US1750275A - Deflecting system - Google Patents
Deflecting system Download PDFInfo
- Publication number
- US1750275A US1750275A US221601A US22160127A US1750275A US 1750275 A US1750275 A US 1750275A US 221601 A US221601 A US 221601A US 22160127 A US22160127 A US 22160127A US 1750275 A US1750275 A US 1750275A
- Authority
- US
- United States
- Prior art keywords
- pole portions
- core
- coil
- magnetized
- permanent magnet
- 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
Links
Images
Classifications
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R13/00—Arrangements for displaying electric variables or waveforms
- G01R13/04—Arrangements for displaying electric variables or waveforms for producing permanent records
Definitions
- My invention relates to a deflecting system and has particular reference to an apparatus for effecting movement of a system, as aforesaid, in which one or more magnetized mem- 5 bers is or are included.
- a magnetized member or vane included in, or movable with, the deflecting system of a galvanometer or the like is disposed in a space or gap between the poles of a suitable magnetic structure with which coacts a coil or winding, for producing in said space or gap a magnetic field which varies in accordance with changes in a characteristic, as magnitude, of a quantity, either electrical or non-electrical, in char acter.
- the aforesaid magnetized member or vane comprises an alloy, particularly a cobaltsteel alloy and the aforesaid magnetizable structure comprises a groupof magnetizable members, each formed preferably of an alloy, particularly a nickel-steel alloy, or of other material incapable, to an substantial extent, of becoming permanent y magnetized and having a substantially straight line magnetization curve.
- the vibratory or deflecting system of a galvanometer, or the like comprises a member or ribbon capable of withstanding large or great tensionto which, preferably midway of its ends is or are secured one or more permanently magnetized members or vanes for coaction with a magneticfield in the space between the poles of a magnetizable structure.
- the aforesaid ribbon or member, or the usual parallel-conductor systemof a galvanometer is maintained under a desired or suitable degree of tension by a helical spring or the like, one end of which is clamped between coacting members comprisng, preferably, a washer and the head of a screw or the like.
- Figure 1 is a vertical sectional view, partly in elevation, of a deflecting or vibrating system constructed in accordance with my invention
- Fig. 3 is a transverse horizontal sectional view taken on the line III-III of Fig. 2 and Referring to Fig. 1, there is illustrated a member' or disc 1 from which depends or projects a member or stem 2 having suitably secured thereto, as by screws 3, a plurality of spaced supporting members 4 formed of ivory orother suitable insulating material.
- Each member 43 as viewed in Fig. 1, comprises a slot or channel, both being disposed in vertical alinement with each other for the reception of a member or ribbon 5 formed of a material having great tensile strength, as a silver alloy composition.
- Member 5, at its upper end, as viewed in Fig. 1, may be soldered, or otherwise suitably secured, to a post 6 projecting from the stem 2.
- Member 5, when of ribbon-like; form, should be disdisposed in flat-wise fashion in the channel of the lower supporting member 4.
- Fig. 2 is an enlarged elevational view of a lower end of member 5 should then be looped or folded around a member 7 and soldered, or otherwise suitably secured, to an adjacent portion of the member 5 'as indicated at 8. Or, if desired, the member or ribbon 5 may be entirely plane between the supports 4, that is, not twisted through an angle of 180, as aforesaid.
- four of the members 10 may be utilized, two disposed at each end of the mirror 9 and on opposite sides of the ribbon 5.
- the aforesaid member 7, to which one end of the ribbon or member 5 is secured, is carried by one end of a lever 11 pivoted at 12, preferably in the bifurcated end of stem 2.
- the other end of lever 11 carries a pin 13 to which is secured one end of a helical spring 14 or the like.
- the helical spring 14 extends along the stem 2 and terminates referably in a relatively straight section a a ted to be clamped between a nut or mem er 15 and the head of a screw 16 or the like.
- screw 16 passes freely through the nut or washer 15 and is threaded into passage 17 disposed in the washer 15, Figs.
- the upper end of spring 14 may.
