US1716048A - Vehicle lamp - Google Patents

Vehicle lamp Download PDF

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Publication number
US1716048A
US1716048A US150080A US15008026A US1716048A US 1716048 A US1716048 A US 1716048A US 150080 A US150080 A US 150080A US 15008026 A US15008026 A US 15008026A US 1716048 A US1716048 A US 1716048A
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Prior art keywords
lamp
reflector
filament
filaments
mirror
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Expired - Lifetime
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US150080A
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Graves Arnold
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SAFETY ANTI DAZZLE BULB SYNDIC
SAFETY ANTI-DAZZLE BULB SYNDICATE Ltd
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SAFETY ANTI DAZZLE BULB SYNDIC
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01KELECTRIC INCANDESCENT LAMPS
    • H01K9/00Lamps having two or more incandescent bodies separately heated
    • H01K9/08Lamps having two or more incandescent bodies separately heated to provide selectively different light effects, e.g. for automobile headlamp

Definitions

  • This invention which is a continuation in part of my Patent No. 1,620,202 of March 8, 1927, relates to lamps fitted with reflectors and used for head and side lights of vehicles, 5 of the type in which the light source in combination with a small hemispherical mirror is placed inside a parabolic or similar reflector, part of the light from the source falling directly on to the reflector and part on to the mirror whence it is reflected on to the reflector.
  • the light source in combination with a small hemispherical mirror is placed inside a parabolic or similar reflector, part of the light from the source falling directly on to the reflector and part on to the mirror whence it is reflected on to the reflector.
  • this type one half only of the hollow surface of the reflector is used and the other half is commonly suppressed.
  • An object of the invention is to suppress 5 rays above the horizontal and to cast the light in a low flat topped beam and so abolish glare, and further to make the beam as uniform as possible.
  • a further object is to enable the user of the lamp to vary the nature of the beam at will.
  • the lamp is made with two independent filaments, one in advance of the other on the axial line, and
  • either of the filaments may at will be switched on.
  • One of these filaments is placed at the focus or optimum position of the reflector, and the other is so situated in relation to the first that it is in advance or in rear of the optimum position according as the upper or lower half of the reflector 1s used.
  • a shade is built in with the lamp and associated with the second filament.
  • Figure 1 is a diagrammatic illustration showing how the lamp is used in a parabolic reflector.
  • Figure 2 is a side elevation of the lamp according to the diagram of Fig. 1.
  • Figure 3 is a horizontal sectional view of the lamp shown in Figure 2 on a larger scale.
  • FIG. 1 By reference to Fig. 1 it will be observed that the same is an explanatory diagram in which A is a parabolic reflector whose axis is represented by the line X-X and the focus is at F.
  • the light source L situated at F will reflect from the main reflector A in a series of parallel rays.
  • M is a small semi-circular mirror whose centre of curvature is at C.
  • L is a second light source which is situated in advance of the focus F of the refiector in the same plane as the centre of curvature G of the mirror M but slightly in rear semi-annu1i with dark interspaces.
  • the position of L may be so adjusted relatively to M that the image L will cast a similar beam whose semi-annuli will be coincident with the dark interspaces of the beam cast by L.
  • the resultof this will be a nearly homogeneous beam of semi-circular section with a flat top below the horizontal and free from glare but well adapted to illuminate the road in front of the vehicle.
  • the filament L is not shadowed by the mirror M but lies wholly outside it, and the entire surface of the reflector A may be employed for the rays emanating from the alternative source L to produce an ordinary concentrated beam.
  • the small mirror M is fixed inside the lamp bulb, and associated with the filament L.
  • an ordinary full beam may be produced by switching on the filament L or alternatively, at will, this filament may be extinguished, and the anti-dazzle filament L rendered incandescent.
  • an electric incandescent lamp 0 the socket a of which is fitted, in the usual manner, in a parabolic reflector b, is provided with two illuminating filaments d and e fitted one behind the other in the axis of the lamp, and of these illuminating filaments, in accordance with the example illustrated, the rearmost filament d is placed in the focus, and the foremost filament e in front of the focus of the reflector b.
  • the foremost illuminating filament e is closely surrounded by a semi-spherical screen f which acts as an auxiliary reflector which intercepts half of the rays emanating from this illuminating filament e, and throws the said rays upwards against the reflector, whence they are reflected towards the ground.
  • the screen f fitted approximately in the axis of the lamp is secured to the base of the lamp, in the same manner as the illuminating filaments.
  • each filament e and f is an independently controlled element, the circuits and switching arrangements being such that they are never simultaneously rendered incandescent.
  • I claim 1 Electric incandescent lamp with two independent filaments capable of selective operation, for light projectors, both filaments being located on and extending lengthwise of the axis of the lamp, one unshaded to produce a full beam, whilst the other is formed with a shade fixed inside the lamp to divert substantially half its rays.
  • Electric incandescent lamp with two inde endent filaments capable of selective operation, for light projectors, both filaments being located on and extending lengthwise of the axis of the lamp, one unshaded to produce a full beam, whllst the other is formed with a substantially semi-spherical reflector advance of the other, supporting means for the filaments included in the lamp circuit, and a reflector carried by said supporting means for the filaments and located at one side of the filament farther from the base of the lamp.
  • An electric incandescent lamp comprising two independent filaments capable of selective illumination, means for supporting both filaments in a longitudinal position on the longitudinal axis of the lamp, whereby one will be in advance of the other, and a semispherical reflector supported by the filament supporting means and beneath the filament farther from the base of the lamp, and the other filament being unshaded, whereby light rays will emanate in all directions therei i from except as obstructed by the reflector.

