WIRE-WINDING MACHINE AND METHOD FOR WINDING A REEL WITH JUXTAPOSED COILS

Abstract

A wire-winding machine comprises a station for winding the wire into a reel comprising a spindle rotatable around an axis of rotation to draw the wire and a spool removably anchored on said spindle and enclosed between a starting stroke flange and an end stroke flange for winding the wire into a reel, and a counteracting tool adapted to operate against the last wound coil to keep the coils mutually juxtaposed. The counteracting tool is controlled by electrical moving means adapted to move it linearly and axially in the winding direction of the coils with a predetermined pitch for each revolution of the spindle.

Claims

1. A wire-winding machine, comprising: a station for winding the wire into a reel comprising a spindle rotatable around an axis of rotation to draw the wire and a spool removably anchored on said spindle and enclosed between a starting stroke flange and an end stroke flange for winding said wire into a reel; a counteracting tool adapted to operate against the last wound coil to keep the coils mutually juxtaposed; wherein said counteracting tool is controlled by electrical moving means adapted to move it linearly and axially in the winding direction of the coils with a predetermined pitch for each revolution of said spindle; characterized by comprising computation means adapted to calculate the real diameter of the wire being wound and its natural pitch as function of the ratio between the movement of said tool along the axis of said spindle and the number of revolutions of said spindle for the subsequent calculation of said pitch.

2. Machine as claimed in claim 1, characterized in that said electrical moving means are programmed to move said tool with such a pitch as to define a first layer of coils spaced from said end stroke flange with a distance at least equal to half the diameter of the wire and less than the diameter of the wire.

3. Machine as claimed in claim 1, characterized in that said electrical moving means are adapted to transmit to said counteracting tool a resisting torque with adjustable intensity against the movement that the wound wire exerts on said tool.

4. Machine as claimed in claim 3, characterized in that said resisting torque is applied only for a predetermined portion of the first layer of wounded coils.

5. A method for winding a reel with juxtaposed coils, comprising the following steps: a) winding a wire having a known diameter by a rotatable spindle for a predetermined number of coils juxtaposed between a starting stoke flange and an end stroke flange spaced apart to form a first layer of coils of a reel; b) calculating the real diameter of said wire as a function of the ratio of the axial stroke of the wounded wire and the number of revolutions of said spindle; c) measuring the forwarding pitch of said coils as a function of said calculated real diameter; d) adjusting said pitch as a function of the known distance between the flanges to obtain a first layer of coils spaced from said end stroke flange with a distance at least equal to half the diameter of the wire and less than the diameter of the wire.

Description

BEST MODE OF CARRYING OUT THE INVENTION

[0036] A winding machine according to the invention may be essentially configured as any rewinder machine commonly used for winding into a reel a continuously wound wire starting from a large sleeve or reel, such as the reels provided directly by the wire manufacturers.

[0037] A preferred embodiment provides that the machine is used to wind welding wire in relatively small weight reels, usually between 1Kg and 18Kg, designed to be mounted on welding machines.

[0038] The machine may be completely manual, or semi-automatic or automatic.

[0039] The machine according to the invention may comprise a continuously unwinding station of a wire drawn from a sleeve or reel or alternatively the wire may be taken directly from a reel or sleeve.

[0040] The machine further comprises a station for winding coil into a reel which generally comprises a spindle having a motorized rotation axis, usually horizontal, on which a spool is mounted to be rotated by the spindle in order to produce the winding of the wire and form the reel.

[0041] The technical features of the spool are not essential for the purpose of the present invention and will therefore not be described in more detail.

[0042] More precisely, the spool may be either a metal basket or a plastic reel of any size typically available on the market.

[0043] The spindle comprises a countertop that prevents the spool from slip axially and will be removed once the reel winding has been completed for its removal together with the spool.

[0044] In a typical way for juxtaposed coil winding machines, the spool is enclosed between a pair of opposing flanges adapted to keep the coils of the winding reels packed therebetween.

[0045] According to a peculiar feature of the invention, the two flanges may be placed at a reciprocal distance of known value depending on the size of the spool without any need for adjustment during the winding step as will be apparent hereinafter.