- the aforesaid magnetized member or members 10 is or are arran ed for coaction with a magnetic field produced in the space or gap 18 between the poles of a suitable magnetizable structure 19 so supported that its poles define a space within which a magnetizable member 10, or a plurality of them, is or are disposed.
- the fiatwise section of ribbon 5 is disposed in parallel relation, or substantially so, with respect to the adjacent pole faces ofthe magnetizable structure 19.
- the magnetized vane or vanes 10 extends or extend in similar relation with respect to said pole faces and since, at opposite ends, it or they exhibits or exhibit poles of opposite polarity, it follows that oscillatory movement is im arted in one direction or the other to the eflecting system dependent upon the polarity of the pole faces of the magnetizable structure 19.
- the ribbon 5, between the supporting members 4, 4 may be turned through an angle of 180 degrees.
- the mirror 9 and the magnetized vanes 10 should be disposedmidway between said members 4, 4, with the result that the mid-portion of the ribbon 5 assumes the position illustrated in Fig. 3, when the magnetizable structure 19 is not energized.
- the flux in the gap 18 is producedby a coil or winding 20 coacting with or disposed upon the magnetizable structure 19.
- Coil 20 is traversed by an electrical current which varies in magnitude in accordance with changes in the quantity to be measured.
- there is produced in the flux gap 18 a magnetic field which varies in accordance with the magnitude of the current traversing said coil' 20, and which coacts with magnetized vane or vanes 10 to impart movement to the deflecting system.
- the aforesaid deflecting or vibrating system comprising the ribbon or member 5, the thereby-carried mirror 9 and magnetized vane or vanes 10 is freely responsive to frequencies within the voice range. Therefore, the deflecting or vibratory system usually responds faithfully to changes in the instantaneous magnitudes of the current traversing coil 20 and, accordingly, the mirror on said vibratory or deflecting1 system functions to reflect a beam of lig t from a suitable light source 21 on to a light-sensitive surface or film 22 disposed, in t e example shown, upon a drum or cylinder 23 to which rotation or movement may be imparted by a belt 24 driven by a suitable motive device 25.
- the aforesaid beam of light both before and after reflection by the mirror 9 may pass through a spherical lens 26 and, adjacent the light-sensitive surface 22, through a cylindrical condensing lens 27 by which the light beam is focused substantially as a point of light onto said surface. It shall be understood that the aforesaid light source 20, lens 26, mirror 9, lens 27, and lightsensitive surface 22 should be enclosed in a suitable light-proof housing.
- the magnetizable structure 19 ordinarily comprises a stack or group of thin magnetizable members or laminations formed preferably of material incapable, to any substantial extent, of becoming permanently magnetized and also having a straight line magnetization curve.
- said magnetizable members or laminations are formed of a nickel-steel alloy, for example, that known to the trade as hypernick.
- the magnetizable vane or vanes 10 be formed of highly coercive material capable of indefinitely retaining its or their magnetism.
- an alloy particularly a cobalt-steel alloy.
- the utilization of materials of this charca'ter is desirable because their magnetic properties remain constant so that the deflecting system responds uniformly and faithfully only to the current in the coil 20 and is not affected by magnetic fluctuations in the stack 19 or vanes 10.
- a ribbon under tension means to support said ribbon at its ends and to prevent it from twisting at said ends, and a permanent magnet mounted on said ribbon.
- a ribbon under tension means to support said ribbon at its ends and to prevent it from twisting at said ends, and a permanent magnet mounted on' said ribbon and between pole portions of magnetic material.
- a core having pole portions said core being of magnetic material incapable of becoming permanently magnetized to any substantial degree
- a coil wound on said core whereby a current to be measured passing through said coil magnetizes said pole portions, a permanent magnet supported between said pole portions and positioned, when no current is passing through said coil, with the line running through the pole portions of said permanent magnet transverse to the lines of force of said magnetized pole portions.
- a core having pole portions, said core being of magnetic material incapable of becoming permanently magnetized to any substantial degree, a'coil wound on said core, whereby a current to be measured passing through said coil magnetizes said pole portions, a deflecting system including a permanent magnet supported between said pole portions, and means for mechanically balancing said deflecting system.
