DE1574340A1 - Device for unwinding a wire or thread-like material from a spool - Google Patents

Description

Device for unwinding a wire or thread-like material from a spool

The invention relates to a device for unwinding a wire or thread-like material from a spool with a balanced winding head rotatable around the axis of the reel, consisting of rotating arms with a first Guide for the material to be unwound from the reel, which rotates when the material is unwound from the reel and a second guide to keep the material away from the upper reel disk. Field of application of the invention, for example, the spiral wire production, in which the wire from a coil unwound and around an insulating core for the purpose of producing a conductor for electrical heating wires, for example for electric blankets, wrapping, but also the manufacture

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of spools, a wire being wound from a spool onto a bobbin.

A device is known in which wire is unwound from a reel by means of a winding head. Of the The winding head consists of two pairs of vertically stacked rollers, each on a rigid rotating arm are arranged and is rotatably mounted relative to the coil. The device is designed symmetrically to to achieve the necessary balance. In operation, only one pair of the rollers is used at a time. The wire is withdrawn from the spool in the axial direction upwards, together with the core made of insulating material, which runs axially through the spool and through the end winding. When the wire is pulled up from the spool, he exerts a force on the winding head, which causes it to rotate together with the spool, but with a Rotational speed that is slightly different from the spool, so that the wire is unwound from the spool.

The spiral wire produced in this way is sold in certain lengths, which means that the product is practically unsaleable is, unless a piece of a certain length is made in one continuous operation will. In the known device, however, a wire break can easily occur, so that if this occurs before manufacture a certain length of wire occurs, a considerable

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case occurs. The wire breakage is a disadvantage that occurs in the known device and due to the force which acts on the wire and causes a rotation of the winding head. The winding head is essentially rigid; it is therefore relatively difficult to avoid deformation under the action of the wire transferred to it Forces to prevent. If the spool rotates too fast, the end winding can still be in the area be deformed in which the upper of the two guide rollers is arranged. On the other hand, the wire breaks if the end winding does not break at exceptionally high speeds gives way. It has been found that the known device does not operate at speeds above 4,000 rpm can be, whereby the efficiency of such a device is limited.

The invention is based on the object of creating a device that operates at the highest possible speeds can be. According to the invention, in the device of the type mentioned at the outset, the second guide is a smooth, convex, annular guide surface arranged coaxially to the axis of rotation of the winding head and extending between the winding head and the bobbin, so that the material is kept at a distance from the upper limiting disc of the bobbin and in the axial direction over the guide surface and

the first guide led on a slightly curved path will. This training makes it possible to access the lower of the

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to dispense with both roles of the known device, making the entire structure of the winding head easier and above all the air resistance will be reduced can.

The first guide is advantageously designed and arranged to be flexible at least to such an extent that that it can be rotated by hand easily and without permanent deformation in a plane in which the axis and the pivot arms lie at a distance of approximately 9 cm from the axis of an arc of a circle Describes movement with a radius of at least about 1.3 cm. When a swivel arm with a total length of If less than about 9 cm is to be used, the proportion of the dimensions of the parts must be changed accordingly will. Since the rotating arms are designed to be flexible, the arm used in operation can handle the wire with a specific one Lead preload. This can cause irregularities that could cause impacts when the Wire arisen on the spool must be compensated.

In particular when using the device for unwinding wire with a cross section that is at least one 28 swg standard wire, it is advantageous to make the winding head as light as possible, i.e. H. not heavier than 20 g. The winding head can then

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achieve numbers of at least 5,000 rpm »In practice, speeds of 5,000 to 10,000 rpm achieved without wire breakage when using a winding head of around 10 g,

The radius of the circular path on which the first guide guides the wire is expediently not smaller than the maximum radius of the guide surface

The radius of curvature of the guide surface should be at least about 0.30 cm, but preferably about 0.60 cm, be. The length of the line of intersection of the guide surface with a plane containing the axis is at least about 0.30 cm, preferably at least about 0.60 cm.

At the free end of the rotating arms is advantageously each a guide eye arranged or formed a wire loop, so that it is prevented that the guided wire comes free from the swivel arm during operation; this also keeps the air resistance of the end winding as small as possible. The lower the air resistance, the higher the speed can be without a wire break.

