US2229962A - Lamp base and socket - Google Patents

Lamp base and socket Download PDF

Info

Publication number
US2229962A
US2229962A US339537A US33953740A US2229962A US 2229962 A US2229962 A US 2229962A US 339537 A US339537 A US 339537A US 33953740 A US33953740 A US 33953740A US 2229962 A US2229962 A US 2229962A
Authority
US
United States
Prior art keywords
lamp
socket
pins
envelope
spaced
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
US339537A
Inventor
Reamer Frank C De
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
General Electric Co
Original Assignee
General Electric Co
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by General Electric Co filed Critical General Electric Co
Priority to US339537A priority Critical patent/US2229962A/en
Application granted granted Critical
Publication of US2229962A publication Critical patent/US2229962A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R33/00Coupling devices specially adapted for supporting apparatus and having one part acting as a holder providing support and electrical connection via a counterpart which is structurally associated with the apparatus, e.g. lamp holders; Separate parts thereof
    • H01R33/05Two-pole devices
    • H01R33/06Two-pole devices with two current-carrying pins, blades or analogous contacts, having their axes parallel to each other
    • H01R33/08Two-pole devices with two current-carrying pins, blades or analogous contacts, having their axes parallel to each other for supporting tubular fluorescent lamp
    • H01R33/0836Two-pole devices with two current-carrying pins, blades or analogous contacts, having their axes parallel to each other for supporting tubular fluorescent lamp characterised by the lamp holding means

