Gill-Virden Company 
 — Philadelphia Pu, USA 
 
 
 

 
 Fe Nin 
 
 ae 
 
 
 
 Ae ea, 
 
 Sw 
 
Othe 
 
 ‘Noientitiw Ci 
 
 
 
 GILL-VIRDEN COMPANY, Inc. 
 
 AMBER AND VENANGOSTS., PHILADELPHIA, U.S.A. 
 
Digitized by the Internet Archive 
 in 2022 with funding from 
 Columbia University Libraries 
 
 https://archive.org/details/scientificunit0Ogill 
 
 
 
NO onthe’ Chiz 
 
 HE gradual utilization and the practical application of known scientific principles to every 
 problem of transportation, inter-communication, construction and illumination provide a 
 startling and amazing panorama of progress. 
 
 It is, however, in the practical and efficient utilization of electricity for illumination that we are 
 intimately and immediately concerned. In this particular phase of scientific research and 
 investigation, progress has been as startling and amazing as in any other, and we now offer 
 to the trade the “SCIENTIFIC” unit as the most advanced method of illumination yet 
 developed. 
 
 The “SCIENTIFIC” unit is vastly superior to any other unit now manufactured, as it is built 
 to meet the most modern conception of correct illumination. The “SCIENTIFIC” unit is 
 composed of three separate and distinct parts, but merged into one efficient and attractive 
 unit. Its primary object is to provide a maximum of illumination, both direct and indirect. 
 The “SCIENTIFIC” unit consists of a canopy of Hyperion glass, a Crystal Reflector and a 
 Diffusing Bowl, also of Hyperion glass. The light is projected directly on the working plane 
 by the bottom diffusing bowl and indirectly by the crystal reflector which projects the light on 
 the white glass canopy which, in turn, directs it to useful planes. 
 
 The “SCIENTIFIC” unit successfully controls light and gives a greater light output than any 
 other unit, as the reflector is made of Crystal glass and naturally, absorbs a negligible percent- 
 age of light and thus, the total light output of the unit, as a whole, is considerably more than 
 that of any style heretofore on the market. 
 
 The efficiency of the ceiling type is such as to render the pendant type unnecessary in most 
 installations, as the combination of crystal reflector with white diffusing glass canopy gives a 
 wide range of distribution and will project more light on the working plane than any other 
 unit in the pendant type. The “SCIENTIFIC” unit can, of course, be furnished in the pendant 
 type, but in such case the unit will consist of the bowl and the reflector only, without the glass 
 canopy. 
 
 In every science, advance in theoretical knowledge is followed by its practical application, and 
 the development of the “SCIENTIFIC” unit is the logical sequence of the latest acceptation of 
 what constitutes correct illumination. A physical examination, only, will disclose the reason 
 for its superiority, and this conclusion will be confirmed by its performance in operation. 
 The “SCIENTIFIC” unit is protected by basic as well as design patents. 
 
 GILL-VIRDEN Company, INC. 
 
 [ Three ] 
 
{ Four } 
 
 Method of Installation 
 
 Installing a Scientific Unit is so extremely simple that it requires only about ten minutes for the entire 
 operation and while the method will be obvious and without complication to any competent electrician the 
 accompanying sketch and detailed instructions are furnished so that a helper or layman will experience no 
 difficulty in making the installation. 
 
 ““A”——Make regular connection of “pigtail recep- 
 tacle No. 1” to lead wires. 
 
 “B”—Attach “crossbar and supporting rods No. 
 
 2’ to fixture stud or ears of outlet box. arate Sot TE 
 
 “C”—Place “reflector No. 3” over supporting rods 
 and flush against ceiling and secure by in- |_| 
 serting “reflector supporting cup No. 4” | ™ : CROSSBAR AND. 
 through opening in reflector and over ‘‘re- 
 flector supporting nuts No. 5,” turning cup 
 
 to right as far as possible and tightening 
 
 
 
 nuts. 
 
 “D”—Pull “receptacle No. 1” through opening 
 in “reflector supporting cup No. 4,” 
 unscrew porcelain ring, attach ‘“‘refractor 
 supporting disc No. 6” to receptacle and 
 replace porcelain ring. 
 
 “E”—Draw ‘refractor supporting disc No. 6” 
 with receptacle attached through neck of 
 “prismatic refractor No. 7’ and secure same 
 by slipping supporting disc over ‘‘refractor 
 nuts No. 8” and tightening. 
 
 = 
 ~~ 
 
 “F”—After inserting Lamp, slide “bowl No. 9” 
 through notches over flange of ‘“‘refractor 
 No. 7” and adjust bowl so that it will seat 
 horizontally on refractor flange. 
 