- a core having pole portions said core being of magnetic material incapable of becoming permanently magnetized to any substantial degree, a coil wound on said core whereby a current to be measured passing through said 'coil magnetizes said pole portions, a deflecting system including a plurality of permanent magnets gree,
- a core having pole portions said core being, oi magnetic material which does not become permanently magnetized to any substantial degree, a coil wound on said core, whereby a current to be measured passing through said coil magnetizes said pole portions, a permanent magnet supported between said pole portions and positioned, when no current is passing through said coil, with the line running through the pole portions of said permanent magnet transverse to the lines of force of said magnetized pole portions, the support for said permanent magnet comprising a strip which is supported at each end.
- a core having pole portions said core being of magnetic material which does not become permanently magnetized to any substantial degree, a coil wound on said core, whereby a current to be measured passing through said coil magnetizes said pole portions, a permanent magnet supported between said pole portions and positioned, when no current is passing through said coil, with the line running through the pole portions of said permanent magnet transverse to the lines of force of said magnetized pole portions, the support for said permanent magnet comprising a metallic strip which is, supported at each end by means to prevent it from twisting at said ends.
- a core having pole portions said core being of magnetic material which does not become permanently magnetized to any-substantial dea coil wound on said core, whereby a current to be measured passing through said doil magnetizes said pole portions, a permanent magnet supported between said pole portions and positioned, when no current is passing through said coil, with the line running through the pole portions of said permanent magnet transverse to the lines of force of said magnetized pole portions, the support for said permanent magnet comprising a single metallic strip which is supported at each end by means to prevent it from twisting atsaid ends.
- a core having pole portions said core being of magnetic material which does not become permanently magnetized to any substantial degree, a coil wound on said core, whereby a current to be v measured passing through said coil magnetizes said pole portions, a permanent magnet supported between said pole portions and positioned, when no current is "passing through said coil, with the line running through the pole portions of said permanent magnet transverse to the lines of force of said magnetized pole portions, the support for said permanent magnet comprising a single metallic strip which is supported at each end by means to prevent it from twisting at said ends, and a mirror mounted on said strip.
- a core having pole portions said core being of magnetic material incapable of becoming permanently magnetized to any substantial degree
- a coil wound on said core whereby a current to be measured passing through said co-il magnetizes said pole portions
- a deflecting system freely responsive to frequencies of the order of 3000 cycles per second said system including a permanent magnet supported between said pole portions and positioned, when no current is passing through said coil, withthe line running through the pole portions of said permanent magnet transverse to the lines of force of said magnetized pole portions.
- a core having pole portions said core being of magnetic material incapable of becoming permanently magnetized to any substantial degree
- a coil wound on said core whereby a current to be measured passing through said coil magnetizes said pole portions
- a deflecting system freely responsive to frequencies of the order of 3000 cycles per second said system including a permanent magnet supported between said ole portions, and means for mechanically alancing said deflecting system.
Landscapes
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Electromagnets (AREA)
Description
DEFLECTING SYSTEM Filed Sept. 23, 1927 v INVENTOR Joseph W L 6192 BY Patented Mar. 1 1, 1930 UNITED STATES PATENT OFFICE JOSEPH W. LEGG, OF WILKINSIBUBQ PENNSYLVANIA, ASSIGNOR TO WESTINGHOUSE ELECTRIC G5 MANUFACTURING 1 GOMPANYyA CORPORATION OF PENNSYLVANIA DEFLECTING SYSTEM Application filed Sept-ember 28, 1927. Serial No. 221,601.
My invention relates to a deflecting system and has particular reference to an apparatus for effecting movement of a system, as aforesaid, in which one or more magnetized mem- 5 bers is or are included.
In accordance with my invention, a magnetized member or vane included in, or movable with, the deflecting system of a galvanometer or the like, is disposed in a space or gap between the poles of a suitable magnetic structure with which coacts a coil or winding, for producing in said space or gap a magnetic field which varies in accordance with changes in a characteristic, as magnitude, of a quantity, either electrical or non-electrical, in char acter.
