US3123308A - Franck - Google Patents

Franck Download PDF

Info

Publication number
US3123308A
US3123308A US3123308DA US3123308A US 3123308 A US3123308 A US 3123308A US 3123308D A US3123308D A US 3123308DA US 3123308 A US3123308 A US 3123308A
Authority
US
United States
Prior art keywords
light
plate
horizontal
street
reflectors
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
Publication date
Application granted granted Critical
Publication of US3123308A publication Critical patent/US3123308A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V5/00Refractors for light sources
    • F21V5/02Refractors for light sources of prismatic shape
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V13/00Producing particular characteristics or distribution of the light emitted by means of a combination of elements specified in two or more of main groups F21V1/00 - F21V11/00
    • F21V13/02Combinations of only two kinds of elements
    • F21V13/04Combinations of only two kinds of elements the elements being reflectors and refractors
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
    • F21Y2103/00Elongate light sources, e.g. fluorescent tubes

Definitions

  • the present invention relates to improved lighting of extended areas and particularly to fluorescent luminaires for lighting a street.
  • FIG. 1 is a digram illustrating the installation of the luminaires along the side of the street
  • FIGS. 2 and 3 are diagrams of light distribution
  • FIG. 6 is a sectional view taken along line 66 of FIG. 5;
  • FIGS. 9, 10 and 11 are cross sectional views showing three other embodiments of the invention.
  • FIG. 12 is an enlarged cross sectional view of a portion of one type of horizontal retracting plate
  • FIG. 13 is an enlarged cross sectional view of a portion of another type of horizontal retracting plate
  • FIGS. 16 and 17 are cross sectional views of the end portions of horizontal retracting plates.
  • the longitudinal light distributions required along the near curb and the far curb regions difler greatly.
  • the desired longitudinal distribution can not be obtained simply with a tilted or horizontal refracting plate which illuminates both the near curb and the far curb regions.
  • the desired light distribution is obtained by causing one of the refracting plates to provide essentially the distribution required along the near curb and causing the other retracting plate to provide essentially the proper distribution for the far curb side of the street.
  • the two separate light distributions can be made to merge well along the middle of the street to give an even illumination across the width of the street, with each light distribution giving about half the illumination at the center in the plane of lines D, D, as that at the vicinity of the near and the far curbs.
  • the luminaire as shown for example in FIG. 4, comprises two essentially separate elements or lighting sys tems 1t) and H.
  • the element ltl comprises a specular reflector 12 mounted above a linear light source 13 which may consist of one or more fluorescent lamps extending horizontally along substantially the entire length of reflector 19. Where several fluorescent lamps are used side by side, they are preferably positioned near the focal line of the reflector.
  • the reflector may be parabolic for producing a parallel beam directed straight downward toward the near curb.
  • the mouth of reflector 12 is in a horizontal plane and is closed by a retracting plate 24).
  • the refractor 29 may be of the type shown and described in the application of Kurt Franck et 2.1., Serial No.
  • the other element ll of the luminaire comprises a cylindrical parabolic reflector 14, having a linear light source which again may consist of a fluorescent lamp or a plurality of fluorescent lamps placed side by side and close together, substantially along the focal line of reflector 14.
  • Reflector 1:4 concentrates the light into a .ibstantially parallel beam transverse of the street and in a direction toward the far curb.
  • the mouth of reflector 1% lies in an oblique plane and is substantially closed by the refracting plate in.
  • Refracting plates 16 and it ⁇ are joined together along a line 17. To provide the longitudinal light distribution shown in H8. 3, it is necessary to limit the high angle emission of light lengthwise of the unit.
  • the two elements and 11 of the luminaire are shown as being separate.
  • the element ll transmits the light downwardly toward the curb as indicated by the rays 31, while element ii is tilted toward the far curb and transmits rays 32 to a region of the street along the far curb.
  • Refractor plate in forms a closure for reflector 14 and likewise refractor forms a closure for reflector l2.
  • FIG. 7 shows a luminaire in which one reflecting sur face 35 produces a downwardly directed parallel beam 36 and a second reflecting surface 37 produces a parallel beam 38 transverse to the street and directed toward the far curb.
  • the reflectors 35 and 37 form a single trough 3%.
  • one or more fluorescent lamps ill extend longitudinally thereof.
  • the mouth of the trough is closed by a horizontal refractor 4i and a tilted refractor d2 similar to retracting plates 16 and 2b of FlG-S. 4 and 5.
  • Refractors 4-1 and 42 may be integral or separate plates in abutment at their juncture. Any number of refractor plates may be placed end to end to produce a luminaire of the required length.
  • PEG. 8 shows a luminaire similar to that illustrated in FIG. 4-.
  • the troughs l2 and are integral and may be formed of a single sheet of metal or joined together along the line 43.
  • the mouths of both troughs are closed by refractors 16 and
  • the two elements of the luminaire function in the same manner as those of F'lGS. 4 and 5.
  • the troughs 45' and 46 have diifuse reflecting surfaces.
  • the mouth of reflector 45 is substantially closed by refractor plate 47 lying in a horizontal plane and providing the illumination alon the near curb.
  • Refractor 47 has li ht splitting prisms on its upper surface and louvers 3d extending from its lower surface, such as illustrated in FIGS. 4, i2 and 13.
  • These prisms 49 have increasing refracting power as they proceed from the longitudinal center line of the refractor toward the edges thereof.
  • FIG. 14 shows a luminaire similar in configuration to that of FIG. it), but having diffuse reflectors 6d, 61. Refracting plates 47 and 51 having the prisms arrangements shown in PEG. 9 are provided. Direct light from lamps l3 and 15 is formed into two substantially parallel beams 31 and 32. The direct light is augmented by the diffuse light provided by the reflectors.
  • FIG. 15 shows a luminaire similar to that shown in previous figures, but in which the inclined refracting plate as is provided with light lowering prisms 66 on its inner side. Prisms 66 bend the light downwardly as shown by the rays 6'7.
  • the closure plate 2% is preferably made of transparent material of a width to extend across the mouth of the reflector and a length (for example, two feet) so that several molded units will close off the mouth of a long reflector.
  • the upper or light incident surface of these light transmitting units is occupied by a series of light splitting ribs or prisms 25 opposite a smooth, light emergent surface 26.
  • Such ribs tend to divert light from the nadir, as will be more fully explained below, but the smooth surface 2s opposite them permits light rays to escape up to from the nadir, or horizontally.
  • the closure plate of FIG. 12 has ⁇ I-shaped ribs 27 preferably of a depth and spacing to intercept all light within 15 of the horizontal and provided with prisms 23, 28 to deviate the intercepted light so that it is emitted at angles of 15 below the horizontal, as shown by rays 25
  • These ribs are symmetrical about the median plane, in order to handle light coming from the right or the left. They are thin walled, as shown, to facilitate pressing.
  • the closure shown in FIG. 13 has thin prismatic ribs 30 at spaced intervals and integral with or suitably secured to the flat plate. Ribs 39 have light lowering prisms for retracting light to 15 from the horizontal.
  • the prisms should be symmetrical about vertical planes through their apices. Each side face of such a series of prisms will receive from above a zone of light extending from the horizontal up to the cut-off line provided by the prisms surface.
  • the light rays farthest to the right from zenith, i.e., those graziri the left incident surface of the prism, will be refracted into the critical angle for the medium and again refracted by the emergent surface 26.
  • the horizontal limiting rays will be refracted by the incident surface and reflected by the other sloping surface of the prisms and refractively transmitted by the emergent surface 26.
  • the effect of prisms 25 is to spread the light longitudinally.
  • the ends or" the plate are preferably formed, as shown in FIG. 16, to provide an overlapping joint '70.
