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Claims  |
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I claim:
1. A louver for a light box, or the like, comprising:
(a) a rectangular grid of cubes including a plurality of internal cubes and
a row of perimeter cubes forming a border around said internal cubes;
(b) all of said internal cubes being square in external plan configuration
and having first predetermined identical lengths and widths;
(c) all of said border row of cubes being other than square in plane
configuration and having second predetermined lengths and widths, at least
one of said second predetermined length and width in each border row cube
differing from a corresponding one of said first predetermined length and
width in an internal cube;
(d) said border row of cubes comprising end edge cubes, side edge cubes,
and corner edge cubes;
(e) said end edge cubes having at least one of a length or width dimension
different than any length or width dimension of said side edge cubes; and
(f) a flange formed unitarily with and around the periphery of said border
row of cubes and protruding outwardly therefrom;
(g) said grid and said flange being molded in one piece.
2. The louver of claim 1 further characterized in that:
(a) said flange extends along both the sides and ends of said grid; and
(b) the width of said flange along said sides of said grid being different
than the width of said flange along the ends of said grid.
3. The louver of claim 2 further characterized in that:
(a) said louver, including said grid and said flange, is 46.750 inches in
length and 22.750 inches in width.
4. The louver of claim 1 further characterized in that:
(a) said first predetermined identical lengths and widths are each 0.562
inches.
5. The louver of claim 4 further characterized in that:
(a) said flange extends along the sides and the ends of said grid;
(b) the width of said flange along said sides of said grid being different
than the width of said flange along the ends of said grid.
6. The louver of claim 5 further characterized in that:
(a) said louver, including said grid and said flange, is 46.750 inches in
length and 22.750 inches in width.
7. A louver for a light box, or the like, comprising:
(a) a rectangular grid of cubes including a plurality of internal cubes and
a single row of perimeter cubes forming a border around said internal
cubes;
(b) all of said internal cubes being square in external plan configuration
and having identical lengths and widths of 1.500 inches;
(c) all of said border row cubes being other than square in plan
configuration and having lengths between 1.30 inches and 1.45 inches, and
widths between 1.30 inches and 1.40 inches;
(d) a flange formed unitarily with and around the periphery of said border
row of cubes and protruding outwardly therefrom;
(e) said flange being 1.70 inches in width along the ends of said louver
and 1.18 inches in width along the sides of said louver; and
(f) said grid and said flange being molded in one piece.
8. A louver for a light box, or the like, comprising:
(a) a rectangular grid of cubes including a plurality of internal cubes and
a single row of perimeter cubes formed a border around said internal
cubes;
(b) all of said internal cubes being square in external plan configuration
and having identical lengths and widths of 1.500 inches;
(c) all of said border row cubes being other than square in plan
configuration and having lengths between 1.15 inches and 1.30 inches, and
widths between 1.15 inches and 1.40 inches;
(d) a flange formed unitarily with and around the periphery of said border
row of cubes and protruding outwardly therefrom;
(e) said flange being 1.20 inches in width along the sides and ends of said
louver; and
(f) said grid and said flange being molded in one piece.
9. A louver for a light box, or the like, comprising:
(a) a rectangular grid of cubes including a plurality of internal cubes and
a single row of perimeter cubes forming a border around said internal
cubes;
(b) all of said internal cubes being square in external plan configuration
and having identical lengths and widths of 0.562 inches;
(c) all of said border row cubes being other than square in plan
configuration and having lengths between 0.562 inches and 0.658 inches,
and widths between 0.430 inches and 0.562 inches;
(d) a flange formed unitarily with and around the periphery of said border
row of cubes and protruding outwardly therefrom;
(e) said flange being 1.080 inches in width along the ends of said louver
and 1.110 inches in width along the sides of said louver; and
(f) said grid and said flange being molded in one piece.