Description

June 4, 1929. A. GRAVES 1,716,048
VEHICLE LAMP Filed Nov. 22, 1926 N xumggw Patented June 4, 1929.
OFFICE ARNOLD GRAVES, OF WHEATHAMPSTEAD, ENGLAND; ASSIGNOR TO THE SAFETY ANTI-DAZZLE BULB SYNDICATE LIMITED, 01 LONDON, ENGLAND, A COMPANY OF GREAT BRITAIN.
VEHICLE LAMP.
Application filed November 22, 1926, Serial No. 150,080, and in Great.Britain July 29, 1821. I
This invention, which is a continuation in part of my Patent No. 1,620,202 of March 8, 1927, relates to lamps fitted with reflectors and used for head and side lights of vehicles, 5 of the type in which the light source in combination with a small hemispherical mirror is placed inside a parabolic or similar reflector, part of the light from the source falling directly on to the reflector and part on to the mirror whence it is reflected on to the reflector. In this type one half only of the hollow surface of the reflector is used and the other half is commonly suppressed.
An object of the invention is to suppress 5 rays above the horizontal and to cast the light in a low flat topped beam and so abolish glare, and further to make the beam as uniform as possible.
A further object is to enable the user of the lamp to vary the nature of the beam at will.
According to the invention the lamp is made with two independent filaments, one in advance of the other on the axial line, and
either of the filaments may at will be switched on. One of these filaments is placed at the focus or optimum position of the reflector, and the other is so situated in relation to the first that it is in advance or in rear of the optimum position according as the upper or lower half of the reflector 1s used. A shade is built in with the lamp and associated with the second filament.
In the accompanying drawings which illustrate the manner in which these objects are accomplished Figure 1 is a diagrammatic illustration showing how the lamp is used in a parabolic reflector.
Figure 2 is a side elevation of the lamp according to the diagram of Fig. 1.
Figure 3 is a horizontal sectional view of the lamp shown in Figure 2 on a larger scale.
By reference to Fig. 1 it will be observed that the same is an explanatory diagram in which A is a parabolic reflector whose axis is represented by the line X-X and the focus is at F. The light source L situated at F will reflect from the main reflector A in a series of parallel rays. M is a small semi-circular mirror whose centre of curvature is at C. L is a second light source which is situated in advance of the focus F of the refiector in the same plane as the centre of curvature G of the mirror M but slightly in rear semi-annu1i with dark interspaces. The position of L may be so adjusted relatively to M that the image L will cast a similar beam whose semi-annuli will be coincident with the dark interspaces of the beam cast by L. The resultof this will be a nearly homogeneous beam of semi-circular section with a flat top below the horizontal and free from glare but well adapted to illuminate the road in front of the vehicle.
These remarks show the advantages to be obtained by positioning the shaded second light source L away from the centre of curvature of the hemispherical mirror M inasmuch as this arrangement renders the beam more uniform but if desired the light source L may be placed at the centre of curvature of the hemispherical mirror M and in such case the beam from this source will be free from the glare efi'ect provided of course that the other important feature be presented, thatis to say, that the light source-L shall not be at the focus F of the reflector.
