US2599661A - D richardson - Google Patents

Description

June 1952 A. D. RICHARDSON SUSPENSION GALVANOMETER AND MAGNET ASSEMBLY 2 SHEETS-SHEET 1 FIG.6 20

FIG.2

Filed March 12, 1951.

FIG. l2

FIG. 8

FIG. II

INVENTOR ARTHUR 0. RICHARDSON ATTORNEY June 1952 A. D. RICHARDSON 2,599,661.

SUSPENSION GALVANOMETER AND MAGNET ASSEMBLY Filed March 12, 1951 2 SHEETSSHEET 2 FleJa FIG. l4 FIG. l5

' l4 l4 a #21 1 FIG. I? 74 74a ."uunllllllllll INVENTOR ARTHUR o. RICHARDSON IOI/I Patented June 10, 1952 SUSPENSION GALVANOMETER AND MAGNET ASSEMBLY Arthur D. Richardson, Pasadena, Calif., assignor to Consolidated Engineering Corporation, Pasadena, Calif., a corporation of California Application March 12, 1951, Serial No. 215,032

This invention relates to galvanometers of the type adapted to respond to alternating or oscillating voltages, and more particularly to the type of laboratory and portable galvanometers used for recording alternating voltage oscillations. This application is a continuation-inpart of my application Serial No. 673,111, filed May 29, 19%, and issued as United States Patent 2,550,720 on May 1, 1951.

Galvanometers of this type have been in use for a considerable time in recording cameras and the like. Such galvanometers commonly comprise a lightweight coil suspended between the poles of a magnet by means of a pair of suspension wires or cords. The oscillating voltage to be indicated by the galvanometer is con,- nected to the coil terminals so that the coil oscillates accordingly. A mirror attached to the suspension cord oscillates according to the oscillations of the coil so that a light beam reflected from the mirror correspondingly oscillates back and forth on asurface against which it is directed. According to a common practice, such a galvanometer is often placed in a camera, usually with a number of other similar galvanometers, and a photographic film or paper strip is moved while the oscillating reflected light beam is on it so that an oscillating line or trace is made on the photographic strip of the oscillation from the mirrors.

The rincipal object of my invention is to provide a galvanometer of this type which is of a simple, small and lightweight construction providing easy access to the component parts.

A related object is to provide such a galvanometer whose position may be readily dj table without disturbing the characteristics of the galvanometer.

I carry out my invention by the provision of an extremely lightweight and narrow coil held in suspension between a pair of stretched wires which constitute the axis of rotary movement of the galvanometer coil. I support this galvanometer element within an elongated casing preferably provided with a removable side or cover so that the elements are open to inspection and removal and adjustment. I provide in close association with the galvanometer coil a pair of pole pieces extending beyond the sides of the casing and adapted to be engaged by a suitable pole magnet. The arrangement is such that adjustment or compensation for the tilt of the alvanometer assembly can be'made without disturbin the magnetic circuit.

The foregoing and other features of my in- 9 Claims. (01. 171-435) vention will be better understood from the following detailed description and the accompanying drawings of which:

Fig. 1 shows a front elevation in cross-section, of a galvanometer according to my invention;

Fig. 2 is a side elevation view in cross-section taken at line 2+2 of Fig. 1;

Fi 3 is a top cross-sectional view taken at line 3-3 of Fig. 2;

Fig. 4. shows a front view of a coil assembly used in the galvanometer;

5 s a side view of the coil shown in Fig. 4

Fig. 6 shows a front view, and Fig. 7 an end view of a detail used with the coil shown in Figs.

4 and 5;

Fig. 8 shows the arrangement of a mirror in relation to the coil, used in the galvanometer;

Fig. 9 is an end view, and Fig. 10 an elevation view of a sleeve used in the galvanometer;

Fig. 11 is an end View, and Fig. 12 an elevation view of another bushing used in the galvanometer;

Fig. 13 shows of Fig. 12;

Fig. 14 shows a cross-section view taken at line l4l4 of Fig. 15; and

Fig. 15 shows a face View of a member associated with the bushing of Fig. 12;

Fig. 16 shows a magnet adapted to receive a plurality of the alvanometers shown in Figs. 1 and 2; and

Fig. 17 is a cross-section view taken at line n |1 of Fig. 16;

Fig. 18 is an enlarged front elevation view in cross section, showing the details of the upper portion of the galvanometer; and

Fig. 19 is a cross section view taken at line l9l9 of Fig. 18.