10. A louver for a light box, or the like, comprising:
(a) a rectangular grid of cubes including a plurality of internal cubes and
a single row of perimeter cubes forming a border around said internal
cubes;
(b) all of said internal cubes being square in external plan configuration
and having identical lengths and width of 0.562 inches;
(c) all of said border row cubes being other than square in plan
configuration and having lengths between 0.549 inches and 0.562 inches,
and widths between 0.522 inches and 0.562 inches;
(d) a flange formed unitarily with and around the periphery of said border
row of cubes and protruding outwardly therefrom; and
(e) said grid and said flange being molded in one piece. |
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Claims |
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Description |
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FIELD OF THE INVENTION
This invention is in the field of lighting. It relates particularly to
light fixtures employing fluorescent lamps as a source of light and a
louver below it for controlling radiation of the light.
BACKGROUND OF THE INVENTION
The most common system for lighting office, commercial, and industrial
space is overhead lighting. Conventional overhead lighting uses tubular
fluorescent lamps as a light source. Depending upon the application, the
light which radiates from the fluorescent lamps may pass through a louver
or some other device for modifying the light rays emitted, or it may be
focused by some device or left unmodified.
Light fixtures producing louvered light normally comprise a light box which
contains a series of fluorescent lamps arranged longitudinally in the box.
The box is open on the bottom so as to form a rectangular opening in the
ceiling frame of an office, for example. Acoustic tiles form the bulk of
the ceiling surface. Louvers seated in the openings in each box control
light radiating downwardly from the lamps into the room below.
Although light fixtures are generally standardized as far as size is
concerned, there are many manufacturers and dimensions do vary somewhat.
The dimensions of the light box openings may vary from manufacturer to
manufacturer and those variations have, historically, created
standardization problems for louver manufacturers. The result has been
louvers with varying flange configurations and louver cube arrangements to
accommodate as many light box opening sizes as possible.
Prior to the development of the present invention, an extruded trim,
sonically welded onto a previously cut full-grid louver, was the only
practical means known to adapt plastic parabolic louvers to fit many OEM
light boxes. The many manufacturing steps required to properly add an
extruded trim to a plastic, parabolic louver in order for it to fit all
OEM light boxes is very costly, time consuming, and presents many
opportunities for errors in construction. A full grid must be cut (sawed
to size), the extruded trim then cut to size (four pieces with a 45 degree
mitered cut on the ends), and then the four pieces ultra-sonically welded
to the cut louver.
Prior art louvers such as this result in reduced light radiation
effectiveness. A reduction in total light transmitted, a reduced radiation
pattern, and undesirable light pattern variations are produced.
SUMMARY OF THE INVENTION
An object of the present invention is to provide new and improved louver
constructions which may be used with a range of light box openings but do
not create undesirable lighting effects.
Another object is to provide new and improved louver constructions which
produce highly desirable lighting effects regardless of light box opening
size within a commercially available range.
A further object is to provide new and improved louver constructions of the
aforedescribed nature which are considerably less expensive than
conventional products.
The foregoing and other objects are realized in accord with the invention
by providing a Paracube louver comprising a rectangular arrangement of
standard size cubes. The standard size cubes are, in the embodiments
described in relation to this invention, either 1.500 or 0.562 inches
square. Each standard cube is defined by four side walls having opposed,
parabolic reflecting surfaces. The use of the term "cube" does not imply
that the louver components have precisely cubic configurations. Regarding
the term Paracubes, it should be kept in mind that it is a trademark of
the American Louver Company.
The rectangular arrangement of standard size cubes has a single row of
non-standard size cubes extending around its perimeter and forming a
complete border. By non-standard size it is meant that the border row of
cubes has one pair of opposed side walls whose spacing is other than
standard. Notwithstanding this nonstandard size, the border row of cubes
does not reduce light radiation nor cause a non-uniform light pattern to
be transmitted.