In FIGS. 1 to 5 of the drawings, the subject matter of the invention is illustrated using particularly preferred exemplary embodiments and explained in more detail below.

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Show it:

Fig. 1 in a schematic representation of an apparatus for producing a spiral wire for electrical Electric blankets;

FIG. 2 shows a plan view of the unwinding device of the device according to FIG. 1;

Fig. 3 is a cross-section along the line A-A in Fig. 2;

4 shows a schematic representation of a device for rewinding a wire from a roll to a other and

5 shows a schematic representation of a further embodiment of an apparatus for producing a Spiral wire.

Fig. 1 shows a schematic representation of an apparatus for producing a spiral wire 1, which consists of a core 2, consists of a non-conductive thread on which a conductor 3, e.g. made of nickel-chrome, copper-nickel, phosphor bronze, Cadmium copper or pure copper wire is wound, its Cross-section at least corresponds to that of a 28 swg standard wire. The wire 3 is for example with approximately

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12 turns / cm wound on the core 2; this number of turns can be changed in the device shown. The core 2 runs from a coil 4 through a channel in the device and several times over two sets of six reels 5 and 6 and then onto a spool for take-up of the finished product, the roller 7 is driven by an electric motor 8 via a V-belt 9, whereby the core 2 is withdrawn from the spool 4.

The wire 3 comes from a reel 10, in the present case a B.S.-C 15 standard reel with a diameter of the spool discs of about 8.25 cm and a spool height of about 8.25 cm. The wire 3 runs from the Roller 10 over a smooth, convex, annular guide surface of a guide disk 11 made of wear-resistant material made of synthetic resin, e.g. B. one with one suitable lubricant impregnated polyamide. The wire 3 then runs from the guide surface of the guide disk 11 through an eyelet 12 which is attached to the free end of a rotary arm 13 of the balanced winding head 14 seated, which is rotatable with respect to the shaft 15, which is driven together with the spool 10 and the guide disk 11 will. The wire 3 then runs from the eyelet 12 to the surface of an arched pin 16, the has an opening through which the core is passed to the set of rollers 5.

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The spool 10, the guide disc 11 and the shaft 15 rotate at least 5,000 revolutions per minute, while the core 2 travels through these parts at a speed of about 4.1 m / min; as a result As a result, the wire 3, which is pulled upward together with the core 2, is wound around the core 2 and so forms a wire spiral on top of it. The winding head 14 rotates at a speed that is slightly below which the spool 10 is, for example one or two turns below. This is necessary with that the wire 3 is unwound from the spool 10. At these high speeds, the arm 13 flexes considerably through, but without permanent deformation and without causing the wire to break.

The spool 10, the guide pulley 11 and the shaft 15 are driven by a motor 17 via a pulley device and a hollow shaft 19 driven; the hollow shaft 19 is mounted in a bearing 20 which is in the frame the device is arranged. As will be described in more detail below, the spindle 19 is with the shaft 15 connected so that the guide disc 11 and the spool 10 between the shaft 15 and the disc 22 on the Shaft 19 is seated, to be held.

The spiral wire produced with the device is expedient for electric heating pads or the like.

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det. Whatever purpose it is used for, it is usually necessary that the resistor per unit wire length of the spiral wire is constant. To achieve this in an automatic process, is a first contact 23 with the first set of six rollers 5 and a second contact 24 with the second set connected by six rollers 6, with a piece of spiral wire of constant length between the contacts is, for example, a piece of about 2.7 m. A servo device 25 is provided with which the resistor between these contacts is constantly measured in order to accurately control the speed of the motor 8 and thus of the core 2 and to keep the resistance constant.

The actual unwinder, consisting of the Parts 11, 12, 13, 14, 15 and 16 will now be described in more detail below, reference being made to FIGS will. The guide disk 11 consists of a polyamide impregnated with a lubricant an annular recess 26 for receiving the one reel disk of the reel 10; besides, she owns a central bore 27 through which the core 2 is guided. The smooth, convex, effectively effective guide surface in the guide disk 11 is strong due to the Solid line 28 shown. The guide washer 11 prevents the wire 3 from reaching the upper limit

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washer comes into contact. In this case the length of the line 18 is approximately 1.9 cm. The line
28 has a curvature whose radius of curvature in
corresponds to about 2.5 cm.

