US3209192A

US3209192A - Decorative electric lamp with specular coating

Info

Publication number: US3209192A
Application number: US79189A
Authority: US
Inventors: Walter J Decker
Original assignee: Westinghouse Electric Corp
Current assignee: CBS Corp
Priority date: 1960-12-29
Filing date: 1960-12-29
Publication date: 1965-09-28
Anticipated expiration: 1982-09-28

Description

Sept. 28, 1965 w. J. DECKER DECORATIVE ELECTRIC LAMP WITH SPECULAR COATING Filed Dec. 29, 1960 FIG. 2.

FIG.

m G G mm IT M m N A RR TA L U C E Dr s LIGHT- COLOR ED LAOUER COATING l8 (IQQRED LAQUEFL COATIN G I84 LIGHT-TRANSMITTING SPECULAR COATING I610 30- FIG. 3. gem-TRANSMITTING INVENTOR. WflL TEE J. DEC/(EH.

SPECULAR COATING United States Patent 3,209,192 DECORATIVE ELECTRIC LAMP WITH SPECULAR COATING Walter J. Decker, North Bergen, N.J., assignor to Westinghouse Electric Corporation, East Pittsburgh, Pa., a corporation of Pennsylvania Filed Dec. 29, 1960, Ser. No. 79,189 8 Claims. (Cl. 313 116) This invention relates to electric lamps and, more particularly, to a novel incandescent lamp for decorating Christmas trees and the like.

As is well known, the primary purpose of Christmas tree lights is to produce an appealing decorative effect at a reasonable cost. To this end various types of decorative lamps have been developed and marketed. Some are relatively simple and merely have bulbs shaped and colored to simulate different Christmas characters or scenes, while other are rather elaborate and include means for using the heat generated by the lamp to revolve colored shades or the like, or to generate bubbles in tubes containing colored fluid. More recently, lamps which flash on-and-olf to create a twinkling effect, and others covered with translucent plastic particles which produce a frosted or snowball apearance have been developed and successfully marketed.

It is the general object of this invention to provide a decorative lamp which is distinctively different from the prior art lamps and produces a pleasing decorative effect in both a. lighted and unlighted condition.

A more specific object is the provision of an incandescent decorative lamp of simple and inexpensive construction that will create totally different decorative effects when energized and deenergized and is thereby more versatile than the prior art lamps.

The foregoing objects, and others which will become obvious as the description proceeds, are achieved in accordance with this invention by coating a part or the entire surface of the lamp envelope with a specular coating that reflects incident light originating outside the lamp but transmits the light generated by the filament. Thus, when the lamp is unlighted, the coated portions reflect light and the lamp functions as a silvered Christmas tree ornament; and, when the lamp is energized, it becomes luminous and produces a subdued lighting effect that is both pleasant and distinctive. When the lamp is provided with a second coating of colored lighting-transmitting material, such as a suitable plastic, a specular colored effect is obtained when the lamps are out, which changes to a colored glowing effect when the lamps are lighted.

A better understanding of the invention will be obtained by referring to the accompanying drawing, wherein:

FIG. 1 is a side elevational view of a decorative lamp embodying this invention;

FIG. 2 is a fragmentary side sectional view on an enlarged scale of the lamp shown in FIG. 1;

FIG. 3 is a plan view of the filament mount and basal end of the lamp along the line IIIIII of FIG. 2, in the direction of the arrows;

FIG. 4 is a fragmentary cross-sectional View of the bulb of an alternative lamp embodiment according to the invention;

FIG. 5 is a similar view of another embodiment; and

FIG. 6 is a fragmentary side sectional view of still another embodiment.

While the present invention may be advantageously employed in various types of decorative lamps, it is particularly adapted for use in Christmas tree lamps and accordingly has been so illustrated and will be so described.

With particular reference now to the drawing, in FIG.

3,289,192 Patented Sept. 28, 1965 1 there is illustrated a Christmas tree lamp 10 having a generally spherical glass envelope 12 terminated at one end by a constricted neck portion 13 to which is attached the usual base member 14. As shown in FIG. 2, the envelope contains a light source such as a filament 20 that is coaxially supported within the lamp by means of a re-entrant type stem 22 sealed to the neck of the envelope. The filament is held in the desired configuration by means of support wires 24 that are embedded in the stem, and the ends of the filament are electrically connected to the base 14 by means of lead-in wires 26 in the usual manner. The lamp 10 may be either of the vac uum or gas-filled type, depending upon the wattage rating. The lamp here illustrated has a rating of approximately 6 /2 Watts and is, accordingly, of the vacuum type. The envelope 12 has an outside diameter of approximately 1%" and is referred to in the art as a G-l4 bulb.

