US2093528A - Incandescent lamp - Google Patents

Incandescent lamp Download PDF

Info

Publication number
US2093528A
US2093528A US661742A US66174233A US2093528A US 2093528 A US2093528 A US 2093528A US 661742 A US661742 A US 661742A US 66174233 A US66174233 A US 66174233A US 2093528 A US2093528 A US 2093528A
Authority
US
United States
Prior art keywords
base
switch
contact
wires
groove
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
US661742A
Inventor
Piersimoni Giovanni
Henry S Friedman
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.)
MULTI LITE CORP
MULTI-LITE Corp
Original Assignee
MULTI LITE CORP
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 MULTI LITE CORP filed Critical MULTI LITE CORP
Priority to US661742A priority Critical patent/US2093528A/en
Application granted granted Critical
Publication of US2093528A publication Critical patent/US2093528A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01KELECTRIC INCANDESCENT LAMPS
    • H01K9/00Lamps having two or more incandescent bodies separately heated
    • H01K9/02Lamps having two or more incandescent bodies separately heated to provide substitution in the event of failure of one of the bodies
    • H01K9/04Lamps having two or more incandescent bodies separately heated to provide substitution in the event of failure of one of the bodies with built-in manually operated switch

Definitions

  • ⁇ insulating material such as bakelite or other phenol-formaldehyde condensation products, or urea-formaldehyde, or other similar material, is secured by a non-conductive cement, or another similar agent, upon the bulb I around its lower end.
  • a contact 30 Centrally upon the bottom of the base 29 there is arranged a contact 30, from which a wire 3l extends and branches out into the two parallel wires 32 and 33.
  • Two return wires 34 and 35 are arranged parallel on the outer sides of wires 32 and 33, respectively; the outer end of the wire 35 is drawn out between the bulb ⁇ Ill and the rim of the base 29 and is connected at 36 with a metal strip 3l which is retained by a flattened bayonet pin 38 within one of the grooves 39, cut longitudinally into the base 29 on opposite sides thereof.
  • a metal strip 4f! provided with a slot 4
  • a contact 42 At the end of the groove 39 which accommodates the switch 43, is arranged a contact 42, to which the outward end of the wire 34, passing through between the bulb I9 and the rim of base 29, is connected.
  • the switch 4l! is provided at its adjoining end with a slight dent which will come to press upon contact 42 when the switch 49 is shifted upwardly.
  • wires 34, 32, 33 and 35 are embedded in a glass bead 43.
  • a filament 44 connects the inner ends of wires 34 and 32 and a filament 45 connects those of the wires 33 and 35.
  • switch 4l! is off contact 42 and therefore the iilament 45 will be energized; should this filament burn out, the bulb is taken out and the switch 40 shifted upon contact 42, and upon re-insertion of the bulb into the lamp socket, the filament 44 will be energized.
  • the groove instead of a groove of a rectangular crosssection, as has been shown in groove 39, I may construct the groove so as to have a dove-tail cross-section as illustrated by Figure 3.
  • the base is provided with a channel 41 of dovetail cross-section, which slidably accommodates sheet metal or switch 48.
  • the switch 48 suitably of brass, has its edges bent up so as to form a slide of dove-tail cross-section, which will t into channel 41; as it sides display some spring action and touch the adjoining walls, the friction between these parts holds, or contributes to hold, the switch 48 in place.
  • Projections 49 facilitate the shifting of switch 48 in the well known way.
  • FIG 4 there has been shown a further modified form of switch construction in connection with the contact 42 shown in Figure 2, from which it is obvious that a strip of metal, or switch 59, is hingedly connected with the pin 38 and normally rests within the groove I which is sunk into the peripheral face of the base 29 substantially parallel to its upper rim.
  • the switch 50 is of arcuate form So as to conform to the peripheral surface of base 29 and has a scooplike terminal with a lateral projection to facilitate its manipulation.
  • Another groove 52 receives the contact 42 and communicates with the groove 5I so that the switch 50 may be turned to engage contact 42.
  • an incandescent multiple filament lamp the combination of a bulb, a base of insulative material secured to the bulb at its end, a plurality of grooves arranged longitudinally of the base, a bayonet pin arranged within each of said grooves, a contact arranged upon said base, a wire extending from said contact and branching into a plurality of wires, a metal strip rigidly held in one of aforesaid grooves by a bayonet pin, a metal strip held slidably arranged by a bayonet pin in each of the other of aforesaid grooves, a contact within each of said grooves, a plurality of independent wires extending along aforesaid branch wires, one of said independent wires connecting with the aforesaid rigidly held metal strip and one each of the others with the contact in the other grooves, and filaments connecting pairs of the ends of the independent and of the branch wires.
  • an incandescent lamp provided with filaments, a bayonet base and terminals on said base by way of which current is admitted to said lamp, a movable contact member on the cylindrical surface of said base electrically connected with one of said terminals, and slidable upon said surface between contact make and break positions, and a second contact member in make and break alignment with said first member and electrically connected with one of said filaments.
  • a switch forming part of said base, movably retained by one of the bayonet pins of said base and comprised inthe circuit of one of said filaments within said lamp.

