US3593459A - Movable support for abrading apparatus - Google Patents

Abstract

A nozzle for directing an abrasive stream and a workpiece holder are adjustably positioned relative to one another in horizontal directions by means of device which supports one or the other by horizontal slide structures that are movable at right angles to each other.

Description

United States Patent Inventor Walter Kulischenko East Brunswick, NJ.

Appl. No. 831,825

Filed June 6, 1969 Patented July 20, 1971 Assignee Pennvvalt Corporation Philadelphia, Pa.

MOVABLE SUPPORT FOR ABRADING APPARATUS 2 Claims, 5 Drawing Figs.

U.S.Cl ..51/8,51/l4, 51/217, 269/56 int. Cl B24c 3/12 FieldoiSearch S1/8,9, 14,

[56] References Cited UNITED STATES PATENTS 1,849,384 3/1932 Ruemelin 51/8 3,101,574 8/1963 West 51/217X 3,425,166 2/1969 Best et al. 51/14 Primary Examiner-Lester M. Swingle Attorneys-Carl A. Hechmer, Jr. and Edward A. Sager ABSTRACT: A nozzle for directing an abrasive stream and a workpiece holder are adjustably positioned relative to one another in horizontal directions by means of device which supports one or the other by horizontal slide structures that are movable at right angles to each other.

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A T TORNE Y MOVABLE SUPPORT FOR ABRADING APPARATUS This invention relates to abrading apparatus, especially abrading apparatus of the type wherein an abrasive stream issuing from a nozzle is employed for trimming miniature electrical resistors of circuits printed on nonconductive substrates. More particularly,- the invention relates to an improvement in the supporting structure of the apparatus which permits the workpiece holder and the nozzle to'be movably'positioned relative to one another in horizontal directions prior to the abrading operation.

Abrading apparatus of the type described is usually provided with separate supports for the workpiece holder and the trimming head including the nozzle. The nozzle is pointed downwardly toward the upper surface of the workpiece where the'workpiece is secured. Conventionally, it is a tedious procedure to loosen. and then retighten various bolts of the supports when aiming the nozzle as part of the initial setup for the first slide structure. Preferably the second slide structure system is pressurized. In order to achieve uniform cutting action the apparatus is arranged to provide a uniform concentration of particles in a'constant airstream issuing from the nozzle at about 40 to 80 p.s.i.

The supply conduit 14 may be flexible hose of abrasion resistant material at the end of a length of rigid tubing, and it is preferred that the terminal or end portion adjacent the nozzle 12 be of rigid tubular construction so that it can serve as nozzle holder 26 capable of having its movements accurately controlled by a traversing mechanism 28 connected thereto by a rigidly constructed arm 30. The nozzle holder 26 is suitably journaled in the extended free end of the arm 30, in upright position above a support 32 for the workpiece 10. The support 32 is mounted on a base 33. The traversing mechanism 28 may also be mounted on a support 32, mounted in turn on the base 33. The mechanism 28 serves to move the nozzle 12 in horizontal direction by its holder 26, transverse to the longitudinal extent of the holder, or into and out of the place of the drawing illustrating the apparatus, whereby the abrasive stream is traversed along the length of the workpiece to cut or ab'rade along the line of travel. The traversing mechanism 28 responds to signals received via conductors 34 from a control 36 to move a controlled distance first in one direction and then usually in opposite or reverse direction upon completion of an abrading operation. The control 36 also sends energizing comprises slides connected to the opposite ends of the first slide structure and mounted on respective spaced and parallel bars. The first slide structure may be constructed similar to the I second slide structure, although they are movable at right angles to one another within substantially the same horizontal plane.

Thev invention will now be described in greater detail with reference to. the drawings, in which:

I FIG; 1 is an isometric view of a movable support constructed according to theinvention;

FIG. 2 is a vertical sectional view of the same, taken along line 2-2 of FIG. 1;

FIG. 3 is a horizontal sectional view of the same, taken along line 3-3 of FIG. 2; 7

FIG. 4 is a diagrammatic illustration of abrading apparatus in which the movable support of FIG. 1 is incorporated; and

FIG. 5 is an enlarged plan view of a miniature resistor which can be trimmed by the apparatus of FIG. 4.

Before describing the movable support of FIG. 1 to 3, the abrading apparatus as a whole illustrated in FIG. 4 and the workpiece of FIG. 5 will be described.

The abrading apparatus is applied to the trimming of a thick-film resistor or other workpiece designated generally by the numeral 10, utilizing a high velocity abrasive stream issuing from a nozzle l2. The latter is supplied through a supply I conduit 14 by a mixing chamber 16 where dry, filtered, pressurizedair at about 85.p.s.i. from a compressor 18 is uniformly mixed in thedesiredproportions with abrasive powder from a reservoir 20.- By means of a unique arrangement more fully described in the present inventors application Ser. No.