  • the ends of plates 20, adjacent and beyond the last louver 30, are provided with prisms 71 on their upper surfaces. Prisms '71 are formed so as to bend nearly horizontal rays 72 (FIG. 17) downwardly to, say, angle of to the horizontal, so as to cause these rays to approach parallelism with the rays 29 passing through the louvers. Without prisms 71, the end of plate beyond the last louver would transmit light at angles close to the horizontal.
  • the light concentrating system of FIGS. 4, 5, 7, 8, 10, 11 or FIG. 9 it may in practice be desirable not to direct the transverse beams of the two elements exactly at the near curb and far curb. Because of the relatively large light emitting area of the fluorescent lamp, it may at times be desirable to direct the beam toward the near curb somewhat forward of the near curb and the beam toward the far curb somewhat inside of the far curb, so as to contain the emitted light on the street surface. It may also be desirable, and again mostly for reasons of the large light emitting area of the fluorescent lamp, not to make both elements of the unit of exactly the same size or even equipped with the same number of lamps.
  • the invention is, of course, not limited to such an arrangement. It is feasible to use more than one lamp for each element of the unit, provided that the general principle of approximate transverse concentration of light into two beams, one essentially toward the near curb and the other essentially toward the far curb, is carried through.
  • a lighting system for longitudinally extended areas comprising a plurality of luminaires supported above the area and spaced laterally from the longitudinal center line through said area, said luminaires each including linear, horizontal, longitudinally extending parallel light sources and cylindrical reflectors having axes parallel to the light sources and extending round the light sources, means including one of said reflectors and a horizontal prismatic retracting plate for controlling the longitudinal distribution of the light and directing substantially all the light traversing said plate in substantially vertical planes through a wide distribution angle into a region along the near side of said area and substantially confining the light through said plate to said region, and second means including another of said reflectors and a second inclined prismatic retracting plate for directing substantially all light traversing said second plate in planes substantially perpendicular to said second plate and through a narrow distribution angle into a second region along the far side of said area and adjacent said first region and substantially confining the light passing through the second retracting plate to said second region, the retracting plates extending across and closing the mouths of the reflectors.
  • first and second reflectors are substantially parabolic troughs each enclosing one of said light sources, the first refracting plate substantially closing the mouth of the first 6 reflector and second retracting plate substantially closing the mouth of the second reflector.
  • said first and second reflectors are substantially separate troughs having diiluse reflecting surfaces and the refracting plates include longitudinal extending prisms having retracting powers which increase from a minimum value along the longitudinal center line of the plate to a maximum value at the longitudinal outer edges of the plates.
  • the horizontal plate includes a plurality of spaced downwardly projecting louvers on its bottom face for intercepting high angle light rays.
  • the horizontm retracting plate has longitudinally spaced downwardly extending light interceptors having horizontally extending light retracting prisms which depress high angle light emitted from the plate between the interceptors.
  • the horizontal retracting plate has a substantially flat bottom surface and a series of spaced downwardly extending light transmitting and retracting elements having a depth such as to eclipse all light above substantially 15 below the horizontal and said elements having horizontal refracting ribs which depress the intercepted light substantially 15 below the horizontal.
  • a system according to claim 12, wherein the downwardly extending elements are of V-shaped crosssection.
  • a street lighting lurninaire including a first rec til-inear lamp, a cylindrical reflecting trough above the lamp and co-axial therewith, the trough having a horizontal mouth below the lamp, a first horizontal refracting plate substantially closing the mouth of said trough, said retracting plate receiving light from said trough in substantially vertical planes and having means for redirecting it lengthwise of said lamp through a wide distribution angle, a second rectilinear lamp parallel to the first mentioned lamp, 2.
  • second cylindrical reflecting trough having a mouth in a plane inclined to the horizontal, a second inclined retracting plate substantially closing the mouth of said second trough, said second refracting plate receiving light substantially perpendicularly to its surface from said second reflecting trough and having means for redirecting it lengthwise of said second lamp through a narrow distribution angle.
  • a luminaire according to claim 16 in which said cut-off prisms have sides making angles of substantially 19 with the plane of the second retracting plate.
  • a luminaire according to claim 16 in which said cut-ofi prisms have sides making angles of substantially 32 with the plane of the second retracting plate.
  • the first retracting plate includes a series of spaced downwardly extending transverse elements or" a depth such as to intercept all light above substantially 15 below the horizontal and having horizontal retracting ribs Which depress the intercepted light to substantially 15 below the horizontal.
  • a street lighting luminaire mounted above and at one side of the street including linear, horizontal, longitudinally extending light sources and cylindrical reflectors having axes parallel to the light sources and extending round the light sources, means including one of said reflectors and a horizontal prismatic retracting plate for directing substantially all the light traversing said plate in substantially vertical planes and redirecting the light lengthwise of the light sources through a Wide distribution angle into a region along the near side of the street and second means including another of said reflectors and a second inclined prismatic retracting plate for directing substantially all light traversing said second plate in planes substantially perpendicular to said second plate and redirecting the light lengthwise of the light sources through a narrow distribution angle into a second region along the far side of said street, the refraeting plates extending across and closing the mouths of the reflectors.
  • a street lighting luminaire mounted above and at one side of the street including linear, horizontal, longitudinally extending light sources and cylindrical reflectors having axes parallel to the light sources and extending round the light sources, means including one of said refiectors and a horizontal prismatic retracting plate for directing the light traversing said plate in substantially vertical planes and having transversely extending light spreading prisms redirecting the light lengthwise of the light sources through a wide distribution angle into a first region along the near side of the street and second means including another of said reflectors and a second inclined prismatic retracting plate for directing the light traversing said second plate through a narrow distribution angle into a second region along the far side of said street and contiguous to the first region, the retracting plates extending across the mouths of the reflectors.
  • a street lighting system comprising a plurality of luminaires supported above the street and spaced laterally from the longitudinal center line through said street, said luminaires each including linear longitudinally extending light sources and two elongated trough shaped reflectors extending round the light sources, means including one of said reflectors and a substantially horizontal prismatic retracting plate for directing substantially all the light traversing said plate through a wide distribution angle into a first elongated region along the near side of the street and substantially confining the light through said retracting plate to said first region and spreading the light along the street in said first region, and second means inciuding the other reflector and a second inclined refracting plate for spreading the light longitudinally of the street and directing substantially all li ht traversing said inclined plate through a narrow distribution angle into a second elongated region along the far side of said street contiguous to said first region and substantially confining the light passing through the second refracting plate to said second region, the refracting plates extending across and substantially closing
  • said horizontal retracting plate has transversely extending light splitting prisms on one side thereof and longitudinally extending prisms having refracting powers which increase from a minimum value along the longitudinal center line of said horizontal plate to a maximum value at the longitudinal outer edges of the plate.

