FR2645517A1 - Method and device for adjusting the speed of rotation of a metal-wire pay-out device as a function of the demand for wire - Google Patents

Abstract

The present invention relates to a method and a device for adjusting the speed of rotation of a metal-wire pay-out device 1 as a function of the demand for wire in an installation in which the wire is pulled off by its free end 14 and runs at a substantially constant speed. According to the invention, an angle meter 15 associated with the pay-out device 1 is used and is connected to a computer 21 which calculates the instantaneous speed of rotation of the pay-out device 1 and its average speed of rotation and acts on a controller 10 which controls the braking of the pay-out device 1 when the instantaneous speed of rotation of the pay-out device 1 is greater than its average speed of rotation increased by a given set value.

Description

 The present invention relates to a method for adjusting the speed of rotation of a wire feeder as a function of the demand for wire in an installation in which the wire is unwound from a spool of wire carried by said reel, under the action a tensile force applied to the downstream part of said wire at a shaping station, so that said downstream part of wire travels at a substantially constant speed, and causes the reel of the idler mounted idly on a bearing to rotate support.

 In an installation intended for example for cutting a steel wire to concrete, the wire is subjected, at the start of the working phase in a shaping station located downstream of the reel, to an acceleration which causes the rotation of the wire feeder, then a scrolling movement at constant speed during which time the wire feeder rotates at a substantially constant speed of rotation for each peripheral layer of the turns of wire. I1 happens that at the shaping station, for example, during its cutting, the downstream part of the wire is subjected to a momentary deceleration, during which the reel continues to turn on its momentum, due to its inertia, and to unwind a greater quantity of yarn than that absorbed or advanced on the level of the shaping station, when at the workstation, the yarn resumes its normal running speed, the quantity of yarn unwound during the deceleration period is absorbed by the machine of cutting to the resumption of the drive of the wire, then, due to the prior slowing down of the reel which can go as far as stopping it and consequently, of the part of wire being on said reel, the part upstream wire suddenly undergoes a voltage shock due to the difference in speed of the upstream wire part at the reel, on the one hand, and the advent wire part at the shaping station, on the other hand. This impact on the wire can cause the wire feeder to run over, which in turn causes unwanted wire unwinding, so that the conditions for an impact are fulfilled again. These impacts on the wire can also occur, when several turns of thread trapped on the spool are released suddenly under the action of an increasing tensile force exerted on the downstream portion of thread and also leading to a runaway of the reel. This phenomenon of successive shocks on the wire means that the reel then rotates at a non-uniform speed, in spurts, and that periods at rotation speed greater than the average rotation speed corresponding to the normal running speed of the part of downstream wire alternate with periods of rotational speed lower than the average rotational speed. This creates knocks that are harmful to the material.

 The object of the present invention is to provide a method for adjusting the speed of rotation of a wire feeder as a function of the demand for wire at the shaping station, a method which overcomes these drawbacks and which avoids, in particular, knocks successive dozers from a momentary runaway of the reel.

 The object is achieved according to the invention by the fact that the instantaneous speed of rotation of the reel is measured and its average speed of deduction is deduced therefrom during a period of thread travel without blows, and that a braking force on the reel for a period of time sufficient to reduce the reel speed of rotation to its previous average speed, when the instantaneous reel speed of the reel is greater than its average reel speed increased by a given setpoint .

 Thanks to this process, the run of the reel is limited in time. The braking which almost immediately follows a start of runaway of the reel decreases the instantaneous speed of rotation of the reel and prevents the unwinding of a large quantity of wire, in excess compared to that absorbed or advanced at the same time at the position of shaping, thereby largely eliminating successive battering.

 If, due to the absence of a sufficient tensile force on the upstream wire part, the instantaneous speed of rotation of the reel falls, under the effect of the friction exerted on the latter, below a threshold value lower, the downstream wire part is made to run at a speed which is only a few percent higher than the peripheral speed of the wire leaving the reel, before reducing the running speed of the downstream wire part to the normal running speed which is greater, preferably by a few percent or a few tens of percent, than the lower threshold value.

 Advantageously, the instantaneous speed of rotation of the reel is measured using a member for measuring the angle of rotation associated with the reel and its average speed of determination is determined using a calculating member connected to said member for measuring angle, receiving indications therefrom on the angle of rotation of the reel, calculating the instantaneous speed of rotation of the reel and its average speed of rotation as a function of these indications, and providing information to a control member triggering braking of the wire feeder if the difference between the instantaneous rotation speed and the calculated average speed of the wire feeder is greater than the set value. Preferably, the average rotation speed of the dispenser is calculated over a sliding period preceding the instant of measurement of the instantaneous rotation speed of the dispenser.

 The method thus makes it possible to automatically adapt the average speed of rotation of the reel to the normal average speed of travel of the wire and to the outside diameter of the coil of metal wire carried by the reel which varies over time.

