DE1076972B - Arrangement for lining up a number of elements provided with holes on a thread-like carrier - Google Patents

Description

GERMAN

The manufacture of increasingly in electronic message processing equipment The matrix memory with ring-shaped magnetic cores used was previously done by hand. One led to do this, the wires either with the help of a pair of tweezers through the magnetic cores to be lined up or with the help a needle, at one end of which the wire is bent in the shape of a hook.

The previously known methods for lining up ring-shaped magnetic cores on a wire are slow and tiring for the performer. In addition, they often give rise to damage to the Wire insulation and cause errors in the wiring, which are known only in the finished circuit are very difficult to remove.

It is therefore the object of the invention to create an arrangement that allows the lining up ring-shaped magnetic cores on a metallic conductor or, in general, lined up with Carry out holes provided elements on a thread-like carrier by machine and thus the mentioned Avoid disadvantages.

Such an arrangement contains, according to the invention, one provided with slot-like depressions Device in which the elements to be lined up can be inserted in such a way that they with their Holes are aligned in a row at least in one direction, a hollow needle of such a length that it passes through all elements of a row, a device for moving the hollow needle from a rest position outside of the elements to be lined up in a working position in which the hollow needle passes through all elements of a row, and for moving the hollow needle from the working position back to the rest position, a device for pushing the thread-like carrier through through the hollow needle and a device for holding the thread-like carrier on the side of the Hollow needle on which it emerges from this when it is in its working position.

The arrangement works in such a way that the hollow needle first passes through the elements to be lined up in its Working position out and then the thread-like carrier is pushed through it. if if the latter emerges from the hollow needle, it is held in place and the hollow needle is withdrawn into its rest position. By means of a further device, the thread-like carrier can then be directly attached to the Hollow needle are cut off.

A simplification of the arrangement results if it is constructed in such a way that the hollow needle is reached when it is reached their working position leaves the device for their movement and from another device is recorded, which they then also to the arrangement for lining up a number

perforated elements

on a thread-like carrier

Applicant:

ίο IBM Germany

International office machines

Gesellschaft mb H., x ₅ Sindelfingen (Württ.), Tübinger Allee 49

Claimed priority: V. St. v. America October 4th 1956

Walter Purdy Shaw, Wappingers Falls, N. Y., and Roderick Wylie Link, Poughkeepsie, N. Y.

(V. St. A.),
have been named as inventors

Return to their rest position in the device mentioned again. Then this can Device both for moving the hollow needle and for pushing the thread-like carrier through can be used through the hollow needle.

Should, as is usually the case, the elements be lined up on several carriers running parallel to each other, so you can get a corresponding Arrange number of such arrangements in parallel next to one another and the devices mentioned use common for all arrangements. In addition, if the elements are still on further in different Directional groups are lined up in parallel to each other should, for example in matrix form in rows and columns, one can use the slot-like depressions provided device rotatably arrange and build so that the elements to be lined up such can be inserted that they are aligned in rows with their holes in several directions.

The invention is explained in more detail below using an exemplary embodiment. First, with the help of the drawings, in which Fig. 1 is a side view and
Fig. 2 shows the plan view of the embodiment.

909 758/257

Fig. 3 to 7 the individual stages of the workflow,

8 shows the section 8-8 of the core carrier in the upper left part of FIGS. 2 and

9 shows the wire cutter

shows the embodiment and then described its operation.

The embodiment according to the invention, an arrangement for lining up a number of ring-shaped Magnetic cores on two mutually perpendicular groups of mutually parallel metallic Conductor, as FIGS. 1 and 2 show, essentially consists of a core unit 10 and one Needle unit 12, which are fastened on a base plate 14.

The core unit 10 is attached to the plate 16 and is attached to the plate 16 in the base plate 14 Axis 18 rotatable. The plate 16 has two grooves 20 and 22 offset from one another by 90 °, which it together with the pawl 24 allow the plate to be locked in either of two positions. The pawl 24 slides in the rail 26, which is fastened to the base plate 14 with the screws 28 is, and is pressed into one of the grooves 20 or 22 by a spring. You can use the handle 30 from the engagement with the grooves are released.

A vacuum chamber 32 is mounted centrally on the plate 16 and is passed through the hose 34 is connected to a pump. A core carrier 38 can be inserted into a flange 36 of the vacuum chamber 32 will. A suitable material, e.g. B. Foam rubber to be inserted for sealing.

In FIG. 8, the core carrier 38 is shown in section 8-8 of FIG. In the six slot-shaped recesses 40 there are four ring-shaped magnetic cores 42 here. From the lowest point of each depression 40 a channel 44 leads through the core carrier 38. As the core carrier 38 is the lid of the vacuum chamber 32 forms, the vacuum in this is transmitted through the channels 44, so that it the magnetic cores 42 holds in their wells 40. For further fastening of the magnetic cores 42, a piece of transparent electrostatic material, as it is often used for packaging food or the like, be placed over the magnetic cores. That is then through the about the. Vacuum created by magnetic cores pressed firmly on this. The core carrier 38 is also provided with grooves 46 which, as in FIG 8 and 8 show only extending in one direction.