[0046] Inside the winding station, a counteracting tool, such as a blade, plate or disc, is arranged to be brought into contact with winding coils to operate against the last wound coil and exert a thrust of sufficient and adjustable intensity to maintain the coils juxtaposed and compact therebetween.

[0047] The counteracting tool is driven by electric moving means, such as a stepper motor or other motor, adapted to allow the linear movement of the tool in the axial direction and according to the winding direction of the coils with a predetermined pitch at each turn of the spindle.

[0048] In particular, the electric moving means are programmed to move the tool with such a pitch as to define a first layer of coils separated from the end stroke flange with a distance at least equal to half the diameter of the wire and less than the wire diameter, so that the second coils layer and all subsequent coil layers may overlap the immediately underlying layers in the correct position.

[0049] Moreover, the electric moving means are adapted to transmit to the counteracting tool an adjustable resistant torque acting against to the displacement that the winding wire exerts on the same tool.

[0050] Such resistant torque may only be applied to a predetermined portion of the first winding coil layer.

[0051] In this first section, adjustable, the machine may calculate, by means of calculation connected to the moving means, the actual diameter of the winding wire according to the relationship between the covered distance, i.e. the displacement of the tool along the axis of the spindle, and spindle rotations, so as to determine the kept pitch.

[0052] At this point, being the distance between the flanges known and fixed, it is possible to calculate the pitch, that is, the linear movement that the tool performs at a precise point of spindle rotation and that from this point onwards it will be necessary to maintain to get the desired final space.

[0053] The space over the half diameter of the wire will be absorbed by dividing it between all the wound coils, thus representing an absolutely negligible error.

[0054] Alternatively, it is also possible to determine, by analytically calculating it, the appropriate pitch to be kept from the first to the last spin of the spindle by adjusting all the first layer with appropriate positions.

[0055] A further operational advantage resulting from the locking of the position of the flanges lies in the fact that in the winding step of the first reel or of a control reel it will be possible to calculate the pitch that the coils have to keep in order to recover the distance from the end stoke flange that would have to be if the wire was wound without guide and with its natural pitch.

[0056] In this way, in the windings of the successive coils, it will be possible to accompany the wire with the tool only for the first coils so that the distance is completely covered by the first coils, and then the tool will be retracted to release the wire and allow it to wind with its natural pitch, making the winding step particularly quick.

[0057] The machine will be equipped with all the other devices required for the production of the reels, such as thread guides, whose position adjusted in different sections according to different requirements of compacting or enlarging the coils, or even cutting means arranged at the spool to cut the wire at the completion of the reel.

[0058] The machine may also be provided with electronic control means adapted to perform a spin counting and to adjust the amount of wire to vary the weight of the second reel.

[0059] Furtherly, direct weight measuring means may be provided including a weighing device arranged directly in the winding station and which will be directly coupled to the control means for weighing the second coil directly into the winding station.

[0060] In this way, the electronic control means will receive information about the weight measured directly from the weighing station to make the necessary adjustments and adjust accordingly the number of revolutions according to the new measured weight.

[0061] Weight correction, obtained by setting a new length of wire to be wound, may be carried out either manually by the operator through a machine interface or automatically by a PLC or other electronic control device, depending on the automation degree of the machine.

[0062] Pneumatic movements may also be installed to automatically cut and tie the wire at the end of the reel, open the countertop and unload the reel on an unloading device.

[0063] The machine according to the invention facilitates the work of the operator to which less maneuver and experience may be required, increasing productivity and increasing the level of safety, since it will not be necessary to intervene manually through the opening of the protective door of the wiring machine.

[0064] The operator must only insert the empty spool, whether it is a plastic spool or a metal drum, close the tailstock, bend and hook the wire, close the door and start the process, then engage in other machines until completion and unloading of the reel.

[0065] From the foregoing it will be apparent that the invention realizes the foregoing purposes and in particular that of providing a wire winding machine and a winding method of coils particularly efficient and with high-capacity.

[0066] The machine and the method according to the invention are subject to numerous modifications and variants which are all within the inventive concept expressed in the appended claims. All details may be replaced by other technically equivalent elements and the materials may be different according to the needs without departing from the scope of the present invention.