Landscapes

  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Non-Portable Lighting Devices Or Systems Thereof (AREA)

Description

March 3, 1964 FRANCK 3,123,308
FLUORESCENT STREET LIGHTING SYSTEM Filed June 10, 1957 4 ee eet 1 ATTORNEY March 3, 1964 K. FRANCK 3,123,308
FLUORESCENT STREET LIGHTING SYSTEM Filed June 10, 1957 4 Sheets-Sheet 2 5? INVENTOR Auxev- FP/M/CK ATTORNEYS March .3, 1964 K. FRANCK 3,123,308
FLUORESCENT STREET LIGHTING SYSTEM Filed June 10, 1957 4 Sheets-Sheet 3 Tzzrlll Z 7 INVENTOR Aum'r FR'ANcK March 3, 1964 K. FRANCK 3,123,308
FLUORESCENT STREET LIGHTING SYSTEM Filed June 10, 1957 4 Sheets-Sheet 4 INVENTOR KUPT' Fmq/vc/r ATTORNEYS United States Patent 3,123,308 FLUORESCENT TREET LIGHTING SYSTEM Kurt Franck, Newark, @hio, assignor to Holophane Company, line, New York, N.Y., a corporation of Delaware Filed June 10, 1%57, Ser. No. 664,625 25 @laims. Cl. 240-25) The present invention relates to improved lighting of extended areas and particularly to fluorescent luminaires for lighting a street.
The invention contemplates improved luminaires particularly for linear fluorescent lamps. The luminaires are mounted horizontally in a direction parallel to the street along one curb thereof. Each luminaire comprises two reflecting surfaces and a retracting plate associated with each reflecting surface. Both reflecting surfaces or each of them, may be in the form of a reflecting trough extending along the fluorescent lamp. One of the retracting plates is mounted substantially horizontally and illuminates the region of the street along the near curb and the other refracting plate is mounted obliquely facing the far curb, and illuminates the region of the street therealong. Where both reflecting surfaces form a single trough, the two refracting plates are arranged to close the mouth of the trough and where the reflecting surfaces are provided by separate troughs, each reflecting plate closes the mouth of one of the two troughs. In either case, the trough or troughs and the retracting plates enclose the fluorescent lamps to prevent the entrance of dirt, which would impair the reflecting surfaces and the retracting plates. The retracting plates are provided with means for reducing the transmission of light at high angles in longitudinal directions, in order to avoid high brightness near horizontal directions along the street.
It has been found that when a flat prismatic plate is used for spreading light in a region along the near curb as well as a region along the far curb, the amount of light control necessary in the two regions differs greatly and that it is not feasible to obtain a desirable light distribution in both regions. This difliculty is overcome by using instead of a single flat prismatic plate, a pair of retracting plates, one of which is horizontal and the other is tilted. The horizontal refracting plate confines nearly all of the light traversing it to a region along the near curb and the tilted refracting plate sends substantially all of the light traversing it to a region along the far curb. Each plate and its associated reflector is then capable of producing a desired illumination of its individual region of the street.
An object of the invention to provide improved street lighting utilizing fluorescent lamp luminaires extending parallel to and along one curb of the street.
Other objects and advantages of the invention will be apparent to those skilled in the art from the following description and th drawing in which:
FIG. 1 is a digram illustrating the installation of the luminaires along the side of the street;
FIGS. 2 and 3 are diagrams of light distribution;
FIG. 4 is a perspective view of a luminaire according to the invention;
FIG. 5 is a cross sectional view of another luminaire;
FIG. 6 is a sectional view taken along line 66 of FIG. 5;
FIG. 7 is a cross sectional View of a luminaire using a single trough;
FIG. 8 is a cross sectional view of another luminaire;
FIGS. 9, 10 and 11 are cross sectional views showing three other embodiments of the invention;
FIG. 12 is an enlarged cross sectional view of a portion of one type of horizontal retracting plate;
ice
FIG. 13 is an enlarged cross sectional view of a portion of another type of horizontal retracting plate;
FIGS. 14 and 15 are cross sectional views of two other embodiments of the invention; and
FIGS. 16 and 17 are cross sectional views of the end portions of horizontal retracting plates.
In FIG. 1, the elongated area to be lighted is a street having curb lines at K, K. The luminaires U may be mounted on brackets B on poles P along the side of the street. As shown in FIG. 1, the luminaires may be fluorescent street lights located above the near curb of the street at a mounting height H. They are spaced lengthwise of the street at a distance L, the width of the street being W.
Along line M M which runs transverse of the street midway between lighting units, each of the two units must obviously contribute the same amount of illumination. In the vertical plane containing unit U and the near curb, the angle toward mid-point M is given in ight-angle triangle UM N as a in FIG. 1; in the inclined plane containing unit U and the far curb, the corresponding angle toward mid-point M is given in rightangle triangle UM N as angle c in FIG. 1. The significant fact that angle a is considerably greater than angle 0, calls for corresponding different angular directions and amounts of candlepower from units U toward midway line M M depending on whether analysis is made along the near curb (triangle UM N or far curb (triangle UM N For a concrete example, as it may occur in practice, for a mounting height H of 30', spacing L of and street width W of 60', angle ":2" comes out to be 513, angle 0 to be 29.3". The candlepower distribution curve for this example, to provide uniform illumination along the near curb toward midpoint M is shown by distribution curve FIG. 2, giving wide angle distribution; the corresponding distribution curve for the inclined plane toward the far curb is shown by distribution curve FIG. 3, having a comparatively narrow curve.
It can be seen that the longitudinal light distributions required along the near curb and the far curb regions difler greatly. The desired longitudinal distribution can not be obtained simply with a tilted or horizontal refracting plate which illuminates both the near curb and the far curb regions. According to the present invention, the desired light distribution is obtained by causing one of the refracting plates to provide essentially the distribution required along the near curb and causing the other retracting plate to provide essentially the proper distribution for the far curb side of the street. In practice, it has been found that the two separate light distributions can be made to merge well along the middle of the street to give an even illumination across the width of the street, with each light distribution giving about half the illumination at the center in the plane of lines D, D, as that at the vicinity of the near and the far curbs.
