US3572782A - Multi-speed encoder drum locking means - Google Patents

Abstract

A multispeed digital encoder employing a plurality of code patterns, one of which moves at a submultiple of rotation with respect to the other, and including improved means facilitating assembly, adjustment of brushes and mechanical durability.

Description

United States Patent inventors Peter J. Waznys Richmond Hill, N.Y.;

John A. Garrido, Englishtown, NJ. 825,464

Division of Ser. No. 660,252, Aug. 14, 1967, Pat. No. 3,457,378.

Feb. 17, 1969 Mar. 30, 1971 Collectron Corporation New York, N.Y.

App]. No.

Filed Patented Assignee MULTI-SPEED ENCODER DRUM LOCKING MEANS 1 Claim, 11 Drawing Figs.

U.S. Cl 287/52.08,

287/53 Int. Cl Fl6d 1/06 Field of Search 287/5208,

52.05, 52.00, 53 (TK), 53 (LK), 53.00, 58 (CT), 52.01, 52.02, 114 (to 2M); 74/(lnquired) [56] References Cited UNITED STATES PATENTS 479,406 7/1892 Dickerson et al 287/52.08X

6 l4,95l 11/1898 Hoffmann 287/52.08X l ,244,848 10/1917 Gadke 287/53TK 2,771,647 ll/1956 Hemstreet.. 287/52.05X 2,990,189 6/1961 Beers 287/53X 3,237,976 3/1966 Campoli 287/5208 Primary ExaminerDavid J Williamowsky Assistant ExaminerWayne L. Shedd Attorney-Charles E. Temko ABSTRACT: A multispeed digital encoder employing a plurality of code patterns, one of which moves at a submultiple of rotation with respect to the other, and including improved means facilitating assembly, adjustment of brushes and mechanical durability.

PATENIEnmsmsn 3572,7232

I SHEET 2 OF 2 MULTl-SPEED ENCODER DRUM LOCKING MEANS This application is a division of application Ser. No. 660,252, filed Aug. 14, 1967 and now US. Pat. No. 3,457,378 issued in Class 200, Subclass 8.

This invention relates generally to the field of drum type digital encoders, and more particularly to an improved multispeed type of high accuracy, and employing an improved code pattern of the type disclosed in the copending application of John L. Mueller, Ser. No. 650,881, filed Jul. 3, 1967, and assigned to the same assignee as the present application.

It is among the principal objects of the present invention to provide, in a digital encoder of the class described an improved means for positioning and anchoring the code carrying rotors with respect to a driven shaft, whereby assembly of the device is facilitated.

Another object of the invention lies in the provision, in a device of the above described class of improved brush holder means having precision adjustment means.

Yet another object of the invention lies in the provision of an improved construction of the type described which includes means for effectively covering and seal ing the code patterns and cooperating brushes from contamination in the environs of their installed locations.

These objects and features, as well as other incidental ends and advantages, will more fully appear in the progress of the following disclosure, and be pointed out in the appended claims. In the drawings, to which reference will be made in the specification, similar reference characters have been employed to designate corresponding parts throughout the several views.

FIG. 1 is a central longitudinal sectional view of an embodiment of the invention.

FIG. 2 is an end elevational view thereof, as seen from the right-hand portion of FIG. 1.

FIG. 3 is a transverse sectional view of a housing component, as seen from the plane 3-3 in FIG. 1.

H6. 4 is a transverse sectional view as seen from the plane 4-4 in FIG. 1.

H6. 5 is a developed view of the outer surface of a housing showing the location of certain brush holding elements and assoeiated strain relief means.

FIG. 6 is a plan view of an individual brush holder element forming a part of the disclosed embodiment.

MG. 7 is a sectional view, partly in elevational as seen from the plane 7-7 in H6. 6. 1

H0. 8 is a view in elevation corresponding to that seen in H6. 6, with certain of the component parts removed for purposes of clarity.

MG. 3 is a longitudinal central sectional view as seen from the plane 9-9 in FIG. 8.

MG. W is an end elevational view as seen from the righthand portion of FIG. 9.

FlG. ii is a view in elevation of one of the rings forming part of the code pattern comprising a part of the embodiment.

in accordance with the invention, the device, generally indicated by reference character 10 comprises broadly: a housing element ii, a housing cover element 12, a plurality of individual brush holder elements 13, a driven shaft element 14, a first or directly driven drum element and second or geared drum element 16.

The housing element 11 may be formed by precision casting or machining, and includes an end wall member 21 including alignment means 22 for mounting the same as well as a retaining groove for the same purpose. The wall member 21 includes a central opening or bore 24 which mounts a bearing 25 supporting the shaft element 14.

Surrounding the bearing 25 is an annular recess 26, the sidewalls of which include an internal ring gear 27 which forms part of the motion transmitting for driving the geared drum element 16. This recess communicates with a larger recess 28 which accommodates both the drum element 15 and the drum element 16.