Definitions

  • My invention relates to electric lamps, and more particularly to a, supporting base and socket for a double-ended discharge lamp of a type now in commercial use, for example, a fluorescent lamp.
  • My invention further relates to a tubular lamp having an envelope so formed as to be capable of emitting light rays of various widths or other characteristics, for example, an envelope of elliptical form.
  • An object of my invention is the provision of a base and socket construction for a tubular lamp, such that either portion of the envelope emitting light rays of different characteristics or widths may be presented to a reflecting or supporting surface of a lamp fixture to obtain various types of light beams.
  • Another object of my invention is the provision of a base and socket construction for a tubular lamp having an elliptical envelope such that the 2d major or minor axis of the envelope may cooperate with a reflecting surface.
  • a further object of my invention is the provision of a base and socket construction for electric lamps of the type described wherein the lamp may be easily inserted in its socket and positively held therein.
  • Fig. l is a perspective view of a lamp mounted in a fixture showing the cooperation of the base and socket elements;
  • Fig. 2 is a perspective view of the lamp;
  • Figs. 3 and 4 illustrate a side and end view, respectively, of a lamp, for example, an elliptical lamp, mounted in a fixture with the major aids oi the envelope presented to the reflecting sur face to obtain a comparatively wide beam oi! light;
  • Figs. 5 and 6 illustrate a side and end view, respectively, of the same lamp mounted with its minor axis presented to the reflecting surface to obtain a relatively narrow beam cl light;
  • Fig. 'l is a view oi" the lamp-supporting socket, partly in section;
  • Fig. 8 is an exploded view of the lamp socket elements.
  • the drawing illustrates a lamp of which the envelope has been given an elliptical form so that either the. broad or narrow face of the lamp may be used to illuminate an object.
  • the arrangement of the lamp socket and contact pins on the lamp bases is such that the lamp may be turned end for end to present either the broad or narrow face or the envelope to the associated reflector.
  • the lamp envelope may be shaped other than as an ellipse; it may be made of any configuration, for example, a rectangle, to present a varietyoi light-emitting faces to the associated support or reflector.
  • Figs. l and 2 oi the drawing illustrate a tubular fluorescent lamp and mounting socket constructed in accordance with my invention, the lamp it being mounted at each end in sockets it which, in turn, are supported by an associated lighting fixture or reflector it.
  • the fluorescent lamp irrcludcs a class envelope it supported at each end by bases id and ill having spaced contact plus it electrically connected to the filaments (not shown), encased within the envelope at each end oi the lamp.
  • the envelope oi the lamp is given an elliptical configuration so that the broad or narrow race of the envelope, corresponding to the major and minor ones or the ellipse, may be procoated to the reflector.
  • the socket comprises a two-part housing ll of insulating material, for example, a phenolic condensation product and filler, the housing having a base portion i8 and a relatively narrower extending portion I! enclosing spaced contact members 20 and 2
  • Each part of the housing is formed with spaced longitudinal grooves 22 and 23 which receive the contact members 20 and 2
  • extend into the recess 23 and are formed with pin-engaging surfaces 23 and 23, respectively, for cooperation with the contact pins of the lamp.
  • the contact members are bent at an angle to form terminal plates 21 resting in spaced channels 23 located in the base portion of the housing. Terminal screws 29 cooperate with the terminal plates.
  • one of the contact blades is made movable relatively to the other.
  • the contact blade 20 is made of flexible spring material so that it may be moved upon engagement with one of the lamp pins to insure proper seating of the pins. It should be manifest, however, that the other contact member 2! may be made movable, if desired.
  • the terminal plate 21 of the relatively thin flexible blade 20 is reinforced by a supporting plate 30 secured thereto in any suitable manner. The two parts of the housing are secured together by means of a locking plate 3i.
  • the locking plate comprises a sheet metal member provided with an opening 32 for receiving the extending portion i! of the housing.
  • the extending portion is provided with grooves 33 in opposite edges so that as the extension is slipped through the opening in the locking plate the latter rests on the base portion in line with the grooves 33.
  • the walls of the locking plate formed by the opening 32 are forced inwardly into the grooves 33, as shown at 34, to secure the parts of the housing together and to mount the locking plate on the socket.
  • a portion of the locking plate erends outwardly from the housing and is formed with an opening 35 for receiving a mounting screw.
  • the locking plate forms a supporting medium for the socket and may .be mounted on the reflector l2 by a screw 33, as shown in Figs. 3 and 5.
  • a socket is mounted at each end of the reflector to accommodate the pins at each end of the lamp, the pins resting in the recesses 23 in engagement with the contact members.
  • the pin-receiving recess 23 is formed with an edge 31 extending approximately at an angle of 45 degrees to the base of the socket and the lamp contact pins are clamped by the socket contact members and rest on this guiding edge. This means that the contact pins are always seated in the recesses at the angle aforementioned.
  • the recess 2i extends to an edge 88 of the socket and merges therewith forming a slot 22 through which the contact pins may be inserted in the recess.