The shaft 15, which is made of metal, has a recess 29 for receiving the hollow shaft 19 (FIG. 1) through
which the device is driven and with which the
Shaft 15 is connected by a screw 30. The shaft 15 also has a bore 31 through which the core 2 is guided. At the upper, free end of the shaft 15, the arched pin 16, which is optionally formed in one piece with the shaft 15, is arranged. During operation, the shaft is pressed against the guide disk 11 and the spool 10 by means of the shaft 19 and rotates with them. The hollow shaft 19, through which the core runs, is so far through the
Coil 10 guided that the coil 10 on the disc 22
which is connected to the shaft 19. A first nut is then screwed onto the shaft 19 so that
the spool is held between the nut and the washer 22. The shaft 19 is then guided through the guide disk 11 into the recess 19 of the shaft 15, so that the guide disk 11 is held between the spool 10 and the shaft 15 .

The winding head 14 is freely rotatably mounted on the shaft 15 by means of a bush 32. The socket 32 consists of

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a lightweight material ₍ such as a synthetic resin, e.g. a polyamide, and is located between an annular bead 33, which is arranged on the shaft 15, and a washer 34, which by means of a spring 35 against the underside of the bushing 32. The arms 13, which consist of stainless steel wire, for example spring steel, or some other material with high flexural strength, sit in the socket 32. From here they extend radially outward and at the free ends have eyelets 12 made of wear-resistant wire loops ceramic material such as Sintox.

An embodiment according to FIGS. 2 and 3 was produced with approximately the following dimensions:

Diameter of the guide disk 11: 11.8 cm, height of the guide disk 11: 3.2 cm Height of the arms 13 above the surface of the guide disk 11: 2.54 cm diameter of the winding head 14, measured between the midpoints

of the eyelets 10: 18.4 cm

Diameter of the arms 13: 0.16 cm

Axial height of the bush 32: 0.85 cm

Diameter of the socket 32: 3.4 cm

Weight of the end winding 14: 9.6 g

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The winding head 14 has a flexibility, due to which each eyelet 12 by hand on an arc of a circle curved with a radius of 1.3 cm in a plane perpendicular to the direction in which the arms extend can be.

With a device of the dimensions mentioned, it was possible to produce a standard spiral wire of 28 swg and less Diameter at a speed of the coil 10 and the winding head 14 of about 5,000 to 10,000 rpm without wire breakage to manufacture. It should be noted that the surface of the winding head 14, especially the outer parts, their Air resistance could reduce the speed, is kept as small as possible. This feature supports the achievement high speeds, as the wire tension decreases with the air resistance.

It is also important that the wire runs in a slightly curved path from the spool over the eyelet 12, since the Eyelet is on the side facing away from the coil of a plane that is perpendicular to the axis and the surface 28 cuts, and since the guide surface prevents contact of the wire and the spool disc. Kick it therefore there are no major changes in direction in the path that could limit the speed.

The dimensions of a suitable device depend in

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a certain measure of the dimensions of the coil 10 used and also of the diameter of the unwound Wire off. The device can be operated in a position in which the axis is vertical, horizontal or it runs differently. It is obvious that at the Setup changes can be made, e.g. B. the bushing 32 can be at a distance from the guide plate 11 are held by a spacer ring instead of a spring. It can also be used in certain use cases suffice to form a wire loop as a guide at the ends of the arms 13. In certain cases a guide roller can be provided at the free end of each arm when the wire to be unwound relatively thick and the speed is correspondingly lower than in the example given above. In such a Case can be the air resistance of such a leadership role be disregarded. Materials other than those already indicated may also be suitable, for example Wood or metal for the guide pulley 11. In addition, the winding head 11 can have any number of arms, as long as it is substantially balanced.

In Fig. 4 is a further embodiment of the device according to FIGS. 2 and 3 shown. Here, the wire is taken from the coil 10, which together with the guide disk 11 and the shaft 15 is fixedly arranged, unwound; the wire is taken from the spool 10 over the guide washer 11 through the eyelet 12 to an axially above

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arranged roller 36, which is lined with felt 37. The wire 3 runs over from the roller 36 the roller 38 and 39 to a further spool 40 on which the wire is wound. Roles 38 and 39 are attached to an arm 41 which is rotatably arranged and preloaded by means of a spring in the illustrated Location is held. The wire 3 is withdrawn from the spool 10 by being rotated the roller 40 is exerted a tensile stress on the wire, which the winding head 14 to unwind the wire set in rotation. As in the present case, the wire can be unwound very quickly, with the winding head 14 rotates at a speed of 5,000 rpm and more without a wire break.

