US3816205A

US3816205A - Method for laying wires on tape

Info

Publication number: US3816205A
Application number: US00268742A
Authority: US
Inventors: N Krag; E Hernandez; K Horvath
Original assignee: Electronic Memories and Magnetics Corp
Current assignee: Electronic Memories and Magnetics Corp
Priority date: 1972-07-03
Filing date: 1972-07-03
Publication date: 1974-06-11
Anticipated expiration: 1991-06-11

Abstract

An apparatus and method for laying elongated members such as needle-wire assemblies on the adhesive side of a strip of tape so that the front ends of the needles are accurately spaced from one another across the width of the tape. A strip of tape is laid on the periphery of a wheel with the adhesive side up, and with a front end of the tape extending through an aperture to the inside of the wheel. A needle guide having numerous slots is located immediately in front of the aperture through which the tape extends. The rear end of a needle is laid in one of the slots, with the wire which extends behind the needle being held under moderate tension by a stationary wire guide spaced a small distance from the tape. The wheel is rotated by one turn so all of the wire is laid onto the tape. After the other needle-wire assemblies are similarly laid on the tape, the tape is pulled backwards so the front end is pulled out of the aperture while the needles are pulled back through the needle guide into contact with the tape.

Description

[111 3,816,205 l l Junell, 1974 METHOD FOR LAYING WIRES ON TAPE [75] Inventors: Niels Krag, Pacific Palisades; Ernest S. Hernandez, Hawthorne; Kalman l-lorvath, Lawndale, all of Calif.

[73] Assignee: Electronic Memories and Magnetics Corporation, Los Angeles, Calif.

[22] Filed: July 3,1972 [2]] Appl. No.:268,742

[52] US. Cl. 156/178, 29/203 MM, 29/203 MW,

29/604, 29/605, l56/l68, 156/562 [5 l] Int. Cl B32b 5/00 [58] Field of Search 29 /604, 203 MM, 203 MW,

Draving et al. 29/604 Primary Examiner-Charles W. Lanham Assistant ExaminerCarl E. Hall Attorney, Agent, or Firm-Lindenberg, Freilich & Wasserman [57] ABSTRACT An apparatus and method for laying elongated mem bers such as needle-wire assemblies on the adhesive side of a strip of tape so that the front ends of the needles are accurately spaced from one another across the width of the tape. A strip of tape is laid on the periphery of a wheel with the adhesive side up, and with a front end of the tape extending through an aperture to the inside of the wheel. A needle guide having numerous slots is located immediately in front of the aperture through which the tape extends. The rear end of a needle is laid in one of the slots, with, the wire which extends behind the needle being held under moderate tension by a stationary wire guide spaced a small distance from the tape. The wheel is rotated by one turn so all of the wire is laid onto the tape. After the other needle-wire assemblies are similarly laid on the tape, the tape is pulled backwards so the front end is pulled out of the aperture while the needles are pulled back through the needle guide into contact with the tape.

7 Claims, v 11 Drawing Figures SHEET 3 OF 4 PA'IENIEBJUII I 874 slslsizos PATENTEnJuu I I an SHEET H 0F 4 1. qlZ

1 METHOD FOR LAYING WIRES ON TAPE BACKGROUND OF THE INVENTION This invention relates to apparatus and methods for positioning needle-wire assemblies on tape.

Magnetic core memories used in computers and other applications are constructed by projecting numerous fine wires through a matrix of small toroidal magnetic cores. One method which has been developed for automating such stringing of the cores involve attaching needles to the front ends of the wires, laying the needle-wire assemblies on the adhesive surface of a tape so the assemblies are accurately spaced from one another across the width of the tape, and mounting the tapein front of a matrix of cores. The tape is slowly pulled around a sharp edge so it separates from the needles while causing the needles to advance forwardly into rows of magnetic cores. The needles are pulled after emerging from the matrix so that the wires trailing behind them are pulled through the cores. A large number of needle-wire assemblies, such as 64 of them may thus be simultaneously projected through a matrix of cores. A description of this method is given in U. S. Patent application Ser. No. 245,542, filed Apr. 19, 1972.