  • the contact members and recesses of the sockets are likewise located in this position at each end of the lamp. This means that only a single socket construction is needed to support both ends of the lamp since the lamp contact pins may project into the socket housing from either side. This effects a considerable saving in the costs of manufacture and distribution inasmuch as only a single form of housing need be manufactured-and a single item carried in dealers stocks. In manufacture, the only change made in the right and left hand sockets is to place the locking plate having the mounting opening 35 on the opposite side of the socket housing, as shown in Figs. 1, 3 and 5, to facilitate mounting.
  • the contact pins In mounting the lamp the contact pins are moved in a straight line movement through the slots 39 into the recess 24 of the sockets ll. Thereafter the pins may be rotated in either direction to bring them into engagement with the socket contact members. Since one of the contact pins engages and moves the movable contact member the pins are easily locked in position. Rotation of the contact pins is facilitated by a -curved edge 40 forming a wall of the recess. In seated position the lamp pins are held securely .by the socket contact members making it impossible for the lamp to become unseated except upon rotation. For this reason, the sockets are adapted to hold the lamp in inverted position, such as in a depending lighting In the position shown by Figs.
  • the lamp has been mounted so that the relatively wide face of the envelope is presented to,the reflector to obtain a relatively Wide beam of light, the base l4 being on the left hand and the base IS on the right hand. If it is desired to change the Width of the beam to a narrower one the lamp is removed from the sockets and simply turned end for end and reinserted in them so that the base I5 is on the left hand and the base It on the right hand. Irrespective of direction of rotation of the pins within the socket, they will always engage the socket so that the broad or narrow face of the envelope is presented to the reflector depending upon which end of the lamp is inserted in any one socket.
  • a single lamp By my construction a single lamp, a single reflector and a single set of sockets may be used to obtain light beams of varying characteristics simply by reversing the lamp within the socket. This results in a considerable simplification of the lamp fixture assembly and makes possible a wider use of the lamp. While the socket is designed particularly for use with a lamp capable of producing light beams of various characteristics, it should'be manifest that the socket is adapted to support a fluorescent lamp of the conventional type equally as well.
  • a double-ended electric device having an elliptical glass envelope and a base at each end, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane located substantially at an angle of 45 degrees to the major and minor axes of said elliptical envelope, and a pair of spaced sockets constructed and arranged to receive and mount said electric device therebetween, said sockets being provided with recesses having longitudinal slots extending to the edges thereof and spaced contact members in said recesses for receiving the lamp contact pins, said contact members lying in planes located approximately at angles of 45 degrees to the axes of said sockets whereby said electric device may be mounted in said socket by insertion of the pins at each end of the device in the said longitudinal slots of the adjacent SOCll'JEt by straight movement of the device until the pins are within said recesses whence the device may be rotated in either direction to bring the said contact pins into engagement with said contact members.
  • a double-ended electric device having a base at each end and an intermediate elongated envelope for emitting rays of different characteristics in planes approximately at right angles to each other, each of said bases having spaced contact pins extending outwardly therefrom, all of said pins lying in a common plane located approximately midway between the planes of the rays of different characteristics, and a pair of spaced sockets constructed and arranged to mount said electric device therebetween, said soclrets being provided with recesses extending to the edges thereof and spaced contact members in said recesses for receiving the lamp contact pins, said contact members lying in planes located approximately at angles of l degrees to the bases of said soclrets.
  • a double-ended electric device having an elliptical glass envelope and a base at each end, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane approximately midway between the planes of the major and minor axes of said elliptical envelope, and a pair of spaced soclrets constructed and arranged to mount said electric device therebetween, said toclrets being provided with recesses having slots extending to the edges thereof and spaced contact members in said recesses for receiving the lamp contact pins, one of said contact members in each soclret being movable relatively to the other, said contact members lying in planes approximately at angles of at degrees to the bases of said soclrets.
  • a double-ended electric de vice having an elliptical glass envelope and a base at each end, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane located substantially at an angle of i5 degrees to the maior and minor axes of said elliptical envelope, and a pair of spaced sockets constructed and arranged to receive and mount said electric device therebetween, said sockets being provided with recesses having slots extending to the edges thereof and spaced contact members in said recesses for receiving the lamp contact pins, s'aid contact members lying in planes located approximately at angles of 45 degrees to the bases of said sockets.
  • a double-ended electric device having a base at each end and an envelope formed with wide and narrow faces at substantially right angles to each other to obtain relatively wide and narrow beams of light, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane approximately midway between the planes of the wide and narrow faces of said envelope, and a pair of spaced sockets constructed and arranged to mount said electric device therebetween, said sockets being provided with recesses having slots extending to the edges thereof, and spaced contact members in said recesses for receiving the lamp contact pins.