Further inaccordance with my invention, the aforesaid magnetized member or vane comprises an alloy, particularly a cobaltsteel alloy and the aforesaid magnetizable structure comprises a groupof magnetizable members, each formed preferably of an alloy, particularly a nickel-steel alloy, or of other material incapable, to an substantial extent, of becoming permanent y magnetized and having a substantially straight line magnetization curve. r
Further in accordance with my invention, the vibratory or deflecting system of a galvanometer, or the like, comprises a member or ribbon capable of withstanding large or great tensionto which, preferably midway of its ends is or are secured one or more permanently magnetized members or vanes for coaction with a magneticfield in the space between the poles of a magnetizable structure.
Further in accordance with my invention, the aforesaid ribbon or member, or the usual parallel-conductor systemof a galvanometer is maintained under a desired or suitable degree of tension by a helical spring or the like, one end of which is clamped between coacting members comprisng, preferably, a washer and the head of a screw or the like.
My invention resides in the system and apparatus and features of construction of the character hereinafter described and claimed.
For an understanding of my method, and for an illustration of one of the forms my apparatus may take, reference is to be had to the accompanying drawing, inwhich:
Figure 1 is a vertical sectional view, partly in elevation, of a deflecting or vibrating system constructed in accordance with my invention,
part of the structure shown in Fig. 1,
Fig. 3 is a transverse horizontal sectional view taken on the line III-III of Fig. 2 and Referring to Fig. 1, there is illustrated a member' or disc 1 from which depends or projects a member or stem 2 having suitably secured thereto, as by screws 3, a plurality of spaced supporting members 4 formed of ivory orother suitable insulating material. Each member 43, as viewed in Fig. 1, comprises a slot or channel, both being disposed in vertical alinement with each other for the reception of a member or ribbon 5 formed of a material having great tensile strength, as a silver alloy composition. Member 5, at its upper end, as viewed in Fig. 1, may be soldered, or otherwise suitably secured, to a post 6 projecting from the stem 2. Member 5, when of ribbon-like; form, should be disdisposed in flat-wise fashion in the channel of the lower supporting member 4. The
' Fig. 2 is an enlarged elevational view of a lower end of member 5 should then be looped or folded around a member 7 and soldered, or otherwise suitably secured, to an adjacent portion of the member 5 'as indicated at 8. Or, if desired, the member or ribbon 5 may be entirely plane between the supports 4, that is, not twisted through an angle of 180, as aforesaid.
Preferably, midway between the supportin members 4, the member or ribbon 5 as a light-reflecting mirror 9 cemented, or othermaybe utilized two, of such members, one
disposed at each end of the mirror 9 and on opposite sides of the ribbon 5. Or, if desir-' able, four of the members 10 may be utilized, two disposed at each end of the mirror 9 and on opposite sides of the ribbon 5.
The aforesaid member 7, to which one end of the ribbon or member 5 is secured, is carried by one end of a lever 11 pivoted at 12, preferably in the bifurcated end of stem 2. The other end of lever 11 carries a pin 13 to which is secured one end of a helical spring 14 or the like. The helical spring 14 extends along the stem 2 and terminates referably in a relatively straight section a a ted to be clamped between a nut or mem er 15 and the head of a screw 16 or the like. As illustrated, screw 16 passes freely through the nut or washer 15 and is threaded into passage 17 disposed in the washer 15, Figs.
5 and 6. The upper end of spring 14 may.
be manually moved until the member 5 is placed under. the desired de ree of tension whereupon the screw 16 may e tightened to positively clamp or retain said upper end of spring 14 in the position to which adjusted.