In order to perform the above core stringing process, it is necessary to first lay the needle-wire assemblies on the tape at accurately spaced intervals laterally, or in other words in a direction across the width of the tape. It is necessary to maintain especially accurate spacing at the front ends of the needles which must enter the holes in the cores. The wires trailing behind the needles do not have to be accurately spaced from one another, but they should not indiscriminately overlap one another, inasmuch as this can lead to tangling of the wires. The laying of the needle-wire assemblies on the sticky surface of a tape is difficult to perform rapidly and accurately.

OBJECTS AND SUMMARY OF THE INVENTION An object of the present invention is to provide an economical method and apparatus for the laying of elongated members on the adhesive side of a tape.

Another object of the invention is to provide a method and apparatus for the laying of needle-wire assemblies on tape so that the front ends of the needles are accurately spaced from one another across the width of the tape.

Still another object of the invention is to provide a package containing tape with needle-wire assemblies thereon, which can be easily stored without damage to the needle-wire assemblies that would impair their use in the stringing of magnetic core.

In accordance with one embodiment of the present invention, a method and apparatus is provided for laying multiple needle-wire assemblies onto a tape with the front ends of the needles accurately spaced from one another in a lateral direction. The apparatus includes a large rotatable wheel with an aperture'inthe periphery, and a needle guide with numerous slots therein positioned immediately in front of the aperture. A length of tape is laid on the periphery of the wheel, adhesive side up, with a front portion of the tape extending through the aperture in the wheel. A needlewire assembly is positioned by laying the rear portion of the needle in a slot of the needle guide, and extending the wire which trails from the needle through a wire guide that does not rotate with the wheel. The wheel is rotated one turn while the wire is maintained in tension, so that the wire is progressively laid onto the tape. Additional needle-wire assemblies are similarly mounted with the rear portion of the needles in the guide and the wires laid onto the tape. After all the needle-wire assemblies are thus laid, the tape is pulled backwards, so that the front portion of the tape is pulled out through the aperture in the wheel while the needles are pulled backwards through the needle guide. This causes the front portion of the tape and front portions of the needles to be moved into contact withone another. The needle guide accurately positions the needles on the tape since it engages the needles close to the locations where they contact the tape.

The needle-wire-tape assembly can be packaged by laying a strip of adhesive-resistant material such as wax paper on the sticky side of the tape over the needlewire assemblies thereon to form a-sandwich with the tape and protective strip of the outside and the needlewire assemblies on the inside. This sandwich is then formed into multiple elongated overlapping loops. The sides of the loops are held together to form a thin package except at the ends of the loops .where the wires bend. The loops are longer than the needles, and the needles extend only along one side of a loop so that the needles are not bent. A pair of curved retainer members are inserted into each end of the loop to resist creasing of the ends of the loops, which would produce a crease in the wires, and to enable'the ends of the loops to be hung onto posts for easy storage and shipment.

The novel features of the invention are set forth with particularity in the appended claims. The invention will best be understood from the following description when read in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. I is a perspective view of a laying apparatus constructed in accordance with the invention;

FIG. 2 is a partial perspective view of the laying apparatus of FIG. 1;

FIG. 3 is a front elevation view of the apparatus 0 FIG. 1, shown at a later stage of the laying process;

FIG. 4 is a front elevation view of the apparatus of FIG. 3 at a still later stage of the laying process;

FIG. 5 is a plan view of a portion of the apparatus of FIG. 4;

FIG. 6 is a side elevation view of the apparatus of FIG. 5;

FIG. 7 is a partial perspective view of the needlewire-tape assembly at the end of the laying process;

FIG. 8 is a perspective view of a package constructed in accordance with the invention;

FIG. 9 is a side elevation view of the package of FIG.

FIG. 10 is a view taken on the line l0-1( of FIG. 9;

and

FIG. 11 is a partial perspective view of FIG. 8.