The luminaire as shown for example in FIG. 4, comprises two essentially separate elements or lighting sys tems 1t) and H. The element ltl comprises a specular reflector 12 mounted above a linear light source 13 which may consist of one or more fluorescent lamps extending horizontally along substantially the entire length of reflector 19. Where several fluorescent lamps are used side by side, they are preferably positioned near the focal line of the reflector. The reflector may be parabolic for producing a parallel beam directed straight downward toward the near curb. The mouth of reflector 12 is in a horizontal plane and is closed by a retracting plate 24). The refractor 29 may be of the type shown and described in the application of Kurt Franck et 2.1., Serial No. 497,188, filed March 28, 1955, now abandoned, being provided with transverse light splitting prisms on its upper surface for producing the light distribution of KG. 2, and having on its lower surface glare controlling prismatic louvers 3d. The refractor 2?; will be described in greater etail hereinafter.
The other element ll of the luminaire comprises a cylindrical parabolic reflector 14, having a linear light source which again may consist of a fluorescent lamp or a plurality of fluorescent lamps placed side by side and close together, substantially along the focal line of reflector 14. Reflector 1:4 concentrates the light into a .ibstantially parallel beam transverse of the street and in a direction toward the far curb. The mouth of reflector 1% lies in an oblique plane and is substantially closed by the refracting plate in. Refracting plates 16 and it} are joined together along a line 17. To provide the longitudinal light distribution shown in H8. 3, it is necessary to limit the high angle emission of light lengthwise of the unit. This is done by forming transversely extending cut-olf prisms 13 on refractor plate The prisms are designed as described in Patent 2,474,317 and as shown in 6. The sides 19 of the prisms preferably form an angle of 19 with the horizontal It will be understood that prisms 18 may have a di "ent angle such as approximately 32, as described in said patent.
In FIG. 5, the two elements and 11 of the luminaire are shown as being separate. The element ll transmits the light downwardly toward the curb as indicated by the rays 31, while element ii is tilted toward the far curb and transmits rays 32 to a region of the street along the far curb. Refractor plate in forms a closure for reflector 14 and likewise refractor forms a closure for reflector l2.
7 shows a luminaire in which one reflecting sur face 35 produces a downwardly directed parallel beam 36 and a second reflecting surface 37 produces a parallel beam 38 transverse to the street and directed toward the far curb. The reflectors 35 and 37 form a single trough 3%. Within the trough, one or more fluorescent lamps ill extend longitudinally thereof. The mouth of the trough is closed by a horizontal refractor 4i and a tilted refractor d2 similar to retracting plates 16 and 2b of FlG-S. 4 and 5. Refractors 4-1 and 42 may be integral or separate plates in abutment at their juncture. Any number of refractor plates may be placed end to end to produce a luminaire of the required length.
PEG. 8 shows a luminaire similar to that illustrated in FIG. 4-. The troughs l2 and are integral and may be formed of a single sheet of metal or joined together along the line 43. The mouths of both troughs are closed by refractors 16 and The two elements of the luminaire function in the same manner as those of F'lGS. 4 and 5.
In FIG. 9 the troughs 45' and 46 have diifuse reflecting surfaces. The mouth of reflector 45 is substantially closed by refractor plate 47 lying in a horizontal plane and providing the illumination alon the near curb. Refractor 47 has li ht splitting prisms on its upper surface and louvers 3d extending from its lower surface, such as illustrated in FIGS. 4, i2 and 13. On the bottom surface of refractor 47 there are longitudinally extending prisms for concentrating the light in a transversely parallel beam as indicated by the rays 31. These prisms 49 have increasing refracting power as they proceed from the longitudinal center line of the refractor toward the edges thereof. The inclined refracting plate 51 also has longitudinal light concentrating prisms 4% of varying refracting power on its outer surface. The inner surface of this refracting plate is substantially smooth. The deeper prisms 5d along the edge portion of the refracting plates provide a desired longitudinal shielding as explained in Patent No. 2,648,763. Where, however, the longitudinal prisms are shallow or disappear entirely, as at the central section 52 of the refracting plate, they provide no longitudinal control. in this region, transverse cuto1'f prisms 53 are superimposed on the shallow longitudinal prisms. The cut-oil prisms are formed as shown in Patent 2,474,317 and FIG. 6. As indicated in H6. 9, the direct light from lamps l3 and 15 will be concentrated by retracting plates 47 and '51 into two substantially parallel beams $1 and 32 for lighting the near far curb regions of the street. In order to augment the direct light rays from the lamps, however, it is preferred to provide diffuse reflecting housings 45 and 46 round the lamps.
FIGS. 10* and 11 show luminaires in which the element 11 for lighting the far curb region of the street is mounted above and to the right of luminaire element it. In H6. 10, the two l-umi .aire elements are distinct. In FIG. 11 the troughs or reflectors for elements it) and 11 are joined together in such a way that some of the light from the lamp $3 from the near curb luminaire element is transmitted through the inclined retracting plate 16 as indicated by the ray 55 and a portion of the light from lamp -5 is transmitted downwardly through retracting plate 29 of luminaire element 10, as indicated by the ray 56'.
*FIG. 14 shows a luminaire similar in configuration to that of FIG. it), but having diffuse reflectors 6d, 61. Refracting plates 47 and 51 having the prisms arrangements shown in PEG. 9 are provided. Direct light from lamps l3 and 15 is formed into two substantially parallel beams 31 and 32. The direct light is augmented by the diffuse light provided by the reflectors.
FIG. 15 shows a luminaire similar to that shown in previous figures, but in which the inclined refracting plate as is provided with light lowering prisms 66 on its inner side. Prisms 66 bend the light downwardly as shown by the rays 6'7.
The closure plate 2% is preferably made of transparent material of a width to extend across the mouth of the reflector and a length (for example, two feet) so that several molded units will close off the mouth of a long reflector. As shown in FlGS. 12 and 13, the upper or light incident surface of these light transmitting units is occupied by a series of light splitting ribs or prisms 25 opposite a smooth, light emergent surface 26. Such ribs tend to divert light from the nadir, as will be more fully explained below, but the smooth surface 2s opposite them permits light rays to escape up to from the nadir, or horizontally.
