US711123A - Wave-detector. - Google Patents
Wave-detector. Download PDFInfo
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- US711123A US711123A US12143902A US1902121439A US711123A US 711123 A US711123 A US 711123A US 12143902 A US12143902 A US 12143902A US 1902121439 A US1902121439 A US 1902121439A US 711123 A US711123 A US 711123A
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- wave
- carbon
- responsive device
- nickel
- vaseline
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
Definitions
- Patented Jct. I4,
- My invention relates to wireless-signaling systems in which messages are transmitted to the natural media in the form of electroradiant energy and which are recorded at the receiving-station through the agency of a detector of electroradiant energy, which then controls a local recording-circuit.
- my invention relates to a device for manifesting the presence of electroradiant energy and which is extremely sensitive, reliable, and not ,easily rendered useless.
- My invention compises a Wave-detecting device which changesV its i -:efiinder the I'rflene"of'iiele'ctromagnetic radiations and immediately restores itself to its normal condition upon the cessation of the radiations.
- My invention comprises a material for wavedetectors having the aforementioned properties and is in its finished state in the nature ofapas
- this paste or material for the wave-detecting device I employ mild steel in the form of very fine particles and also French carbon which has been reduced to very fine granules.
- To equal portions of the Inild steel and carbon I add twenty per cent. nickel, also in aline state, and these ingredients are mixed with enough ⁇ vaseline to make thejvghole nmassa thick paste.
- MThis" paste is then placed between metallic terminals, which are then included in the circuit of the receivers of wireless-signaling systems in the Well-known relations.
- Figure 1 is a sectional view of the wave-detector.
- Fig. 2 is the sectional view of a modified form.
- T represents a cylindrical tube or envelop of insulating material, preferably glass, within which are the metallic terminals M M, which are preferably of silver or platinum.
- A represents the plastic and paste-like material above described.
- P P are plugs in the ends of the tube T.
- Fig. 2 is the same as Fig. l, with the exception that between the metallic terminals M M and separated from them is a third metallic disk M/, preferably of the same material as the terminals M M.
- This arrangement affords two spaces, in which are placed masses of the Wave-detecting paste A A, whose composition has been described above.
- a mixture of mild steel and carbon with vaseline will operate as previously described, and that also a mixture of nickel, carbon, and vaseline will operate likewise; but my preferred composition contains the mild steel, carbon, nickel, and vaseline.
- vaseline may be used any other hydrocarbon having the thick constituency of vaseline, or, in fact, any material which is an insulator like vaseline and which has a. similar constituency.
- vaseline Inay be used numerous other materials for the purpose of supporting the metal and carbon particles in a mass resembling paste.
- the ycarbon I use is either amorphous or graphitic.
- the wave-responsive device or wave-detector herein described has the property of self-restoration-that is, upon the cessation of the electroradiant energy it returns automatically to its normal condition and does not require mechanical shock.
- a material for a wave-responsive device comprising nickel and carbon.
- a material for a wave-responsive device comprising finely-divided nickel with carbon.
- a material for a wave-responsive device comprising a mixture of nickel with finely-divided carbon.
- a material for a wave-responsive device comprising a mixture of carbon and nickel both ncly divided.
- a material for a wave-responsive device comprising a mixture of nickel and carbon in a material serving as a paste.
- a material for a Wave-responsive device comprising a mixture of nickel, carbon and a hydrocarbon.
- a material for a Wave-responsive device comprising a mixture of carbon and nickel, both finely divided, and a hydrocarbon serving as a supporting medium therefor.
- a material for a wave-responsive device comprising'a mixture of nickel, carbon and vaseline.
- a material for a wave-responsive device consisting of a mixture containing nickel and carbon, both finely divided, and vaseline serving as a supporting'medium therefor.
- a material for a wave-responsive device comprisingr a mixture of iron, carbon and a hydrocarbon.
- a material for a wave-responsive device comprising iron, finely divided, carbon and a hydrocarbon.
- a material for a Wave-responsive device comprising iron, finely-divided carbon and a hydrocarbon.
- AI material for a wave-responsive device comprising iron and carbon, both finely divided and a hydrocarbon.
- a material for a wave-responsive de vice comprising iron, carbon and vaseline.
- a material for a wave-responsive device comprising iron, finely divided, carbon and vaseline.
- a material for a wave-responsive device comprising iron, finely-divided carbon and vaseline.