DESCRIPTION OF THE PREFERRED EMBODIMENTS of the package front ends of the members are accurately spaced-from one another across the width of the tape. The elongated members are needle-wire assemblies, each including a-thin electrical wire 14 of easily bendable material such as copper, and a needle 16 of a stiffer material such as partially hardenedsteel. The rear end portion 16R of the needle is butt welded to the front end 14F of the wire. The tape 12 has an adhesive 18 on a face thereof, and the needle-wire assemblies 10 are laid against the adhesive face so they are securely held thereon. A large number of the assemblies 10 is laid on the tape, so that after the laying process, a front portion 12F of the tape has the appearance indicated in FIG. 7 wherein the needles 16 are accurately spaced from one another laterally,'or in other words, in a direction across the width of the tape, particularly at the front end 16F of the needles. I

The apparatus for laying the elongated members 10 on the tape includes a larger wheel 20 which is rotatably mounted on a stand '21. The wheel has a curved peripheral surface 22 for holding the tape l2..The tape is mounted on the wheel by first projecting a forward portion 12F of the tape through anaperture 24 in the wheel at the forward end of the tape-holding surface 22, so that the forward tape portion lies within the wheel. The forward tapeportion 12F is wound onto a small drum 26 that is rotatably mounted on the large tion after one turn. As the-wheel rotates in the direction of arrow 56, the wire l4'is laid on progressively more rearward portions of the tape 12, as shown in FlG. 3. The fact that the tape is held in a curve and the-wire 14 is maintained in tension as it extends tangent tothe curve, means that the wire is progressively laid onto the tape, which assures that all wire portions'are firmly pressed onto the tape. Of course, the length of the tape extends circumferentially about the axis of curvature of the tape-holding surface 22. The wire is pressed onto the tape by the force vector of wire'ten'sion that points towards the. center of the wheel. While it is important for the front ends of the needles to be accurately spaced from one another in a lateral direction, it is not important that the wires 12 be accurately spaced from one another, so long as they are firmly pressed against the tape and do not interweave so that they could become entangled.

After a first needle-wire assembly is laid onto-the tape, the next assembly is mounted in a-similar manner, by first locating the rear portion of the needle in the next slot of the needle guide 34, and rotating the wheel by a turn while holding the wire in'ten sion. The needles are preferably laid with their extreme rear ends, where they are butt welded to the wires, lying over a diagonal guide-line 58 marked on the wheel behind the aperture wheel 20, but which is normally locked against rotation. The extreme front end 28 of the tape canbe held to the drum 26 by a small piece of tape laidover it with the adhesive side down. Most of the tape extends around the periphery of the large wheel 20, with the extreme rear end 30 of the tape fastened in place as with a strip of additional tape 32 laid with its adhesive side down.

The needle-wire assemblies 10 are individually mounted on the tape, by first laying a rear portion 16R of the needle in a slot 32 of a needle guide 34. The

needle guide 34 is located immediately in front of the aperture 24 through which the tape extends, and the needle is placed in the guide so that a portion of the needle rests on the tape 12. In order to hold the needle to the wheel so it does not fall out of the needle guide, a strip of magnetic material 36 is mounted on the wheel in front of the needle guide. The strip 36 is constructed.

of a rubber matrix with magnetic particles therein which have been magnetized, so that the strip can readily conform to the surface of the wheel. The wire 14 is maintained in tension along a path which extends through a wire guide 38 that is spaced from the tape 12. The wire guide 38 includes a groove 40 through which the wire extends, and a nut 42 which is threadably mounted on a threaded shank 44. The shank 44 has one end held on a support 46 that is fastened to a stationary table 48. Tension in the wire 10 can be achieved by the operator running the wire through his fingers, as indicated, so that the wire guide 38 serves in conjunction with the operators hand as means for holding the wire in tension and at a controlled lateral position. The needle-wire assemblies may be originally supplied in a tube 50 that may be laid on the support 48 so that the rear portions of the wire initially remain in the tube.

