USRE18187E - Luminair - Google Patents

Description

12 w. RQLPH Sept. 15, 1931. mum 1 Re. '18,]87

Original Filed Dec. 2, 1927 I INVENTOR 274m 1 ATTORNEY Reissued Sept. 15, 193i UNITED STATES PATENT OFFICE THOMAS W. BOLPH, OF NEWARK, OHIO, ASSIGNOR, BY MESNE ASSIGNMENTS, TO HOLD- I'HANE COMPANY, INC., OF NEW YORK, N. Y., A CORPORATION OF DELAWARE LUMINAIR Original application filed December 2, 1927, Serial No. 237,156. Renewed January 16, 1929 Original 110. 1,724,728, dated August 13, 1929. Application for reissue filed July 21, 1931. Serial No. 553,020.

This invention relates to improvements in luminaires for general interior illumination and particularly luminaires for direct lighting as employed in class rooms, oflices, and

- 6 other places where light on the working plane is desired. In such lighting equipment itis desirable to have a large part of the light distributed in various desirable ways within the 60 zone, 0 being measured directly downward or at the nadir and 60 bein below the horizontal. This light in t e'060 zone is the light which contributes very largely to the direct illumination of the lower part of the room, where the highest illumination is usually required.

It is also desirable in such luminaires to have the amount of light in the zone 60 90 (90 being the horizontal) small. While this zone contributes something to the direct illumination it contributes much more to the unnecessary illumination of walls; furthermore, the light in this zone is the light which is most apt to interfere with vision because it strikes the eyes of the occupants of the room, directly from the luminair, at angles most nearly approaching the customary lines of vision.

Above the horizontal the light may be of a higher intensity than between 60-90 but considerations of efliciency dictate that it should be of lower intensity than the direct light in the 060 zone.

The invention also relates to a luminair having an outer envelope formed of pieces of glass secured together by external means and an enclosed piece of glass held against one of the outer lass parts by a spring interposed between t e inner glass part and the other part of the envelope.

In order to meet the requirements set forth above with efiiciency in the utilization of light, I have devised a luminair of unique construction.

The figure is an elevation bisected to show the construction in cross section. In the figure, 1 is a light source, here taken as a modern electric lamp, which lamp is surrounded by a cup 2, having a prismatic construction preferably, but not essentially, on its outer surface. The cup is held in place by a spring 11, which presses against the removable lower plate or bowl 4. The bowl is fastened by means of clips 12 to an upper or substantially fixed reflecting part 3. 13 indicates a holding ring which is adapted to be fastened to any sort of suspension or ceiling holder. The upper edge of the cup is in 'con'tact with a ledge on the reflector at 14. The inner surface of reflector 3 and bowl 4 are provided with a definite prismatic construction as hereinafter described. These prisms are shown on the interior surfaces of these members, and this is desirable from the point of View of having a unit with'a'smooth exterior, for purposes of freedom from dirt and dust and feasibility of cleansing when in operation or when taken down. It is not essential, however, that'the prisms be on the inside of these outer covers but it is preferable.

In the figure the typical light rays A, B, C, D, E, F,G and'H are shown in their paths from the light source through the various parts of the luminair until emitted.

Theitypical ray A from the source 1 is incident on the upper part of reflector 3, the

prisms of 3 at the point of incidence being so constructed as to permit ray A to be distributed in direction A as desired in the upper hemisphere. Slightly below point A is point B on the outer unit and the rays at this point likewise pass directly out of the unit in direction'B' for distribution in the upper hemisphere. Toward the center of the unit the cup 2 begins to be eflective, so as to intercept the raysfrom the source 1. Within points 5 and 6 on the cup, the prisms on its outer surface receive rays C and D and refract them in generally horizontal directions to the outer surface 3. The prisms on the interior reflector 3 are adapted to receive such rays between points 7 and 8 on the outer reflector and deflect such rays in downward directions to the lower bowl or plate 4, and the light emergesin a smooth luminous distribution as shown at D and C as hereinafter described.

