illuminated. 
This causes not only loss of lumens, but a scattering of light beyond the 
confines of the object. It is obvious that, the greater the distance, the 
more difficult it is to economically direct light with precision at 
three-dimensional objects, especially objects having irregular 
configurations. An illustration would be a tall or spindly plant or an 
irregularly shaped object, in the lighting of which much of the light 
passes by and through such an object. 
A serious drawback of such lighting methods lies in the glare produced by 
ceiling lights and spotlights, which results in discomfort to the eyes of 
observers. 
Glare-free lighting devices positioned in close proximity to the objects to 
be illuminated are known and employed in the conventional lighting of 
two-dimensional surfaces such as paintings, murals, wall hangings and the 
like. Such devices, mounted for instance at the top or bottom edge of a 
painting, are however, not suitable for lighting objects having 
three-dimensional surfaces, such as standing or hanging indoor plants, or 
outdoor plants, in a decorative, pleasing and effective manner. The 
present invention is specifically directed towards the illumination of 
objects having three-dimensional surfaces and does not relate to the 
lighting of two-dimensional, planar, or essentially flat areas, such as 
floors and walls, or other flat objects such as paintings and tapestries. 
Lighting devices, such as spotlights, for lighting indoor and outdoor 
plants are used extensively in the illumination of specific 
three-dimensional objects. The light from such light sources, illuminating 
for instance the foliage of plants, normally emanates from one source or 
from several discrete light sources placed at a distance from the object. 
The disadvantages of these devices are several. First, the light 
originating at a single source or even at several sources, positioned at a 
distance and directed at a plant, illuminates only that facet of the 
foliage which faces such light sources, i.e. one side of the plant. Also, 
such light usually shines across and through the plant, which is 
inefficient; more importantly, the naked light shines directly into the 
eyes of persons facing the light source. If the illuminated plant is thick 
or dense enough to prevent light from shining through it in such annoying 
fashion, it follows that the side of the plant facing away from the light 
source receives no illumination at all. If, in order to overcome these 
drawbacks, several light sources are disposed around the object to be 
illuminated, the equipment cost and operating expenses are correspondingly 
multiplied. Furthermore, the lighting effect of such devices is not 
uniform and juxtapositioned persons will be exposed to glare. 
The present invention therefore is intended to be useful in lighting 
three-dimensional objects involving multi-directional and centripetal 
(radially inward) viewing by juxtapositioned observers on opposite sides 
of the object to be illuminated, irrespective of whether the lighted 
object is transparent, has openings, or is irregularly shaped. Using 
currently available devices, the pleasing effect of lighting the foilage 
of plants and shrubs is destroyed when the human eye is directly exposed 
to the light source. 
The type of outdoor lighting device commonly used, which has reflectors 
directing light downwardly in a glare-free manner towards the ground is 
capable of illuminating only flowers or short plants; whereas the 
advantages of the present invention do not depend on the height, shape or 
level of the object to be illuminated. 
As previously stated, whenever spotlights or similar lights are used in 
illuminating plants, juxtapositioned observers, i.e. observers positioned 
on the side of the plant opposite to that where such light source is 
mounted, are exposed to the unpleasant glare of directly viewed light. For 
these reasons, known lighting devices are unsatisfactory when objects are 
displayed for viewing from all sides, e.g. freestanding museum exhibits. 
The present invention addresses problems of this nature, as for instance 
lighting a sculpture in such fashion that observers grouped in a circle 
around the exhibit will each have an unobstructed, glare-free view of the 
uniformly lighted sculpture, or even of a sculpture having individual 
features requiring different individual lighting. 
Indoor plants requiring watering frequently are overwatered; outdoor 
plants, sculptures and the like are exposed to rain and in these instances 
the water will run down over the surfaces of the lighting device 
positioned below the object to be illuminated, necessitating water-proof 
lighting fixtures in order to prevent short circuits. The present 
invention is intended to provide a simple, effective and economical 
lighting device suitable for wet locations. 
