CA1060401A - Tape punch machine - Google Patents

Abstract

ABSTRACT OF THE DISCLOSURE

A tape punch machine in which a change in feed hole orientation is easily accomplished by resorting to a feed hole punch having a punch stem off-set to one side of the supporting shank.

Description

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This invention relates to a cyclically operable tape punch machine in which the punches are selected by interposers in turn actuated by command signals. In particular the invention relates to the form of a punch employed to punch a feed opening in the tape and the primar~ object of the invention is to so construct a set of punches, one in particular, that a change in the location of the feed opening may be easily accomplished.
According to the present invention there is provided a cyclically operable tape punch machine for punching a tape in accordance with command signals, the machine having a plurality of punch elements arranged in openings formed in a die block for advancing and restoring movement, including a special punch element for punching the tape with a feed opening, the punch elements having shanks of substantially the same diameter. Interposers are movable from a restored to an actuated position for selecting the punch elements to be operable in each cycle of the machine and having the selector ends thereof disposed adjacent the punch elements in théir restored position.
The special punch element has a punching stem of reduced diameter off-set to one side of its shank for punching a feed hole which is off-center compared to the openin4s punched by the other punch elements.
In the drawing:
Fig. 1 is a plan view of the machine of the present invention;
Fig. lA is an elevation of a sub~assembly of the machine;
Fig. 2 is a partial sectional view of the machine shown in Fig. 1, on an enlarged scale;
Fig. 3 is a sectional view on the line 3-3 of Fi~. 2;

-, . .,-` ~ ~060401 Fig. 4 is a sectional view on the line 4-4 of Fig. 2;
Fig. 5 is a fragmentary sectional view on the line 5-5 of Fig. 4;
Fig. 6 is a diagram which relates machine functions;
Fig. 6A is a fragment of a tape which may be produced by the machine;
Fig. 7 is a view at the back of the machine and showing an adjusting lever of modified form;
Fig. 8 is a timing diagram; and Fig. 9, 9A and 9B show punch configurations.

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The tape to be punched is advanced from a supply reel, not shown, through a guide tray 20, Figs. l and 2.
To feed the tape, a feed wheel 23 is afforded. The feed wheel has teeth 23T engageable with feed openings in the tape, The feed openings are produced in the tape concurrent wit~ code punching the tape as will be explained.
The tape is punched inside a die block 26 diposed between the guide tray and feed wheel. The tape is fed through a slot 27 in the die block.
To punch the tape, a plurality (nine) or aligned selectively operable punches 29 are mounted for vertical movement in guide openings 31 in the die block. Each punch has a sharp upper end 29~ for perforating the tape.
To locate the pùnches in normal position, the shank of each punch is formed with a shoulder 29S engageable with a stop 32 m~unted on the underside of the die block.
To drive the punches, the lowex or shank ends of the punches are disposed in apertures 34 of a vertically movable driver bar 35. The punches are selected for operation by thin, flexible, blade-like selectors or interposer slides 36, there being an interposer for each punch.
A separate, intermediate punch 2gA, Fig. 4, is active in each cycle to punch a feed opening in the center of the tape.
The driver bar is slotted at 37, affording entry of the free ends of the interposers. The slot intersects the apertures 34 so-that each aperture has a portion above and below the slot. The free end of each interposer is normally locatea at the entry of the slot 37~ To guide the interposers into the Flot the driver bar is formed with