In Fig. 2, only a part of the depressions 40 is shown for a better overview, some of them are still unequipped so that the channels 44 can be seen. However, the recesses 40 are uniform over the Core girders distributed.

In Figs. 1 and 2, a wire clip 48 is shown, which is attached to the attachment 50 attached to the base plate 14. The wire clip will tensioned by a spring and can be kept open by the bolt 52, which engages at point 54. To close the wire clip 48, the bolt 52 is released.

The needle unit 12 is carried by a plate 59 which is rotatable about point 60 with the frame 62 is connected. The frame 62 is attached to the base plate 14 with the screws 66 Rails 64 slidably mounted. A bearing block 68 is fastened to the plate 59 with the screws 70, which carries a number of wire spools 72 rotatable about axes 74 and 76.

A shoulder 78, which is attached to the plate 59 with the screws 80, carries the needle feed, which is shown in Fig. 3 in section. A T-piece 82 is attached to the shoulder 78 with the screws 84 attached. The surface of the T-piece 82 is provided with a number of parallel grooves 86 which the hollow needles 88, through which the wires 90 of the wire spools 72 pass. On the tee 82 is a transparent plate with screws 94

ίο 92 attached, which the hollow needles 88 in the grooves 86 holds and allows the hollow needles 88 to be observed during operation.

With the adjusting screws 96, which pass through the T-piece 82, the needle unit 12 of the Height to be aligned so that the hollow needles 88 with the holes of the magnetic cores 42 in the Core carrier 38 lie in a line.

On the approach 78 with the bearing block 104, two rollers 100 and 102 are perpendicular to one another

ao stored, the distance between which can be adjusted with the aid of the adjusting screws 108. With the rotary knob 110 mounted on the axis of the roller 102, the rollers 100 and 102 can be rotated. A brake roller 112 is rotatably mounted in two bearing blocks 113. The bearing blocks 113 are slidably fastened in the shoulder 114 fastened to the T-piece 82 with the screws 115. Eccentric cams 117 are attached to the shaft 116 shown in FIGS. 2 and 3 and engage the bearing blocks 113. With the aid of the lever 118, which is fastened to one end of the shaft 116, the brake roller 112 can be brought into engagement with the hollow needles 88 via the cams 117 in such a way that they can either be moved (FIG. 4) or (FIG. 5 ) §T ^e if the T-piece 82 be pressed.

In Fig. 1, a braking arrangement for the wire spools 72 is shown. In the elongated hole 122 of the bearing block 68 is fastened with the screw 121 of the carrier 119, which is made of rubber or the like. Existing Brake shoes 120 carries. By moving the carrier 119 on the bearing block 68, the brake shoe are brought into engagement with the wire spools 72. The friction is adjusted so that the Wires 90 are not moved during the advance of the hollow needles 88 through the rollers 100 and 102. If the ends of the wires 90 do not protrude from the hollow needles 88, what by turning back the wire spools 72 can be reached, need the wire spools 72 during the advance of the hollow needles 88 not to be braked.

The wire cutter 130 is shown in FIG. 9. It essentially consists of the knife 132, which can be operated with the handle 134. The ~ knife 132 slides in the holder 136, the with, the flange 138 (Fig. 7) through the screws

139 is attached to the T-piece 82. By springs

140 and 142, the knife 132 is held in its raised position. The knife 132 works for Cut the wires 90 together with the edge 144 of the tee 82.

After the arrangement has been described in the foregoing, its mode of operation will be briefly described below explained. The core carrier 38 is filled with the magnetic cores 42, e.g. B. with 4096 cores in 64 rows and 64 columns, and preferably covered with the aforementioned transparent electrostatic sheet. Then it is placed on the vacuum chamber 32 and a vacuum is created in this via the hose 34 generated. The plate 16 is rotated from the position shown in Fig. 2 by 90 ° clockwise

and in this position by means of the pawl 24 and the Locked groove 20. The lever 118 is in the rest position shown in FIG. 3, and the wire clamp 48 is open minded.

The upper part of the needle unit 12 is now rotated slightly clockwise around the point 60 and opened the rails 64 pushed up to the core unit 10. Then it is lowered again so that the Shoulder 150 engages shoulder 152 and adjusting screw 96 engages surface 154 of core carrier 38 touched. The grooves 86 for the hollow needles 88 are then horizontal with the rows of the magnetic cores 42 and vertically aligned such that the hollow needles are just above the surface of the core carrier 38 can run. Now the rotary knob 110 (Fig. 2) is turned clockwise until the Hollow needles 88 from their rest position, in which their left ends are still just in the grooves 86, get into their working position, in which their right ends just leave the rollers 100 and 102. During the advance of the hollow needles, the wire spools 72 are in the manner described braked, while the wire ends do not leave the hollow needles. Another method is to use the Brake shoes 120 not to be inserted. Then due to the friction between the wires and the Hollow needles unwind the wires from their wire spools under the tension caused by the hollow needles.