 The present invention also relates to a device for adjusting the speed of rotation of a wire feeder according to the demand for wire in an installation in which the wire is unwound from a reel carried by said reel under the action of a tensile force applied to the downstream part of said wire at a shaping station, so that said downstream part of the wire runs at a substantially constant speed and causes the reel of the idler mounted idle on a support bearing to rotate.

According to the invention, this device is characterized in that it comprises
a member for measuring the angle of rotation associated with the reel and intended to supply an electrical signal each time the reel rotates by a given angle,
a calculating member connected to said angle measuring member for receiving a succession of said electrical signals and intended, on receiving two successive signals, to calculate the instantaneous speed of rotation of the reel and its average speed of rotation and to transmit a output signal, when the difference between the instantaneous speed of rotation and the average speed of rotation of the reel is greater than a given setpoint,
- a braking surface integral with the reel,
a braking member associated with the braking surface of the reel and capable of applying a braking force to said surface, and,
a control member of the braking member connected to the calculating member to receive said output signal and acting on the braking member so that the latter applies a braking force to the braking surface of the reel during a predetermined duration upon receipt of said output signal.

Other advantages and characteristics of the invention will appear on reading the following description given by way of nonlimiting example and with reference to the appended drawing in which
the single figure shows a reel equipped with a device to adjust its rotation speed according to the demand for wire.

 The reel 1 is mounted on a frame 2, so that it can rotate freely around a vertical axis 3. I1 has a shaft 4 of vertical axis 3 disposed in a support bearing 5 of the frame 2. At the upper part 6 of the shaft 4, is keyed a braking wheel 7 whose lateral cylindrical wall 8 constitutes a braking surface and is capable of cooperating with a braking member 9 controlled by a control member 10. On the wheel 7 is fixed a support cradle 11 of a coil 12 of metal wire, for example a concrete wire. The support cradle 11 is surmounted by a support drum constituted by an assembly of vertical tubes 13 parallel and equidistant from the vertical axis 3, an assembly intended to be housed in the hub of the coil of wire 12 and to hold it on the support cradle 11.

 The wire is unwound from the spool 12 under the action of a tensile force T acting on its downstream part 14 cooperating with drive means provided downstream of the reel 1 in a shaping station not shown in the drawing. It is these drive means which, by acting on the downstream part of wire 14 cause the reel i to rotate.

 A member for measuring the angle of rotation 15 is associated with the reel 1. This member for measuring the angle 15 comprises for example a circular plate 16 which is integral with the wheel 7 or the shaft 4 and has on its periphery 17 regularly spaced slots.

 A light source 18 secured to the frame 2 is placed on one side of the circular plate 16 opposite its periphery 17. On the other side of the circular plate 16 and in line with the light source 18 is a photoelectric cell 19 which receives a light signal at each passage of a slot of the circular plate 16 between the light source 18 and the photoelectric cell 19, that is to say at each fraction of a rotation revolution of the reel 1. The photoelectric cell 19 is connected to the input 20 of a calculating member 21, and transmits thereto an electrical signal each time a light signal is received. The output 22 of the calculating member 21 is connected to the control member 10 of the braking member 9.

 Of course, the rotation angle measuring member 15 can be made in any other suitable way. We can thus use any kind of speed sensor, such as proximity sensors, generators and pulse sensors, etc.

 Each time an electrical signal is received from the photoelectric cell or any other suitable sensor 19, the calculating member 21, which is provided with an internal clock, calculates the instantaneous speed of rotation of the reel and the average speed of rotation thereof for a sliding period of time prior to the time of receipt of the electrical signal.

 When the instantaneous speed of rotation of the reel is greater than its average speed of rotation increased by a given set value, or deviates from a predetermined percentage, for example from 5 to 15%, the calculation unit 21 emits an output signal to the control member 10 of the braking member 9.

 On reception of the output signal, the control member 10 acts, for a predetermined time, on an operating member, such as a hydraulic cylinder, of the braking member 9 so that it cooperates with the cylindrical side wall or braking surface 8 of the wheel 7 to reduce the speed of rotation of the reel to a speed of rotation corresponding to the level of the periphery of the spool 12 to a speed of wire unwinding slightly lower than the normal running speed of the downstream part of wire 14. Of course, the wire unwinding speed becomes equal to the normal running speed of the downstream wire part 14 as soon as the excess quantity of wire available between the wire feeder and the drive means has been absorbed by them. These drive means are provided in the shaping station arranged downstream from the reel 1. This station may include a concrete wire cutting device. The drive means pull on the downstream part of the wire 14 and the latter travels at a substantially constant running speed, the duration of the cutting operation being short compared to the duration of transfer of a section of wire between two successive cutting operations. However, following a first deceleration of the downstream part of the wire, there may be an additional wire unwinding by the reel, due to its inertia, and the quantity of wire unwound is all the greater as the the average speed of movement of the wire is high. The speed of rotation of the reel decreases as a result of friction, and when the drive means again ask for wire, the previously unwound wire is absorbed by these drive means with very high traction. weak exerted on the downstream part of the wire, then the wire tightens and there is a more or less significant impact on the wire depending on the difference between the running speed of the wire 14 at the level of the drive means of said wire, on the one hand, and the peripheral speed of the reel 12, and consequently of the reel 1, on the other hand.