- A-material for a wave-responsive device comprising iron and carbon, both finely divided, and vaseline.
- a material for a wave-responsive device comprising iron, nickel and carbon.
- a material for a Wave-responsive device comprising iron, nickel and carbon, all finely divided.
- a material for a wave-responsive device consisting of iron, nickel and carbon, and a supporting medium therefor.
- a material for a wave-responsive device consisting of iron, nickel and carbon, all finely divided, and a supporting medium therefor.
- a material for a wave-responsive device consisting of iron, nickel, carbon, and an insulating medium as a support therefor.
- a material for a wave-responsive device consisting of iron, nickel, carbon, all finely divided, and an insulating medium forming a plastic mass therewith.
- a material for a Wave-responsive device consisting ot iron, nickel, carbon, and a hydrocarbon supporting mediumtherefor.
- a material for a wave-responsive device consisting of iron, nickel and carbon, all finely divided, and a hydrocarbon serving as a supporting medium therefor.
- a material for a wave-responsive device consisting of iron, nickeland carbon,4 all finely divided, and an insulating medlum of hydrocarbon as a support therefor.
- a material for a Wave-responsive de- ⁇ vice consisting of iron, nickel and carbon, all finely divided, and an insulating medium of hydrocarbon forming a paste therewith.
- a material fora Wave-responsive de-v vice consisting of iron, nickel, carbon, and vaseline.
- a material for a wave-responsive de ⁇ 34 A material for a wave-responsivede-k vice, consisting of iron, nickel, carbon, all finely divided, and an insulating medium of vaseline forming a plastic mass therewith.
- a material for a wave-responsive device comprising a paste composed of nickel, carbon, and an insulating medium.
- a material for a Wave-responsive device comprising a paste composed of nickel and carbon, and a medium of hydrocarbon.
- a material for a wave-responsive device comprising a paste composed of nickel, carbon and vaseline.
- a material for a Wave-responsive de-V vice comprising a paste composed of iron, and carbon, and an insulating medium.
- a material for a wave-responsive device comprising a paste composed of iron and carbon, and an insulating medium of hydrocarbon.
- a material for a wave-responsive de ⁇ vice comprising a paste composed of iron, carbon, and vaseline.
- a material for a wave-responsive device comprising iron, carbon, both finely divided, and vaseline.
- a material for a wave-responsive device comprising iron, nickel, both finely divided, in a paste of hydrocarbon.
- a material for a Wave-responsive de ⁇ vice comprising a paste composed of iron, nickel, both finely divided, and vaseline.
- a material f or a Wave-responsive device consisting of a paste composed of iron
- a material for a wave-responsive dey vice consisting of a paste composed of iron, nickel, carbon, and an insulating material.
- a material for a wave-responsive device consisting of a paste composed of iron, nickel, carbon, and vaseline.
- a material for a wave-responsive device comprising a paste composed of mild steel, carbon, and a hydrocarbon.
- a material for a wave-responsive device comprising a paste composed of mild steel, carbon, and vaseline.
- a material for a wave-responsive device comprising a paste composed of mild steel, carbon, and a binder.
- a material for a Wave-responsive device comprising a paste composed of mild steel, carbon, and a hydrocarbon binder.
- a material for a wave-responsive device consisting of a paste composed of mild steel, nickel, carbon, and a binder.
- a material for a wave-responsive device consisting of a paste composed of mild steel, nickel, carbon, and a hydrocarbon binder.
- a material for a wave-responsive device consisting of a paste composed of mild steel, nickel, carbon and vaseline.
- a material for a wave-responsive device comprising a paste composed of mild steel, and graphite with a binder.
- a material for a wave-responsive device consisting of a paste composed of mild steel, graphite, and a hydrocarbon binder.
- a material for a wave-responsive device consisting of a paste composed of mild steel, graphite and vaseline.
- a material for a wave-responsive device consisting of a paste composed of mild steel, nickel, graphite, and a binder.
- a material for a wave-responsive device consisting of a paste composed of mild steel, nickel, graphite, and a hydrocarbon binder.
- a material for a wave-responsive device consisting of a paste composed of mild steel, nickel, graphite, and vaseline.
- a wave-responsive device comprising metallic terminals bridged by a mixture containing nickel and carbon.
- a wave-responsive device comprising metallic terminals bridged by a mixture containing nickel, carbon, and a binder.