In accordance with my invention, the aforesaid magnetized member or members 10 is or are arran ed for coaction with a magnetic field produced in the space or gap 18 between the poles of a suitable magnetizable structure 19 so supported that its poles define a space within which a magnetizable member 10, or a plurality of them, is or are disposed. As illustrated in Fig. 3, the fiatwise section of ribbon 5 is disposed in parallel relation, or substantially so, with respect to the adjacent pole faces ofthe magnetizable structure 19. As a'result,-the magnetized vane or vanes 10 extends or extend in similar relation with respect to said pole faces and since, at opposite ends, it or they exhibits or exhibit poles of opposite polarity, it follows that oscillatory movement is im arted in one direction or the other to the eflecting system dependent upon the polarity of the pole faces of the magnetizable structure 19.
As stated above, the ribbon 5, between the supporting members 4, 4, may be turned through an angle of 180 degrees. Under such circumstances, the mirror 9 and the magnetized vanes 10 should be disposedmidway between said members 4, 4, with the result that the mid-portion of the ribbon 5 assumes the position illustrated in Fig. 3, when the magnetizable structure 19 is not energized.
The flux in the gap 18 is producedby a coil or winding 20 coacting with or disposed upon the magnetizable structure 19. Coil 20 is traversed by an electrical current which varies in magnitude in accordance with changes in the quantity to be measured. As a result, there is produced in the flux gap 18 a magnetic field which varies in accordance with the magnitude of the current traversing said coil' 20, and which coacts with magnetized vane or vanes 10 to impart movement to the deflecting system.
Ordinarily, the aforesaid deflecting or vibrating system comprising the ribbon or member 5, the thereby-carried mirror 9 and magnetized vane or vanes 10 is freely responsive to frequencies within the voice range. Therefore, the deflecting or vibratory system usually responds faithfully to changes in the instantaneous magnitudes of the current traversing coil 20 and, accordingly, the mirror on said vibratory or deflecting1 system functions to reflect a beam of lig t from a suitable light source 21 on to a light-sensitive surface or film 22 disposed, in t e example shown, upon a drum or cylinder 23 to which rotation or movement may be imparted by a belt 24 driven by a suitable motive device 25. The aforesaid beam of light both before and after reflection by the mirror 9 may pass through a spherical lens 26 and, adjacent the light-sensitive surface 22, through a cylindrical condensing lens 27 by which the light beam is focused substantially as a point of light onto said surface. It shall be understood that the aforesaid light source 20, lens 26, mirror 9, lens 27, and lightsensitive surface 22 should be enclosed in a suitable light-proof housing.
The magnetizable structure 19 ordinarily comprises a stack or group of thin magnetizable members or laminations formed preferably of material incapable, to any substantial extent, of becoming permanently magnetized and also having a straight line magnetization curve. Preferably, said magnetizable members or laminations are formed of a nickel-steel alloy, for example, that known to the trade as hypernick. Furthermore, it is desirable, ordinarily, that the magnetizable vane or vanes 10 be formed of highly coercive material capable of indefinitely retaining its or their magnetism. For example, for the vane or vanes 10 there may be thus utilized an alloy, particularly a cobalt-steel alloy. The utilization of materials of this charca'ter is desirable because their magnetic properties remain constant so that the deflecting system responds uniformly and faithfully only to the current in the coil 20 and is not affected by magnetic fluctuations in the stack 19 or vanes 10.
It shall be understood that the herein disclosed arrangement for imparting tension to the member or ribbon 5 may be utilized for imparting tension to the parallel-carrying conductors of a type well known to the art of galvanometer deflecting systems.
I claim as my invention:
1. In a deflecting system a ribbon under tension, means to support said ribbon at its ends and to prevent it from twisting at said ends, and a permanent magnet mounted on said ribbon.
2. In a deflecting system a ribbon under tension, means to support said ribbon at its ends and to prevent it from twisting at said ends, and a permanent magnet mounted on' said ribbon and between pole portions of magnetic material. I
v3. In an electrical instrument, a core having pole portions, said core being of magnetic material incapable of becoming permanently magnetized to any substantial degree, a coil wound on said core, whereby a current to be measured passing through said coil magnetizes said pole portions, a permanent magnet supported between said pole portions and positioned, when no current is passing through said coil, with the line running through the pole portions of said permanent magnet transverse to the lines of force of said magnetized pole portions.
