US646476A - Carbon brush. - Google Patents
Carbon brush. Download PDFInfo
- Publication number
- US646476A US646476A US63516597A US1897635165A US646476A US 646476 A US646476 A US 646476A US 63516597 A US63516597 A US 63516597A US 1897635165 A US1897635165 A US 1897635165A US 646476 A US646476 A US 646476A
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- US
- United States
- Prior art keywords
- carbon
- brush
- commutator
- electric machines
- collector
- 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
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R39/00—Rotary current collectors, distributors or interrupters
- H01R39/02—Details for dynamo electric machines
- H01R39/18—Contacts for co-operation with commutator or slip-ring, e.g. contact brush
- H01R39/26—Solid sliding contacts, e.g. carbon brush
Definitions
- My invention relates to improvements in carbon brushes or collectors for dynamo-electric machines composed of a suitable form of carbon, such as gas-carbon, and has particular reference to overcoming the difficulty caused by the longitudinal resistance of the brushes without at the same time diminishing the lateral resistance tending to lessen the spark due to opening the short-circuited coils by the revolution of the commutator.
- my Patents Nos. 539,453 and 589,454, dated May 21, 1895 I have shown brushes which are well adapted to this purpose.
- One of these patents shows strips or small pieces of carbon plated with metal and united by soldering or sweating into a mass.
- the other shows brushes made of carbonized fibrous material having a certain resilience and united at one end, the fibrous material being free at the end next the commutator and plated with metal, so as to insure sufficient stiffness and resilience and to obtain high longitudinal conductivity.
- My present invention relates to the same class of brush and aims to .combine in a single structure the advantages possessed by the two different devices described in my patents.
- I take thin plates or laminae of gas-carbon preferably, although I do not intend to limit myself to any form of carbon, nor in some features of construction do I intend to be limited to carbon at all.
- Each one of these laminae is preferably the entire width of the brush, and I plate them with copper or any other conducting metal, though copper is preferred.
- the coating of copper or conducting metal should be so proportioned in thickness that it will readily wear away at the commutator end, so as to leave substantially a carbon surface on that end of the brush.
- the brush will combine the advantages of the individual resiliency of thc fibrous carbonized material in one of the patents above referred to with the strength of the construction shown in the other.
- the brush as herein described has advantages of its own in that the laminations of carbon are free to move one upon the other in adjusting, so that when the brush becomes worn to the curve of the commu tator and must be advanced it makes contact at a number of points, the strips being each brought up to abut upon the commutator separately, and the brush soon takes its new curve.
- the brush can be used on machines of moderate or low potential, from forty to one hundred and twenty-five volts, without undue loss of current due to the high specific resistance of the carbon, while the short-circuiting of the coils at the commutator is effected through a I high resistance.
- Brushes of any given thickness may be made by piling up the laminated gas-carbons,which should be perceptibly resilient and which I prefer to make quite thin in proportion to their width and length.
- Figure 1 shows a brush in solid lines and a suitable clamp and commutator in dotted lines for clearness of apprehension. It is manifest that the detail of these is immaterial.
- Fig. 2 shows a modified form, and Fig. 3 shows an individual lamination.
- B is the brush.
- H is a clamp in which the laminations may be held.
- a plate P of metal, may extend over the whole upper surface, if desired.
- K in dotted lines, shows the commutator-cylinder.
- Fig. 2 shows a modified form, in which the upper layer A is made of a thicker .plate of carbon.
- the metal plate P (shown in the figure in dotted lines) maybe dispensed with, if desired.
- Fig. shows one of the individual laminations B. As seen in the end View, this consists of a thin carbon part 7) and a metal coating 0.
- a carbon brush for a dynamo-electric machine composed of superposed sheets or plates of carbon, and individually adjustable, each plate or sheet. having a coating of good conducting metal.
- a carbon brush for a dynamo-electric machine composed of superposed plates or laminations of carbon, the plates being individually adjustable in the holder, and each plate or sheet having a coating of good conducting metal of such thickness as to be readily destroyed at the commutator end of the brush.
- a collector for electric machines which comprises a number of adjacent thin laminze of carbon, and a clamp for said laminze.
- a collector for electric machines which comprises a number of adjacent thin carbon laminae, a casing therefor, a screw passing through the casing for clamping the laminae together in the casing, and means for preventing the screw from injuring the laminae.
- a collector for electric machines which comprises a nu mber of adjacent resilient lamime of conducting material.
- a collector for electric machines which comprises a number of adjacent resilient lamime, each lamina being coated 011 its surface not engaging the commutator, with good conducting metal.
- a collector-for electric machines which comprises a number of adjacent resilient laminae of conducting material, each lamina having a coat of good conducting metal on its surfaces not engaging the commutator.
- Acollector for electric machines which comprises a number of adjacent independentlymovable resilient laminm of gas -carbon.