- a wave-responsive device comprising metallic terminals bridged by a mixture containing iron, nickel, and carbon.
- a wave-responsive device comprising metallic terminals bridged by a mixture of iron, nickel, carbon, and a hydrocarbon.
- a wave-responsive device comprising metallic terminals bridged by a mixture of iron, nickel, carbon and vaseline.
- a wave-responsive device comprising metallic terminals bridged by a paste composed of iron, nickel and carbon and a binder.
- a wave-responsive device comprising metallic terminals bridged by a paste composed of iron, nickel, carbon and vaseline.
- a wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, carbon and a binder.
- a wave-'responsive device comprising metallic terminals bridged by a paste composed of mild steel, carbon, and hydrocarbon.
- a wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, carbon and vaseline.
- a wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, nickel, carbon, and a hydrocarbon.
- Wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, nickel, carbon, and vaseline.
- a wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, nickel, graphite and vaseline.
- a wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, graphite and a hydrocarbon binder.
- a wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, graphite and vaseline.
- a wave-responsive device comprising metallic terminals bridged by a paste composed of nickel, graphite and vaseline.
- a wave-responsive device comprising silver terminals bridged by a paste composed of mild steel, nickel, carbon, and vaseline.
- a wave-responsive device comprising silver terminals bridged by a paste composed of mild steel, nickel, carbon, and a hydrocarbon binder.
- a wave-responsive device comprising metallic terminals, an envelop, and a paste composed of mild steel, nickel, carbon, and vaseline, confined between said terminals and envelop.
- a wave-responsive device comprising a series of separated metallic masses, and a paste composed of mild steel, nickel, carbon, and vaseline in the spaces between said metallic masses.
- a wave-responsive device comprising separated metallic masses, an envelop, and in the spaces between said metallic masses and envelop a paste composed of mild steel, nickel, carbon, and vaseline.
- a wave-responsive device comprising a series of separated masses of silver, the end masses serving as terminals of the device, and in the spaces between said masses a paste composed of mild steel, nickel, carbon, and vaseline.
- a self-recovering Wave-responsive device comprising metal terminals and a mixture of steel, carbon and vaseline located between said terminals.
Description
Patented (Jct. I4, |902.
L. T. RHOADES.
WAVE DETECTOR.
(Applution filed AugA 29, 1902.]
Wal,
UNITED STATES PATENT' OFFICE.
LEWIS T. RHOADES, OF PHCENIXVILLE, PENNSYLVANIA, ASSIGNOR TO MARIE V. GEIIRING, OF PHILADELPHIA, PENNSYLVANIA.
WAVE-DETECTO R.
SPECIFICATION forming part of Letters Patent N0. 711,123, dated October 14, 1902.
Application tiled August 29, 1902. Serial No. 121,439. (No model.)
T0 @ZZ w'tcnt it Ina/y concern:
Be it known that I, LEWIS T. RHoADEs, a citizen o'f the United States, residing at Phoenixville, in the county of Chester and State of Pennsylvania,have invented a new and useful VVave-Detector, of which the following is a specification.
My invention relates to wireless-signaling systems in which messages are transmitted to the natural media in the form of electroradiant energy and which are recorded at the receiving-station through the agency of a detector of electroradiant energy, which then controls a local recording-circuit.
More particularly, my invention relates to a device for manifesting the presence of electroradiant energy and which is extremely sensitive, reliable, and not ,easily rendered useless. Y
My invention compises a Wave-detecting device which changesV its i -:efiinder the I'rflene"of'iiele'ctromagnetic radiations and immediately restores itself to its normal condition upon the cessation of the radiations.
My invention comprises a material for wavedetectors having the aforementioned properties and is in its finished state in the nature ofapas, In compounding this paste or material for the wave-detecting device I employ mild steel in the form of very fine particles and also French carbon which has been reduced to very fine granules. To equal portions of the Inild steel and carbon I add twenty per cent. nickel, also in aline state, and these ingredients are mixed with enough `vaseline to make thejvghole nmassa thick paste. MThis" paste is then placed between metallic terminals, which are then included in the circuit of the receivers of wireless-signaling systems in the Well-known relations.
Referring tothe drawings, Figure 1 is a sectional view of the wave-detector. Fig. 2 is the sectional view of a modified form.
T represents a cylindrical tube or envelop of insulating material, preferably glass, within which are the metallic terminals M M, which are preferably of silver or platinum.