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lOhO401 be~eled walls 37A and 37B which afford an interposer guide throat divergent outwardly of the slot 37 in the direction of the interposers. No other guide is necessary for assuring entry of the free end of an interposer into the slot 37.
The interposers are controlled by solenoids S, Fig. 3, in a manner to be described in more detail. When a solenoid coil is energized by a command signal the free end of the related interposer is extended into slot 37 to engage and support the lower end of a related punch which is thereby selected for operation. Consequently, when the driver bar 35 is elevated the supported, selected punch is actuated to punch the tape. If an interposer or slide remains retracted from slot 37, the lower end of the related punch is not supported; it is idled and experiences lost motion within the lower section 34A of its aperture 34 when the driver bar is raised. To restore an active punch as an incident to restoring (lowering) the drivier bar, a punch restoring blade 38 is supported on the driver bar and engages a shoulder 39 on each punch.
The driver bar is operated by a crank assembly including an oscillating link 40 and a drive arm 42 which operates the link. The link 40 is in the form of a yoke, having two fingers 44, Fig. 44, joined by a bail 45. The bail 45 is provided with an aperture enabling the link yoke 40 to oscillate on a support shaft 46, Fig. 2 and 5, extended therethrough. The driver ~ar 35 is also of yoke form in that it has two dependent legs 35A. The free ends of the link fingers 44, characterizing the link yoke, are provided with fixed pins 48 and 49 which loosel~ fit apertures in the legs 35A of the driver bar 35. In this manner the oscillating

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ink and driver bar are loosely yoked to enable ~he driver bar and die head quickly to be changed in a manner to ~e explained.
The link 40 is oscillated to reciprocate the driver bar. To do this, the upper end of arm 42 is Lormed with an opening through which is extended a pin S0 having i.s opposite ends supported by the link fingers 44, Fig. 5.
~rm 42 is oscillated by an eccentric 53 on a shaf~ 54 driven b~ a pulley55, Fig. 4, turned by a belt 56, Pig 1, in turn driven by an A.C. motor, not shown.
The starting position of the driver bar may be adjusted within a thousandth of an inch by a lever ~, ~ig. 2. This adjusts the restored position of the punch elements. Lever 60 is supported for pivotal movement on a fixed pin 61, Fig. 5. Lever 60 is clamped against the fram2 of the machine by a washer and screw 63, Fig. 2, and by a nut 64, Fig. 4, the latter being threaded on the end of sha~t 46 which is extended through an elongated slot 66, Fig. 2, formed in the side frame 67 of th2 machine, ..
allowing adjustment. When parts 63 and 64 are loosened, the lever ma~ be repositioned on support pin 61 as a pivo~, raising or lowering the pivot shaft 46. LinX 4Q
then pivots about pin 50. Since link 40 Su~pO~LS ~he driver bar which in turn supports the punches, t e latter are raised or lowered relative to the path or the tap2 through the die block.
When a solenoid is energized, a lever 70, ~ig. 2, is effective to thrust the related interposer into ~he slot of the driver bar. The lever ? is L-shap~d and has one leg 71 pivotally supported on an edge 72 formed in a ~06Q40~
solenoid mounting bracker 74. Leg 71 is of magnetic material and is presented to the core or armature 75 of the solenoid.
A pin 77 is supported by the other leg 78 of the lever 70. The pin fits an opening in the related selector or interposer 36.
There is, of course, a solenoid S and related lever assembly 70 for each interposer. When a solenoid is energized, its lever 70 pivots clockwise, Fig. 2, thrusting the related interposer 36 into the slot of the driver bar 35. The throat 37A-37B serves as a guide, assuring the actuated interposer is presented to the punch to be selected.
A le~f spring 81, Flg. 2~ restores an activated interposer and its supporting slide. The free end of the leaf sprlng flts an opening 82, Fig. 3, in the interposer while the opposite end is secured to a support post 84.
The spring is under tension as long as the lnterposer is in an actuated position and is effective to restore the actuated parts when the related solenoid is de-energized.
The wheel for advancing the tape is turned by a stepping motor 85, Flg. 2, which drives a sprocket 86.
The shat of the tape drive wheel is provided with a sprocket 87. A timing belt 88 connects these two sprockets.
It has been mentioned the restored position of the punches may be adjusted by lever 60. The idle or restored position of the interposer slides 36 may also be accurately ad~usted by means of a fixed stop 88 at the underside of the die block 26 and an adjustable stop 89 which is supported in a manner to be described.