Referring to the galvanometer shown in Figs. 1 to 3, the instrument comprises a'casing ID in a spri g used with the bushing the form of a square or rectangular prism whose length is many times greater than its cross-sectional dimension. The casing comprises an elongated back strip H and two side strips I 2 and 13. A cover 9 is adapted to be put on or taken off by sliding it in grooves 12a and l30t placed in side plates l2 and I3. There are fastened through the sides I2 and I3 of the casing, a pair of pole pieces I 4 and I5. These are rigidly fastened in position in the casing in some suitable manner so as to leave a narrow elongated gap {5 between the two pole pieces in a central location in the casing as shown in Figs. 2 and 3.

There is suspended within this'narrow gap between the pole pieces. an elongated coil fl of fine wire shaped to occupy a very small crosssectional area. This coil is shown enlarged and in better detail in Figs. 4 and 5. It is composed of a fine insulated wire, such as No. 48 enameled, or even thinner, and may be on an arbor formed suitable for winding such fine wire. The winding is preferably done in such a manner that the coil is substantially cylindrical in form with a circular cross-section having a diameter d. The wires forming this coil are preferably cemented together so that the coil maintains a rigid selfsupporting form. The long dimension L may conveniently be about .5 and the diameter cl in the neighborhood of .015 inch. r There is inserted inside each extremity ofthe coil a semicircular member in the formof a half disc with its straight edge at the loop of the coil, as shown in Figs. 6 and '7. The half discs 20 are preferably of insulating material to avoid danger of short-.circuiting the coil turns. For the purpose of suspending the coil in position in the air gap l5, there are provided .thin suspension wires being looped through the coil and inside the arcuate surfaces of the respective members 29. The wires 2| and 22 may conveniently be a No. 49 wire rolled fiat .0002 to .005 inch of gold or gold alloy. .The ends 23 and 24 of the fine wire forming the coil I! are brought out loosely and preferably are looped around the respective loops of the suspension wires 2| and 22, as shown. The loops of wires 2| and 22 are maintained by solder at positions 25 and 26 respectively, and the ends of wires 23 and 24 are also soldered at the same points, thereby making the wires 2| and 22, in effect, the terminals of the coil.

One of the wires, namely wire 2|, has attached to it a small mirror21. The mirror is rectangular in shape and its arrangement with wire 2| is shown more clearly in the enlarged viewin Fig. .8. The wire 2| looped at coil l1 and soldered at 25', has its two strands carried parallel from the solder point 25 to another solder point 28, close to the position of the mirror. At point 26, the strands of wire divide, one of them, 28a, being carried along one of the longer edges of the mirror, and the other of them, 28b, being carried along the other long edge of the mirror. At the opposite. side of the mirror, the two separated strands 28a and 282) are joined again at a solder point 29. At this point, only a single strand of wire, 2|, is carried on up. 7

For the purpose of suspending this mirror and coil assembly with suspension wires 2| and 22, centrally within the casing, there is provided at one. end of the casing a wire holding member in the form of a cylindrical rod, and at the other end of .the casing a compression spring 5| held within an insulator bushing 5|], the wire 22 being hooked to the spring. For the purpose of holding member 35, there is provided a bushing 3|, preferably of a metal such as brass like the metal of the casing. The bushing 3| is provided with a cylindrical sleeve portion 32 which is fitted within-an insulating bushing 33. The construction of bushing 33 is shown in enlarged and greater detail in Figs. 9 and, 10. It comprises a section of square cross-section 34 adapted to fit within the walls of the casing, and the outer end I of it is made cylindrical at 35 where it protrudes through the opening in the end of the casing. A cylindrical hole 35 passes centrally through the bushing and the cylindrical sleeve portion 32 fits within the hole '35. ment, an insulating collar or washer 31 is placed In assembling the arrangeis insulated from the casing.

around the cylindrical portion 35 to separate the collar 38 of the bushing 3| from the metallic casing.

The outer portion of bushing 3| is provided with a small cylindrical bore through which the cylindrical rodSil passeswith a tight fit. At the inner edge of rod 3|! there is provided a slot 33 into which the end of wire 2| is inserted and soldered firmly.