  • a double-ended electric device having a base at each end and an intermediate envelope for emitting rays of difierent characteristics in planes spaced angularly to each other, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane approximately midway-between the planes of the rays of different characteristics and a pair of spaced sockets constructed and arranged to mount said electric device therebetween, said sockets being provided with recesses having slots extending to the edges thereof and spaced contact members in said recesses for receiving the lamp contact pins.
  • An electric device having an elliptical glass envelope and a base at each end, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane located approximately at an angle of 45 degrees to the major and minor axes of said elliptical envelope.
  • An electric device having a base at each end and a tubular glass envelope having wide and narrow faces at approximately right angles to each other to obtain relatively wide and narrow beams of light, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane located approximately midway between the planes of the wide and narrow faces of said envelope.
  • An electric device having a base at each end and an intermediate elongated envelope for emit ting rays of different characteristics in planes spaced angularly to each other, each of said bases having spaced contact pins extending outwardly therefrom, all of said pins lying in a common plane located. approximately midway between the planes of the rays of different char acteristics.
  • a member of insulating material having a base for mounting on a support, said member being pro vided with a recess extending to an outer edge of the member and spaced contact members in said recess adapted to receive the spaced contact pins of a lamp as the pins are moved transversely through the recess, one of said contact members being movable relatively to the other, said contact members being disposed in a common plane located at an angle of approximately d5 degrees to the base of said member.
  • a soclret for electric lamps, or the like comprising a member of insulating material, said member being provided with a recess formed with a longitudinal slot extending to an outer edge of the member and spaced contact members in said recess adapted to receive the spaced contact pins of a lamp as the pins are moved transversely through the slot into said recess, said contact members being disposed in a common plane located at an angle of approximately 45 degrees to the longitudinal axis of said slot.
  • a socket for electric lamps, or the like comprising a member of insulating material, said member being provided with a recess formed with a slot extending to an outer edge of the member, and relatively movable spaced contact members in said recess adapted to receive the spaced contact pins of a lamp as the pins are moved transversely through the slot into said recess, said contact members being disposed in a common plane located at an angle of substantially 45 degrees to an axis of said member.
  • a member of insulating material having a base for mounting on a support, said member being provided'with a recess extending to an edge of the member, the said recess having a wall located in' a plane at an angle of approximately 45 degrees to the base portion of said member and spaced contact members in said recess adjacent,
  • said wall adapted to receive the spaced contact pins of the lamp, one of said contact members being movable relatively to the other.
  • a two-part housing of insulating material said housing having a base portion and another portion extending outwardly from said base, a recess formed in said extending portion extending to an edge thereof, spaced contact members mounted in said recess and adapted to receive the contact pins of a lamp, one of the contacts being movable relatively to the other and a mounting plate of sheet metal having an opening for receiving said extension, a wall of the mounting plate formed by said opening being bent inwardly to engage said extension and hold the parts of said housing together.
  • a. two-part housing of insulating material said housing having a base portion and an extending portion, said extension being formed with a recess extending to an edge thereof, spaced contact members mounted in said recess and adapted to receive the contact pins of a lamp, one of said contacts being movable relatively to the other, said extension being formed with a slot in the exterior wall thereof at a point adjacent the base portion, and a mounting means for said socket comprising a sheet metal plate provided with an opening for receiving the extended portion of said housing, a portion of the wall of said plate formed by said opening being bent inwardly into said slot for locking said plate to said housing and for securing the parts of said housing together.
  • a two-part housing of insulating material recesses formed in the parts of said housing and extending to edges thereof, spaced contact mem bers mounted in said recesses and adapted to receive the contact pins of a, lamp, one of said contacts being movable relatively to the other, and means to hold the parts of said housing together comprising a band of metal surrounding said housing.
  • a double-ended electric device having a base at each end and an intermediate envelope for emitting rays of diflerent characteristics in planes spaced a'ngularly to each other, each of said bases having spaced contact pins extending outwardly therefrom, all of said pins lying in a common plane approximately midway between the planes of the rays of difi'erent characteristics, and a pair of spaced sockets constructed and arranged to mount said electric device therebetween, s'aid sockets being provided with spaced contact members for receiving the lamp contact pins.