 According to the method of the invention, it is arranged so that the difference between the two speeds is low, the peripheral speed of the coil 12 being 5 to 15% less than the normal running speed of the downstream part of the wire. 14.

When, due to sudden acceleration of the reel 1, the instantaneous speed of rotation of the reel is greater than its average speed of increase increased by a set value, the braking member 9 is actuated and acts on the surface of braking 8 of the wheel 7 to brake the reel 1 for a predetermined time so as to decrease the speed of rotation, so that the peripheral speed of the reel 12 takes up a value which is 5 to 15% lower than that of the normal speed of travel of the wire 14, which makes it possible to considerably reduce the additional unwinding of wire dO at a runaway of the wire feeder 1 and the importance of the shocks after the absorption of the quantity of excess wire.

 If, for example, as a result of a longer shutdown of the drive means, the instantaneous speed of rotation of the reel 1 falls below a lower threshold value which, when the thread continues to run at the speed normal, and after absorption of the quantity of excess wire would cause a significant shock, the first part of the downstream wire is first made to scroll at a speed which is only a few percent higher than the instantaneous peripheral speed of the wire leaving the spool 12, that is to say the reel 1, before reducing the running speed of the downstream part of the wire 14 to the normal running speed of the wire, speed which is greater, preferably by a few percent to a few tens of percent, ô the lower threshold value.

 To this end, the calculating member 21 can also be used to compare the instantaneous peripheral speed of the reel 1 with the running speed of the wire 14 at the level of the drive means of the shaping station, and when these drive means produce a running speed much higher than the peripheral speed of the spool 12, that is to say the reel, to control the change of rotational speed or to slow down the rotational speed of the drive means to a more low, so that the difference between the peripheral speed of the coil and the new running speed applied to the wire 14 by the drive means is small. In this case, a new scrolling speed (low speed) is preferably chosen which is nevertheless slightly higher than the peripheral speed of the coil 12.

Claims (4)

REYENDICATIONS  1. A method for adjusting the speed of rotation of a wire reel (1) as a function of the demand for wire in an installation in which the wire is unwound from a reel (12) carried by said reel (1), under the action of a traction applied to the downstream part of said wire (14) at a shaping station, so that said downstream part of wire runs at a substantially constant speed and causes the rotation of the reel (1 ), mounted idly on a support bearing (5), characterized in that the instantaneous speed of rotation of the reel (I) is continuously measured and its average speed of deduction is deduced therefrom during a period of thread travel without jerkily, in that a braking force is applied to the reel (1) for a period of time sufficient to return the speed of rotation of the reel (1) to its previous average speed, when the instantaneous speed of rotation of the reel (1) is greater than its speed average rotation increased by a given setpoint.  2. Method according to claim 1, characterized in that the instantaneous speed of rotation of the reel (1) is measured using a member for measuring the angle of rotation (15) associated with the reel (1) and its speed is determined average rotation using a calculating member (21) connected to said angle measuring member (15), receiving therefrom indications on the angle of rotation of the reel (1), calculating the instantaneous speed of rotation of the reel (1) and its average speed of rotation according to these indications, and provide information to a control member (10) triggering the braking of the reel (1) if the difference between the speed of rotation instantaneous and the calculated average speed of the reel is greater than the set value.  3. Method according to claim 2, characterized in that the average rotation speed of the reel (1) is calculated over a sliding period preceding the instant of measurement of the instantaneous speed of rotation of the reel (1).  4. Device for adjusting the speed of rotation of a wire feeder (1) according to the wire demand in an installation in which the wire is unwound from a reel (12) carried by said reel (1) under the action of a traction applied to the downstream part of said wire at a shaping station, so that said downstream part of the wire runs at a substantially constant speed and causes the reel (1), mounted idle, to rotate on a support bearing, characterized in that it comprises  a member for measuring the angle of rotation (15) associated with the reel (1) and intended to supply an electrical signal each time the reel (1) rotates by a given angle,  - a calculating member (21) connected to said angle measuring member (15) for receiving a succession of said electrical signals and intended, on receiving two successive signals to calculate the instantaneous speed of rotation of the reel (1) and its average rotation speed and to output an output signal when the difference between the instantaneous rotation speed and the average rotation speed of the reel (1) is greater than a given setpoint.  - a braking surface (8) integral with the reel,  a braking member (9) associated with the braking surface of the reel (1) and capable of applying a braking force on said surface, and,  - a control member (10) of the braking member (9) connected to the calculating member (21) to receive said output signal and acting on the braking member (9) so that the latter applies a braking force on the braking surface of the reel (1) for a predetermined period of time upon receipt of said output signal.