A represents the plastic and paste-like material above described.
P P are plugs in the ends of the tube T, and
th rough them extend the connecting-wires lV W, by means of which the wave-detector is connected in the usual manner in the receiving-circuits of wireless-signaling systems.
Fig. 2 is the same as Fig. l, with the exception that between the metallic terminals M M and separated from them is a third metallic disk M/, preferably of the same material as the terminals M M. This arrangement affords two spaces, in which are placed masses of the Wave-detecting paste A A, whose composition has been described above.
In actual practice the dimensions of the wave-detector are many times smaller than those shown ou the accompanying drawings.
I find that a mixture of mild steel and carbon with vaseline will operate as previously described, and that also a mixture of nickel, carbon, and vaseline will operate likewise; but my preferred composition contains the mild steel, carbon, nickel, and vaseline. In place of vaseline may be used any other hydrocarbon having the thick constituency of vaseline, or, in fact, any material which is an insulator like vaseline and which has a. similar constituency. Furthermore, in place of vaseline Inay be used numerous other materials for the purpose of supporting the metal and carbon particles in a mass resembling paste. The ycarbon I use is either amorphous or graphitic.
The wave-responsive device or wave-detector herein described has the property of self-restoration-that is, upon the cessation of the electroradiant energy it returns automatically to its normal condition and does not require mechanical shock.
lVhat I claim isl. A material for a wave-responsive device comprising nickel and carbon.
2. As a material for a wave-responsive dcvice, a mixture of nickel and carbon.
3. A material for a wave-responsive device, comprising finely-divided nickel with carbon.
4. A material for a wave-responsive device comprising a mixture of nickel with finely-divided carbon.
5. A material for a wave-responsive device, comprising a mixture of carbon and nickel both ncly divided.
srs
6. A material for a wave-responsive device comprising a mixture of nickel and carbon in a material serving as a paste.
7. A material for a Wave-responsive device comprising a mixture of nickel, carbon and a hydrocarbon.
8. A material for a Wave-responsive device comprising a mixture of carbon and nickel, both finely divided, and a hydrocarbon serving as a supporting medium therefor.
9. A material for a wave-responsive device comprising'a mixture of nickel, carbon and vaseline.
10. A material for a wave-responsive device, consisting of a mixture containing nickel and carbon, both finely divided, and vaseline serving as a supporting'medium therefor.
l1. A material for a wave-responsive device, comprisingr a mixture of iron, carbon and a hydrocarbon.
12. A material for a wave-responsive device, comprising iron, finely divided, carbon and a hydrocarbon.
13. A material for a Wave-responsive device comprising iron, finely-divided carbon and a hydrocarbon.
14. AI material for a wave-responsive device, comprising iron and carbon, both finely divided and a hydrocarbon.
15. A material for a wave-responsive de vice, comprising iron, carbon and vaseline.
16. A material for a wave-responsive device, comprising iron, finely divided, carbon and vaseline.
17. A material for a wave-responsive device, comprising iron, finely-divided carbon and vaseline.
18. A-material for a wave-responsive device, comprising iron and carbon, both finely divided, and vaseline.
19. A material for a wave-responsive device, comprising iron, nickel and carbon.
20. A material for a Wave-responsive device, comprising iron, nickel and carbon, all finely divided.
2l. A material for a wave-responsive device, consisting of iron, nickel and carbon, and a supporting medium therefor.
22. A material for a wave-responsive device, consisting of iron, nickel and carbon, all finely divided, and a supporting medium therefor.
23. A material for a wave-responsive device, consisting of iron, nickel, carbon, and an insulating medium as a support therefor.
24. A material for a wave-responsive device, consisting of iron, nickel, carbon, all finely divided, and an insulating medium forming a plastic mass therewith.
25. A material for a Wave-responsive device, consisting ot iron, nickel, carbon, and a hydrocarbon supporting mediumtherefor.
26. A material for a wave-responsive device, consisting of iron, nickel and carbon, all finely divided, and a hydrocarbon serving as a supporting medium therefor.
27. A material for a wave-responsive device, consisting of iron, nickeland carbon,4 all finely divided, and an insulating medlum of hydrocarbon as a support therefor.
28.` A material for a Wave-responsive de-` vice, consisting of iron, nickel and carbon, all finely divided, and an insulating medium of hydrocarbon forming a paste therewith.