Landscapes

  • Fastening Of Light Sources Or Lamp Holders (AREA)

Description

Jan. 28, 1941. F. c. DE REAMER 2,229,962
LAMP BASE AND SOCKET Filed June a, 1940 MIMI His Attcarmey.
Patented Jan. 28, 1941 UNITED STATES 2,229,962 LAMP BASE AND SOCKET Frank C. De Reamer, Bridgeport, Conn assignor to General Electric Company, a corporation of New York Application June 8, 1940, Serial No. 339,537
17 Claims.
My invention relates to electric lamps, and more particularly to a, supporting base and socket for a double-ended discharge lamp of a type now in commercial use, for example, a fluorescent lamp. My invention further relates to a tubular lamp having an envelope so formed as to be capable of emitting light rays of various widths or other characteristics, for example, an envelope of elliptical form.
An object of my invention is the provision of a base and socket construction for a tubular lamp, such that either portion of the envelope emitting light rays of different characteristics or widths may be presented to a reflecting or supporting surface of a lamp fixture to obtain various types of light beams.
Another object of my invention is the provision of a base and socket construction for a tubular lamp having an elliptical envelope such that the 2d major or minor axis of the envelope may cooperate with a reflecting surface.
A further object of my invention is the provision of a base and socket construction for electric lamps of the type described wherein the lamp may be easily inserted in its socket and positively held therein.
in the accompanying drawing, Fig. l is a perspective view of a lamp mounted in a fixture showing the cooperation of the base and socket elements; Fig. 2 is a perspective view of the lamp; Figs. 3 and 4 illustrate a side and end view, respectively, of a lamp, for example, an elliptical lamp, mounted in a fixture with the major aids oi the envelope presented to the reflecting sur face to obtain a comparatively wide beam oi! light; Figs. 5 and 6 illustrate a side and end view, respectively, of the same lamp mounted with its minor axis presented to the reflecting surface to obtain a relatively narrow beam cl light; Fig. 'l is a view oi" the lamp-supporting socket, partly in section; and Fig. 8 is an exploded view of the lamp socket elements.
in certain installations of double-ended dis charge lamps, such as fluorescent lamps, it is desired to obtain light beams of various character istics to adapt the illumination to a particular use. For example, in lighting vertical panels equipped with indicating instruments and dials a relatively narrow beam of light is required to illuminate the panel and, at the same time. shield the eyes of the reader from glare. In other instances, a wider beam of light is required to illluminate a larger area, for example, a horizontal panel of indicating instruments. I have devised a single lamp and mounting socket therefor which ill dil
dill
lid
is capable of emitting light beams having these various characteristics depending upon the manner in which the lamp is mounted in its associated socket.
To this end, I shape the tubular envelope of a fluorescent lamp in a manner such that the lightemitting surface varies in width or area to give beams of light or various intensities. The drawing illustrates a lamp of which the envelope has been given an elliptical form so that either the. broad or narrow face of the lamp may be used to illuminate an object. The arrangement of the lamp socket and contact pins on the lamp bases is such that the lamp may be turned end for end to present either the broad or narrow face or the envelope to the associated reflector. It will be apparent that the lamp envelope may be shaped other than as an ellipse; it may be made of any configuration, for example, a rectangle, to present a varietyoi light-emitting faces to the associated support or reflector. In some cases, it may be desirable to color portions of the envelope such as the various faces of the ellipse, so that a single lamp may be used to obtain a selection oi different colored light. The manner in which the lamp bases are mounted in the sockets to make possible two positions of the lamp will now be described.
Figs. l and 2 oi the drawing illustrate a tubular fluorescent lamp and mounting socket constructed in accordance with my invention, the lamp it being mounted at each end in sockets it which, in turn, are supported by an associated lighting fixture or reflector it. The fluorescent lamp irrcludcs a class envelope it supported at each end by bases id and ill having spaced contact plus it electrically connected to the filaments (not shown), encased within the envelope at each end oi the lamp. The envelope oi the lamp is given an elliptical configuration so that the broad or narrow race of the envelope, corresponding to the major and minor ones or the ellipse, may be procoated to the reflector. This particular coniigu ration is illustrated by way or an cramplc only; it should be moniiest that other terms may be employed such as the rectangle previously mentioned. "lhc spaced contact pins it at each end oi the lamp lie in a common plane which is midway between the major and minor axes oi? the ellipse defining the relatively wide and narrow faces of the lamp. clince in the term illustrated these faces are at right angles to each other, the plane of the contact pins extends at an angle or 45 degrees to the plane 01 either face. This meansthat the contact pins are positioned within the supporting socket at a corresponding angle when the lamp is mounted in position to present either the wide or narrow face to the reflector. To this end, the contacts of the socket are disposed at the same angle, in this case, an angle of 45 degrees to the reflector, or other reference plane. I
Referring to Figs. 7 and 8, the socket comprises a two-part housing ll of insulating material, for example, a phenolic condensation product and filler, the housing having a base portion i8 and a relatively narrower extending portion I! enclosing spaced contact members 20 and 2|. Each part of the housing is formed with spaced longitudinal grooves 22 and 23 which receive the contact members 20 and 2|, respectively, and which merge with a recess 24 at one end of the extension it. At one end, the contact members 23 and 2| extend into the recess 23 and are formed with pin- engaging surfaces 23 and 23, respectively, for cooperation with the contact pins of the lamp. At their other ends, the contact members are bent at an angle to form terminal plates 21 resting in spaced channels 23 located in the base portion of the housing. Terminal screws 29 cooperate with the terminal plates. In order to facilitate engagement of the lamp contact pins with the contact sur- ' i'aces 25 and 23, one of the contact blades is made movable relatively to the other. In this case. the contact blade 20 is made of flexible spring material so that it may be moved upon engagement with one of the lamp pins to insure proper seating of the pins. It should be manifest, however, that the other contact member 2! may be made movable, if desired. To provide for proper support of the terminal screw 29, the terminal plate 21 of the relatively thin flexible blade 20 is reinforced by a supporting plate 30 secured thereto in any suitable manner. The two parts of the housing are secured together by means of a locking plate 3i.