The filament L is not shadowed by the mirror M but lies wholly outside it, and the entire surface of the reflector A may be employed for the rays emanating from the alternative source L to produce an ordinary concentrated beam. The small mirror M is fixed inside the lamp bulb, and associated with the filament L.
Thus, according to the invention, an ordinary full beam may be produced by switching on the filament L or alternatively, at will, this filament may be extinguished, and the anti-dazzle filament L rendered incandescent.
Referring to Figures 2 and 3, an electric incandescent lamp 0, the socket a of which is fitted, in the usual manner, in a parabolic reflector b, is provided with two illuminating filaments d and e fitted one behind the other in the axis of the lamp, and of these illuminating filaments, in accordance with the example illustrated, the rearmost filament d is placed in the focus, and the foremost filament e in front of the focus of the reflector b. The foremost illuminating filament e is closely surrounded by a semi-spherical screen f which acts as an auxiliary reflector which intercepts half of the rays emanating from this illuminating filament e, and throws the said rays upwards against the reflector, whence they are reflected towards the ground. The screen f fitted approximately in the axis of the lamp is secured to the base of the lamp, in the same manner as the illuminating filaments.
As mentioned, each filament e and f is an independently controlled element, the circuits and switching arrangements being such that they are never simultaneously rendered incandescent.
I claim 1. Electric incandescent lamp with two independent filaments capable of selective operation, for light projectors, both filaments being located on and extending lengthwise of the axis of the lamp, one unshaded to produce a full beam, whilst the other is formed with a shade fixed inside the lamp to divert substantially half its rays.
2. Electric incandescent lamp with two inde endent filaments capable of selective operation, for light projectors, both filaments being located on and extending lengthwise of the axis of the lamp, one unshaded to produce a full beam, whllst the other is formed with a substantially semi-spherical reflector advance of the other, supporting means for the filaments included in the lamp circuit, and a reflector carried by said supporting means for the filaments and located at one side of the filament farther from the base of the lamp.
4. An electric incandescent lamp comprising two independent filaments capable of selective illumination, means for supporting both filaments in a longitudinal position on the longitudinal axis of the lamp, whereby one will be in advance of the other, and a semispherical reflector supported by the filament supporting means and beneath the filament farther from the base of the lamp, and the other filament being unshaded, whereby light rays will emanate in all directions therei i from except as obstructed by the reflector.
In testimony whereof I have aflixed my signature hereto this 9th day of November,
ARNOLD GRAVES.
US150080A 1921-07-29 1926-11-22 Vehicle lamp Expired - Lifetime US1716048A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2912610A (en) * 1954-07-24 1959-11-10 Philips Corp Electrical incandescent lamp mounting structure
US3083315A (en) * 1958-02-13 1963-03-26 Bosch Gmbh Robert Headlamps

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2912610A (en) * 1954-07-24 1959-11-10 Philips Corp Electrical incandescent lamp mounting structure
US3083315A (en) * 1958-02-13 1963-03-26 Bosch Gmbh Robert Headlamps

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