US285445A - Electric-arc lamp - Google Patents

Electric-arc lamp Download PDF

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US285445A
US285445A US285445DA US285445A US 285445 A US285445 A US 285445A US 285445D A US285445D A US 285445DA US 285445 A US285445 A US 285445A
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clamp
helix
carbon
electric
helical
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K9/00Arc welding or cutting
    • B23K9/0008Welding without shielding means against the influence of the surrounding atmosphere
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/15Intermittent grip type mechanical movement
    • Y10T74/1558Grip units and features
    • Y10T74/1587Grip features

Definitions

  • Electric lamps have been made with the movable carbon secured to a rod, or holder, and around this has been a clampingring, that serves to raise the carbon when said clamp is lifted at one side, thereby causing the ringclamp to bind upon the rod.
  • the ring-clamp sometimes :l'ails to catch and hold the rod.
  • My present invention relates, especially, to a clamp that can be employed in place of the said ring-clamp, and is more reliable in its action.
  • I surround the carbon-holder with a helix of fine wire or similar material, the said helix having one or more turns or coils, and either being single or double, the coils, when double, passing in opposite directions.
  • the lower end or ends of the helical clamp are connected to a traveler, and the upper end or ends to an armature, or any suitable device that is acted upon by an armature or solenoid core, and when the weight of the carbon-holder is sup ported by the helical clamp the friction between the surface of the holder and the said clamp causes the helix to be distended in length and contracted in diameter to grasp the carbon-hol ding rod to support the same; but when the lower traveler of the helical clamp rests upon a stop, the downward movement of the armature or core shortens the length of the helix and causes its diameter to increase, and finally to allow the carbon-holding rod to slide through the helix and feed the carbon downwardly.
  • This peculiar helical clamp may be employed in numerous ways in electric
  • Fig. 2 is a similar view with a single helix; and I remark that this clamp may be used in electric lamps where the carbon-feed is eiiected by one or more electro-magnets, and where the differential action of magnets in the main circuit and in the shunt are employed, but my improvement not being confined to any par ticular lamp or arrangement of magnets.
  • n. represents the carbon-holder; b, the rod for the same, which preferably is a cylinder of uniform size from end to end; but it may be prismatic, the other parts being made to correspond.
  • the helix 0 is of wire, of any suitable size and material. I prefer to make the same of soft steel, as a fine spring wound up of a size very slightly larger than the red I), so as to slip over the same, but so as to grasp said rod firmly when the helix is elongated, and hence slightly contracted in diameter.
  • the traveler c is connected to the lower end of this helix, audits weight is sufficient to distend the helical clamp.
  • an armature core or ring, f is connected.
  • Fig. l the helical clamp is represented within a compound or differential magnet, with a'tubularsolenoid-core,f.
  • the solenoid magnet-helix k is of fine wire in the shunt between the and bindin posts, and the solenoid-helix g is of coarser wire in the main circuit of the lamp.
  • the solenoid-eore is of such a length in relation to these helices k and g and the length of the helical clamp c that the core and clamp will be moved down and fed by the increase of current in the -line-wire helix 7;, and when the traveler c is arrested by the stop a and the helical clamp lessens its hold sufliciently, the carbon and holder will move downwardly by gravity. The preponderance of electric energy will then be in the coarse-wire helix in the lamp-circuit, and the carbons will be drawn apart the required distance to reestablish the standard length of are.
  • Fig. 2 only one magnet-helix, is shown, the same being in a shunt between the and binding-posts oi the lamp.
  • the armature f is raised by the springs s and drawn down by the magnet-helixg acting either through astatiouary exchangeiron tubular core, 1', or else through the core, iiattached to the armature f as a solenoid.
  • the springs s are sufficient to sustain the weight of the carbon-holder and armature, and the parts are drawn down by the magnetism as the current increases in the shunt.
  • WVhen the helical clamp is libel?- ated by the travelere, resting on the stop a,
  • the holder-rod b slips through the clamp c, and the current, passing mostly through the carbons, lessens the magnetism of and the clamp is lifted by the springs s and the carbon holder and carbon raised up. It is preferable to allow the traveler e to be arrested upon a.
  • a helical clamp in combination with the carbon-holder and a rod around which said helical clamp passes, substantially as set forth.