In this connection it will first be noted ~he solenoi~ bxackets 74, Fig. 2, are secured as part of a solenoid sub-assembly to a mounting plate 90 in turn fastened to the unde~si~ of a support plate 91. The interposers slide on the top of plate 91. The spring support member 84 includes a plate extension 8aA ~verlying the interposer slides so that the interposers are sandwiche~
between plates 91 and 8aA. The interposer guides are essentialiy the springs 81 and pins 77. A detachable cover 92 protects the interposers.
A vertical flange 94 is integral with pla,~ 90, a~ording a mounting bracket fastened ~y il~x head so~ews as 95 to the inside face of the side frame 67 as shown in Fig. 2. Only one of the fastening screws 95 is shown.
The flange 94 is slotted at 96 to receive ~he fas,&ning screws which, when loosened, permit the mounting bracket 90-94 to be shifted fore and aft, shifting the interposers at ~he same time.
As mentioned, the means for adjusting the restored position of the interposers includes a fixed stop 88 and an adjustable stop 89. Tne latter is in the form o a bail o~ strap, Figs. 2 and 3, supported on the upper side or plate 91 for adjusting movemen~ toward or away *rol~ sto~ 88.
This adjustment is made at the time of factory ass&~ly.
Afterwards the sub-assembly (colenoids, interposers and levers 70) supported by bracket plate 90-94 is positioned on the side frame, slid forward until stop 8~ is ag~inst stop 88 and then the securing screws as 95 are tig;n,ened This sub-assembly, detached, is shown in Fig. lA.
Thus, the pre-set position of the stop means 89 - ` 10604~1 -locates the selec~ox ends of ~he interposers in the throat of the dxiver bar, spaced by that distance from the shank ends of the punches which will be most responsive ~or selecting the punches in accordance with the timing characteristics of each machine.
This arrangement also enables the punches and die block to be changed, as fox instance when the punch diameter is to be changed or when there is to be an alteration in the location or size of the punch 29~ which provides the feed openings in the tape. Thus, by loosening the screws as 95, the support bracket 90-94 may be shifted to the left, Fig. ~, afordiT~ ~cces~ to ~h~
driver bar 35. The dri~er bar, it will be recalled, is supported on two pins 48 and 49, Figs. 4 ana 5, fixed to ~he link fingers 44. This is a loose support, that is, the pins 48 and 49 only loosely ~slidably) fit the openings in the legs 25A of the driver bar. Also, the driver bar ~-and die block are joined by the stop 3~.
Consequently, when plate 91 and the interposers are shifted to clear the left side OL the driver bar, Fig. 2, and after removing a screw 98 which secures the die block in operative posi~ion on the side frame 67, the die block ana driver b æ may be extracted as one unit merely by sliding the legs 35A of the driver bar off the plns ~8 and 49, to the left as viewed in Fig. 4 By removing stops 32 and 39, the punches may be extracted. Repositioning is in the opposte direction, the driver bar legs being slipped on to the pins. In this connection it will be noted, Fig~ 4, ~ the right leg 35A of the driver bar is shorter ~han ~he 3~ left, and the left finger 44 of the lin~ 40 is fl~tten3d at 44' to facilitate extraction and slip fi~ insertion of the die block-driver bar sub-assembly.