To intercept this high angle, longitudinally emitted light from the bottom surface 26, the closure plate of FIG. 12 has \I-shaped ribs 27 preferably of a depth and spacing to intercept all light within 15 of the horizontal and provided with prisms 23, 28 to deviate the intercepted light so that it is emitted at angles of 15 below the horizontal, as shown by rays 25 These ribs are symmetrical about the median plane, in order to handle light coming from the right or the left. They are thin walled, as shown, to facilitate pressing.
The closure shown in FIG. 13 has thin prismatic ribs 30 at spaced intervals and integral with or suitably secured to the flat plate. Ribs 39 have light lowering prisms for retracting light to 15 from the horizontal.
As the light splitting prisms 25 receive light from the left as well as from the right, the prisms should be symmetrical about vertical planes through their apices. Each side face of such a series of prisms will receive from above a zone of light extending from the horizontal up to the cut-off line provided by the prisms surface. The light rays farthest to the right from zenith, i.e., those graziri the left incident surface of the prism, will be refracted into the critical angle for the medium and again refracted by the emergent surface 26. The horizontal limiting rays will be refracted by the incident surface and reflected by the other sloping surface of the prisms and refractively transmitted by the emergent surface 26. The effect of prisms 25 is to spread the light longitudinally.
Where the horizontal refractor consists of a plurality of plates .26 placed end to end, the ends or" the plate are preferably formed, as shown in FIG. 16, to provide an overlapping joint '70. The ends of plates 20, adjacent and beyond the last louver 30, are provided with prisms 71 on their upper surfaces. Prisms '71 are formed so as to bend nearly horizontal rays 72 (FIG. 17) downwardly to, say, angle of to the horizontal, so as to cause these rays to approach parallelism with the rays 29 passing through the louvers. Without prisms 71, the end of plate beyond the last louver would transmit light at angles close to the horizontal.
Regardless of whether the light concentrating system of FIGS. 4, 5, 7, 8, 10, 11 or FIG. 9 is used, it may in practice be desirable not to direct the transverse beams of the two elements exactly at the near curb and far curb. Because of the relatively large light emitting area of the fluorescent lamp, it may at times be desirable to direct the beam toward the near curb somewhat forward of the near curb and the beam toward the far curb somewhat inside of the far curb, so as to contain the emitted light on the street surface. It may also be desirable, and again mostly for reasons of the large light emitting area of the fluorescent lamp, not to make both elements of the unit of exactly the same size or even equipped with the same number of lamps. In order to emit enough light across the street, it may be advantageous to provide a larger area for the tilted element of the units, or even to use two lamps in the tilted section, while making the horizontal section narrower and equipped with, say, one lamp only. Quite generally, while the figures show the use of two lamps, the invention is, of course, not limited to such an arrangement. It is feasible to use more than one lamp for each element of the unit, provided that the general principle of approximate transverse concentration of light into two beams, one essentially toward the near curb and the other essentially toward the far curb, is carried through.
I have described what I believe to be the best embodiment of my invention. I do not wish, however, to be confined to the embodiment shown, but what I desire to cover by Letters Patent is set forth in the appended claims.
I claim:
1. A lighting system for longitudinally extended areas comprising a plurality of luminaires supported above the area and spaced laterally from the longitudinal center line through said area, said luminaires each including linear, horizontal, longitudinally extending parallel light sources and cylindrical reflectors having axes parallel to the light sources and extending round the light sources, means including one of said reflectors and a horizontal prismatic retracting plate for controlling the longitudinal distribution of the light and directing substantially all the light traversing said plate in substantially vertical planes through a wide distribution angle into a region along the near side of said area and substantially confining the light through said plate to said region, and second means including another of said reflectors and a second inclined prismatic retracting plate for directing substantially all light traversing said second plate in planes substantially perpendicular to said second plate and through a narrow distribution angle into a second region along the far side of said area and adjacent said first region and substantially confining the light passing through the second retracting plate to said second region, the retracting plates extending across and closing the mouths of the reflectors.
2. A light system according to claim 1, in which the light sources of each luminaire are closely spaced and said first and second reflectors are opposite surfaces of a single trough the mouth of which is closed by the first and second retracting plates.
3. A system according to claim 1, in which the first and second reflectors are substantially parabolic troughs each enclosing one of said light sources, the first refracting plate substantially closing the mouth of the first 6 reflector and second retracting plate substantially closing the mouth of the second reflector.
4. A system according to claim 1, in which said first and second reflectors are substantially separate troughs having diiluse reflecting surfaces and the refracting plates include longitudinal extending prisms having retracting powers which increase from a minimum value along the longitudinal center line of the plate to a maximum value at the longitudinal outer edges of the plates.
5. A system according to claim 4, wherein a central longitudinal section of one of the plates has transversely extending cut-off prisms arranged for preventing the transmission of light above a predetermined angle to the nadir.
6. A system according to claim 5, wherein the sides of the cut-off prisms extend at an angle of substantially 19 to the plane of said plate.
7. A system according to claim 5, wherein the cutofi" prisms extend at an angle of substantially 32 to the plane of each plate.
8. A system according to claim 1, wherein the horizontal plate includes a plurality of spaced downwardly projecting louvers on its bottom face for intercepting high angle light rays.
9. A system according to claim 1, wherein the horizontal retracting plate has transversely extending symmetrical light splitting prisms for spreading the light longitudinally along said areas.
10. A system according to claim 1, wherein the horizontm retracting plate has longitudinally spaced downwardly extending light interceptors having horizontally extending light retracting prisms which depress high angle light emitted from the plate between the interceptors.