For the purpose of centering the wire 2| and of adjusting} its effective length, there is provided a sleeve 4| having a collar 42 at its inner end. This. sleeve has .,a cylindrical shank which is adapted to slide with a tight fit in and out of the sleeve. 139117101122 of bushing 3|. The sleeve 4| is formed with an open U-shaped slot lla extending vertically throughout the length of the slot to allow space into which the wire ribbon 2| extends. Within the slot at the base of the U is aprotuberancelij which extends from the lower tgthe upper end of the slot. The protuberance tapers rmmboni its upper and lower ends and isa maximum atapo'sition 43a. The protuber ance extends longitudinally and the thickest pdi'nt53gc is at the longitudinal axis so that the wireribbon 2| in resting onv this protuberance, isthereby. centered in the casing. By sliding sleeve 4| in and out the, bushing, the position of the protuberance 43 in the longitudinal or axial direction is changed, thereby effectively shorteningorle'ngthening the efiectiv'e length of wire 2| from the coil Y, Y

The insulating bushing 50 located at the opposite end oi the casing is illustrated in Figs. 11 and 12. It has oute'r side walls formed of a square section to fit within the end of the casing; and it is provided with a central bore 44 adapted to accommodate the compression spring 5| illustrated in detailin Fig. 13. For the purpose of retainingthe spring in the bushing, the bushing is providedwith an internal collar 45 large enough to hold the spring but allowing sufiicient room forthe. wire,22 to pass centrally through.

The end ofwire 22 is soldered at 46 to a hook 41 which is hooked over the outer end of the spring. For the purpose of holding the spring and insulating bushing assembly in its proper position withinthe end of the casing, there is provided a holding member 48 in the form of a horseshoe-shaped,member as shown in Figs. 14 and 15.. This is wedged within the casing so that it rests against the sides thereof.

The lengthv of wire 22 is such that when hook 4'I.is jhoolied over the end loop of spring 5!, the

sprin is compressed somewhat against member 48 so that wires,2| and 22 are stretched with substantial tension. Thi is brought about becausethere is sufilcient taughtness of ribbon 22 to compressthe spring which is within the cylindricalportion ofthe bushing 50, against the upper .col lar 450i the bushing. This causes the collar 45 to push, against the wedged end of member. 48 to maintain it in its position. Furthermore, owing to the fact that the hook 41 is of electrical conducting material, it makes contact with the spring 5|, thereby putting the spring in circuit with the galvanometer coil. Spring 5| is finished of: with a straight end running across the diameter or the spring so that hook 41 can be adjusted sideways to bring the coil l'l midway between thepole pieces. To make connection with the spring there is soldered at the end 52 of the spring, a suitable connecting wire 53 which I ,7 Wire 53 is led through the galvanometer casing, past the pole pieces I4 and I5, and is carried through the side I3 of the casing through an insulating bushing 54, into the interior of a terminal casing 55.

Terminal casing 55 is of insulating material such as fiber or Bakelite, or the like, and is fastened by screws 56 and 51 to the galvanometer casing. Casing 55 has a rectangular or square cross-section and is provided with an opening 58 running centrally through it. A collar 59 is located within the opening and is provided with a shoulder 60 to accommodate the head of a machine screw 6|. The end of the machine screw "is threaded into the drilled and threaded end of a thick metallic connecting slug 62 which is led into the terminal casing through openin 64. The

uninsulated end of wire 53 is carried through theinsulating bushing 54 and into the terminal .casing 55 to a position between the lower edge of collar 59 and the upper end of connecting slug I52 so that the drawing up of the slug 62 by turning the screw binds the wire 53 between the col-v lar and the connecting slug. Connection to the slug may be made by a suitable connecting means, such as a flexible insulated conductor 62a, the end of which may be fastened into the slug 62.

When the galvanometer is assembled, the mirror 21 is located back of an opening 65 through wall I2 of the galvanometer casing and the face of the mirror faces the opening so that light coming through the opening will shine on the mirror and be reflected from it back through the opening. A suitable lens 66 is held in a lens holder 51 in front of the opening 65. For convenience, the lens holder is provided with a second lens 68 of a different focal length from lens 66 so that if it is desired to use the second lens instead of the first, the lens holder may be rotated on pivot 69 to put lens 68 into position in front of opening 55, instead of lens 66.

In a recording camera it is common to use a number of the galvanometers of the type which is described, and to place them as closely together as practicable, so that all the galvanometers can make a record on a single sheet of photographic paper or film which is drawn past them while they are in oscillation, of their light traces. Furthermore, a magnetizing means is required for magnetizing the pole pieces I4 and I5. An arrangement suitable for this purpose is shown in Figs. 16 and 17 wherein there is shown a permanent magnet I of relatively large and heavy construction as compared with the galvanometer element. At the air gap II of this magnet there are formed a number of tongues E2 protruding from one of the magnet poles and a number of similar tongues 12a protruding from the other magnet pole. The two sets of tongues 7?. and 12a extend toward each other as shown in Fig. 16, and each tongue I2 on one pole of the magnet has a counterpart 12a oppositely disposed on the other pole of the magnet. Between each adjacent pair of tongues 12 there is formed a space (3 large enough to accommodate the galvanometer pole piece I 4; and pole piece I5 will be located between the opposite adjacent tongues 72a. The bases of pole pieces I4 and I5 rest on ledges 16 and 16a respectively attached to the respective poles of the magnet. A number of the galvanometers may thus be placed side by side with their pole pieces I 4 and I5 located within respective opposite spaces I3 and 13a.

