US1961372A

US1961372A - Electrical recording

Info

Publication number: US1961372A
Application number: US321691A
Authority: US
Inventors: Warren A Marrison
Original assignee: Bell Telephone Laboratories Inc
Current assignee: AT&T Corp
Priority date: 1928-11-24
Filing date: 1928-11-24
Publication date: 1934-06-05
Anticipated expiration: 1951-06-05

Description

w. A. MARRISON 1,961,372

ELECTRICAL RECORDING 1 Filed Nov. 24, 1928 June 5, 193 1.

3 Sheets-Sheet l Fla.

//VVEN7'0H WA. MFR/SON ar- I A TTORNE Y June 5, 1-934. w. A. MARRISON ELECTRICAL RECORDING Filed NOV. 24, 1928 3 Sheets-Sheet 2 //vv/vm/? WA; MA HIV/SON Patented June 5, 1934 UNITE STATES PATENT OFFICE ELECTRICAL RECORDING Application November 24, 1928, Serial No. 321,691

12 Claims.

The invention relates to electrical recording and more particularly to a device for automatically recording transients such as occur on transmission lines as a result of disturbances on neighboring power lines.

In order to study the effect that outside sources exert on telephone transmission lines it is desirable that a record be made of the transients which are induced thereon. Furthermore as these tran- 19 sients may occur at any time, it is desirable that the recording apparatus be arranged so that it will start recording at the very beginning of the disturbance on the line.

An object of this invention is to obtain a record of a disturbance on a transmission line which extends over a considerable period of time and which is complete as to what happens at the very beginning of the disturbance.

In accordance with one feature of this invention a polar oscillograph is connected across the line under observation and is run continuously, a shield being provided to render it insensitive to transients below a predetermined amplitude. The instant the transient exceeds the amplitude for which the shield is adjusted an oscillogram thereof is instantly recorded on a film or plate. In order to prevent overlapping of the record automatic means are provided to render the oscillograph inoperative after a predetermined time interval. This oscillograph is particularly valuable for giving complete information as to what happens during the first few cycles of a disturbance.

in accordance with another feature of this invention a second oscillograph, which is preferably of the motion picture film type, is also connected across the line under observation. The instant the disturbance exceeds the predetermined amplitude for which the variable shield in the polar oscillograph is adjusted. a sequence switch is operated which, among other functions, starts the second oscillograph in operation. As this oscillograph is put in operation by the transient, there will be slight interval between the time the dis- .15 turbance begins and the time this second oscillograph starts recording. This second oscillograph preferably records on long strips of film and it is therefore obvious that a record of any desired 7 obtained supplement each other, the information obtained being more complete than would be obtained by either instrument alone.

The invention may be more clearly understood by reference to the accompanying drawings in which Fig. 1 is a diagrammatic view of the optical system employed in the polar oscillograph; Fig. 2 is a View showing the arrangement of the parts of the polar oscillograph; Fig. 3 is a front View of the fixed and the variable shield employed therein; Fig. 4 is a cross-sectional view of the quick acting magneticclutch; and Fig. 5 is a schematic view of the electrical circuits.

Referring to Figs. 1 and 2, a vibrator element 10 carrying a mirror 11 is attached to one end of base 12 of the polar oscillograph. This vibrator element mayconsist of a loud speaker driving mechanism such, for example, as disclosed in U. S. Patent 1,365,898, granted to H. C. Egerton on January 18, 1921 with the addition of mechanical means 13 to vibrate the mirror 11 about an axis in its plane at an amplitude proportional to the input current. A small constant speed motor 14 is attached at the opposite end of base 12 and by means of gears 15 and 16, rotates a light sensitive film or plate 1'7 in a plane paral lel to the plane of mirror 11. This film is contained in film holder 18 which is attached to shaft 19 journaled in stanchion 20. Alight tight compartment 21 in which lamp 23 is mounted directly behind pinhole 22 is also attached to base 12 intermediate mirror. 11 and film 17 so that the mirror reflects the light from the pinhole to the moving light sensitive paper or film 17 a few inches from its center of rotation.

A quick acting magnetic clutch 29 is attached to shaft 25 and rotated by power supplied by motor 14 through

gears

15, 16, 26 and 27, gear 27 being so designed that for each complete rcvolution of film holder 18 mounted on shaft 19, the magnetic clutch will only make one-half of a revolution.