11. A system according to claim 10, wherein the portion of the horizontal retracting plate between an end thereof and the last light interceptor thereon is provided with transversely extending light lowering prisms.
12. A system according to claim -1, in which the horizontal retracting plate has a substantially flat bottom surface and a series of spaced downwardly extending light transmitting and retracting elements having a depth such as to eclipse all light above substantially 15 below the horizontal and said elements having horizontal refracting ribs which depress the intercepted light substantially 15 below the horizontal.
13. A system according to claim 12, wherein the downwardly extending elements are of V-shaped crosssection.
14. A street lighting lurninaire including a first rec til-inear lamp, a cylindrical reflecting trough above the lamp and co-axial therewith, the trough having a horizontal mouth below the lamp, a first horizontal refracting plate substantially closing the mouth of said trough, said retracting plate receiving light from said trough in substantially vertical planes and having means for redirecting it lengthwise of said lamp through a wide distribution angle, a second rectilinear lamp parallel to the first mentioned lamp, 2. second cylindrical reflecting trough having a mouth in a plane inclined to the horizontal, a second inclined retracting plate substantially closing the mouth of said second trough, said second refracting plate receiving light substantially perpendicularly to its surface from said second reflecting trough and having means for redirecting it lengthwise of said second lamp through a narrow distribution angle.
15. A luminaire according to claim 14, wherein the horizontal plate includes symmetrical light splitting prisms on its upper surface extending transversely to said first lamp for spreading the light longitudinally.
16. A luminaire according to claim 14, in which the second refracting plate includes transversely extending cut-off prisms on its outer surface for preventing the transmission of light within a predetermined angle to the horizontal.
17. A luminaire according to claim 16, in which said cut-off prisms have sides making angles of substantially 19 with the plane of the second retracting plate.
18. A luminaire according to claim 16, in which said cut-ofi prisms have sides making angles of substantially 32 with the plane of the second retracting plate.
19. A luminaire according to claim 14, wherein the first retracting plate includes a series of spaced downwardly extending transverse elements or" a depth such as to intercept all light above substantially 15 below the horizontal and having horizontal retracting ribs Which depress the intercepted light to substantially 15 below the horizontal.
20'. A luminaire according to claim 14, in which the troughs are shaped so that a portion of the light from the first lamp is transmitted to the second retracting plate perpendicularly thereto and a portion of the light from the second lamp is transmitted vertically to the horizontal refracting plate.
21. A luminaire according to claim 14, in which the second trough and second retracting plate are located above the first retracting plate on the street side thereof.
22. A street lighting luminaire mounted above and at one side of the street including linear, horizontal, longitudinally extending light sources and cylindrical reflectors having axes parallel to the light sources and extending round the light sources, means including one of said reflectors and a horizontal prismatic retracting plate for directing substantially all the light traversing said plate in substantially vertical planes and redirecting the light lengthwise of the light sources through a Wide distribution angle into a region along the near side of the street and second means including another of said reflectors and a second inclined prismatic retracting plate for directing substantially all light traversing said second plate in planes substantially perpendicular to said second plate and redirecting the light lengthwise of the light sources through a narrow distribution angle into a second region along the far side of said street, the refraeting plates extending across and closing the mouths of the reflectors.
23. A street lighting luminaire mounted above and at one side of the street including linear, horizontal, longitudinally extending light sources and cylindrical reflectors having axes parallel to the light sources and extending round the light sources, means including one of said refiectors and a horizontal prismatic retracting plate for directing the light traversing said plate in substantially vertical planes and having transversely extending light spreading prisms redirecting the light lengthwise of the light sources through a wide distribution angle into a first region along the near side of the street and second means including another of said reflectors and a second inclined prismatic retracting plate for directing the light traversing said second plate through a narrow distribution angle into a second region along the far side of said street and contiguous to the first region, the retracting plates extending across the mouths of the reflectors.
24. A street lighting system comprising a plurality of luminaires supported above the street and spaced laterally from the longitudinal center line through said street, said luminaires each including linear longitudinally extending light sources and two elongated trough shaped reflectors extending round the light sources, means including one of said reflectors and a substantially horizontal prismatic retracting plate for directing substantially all the light traversing said plate through a wide distribution angle into a first elongated region along the near side of the street and substantially confining the light through said retracting plate to said first region and spreading the light along the street in said first region, and second means inciuding the other reflector and a second inclined refracting plate for spreading the light longitudinally of the street and directing substantially all li ht traversing said inclined plate through a narrow distribution angle into a second elongated region along the far side of said street contiguous to said first region and substantially confining the light passing through the second refracting plate to said second region, the refracting plates extending across and substantially closing the mouths of the reflectors.
25. A system according to claim 24, wherein said horizontal retracting plate has transversely extending light splitting prisms on one side thereof and longitudinally extending prisms having refracting powers which increase from a minimum value along the longitudinal center line of said horizontal plate to a maximum value at the longitudinal outer edges of the plate.
References Cited in the file of this patent UNITED STATES PATENTS 1,943,609 Hyatt Jan. 16, 1934 2,242,872 Rclph May 20, 1941 2,366,356 Rolph Ian. 2, 1945 FOREIGN PATENTS 194,934 Great Britain Mar. 22, 1923 198,816 Great Britain June 14, 1923 419,091 Great Britain Nov. 6, 1934 918,462 Germany Sept. 27, 1954