- a collector l'or electric machines which comprises a number of adjacent independently-movable lamime of conducting material, each lamina having a coat of good con ducting metal on its surfaces not engaging the commutator.
- a collector for electric machines which comprises a number of adjacent lamina) of conducting material, each lamina having a coat of a good conducting metal on its sur faces not engaging with the commutator.
- a collector for electric machines which comprises a number of adjacent thin lamina: of conducting material which is readily break.- able,one of the outside lamimebeing of greater thickness than the others, a casing for the lamime, and a screw passing through the easing, and bearing on the lamina of greater thickness to clamp the lamimc in the casing.
- a collector for electric machines which comprises a number of separate contiguous sheets of gas-carbon, and a clamp for scour ing and compressing the sheets together.
- a collector for electric machines which comprises a number of adjacent carbon laminze, each lamina having a coat of good conducting material on its surface not engaging with a commutator or collecting ring, and a clamp for securing and compressing the laminze together.
- a current-collecting brush which comprises a plurality of contiguous sheets of resistance -conductors coated with a highly conducting metal, in such manner that the conducting metal will wear away at the ends with the resistance-conductors, and means for holding the sheets together in such manner that the end of each sheet maybe moved independently of the others.
- a cun'ent-collectiug brush which comprises a plurality of contiguous sheets of resistance conductors coated with a highlyconducting metal in such manner that the conducting metal will wear away at the ends with the resistanceconductors, the sheets being independently adjustable, and means for holding the sheets together in their adjusted positions.
Description
"$646,475. Patenfed Apr 3, 1900.
E. THOMSON.
CARBON BRUSH.
(Ap lication filed Kay 15, 1897.
(No Model.)
UNITE STATES "ATENT Fries.
ELIHU THOMSON, OF SIVAMPSCOTT, MASSACHUSETTS, ASSIGNOR TO THE GENERAL ELECTRIC COMPANY, OF NEYV YORK.
CARBON BRUSH.
SPECIFICATION forming part of Letters Patent- No. 646,476, dated April 3, 1900. Application filed May 5, 1897. Serial No. 635,165. (No modelfl To all whom it may concern.-
Be it known that I, ELIHU THOMSON, a citizen of the United States, residing at Swampscott, in the county of Essex, State of Massachusetts, have invented certain new and useful Improvements in Carbon Brushes, (Case No. 564,) of which the following is a specification.
My invention relates to improvements in carbon brushes or collectors for dynamo-electric machines composed of a suitable form of carbon, such as gas-carbon, and has particular reference to overcoming the difficulty caused by the longitudinal resistance of the brushes without at the same time diminishing the lateral resistance tending to lessen the spark due to opening the short-circuited coils by the revolution of the commutator. In my Patents Nos. 539,453 and 589,454, dated May 21, 1895, I have shown brushes which are well adapted to this purpose. One of these patents shows strips or small pieces of carbon plated with metal and united by soldering or sweating into a mass. The other shows brushes made of carbonized fibrous material having a certain resilience and united at one end, the fibrous material being free at the end next the commutator and plated with metal, so as to insure sufficient stiffness and resilience and to obtain high longitudinal conductivity.
My present invention relates to the same class of brush and aims to .combine in a single structure the advantages possessed by the two different devices described in my patents. For this purpose I take thin plates or laminae of gas-carbon preferably, although I do not intend to limit myself to any form of carbon, nor in some features of construction do I intend to be limited to carbon at all. Each one of these laminae is preferably the entire width of the brush, and I plate them with copper or any other conducting metal, though copper is preferred.
them in a suitable brush-holder, so that the plates are superposed and individually abut against the commutator in the usual way. Each plate is free to slide in adjusting, and the clamping does not impair the individual I then clamp resiliency of the different carbon laminations.
As pointed out in my patents already referred to, the coating of copper or conducting metal should be so proportioned in thickness that it will readily wear away at the commutator end, so as to leave substantially a carbon surface on that end of the brush. In practice the brush will combine the advantages of the individual resiliency of thc fibrous carbonized material in one of the patents above referred to with the strength of the construction shown in the other. At the same time the brush as herein described has advantages of its own in that the laminations of carbon are free to move one upon the other in adjusting, so that when the brush becomes worn to the curve of the commu tator and must be advanced it makes contact at a number of points, the strips being each brought up to abut upon the commutator separately, and the brush soon takes its new curve.
'The brush can be used on machines of moderate or low potential, from forty to one hundred and twenty-five volts, without undue loss of current due to the high specific resistance of the carbon, while the short-circuiting of the coils at the commutator is effected through a I high resistance.
Brushes of any given thickness may be made by piling up the laminated gas-carbons,which should be perceptibly resilient and which I prefer to make quite thin in proportion to their width and length.