29. A material fora Wave-responsive de-v vice, consisting of iron, nickel, carbon, and vaseline.
30. A material for a wave-responsive de` 34. A material for a wave-responsivede-k vice, consisting of iron, nickel, carbon, all finely divided, and an insulating medium of vaseline forming a plastic mass therewith.
35. A material for a wave-responsive device, comprising a paste composed of nickel, carbon, and an insulating medium.
36. A material for a Wave-responsive device, comprising a paste composed of nickel and carbon, and a medium of hydrocarbon.
37.*A material for a wave-responsive device, comprising a paste composed of nickel, carbon and vaseline.
38. A material for a Wave-responsive de-V vice, comprisinga paste composed of iron, and carbon, and an insulating medium.
39. A material for a wave-responsive device, comprising a paste composed of iron and carbon, and an insulating medium of hydrocarbon.
40. A material for a wave-responsive de` vice, comprising a paste composed of iron, carbon, and vaseline.
4l. A material for a wave-responsive device, comprising iron, carbon, both finely divided, and vaseline.
42. A material for a wave-responsive device, comprising iron, nickel, both finely divided, in a paste of hydrocarbon.
IIO
43. A material for a Wave-responsive de` vice, comprisinga paste composed of iron, nickel, both finely divided, and vaseline.
44. A material f or a Wave-responsive device, consisting of a paste composed of iron,
nickel, carbon, and a hydrocarbon.
45. A material for a wave-responsive dey vice, consisting of a paste composed of iron, nickel, carbon, and an insulating material.
46. A material for a wave-responsive device, consisting of a paste composed of iron, nickel, carbon, and vaseline.
47. A material for a wave-responsive device, comprising a paste composed of mild steel, carbon, and a hydrocarbon.
48. A material for a wave-responsive device, comprising a paste composed of mild steel, carbon, and vaseline.
49. A material for a wave-responsive device, comprising a paste composed of mild steel, carbon, and a binder.
50. A material for a Wave-responsive device, comprising a paste composed of mild steel, carbon, and a hydrocarbon binder.
5l. A material for a wave-responsive device, consisting of a paste composed of mild steel, nickel, carbon, and a binder.
52. A material for a wave-responsive device, consisting of a paste composed of mild steel, nickel, carbon, and a hydrocarbon binder.
53. A material for a wave-responsive device, consisting of a paste composed of mild steel, nickel, carbon and vaseline.
54. A material for a wave-responsive device comprising a paste composed of mild steel, and graphite with a binder.
55. A material for a wave-responsive device, consisting of a paste composed of mild steel, graphite, and a hydrocarbon binder.
56. A material for a wave-responsive device, consisting of a paste composed of mild steel, graphite and vaseline.
57. A material for a wave-responsive device, consisting of a paste composed of mild steel, nickel, graphite, and a binder.
5S. A material for a wave-responsive device, consisting of a paste composed of mild steel, nickel, graphite, and a hydrocarbon binder.
59. A material for a wave-responsive device, consisting of a paste composed of mild steel, nickel, graphite, and vaseline.
60. A wave-responsive device comprising metallic terminals bridged bya mixture containing nickel and carbon.
6l. A wave-responsive device comprising metallic terminals bridged by a mixture containing nickel, carbon, and a binder.
62. A wave-responsive device comprising metallic terminals bridged by a mixture containing iron, nickel, and carbon.
63. A wave-responsive device comprising metallic terminals bridged by a mixture of iron, nickel, carbon, and a hydrocarbon.
64. A wave-responsive device comprising metallic terminals bridged by a mixture of iron, nickel, carbon and vaseline.
65. A wave-responsive device comprising metallic terminals bridged by a paste composed of iron, nickel and carbon and a binder.
6G. A wave-responsive device comprising metallic terminals bridged by a paste composed of iron, nickel, carbon and vaseline.
(57. A wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, carbon and a binder.
68. A wave-'responsive device comprising metallic terminals bridged by a paste composed of mild steel, carbon, and hydrocarbon.
69. A wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, carbon and vaseline.
70. A wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, nickel, carbon, and a hydrocarbon.
7l. .A Wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, nickel, carbon, and vaseline.
72. A wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, nickel, graphite and vaseline.
73. A wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, graphite and a hydrocarbon binder.
74. A wave-responsive device comprising metallic terminals bridged by a paste composed of mild steel, graphite and vaseline.