In operation, shaft 54 is constantly ~riven, which means the driver bar is constantly reciprocated but no punch is active unless its solenoid is energized. These and other operating and functional characteristics of th~
machine are shown in Figs. 6 and 6A.
The leading end of a tap~ T in the course of movement through the machine is shown in Fig. 6A. Machina 1~ functions are diagrammed in Fig. 6.
As already noted, punch 29A, Fig. 4, once the tape i~ threaded on~ he reed wh~elt is cons~arLtly acti~e ~n successi~e cycles, which means its solenoid is consLantly ; ~-active. Referring to Fig. 6/ the feed punch motian i5 6hown as a sine curve ~in and out of t~e papex) which characterizes the successive, constant cycles of the driver ba~. Total movement of the driver bar from bottom aead center to top dead center is only about 0.120", the punch ~ravel being slightly less. The code punches, when actuated, undergo the same motion, Fig. 6.
Further in connection with Fig. 6A, it is ass~mea that one of the code punches is actuatea in t~70 successive cycles ~A, B), that this same punch is idlea in the ~ollowing cycle (space X on the tape~ and that the same code punch is actuated in the next cycle, punched hole C, ~ig. 6A
Since the tape will be undergoing feeding movement before the punch commana signals are originated, two feed hole punches (1, 2) are sho~n in the tape in advance of the first code hole, A.
~? The feea wheel 23 is s~epped by motor 85. The feed tape can only be advanced when the punches are withdr2-~n from the paper. consequently, as shown in Fig. 6, motor 85 is stepped only during the 180 period which intervenes between the time the punches are withdra-~Jn fro~ the tape and their next en,ry into the tape. We have found that with the increment of tape advance involved be~ween rows of holes (a spacing increment of only one-tenth of an înch) the inherent tendenc~ for the stepping motor to oscillate at times produces an uncertain and inaccurate end point of tape movement when a single stepping pulse is used, whereas this oscillation can be da~pened and for all practiczl purposes removed, resulting in accurate and predictahle tape positioning, by applying two s~epping pulses to motor 8~ for each increment ~O~l") o~ tape spacing movement~
Applying tt~o stepping pulses to ~he stepping motor must, of course, be timea accurately to punch movemen~. -In accordance with the present invention this is acco~plishea by switch means timed and controlled ~y sha~t 54, enabling the voltage applied to the stepping motor to be varied. Referring to Fig. 7 a plurality of steel slugs are mounted on a disc lOl in turn secured to shaft 54 for ro~ation therewith. In Fig~ 7 the slugs are shown as five in number, arbitrarily identified as 102-l through 102-5.
The slugs rotate past a coil 104 and an associated pexmanent magnet 105 which sets up a field with a cer,ain flux density. As a slug moves past the coil 104, the magnetic flux density changes because the reluctance o the magne-tic circuit changes, and accordingly an enabling signal is ~i~ generated much in the manner of a switch operated by a ^~ :