It therefore is a principal object of the invention to directionally 
illuminate three-dimensional objects, such as plants and sculptures 
positioned above, at, or below the eye level of observers in such a manner 
that the source of light is not directly visible and glare is avoided. 
It is another object to minimize the loss and consumption of lumens by 
placing the light source in close proximity to the object to be 
illuminated so as to shorten to the absolute practical minimum the path 
the light has to travel to reach the object. 
It is still another object of the invention to avoid the scattering of 
light inherent in other indirect lighting methods. 
It is yet another object to provide an illuminating system and luminaire 
which are economical and simple to manufacture, install and maintain, and 
which are highly efficient in operation. 
It is another principal object to provide an illuminating device having the 
above mentioned features and being suitable for use in wet locations. 
It is another aspect to provide an illuminating device simultaneously 
serving as a plant container. 
It is yet another object to provide a device capable of lighting an object, 
such as a flower arrangement, from the inside, as well as lighting its 
outer reaches in a decorative, pleasing manner. 
Definitions 
The avoidance of glare is a principal object of the invention. The 
Encyclopaedia Britannica published in 1956 defines glare as follows: 
"When brightness becomes irritating it is recognized as "glare." Glare 
contributes more to the poor quality of a lighting system than any other 
factor. Glare may depend upon several conditions present in the lighting 
system: (1) high brightness of the source; (2) high brightness contrast 
between the source and the background; (3) location of the source in the 
field of view; (4) the total volume of the light entering the eye; and (5) 
the time of exposure to the brightness source. The correction of any one 
of these contributing factors becomes simple when it is considered 
individually. Because of the injurious effect of glare, either direct as 
from a source, or reflected from some object which reflects a specular 
image, bare lamps exposed in any plane should never be used. It is of 
prime importance that all forms of glare be controlled properly." 
The term "source of light" as used herein is intended to include where 
appropriate a combination of more than one lamp positioned at a lighting 
hub below the object or objects to be illuminated. Such "light source" may 
consist of a cluster or a string of lamps or long fluorescent lamps used 
in accordance with the present invention. The term "light mantle" as used 
herein denotes a wall, beam or band of light of predetermined width and 
configuration. The term "object" or "object to be illuminated" is intended 
to include, where appropriate, the holder or support for sculptures, or 
associated elements of such objects, as for instance a planter or the 
flower pot of a plant. The term "reflective" as used hereinafter is 
defined as "light-reflective". The term "bowl-shaped" or "dished" is 
intended to refer to all concave structures, such as vessels or reflectors 
having an approximately parabolic, elipsoid or hemispheric configuration 
at their bottom, irrespective of the configuration of the rest of the wall 
surface between the bottom and the rim of the vessel. The terms 
"water-tight" or "water-proof" as used herein are defined as the 
condition of not permitting water to penetrate or pass between members of 
the device claimed; whether as a result of selection of materials or the 
bonding of members, or as a result of the loose combination or engagement 
of appropriately configured members, making use solely of the principle of 
gravity as applying to water. 
The various objects and advantages of the invention will become apparent 
from the following description and accompanying drawings. While the 
description and drawings are for illustrative purposes primarily directed 
to plants, it should be obvious that the devices and systems claimed are 
equally suitable for and applicable in the illumination of other objects, 
such as sculptures, statues, mineral exhibits, theatrical devices, stage 
props and show pieces of any nature, whether or not exposed to water. 
SUMMARY OF THE INVENTION 
The invention may be summarized as being directed to devices and systems 
for the substantially glare-free, directional lighting of 
three-dimensional objects which may be exposed to water, comprising the 
following features. 
1. The devices are adapted to have the object to be illuminated positioned 
above and close to the light source, reducing the path the light has to 
travel to a minimum. 
2. The device extends horizontally to the space below the outer reaches of 
the object. 