A light tight cover 24 which is long enough to cover the vibrator element 10 and the optical system is also attached to base 12. In Fig. 2 this cover is shown broken away in order to better illustrate the essential elements of the device.

A camera 30 comprising a pair of right angle reflecting prisms, and a lens and shutter is mounted in the light tight cover 24 in such a way that the image of a clock 31 illuminated by a light 32 enters the right angle reflecting prism 33 and is reflected down through the lens and shutter 34 to prism 35 which in turn directs it toward the center of film 17.

A pair of

shields

36 and 37 are inserted in the light path of the reflected beam and are attached to the rear wall 38 of the light tight enclosure 24, as shown more clearly by Fig. 3. Shield 36 which is secured to the rear wall 38 consists of a disc that covers the whole area of film, that otherwise would be exposed, except a small space 40 in the center to enable the light reflected by prism 35 to pass through, and a slit aperture 41 just wide enough and long enough to pass the spot of light reflected from the mirror 11 on the vibrator element when it is vibrating at maximum amplitude. The other shield 37 is of variable width and by means of screws 39 it can be adjusted to cover a predetermined amount of the slit aperture 41. This shield is employed to prevent exposure of the film on the zero axis and also to prevent fogging due to disturbances of smaller amplitude than it is desired to record.

Referring to Fig. 4 the quick acting magnetic clutch 29, referred to above, comprises a core 42 which is preferably of soft iron and is fixedly attached to shaft 25, and is adapted to be magnetized by an energizing winding 43 which is located at the outer rim of the core. Athin outer shell 44 which forms a part of the magnetic circuit and which serves to protect the winding from mechanical injury is attached to the core by screws 45. The driven member of this clutch consists of a heavy hub portion 46 rotatably mounted on shaft 25 and a thin iron diaphragm portion 47 which is securely attached to hub portion 46. The faces of the driving and driven members are separated by a space of only a few thousandths of an inch and when winding 43 is excited, the outer rim of the diaphragm portion is attracted, causing it to flex upward thereby bringing the two members into frictional engagement. Since the diaphragm is very thin and is separated from the face of the electromagnet by only a very small air gap, it is obvious that the driving and driven members of the clutch are brought together quite rapidly upon the energization of the winding 43. Furthermore, due to the attractive force being at the extreme outer edge, maximum torque is obtained with this clutch for a given magnetic flux. A commutator 48 comprising an insulating segment 83 and a conducting segment 50 is also rotatably mounted on shaft 25 and forms an integral part of the driven member of the magnetic clutch 29.

By referring to Fig. 5 a clearer conception may be had of the operation of thisdevice. The film 17 in film holder 18 is continuously rotated in its plane by motor 14 which is connected across a suitable power source and the mirror 11 on the vibrator element 10 which is connected across the line LL under observation reflects the beam of light coming from the lamp 23 through pinhole 22 (Fig. 1) toward a point on the film a few inches from its'center of rotation. By adjusting the shield 37 as shown more clearly in Fig. 3 the beam is prevented from striking the rotating film when the current passing through the vibrator element 10 from the line LL is below a predetermined amplitude. The instant, however, that the current variations in the vibrator element exceed this predetermined amplitude a record thereof will be made on the film. In order to prevent overlapping of the record a relay 49, associated with the polar-oscillograph and connected across the line under observation in paraliel with the vibrator element 10 is adjusted so that it operates the instant the current variations in the vibrator element exceed the amplitude for which the variable shield 37 has adjusted. When relay 49 operates it clos tact 69 which completes a circuit from iii... tive side of battery 51 through contact 69 oi 49, contact 55 of relay 53, clutch winding back to the negative side of battery energizing clutch winding 43 which or operation of magnetic clutch 29, whi. rotates commutator 48 in a clock In its initial position, commutator bri contact with the insulated segment iii; 23 is lit by power supplied from batte through a circuit including contact 0i? rel Lamp 23 remains lit during the time that ii 54 is in contact with the insulated segmeof commutator 48. The instant, however, commutator 48 is rotated sufiicicntly to commutator brush 54 makes contact wi ducting segment 50 a circuit is comp] the negative side of battery 51, tliroi 56, conducting segment 50, brush 81, c the winding of relay 53, and back to side of the battery 51. Relay 53 is iii and in operating breaks the circuit tun.