The border row of cubes is, in turn, encircled completely by a flange
molded unitarily with the cubes. The flange widths vary on ends and sides
between 1.110 inches and 1.810 inches, depending upon cube size and
number. Regardless, however, the overall length of each louver is 46.750
inches and its overall width is 22.750 inches.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention, including its construction and operation, is illustrated
more or less diagrammatically in the drawings, in which;
FIG. 1 is a plan view of a louver embodying features of a first form of the
present invention;
FIG. 2 is an enlarged plan view of a corner portion of the louver
illustrated in FIG. 1;
FIG. 3 is a sectional view taken along line 3--3 of FIG. 2;
FIG. 4 is a plan view of a louver embodying features of a second form of
the present invention;
FIG. 5 is an enlarged plan view of a corner portion of the louver
illustrated in FIG. 4;
FIG. 6 is a sectional view taken along line 6--6 of FIG. 5;
FIG. 7 is a plan view of a louver embodying features of a third form of the
present invention;
FIG. 8 is an enlarged plan view of a corner portion of the louver
illustrated in FIG. 7;
FIG. 9 is a plan view of a louver embodying features of a fourth form of
the present invention;
FIG. 10 is an enlarged plan view of a corner portion of the louver
illustrated in FIG. 9; and
FIG. 11 is a sectional view taken along line 11--11 of FIG. 8.
DESCRIPTION OF THE PREFERRED EMBODIMENT
Referring now to the drawings, and particularly to FIG. 1, a louver
embodying a first form of the present invention is seen generally at 10.
The louver 10 comprises a rectangular grid 11 of "cubes" 12 surrounded by
a horizontal flange 13. The grid 11 and the flange 13 are molded in one
piece of a plastic material and then coated with a highly reflective
metallic coating material by conventional means.
As seen better in FIGS. 2 and 3, each cube 12 is made up of four side walls
20 which are mirror images of each other. Each side wall 20 has a
parabolic reflecting surface 21 on it facing a corresponding surface 21 on
the opposite wall.
FIG. 3 illustrates the fact that the walls 20 of all the internal cubes 12,
i.e., the cubes which are not on the outer perimeter of the grid 11, are
formed unitarily, back-to-back, with walls 20 of adjoining cubes 12. On
the other hand, the outermost walls 20 of the perimeter cubes 12 stand
alone.
In the grid 11, external plan dimensions of each internal cube 12a are 1.5
inches by 1.5 inches. In other words, these cubes 12a are square in plan
view.
In contrast, the external plan dimensions of all the perimeter cubes 12 are
smaller. The perimeter cubes comprise the corner cubes 12b, the side edge
cubes 12c, and the end edge cubes 12d. Each of the corner cubes 12b is
1.40 inches in width and 1.30 inches in length. The perimeter cubes 12c
are 1.30 inches in width and 1.45 inches in length. The perimeter cubes
12d are 1.40 inches in width and 1.45 inches in length.
The flange 13 is formed around the lower edge of the perimeter cubes 12, as
best seen in FIG. 3. The flange 13 is 1.70 inches wide on the ends of the
louver 10 and 1.81 inches wide on the sides.
The outside dimensions of the flanged louver 10 embodying features of the
present invention are 46.75 inches in length and 22.75 inches in width.
The louver 10 is effective to transmit light through it without a pattern
or halo effect.
Turning now to FIG. 4, a louver embodying a second form of the present
invention is seen generally at 110. The louver 110 comprises a rectangular
grid 111 of "cubes" 112 surrounded by a horizontal flange 113. The grid
111 and the flange 113 are molded in one piece of a plastic material and
then coated with a highly reflective metallic coating material.
Referring to FIGS. 2 and 3, each cube 112 is made up of four side walls 120
which are mirror images of each other. Each side wall 120 has a parabolic
reflecting surface 121 on it facing a corresponding surface 121 on the
opposite wall.
FIG. 3 illustrates the fact that, like the wall 20 of the cubes 12 in the
louver 10 hereinbefore discussed, all of the internal cubes 112 are formed
unitarily with the walls of adjoining cubes 112. On the other hand, the
outermost walls 120 of the perimeter cubes 112 stand alone.
