US1059304A - Mercury-dropper. - Google Patents

Mercury-dropper. Download PDF

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Publication number
US1059304A
US1059304A US68463712A US1912684637A US1059304A US 1059304 A US1059304 A US 1059304A US 68463712 A US68463712 A US 68463712A US 1912684637 A US1912684637 A US 1912684637A US 1059304 A US1059304 A US 1059304A
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United States
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amalgam
plate
armature
mercury
reservoir
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US68463712A
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Ernest C Ketchum
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Individual
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R43/00Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
    • H01R43/14Maintenance of current collectors, e.g. reshaping of brushes, cleaning of commutators

Definitions

  • Wibtesscs I Inventor:
  • This invention relates to devices for lubrieating the surface of an armature of a dynamo electrical 'machine driven direct at a high velocity from a high speed motor,
  • the object of the invention being to not only lubricate the surface of the armature but also insure a proper electrical connection between the brushes and the surface of said armature as it rotates.
  • mercury has been applied to the surface of the armature at the point of contact therewith of the brushes, but .objections have been found in practice to the supply of pure mercury to this surface, as it is liable in the rapid evolution of the armature, to be thrown therefrom by centrifugal action.
  • the drawing' represents 'a portion of a dynamo electrical machine showing in section the reservoir for containing the amalgam, the driving operating mechanism therefor, and the connection of one of the tubes from such reservoir with a brush coacting with the armature of said machine.
  • 10 represents a portion of the frame of a dynamo electrical machine
  • a brush holder lat Pivotally secured at 12 to a bracket 13 mounted upon the frame 10 is a brush holder lat carrying a brush 15, the ends of which coact with thesurface of the armature 11 as indicated in the drawing.
  • This brush is held in contact with the surface of said armature by means of a spring 16, the tension of which maybe adjusted in any well-known manner.
  • Extending through the brush holder 14 is a tube 17, one end of which is positioned adjacent to the surface of the armature 11 at the point of contact thereof with the end of the brush 15. This tube is connected by a flexible tube 18 to a delivery nozzle 19.
  • the nozzle 19 extends through a base plate 20 secured to the frame 10 of the dynamo electrical machine as indicated in the drawing. Through this base plate 20 extend as many nozzles 19 as there are brushes 15 each of which is provided with a delivery tube 17 connected by a flexible tube 18 with each of the nozzles 19. Secured to the base plate 20 by means of screws 21 is a reservoir 22 preferably made of nonmetallic material, and having threaded to its upper end a cover 23 provided with an air inlet 24. The bottom of said reservoir 22is provided with a plurality of perforations 25, each of which register wit-h a delivery nozzle 19.
  • a revoluble plate 26 preferably of nonmetallic material, this plate being provided with a perforation 27 therethrough, which, during the revolution of' said plate m0- mentarily registers with each of the perforations25 in said bottom plate.
  • the plate 26 is secured to and rotates with a spindle or shaft 27* having splined thereto a toothed clutchmember 28 coacting with a toothed clutchmember 29 having formed thereon or secured thereto a worm gear 30 adapted to be driven by a worm 31, which in turn 1s driven through suitable connecting mechanisms by a motor 32.
  • the clutch member 28 is held in contact with the clutch member 29 so that the teeth of the two members are normally in engagement by means of a spring 33 interposed between the end of said clutch member 28 and the handle 34.- by which the shaft 27 and the plate 26 secured thereto may be rotated by hand when desired.
  • a nonrevoluble plate 36 Immediately above the revoluble plate 26 and held in contact therewith by means of a spring-35 is a nonrevoluble plate 36 having therein a plurality of perforations 37 out of register with the perforations 25 in the bottom of the reservoir 22, two of these perforations being indicated in dotted lines in the drawing.
  • This nonrevo luble plate is prevented from rotatin with the revoluble plate 26'by means of t e pin 37 X extending through the wall of the res-v ervoir 22 into peripheral grooves in said nonreyoluble plate 36.
  • the reservoir 22 is filled with amalgam, this amalgam consisting of substantiail ly 99. of mercury and: J; .of 1% of some alkali metal such as sodium 1 or potassium, although other alkali metals? may be used or alkaline earth "metals may be s if QSSEL Y, but it has been found in ⁇ practice that the amalgam formed of sodium 1 and mercury in the proportion mentioned give the best results.
  • Surrounding the spring 35 and floating upon the surface ofi the amalgam contained within the reservoir ⁇ 22 is an annular disk 38 adapted to prevent. the greater portion of the surface of said ⁇ amalgam from exposure to the air.
  • nonrevoluble plate 36 is shown; in :the drawing as of nonmetallic material, this plate may be made of any material, as; the pressure of the amalgam contained 1 within the reservoir is suflicient to force the j amalgam through theperforations 37 therein and keep them clear at all times. This pressure, however, does not act in the same. manner upon the selected portions of the amalgam which pass from each of the perforations 37 into the perforation 27 of thef revoluble plate 26, and as a consequence if the plate 26 was made .of metal the walls thereof would soon become coated with the amalgam and be clogged so that the action Q of the device would be prevented.
  • the amalgam has no chemical action thereon and is permitted to pass freely to the surface of the armature 11 intermittently in selected quantities.
  • the amalgam can be delivered to the armature before starting the dynamo electrical machine and will immediately adhere to the surface thereof in such a manner tently feeding to the periphery of said revoluble member .an amalgam 2.