That portion of the cup 2 between points 6 and 9 may most efliciently be supplied with external reflecting prisms which split the light into two parts. A portion of this light represented by typical rays E and F is refiected upward and strikes the reflecting prisms of 3 at such angles as to be transmitted. Typical li ht ray E tends to brighten up the cei ing and eliminate the possibility of a shadow directly above the unit. Typical light ra F forms a part of the light in the upper liemisphere which is m spread out over the ceiling at a wide an le. The other portion of the light which str es cup 2 between 6 and 9 is reflected directly downward and strikes diffusing bowl 4. Such a typical light ray is G which finally emerges from 4 as G.

That portion of the light from the light source which strikes the refractor cup 2 between points 9 and 10 (such as my H) is concentrated by the prisms of the cup into a generally vertical downward direction.

The result is that the bowl 4 receives light over its entire surface in a generally downward direction, This bowl may redistribute the light as desired but a preferred construction is to use prisms of such a character that the light is distributed into the desired directions in the 060 zone, from each small portion of the bowl so that the desired distribution or shape of photometric curve is obtainml from every section of the bowl. This will insure that the bowl when viewed from below will approximate an appearance of equal luminosity and the intrinsic brillian will generally tend toward the least 3 possi le value for a given size of bowl and emitted candle power.

' The light rays C, D, G and H, striking the bowl 4, should each be considered as a pencil of light rays rather than a single light 40 ray, because the distribution of the light as indicated by C, D, G and H when emergin from 4 is not obtained from a single point on 4 but from a very small area, the size (if this area depending upon the size of the prismatic patterns or other 'difl'using means used on v I have prevously devised a prismatic construction which is peculiarly adapted to carry out-this feature of the unit. This con- 'struction is described in patent application No. Z7500, filed December 24, 1925, Patent No. 1,705,943, granted March 19, 1929. It consists of a series of parallel prisms running across the bowl separated by small blank spaces; intersecting this series 1s another senes ing in another direction at some preddtfifined angle with the first series; in-

tersecting both oi these would be a third series running at still another angle and s- Q asilblyafour'th orasmanyasmaybedesired a get the effect. The .cross section of each prism of each series is designed to give in one the desired distribution of light. The resulting efl'ect is that each small portion of the bowl has running across it many prisms cou d be used to accomplish the desired reinterior, because the portion of the luminair trinsic brilliancy is at the lowest possible at difierent angles each one distributing the light correctly in a given vertical plane. The distributions mesh together in such a way that when viewed at a short distance the entire bowl appears to be equally luminous, because each ismall portion of therbowl gives the desired distribution of light.

The reflecting portion of 3 shown in the drawing as a prismatic reflector smooth on its outer surface with prisms on its inner surface is so designed as to insure total reflection from the outer surface when the light is incident as indicated. This is not a necessar construction. Other types of reflectors flection. Nor is it always necessary that part 2 concentrate the li ht into a generally horizontal direction. 11 the figure we have shown some spread of this li ht. Cup 2 is used to co-operate with the re ecting portion of 3 in such a way that the desired downward reflection of light is obtained The generally cylindrical portion of 2 is intended partiall to concentrate the light into directions suc that the reflecting portion of 3 can handle it no most efi'ectively. Any modification of the prisms of 2 with corresponding modifications of the reflecting portion of 3 so that they still co-operate in performing the function described is considered as coming within the scope ofv this invention.

The luminair herein described is especially useful for interiors in which any close work is performed, or indeed for almost any which gives the direct light appears illuminated evenly when viewed from any angle, even as low an angle as the nadir. When a luminair appears equally luminous the inits value for the candle power delivered, since the entire surface is contributin equally to this candle power and intrinsic grilliancy is li ht intensity divided by the area from w expressed as candle power per square inch).

While no one, under ordinary conditions,-

ever views the lower part'of the unit directly at such low angles as the nadir or at 30 or even at higher angles nevertheless when working on polished surfaces, such as desks, sized papers, etc., the image of the unit is likely to be reflected from the wor surface and thus reaches the eye from su low an les. When that portion of the unit contri uting to this downward light is equally luminous over its entire surface, the brilliancy of such reflected images is ata minimum and conditions for close work are better than would otherwise be obtained The spring holding device for the inner refractor forms a '61 y inexpensive and convenient means for securing the inner glass part in place; In molding the glass, the cup and bowl are provided with short integral 1'80 ich the intensity is obtained (frequently 110 I bosses adapted to receive the spring 11 as indicated at 15 and 16.

The typical luminair of this character as shown in the figure is not intended to represent the only possible construction and arrangement of parts within the scope of this invention, but is intended to show a preferred construction for this class of luminaires.