106~401 timing cam on shaft 54. ~hile the sequence of the timing slugs may be changed from what is given hereinafter, it may be assumed for purposes of disclosure that switching slug 102-1 generates a control signal to switch from twelve volts to twenty-four volts, slug 102-3 generates a control signal to switch from twenty-four volts to twelve volts, and the fifth slug 102-5 results in generation of a control signal enabling the voltage to be dropped from twelve volts to zero. The voltage referred to is the voltage source (not shown)~employed to operate the stepping motor and to operate the interposer solenoids.
The magnetic circuit forapp~ying accurately timed voltage changes may also be used to control operation of the interposer~solenoids. Inasmuch as the feed punch 29A i5 always sctlve and lnasmuch as any one of the code punches may be active in ~uccessive cycles when the tape is being punched, as shown in Pig. 6A, it become advantageous to hold the interposers in actuated position when it is determined that the function of a punch is to be repeated in successive signals. This conserves the solenoid. The sensing means for deter~ining a succession of punch function is not shown and plays no part in the present invention. It may be simply noted a sensing means is employed to dstermine in advance if a punch active in a previous cycle is to be active in the next succeeding cycle, and of course this is constantly true of the punch for creating the tape advance holes.
It is assumed the voltage source (t~enty-four volts) imposed on a solenoid coil is required to operate the related lever 70 from a completely restored or idle position clockwise to the position where it drives the related interposer into the driver bar slot but considerably less voltage ~twelve volts) is required to maintain that same lever and its interposer in punch selecting position~
Again, since the reference frame for all timing of machine functions is identified with shaft 5~, the slugs on disc 101 may be usea to step-moaulate the voltage ~or the solenoids S between operating voltage, holding voltage and drop-out (zero) voltage. This is sho~,~n in Fig. 6. The ~oltage for the code punching solenoids may vaxy between zero, twelve or twenty-four. Twenty-four volts is requ~red to move a~ interposer from restored to punch selector position, whereas only twelve volts is required to hold the interposer there~ Consequently, the same timing slugs used to pulse the stepping motor may be employed to step-modulate the ~oltage applied to the solenoid coils as will be evident from ~ig. 6.
A modified form of lever for adjusting the punch strake is shown in Fig. 7, lever 60A; its pivot is at 61A.
As shown in Fig. 6A the openings punched for advancing the tape are of considerably smaller diame~er than the so-calIed code holes, serving as a distinction in appearance. In Figs. 9, 9A and 9B more detail is presented. The feed hole F, ~ig. 9A, may be centered on the code holes C and consequently the stem S of punch 29A
which presents the punch end is centered with respect to the shank. The shank has a diameter D, the same as ~he diameter of the t~pical code hole punch 29, Fig. 9.
However, a requirem2nt is scmetimes that the feed opening punched in the tape be of the so-called advanced feed hole orientation. This is shown in Fig. 9B where the feed hole F' is in tangent position compared to the code ho].es C. Any change in this regard in the machine is easily accomplished under the present invention simply by changing the die block to accommodate a modified punch 29A', Fig. 9B, in which the stem S' is off-set to one side of the shank diameter D. The two punches, 2~A and 29A' are there-fore supplied as a set, permitting interchange in the die block.
In further explanation of the foregoing and as can be visualized from Fig. 2, accurate positioning is required for the punches both from the standpoint of locating the shoulders as 29S and 3~, properly to the related stop 32 and xestoring blade 38, and locating the lower ends of the punches to be operatively engaged by an int~rposer. Heretofore, when there has been need to punch the so-called advanced feed hole, a punch of the kind shown in Fig. 9A has been used but this requires a die block specially constructed with a similarly advanced (off-center) opening for the punch. In other words, the punch for the advanced feed hole has to be literally shifted forward in the die block. The amount of movement is not much but it requires a special interposer of increased length and ch~nges are also required so that the shoulders 2~5 and 39 are not beyond the reach of the stop and the restoring blade or bail 38.
In accordance with the present invention changes such as the ~oregoing are not involved. Onl~ the die blocks need be changed, one die block being furnished to the customer and having the on-center punch 29, Fig. 9A, whilst a second die block is fuxnished with the advanced feed hole punch 29A', Fig. 9B; the:interposers are not ch.anged at all and there is no need to make any - -alterations in the relationship be tween the stop 32, bail.38, shoulder 29S and shoulder 39.

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Claims (3)

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. A cyclically operable tape punch machine for punching a tape in accordance with command signals and comprising:
a plurality of punch elements arranged in openings formed in a die block for advancing and restoring movement, including a special punch element for punching the tape with a feed opening, the punch elements having shanks of substantially the same diameter;
interposers movable from a restored to an actuated position for selecting the punch elements to be operable in each cycle of the machine and having the selector ends thereof disposed adjacent the punch elements in their restored position;
and said special punch element having a punching stem of reduced diameter off-set to one side of its shank for punching a feed hole which is off-center compared to the openings punched by the other punch elements.

2. A cyclically operable tape punch machine accord-ing to claim 1 including:
a reciprocal driver bar having apertures receiving the shanks of the punch elements, said driver bar having a slot intersecting said apertures, said punch elements in their restored position being supported by a stop to have the shank ends therof exposed to the slot;
said interposers having the selector ends thereof disposed at the entry to said slot in the restored position;

means for actuating the interposers to move the end of an actuated interposer into the slot to support a punch element for movement with the driver bar;
and means for reciprocating the driver bar.

3. A machine according to claim 2 having a restoring blade on the driver bar engageable with the punch elements to restore the punch elements.