3. The device comprises an inverted housing, open at the bottom, having 
water-tight upper and side walls. 
4. The light source is recessed in said housing above the lower edge of the 
side walls, so that water falling, or otherwise contacting the housing, 
runs off and does not contact the light source. 
5. The housing, in its upper part, has transparent, essentially horizontal, 
peripheral portions encircling the object, permitting light generated 
below said object to pass therethrough vertically or at an angle in the 
direction of the outer reaches of the object. 
6. Portions of the inside surfaces of said housing may be light-reflective. 
7. When desired, light is permitted to escape upwardly through transparent 
members supporting the object, and through the object, such as a flower 
arrangement, so as to illuminate the same from the inside. 
8. When desired, said transparent areas encircling the object through wich 
light can escape, may be recessed between surrounding, light-shielding 
walls, thus protecting the eyes of observers grouped around the object 
from direct view of the light source and resulting glare. 
9. The predetermined beaming of light through said transparent portions in 
the direction of the object avoids wasteful scattering of light. 
10. The light mantle emanating from the peripheral transparent portions and 
the light beam emanating from the transparent member supporting the object 
in combination illuminate the object from the inside and outside, 
producing more even, penetrating and pleasing lighting effects. 
Additional features of the present invention are described in the detailed 
description that follows. 
The lighting method and devices of the present invention drastically reduce 
electric power requirements by reducing the distance between the light 
source and the objects to be illuminated to the practical minimum. Except 
for internal distances in the housing containing the light source, 
including the support means for the object to be illuminated, such as a 
shelf, the light source is proximate to said object. This arrangement 
reduces the light path in virtually all instances to substantially less 
than one meter. In most cases, the light will travel no more than 10-20 
centimeters to reach the object. 
The devices described are suitable for the lighting of such indoor and 
outdoor objects as natural and artificial plants, sculptures and other 
free-standing objects exposed to moisture, but obviously, the device also 
protects the light source from dust and other foreign matter and is 
suitable for use in dry locations.

DETAILED DESCRIPTION OF THE INVENTION AND DRAWINGS 
FIG. 1 is a diagrammatic cross-sectional side view of the illuminating 
device having a light source surrounded by a single cylindrical housing 
resting on support means. Upper wall 1 comprises central portion 5, 
peripheral portions 3 and transparent portions 2. Upper wall 1 is water 
impermeable. Portion 3 need not be, but may be, transparent. Upper wall 1 
is adapted to support directly above it a container 4 which may be a 
flower pot provided with saucer 15 below it and both indicated in dotted 
lines. Joined to upper wall 1 is water impermeable side wall 11. Upper 
wall 1 is joined to side wall 11 in a water-tight mode, such as by gluing 
or cementing. Walls 1 and 11 therefore constitute one water impermeable 
and water-tight housing. The lower portions 16 of side wall 11 may have 
perforations and openings, or they may have attached to them at their 
lower edges appropriate legs to support said housing. 
The legs or lower portions 16 of side walls 11 rest on support 6. A raised 
horizontal member 9 rests on support 6 and said member 9 in turn supports 
lamp base 10. Fluorescent lamp 12 is of the type incorporating ballast and 
starter, which may be screwed into lamp base 10. 
One or more of the inside surfaces 7,8 and 17 may be reflective. Light 
generated by lamp 12 escapes upwardly towards the upper reaches of the 
plant or flowers contained in flower pot 4. At the same time rain water or 
water caused by over-watering the plant in container 4 will fall on the 
water impermeable housing formed by the water tight joining of upper wall 
1 and side wall 11. The water will run down the outside surfaces of said 
housing to a level where wall 11 or the unperforated portions of side wall 
11 terminate. Due to the raised position of lamp 12 in base 10 resting on 
member 9, any water entering the said housing does so below the level of 
exposed electrical components of the light source. Water-proof cable 14, 
such as rubber-insulated or other clad cable, conduct electric power 
through opening 13 in support 6 and opening 19 in raised member 9 to the 
electrical connections in lamp base 10. Support 6 for the housing rests on 
surface 18 and any water running off said housing will ultimately find its 
way on to surface 18 or into such drainage means as may be provided. 