Description

E. G. KBTGHUM.
MERCURY DROPPBR.
APPLICATION FILED MAR. 18, 1912.
1 59,304, Patented Apr. 15, 1913.
Wibtesscs: I Inventor:
a/% W ErnaStGJQich/wn,
@111 %M WQQMM,
ERNEST C. KETCHUM, 0F BOSTON, MASSACHUSETTS.
MERCURY-DROPPER.
Specification of Letters Patent.
Patented Apr. 15, 1913.
Application filed March 18, 1912. Serial No. 684,637.
To all whom it may concern:
Be it known that I, ERNEST C. KETOHUM, a citizen of the United States of America, and a resident of Boston, in the county of Suffolk and State of Massachusetts, have invented certain new and useful Improvements in Mercury-Droppers, of which the following is a specification.
This invention relates to devices for lubrieating the surface of an armature of a dynamo electrical 'machine driven direct at a high velocity from a high speed motor,
the object of the invention being to not only lubricate the surface of the armature but also insure a proper electrical connection between the brushes and the surface of said armature as it rotates. Heretofore, in machines of this class, mercury has been applied to the surface of the armature at the point of contact therewith of the brushes, but .objections have been found in practice to the supply of pure mercury to this surface, as it is liable in the rapid evolution of the armature, to be thrown therefrom by centrifugal action. To overcome this objection it has been found essential for the proper working of the dynamo electrical machine to supply intermittently from a suitable reservoir an amalgam which, when delivered upon the surface of the armature at a point adjacent to the contacting surface of the brushes, reduces the 'film of metallic oxid on the surface of the armature, and leaves said surface perfectly clean so that the mercury contained in the amalgam will adhere thereto and be prevented from being thrown therefrom during the rapid rotation of the armature.
The invention consists in certain novel features of construction and arrangement of parts which will be readily understood by reference to the description of the drawings and to the claims hereinafter given.
The drawing'represents 'a portion of a dynamo electrical machine showing in section the reservoir for containing the amalgam, the driving operating mechanism therefor, and the connection of one of the tubes from such reservoir with a brush coacting with the armature of said machine.
Similar characters designate like parts throughout the several figures of the-drawiii-the drawing, 10 represents a portion of the frame of a dynamo electrical machine,
and 11 a portion of the armature thereon. Pivotally secured at 12 to a bracket 13 mounted upon the frame 10 is a brush holder lat carrying a brush 15, the ends of which coact with thesurface of the armature 11 as indicated in the drawing. This brush is held in contact with the surface of said armature by means of a spring 16, the tension of which maybe adjusted in any well-known manner. Extending through the brush holder 14 is a tube 17, one end of which is positioned adjacent to the surface of the armature 11 at the point of contact thereof with the end of the brush 15. This tube is connected by a flexible tube 18 to a delivery nozzle 19.
The nozzle 19 extends through a base plate 20 secured to the frame 10 of the dynamo electrical machine as indicated in the drawing. Through this base plate 20 extend as many nozzles 19 as there are brushes 15 each of which is provided with a delivery tube 17 connected by a flexible tube 18 with each of the nozzles 19. Secured to the base plate 20 by means of screws 21 is a reservoir 22 preferably made of nonmetallic material, and having threaded to its upper end a cover 23 provided with an air inlet 24. The bottom of said reservoir 22is provided with a plurality of perforations 25, each of which register wit-h a delivery nozzle 19. Immediately above the'bottom of the reservoir 22 is a revoluble plate 26, preferably of nonmetallic material, this plate being provided with a perforation 27 therethrough, which, during the revolution of' said plate m0- mentarily registers with each of the perforations25 in said bottom plate. The plate 26 .is secured to and rotates with a spindle or shaft 27* having splined thereto a toothed clutchmember 28 coacting with a toothed clutchmember 29 having formed thereon or secured thereto a worm gear 30 adapted to be driven by a worm 31, which in turn 1s driven through suitable connecting mechanisms by a motor 32. The clutch member 28 is held in contact with the clutch member 29 so that the teeth of the two members are normally in engagement by means of a spring 33 interposed between the end of said clutch member 28 and the handle 34.