Fig. 5 shows a further embodiment of the device according to FIG. 1, in which instead of the arched pin 16 in Fig. 1 or in addition to this a curved pin 42 is present, which prevents the Wire 3 too far removed from winding head 14. The winding head 14 is held against the bead by a spring washer 43 33 pressed.

The invention includes everything that is contained in the description and / or shown in the drawing is, including what is obvious in deviation from the specific exemplary embodiments for the person skilled in the art.

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Claims (12)

PA TENTAN WAL TE S5zc6ard ^ Jfäffer-Jßörner 1574340 O) - ί & <Ή? . <7Ρ - ■ Γ Oj) £ fsipl. ~ \ Sng. \ yianS- \ yieznrtcn * "* trey PATENTANWALT DlPL-ING. R. MOLLER-BORNER Sif PATENTANWALT DIPL-ING. HANS-H. WEY BERLIN-DAHLEM 33 · PO D BI ELSKIALLEE ί8 / '*' 8 MÖNCHEN 22. Wl DEN MAYE RSTRAS SE TEL. 0311.7ί2907 · TELEGR.PROPINDUS ■ TELEX 0184057 TEL. 0811 · 225585 · TELEGR.PROPINDUS · TELEX 0524244 21 001 ELECTROTHERMAL ENGINEERING LTD. London, E. 7, (Great Britain) claims 1. Device for unwinding a wire or thread-like material from a spool with a around the Axis of the coil rotatable, balanced winding head, consisting of rotating arms with a first guide for the material to be unwound from the spool, which is in Rotation is added, and with a second guide, the material is spaced from the upper reel disc to hold, characterized in that the first guide as a smooth, convex, annular, coaxial to the axis of rotation of the winding head arranged guide surface (28) is formed, which is between the winding head (14) and the spool (10) so that the material is at a distance from the upper spool ' 10 9 8 2 3/008 2 -2- ■ 1674340 "i Disc of the coil (10) held and in the axial direction over the guide surface (28) and the first guide (12) is guided on a slightly curved path. 2. Device according to claim 1, characterized in that that the first guide (12) is arranged to have a substantially resilient movement relative to the Axis can run in a plane parallel to this. 3. Apparatus according to claim 2, characterized in that the guide (12) is carried by flexible arms (13). 4. Device according to one of claims 1, 2 or 3, characterized in that the winding head (14) has a weight of at most 20 g, preferably 10 g. 5. Device according to one or more of claims 1 to 4, characterized in that the arms (12) so are arranged that the material is guided at a distance from the axis which is greater than the maximum Radius of the guide surface (28). 6. Device according to one or more of claims 1 to 5, characterized in that the radius of curvature of the guide surface (28) not less than 3 mm, preferably 109823/008 2 wisely is not less than 6 mm. 7. Device according to one or more of claims 1 to 6, characterized in that the length of the Line of intersection of the guide surface (28) with a plane containing the axis at least 6 mm, preferably is at least 12 mm. 8. Device according to one or more of claims 1 to 7, characterized in that the guide surface (28) is formed by a guide disc (11) is made of a wear-resistant material of lower friction, preferably one with a Lubricant is made of impregnated polyamide resin. 9 »Device according to one or more of the claims 1 to 8, characterized in that the first guide (12) is formed by an eyelet or a wire loop which prevents the wire (3) from coming free from the arm (13), Device according to one or more of Claims 1 to 9, characterized by a curved pin (16) on the axis on the side of the winding head (14) facing away from the spool (10), the tip of which is facing away from the winding head (14), prevents "that the guided by the guide (12) wire (3) 109823/0082 _{0R1GINAL INSPe} cfe comes into contact with the central area of the winding head (14). 11.Vorrichtung according to one or more of the claims 1 to 10, characterized by a per se known channel (31) which runs through the device and serves to accommodate a winding core (2). 12.Vorrichtung according to one or more of claims 1 to 11, otherwise as described and / or
shown. ORIGINAL INSPECTED _{Vo / Ba} 109823/0082