The pole-pieces I4 and I5 are adapted tofit snugly within their respective spaces I3 and 13a and may be moved somewhat relative to the tongues in a vertical plane; that is, the galvanometer may be tilted back and forth to adjust the tilt of the mirror 21 somewhat so that the vertical level of its reflected light beam may be adjusted somewhat. To provide for this adjustment there is provided at the back of each space 13 and 13a an adjustable cam, the cams back of spaces '13 being numbered 14 and the cams back of spaces 13a being numbered Ma. Each adjustable cam is attached to a screw head 15, so that by turning the screw the cam is turned. By turning corresponding opposite pairs of cams I4 and 14a in this manner, accurate adjustment of the tilt of the galvanometer is had, while still maintaining good magnetic contact between-the poles of the magnet and the pole pieces I4 and I5.

An advantage of interleaving the pole pieces I4 and I5 with the tongues on the magnet is to obtain a maximum of magnetic energy transfer from one to the other to increase the efficiency of the magnetic circuit. In short, the contact areav between the pole pieces and magnet is greatly increased by the interleaved tongue. This increased contact area more than compensates for. the loss in efficiency of the magnetic circuit resulting from the small air gap between the pole pieces and the magnet.

Ordinarily, after the galvanometer is assembled, the protruding rod 30 will be cut oil" at point 16 flush with the end of member 3|. Attachment may then be made to this terminal of the g'alvanometer by clipping a wire to member 3i. Attachment to the other end of the galvanometer ismade atthe permanently connected wire 64, as described above.

- It will be recognized that by virtue of the construction'and arrangement of the galvanometer, there is provided by my invention an exceedingly small and lightweight device capable of accurate adjustment.

.The construction is simple for the additional reason that the entire mechanical oscillatory arrangement rotates on the axis of the supporting wires 2| and 22, making it in effect a single axis galvanometer.

The arrangement has the advantage over most other galvanometers of this type in that in the present galvanometer, the electrical circuit is entirely insulated from the casing so that the galvanometer need not have one side grounded if grounding is not desired.

. By reason of the slidable member M, the natural period of the oscillatory coil and mirror system mayreadily be adjusted, which is a factor of greatconvenience and desirability in such an instrument.

An outstanding advantage of the galvanometer is that the adjustment of tilt of the mirror, that is, the direction of the reflected light beam, may be made without aifecting the magnetic circuit. Regardless of the adjustment due to the cams I4 and "Ma, the pole pieces l4 and I5 are always held firmly between the tongues of the magnet, and the adjustment does not affect or alter the magnetic circuit. This is a distinct advantage over'prior known constructions wherein such adjustments of position have involved the alterationof an air gap in the magnetic circuit, thereby affecting'the strength of the magnetic circuit and accordingly'affecting undesirably, the constants of the galvanometer.

The whole assembly is of such small dimensions that a .largenumber of them can be used in a portable recording oscillograph, each assembly having the sensitivity usually associated with stationary laboratory oscillographs.

The whole coil and mirror assembly is of symmetrical design about the axis of rotation so that it does not respond to external mechanical shock.

I claim:

1. In combination with a galvanometer comprising an elongated casing within which there is located a galvanometer coil suspended between a pair of wires held in tension within the casing, and a pair of magnet pole pieces extending through the casing and leaving an air gap between the pole pieces within which the coil is located and a mirror held by one of the wires, a magnet comprising a pair of magnet poles pro vided with oppositely located slots within which the respective pole pieces ht, said pole pieces being movable within the slots, to allow for tilting the galvanometer, and a cam at the top of each slot to adjust the tilt.

2. A combination according to claim 1 in which ledge means is associated with the magnet in such a position that the pole pieces rest on the ledge means when the galvanometer is placed in position with the pole pieces within the slots of the magnet pole.