thus completing the record made graph. Relay 53 when operated circuit through the energizing winding netic clutch 29 at contact 55 and sto tion of commutator 48, thereby lcav cillograph in an operated position. seen that the commutator 48 makes c revolution after the variations in the line observation exceed the amplitude for shield 37 and relay 49 have been adi lamp 23 is extinguished. It is evident i that the film makes one complete revel it the beginning of the record before ti cillograph is rendered inoperative. A lap of the oscillogram may be clini making the insulated segment less than In order to restore the mechanism to i or non-operated position, key 59 is mam erated to close contacts 60 and 61 and t contacts 56 and 57. Opening cent 57 opens the winding circuit of relay ing contact 52 to return to its Ui'jglfiiii thus completing a circuit from but through lamp 23, causing it to light. tacts 60 and 61 completes a circuit fi 51 through winding 43, contact 6!], ducting segment 50, brush 54. cont battery, thereby energizing the lilitiiii 29 which rotates commutator 48 until in contact with the insulated segment i. time the circuit through winding and the rotation of the commutator stopped due to the deenergizatimi The brush 54 is again. on cgmexut in its normal or non-operated p is then manually restored to its and the entire oscillograph mechr. in its non-operated position.

Wh le it is evident that record V the oscillograph of the type in: in most instances give the inform since it shows the characteristic. ance at its very beginning, yet in Jr record extending over a greater pe desirable. To accomplish this, a graph 58 recordi r on long strips oi? film or paper is idapteci to i within a very short ime inte'ri ginning of the disturbance conjunction with the polar oscillogrecord the beginning oscillograph icto e film, or on a bromide paper 62 A i 1 punched in the same rash- .t standard a sprocket e train of en riagasine. In "it from a similar to that oscil" agraph, is reflected through 62 by means'of a mirror ibrator element 82 which is line LL under observation, the vibrator element being those used in the polar ng system the polar oscilloacross the line under obser- Lned in an operative posibeginning of the transient, so *ecord the transient when it ex,- predeterm ned amplitude, means .s explained above, for rendering e transient. The motion picture however, is maintained in a s adapted to be put in operation cyc oi the disturbance so as .orc the polar oscillograph tlVE. Clnce th motion pics put in operation it coni entire length of the been exhausted or until the anually. ing it is seen that there are a ions which must be performed in sequence in order to insure of system and for this itch is employed in conjuncraphs. This sequence switch so which is so geared to a "'5; makes a predetermined is minute. Several cams 1e shaft and arranged to op- 3" cos shown as the shaft roout relay s9 is opercycie of a disturbance in aed amplitude and in opo functions by closing cons already explained contact a cheat which renders insensitive to further va on has made one complete beginning oi the record. 1 completes a circuit through "nee switch, thus causing motor element 82 across observation. it also completes an t (not shown) through the motlGl'i picture oscillograph which This arrangement makes ceron. the motion picture oscild b ore the record on the polar con ileted. The instant shaft it closes contact 68, on cam polar oscillograph immediately isensitive after the recording film e complete revolution after the bei ll thereby locking the energizing circuit through motor 66 during one complete revolution of the shaft '70. This insures the proper operation of the sequence switch in case the disturbance wh'ch operates relay 49is not of suilicicnt duration to maintain this relay operated during such period. As the shaft continues to rotate

cams

74 and 75 which are properly positioned thereon close contacts 76 and 7'7 respectively after the record on film 17 has been completed. By the closing of contact 76 a circuit is completed through the lamp 32 which illuminates the face of clock 31 and by the closing of contact 77 a circuit is completed through relay 80 which operates shutter 34 of camera 30, thereby automatically photographing the face of the clock on the film of the uponthe completion of the record.

In the operation of a system of this type it is possible by the addition of cams on the sequence switch to substitute another polar oscillograph in place of the operated polar oscillograph to record the beginning of a subsequent disturbance which may take place on the line before the operated polar oscillograph is manually returned to its non-operated position.

While the invention has been described with particular reference to telephone transmission lines, it is to be understood that it is applicable to the study of vibratory disturbances in other systems.