The accompanying drawings show anembodiment of my invention,
Figure 1 shows a brush in solid lines and a suitable clamp and commutator in dotted lines for clearness of apprehension. It is manifest that the detail of these is immaterial. Fig. 2 shows a modified form, and Fig. 3 shows an individual lamination.
In Fig. 1, B is the brush. H is a clamp in which the laminations may be held. A plate P, of metal, may extend over the whole upper surface, if desired. K, in dotted lines, shows the commutator-cylinder.
Fig. 2 shows a modified form, in which the upper layer A is made of a thicker .plate of carbon. In this case the metal plate P (shown in the figure in dotted lines) maybe dispensed with, if desired.
Fig. shows one of the individual laminations B. As seen in the end View, this consists of a thin carbon part 7) and a metal coating 0.
I prefer for the purposes of my invention strips of carbon of the full width of the brush and of a thickness of, say, one-sixteenth of an inch. The dimensions, however, may be varied without departing from my invention. Ordinarily, even for larger machines, in which my brush may be used, l: prefer that the carbon plates or laminations shall not exceed about one-eighth of an inch in thickness, and plates of less thickness than this may be employed.
That I claim as new, and desire to secure by Letters Patent of the United States, is
1. A carbon brush for a dynamo-electric machine, composed of superposed sheets or plates of carbon, and individually adjustable, each plate or sheet. having a coating of good conducting metal.
2. A carbon brush for a dynamo-electric machine, composed of superposed plates or laminations of carbon, the plates being individually adjustable in the holder, and each plate or sheet having a coating of good conducting metal of such thickness as to be readily destroyed at the commutator end of the brush.
8. A collector for electric machines, which comprises a number of adjacent thin laminze of carbon, and a clamp for said laminze.
4. A collector for electric machines, which comprises a number of adjacent thin carbon laminae, a casing therefor, a screw passing through the casing for clamping the laminae together in the casing, and means for preventing the screw from injuring the laminae.
5. A collector for electric machines, which comprises a nu mber of adjacent resilient lamime of conducting material.
6. A collector for electric machines, which comprises a number of adjacent resilient lamime, each lamina being coated 011 its surface not engaging the commutator, with good conducting metal.
7. A collector-for electric machines, which comprises a number of adjacent resilient laminae of conducting material, each lamina having a coat of good conducting metal on its surfaces not engaging the commutator.
S. Acollector for electric machines, which comprises a number of adjacent independentlymovable resilient laminm of gas -carbon.
9. A collector l'or electric machines, which comprises a number of adjacent independently-movable lamime of conducting material, each lamina having a coat of good con ducting metal on its surfaces not engaging the commutator.
10. A collector for electric machines, which comprises a number of adjacent lamina) of conducting material, each lamina having a coat of a good conducting metal on its sur faces not engaging with the commutator.
11. A collector for electric machines, which comprises a number of adjacent thin lamina: of conducting material which is readily break.- able,one of the outside lamimebeing of greater thickness than the others, a casing for the lamime, and a screw passing through the easing, and bearing on the lamina of greater thickness to clamp the lamimc in the casing.
12. A collector for electric machines, which comprises a number of separate contiguous sheets of gas-carbon, and a clamp for scour ing and compressing the sheets together.
A collector for electric machines, which comprises a number of adjacent carbon laminze, each lamina having a coat of good conducting material on its surface not engaging with a commutator or collecting ring, and a clamp for securing and compressing the laminze together.
1-1. A current-collecting brush, which comprises a plurality of contiguous sheets of resistance -conductors coated with a highly conducting metal, in such manner that the conducting metal will wear away at the ends with the resistance-conductors, and means for holding the sheets together in such manner that the end of each sheet maybe moved independently of the others.
15. A cun'ent-collectiug brush, which comprises a plurality of contiguous sheets of resistance conductors coated with a highlyconducting metal in such manner that the conducting metal will wear away at the ends with the resistanceconductors, the sheets being independently adjustable, and means for holding the sheets together in their adjusted positions.
In witness whereof I have hereunto set my hand this th day of April, 1897.
ELIHU THOMSON.
Witnesses:
JOHN W. GIBHONEY, F. O. Lnur.
TOO
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US63516597A US646476A (en) | 1897-05-05 | 1897-05-05 | Carbon brush. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US63516597A US646476A (en) | 1897-05-05 | 1897-05-05 | Carbon brush. |
Publications (1)
Publication Number | Publication Date |
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US646476A true US646476A (en) | 1900-04-03 |
Family
ID=2715051
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US63516597A Expired - Lifetime US646476A (en) | 1897-05-05 | 1897-05-05 | Carbon brush. |
Country Status (1)
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US (1) | US646476A (en) |
-
1897
- 1897-05-05 US US63516597A patent/US646476A/en not_active Expired - Lifetime
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