The desired distinctive and variable decorative appearance of the lamp 10 is achieved in accordance with this invention by providing a coating 16 of suitable metal, such as silver or aluminum, on at least a portion of the envelope 12, which coating is of such thickness that it reflects incident light originating outside the lamp but is permeable to and transmits the light generated by the filament 20. In the particular embodiment shown in FIG. 2, the entire inner surface of the envelope 12 is provided with such a coating, the latter by virtue of its peculiar properties being identified in this and the other figures as a light-transmitting specular coating. In order to enhance the decorative appearance of the lamp, a second coating 18 of suitable colored material, a cured layer of colored thermosetting plastic such as cellulose acetate lacquer for example, is provided on the outer surface of the envelope 12.

The thickness of the light-transmitting specular coating 16 and the colored lacquer coating 18 must be properly controlled otherwise insufficient or excessive light will be transmitted through the envelope from the filament and the desired subdued glowing effect will not be obtained when the lamp is energized. While the coating thicknesses will vary, of course, depending upon the wattage and intensity of the filament when energized, with the 6% watt G-14 lamp 10 here illustrated very satisfactory results have been obtained with a specular coating 16 of silver having a thickness (calculated) of approximately 0.110 micron. On this basis, a thickness range (calculated) of approximately 0.9 to 0.130 micron would probably be permissible. The thickness of the lacquer coating 18 in this particular instance was approximately 2 mils, with a permissible tolerance of 0.5 mil for the specific concentration of coloring material used.

In addition to enhancing the decorative appearance of the lamp 10, the lacquer coating 18 also serves to strengthen the envelope 12 and prevent it from breaking should the lamp be accidently dropped or struck.

Since silver and aluminum both reflect infrared, the use of these or similar metals as the specular coating 16 naturally causes the infrared radiations produced by the filament 20 to be internally reflected thus increasing the operating temperature of both the envelope 12 and base 14. In order to prevent excessive base temperatures, it has been found desirable in such cases to support a shield 28 of infrared reflecting material, such as aluminum, between the filament 20 and neck portion of the envelope 12, which shield can be slotted and slipped over the stem press in transverse relationship with the lamp axis as shown in FIGS. 2, 3 and 6.

Alternatively, the light-transmitting specular coating can be fabricated from a material that is reflective as regards exterior light but permeable to both infrared and visible radiations emanating from the filament 20. Specific examples of suitable materials are germanium, silicon, antimony sulphide and selenium sulphide. Thus, by properly controlling the coating thickness and selecting a suitable material, a specular coating can .be provided which will reflect incident light from outside the lamp and transmit both visible and infrared radiations generated inside the lamp by the filament.

Various other modifications are possible. For example, an envelope 12a could be employed wherein the lighttransmitting specular coating 16a is on the outside surface of the envelope and is, in turn, covered by the colored lacquer coating 18a, as shown in FIG. 4.

Or, as shown in FIG. 5, the exterior colored coating may be omitted entirely to provide an envelope 12b having only a light-transmitting specular coating 16b on its interior surface.

As shown in FIG. 6, the heating effect on the base 14 produced by the specular coating 16 (if infrared refleeting) can also be reduced by providing a lamp c having an envelope 120 the spherical end segment whereof opposite the neck portion 130 is dished to form a depression 30 that is concave inwardly. In this manner a concave rather than a spherical convex surface is provided opposite the basal end of the lamp which will disperse the incident infrared radiations from the filament 20 instead of reflecting them into the neck portion. The operating base temperature can be further decreased by restricting the specular coating 16 to the neck and side surfaces at of the envelope and leaving the surface b of the depressed end segment 30 clear, as indicated in FIG. 6. The colored exterior coating 180 is preferably applied over the entire outside surface of the envelope 120, as shown, to avoid complicating the manufacture of the lamp. While a shield 28 is shown in this particular embodiment, the decrease in the base temperature effected by the aforesaid modification in the bulb configuration and coating pattern may permit such shield to be omitted thereby further simplifying the construction of the lamp.