As shown in Figs. 1, 'l and 8, the locking plate comprises a sheet metal member provided with an opening 32 for receiving the extending portion i! of the housing. At a point adjacent the base portion it the extending portion is provided with grooves 33 in opposite edges so that as the extension is slipped through the opening in the locking plate the latter rests on the base portion in line with the grooves 33. Thereafter the walls of the locking plate formed by the opening 32 are forced inwardly into the grooves 33, as shown at 34, to secure the parts of the housing together and to mount the locking plate on the socket. A portion of the locking plate erends outwardly from the housing and is formed with an opening 35 for receiving a mounting screw. In this manner the locking plate forms a supporting medium for the socket and may .be mounted on the reflector l2 by a screw 33, as shown in Figs. 3 and 5. A socket is mounted at each end of the reflector to accommodate the pins at each end of the lamp, the pins resting in the recesses 23 in engagement with the contact members.
The pin-receiving recess 23 is formed with an edge 31 extending approximately at an angle of 45 degrees to the base of the socket and the lamp contact pins are clamped by the socket contact members and rest on this guiding edge. This means that the contact pins are always seated in the recesses at the angle aforementioned. The recess 2i extends to an edge 88 of the socket and merges therewith forming a slot 22 through which the contact pins may be inserted in the recess.
Since the contact pins at both ends of the lamp are located in a common plane which, when the lamp is mounted, is always at an angle of approximately 45 degrees to the base of the reflector, the contact members and recesses of the sockets are likewise located in this position at each end of the lamp. This means that only a single socket construction is needed to support both ends of the lamp since the lamp contact pins may project into the socket housing from either side. This effects a considerable saving in the costs of manufacture and distribution inasmuch as only a single form of housing need be manufactured-and a single item carried in dealers stocks. In manufacture, the only change made in the right and left hand sockets is to place the locking plate having the mounting opening 35 on the opposite side of the socket housing, as shown in Figs. 1, 3 and 5, to facilitate mounting.
In mounting the lamp the contact pins are moved in a straight line movement through the slots 39 into the recess 24 of the sockets ll. Thereafter the pins may be rotated in either direction to bring them into engagement with the socket contact members. Since one of the contact pins engages and moves the movable contact member the pins are easily locked in position. Rotation of the contact pins is facilitated by a -curved edge 40 forming a wall of the recess. In seated position the lamp pins are held securely .by the socket contact members making it impossible for the lamp to become unseated except upon rotation. For this reason, the sockets are adapted to hold the lamp in inverted position, such as in a depending lighting In the position shown by Figs. 3 and 4 the lamp has been mounted so that the relatively wide face of the envelope is presented to,the reflector to obtain a relatively Wide beam of light, the base l4 being on the left hand and the base IS on the right hand. If it is desired to change the Width of the beam to a narrower one the lamp is removed from the sockets and simply turned end for end and reinserted in them so that the base I5 is on the left hand and the base It on the right hand. Irrespective of direction of rotation of the pins within the socket, they will always engage the socket so that the broad or narrow face of the envelope is presented to the reflector depending upon which end of the lamp is inserted in any one socket. This result is obtained by virtue of the fact that the lamp contact pins are located in a plane midway between the wide and narrow faces of the lamp envelope; inasmuch as the socket contacts likewise are fixed in a similar angular relationship, only one face of the envelope can be presented to the reflector unless the lamp is turned end to end.
By my construction a single lamp, a single reflector and a single set of sockets may be used to obtain light beams of varying characteristics simply by reversing the lamp within the socket. This results in a considerable simplification of the lamp fixture assembly and makes possible a wider use of the lamp. While the socket is designed particularly for use with a lamp capable of producing light beams of various characteristics, it should'be manifest that the socket is adapted to support a fluorescent lamp of the conventional type equally as well.
iii
(iii
What I claim as new and desire to secure by Letters Patent of the United States is:
1. In combination, a double-ended electric device having an elliptical glass envelope and a base at each end, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane located substantially at an angle of 45 degrees to the major and minor axes of said elliptical envelope, and a pair of spaced sockets constructed and arranged to receive and mount said electric device therebetween, said sockets being provided with recesses having longitudinal slots extending to the edges thereof and spaced contact members in said recesses for receiving the lamp contact pins, said contact members lying in planes located approximately at angles of 45 degrees to the axes of said sockets whereby said electric device may be mounted in said socket by insertion of the pins at each end of the device in the said longitudinal slots of the adjacent SOCll'JEt by straight movement of the device until the pins are within said recesses whence the device may be rotated in either direction to bring the said contact pins into engagement with said contact members.
2. in combination, a double-ended electric device having a base at each end and an intermediate elongated envelope for emitting rays of different characteristics in planes approximately at right angles to each other, each of said bases having spaced contact pins extending outwardly therefrom, all of said pins lying in a common plane located approximately midway between the planes of the rays of different characteristics, and a pair of spaced sockets constructed and arranged to mount said electric device therebetween, said soclrets being provided with recesses extending to the edges thereof and spaced contact members in said recesses for receiving the lamp contact pins, said contact members lying in planes located approximately at angles of l degrees to the bases of said soclrets.
in combination, a double-ended electric device having an elliptical glass envelope and a base at each end, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane approximately midway between the planes of the major and minor axes of said elliptical envelope, and a pair of spaced soclrets constructed and arranged to mount said electric device therebetween, said toclrets being provided with recesses having slots extending to the edges thereof and spaced contact members in said recesses for receiving the lamp contact pins, one of said contact members in each soclret being movable relatively to the other, said contact members lying in planes approximately at angles of at degrees to the bases of said soclrets.