FIG. 2 is a diagrammatic, cross-sectional view of the device having a light 
source mounted on the upper wall of an open-ended, cylindrical, outer 
housing, the open end facing downward, into which is inserted a second, 
cylindrical, inner housing having an open end facing upward. Said outer 
housing 20 comprises an upper wall 23 which has transparent portions 24 
forming a ring. Attached to upper wall 23 in a water-tight manner is a 
peripheral, cylindrical member extending downwards to lower portions 22 
and upwards to upper portions 21. At least lower portions 22 are 
water-impermeable and joined to water-impermeable upper wall 23 in a 
water-tight manner. Upper wall 23 and outer housing 20 may consist of one 
piece, such as an extruded acrylic plastic or formed glass. Upper portions 
21 of the peripheral wall serve as light-shielding means, preventing a 
direct view of transparent portions 24. Water is drained from the cavity 
formed by upper wall 23 and cylindrical portions 21 through perforations 
33. 
Water falling on upper wall 23 runs down over the outer water-impermeable 
surfaces of the lower, cylindrical portions 22 and on down along the outer 
water-impermeable surface of side wall 25. Side wall 25 has perforations 
37 in its lower portion and loosely rests on outer portions 35 of support 
26. Side wall 25 may, but need not, be adhered to the lower surface of 
upper wall 23 in a water-tight manner.It may thus be a separate detachable 
member. Upper wall 23 may support flower pot 34 directly on its upper 
surface, or the device may be adapted to otherwise position the object to 
be illuminated proximate to the light source. 
Support 26 and inner, vertical guard walls 27 form a second, inner housing 
having an open end facing upward. Guard walls 27 are joined to support 26 
in a water-tight manner and extend upwardly to a level above the lowest 
perforated portions 37 of side walls 25, thus preventing water running 
down the outside surfaces of lower, peripheral wall portions 22 and side 
wall 25 from reaching the area inside guard wall 27. 
Lamp base 30 is mounted on the bottom surface of upper wall 23 and in turn 
holds incandescent lamp 31. Water-proof cable 32 carrying electricity to 
the light source may may enter said housings through speaces between 
peripheral wall 20, upper wall 23 and side wall 25 as shown, but may 
alternatively pass through any of said walls, provided such entry method 
does not permit water to enter said housings above or at the level of the 
light source. 
One or more of the inside surfaces 28, 29 and 39 of said housings are 
light-reflective. Light passing through transparent portions 24 of 
cylindrical housing 20 is projected in the direction of the plant foliage 
in the form of an annular light mantle. 
Support 26 rests on surface 36, which may for instance be a pedestal, and 
water running down the outside housing surfaces is either drained along 
surface 36, or through such conventional drain as may be provided. 
It will be apparent that housing 20, side wall 25 and support 26 may be 
joined and engaged in a loose, separable fashion, but that, due to the 
interlocking relationship of said members, the device formed by them is a 
water-tight whole. 