The laying of the rear wire portions on the tape is accomplished by rotating the wheel 20 by a turn. An operator can accomplish this by depressing a pedal 52 that causes a wheel-rotating motor 54 to be energized. An indexing mechanism (not shown) stops wheel rota- 24 (this line can be seen when transparent tape is used) to facilitate the subsequent core stringing process. Inasmuch as the wires should be laterally spaced from one another, the wire guide 38 is laterally shifted after each needle-wire assembly is laidonto the tape, by turning the nut 42 to shift it by a distance approximately equal to the spacing of the slots in the needle guide 34. It may be noted that the length of the exposed tape on the periphery of the wheel is long enough so that the rear ends of the wires do not extend past the rear end of the tape.

After allof the needle-wire assemblies have been laid in the manner described above, the forward portions of the needles must be accurately laid on the tape. This is accomplished in the manner indicated in F IG. 4, by removing the rear end 30 of the tape from the wheel, unlocking the drum 26 which holds the forward portion 12F of the tape, and pulling rearwardly on the tape. This causes the forward portion of the tape to be drawn back through the slot 24 and onto the periphery of the wheel. At the same time, this causes the needles to be drawn backwards through the needle guide 34 and into contact with the tape. The result is that the needles and tape are drawn into contact with one another at progressively more forward positions of the needles and tape. During such rearward movement of the needles, the portions being laidon the tape are maintained at accurate lateral spacings by the needle guide. The needle guide is close to the location where the needles are being pressed onto the tape, so high accuracyof needle location is assured. Accordingly, the front ends of the needles will be accurately spaced from one another across the width of the tape.

Prior to the rearward movement of the tape and needles as indicated in H6. 4, a hold down apparatus is mounted on the wheel 20. This apparatus includes a strip of felt 62 or other material that presses down the needles against the magnet 36 to prevent the needles from moving out of the slots of the needle guide 34. As illustrated in F 16$. 5 and 6, the apparatus also includes a roller 64 of an adhesive-resistant material such as Teflon, which presses the needles against the tape as the tape emerges from the aperture in the wheel, to assure firm mounting of the needles in the tape adhesive. After the front ends of the needles have been fastened to the tape, the needle-wire-tape assembly is ready for use or storage. Another similar assembly can be constructed by laying another length of tape on the wheel, with the front end of the tape extending through the slot in the wheel and disposed on the drum 26, and by again laying a group of needle-wire assemblies in place.

.wire assemblies thereon, and the assembly including the protective strip is wound into loops. The multiple loops are held together along their length, except at the opposite ends 74, 76 by several binders 78 such as lengths of masking tape. The

loops

74, 76 at the opposite ends are provided so that the wires do not undergo sharp bends that would hamper their use in stringing magnetic cores. The length of the package .70 is greater than the length of the needles l6, and the needles extend only along one straight side of a loop. This is to prevent bending of the steel needles, which are too stiff to bend in a short radius curve without damage. After the package is thus formed, a pair of

curved members

80, 82 is inserted within each looped

end

74, 76. The

curved members

80, 82 are stiff enough to resist compression to a flat state, so they help prevent creasing of the ends of the loop during handling. Each of the curved members 80 also serves to provide a mounting for mounting the package on posts 84. The mounting of the packages on the posts 84 helps to avoid damage, which would be more likely to result if the packages were merely piled on top of one another during storage. The

members

80, 82 also help to prevent damage to the package during projection of the posts through the looped ends of the package. I