Landscapes

  • Tumbler Switches (AREA)

Description

l Sept. 21,` 1937. G. PIERslMoNl Er ALA 2,093,523
4INC!^.NDESCEN'I LAMP Filed March 20. 1935 FIG. 2
"Fla 1 ATTORNEY- M 0 WM v50, Z hm M1 uw ym 0. ww.
` insulating material, such as bakelite or other phenol-formaldehyde condensation products, or urea-formaldehyde, or other similar material, is secured by a non-conductive cement, or another similar agent, upon the bulb I around its lower end. Centrally upon the bottom of the base 29 there is arranged a contact 30, from which a wire 3l extends and branches out into the two parallel wires 32 and 33.
Two return wires 34 and 35 are arranged parallel on the outer sides of wires 32 and 33, respectively; the outer end of the wire 35 is drawn out between the bulb` Ill and the rim of the base 29 and is connected at 36 with a metal strip 3l which is retained by a flattened bayonet pin 38 within one of the grooves 39, cut longitudinally into the base 29 on opposite sides thereof.
In another groove 39 there is arranged a metal strip 4f! provided with a slot 4|, through which a flattened bayonet pin 38 passes so as to hold the metal strip or switch 40 tightly, but slidably in the groove 39.
At the end of the groove 39 which accommodates the switch 43, is arranged a contact 42, to which the outward end of the wire 34, passing through between the bulb I9 and the rim of base 29, is connected. In order to make a good connection with this contact 42, the switch 4l! is provided at its adjoining end with a slight dent which will come to press upon contact 42 when the switch 49 is shifted upwardly.
For purposes of reinforcement and alignment the wires 34, 32, 33 and 35 are embedded in a glass bead 43. A filament 44 connects the inner ends of wires 34 and 32 and a filament 45 connects those of the wires 33 and 35.
When this improved bulb is tted into a lamp socket with the pins 38 engaged in slots formed in the walls thereof in the usual manner, the
switch 4l! is off contact 42 and therefore the iilament 45 will be energized; should this filament burn out, the bulb is taken out and the switch 40 shifted upon contact 42, and upon re-insertion of the bulb into the lamp socket, the filament 44 will be energized.
Instead of a groove of a rectangular crosssection, as has been shown in groove 39, I may construct the groove so as to have a dove-tail cross-section as illustrated by Figure 3. There the base is provided with a channel 41 of dovetail cross-section, which slidably accommodates sheet metal or switch 48. From an inspection of Figure 3 it will be noticed that the switch 48, suitably of brass, has its edges bent up so as to form a slide of dove-tail cross-section, which will t into channel 41; as it sides display some spring action and touch the adjoining walls, the friction between these parts holds, or contributes to hold, the switch 48 in place. Projections 49 facilitate the shifting of switch 48 in the well known way.
In Figure 4 there has been shown a further modified form of switch construction in connection with the contact 42 shown in Figure 2, from which it is obvious that a strip of metal, or switch 59, is hingedly connected with the pin 38 and normally rests within the groove I which is sunk into the peripheral face of the base 29 substantially parallel to its upper rim. The switch 50 is of arcuate form So as to conform to the peripheral surface of base 29 and has a scooplike terminal with a lateral projection to facilitate its manipulation. Another groove 52 receives the contact 42 and communicates with the groove 5I so that the switch 50 may be turned to engage contact 42.
On account of the arcuate form of the switch 5U, the same also displays some spring action when turned into the groove 52 and its scoopshaped terminal is therefore tightly pressed upon contact 42.
It is, of course, understood that the construction of our new incandescent lamps is not restricted to arrangements with two filaments only, but that with the increase in the size of the lamps we may increase the number of lateral contacts I1, which would all be arranged in an annular path, so that the lug of the rotarily arranged spring 26 may consecutively connect to each of the contacts I1. As diagrammatically shown in Figure 6 there may be many of these contacts Il as long as the spring may be conveniently positioned between two such contacts l1 without contacting with the same if not desired.
We are also not restricted in the number of independent Wires, such as 33 and 34, as is selfevident from Figure 5, where we show that, dependent'on the length of the circumference of the base 29, we can provide a number of grooves 39 to receive contacts 42 connected with the independent wires.
In both cases the laments connecting the ends of the wires with the ends of the branch wires are very much more apart from each other so that at the burning out of one wire none of the others are affected.
What we claim is:
1. In an incandescent multiple filament lamp the combination of a bulb, a base of insulative material secured to the bulb at its end, a plurality of grooves arranged longitudinally of the base, a bayonet pin arranged within each of said grooves, a contact arranged upon said base, a wire extending from said contact and branching into a plurality of wires, a metal strip rigidly held in one of aforesaid grooves by a bayonet pin, a metal strip held slidably arranged by a bayonet pin in each of the other of aforesaid grooves, a contact within each of said grooves, a plurality of independent wires extending along aforesaid branch wires, one of said independent wires connecting with the aforesaid rigidly held metal strip and one each of the others with the contact in the other grooves, and filaments connecting pairs of the ends of the independent and of the branch wires.
2. In an incandescent lamp provided with filaments, a bayonet base and terminals on said base by way of which current is admitted to said lamp, a movable contact member on the cylindrical surface of said base electrically connected with one of said terminals, and slidable upon said surface between contact make and break positions, and a second contact member in make and break alignment with said first member and electrically connected with one of said filaments.
3. In an incandescent lamp provided with multiple filaments and a bayonet pin base, a switch forming part of said base, movably retained by one of the bayonet pins of said base and comprised inthe circuit of one of said filaments within said lamp.
GIOVANNI PIERSIMONI. HENRY S. FRIEDMAN.
US661742A 1933-03-20 1933-03-20 Incandescent lamp Expired - Lifetime US2093528A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US661742A US2093528A (en) 1933-03-20 1933-03-20 Incandescent lamp