365,] 23, filed May 5, 1964, now US. Patent No. 3,344,524, a

vibrator 22 is employed to apply vibrations to the chamber 16.

' This arrangement can produce an automatically replenished trickle ofaabout 3 to 5 grams per minute of aluminum oxide or other. abrasive powder having'an average particle size of 27 microns, from the reservoir 20 through a passageway (not shown yto the mixing chamber 16 for combining with the pressurized'air.

- The" flow of airborne. abrasive particles is initiated'by the energizationof a solenoid operated pinch valve 24in the upstream end ofthe supply conduit 14, that is, at the outlet of the mixingchamber 16. The nozzle 12 wilhhave a restricted orifice; e.g. 0.0l8inch diameter, of much smaller cross-sectional flow area than the supply conduiti 14 ,and thus the entire current through conductors 38 to the'solenoid of pinch valve 24 to effect its closing upon completion of an abrading operation; but otherwise during abrasive trimming the pinch valve 24 is held open.

The workpiece 10 shown in FIG. 5 is an electrical resistor having a thick, electrically resistive film 40 printed on a nonconductive substrate and having a pair of terminals 42 joined to opposed parallel edges thereof. As shown, the resistor 10 has been trimmed between the lines designated by the letters A and C. The trimmed area lying between lines B and C represents the amount of the film 40 trimmed by overshooting during the elapsed time between issuance of the signal to stop and the actual point of stopping. Broken line D represents the point at which abrasive flow ceases during reverse movement of the nozzle.

Referring again to FIG. 4, a pair of probes 44 are connected during trimming between terminals 42 and control 36 by conductors' 48 so that the electrical resistance of the resistor 10 can be continuously monitored by the control 36 as work proceeds. v j

The vibrator 22 may be connected as shown to the control 36 by conductors 46. The concentration'of abrasive particles in the abrasive jet can be set by adjusting the amplitude of vibrations applied to the mixing. chamber in direct relation to the desired abrasive capability of the jet since the cutting action of the abrasive stream corresponds to the abrasive concentration:

Accordingly, the electrical resistor 10is trimmed by directing a jet of airborne abrasive particles toward the film 40 at close range, while moving the jet at constant forward speed across part of the surface of the film in a path between the terminals 42 so as to reduce its cross-sectional area. While moving the jet the increasing resistance of the resistor 10 is continuously measured and the additional time required to further increase resistance to the desired value can be projected, so that the film material remaining has the desired electrical resistance within a high degree of accuracy. With forward nozzle travel speeds of I inch per minute, resistor values within plus or minus one-tenth percent can be achieved without difficulty. With trimming speeds up to 6 inches per minute, accuracy within three-tenths percent can be obtained; and where less accuracy is required, trimming speeds can be increased to and beyond 15 inches per minute.

For maximum accuracy, trimming should be accomplished by moving the nozzle, not only at constant forward speed, but a constant distance between the nozzle 12 and the film 40.

The control 36 may incorporate a 4-wire resistance limit bridge, integral to the electrical control system, for monitoring the resistor as it is being trimmed and sending a signal to the pinch valve 24 and to the traversing mechanism 28 in the manner and at the time described.

Although the apparatus has been described as applied to the trimming of electrical resistors, the invention is also applicable to the trimming of other kinds of electrical elements such as capacitors. Therefore, the apparatus can be employed whether trimming effects an increase or decrease in the electrical value being measured.

Although not shown, the workpiece can be mounted on a support 32 which includes a clamping device affording quick, secure and easy insertion and removal of the workpiece. The present invention is directly concerned with an adjustably movable support 32 for the workpiece 10, but the same construction may be used for the support 32 for the mechanism 28. Either or both supports 32 may be made as in FIG. 1 to 3, whereby the nozzle 12 and the workpiece 10 are horizontally movable relative to one another during the initial set up and then locked in place for repeated use on a number of similar workpieces.

The movable support 32 of FIG. 1 to 3 includes a horizontal mounting plate 50 having holes 52 for securing the plate to the base 33. It also includes four upright corner posts 54 fixed to the plate 50, as by screws 56, and extending upwardly therefrom. Rigidly supported by the posts 54 above the plate 50 are a pair of widely spaced, parallel bars 58. The bars 58 are of uniform circular cross section and they extend horizontally. Setscrews 60 secure the bars 58 at their end portions to the corner posts 54.

Slidablymounted on the respective bars 58 are horizontally elongated slide blocks 62 and 63 having a horizontal passageway extending longitudinally passageway of block 62 is fitted with a ball bushing 64 which snugly receives the bar 58 in rolling contact to ensure smooth and straight movement of the block on the bar with a minumum of friction. The ball brushing 64 is secured in position by retaining rings 66 engaging the wall of the passageway at opposite ends of the bushing. A felt washer 68 encircles the bars 58 outwardly of each bushing 64 and provides a seal for the passageway.