Thus, the invention provides an apparatus and method for laying elongated members, and particularly needle-wire assemblies, on tape in a closely controlled manner, with the front ends of the needles accurately spaced in a lateral direction across the tape. This is accomplished by laying a portion of each member spaced from the front end thereof, in a guide with apertures that are accurately spaced in a lateral direction, and by mounting the-tape so a front portion thereof which is at a location immediately behind the guide, extends out of line with the guide. The elongated members are pressed against the tape and held in tension while being laid on the tape. During such laying, the tape is held in a curve, so that the force pressing the elongated members on the tape is supplied by reason of tension of the members. This also assures progressive laying of the members on the tape so that all portions of the members are securely held thereon. The curved tapeholding surface does not have to be part of a wheel, but can even be part of a belt with a portion extending in a curve. Furthermore, it is not necessary that the tape move relative to the wire guide, but instead the wire guide can move relative to the tape while the tape is held stationary in a curve. After laying of the elongated members on the tape, the tape is pulled rearwardly so that the front ends of the members are drawn into contact with the front portion of the tape, the guides holding the members at accurately spaced locations near the points where the members contact the tape, thereby assuring that the front ends of the members are accurately spaced from one another. The assembly which includes the tape and elongated members, can be packaged for convenient storage by wrapping the assembly into multiple overlapping loops. The opposite sides of the loops are pressed against one another except at the ends which are left rounded to prevent sharp bends in the elongated members.

Although particular embodiments of the invention have been described and illustrated herein, it is recognized that modifications and variations may readily occur to those skilled in the art and consequently it is intended that the claims be interpreted to cover such modifications and equivalents.

What is claimed is:

l. A method for laying a plurality of elongated members onto tape which has an adhesive-like surface, at closely controlled lateral spacings thereon at the front portions of the members comprising:

placing predetermined first portions of said elonthe forward tape portion and forward portions of each of the elongated members into contact with each other and maintaining closely controlled lateral spacing of the members.

2. The method described in claim 1 wherein:

said step of securing second portions of said elongated members onto said tape, includes maintaining said second portions of a member in tension while holding said tape in a curve and creating relative movement of the tape to the elongated memher so the member progressively wraps onto progressively more rearward locations of the tape.

3. The method described in claim 1 wherein:

said elongated members comprise electrical wires and needles which are stiffer than the. wires and which are fastened to the front ends of the wires;

and

said step of securing predetermined first portions of said elongated members on said first tape region includes laying rear portions. of said needles in a guide having laterally spaced passageways; and

said step of guiding the forward tape portion and the forward portions of the elongated member includes passing said forward tape portion rearwardly about a curve into a path substantially in line with said needles, and sliding said needles rearwardly through said passages of the guide.

4. A method for applying needle-wire assemblies that include needles fastened to the front ends of electrical wires, onto an elongated length of tape that has an adhesive side, at intervals spaced laterally across the width of the tape, comprising:

mounting a portion of said tape on a convexly curved support with the length of the tape extending circumferentially at least 90 about the axis of curvature of the support and with the adhesive side of the tape exposed, so that said tape portion is convexly curved along its length;

positioning at least portions of the needles against said adhesive side of said tape portion at accurately controlled positions that are laterally spaced across the tape; and

holding said wires in tension and extending substantially tangential to the curved tape and at laterally controlled positions while laying them progressively onto said convexly curved tape portion along the lengthwise dimension of the tape so that the wires contact the tape along an arc of at least 90.

5. The method described in claim 4 wherein:

said step of mounting a tape portion includes mounting it on a rotatable wheel;

said step of positioning said needle portions includes locating said needle portions in the apertures of a needle guide that has laterally spaced apertures, and that is mounted on said wheel; and

said step of holding said wires in tension includes passing the wires through a wire guide that is accurately located on a support which can remain stationary when the wheel rotates, and rotating said wheel so the needle guide thereon initially moves away from the drag inducing means.

6. The method described in claim 5 wherein:

said tape is mounted so that it is sharply curved at a location immediately behind the needle guide, with a tape portion behind the sharp curve extending substantially in line with the needle guide and with a forward tape portion in front of the sharp curve extending into the wheel; and including pulling said tape with wires thereon away from th guide so that progressively more forward portions of the needles move into contact with the forward portion of the tape.

7. A method for laying a plurality of elongated members onto tape at closely controlled lateral spacings thereon at the front portions of the members comprising:

placing predetermined first portions of said elongated members which are spaced from the front ends thereof on a predetermined first tape region which is spaced from a forward tape portion communicating with a front end of the tape, and at positions on said first tape region which are accurately spaced from one another laterally across the width of the tape;

securing second'portions of said elongated members which are behind said first portions thereof, onto regions of said tape behind said first tape region;

pulling said tape with the rear portions of said elongated members thereon, rearwardly, while guiding the forward tape portion and forward portions of each of the elongated members into contact with each other and maintaining closely controlled lateral spacing of the members; and

maintaining said elongated members in place on the tape.