FIG. 3 shows a diagrammatic cross-sectional side view of a system 
comprising an illuminating device and an outer receptacle also serving as 
light shielding means. A cylindrical embodiment is shown, but rectangular 
or other configurations may be employed. Lamp 45 in base 44 generates 
artificial light which escapes through transparent portion 41 of upper 
wall 40. Upper wall 40 is supported by side wall 42 which rests directly 
on the bottom of outer receptacle 50. Electric power is transmitted to the 
light source through insulated cable 52 which passes thorugh container 50 
and support 43 of the light source. One or more of the inside surfaces 
46,47 and 48 are light reflective. Upper wall 40 supports flower pot 49 
which is positioned directly above and proximate to the illuminating 
device. The upper wall portions 54 of outer receptacle 50 protrude above 
the walls of flower pot 49. As a result, the light projected upwardly 
through said transparent portions 41 which envelops the foliage of the 
plant in flower pot 49 is shielded from direct view by said upper wall 
portions 54 of receptacle 50. Thus, persons not directly looking down into 
said receptacle 50 see the light from the recessed lighting device only by 
its reflections from the object to be illuminated and are not exposed to 
glare. Receptacle 50 is supported in a hanging manner by chains 55 or 
otherwise positioned. Water running down the outer surfaces of the 
illuminating device is permitted to drain through opening 51 and cannot 
contact any of the electricity-conducting parts of the light source. 
The recessed position of the light source in this and other embodiments of 
the invention prevents observers, except those looking almost straight 
down into the device, from seeing the lamp, or even the transparent 
portions of the upper wall of the device, directly, thus preventing glare 
and discomfort to the eyes of such obeservers, irrespective of whether 
their eye level is below, at, or above the level of the object to be 
illuminated. 
FIG. 4 is a diagrammatic cross-sectional side elevation of a system 
incorporating an illuminating device concealed in an outer receptacle. The 
cylinder-shaped device comprises circular upper wall 60 which has annular 
transparent portions 62 near its periphery and has a downwardly extending 
cylindrical skirt 61. Upper wall 60, including transparent portions 62 and 
skirt 61, is water-impermeable and the said members are joined in a 
water-tight manner. Skirt 61 of upper wall 60 rests on or is otherwise 
supported above an inner structure comprising a support 65, to which a 
side wall 63 extending upwardly is adhered in a water-tight manner. 
Although in many instances the device has a cylindrical shape, the wall 
and other elements of the device may be rectangular or of some other 
configuration. Skirt 61 may have legs or other supports 76 (shown in 
dotted lines), having perforations or openings between them. The 
unperforated portion of skirt 61 extends downwardly below the upper rim of 
side wall 63. Support 65 also supports dished member 67 having reflective 
inner surface 68. The inner surface 64 of side wall 63, the inner surface 
66 of support 65, and the non-transparent portions 69 of the lower surface 
of upper wall 60 may also be light reflective. Lamp 77, supported by base 
70, is attached to upper wall or plate 60 as shown. Flower pot 71 rests on 
saucer 72 which in turn rests on the upper wall 60 or is otherwise mounted 
directly above the light source so that the light escaping through 
transparent portions 62 reaches the object to be illuminated by a very 
short path. 
The illuminating device is positioned in outer receptacle 73 suspended by 
chains 74. An insulated cable 75 supplies electric power, passing into the 
housing described without admitting water to the light source. The upper 
rim of receptacle 73 protrudes above upper wall 60 in such a manner that 
any observers not peering directly into said receptacle will not be able 
to see the light source or its light directly but only its reflections 
from the object to be illuminated. Drains 78 and 79 are provided in 
receptacle 73. 
Because the devices and systems described hereinabove are intended for use 
in wet locations, all parts exposed to water are rust-proof. The upper 
wall referred to in connection with the various embodiments of the 
illuminating device may be made of acrylic plastic or other transparent 
material, such as glass. Areas which are not intended to be transparent 
may be opaque, or may be painted, sprayed or otherwise covered. Surfaces 
intended to be reflective may be naturally reflective, but may also be 
covered, painted or sprayed with white paint or metallic substances. As 
indicated in the drawings, fluorescent or incandescent lamps may be used 
and particularly in the case of incandescent lamps generating substantial 
amounts of heat, perforations or other openings are provided in the 
housings described below the level of the elctric current-conducting 
components of the light source. Water running down over the outside 
surfaces of the device is drained off without being able to rise to the 
level of the light source. It is an important feature of the invention 
that water falling on the illuminating device cascades down over a number 
of tightly cemented or loosely joined overlapping members in such a manner 
that such water cannot penetrate or enter the device at a level of the 
light source, which could produce short circuits. In this manner, 
relatively simple and cheap light source components may safely be used. 