The other slide block 63 is preferably provided with a ball plunger 70 and locking screw 72 with a knurled head, arranged on the opposite sides of the bar 58 for locking the block 63 to that bar. For this block 62 and the ball bushings 64 may be disposed in a passageway thereof on opposite sides of the lock screw 72, and further provided with retaining rings 66 and felt washers 68.

Connected between the slide blocks 62 and 63 is horizontally elongated slide structure 74, The slide structure 74 is movable with the slide blocks 62 and 63 in a first horizontal directions on the bars 58, although the slide structure is elongated in a second horizontal direction which is at right angles to the direction of movement on the bars 58.

The slide structure 74 comprises a pair of closely spaced bars 76 similar in construction to the bars 58 and disposed in the same horizontal plane with them. The bars 76 are at right angles with the bars 58, however. The ends of the bars 76 are received in sockets in the slide blocks 62 and 63 and secured by screws 78.

therethrough. The 7 The slide structure 74 further includes slide blocks and 82 which are slidably mounted on the bars 76 and joined by a cover plate 84 with screws 86 for unitary movement.

The slide block 80 is structurally similar to the slide block 62 previously described. Therefore, a description thereof will not be repeated, and like reference numerals are employed to designate correspondingly similar parts of the blocks 62 and 80.

Likewise, the slide blocks 82 and 63 are structurally alike, and again like reference numerals are used to designate correspondingly similar parts thereof without descriptive repetitlon.

As will be apparent from the drawings, the movable portion 80, 82 and 84 of the slide structure 74 is movable in one horizontal direction with the slide blocks 62 and 63, and it is also movable in another horizontal direction between the slide blocks 62 and 63. The two horizontal directions are at right angles to each other. Furthermore, the slide bars 58 and 76 are in substantially the same horizontal plane in order to minimize the overall vertical dimension of the support 32.

The cover plate 84 is suitable for mounting either a workpiece 10 thereon, as with an appropriate clamping device (not shown), or for carrying the traversing mechanism 28 in the general manner shown.

In operation, assuming the support 32 to be under a workpiece 10, the lock screws 72 are turned outwardly to disengage them from their respective slide bars. When unsecured the slide blocks 62 and 63 and the slide structure 74 are freely movable in a wide horizontal range within the edges of the mounting plate 50 for positioning the workpiece l0 and the nozzle 12 relative to one another prior to abrading the resistive film 40. Once positioned as desired, the lock screws 72 are turned inward to secure the blocks 62 and 63 and the slide structure 74, and abrading operations may be started.

lclaim:

1. ln abrading apparatus, the combination with a first assembly comprising a vertical nozzle adapted to direct a pressurized abrasive stream toward a workpiece, means for supplying said pressurized abrasive stream to said nozzle, and a stationary support therefor, of a movable support having a horizontally flat surface for supporting said workpiece beneath said nozzle, said movable support being adapted to initially position said workpiece with respect to said nozzle, said movable support including a base mounted to said stationary support a first pair of spaced and parallel bars carried by said base and extending in a first horizontal direction, first slides mounted on the respective first pair of bars for sliding movement in said first horizontal direction, horizontally elongated slide structure extending between said slides, said slide structure including a second pair of spaced and parallel bars extending in a second horizontal direction at a right angle to said first pair of bars, second slides mounted on the respective second pair of bars for sliding movement in said second horizontal direction, and a locking screw carried by at least one of each set of slides and being engageable with the bar associated therewith for locking said movable support against movement.

2. The combination described in claim 1, wherein each of said pairs of bars is disposed in substantially the same horizontal plane.

Claims (2)

1. In abrading apparatus, the combination with a first assembly comprising a vertical nozzle adapted to direct a pressurized abrasive stream toward a workpiece, means for supplying said pressurized abrasive stream to said nozzle, and a stationary support therefor, of a movable support having a horizontally flat surface for supporting said workpiece beneath said nozzle, said movable support being adapted to initially position said workpiece with respect to said nozzle, said movable support including a base mounted to said stationary support a first pair of spaced and parallel bars carried by said base and extending in a first horizontal direction, first slides mounted on the respective first pair of bars for sliding movement in said first horizontal direction, horizontally elongated slide structure extending between said slides, said slide structure including a second pair of spaced and parallel bars extending in a second horizontal direction at a right angle to said first pair of bars, second slides mounted on the respective second pair of bars for sliding movement in said second horizontal direction, and a locking screw carried by at least one of each set of slides and being engageable with the bar associated therewith for locking said movable support against movement.

2. The combination described in claim 1, wherein each of said pairs of bars is disposed in substantially the same horizontal plane.

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