In the grid 111, external plan dimensions of each internal cube 112a are
again 1.5 inches by 1.5 inches. In other words, these cubes 112a are also
square in plan view.
In contrast, the external plan dimensions of all the perimeter cubes 112
are smaller. The perimeter cubes comprise the corner cubes 112b, the side
edge cubes 112c, and the end edge cubes 112d. Each of the corner cubes
112b is 1.15 inches in width and 1.15 inches in length. The perimeter
cubes 12c and 12d are 1.40 inches in width and 1.30 inches in length.
The flange 113 is formed around the lower edge of the perimeter cubes 12,
as best seen in FIG. 6. The flange 113 is 1.2 inches wide around the
entire periphery of the louver 110.
The outside dimensions of the flanged louver 110 embodying features of the
second form of the present invention are also 46.75 inches in length and
22.75 inches in width. The louver 110 is effective to transmit light
through it without a pattern or halo effect in a manner similar, in both
light intensity and distribution, to the louver 10 hereinbefore discussed
in relation to the first form of the present invention.
Turning now to FIG. 7, a louver embodying a third form of the present
invention is seen generally at 210. The louver 210 comprises a rectangular
grid 211 of "cubes" 212 surrounded by a horizontal flange 213. The grid
211 and flange 213 are molded in one piece of a plastic material and then
coated with metallic coating material.
Referring to FIG. 10, each cube 212 is made up of four side walls 220 which
are mirror images of each other. In this regard, the construction and
configuration of the cubes 212 is similar to those hereinbefore discussed.
In the grid 211, the external plan dimensions of each internal cube 212a
are 0.562 inches by 0.562 inches. In other words, these cubes 212a are
also square in plan view.
The external plan dimensions of all the perimeter cubes 212 are different.
The perimeter cubes comprise the corner cubes 212b, the side edge cubes
212c and the end edge cubes 212d. Each of the corner cubes 212b is 0.430
inches in width and 0.658 inches in length. The perimeter cubes 212c are
0.562 inches in length and 0.430 inches in width. The perimeter cubes 212d
are 0.658 inches in length and 0.562 inches in width.
The flange 213 is formed around the lower edge of the perimeter cubes 212.
The flange 213 is 1.110 inches in width along the sides of the louver 210
and 1.080 inches in width along the end of the louver.
The outside dimensions of the flanged louver 210 embodying features of the
third form of the present invention are also 46.75 inches in length and
22.75 inches in width. The louver 210 is also effective to transmit light
through it without a pattern or halo effect in a manner similar, in both
light intensity and distribution, to the louvers hereinbefore discussed in
relation to the other forms of the present invention.
Turning now to FIG. 9, a louver embodying a fourth form of the present
invention is seen generally at 310. The louver 310 comprises a rectangular
grid 311 of "cubes" 312 surrounded by a horizontal flange 313. The louver
310, as with those previously described, is formed unitarily.
Referring to FIGS. 8 and 11, each cube 312 is constructed in a manner
identical to the cubes 212 previously discussed. In the grid 311, external
plan dimensions of each internal "cube" 312a are 0.562 inches by 0.562
inches. In contrast, the external plan dimensions of all the perimeter
cubes 312 are smaller. The perimeter of cubes comprise the corner cubes
312b, the side edge cubes 312c, and the end edge cubes 312d.
Each of the corner cubes 312b is 0.522 inches in width and 0.549 inches in
length. The perimeter cubes 312c are 0.562 inches in length and 0.522
inches in width. The perimeter cubes 312d are 0.549 inches in length and
0.562 inches in width.
The outside dimensions of the flanged louver 310 embodying features of the
present invention are 46.75 inches in length and 22.75 inches in width.
The louver 310 is also effective to transmit light through it without a
pattern or halo effect.
While the process and product embodiments described herein are at present
considered to be preferred, it is understood that various modifications
and improvements may be made therein, and it is intended to cover in the
appended claims all such modifications and improvements as fall within the
true spirit and scope of the invention.
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Description |
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