- by which the shaft 27 and the plate 26 secured thereto may be rotated by hand when desired. Immediately above the revoluble plate 26 and held in contact therewith by means of a spring-35 is a nonrevoluble plate 36 having therein a plurality of perforations 37 out of register with the perforations 25 in the bottom of the reservoir 22, two of these perforations being indicated in dotted lines in the drawing. This nonrevo luble plate is prevented from rotatin with the revoluble plate 26'by means of t e pin 37 X extending through the wall of the res-v ervoir 22 into peripheral grooves in said nonreyoluble plate 36. The reservoir 22 is filled with amalgam, this amalgam consisting of substantiail ly 99. of mercury and: J; .of 1% of some alkali metal such as sodium 1 or potassium, although other alkali metals? may be used or alkaline earth "metals may be s if QSSEL Y, but it has been found in} practice that the amalgam formed of sodium 1 and mercury in the proportion mentioned give the best results. Surrounding the spring 35 and floating upon the surface ofi the amalgam contained within the reservoir {22 is an annular disk 38 adapted to prevent. the greater portion of the surface of said} amalgam from exposure to the air. a
While the nonrevoluble plate 36 is shown; in :the drawing as of nonmetallic material, this plate may be made of any material, as; the pressure of the amalgam contained 1 within the reservoir is suflicient to force the j amalgam through theperforations 37 therein and keep them clear at all times. This pressure, however, does not act in the same. manner upon the selected portions of the amalgam which pass from each of the perforations 37 into the perforation 27 of thef revoluble plate 26, and as a consequence if the plate 26 was made .of metal the walls thereof would soon become coated with the amalgam and be clogged so that the action Q of the device would be prevented. By making the tubes 17 and 18, the IlOzzle 19, the 5 walls of the perforation 25, and the revo-; luble plate 26, all of nonmetallic material, the amalgam has no chemical action thereon and is permitted to pass freely to the surface of the armature 11 intermittently in selected quantities. By rotating the plate 26 by hand the amalgam can be delivered to the armature before starting the dynamo electrical machine and will immediately adhere to the surface thereof in such a manner tently feeding to the periphery of said revoluble member .an amalgam 2. In a device of the class described, the
combination of an armature; a brush coacting therewith; a receptacle adapted to con ,tain an amalgam; a tube therefrom of nonmetallic material adapted to deliver a portion of the liquid to the periphery of said armature; and a nonmetallic revoluble plate within said receptacle provided with a perforation for separating a desired quantity of said amalgam from the remainder and delivering it to said tube.
3. In a device of the class described, the combination of a revoluble member; abrush coacting therewith; and means for intermittently feeding to the periphery of said revoluble member an amalgam containing an alkali metal.
4:. In a device of the class described, the combination of a revoluble member; a brush coacting therewith; and means for intermittently feeding to the periphery .of said revoluble member an amalgam containing one.- half of one per cent. of an alkali metal.
In a device of the class described, the combination of a revoluble member; a brush coacting therewith; and means for intermittently feeding to the periphery of said revoluble member an amalgam {containing sodium. I
Signed .by me at 4 P. .0. Sq Boston, Mass, this 4th day of March, 1912.
ERNEST G. KE-TGHUM,
Witnesses:
WA TE E. Loiymano, NATHAN C. LoMBaRn.
copies of this patent may be obtained for five cents each, by addressing the Commissioner of I'atents, Washington, D. G.
US68463712A 1912-03-18 1912-03-18 Mercury-dropper. Expired - Lifetime US1059304A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2555997A (en) * 1942-06-03 1951-06-05 Lorraine Carbone Sliding contact of electric machines

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2555997A (en) * 1942-06-03 1951-06-05 Lorraine Carbone Sliding contact of electric machines

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