4:. In an electrical instrument, a core having pole portions, said 'core being of magnetic material incapable of becoming permanently magnetized to any substantial degree and having a substantiallystraight line magnetization curve over the range of magnetizing forces encountered, a coil wound on said core, whereby a current to be measured passing through said coil magnetizes said pole portions, a'permanent magnet supported between said pole portions and positioned, when no currentis passing through said coil, with the line running through the pole portions of said permanent magnet transverse to the lines of force of said magnetized pole portions.
5. In an electrical instrument, a core having pole portions, said core being of magnetic material incapable of becoming permanently magnetized to any substantial degree, a'coil wound on said core, whereby a current to be measured passing through said coil magnetizes said pole portions, a deflecting system including a permanent magnet supported between said pole portions, and means for mechanically balancing said deflecting system.
6. In an electrical instrument, a core having pole portions, said core being of magnetic material incapable of becoming permanently magnetized to any substantial degree, a coil wound on said core whereby a current to be measured passing through said 'coil magnetizes said pole portions, a deflecting system including a plurality of permanent magnets gree,
supported between said pole portions said .permanent magnets being so arranged that said deflecting system is mechanically balanced.
7. In an electrical instrument, a core having pole portions, said core being, oi magnetic material which does not become permanently magnetized to any substantial degree, a coil wound on said core, whereby a current to be measured passing through said coil magnetizes said pole portions, a permanent magnet supported between said pole portions and positioned, when no current is passing through said coil, with the line running through the pole portions of said permanent magnet transverse to the lines of force of said magnetized pole portions, the support for said permanent magnet comprising a strip which is supported at each end.
8. In an electrical instrument, a core having pole portions, said core, being of magnetic material which does not become permanently magnetized to any substantial degree, a coil wound on said core, whereby a current to be measured passing through said coil magnetizes said pole portions, a permanent magnet supported between said pole portions and positioned, when no current is passing through said coil, with the line running through the pole portions of saidpermanent magnet transverse to the lines of force of said magnetized pole portions, the support for said permanent magnet comprising a strip which is supported at each end by means to prevent it from twisting at said ends.
9. In an electrical instrument, a core having pole portions, said core being of magnetic material which does not become permanently magnetized to any substantial degree, a coil wound on said core, whereby a current to be measured passing through said coil magnetizes said pole portions, a permanent magnet supported between said pole portions and positioned, when no current is passing through said coil, with the line running through the pole portions of said permanent magnet transverse to the lines of force of said magnetized pole portions, the support for said permanent magnet comprising a metallic strip which is, supported at each end by means to prevent it from twisting at said ends.
- 10. In an electrical instrument, a core having pole portions, said core being of magnetic material which does not become permanently magnetized to any-substantial dea coil wound on said core, whereby a current to be measured passing through said doil magnetizes said pole portions, a permanent magnet supported between said pole portions and positioned, when no current is passing through said coil, with the line running through the pole portions of said permanent magnet transverse to the lines of force of said magnetized pole portions, the support for said permanent magnet comprising a single metallic strip which is supported at each end by means to prevent it from twisting atsaid ends.
11. In an electrical instrument, a core having pole portions, said core being of magnetic material which does not become permanently magnetized to any substantial degree, a coil wound on said core, whereby a current to be v measured passing through said coil magnetizes said pole portions, a permanent magnet supported between said pole portions and positioned, when no current is "passing through said coil, with the line running through the pole portions of said permanent magnet transverse to the lines of force of said magnetized pole portions, the support for said permanent magnet comprising a single metallic strip which is supported at each end by means to prevent it from twisting at said ends, and a mirror mounted on said strip.
12. In an oscillograph, a core having pole portions, said core being of magnetic material incapable of becoming permanently magnetized to any substantial degree, a coil wound on said core, whereby a current to be measured passing through said co-il magnetizes said pole portions, a deflecting system freely responsive to frequencies of the order of 3000 cycles per second, said system including a permanent magnet supported between said pole portions and positioned, when no current is passing through said coil, withthe line running through the pole portions of said permanent magnet transverse to the lines of force of said magnetized pole portions.