Claims (1)

1. A LIGHTING SYSTEM FOR LONGITUDINALLY EXTENDED AREAS COMPRISING A PLURALITY OF LUMINAIRES SUPPORTED ABOVE THE AREA AND SPACED LATERALLY FROM THE LONGITUDINAL CENTER LINE THROUGH SAID AREA, SAID LUMINAIRES EACH INCLUDING LINEAR, HORIZONTAL, LONGITUDINALLY EXTENDING PARALLEL LIGHT SOURCES AND CYLINDRICAL REFLECTORS HAVING AXES PARALLEL TO THE LIGHT SOURCES AND EXTENDING ROUND THE LIGHT SOURCES, MEANS INCLUDING ONE OF SAID REFLECTORS AND A HORIZONTAL PRISMATIC REFRACTING PLATE FOR CONTROLLING THE LONGITUDINAL DISTRIBUTION OF THE LIGHT AND DIRECTING SUBSTANTIALLY ALL THE LIGHT TRAVERSING SAID PLATE IN SUBSTANTIALLY VERTICAL PLANES THROUGH A WIDE DISTRIBUTION ANGLE INTO A REGION ALONG THE NEAR SIDE OF SAID AREA AND SUBSTANTIALLY CONFINING THE LIGHT THROUGH SAID PLATE TO SAID REGION, AND SECOND MEANS INCLUDING ANOTHER OF SAID REFLECTORS AND A SECOND INCLINED PRISMATIC REFRACTING PLATE FOR DIRECTING SUBSTANTIALLY ALL LIGHT TRAVERSING SAID SECOND PLATE IN PLANES SUBSTANTIALLY PERPENDICULAR TO SAID SECOND PLATE AND THROUGH A NARROW DISTRIBUTION ANGLE INTO A SECOND REGION ALONG THE FAR SIDE OF SAID AREA AND ADJACENT SAID FIRST REGION AND SUBSTANTIALLY CONFINING THE LIGHT PASSING THROUGH THE SECOND REFRACTING PLATE TO SAID SECOND REGION, THE REFRACTING PLATES EXTENDING ACROSS AND CLOSING THE MOUTHS OF THE REFLECTORS.
US3123308D Franck Expired - Lifetime US3123308A (en)