3. Apparatus according to claim 1 in which there is a cam at the top of each of the opposite slots so that the tilt of each galvanometer is accomplished by mutual adjustment of the respective pair of opposite cams.

i. In combination with a galvanometer comprising an elongated casing within which there is located a galvanometer coil suspended between a pair of wires held in tension within the casing, a pair of magnet pole pieces extending through the casing and leaving an air gap between the pole pieces within which the coil is located the pole pieces extending outwardly from opposite sides of the casing, and a mirror held by one or" the suspension wires, amagnet comprising a pair of magnet poles with oppositely located slots within which the respective pole pieces fit, said pole pieces being movable within the slots to allow for tilting the galvanometer, and a cam mounted on the magnet adjacent the top of at least one of each of said oppositely located slots in position to engage a pole piece to compensate for the tilt of the galvanometer.

5. In combination with a galvanometer comprising an elongated casing of rectangular section within which there is located a galvanometer coil suspended between a pair of wires held in tension within the casing, a pair of magnet pole pieces of rectangular elevation extending through the casing and leaving an air gap between the pole pieces within which the coil is located, the pole pieces extending outwardly from opposite sides of the casing and a mirror held by one of the wires, a magnet comprising a pair of magnet poles provided with oppositely located slots of rectangular elevation within which the respective pole pieces fit, the pole pieces engaging snugly between the sides of said slots and being movable within the slots on an axis perpendicular to the longitudinal axis of the galvanometer casing to allow for tilting the galvanometer, and a cam mounted on the magnet block adjacent the top of at least one of each of said oppositely located slots in position to engage a pole piece to compensate for the tilt of the galvanometer.

6. A galvanometer comprising an elongated casing having a rectangular cross-section, a galvanometer coil suspended between a pair of wires held in tension within the casing, a pair of magnet pole pieces extending through the casing at the rectangular cross-section and leaving an air gap therein between the pole pieces within which the coil is located, the pole pieces extending outwardly from opposite sides of the casing each of said magnet pole pieces being approximately rectangular in elevation and adapted to fit respectively in a pair of magnet poles having oppositely located slots therein and having cam means associated with at least one of said oppositely located slots in position to engage a pole piece to compensate for the tilt of the galvanometer by displacement of one of said pole pieces in the slot, and a mirror held by one of the wires in the elongated casing.

'7. In combination with a galvanometer comprising an elongated casing within which there is located a galvanometer coil suspended between a pair of wires held in tension within the casing, a pair of magnet pole pieces extending through the casing and leaving an air gap between the pole pieces within which the coil is located, the pole pieces extending outwardly from opposite sides of the casing and a mirror held by one of the wires, a magnet comprising a pair of magnet poles with a plurality of opposing pairs of slots within each of which pairs the respective pole pieces of a galvanometer fit, said pole pieces being movable within the slots to allow for adjusting the galvanometer, and means mounted on the magnet adjacent the top of at least one of each of said pair of oppositely located slots in position to engage a pole piece to adjust the galvanometer.

8. In combination with a galvanometer comprising an elongated casing of rectangular section within which there is located a galvanometer coil suspended between a pair of wires held in tension within the casing, a pair of magnetic pole pieces of approximately rectangular elevation extending through the casing and leaving an air gap between the pole pieces within which the coil is located the pole pieces extending outwardly from opposite sides of the casin and a mirror held by one of the wires, a magnet comprising a pair of magnet poles provided with a plurality of pairs of oppositely located slots of rectangular elevation within each of which pair of oppositely located slots the respective pole pieces of a galvanometer fit, the pole pieces engaging snugly between the sides of said slots and being movable within the slots on an axis perpendicular to the longitudinal axis of the galvanometer casing and perpendicular to the common plane of the pole pieces to allow for adjusting the galvanometer, and means mounted on the magnet adjacent the top of at least one slot of each pair of oppositely located slots in position to engage a pole piece to move the galvanometer engaging in the respective pair of slots.

9. A galvanometer comprising an elongated casing having a rectangular cross-section, a galvanometer coil suspended between a pair of wires held in tension within the casing, a pair of magnet pole pieces extending through the casing at the rectangular cross-section and leaving an air gap therein between the pole pieces within which the coil is located, each of said magnet pole pieces being approximately rectangular in elevation and extending outwardly from opposite sides of the casing, the outwardly extending portions of the magnet pole pieces being adapted to fit respectively in a pair of magnet poles having oppositely located slots therein and means associated with at least one of said oppositely located slots for 9 adjusting the position of the galvanometer with respect to the slotted poles by displacement of one of said pole pieces in the slot, and a mirror held by one of the suspension Wires in the elongated casing.

ARTHUR D. RICHARDSON.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Name Date Hathaway Apr. 7, 1931 Number Number Number (Addition to No. 568,242)

Images