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US661742A US2093528A (en) 1933-03-20 1933-03-20 Incandescent lamp

Publications (1)

Publication Number Publication Date
US2093528A true US2093528A (en) 1937-09-21

Family

ID=24654920

Family Applications (1)

Application Number Title Priority Date Filing Date
US661742A Expired - Lifetime US2093528A (en) 1933-03-20 1933-03-20 Incandescent lamp

Country Status (1)

Country Link
US (1) US2093528A (en)

Similar Documents

Publication Publication Date Title
US2093528A (en) Incandescent lamp
US2520023A (en) Flashlight having multiple lamps for various illuminating effects
US2599361A (en) Pilot light lamp and socket structure
US2216765A (en) Electrical lamp connection
US3541381A (en) Plug-in lighting assembly
US1954355A (en) Electric lighting set resistor
US2076527A (en) Multiple filament lamp
US1914583A (en) Electric light
US1656793A (en) Electric bulb
US2097303A (en) Electrical device
US1513407A (en) Incandescent lamp
GB434404A (en) Improvements in electric incandescent lamps
US1679786A (en) Circuit tester
US2197331A (en) Combined multilight incandescent lamp and switch
US1807381A (en) Cut-out for series incandescent street-lighting circuits and the like
US1638691A (en) Lamp-socket construction
SU27137A1 (en) Electric filament lamp with two filaments
GB445489A (en) Improvements in incandescent electric lamps
US2302438A (en) Lamp harness and switch
US2243186A (en) Incandescent lamp and switch
US2406223A (en) Lighting apparatus
US3524100A (en) Dual-voltage automatic-switching electric lamp having a two-position thermal switch disposed within the envelope
US1011890A (en) Incandescent electric lamp.
US1843856A (en) Incandescent lamp
US1807430A (en) Cutout for series incandescent street lighting circuits and the like