75. A wave-responsive device comprising metallic terminals bridged by a paste composed of nickel, graphite and vaseline.
76. A wave-responsive device comprising silver terminals bridged by a paste composed of mild steel, nickel, carbon, and vaseline.
77. A wave-responsive device comprising silver terminals bridged by a paste composed of mild steel, nickel, carbon, and a hydrocarbon binder.
78. A wave-responsive device comprising metallic terminals, an envelop, and a paste composed of mild steel, nickel, carbon, and vaseline, confined between said terminals and envelop.
79. A wave-responsive device comprising a series of separated metallic masses, and a paste composed of mild steel, nickel, carbon, and vaseline in the spaces between said metallic masses.
80. A wave-responsive device comprising separated metallic masses, an envelop, and in the spaces between said metallic masses and envelop a paste composed of mild steel, nickel, carbon, and vaseline.
8l. A wave-responsive device comprising a series of separated masses of silver, the end masses serving as terminals of the device, and in the spaces between said masses a paste composed of mild steel, nickel, carbon, and vaseline.
82. A self-recovering Wave-responsive device comprising metal terminals and a mixture of steel, carbon and vaseline located between said terminals.
LEWIS T. RHOADES.
Witnesses:
G. P. GEHRING, REEVES H. IsoRD.
IOC
IIO
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US12143902A US711123A (en) | 1902-08-29 | 1902-08-29 | Wave-detector. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US12143902A US711123A (en) | 1902-08-29 | 1902-08-29 | Wave-detector. |
Publications (1)
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US711123A true US711123A (en) | 1902-10-14 |
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US12143902A Expired - Lifetime US711123A (en) | 1902-08-29 | 1902-08-29 | Wave-detector. |
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Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2575360A (en) * | 1947-10-31 | 1951-11-20 | Rabinow Jacob | Magnetic fluid torque and force transmitting device |
US2667237A (en) * | 1948-09-27 | 1954-01-26 | Rabinow Jacob | Magnetic fluid shock absorber |
US2687500A (en) * | 1949-12-06 | 1954-08-24 | Westinghouse Electric Corp | Circuit interrupter |
US2736409A (en) * | 1950-11-16 | 1956-02-28 | Vickers Inc | Magnetic fluid mixture clutch containing iron and nickel particles |
US2804955A (en) * | 1953-03-05 | 1957-09-03 | Eaton Mfg Co | Magnetic fluid mixture coupling |
US2809732A (en) * | 1950-11-16 | 1957-10-15 | Vickers Inc | Magnetic particle coupling device with nickel and nickel-coated iron particles |
US2840206A (en) * | 1950-11-16 | 1958-06-24 | Vickers Inc | Torque transmitting device with magnetic particles of nickel |
US2869103A (en) * | 1953-06-02 | 1959-01-13 | Amp Inc | Metal-bearing paste and aluminum connection containing the same |
US3486156A (en) * | 1965-08-02 | 1969-12-23 | Ltv Aerospace Corp | Electrical connection device |
-
1902
- 1902-08-29 US US12143902A patent/US711123A/en not_active Expired - Lifetime
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2575360A (en) * | 1947-10-31 | 1951-11-20 | Rabinow Jacob | Magnetic fluid torque and force transmitting device |
US2667237A (en) * | 1948-09-27 | 1954-01-26 | Rabinow Jacob | Magnetic fluid shock absorber |
US2687500A (en) * | 1949-12-06 | 1954-08-24 | Westinghouse Electric Corp | Circuit interrupter |
US2736409A (en) * | 1950-11-16 | 1956-02-28 | Vickers Inc | Magnetic fluid mixture clutch containing iron and nickel particles |
US2809732A (en) * | 1950-11-16 | 1957-10-15 | Vickers Inc | Magnetic particle coupling device with nickel and nickel-coated iron particles |
US2840206A (en) * | 1950-11-16 | 1958-06-24 | Vickers Inc | Torque transmitting device with magnetic particles of nickel |
US2804955A (en) * | 1953-03-05 | 1957-09-03 | Eaton Mfg Co | Magnetic fluid mixture coupling |
US2869103A (en) * | 1953-06-02 | 1959-01-13 | Amp Inc | Metal-bearing paste and aluminum connection containing the same |
US3486156A (en) * | 1965-08-02 | 1969-12-23 | Ltv Aerospace Corp | Electrical connection device |
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