What is cla med is:

l. The method of recording a transient on a line which consists in maintaining an oscillograph in operative condition to record the transient the instant said transient exceeds a pre determined amplitude directing a beam of light from said oscillograph to the recording means and screening said recording means to prevent the recording by said beam of light of transients below the predetermined amplitude.

2. The method of recording a transient on a line which consists in rendering one of a plurality of oscillographs connected ,across the line unresponsive to variations below a predetermined amplitude, maintaining said osc llograph in an operative condition to record the transient the instant said transient exceeds the predetermined amplitude, automat cally rendering said oscillograph inoperative a given time interval after said transient has exceeded said predetermined amplitude and rendering another of said oscillographs operative before said first mentoned oscillograph is rendered inoperative.

3. A system for recording transients comprising an oscillograph having its vibrator element connected directly across the line under observation and maintained in an operative condition, means for rendering said oscillograph unresponsive to transients below a predetermined amplitude, means for recording said transient when said transient exceeds said predetermined am plitude, and means for automatically rendering said oscillograph inoperative a given time interval after said transient has exceeded said predetermined amplitude.

4. A system for recording transients comprising an oscillograph connected across the line under observation and maintained in an operative condition, means comprising a variable shield for rendering said oscillograph unresponsive to transients below a predetermined amplitude, and means for automatically rendering said oscillograph inoperative a given time interval after said 5 transient has exceeded said predetermined am plitude.

5. A system for recording transients comprising an oscillograph having its vibrator element connected directly across the line under observation and maintained in an operative condition, means for rendering said oscillograph unresponsive to transients below a predetermined amplitude, and means controlled by said transients for rendering said oscillograph inoperative a given time interval after said transients have exceeded said amplitude.

6. A system for recording transients comprising an oscillograph connected across the line under observation and maintained in an operative condition, means for rendering said oscillograph unresponsive to transients below a predetermined amplitude, and means comprising a quick acting magnetic clutch for rendering said oscillograph inoperative a given time interval after said transients have exceeded said amplitudes.

'l. A system for recording transients comprising an oscillograph connected across the line under observation and maintained in an operative condition, means for rendering said oscillograph unresponsive to transients below a predetermined amplitude, and means comprising a quick acting magnetic clutch, the action of which is controlled by transients above the predetermined amplitude for rendering said oscillograph inoperative a given time interval after said transients have exceeded said amplitudes.

8. A system for recording transients comprising an oscillograph connected across the line r under observation and maintained in an operative condition, means for rendering said oscillograph unresponsive to transients below a predetermined amplitude and means controlled by said transients for rendering said oscillograph inoperative a given time interval after said transients have exceeded said amplitudes and for automatically recording identifying marks on the oscillograph film the instant said oscillograph is rendered inoperative.

9. A system for recording transients comprising an oscillograph connected across the line under observation and maintained in an operative condition, means for rendering said oscillograph unresponsive to transients below a pretermined amplitude and means controlled by said transients for rendering said oscillograph inoperative a given time interval after said transients have exceeded said amplitudes and for automatically illuminating an indicating device to produce a record thereof on the oscillograph film after said oscillograph has been rendered inoperative.

10, A system for recording transients comprising a plurality of oscillographs connected across the line under observation, one of said oscillographs being adapted to start recording a transient impressed upon the line at the instant the transient exceeds a predetermined amplitude and to be rendered inoperative after a predetermined length of time, and another of said oscillographs being adapted to start recording said transient before said first mentioned oscillograph is rendered inoperative.

11. A system for recording transients comprising a plurality of oscillographs connected across the line under observation, means for rendering one of said oscillographs unresponsive to transients below a predetermined amplitude, means for rendering said oscillograph inoperative a given time interval after said transient exceeds said amplitude, and means for rendering another of said oscillographs operative before said first mentioned oscillograph is rendered inoperative.

12. A system for recording transients comprising a plurality of oscillographs connected across the line under observation, means comprising a variable shield for rendering one of said oscillographs unresponsive to transients below a predetermined amplitude, means controlled by said transients for rendering said oscillograph inoperative a given time interval after said transients exceed said amplitude, and means for automatically rendering another of said oscillographs operative before said first mentioned oscillograph is rendered inoperative.

WARREN A. MARRISON.