in combination, a double-ended electric de vice having an elliptical glass envelope and a base at each end, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane located substantially at an angle of i5 degrees to the maior and minor axes of said elliptical envelope, and a pair of spaced sockets constructed and arranged to receive and mount said electric device therebetween, said sockets being provided with recesses having slots extending to the edges thereof and spaced contact members in said recesses for receiving the lamp contact pins, s'aid contact members lying in planes located approximately at angles of 45 degrees to the bases of said sockets.
5. In combination, a double-ended electric device having a base at each end and an envelope formed with wide and narrow faces at substantially right angles to each other to obtain relatively wide and narrow beams of light, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane approximately midway between the planes of the wide and narrow faces of said envelope, and a pair of spaced sockets constructed and arranged to mount said electric device therebetween, said sockets being provided with recesses having slots extending to the edges thereof, and spaced contact members in said recesses for receiving the lamp contact pins.
6. In combination, a double-ended electric device having a base at each end and an intermediate envelope for emitting rays of difierent characteristics in planes spaced angularly to each other, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane approximately midway-between the planes of the rays of different characteristics and a pair of spaced sockets constructed and arranged to mount said electric device therebetween, said sockets being provided with recesses having slots extending to the edges thereof and spaced contact members in said recesses for receiving the lamp contact pins.
'7. An electric device having an elliptical glass envelope and a base at each end, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane located approximately at an angle of 45 degrees to the major and minor axes of said elliptical envelope.
8. An electric device having a base at each end and a tubular glass envelope having wide and narrow faces at approximately right angles to each other to obtain relatively wide and narrow beams of light, each of said bases having spaced contact pins extending outwardly therefrom and all of said pins lying in a common plane located approximately midway between the planes of the wide and narrow faces of said envelope.
9. An electric device having a base at each end and an intermediate elongated envelope for emit ting rays of different characteristics in planes spaced angularly to each other, each of said bases having spaced contact pins extending outwardly therefrom, all of said pins lying in a common plane located. approximately midway between the planes of the rays of different char acteristics.
it. In a socket for electric lamps or the litre, a member of insulating material having a base for mounting on a support, said member being pro vided with a recess extending to an outer edge of the member and spaced contact members in said recess adapted to receive the spaced contact pins of a lamp as the pins are moved transversely through the recess, one of said contact members being movable relatively to the other, said contact members being disposed in a common plane located at an angle of approximately d5 degrees to the base of said member.
11. a soclret for electric lamps, or the like, comprising a member of insulating material, said member being provided with a recess formed with a longitudinal slot extending to an outer edge of the member and spaced contact members in said recess adapted to receive the spaced contact pins of a lamp as the pins are moved transversely through the slot into said recess, said contact members being disposed in a common plane located at an angle of approximately 45 degrees to the longitudinal axis of said slot.
12. A socket for electric lamps, or the like, comprising a member of insulating material, said member being provided with a recess formed with a slot extending to an outer edge of the member, and relatively movable spaced contact members in said recess adapted to receive the spaced contact pins of a lamp as the pins are moved transversely through the slot into said recess, said contact members being disposed in a common plane located at an angle of substantially 45 degrees to an axis of said member.
13. In a socket for electric lamps or the like, a member of insulating material having a base for mounting on a support, said member being provided'with a recess extending to an edge of the member, the said recess having a wall located in' a plane at an angle of approximately 45 degrees to the base portion of said member and spaced contact members in said recess adjacent,
said wall adapted to receive the spaced contact pins of the lamp, one of said contact members being movable relatively to the other.
14. In a socket for electric lamps orthe like, a two-part housing of insulating material, said housing having a base portion and another portion extending outwardly from said base, a recess formed in said extending portion extending to an edge thereof, spaced contact members mounted in said recess and adapted to receive the contact pins of a lamp, one of the contacts being movable relatively to the other and a mounting plate of sheet metal having an opening for receiving said extension, a wall of the mounting plate formed by said opening being bent inwardly to engage said extension and hold the parts of said housing together.
15. In a. socket for electric lamps or the like,
a. two-part housing of insulating material, said housing having a base portion and an extending portion, said extension being formed with a recess extending to an edge thereof, spaced contact members mounted in said recess and adapted to receive the contact pins of a lamp, one of said contacts being movable relatively to the other, said extension being formed with a slot in the exterior wall thereof at a point adjacent the base portion, and a mounting means for said socket comprising a sheet metal plate provided with an opening for receiving the extended portion of said housing, a portion of the wall of said plate formed by said opening being bent inwardly into said slot for locking said plate to said housing and for securing the parts of said housing together.
16. In a socket for electric lamps, or the like, a two-part housing of insulating material, recesses formed in the parts of said housing and extending to edges thereof, spaced contact mem bers mounted in said recesses and adapted to receive the contact pins of a, lamp, one of said contacts being movable relatively to the other, and means to hold the parts of said housing together comprising a band of metal surrounding said housing.
17. In combination, a double-ended electric device having a base at each end and an intermediate envelope for emitting rays of diflerent characteristics in planes spaced a'ngularly to each other, each of said bases having spaced contact pins extending outwardly therefrom, all of said pins lying in a common plane approximately midway between the planes of the rays of difi'erent characteristics, and a pair of spaced sockets constructed and arranged to mount said electric device therebetween, s'aid sockets being provided with spaced contact members for receiving the lamp contact pins.
FRANK 0. DE REAMER/
US339537A 1940-06-08 1940-06-08 Lamp base and socket Expired - Lifetime US2229962A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US339537A US2229962A (en) 1940-06-08 1940-06-08 Lamp base and socket