Shortly before the hollow needles 88 leave the rollers 100 and 102, the lever 118 is in the position shown in FIG. 4 Position shown brought. As a result, the braking roller 112 touches the hollow needles 88 and brakes them slightly so that they come to a standstill immediately after leaving the rollers 100 and 102. then the lever 118 is brought into the position shown in Fig. 5, whereby the hollow needles firmly against the T-piece 82 are pressed. Now the wires 90 are in engagement with the rollers 100 and 102 and will when the rotary knob 110 is turned further, it is pushed through the hollow needles 88. When the wires are attached to the protrude from the left ends of the hollow needles, the wire clip 48 is triggered, which then removes the wires, as shown in Fig. 5. With the rotary knob 156 on the shaft 116 (Fig. 2) is now the brake roller 112 turned counterclockwise until the hollow needles protrude into the rollers 100 and 102 again and by turning the rotary knob 110 counterclockwise back to its rest position can be brought back (Fig. 6) while the wires 90 remain in line with the magnetic cores. When the hollow needles 88 are completely in their rest position again, the needle unit 12 is on their Rails 64 withdrawn from core unit 10 (Fig. 7), thereby still unwinding a piece of wire and then the wire cutter 130 is actuated, which cuts the wires 90 at the edge 144. Well will the wire clip 48 opened, the pawl 24 withdrawn from the groove 20, the plate 16 rotated by 90 ° and the pawl 24 is engaged in the groove 22. The needle unit 12 had to be withdrawn from the core unit 10 to be able to rotate the plate 16. Now the needle unit 12 is attached to the core unit again 10 pushed up and lowered onto the core carrier 38. The grooves 86 and the hollow needles 88 both in the vertical and in the horizontal direction with the grooves 46 in the core carrier 38 be aligned. The alignment in the vertical direction can either be achieved by that the shoulder 152 and the surface 154 in this position of the plate 16 are slightly lower than in the first position, or by adjusting the adjusting screw 96.

With units 10 and 12 in this position, threading the wires will be the same carried out as described for the first position of the plate 16. Now the However, wires 90 are inserted into the grooves 46 so that they are under the first inserted wires and into come to lie at an angle of 90 ° to them. When the hollow needles are withdrawn and the wires have been separated, the core carrier 38 is removed from the vacuum chamber 32 and the ends of wires 90 now running through the core assembly in a suitable frame on terminals soldered on. The core assembly can then be lifted out of the core carrier 38 and used for this Manufacture of further core assemblies can be used again.

With the help of the method described, several parallel wires can be inserted one after the other into each Series of magnetic cores are introduced.

Claims (5)

PATENT CLAIMS: 1. Arrangement for lining up a number of elements provided with holes, preferably ring-shaped Magnetic cores on a thread-like carrier, preferably a metallic conductor, characterized by a device (38) provided with slot-like indentations in which the elements (42) to be lined up can be inserted in such a way that they with their holes at least aligned in one direction in a row, a hollow needle (88) of such length, that it passes through all elements of a row, a device (100, 102) for moving the hollow needle from a rest position outside of the elements to be lined up to a working position, in which the hollow needle passes through all elements of a row, and for moving the hollow needle from the working position back to the rest position, a device (100, 102) for pushing the thread-like Carrier (90) through the hollow needle and a device (48) for holding the thread-like Wearer on the side of the hollow needle, on which he emerges from this when it is is in its working position. 2. Arrangement according to claim 1, characterized by a device (130) which the thread-like Carrier (90) immediately after withdrawing the hollow needle (88) into its rest position cuts off at the hollow needle. 3. Arrangement according to claim 1 or 2, characterized by a device (112) for holding the hollow needle (88) in its working position and for inserting the hollow needle into the device (100th, 102) for moving the hollow needle and further characterized by the simultaneous Use of the last-mentioned device (100, 102) both for moving the hollow needle as well as for pushing the thread-like carrier (90) through the hollow needle. 4. Arrangement for lining up a number of elements provided with holes on a plurality of one another parallel thread-like carrier, characterized in that a corresponding Number of arrangements according to one of the standing claims are arranged parallel to each other and the devices mentioned (38,100,102,48,130,112) together. 5. Arrangement for lining up a number of perforated elements on several in groups running in different directions, each of mutually parallel thread-like carriers ger, characterized in that in an arrangement according to claim 4, the slot-like depressions provided device (38) is rotatably arranged and constructed so that the to be lined up Elements can be inserted in such a way that they are aligned in rows with their holes in several directions. For this purpose 2 sheets of drawings