Incandescent, fluorescent or other types of lamps may be used in practicing 
the present invention. Specifically included are lamps generating light on 
plant growth promoting wave lengths. Timers and sensors for turning the 
light source on at dusk and turning it off at dawn may of course be 
employed. 
The lamps may give off colored light, or the transparent portions of the 
housing may act as color filters. The transparent housing portions may 
have different colors or color filtering properties, so that the light is 
transmitted in a variety of predetermined colors to selected surfaces of 
the object to be illuminated. 
The diagrammatic, cross-sectional view of the device shown in FIG. 5, 
depicts, as a preferred embodiment, a one-piece, extrusion-molded, acrylic 
housing 80 having a central cavity comprising bottom wall member 81 and 
side portions 82. Said cavity partially or completely accomodates the 
object to be illuminated, in this instance flower pot 83 containing plant 
84. Transparent portions 85 surround said cavity on substantially all 
sides and, together with outer side wall members 86, form housing 80. 
Lamp base 87 is adhered to the underside of the wall member 81 and has 
secured to it fluorescent lamp 88. An insulated, water-proof cable 89 
connects the light source to an outside power supply source. Said cable 89 
passes through opening 90 in wall member 86 at a level below the level of 
any of the components which carry electricity. The bottom portions of side 
wall member 86 may also otherwise be perforated below the level of the 
light source components that are electrically charged, said perforations 
permitting air to circulate, or alternatively, the lower extremities of 
wall members 86 may consist of spaced legs or other types of support. 
Thus, any water running down the outside of said housing 80 cannot contact 
the light source and cannot cause short circuits. 
Selected inner surfaces of housing 80, such as inner wall portions 92 and 
93, may be light-reflective. Light rays generated by the light source 
travel upwardly through transparent portions 85 in the direction of the 
outer reaches of the foliage of plant 84. The lower extremities of housing 
80 rest on surface 91 from which the water is permitted to drain. 
In a modified version of a preferred embodiment of the invention, the outer 
cavity in the upper part of the housing depicted in FIG. 5 is dimensioned 
and adapted to serve as a vase, for instance for cut flowers. Said cavity 
extends downwardly from the upper end of and between the side walls of 
said housing and is essentially centrally disposed in relation thereto. 
The walls of said cavity are water-impermeable. It has an upper opening 
sufficiently wide, and a depth sufficient to accomodate a plant or 
flowers. The upper peripheral portions 85 of the housing are transparent; 
although frequently horizontal, they may be slanted so as to deflect the 
light rays passing upwardly through them into the desired direction. 
Depending on the configuration of tne flower arrangement, the light may be 
deflected centripetally (radially inwardly) into a light cone, or 
centrifugally (radially outwardly) by said transparent sections 85, which 
consist of glass, acrylic or other transparent material. 
In the case of the above example, there is created an empty space between 
the outer wall 86 of housing 80 of the device depicted in FIG. 5 and wall 
82 of said upper cavity. In accordance with the basic characteristics of 
the present invention, the light source, which may consist of an elongated 
lamp, or of a group of lamps distributed around said cavity in the space 
between wa11 82 and outer housing wall 86, generates its light below and 
in close proximity to the object to be illuminated, in this instance the 
leaves and blossoms of the flowers which the light envelops. 
Alternatively, the light source may consist of a single lamp disposed 
directly underneath said cavity, taking the form, for instance, of an 
incandescent bulb, circular fluorescent lamp or other type of artificial 
light source. If the light rays from a single lamp directly underneath 
said cavity cannot escape directly upwardly through said transparent 
portions 85, reflective means are provided below said lamp so as to 
re-direct the light rays upwardly, for instance means similar to dished 
member 67 of the device depicted in FIG. 4. 