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US339537A US2229962A (en) 1940-06-08 1940-06-08 Lamp base and socket

Publications (1)

Publication Number Publication Date
US2229962A true US2229962A (en) 1941-01-28

Family

ID=23329480

Family Applications (1)

Application Number Title Priority Date Filing Date
US339537A Expired - Lifetime US2229962A (en) 1940-06-08 1940-06-08 Lamp base and socket

Country Status (1)

Country Link
US (1) US2229962A (en)

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2415867A (en) * 1943-10-14 1947-02-18 Gen Electric Lamp base
US2427711A (en) * 1945-02-16 1947-09-23 Gen Electric Electric lamp and seal therefor
US2463961A (en) * 1945-03-26 1949-03-08 Fed Entpr Inc Lamp fixture for tubular lamps
US2463960A (en) * 1945-03-26 1949-03-08 Fed Entpr Inc Tubular lamp base and socket
US2530017A (en) * 1944-11-03 1950-11-14 Sylvania Electric Prod Fluorescent lamp holder
US2530607A (en) * 1946-05-01 1950-11-21 Fox Benjamin Fluorescent lamp socket
US2915664A (en) * 1954-12-14 1959-12-01 Gen Electric Tubular electric lamp
US2961565A (en) * 1954-12-14 1960-11-22 Gen Electric Low-pressure discharge lamp
US3443144A (en) * 1964-12-31 1969-05-06 Sylvania Electric Prod Infrared incandescent lamp
US4055779A (en) * 1974-08-09 1977-10-25 Original Hanau Quarzlampen Gmbh Gas discharge lamp

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2415867A (en) * 1943-10-14 1947-02-18 Gen Electric Lamp base
US2530017A (en) * 1944-11-03 1950-11-14 Sylvania Electric Prod Fluorescent lamp holder
US2427711A (en) * 1945-02-16 1947-09-23 Gen Electric Electric lamp and seal therefor
US2463961A (en) * 1945-03-26 1949-03-08 Fed Entpr Inc Lamp fixture for tubular lamps
US2463960A (en) * 1945-03-26 1949-03-08 Fed Entpr Inc Tubular lamp base and socket
US2530607A (en) * 1946-05-01 1950-11-21 Fox Benjamin Fluorescent lamp socket
US2915664A (en) * 1954-12-14 1959-12-01 Gen Electric Tubular electric lamp
US2961565A (en) * 1954-12-14 1960-11-22 Gen Electric Low-pressure discharge lamp
US3443144A (en) * 1964-12-31 1969-05-06 Sylvania Electric Prod Infrared incandescent lamp
US4055779A (en) * 1974-08-09 1977-10-25 Original Hanau Quarzlampen Gmbh Gas discharge lamp

Similar Documents

Publication Publication Date Title
US2323073A (en) Light reflector
US2229962A (en) Lamp base and socket
US3297977A (en) Electrical fixture for panel mounting
US2247117A (en) Lamp holder
US2399501A (en) Tubular lamp fixture
US2285175A (en) Lamp socket
US3060400A (en) Fluorescent lampholder with quickconnect terminals
US3568132A (en) Self-adjusting lampholder for u-shaped fluorescent lamp
US3060401A (en) Indicator light assembly
US3524053A (en) Tilt-resisting fluorescent lampholder and mounting bracket
US2292038A (en) Combined attachment cap and lamp holder
US2248598A (en) Tubular lamp base and socket
US4408265A (en) Lamp, in particular for motor vehicles
US2241065A (en) Lamp socket
US2495196A (en) Holder for gaseous discharge lamps
US3111353A (en) Fluorescent lamp socket
US2327568A (en) Lighting fixture
US2221505A (en) Combined adapter and reflector for lamps
US2292043A (en) Socket for tubular lamps
US2339244A (en) Hot vapor lamp equipment
US3833801A (en) Tube light hand lamp
US2292060A (en) Operating mechanism for fluorescent lamps
US2317163A (en) Lamp socket
US3638009A (en) Miniature lighting device
US2530017A (en) Fluorescent lamp holder