 NOTE.—When equipped with Mogul 
 Socket an extra crossbar attached to 
 supporting rods will carry socket, and 
 will be adjustable up or down. ‘‘Sup- 
 porting disc No. 6” will then be used 
 only as a means of securing ‘‘prismatic 
 refractor No. 7” to “Crossbar and sup- 
 porting rods No. 1.” 
 
 
 
Photometric Test 
 
 The Candle power distribution of the Scientific Unit shown above indicates that our new unit has a light efficiency of 89%, that is, 
 89% of the light generated by the lamp is ultimately diffused by the Luminaire. However, efficiency in Luminaires has or ought to 
 have, a much more comprehensive and exact meaning than is generally given it. Real efficiency is not restricted to the percentage of 
 light output diffused by the Luminaire which, because it is often the most obvious and patent, is frequently regarded as the most 
 important. If that were true, however, the most efficient Luminaire would be the bare lamp which has a total light output of 
 100%. True efficiency means, however, in addition to percentage of light output, absence of glare and possibly, most important of 
 all, the projection of light on useful planes. It is possible, for example, to visualize a unit with a light output of 98%, which yet 
 might be a highly inefficient Luminaire, first because it is haphazard in operation, and secondly because it is glaring in appearance. 
 Percentage of light output, therefore, is merely the first step in considering the merits of any unit as a Luminaire. It is not the most 
 important, and in fact in very many cases, is secondary to the most important question of all: What is really done with the light 
 diffused by the unit? The Photometric test shown above shows a very high light output of 89%, for the Scientific Unit, but what 
 it does not show is that practically all the light is controlled and is projected on useful planes, first by the Diffusing Bowl, and 
 secondly by the White Glass Canopy. Nothing has been left to chance, and a successful effort has been made to flood the working 
 plane with a soft full light, free from glare. Our aim has been to design a unit of high light output, and primarily equipped to 
 utilize this light in the most effective manner. 
 
 { Five } 
 
{ Six ] 
 
 ‘Nurenttiw Unit (Plain White Finish) 
 
 
 
 
 
 Numbers 75, 76 and 77 
 
 Equipped with Edison Base Porcelain Socket. If Mogul Socket is wanted please so specify and add 60c to list. 
 PLAIN UNIT—The “SCIENTIFIC” UNIT, as illustrated, consists of a diffusing bowl of HYPERION glass and crystal re- 
 flector, and a white glass canopy. While it is extremely graceful in appearance and particularly so when illuminated, it is designed 
 primarily for efficiency, and for the projection of a maximum illumination on the working plane. This result is attained by 
 direct diffusion through the bottom bowl, and indirectly through the crystal reflector and redirected by the glass canopy. 
 “DAYLITE GLASS”—There are certain specific conditions which require a quality of light approximating daylight. This 
 is true, for example, where close matching of colors is desired or where, for any purpose, the daylight effect is of prime 
 importance. The “SCIENTIFIC” UNIT can be furnished in this type of glass, and the resultant diffusion of light is as close 
 an approximation of daylight as it is possible to obtain. Our “DAYLITE” glass is not a cased glass, but a one-piece glass, 
 and is practically as efficient, so far as light output is concerned, as the plain Hyperion unit. The quality of light which it 
 projects however, is as stated above, a very close approximation of daylight, and its light weight and high efficiency make 
 it a singularly appropriate unit for the purpose for which it is designed. 
 
 If Day-Lite Glass is wanted order No. 78, 79 or 80. 
 
 Unit Diameter | Diameter Length Quantity to Carton Weight of Carton Price Each 
 Number of Canopy | of Bottom Bow! Overall | Dozen | Pounds Complete 
 | 
 
 
 
 
 
 
 
 
 
 
 
 75 16"' 12"! | 15" 
 
 ial 15 $12.75 
 76 16"! 14" 16"' 1/12 16 13.50 
 77 16" 16" 17"! 1/12 19 16.50 
 78 16" 12" 15" 1/12 15 14.01 
 79 16" 14" 16"' 1/12 16 14.85 
 80 16"! 16" 17"! 1/12 19 18.15 
 
 
 
 
 
 Furnished with Levolier Switch at advance of $2.25 each list. 
 
‘Nuentifiw’ Unit (Marble Finish) 
 
 
 
 Numbers 84, 85 and 86 
 
 Equipped with Edison Base Porcelain Socket. If Mogul Socket is wanted please so specify 
 and add 60c to list. 
 
 A very unusual and unique decorative effect is illustrated above, which is extremely attractive and 
 peculiarly adapted for certain specific conditions. The decoration shown simulates the peculiar configura- 
 tion of marble and, as a matter of fact, the unit seems in reality to be constructed from a luminous piece 
 of marble. It is peculiarly adapted as a harmonizing factor in hotels, banks, hospitals and wherever 
 marble trimming is used in construction. 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 Unit Diameter Diameter Length Quantity to Carton Weight of Carton Price Each 
 of Canopy of Bottom Bowl Overall Dozen Pounds | Complete 
 16"' WP r5S! 1/12 15 $15.75 
 85 16. 14" 16"' ita Wee 16 16.50 
 16%) 16"' ye 1/12 19 | 20.25 
 
 
 
 
 
 Furnished with Levolier Switch at advance of $2.25 each list. 
 