When the devices described, as for instance those shown in FIGS. 1-4, have 
no upper cavity, the object may rest directly on, or may be supported by 
the upper plate or wall of the housing. When the cavity shown in FIG. 5 is 
used, the walls of said cavity will be adapted to support the object, 
Wall member 81, serving as the bottom of the vase, may be a transparent 
member strong enough to support the flowers and the water in the vase. 
Thus, light can shine upwardly through said transparent bottom and loosely 
placed flowers, illuminating the inside of such flower arrangement. 
The vertically extending outer housing, which may have vertical walls, is 
longer and wider than the vertically extending inner flower receptacle or 
vase portion. In a one-piece structure, said housing and receptacle are 
connected to each other by the transparent, horizontal section 85. The 
upper spacing between said vertically extending wall members is determined 
by the width of the transparent sections 85, which have a central opening 
corresponding to, or in registry with, the upper opening in the receptacle 
for the flower arrangement. In a one-piece molded housing, all members 
consist of the same material, such as an acrylic plastic. Surfaces through 
which light is not intended to pass, are made translucent or obscure by 
well known means, or they are made light-reflective by covering them with 
white paint or other light-reflective substances. 
The light source preferably is not attached directly to the underside of 
the transparent bottom of the vase-like receptacle. It may rest, for 
instance, on the same support, on which the outer housing of the device 
rests. 
Similarly to the devices described hereinabove, the outer walls are 
configured so as to prevent water falling on the device or overflowing 
from said vase from contacting any of the electrical components. Water is, 
of course, prevented from penetrating between the peripheral transparent 
portions conjoining the upper ends of the vase and the housing. 
The receptacle serving as a vase and the housing may be circular, 
rectangular or otherwise configured in top plan cross-sectional view. The 
void created between the vertical walls of the vase and the housing is 
shaped accordingly. It often is annular, but may take the form of any 
closed loop or may be discontinuous. The cavity forming the vase is 
dimensioned so that it accomodates the object, but leaves sufficient space 
below it for the light source components provided. 
When a cavity is employed, the space between it and the outer housing wall 
may be very narrow, so that, in effect, the entire housing becomes a vase. 
As an example, but without limitation, the cavity is circular having a 
depth of 15 cm and an inside diameter of 6 cm; the outer diameter of the 
cylindrical housing is 10 cm; and the annular void between said cavity and 
housing wall, after allowing for the two wall thicknesses totalling 1 cm, 
has a width of 1.5 cm for the passage of light. 
In those instances where there are spaced legs or openings provided near 
the bottom of said housings below the level of the light source, light may 
escape therethrough and escape upwardly between the outer surfaces of such 
housing and the inner surfaces of an outer container thus adding to the 
illuminating effect. In many instances, the light generated by the lamp 
will be reflected several times in different directions inside the 
housings, before escaping through the transparent portions of the devices 
described. 
In the case of hanging plants which are draped over the rim of the 
receptacles, or in the case of sculptures having portions to be 
highlighted, the said transparent areas in the housing may be shaped or 
otherwise adapted so as to concentrate the reflected light on the portion 
of the plant or sculpture to be especially illuminated. 
The devices described herein may be used as night lights or to provide 
subdued illumination when this is desirable in homes and in public places. 
Normally, observers are not positioned so close to a plant as to look 
straight down into a flower pot or other container of the object to be 
illuminated. The present invention makes it possible to shield from glare 
the eyes of all observers positioned outside an area above the device 
approximately defined by an imaginary wall extending vertically upwardly 
from the outer walls of the device; in practice this includes virtually 
all persons viewing the illuminated object, even if such a group of 
observers completely encircles such object, as most will be positioned 
outside said area. 
Other applications, embodiments and configurations of the present invention 
may be devised by persons skilled in the art without deviating from the 
principal features described herein and these are intended to be included 
within the scope of the appended claims.