Description

' (No Model.)
J. B. TIBBITS.
ELECTRIC ARO LAMP.
No. 285,445. Patented Sept. 25, 1883.
7 @MuALZ 11, runs. WWI, WM 040.
UNITED STATES PATENT OFFICE.
JOHN B. TIBBITS, OF IIOOSIC, NEXV YORK.
ELECTRIC ARC LAMP.
SPECIFICATION forming part of Letters Patent No. 285,445, dated Septembef25, 188 Application filed September 27, 1882. (X0 model i To all whom, it may concern.-
Be it known that I, JOHN B. TIBBITS, of Hoosic, in the county of Rensselaer and State of New York, have invented an Improvement in Electric Lamps, of which the following is a specification.
Electric lamps have been made with the movable carbon secured to a rod, or holder, and around this has been a clampingring, that serves to raise the carbon when said clamp is lifted at one side, thereby causing the ringclamp to bind upon the rod. In this instance the ring-clamp sometimes :l'ails to catch and hold the rod.
My present invention relates, especially, to a clamp that can be employed in place of the said ring-clamp, and is more reliable in its action.
I surround the carbon-holder with a helix of fine wire or similar material, the said helix having one or more turns or coils, and either being single or double, the coils, when double, passing in opposite directions. The lower end or ends of the helical clamp are connected to a traveler, and the upper end or ends to an armature, or any suitable device that is acted upon by an armature or solenoid core, and when the weight of the carbon-holder is sup ported by the helical clamp the friction between the surface of the holder and the said clamp causes the helix to be distended in length and contracted in diameter to grasp the carbon-hol ding rod to support the same; but when the lower traveler of the helical clamp rests upon a stop, the downward movement of the armature or core shortens the length of the helix and causes its diameter to increase, and finally to allow the carbon-holding rod to slide through the helix and feed the carbon downwardly. This peculiar helical clamp may be employed in numerous ways in electric lampsj In the drawings, Figure 1 represents a double helix with the parts connected thereto, and
Fig. 2 is a similar view with a single helix; and I remark that this clamp may be used in electric lamps where the carbon-feed is eiiected by one or more electro-magnets, and where the differential action of magnets in the main circuit and in the shunt are employed, but my improvement not being confined to any par ticular lamp or arrangement of magnets.
n. represents the carbon-holder; b, the rod for the same, which preferably is a cylinder of uniform size from end to end; but it may be prismatic, the other parts being made to correspond.
The helix 0 is of wire, of any suitable size and material. I prefer to make the same of soft steel, as a fine spring wound up of a size very slightly larger than the red I), so as to slip over the same, but so as to grasp said rod firmly when the helix is elongated, and hence slightly contracted in diameter. The traveler c is connected to the lower end of this helix, audits weight is sufficient to distend the helical clamp. At the upper end of the helix an armature core or ring, f, is connected.
9 represents an elcctro-niagnet, which, when energized, tends to act upon the portion f.
In Fig. l the helical clamp is represented within a compound or differential magnet, with a'tubularsolenoid-core,f. The solenoid magnet-helix k is of fine wire in the shunt between the and bindin posts, and the solenoid-helix g is of coarser wire in the main circuit of the lamp. The solenoid-eore is of such a length in relation to these helices k and g and the length of the helical clamp c that the core and clamp will be moved down and fed by the increase of current in the -line-wire helix 7;, and when the traveler c is arrested by the stop a and the helical clamp lessens its hold sufliciently, the carbon and holder will move downwardly by gravity. The preponderance of electric energy will then be in the coarse-wire helix in the lamp-circuit, and the carbons will be drawn apart the required distance to reestablish the standard length of are.
In Fig. 2 only one magnet-helix, is shown, the same being in a shunt between the and binding-posts oi the lamp. The armature f is raised by the springs s and drawn down by the magnet-helixg acting either through astatiouary soitiron tubular core, 1', or else through the core, iiattached to the armature f as a solenoid. In either case the springs s are sufficient to sustain the weight of the carbon-holder and armature, and the parts are drawn down by the magnetism as the current increases in the shunt. WVhen the helical clamp is libel?- ated by the travelere, resting on the stop a,
the holder-rod b slips through the clamp c, and the current, passing mostly through the carbons, lessens the magnetism of and the clamp is lifted by the springs s and the carbon holder and carbon raised up. It is preferable to allow the traveler e to be arrested upon a.
washer or stop, a, that is supported by a spring, I, so that there will not be any concussion as the traveler comes into contact with its supclamp around the carbon-holding rod, and the mechanism, substantially as set forth, for act-uating the helical clamp, as specified.
2. In an electric lamp, a helical clamp, in combination with the carbon-holder and a rod around which said helical clamp passes, substantially as set forth.
3. The combination, in an electric lamp, of a helical clamp, a carbon-holding rod, a helix and its core operating said clamp, said helix being in a shunt-circuit, within which is placed said helical clamp, substantially as set forth.
4. The combination, with the carbon-holding rod, in an electric lamp, of a helical clamp, an armature or moving device to which the upper end of the helical clamp is attached,
a traveler at the lower end of such helical' clamp, and a stop below the same, substantially as set forth.
5. The combination, with the helical clamp and. the carbon-holding rod, of the armature f, traveler e, stop or washer n, and spring t, substantially as set forth.
Signed by me this 22d day of September, A. D. 1882. 7
J. B. TIBBITS.
\Vitnesses:
Gno. T. PINCKNEY, \VILLIAM G. Mom.
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