It will be appreciated that any of the above-described lamps may be constructed to periodically flash on-and-off in the well-known manner when energized, thereby to provide a string of dual-purpose lights that continuously change from attractive silvercd ornaments to glowing balls of light.

It has been found that the overall brightness of the lamp when energized varies according to the position of the filament along the lamp axis, the brightness decreasing as the filament approaches the geometrical center of the envelope. Optimum brightness is achieved when the filament is offset from the bulb center by approximately of the bulb diameter toward the neck portion of the envelope, as shown in FIGS. 2 and 3, and this location is preferred. When thus disposed, some of the light from the filament will be internally reflected by the proximate curved parts of the envelope and then transmitted through the envelope thereby producing a scintillating or sparkling effect when the lamp is lighted, which adds to its ornamental appearance.

As will be recognized from the foregoing, the objects of the invention have been achieved by providing a versatile decorative lamp of simple inexpensive construction which has a totally different and attractive ornamental appearance when energized and deenergized and thus provides two distinctively different decors.

While several embodiments have been illustrated and 4% described in detail, it will be understood that various modifications in both the configuration and organization of parts can be made without departing from the scope of this invention.

I claim:

1. A decorative electric lamp comprising an envelope of light-transmitting material, a light source sealed within said envelope, and a specular thin infrared-transmitting coating on at least a portion of said envelope, said coating being of such thickness that it reflects incident light originating outside said lamp but is permeable to light generated by said light source.

2. A decorative electric lamp as set forth in claim 1 wherein said specular coating is on the inner surface of said envelope and is substantially coextensive therewith.

3. A decorative electric lamp as set forth in claim 1 wherein; the portion of said envelope with said specular coating is also coated with a layer of colored lighttransmitting material, said specular coating is located between said layer of colored material and said light source, and the thickness of said layer of colored material relative to that of said specular coating is such that said layer of colored material transmits a predetermined amount of the light generated by said light source and transmitted by said specular coating.

4. A decorative electric lamp as set forth in claim 2 wherein the outer surface of said envelope is coated with a light-transmitting layer of colored thermosetting plastic.

5. A decorative electric lamp as set forth in claim 1 wherein said specular coating is on the outer surface of said envelope and is covered with a light-transmitting layer of colored material.

6. A decorative electric lamp as set forth in claim 1 wherein; said envelope is of generally spherical configuration and has a neck portion and said light source comprises a filament.

7. A decorative electric lamp as set forth in claim 3 wherein said layer of colored light-transmitting material comprises an exterior coating of cured thermosetting plastic.

8. A decorative incandescent lamp as set forth in claim 6 wherein said filament is located on the axis of said lamp but offset a predetermined distance from the geometrical center of said enevelope toward the neck portion thereof.

References (Iited by the Examiner UNITED STATES PATENTS 1,847,134 3/32 Mikonow 240-83 1,873,261 8/32 Barclay 40-134 2,494,916 1/50 Van Horn 313-222 X 2,680,205 6/54 Burton 313- X 2,688,568 9/54 Miskel 117-94 X 2,706,262 4/55 Barnes 313-116 2,781,654 2/57 Pipkin 313-116 2,859,369 11/58 Williams et al. 313-113 2,946,911 7/60 Malinowski et al. 117-18 X 3,018,187 1/62 Boyce 117-94 X 3,018,403 1/62 Young 313-222 X FOREIGN PATENTS 863,097 3/41 France.

GEORGE N. WESTBY, Primary Examiner.

ARTHUR GAUSS, Examiner.

Claims

1. A DECORATIVE ELECTRIC LAMP COMPRISING AN ENVELOPE OF LIGHT-TRANSMITTING MATERIAL, A LIGHT SOURCE SEALED WITHIN SAID ENVELOPE, AND A SPECULAR THIN INFRARED-TRANSMITTING COATING ON AT LEAST A PORTION OF SAID ENVELOPE, SAID COATINT BEING OF SUCH THICKNESS THAT IT REFLECTS INCIDENT LIGHT ORIGINATING OUTSIDE SAID LAMP BUT IS PERMEABLE TO LIGHT GENERATED BY SAID LIGHT SOURCE.