Publications (1)

Publication Number Publication Date
US3123308A true US3123308A (en) 1964-03-03

Family

ID=3452894

Family Applications (1)

Application Number Title Priority Date Filing Date
US3123308D Expired - Lifetime US3123308A (en) Franck

Country Status (1)

Country Link
US (1) US3123308A (en)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4141056A (en) * 1977-06-13 1979-02-20 Neely Samuel M Tennis court floodlighting system
US4729075A (en) * 1985-05-29 1988-03-01 Brass John R Constant zone reflector for luminaires and method
EP1106916A2 (en) 1999-11-30 2001-06-13 Siteco Beleuchtungstechnik GmbH Luminaire comprising a shielding refracting structure and a light beam cutting reflector assembly
US20050018427A1 (en) * 2003-07-10 2005-01-27 Barry White Luminaire
WO2012054966A1 (en) * 2010-10-26 2012-05-03 Thien Siung Yang Improvements in street lights and high bay light
US11959631B2 (en) 2007-12-21 2024-04-16 Appalachian Lighting Systems, Inc. Lighting fixture

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB194934A (en) * 1922-03-14 1923-03-22 Edward Thomas Sweeney Improved head lamp for motor vehicles and the like
GB198816A (en) * 1922-03-17 1923-06-14 Edward Thomas Sweeney Improvements in head lamps for motor vehicles and the like
US1943609A (en) * 1932-10-03 1934-01-16 Samuel W Hyatt Airplane landing light
GB419091A (en) * 1932-06-11 1934-11-06 Zeiss Ikon Ag Improvements in reflectors more particularly for street lighting
US2242872A (en) * 1939-07-08 1941-05-20 Holophane Co Inc Luminaire
US2366356A (en) * 1942-10-14 1945-01-02 Holophane Co Inc Luminaire
DE918462C (en) * 1951-11-30 1954-09-27 Licentia Gmbh Light, especially track light, for fluorescent lamps

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB194934A (en) * 1922-03-14 1923-03-22 Edward Thomas Sweeney Improved head lamp for motor vehicles and the like
GB198816A (en) * 1922-03-17 1923-06-14 Edward Thomas Sweeney Improvements in head lamps for motor vehicles and the like
GB419091A (en) * 1932-06-11 1934-11-06 Zeiss Ikon Ag Improvements in reflectors more particularly for street lighting
US1943609A (en) * 1932-10-03 1934-01-16 Samuel W Hyatt Airplane landing light
US2242872A (en) * 1939-07-08 1941-05-20 Holophane Co Inc Luminaire
US2366356A (en) * 1942-10-14 1945-01-02 Holophane Co Inc Luminaire
DE918462C (en) * 1951-11-30 1954-09-27 Licentia Gmbh Light, especially track light, for fluorescent lamps

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4141056A (en) * 1977-06-13 1979-02-20 Neely Samuel M Tennis court floodlighting system
US4729075A (en) * 1985-05-29 1988-03-01 Brass John R Constant zone reflector for luminaires and method
EP1106916A2 (en) 1999-11-30 2001-06-13 Siteco Beleuchtungstechnik GmbH Luminaire comprising a shielding refracting structure and a light beam cutting reflector assembly
EP1106916A3 (en) * 1999-11-30 2005-12-28 Siteco Beleuchtungstechnik GmbH Luminaire comprising a shielding refracting structure and a light beam cutting reflector assembly
US20050018427A1 (en) * 2003-07-10 2005-01-27 Barry White Luminaire
US7029148B2 (en) * 2003-07-10 2006-04-18 Lsi Industries Inc. Luminaire having symmetrically opposed asymmetrical reflectors
US11959631B2 (en) 2007-12-21 2024-04-16 Appalachian Lighting Systems, Inc. Lighting fixture
WO2012054966A1 (en) * 2010-10-26 2012-05-03 Thien Siung Yang Improvements in street lights and high bay light

Similar Documents

Publication Publication Date Title
US3340393A (en) Underpass luminaire
US3448260A (en) Luminaire
US2050429A (en) Light mixing apparatus
US2492946A (en) Pattern density ray approximating reflector
US3329812A (en) Luminaire optical assembly
US2436635A (en) Luminaire
US4488208A (en) Low brightness lens for circular fluorescent lamps
US3278743A (en) Street light refractor
US3251987A (en) Refractor
US2418195A (en) Luminaire
US3427447A (en) Luminaire optical assembly
US2318716A (en) Luminaire
US2330924A (en) Luminaire
US3123308A (en) Franck
US3246138A (en) Low brightness louver for lighting fixture
US3483366A (en) Luminaire lens
US3978332A (en) Lighting apparatus with batwing light distribution
NZ335289A (en) Flood light or luminaire construction with at least three part parabolic sections with common focal line
US3725697A (en) Luminaire comprising means for reducing temperature of exterior refractor
US2623160A (en) Direct lighting luminaire and/or refractor for use therein
US1870241A (en) Luminair
US3701896A (en) Luminaire for area lighting
US4059755A (en) Luminaire lens insert
US2717954A (en) Elongated roadway luminaire
US3398274A (en) Optically round, mechanically ovate reflector with radially stepped sections