Claims

1. A method for laying a plurality of elongated members onto tape which has an adhesive-like surface, at closely controlled lateral spacings thereon at the front portions of the members comprising: placing predetermined first portions of said elongated members which are spaced from the front ends thereof on a predetermined first tape region which is spaced from a forward tape portion communicating with a front end of the tape, and at positions on said first tape region which are accurately spaced from one another laterally across the width of the tape; securing second portions of said elongated members which are behind said first portions thereof, onto regions of said tape behind said first tape region; and pulling said tape with the rear portions of said elongated members thereon, rearwardly, while guiding the forward tape portion and forward portions of each of the elongated members into contact with each other and maintaining closely controlled lateral spacing of the members.

2. The method described in claim 1 wherein: said step of securing second portions of said elongated members onto said tape, includes maintaining said second portions of a member in tension while holding said tape in a curve and creating relative movement of the tape to the elongated member so the member progressively wraps onto progressively more rearward locations of the tape.

3. The method described in claim 1 wherein: said elongated members comprise electrical wires and needles which are stiffer than the wires and which are fastened to the front ends of the wires; and said step of securing predetermined first portions of said elongated members on said first tape region includes laying rear portions of said needles in a guide having laterally spaced passageways; and said step of guiding the forward tape portion and the forward portions of the elongated member includes passing said forward tape portion rearwardly about a curve into a path substantially in line with said needles, and sliding said needles rearwardly through said passages of the guide.

4. A method for applying needle-wire assemblies that include needles fastened to the front ends of electrical wires, onto an elongated length of tape that has an adhesive side, at intervals spaced laterally across the width of the tape, comprising: mounting a portion of said tape on a convexly curved support with the length of the tape extending circumferentially at least 90* about the axis of curvature of the support and with the adhesive side of the tape exposed, so that said tape portion is convexly curved along its length; positioning at least portions of the needles against said adhesive side of said tape portion at accurately controlled positions that are laterally spaced across the tape; and holding said wires in tension and extending substantially tangential to the curved tape and at laterally controlled positions while laying them progressively onto said convexly curved tape portion along the lengthwise dimension of the tape so that the wires contact the tape along an arc of at least 90*.

5. The method described in claim 4 wherein: said step of mounting a tape portion includes mounting it on a rotatable wheel; said step of positioning said needle portions includes locating said needle portions in the apertures of a needle guide that has laterally spaced apertures, and that is mounted on said wheel; and said step of holding said wires in tension includes passing the wires through a wire guide that is accurately located on a support which can remain stationary when the wheel rotates, and rotating said wheel so the needle guide thereon initially moves away from the drag inducing means.

6. The method described in claim 5 wherein: said tape is mounted so that it is sharply curved at a location immediately behind the needle guide, with a tape portion behind the sharp curve extending substantially in line with the needle guide and with a forwaRd tape portion in front of the sharp curve extending into the wheel; and including pulling said tape with wires thereon away from the guide so that progressively more forward portions of the needles move into contact with the forward portion of the tape.

7. A method for laying a plurality of elongated members onto tape at closely controlled lateral spacings thereon at the front portions of the members comprising: placing predetermined first portions of said elongated members which are spaced from the front ends thereof on a predetermined first tape region which is spaced from a forward tape portion communicating with a front end of the tape, and at positions on said first tape region which are accurately spaced from one another laterally across the width of the tape; securing second portions of said elongated members which are behind said first portions thereof, onto regions of said tape behind said first tape region; pulling said tape with the rear portions of said elongated members thereon, rearwardly, while guiding the forward tape portion and forward portions of each of the elongated members into contact with each other and maintaining closely controlled lateral spacing of the members; and maintaining said elongated members in place on the tape.