 [ Seven } 
 
Worentifiw’ Unit (Etched Finish) 
 
 
 
 Numbers 81, 82 and 83 
 
 Equipped with Edison Base Porcelain Socket. If wanted with Mogul Socket please so specify 
 and add 60c to list. 
 
 Where decorative illumination is desirable, the “SCIENTIFIC” UNIT can be furnished with etched 
 design, as shown above. An effort has been made to furnish the decorative treatment without impairing 
 the efficiency of the unit itself. As a matter of fact, the unit, even in the plain combination, is extremely 
 graceful in appearance, the contrast between the clear crystal of the reflector and the white glass of the 
 
 canopy and bowl is very striking and pleasing. In the etched design, however, its normal attractive 
 appearance is, of course, emphasized and enhanced. 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 Diameter Diameter Length Quantity to Carton Weight of Carton Price Each 
 
 of Canopy of Bottom Bowl Overall Dozen Pounds Complete 
 81 | ibe iby 1/12 | 15 $15.05 
 82 | ton LA 16" 1/12 16 16.50 
 83 16"' | 16" jira 1/12 19 20.25 
 
 
 
 Furnished with Levolier Switch at advance of $2.25 each list. 
 
 [ Eight } 
 
“Wurentifiv’ Unit (Ivory Finish) 
 
 = 
 
 AT ESP rae 
 
 
 
 Numbers 87, 88 and 89 
 
 Equipped with Edison Base Porcelain Socket. If Mogul Socket is desired please so specify 
 and add 60c to list. 
 
 This treatment of the “SCIENTIFIC” UNIT is recommended wherever it is desired that indirect illumina- 
 tion dominate. The bowl is decorated in a pleasing neutral color, restful to the eye and a large percentage 
 of the light is projected by the crystal reflector on the white canopy and redirected to the working plane. 
 The unit is not only efficient, but decorative and serves to illustrate the varied possibilities of the 
 
 SCIEN LIE Ge UNE: 
 
 
 
 
 
 Unit Diameter Diameter Length Quantity to Carton Weight of Carton | Price Each 
 Number of Canopy of Bottom Bowl Overall Dozen Pounds Complete 
 
 
 
 $13.95 
 
 87 | 16"! 12" 15" 1/12 15 
 88 16"' 14"! 16" 1/12 16 | 14.70 
 89 16" 16" iT fl 1/12 19 18.00 
 
 
 
 Furnished with Levolier Switch at advance of $2.25 each list. 
 
 [ Nine ] 
 
{ Ten } 
 
 Nuentifin Unit (Pendant Type) 
 
 STATUARY BRONZE PENDANT 
 
 
 
 TT 
 
 Numbers 44/90, 44/91 and 44/92 
 
 Deep flanged canopy with knockout. Equipped with special approved receptacle and asbestos wire. 
 If Mogul Socket is desired please so specify and add 60c to list. 
 
 In designing the “SCIENTIFIC” UNIT, it was the thought of our engineers that the ceiling type, because of its 
 unusual efficiency, would render the pendant type in large measure unnecessary, and in fact, where ceilings are not over 
 14 ft. in height the “SCIENTIFIC” UNIT in the ceiling type will be found eminently satisfactory and efficient. There 
 are, however, undoubtedly unusual conditions which will require the pendant type, and the illustration shows how the 
 “SCIENTIFIC” UNIT is furnished when this particular type is required. The bottom diffusing bowl and crystal 
 reflector complete the pendant type, the combination comprising an unusually efficient unit. 
 
 If combination of glass and fixture is wanted give combination of number of fixture and glass. 
 
 
 
 
 
 
 
 
 
 
 
 | . | | . . . + 
 Fixture Glass | Diameter | Length | Size of | Unit Package | Unit Package | Unit Package | Price Each | Price nese Price Each 
 Number | Number of Overall| Fitter | “hen Complete} Glass Only | Fixture Only | Complete | Glass Only | Fixture 
 Bowl | Dozen Dozen | Only 
 44 90 120 43" ANT os 1/12 1/12 24 L eel2.75 $117.00 $2.70 
 44 91 14" 44" 4" 1/12 1/12 24 13.50 126.00 2.70 
 44 92 16" Asi 4. LyL2 1/12 24 | 16.50 162.00 2.70 
 
 
 
 Furnished with Levolier Switch at advance of $1.50 each list. 
 

 

 
o> 
 
 + 
 ‘= 
 
 i " 
 or Fin? 
 Car of, 
 
 « 
 ‘A. 
 
 é