I claim:

1. A luminair comprising a light source, a lens element surrounding the source and reducing the divergence of the light in vertical planes, a globe consisting of a reflector and a bottom plate surrounding the lens element and source, the reflector being adapted to reflect the light and deliver it in approximate- 1y parallel ra s to the bottom plate for transmission there y.

2. A luminair comprisin a light source, a lens element surrounding t e source and reducing the diver 'ence of the light in vertical planes, a globe consisting of a reflector and a diffusing bottom plate surrounding the cylindrical member and source, the reflector being adapted to reflect the light and deliver it in approximately parallel rays to the bottom plate for distribution thereby.

3. A luminair comprising a light source, a lens element surrounding the source and reducing the divergence of the light in vertical planes, a globe consisting of a reflector and a prismatic bottom plate surrounding the lens member and source, the reflector being adapted to reflect the light and deliver it in aproximately parallel rays to the bottom plate to obtain substantially the same light distribution from every part of the plate.

4. A luminair comprising a light source, a lens element surrounding the source and reducing the divergence of the light in vertical planes, a globe consisting of a prismatic glass reflector and a diffusing bottom plate surrounding the cylindrical member and source, the reflector having an upper light transmitting section and a lower reflecting section adapted to concentrate the light rays received from the inner member in a vertical direction to the bottom plate for distribution and direction thereby.

5. A luminair comprising a light source, a cylindrical lens element surrounding the source and reducing the divergence of the light in vertical planes, a lobe surrounding the cylindrical member an source consisting of a reflector and diffusing bottom plate each provided with prisms on their interior surfaces, the reflector having an upper section provided on its interior with light transmittin risms and a lower section provided wit lnterior light reflecting prisms adapted to concentrate the light rays received from the inner member in a vertical direction to the interior prisms of the bottom plate for distribution and direction thereby.

6. A luminair comprising a light source, a

cylindrical lenticular cup surrounding the source and a globe surrounding the source and the cup, the lenticular corrugations on the side walls of the cup reducing the divergence of the light in vertical planes, and those on the base thereof in vertical direction, the globe consisting of a reflector and difl'using bottom plate each provided with prisms on their interior surfaces, the reflector having an upper section provided on its interior with light transmitting prisms and a lower section provided with interior light reflecting prisms adapted to concentrate the light rays received from the inner member in a vertical direction to the interior. prisms of the bottom plate for distribution and direction thereby.

7 A luminair comprising a light source, a. cylindrical cup surrounding the source and provided with prisms on its exterior surface and a globe surrounding the source and the cup, the corrugations on the side walls of the cup reducing the divergence of the light in vertical planes and those on the base thereof in vertical directions, the globe consisting of a reflect-or and diffusing bottom plate each provided with prisms on their interior surfaces, the reflector having an upper section provided on its interior with light transmitting prisms and a lower section provided with interior light reflecting prisms adapted to concentrate the light rays received from the inner member in a vertical direction to the interior prisms of the bottom plate for distribution and direction thereby.

8. A luminair comprising a light source, an outer two part light transmitting glass envelope, external securing means for holding the two parts of the envelope together, a cupshaped inner glass part, and a compression spring interposed between one of the outer glass parts and the closed bottom of the inner glass part and pressing the edge of the inner part against the other outer part.

9. A luminair comprising a light source, a cup-shaped glass part about the light source, a two part glass envelope enclosing both the light source and cup-shaped part, means to secure the two parts of the envelope together, and spring means acting on one envelope part and the inner cup-shaped part for pressing the edge of the cup-shaped part against the other envelope part.

10. In a luminair, a light source, a two part enclosing envelope, one part having an interiorly disposed annular shoulder while the other has an interiorly disposed axial boss, an inner glass part having an edge engaged with the shoulder and a boss opposite the other boss, a compression spring interposed between the bosses, and securing means for holding the envelope parts together.

11. A luminair comprising a support, a light-transmitting envelope part carried thereby and having an interior annular ledge, a second envelope part detachably secured to the firsE part, an inner refracting cup whose edge engages the ledge, and a spring between the cup and second envelo part for pressingzthe cup against the l e.

slgned at Newark, in the county of Licking and tate of Ohio, this 9th day of July, 1931.

THOMAS W. ROLPH.

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