The recess 28 is formed by a cylindrically shaped sleeve 29 bounded by first and second flanges 30 and 31, respectively as well as a recessed surface 32 having a plurality of parallel grooves 33 which form means for adjusting mounted brush holder elements 13, as will more fully appear hereinafter. Closing the chamber 28 is an end wall member 34 having a centrally disposed opening or bore 35 mounting a bearing 36 which supports an end of the shaft element M.

The member 34 is maintained in position by screw means 37 which threadedly engage the flange 31. An outer surface 38 includes a recess 39 for a grounding terminal 39a (see FIG. 2).

The housing or cover element 12 may be formed as a drawing operation and includes an end wall 40 defining an aligned opening 41 as well as a cylindrical wall member 42 which overlies the recessed surface 32. Screw retaining means 43 (FIG. 2) retain the cover in position. An opening 45 permits passage of the ground conductor 46 connected as at its inner end to the terminal 39a. I

The brush holder elements 13 are all generally similar, and accordingly, a detailed description of one of said elements will serve equally well to describe all. Referring to FlGS. 6 to 10 in the drawings, inclusive, each element 13 includes a main body member 49 bounded by a curved inner surface 50, planar outer surfaces Si and 52, and including a slotted opening 53. An elongated recess 54 accommodates a brush wire holder 55 of planar configuration to which the individual brush wires 56 are soldered or otherwise electrically interconnected on one surface 57 thereof. A conductor 58 is suitably attached to the opposite surface 59 thereof. and after positioning within the recess 54, a cover 60 is force fitted into the recess to seal the interconnection.

The surface 50 is provided with a longitudinally arranged elongated projection or tongue 62 selectively engageable with any of the grooves 33. As seen in FIG. 5 in the drawings, the housing element ll is provided with one or more generally rectangularly shaped openings 64 which overlie the code pattern 65 formed of conductive strips 66 each having terminals 67. A screw 68 penetrates the opening 53, and retains the brush holder in operative position, while permitting adjust ment of the brush wire tip with respect to the terminal 67 of an individual strip 66 by sliding the brush holder longitudinally with respect to the grooves 33. Once the proper adjustment has been made, the screw is tightened to maintain the same for continued operation. Following this adjustment, the conductor 58 is positioned within the interstices formed by a first set of projections 70 and a second set of projections 71 which are offset relative to the first set 70, whereby the conductor is forced into an S-bend thereby forming a strain relief.

The driven shaft element 14 is best seen in HO. 1 in the drawings, and includes a projecting hub 76 supported in the above-mentioned bearings 25 and 36, as well as internal bearings 77 and 78. Disposed in an outer cylindrical surface is a conical recess 79 accommodating detent means to be subsequently described, as well as a gear 80 forming part of the driving means for the second drum element 16.

The first or directly driven drum element 15 includes a main body 83 surrounded by an insulative member 84, in turn supporting a plurality of code-bearing conductive rings 85 (see FlG. lll The rings 85 include keying means 86 for maintaining the same in proper rotational alignment, so as to be capable of maintaining a fixed adjustment with respect to the brush holder elements. Disposed upon an inner planar surface are a pair of commutator rings 87 and 88 which together with a pair of corresponding brushes 89 on thesecond drum element i6 provide means for electrical communication between the code patterns on each drum element.

The element 15 is fixed relative to the shaft element M by setscrew means accessible from an outwardly disposed end surface thereof, so as not to interfere with the location of the rings 85. To accomplish this, there is provided a transverse recess 91 in which there is disposed a locking ball or sphere 92 maintained in position by a threaded wedging member 93 in a longitudinally positioned threaded bore 94.

The second or geared drum element 16 includes a corresponding main body member 95 and insulative member 26,

and corresponding code-bearing rings 97. An eccentrically arranged shaft 98 is maintained in position by a retaining ring 99, and mounts a gear 100 meshing with the gear 80 as well as a gear 101 meshing with the internal ring gear 27. Axial alignment is accomplished by a spring retainer 102 which contacts the first drum element 15.

We wish it to be understood that we do not consider the invention limited to the precise details of structure shown and set forth in this specification, for obvious modifications will occur to those skilled in the art to which the invention pertains.

We claim:

1. ln a combination encoder drum and shaft therefor, said drum having a conductive surface on a cylindrical outer surface thereof, improved means for fixing said drum upon said shaft both rotationally and axially comprising: said shaft having a recess therein extending into a cylindrical surface thereof, said drum having a principal axis and a first borc therein intersecting said axis at an angle thereto, a ball detcnt disposed in said first bore and selectively moveable into contact with said recess in said shaft, said drum having a second bore having a principal axis parallel to that of said shaft and communicating with said first bore, and wedge-shaped threaded means disposed in said second bore and adapted to bear against said ball detent in said first bore to urge the same into said recess in said shaft.

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