13. In an oscillograph, a core having pole portions, said core being of magnetic material incapable of becoming permanently magnetized to any substantial degree, a coil wound on said core, whereby a current to be measured passing through said coil magnetizes said pole portions, a deflecting system freely responsive to frequencies of the order of 3000 cycles per second, said system including a permanent magnet supported between said ole portions, and means for mechanically alancing said deflecting system.
In testimony whereof, I have hereunto subscribed my name this 9th day of September JOSEPH W. LEGG.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US221601A US1750275A (en) | 1927-09-23 | 1927-09-23 | Deflecting system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US221601A US1750275A (en) | 1927-09-23 | 1927-09-23 | Deflecting system |
Publications (1)
Publication Number | Publication Date |
---|---|
US1750275A true US1750275A (en) | 1930-03-11 |
Family
ID=22828482
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US221601A Expired - Lifetime US1750275A (en) | 1927-09-23 | 1927-09-23 | Deflecting system |
Country Status (1)
Country | Link |
---|---|
US (1) | US1750275A (en) |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2425408A (en) * | 1947-08-12 | Frictional damping means for | ||
US2535065A (en) * | 1944-08-11 | 1950-12-26 | Heiland Res Corp | Galvanometer |
US2546284A (en) * | 1948-09-07 | 1951-03-27 | August L Weisbecker | Electrical switch |
US2609410A (en) * | 1952-09-02 | Babaud | ||
US2710376A (en) * | 1955-06-07 | Magnetic armature mirror for galvanometers x | ||
US2846650A (en) * | 1952-06-26 | 1958-08-05 | Gen Electric | Light reflecting transducer device |
US2897443A (en) * | 1959-07-28 | Moving magnet oscillograph |
-
1927
- 1927-09-23 US US221601A patent/US1750275A/en not_active Expired - Lifetime
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2425408A (en) * | 1947-08-12 | Frictional damping means for | ||
US2609410A (en) * | 1952-09-02 | Babaud | ||
US2710376A (en) * | 1955-06-07 | Magnetic armature mirror for galvanometers x | ||
US2897443A (en) * | 1959-07-28 | Moving magnet oscillograph | ||
US2535065A (en) * | 1944-08-11 | 1950-12-26 | Heiland Res Corp | Galvanometer |
US2546284A (en) * | 1948-09-07 | 1951-03-27 | August L Weisbecker | Electrical switch |
US2846650A (en) * | 1952-06-26 | 1958-08-05 | Gen Electric | Light reflecting transducer device |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US1750275A (en) | Deflecting system | |
US1942052A (en) | Method of and instrument for measuring surge currents | |
US2051475A (en) | Relay | |
US2691142A (en) | Galvanometer coil and method of | |
US1849831A (en) | Apparatus for measuring irregularity of movement | |
US2355237A (en) | Electromagnetic device | |
US2018459A (en) | Surge current instrument | |
US2282590A (en) | Galvanometer | |
US2269108A (en) | Telephone ringer | |
US1942384A (en) | Method of and instrument for measuring surge currents | |
US1942065A (en) | Method of and instrument for measuring surge currents | |
US1719465A (en) | Measuring instrument | |
US579344A (en) | Electrical measuring instrument | |
US1791786A (en) | Electrical indicating instrument | |
SU585460A1 (en) | Method of checking magnetic cores | |
US3333193A (en) | Eccentrically pivoted coil type meter including flux path adjustments and severable coil supporting frame | |
US2565412A (en) | Coil system for nonlinear response | |
US2322816A (en) | Galvanometer | |
US2313352A (en) | Electrical meascbing instrument | |
SU942082A1 (en) | Polarized bell | |
US1786821A (en) | Induction meter | |
US334145A (en) | Edwaed weston | |
US1745817A (en) | Oscillograph | |
US870376A (en) | Contact-galvanometer. | |
US1672967A (en) | Electrical translating device |