DE2264487A1 - Yarn feed drum - with tensed contact feeler to monitor yarn state - Google Patents

Abstract

The yarn is wind in a spiral round a store drum, where a tensed feeler is mounted so that it is in contact with the drum surface, closing the circuit to keep the yarn winding round. When the yarn windings come between the drum surface and feeler, the circuit is broken and the electronic control circuit activated to break off the feed, the action being directed by a time unit and condenser to ensure that an accurate yarn length is delivered. The purpose is to provide a simple system to monitor and control yarn feed.

Description

Thread feeding device for a textile machine (separation from Patent application P 22 19 585.3-26) The invention relates to a thread feed device For a textile machine with a drum, a device that makes the thread tangential spooled onto the drum, a device that carries an optionally predetermined amount of thread senses, which is wound on the drum and a device which is on the Actuation of the sensing device responds to the operation of the thread winding device optionally to control, whereby an amount of thread within a selectable predetermined Area is saved on the drum for transfer to the textile machine.

It is known in such thread feed devices for textile machines, To provide devices that store a predetermined amount of thread on the drum or hold.

For this purpose it is also known (US-PS 3,411,548) e.g.

relatively complicated devices controlled by photocells use the amount of thread on the storage drum feel and steer. Finally, it is already known (DT-OS 1 760 600) to increase the amount of thread such storage drums either mechanically through within the storage drums Clutch disks arranged obliquely with reaching control arms or pneumatically through a cooperating with passages in the storage drum To influence compressed air source in connection with microcurrent interrupters.

The invention is based on the object of such sensing devices further simplify.

According to the invention, this object is achieved in a thread feeding device of the type indicated at the outset in that the sensing device has a sensor which is biased against the drum and between a first position, in which the sensor is in contact with the drum, and a second position is movable, in which the feeler through the thread wound onto the drum except Plant is held or relocated.

This sensor is a very simple means of influencing the Thread winding and termination of the winding of the thread on the drum.

Further refinements of the invention emerge from the subclaims emerged.

The invention will now be described in detail with reference to the accompanying figures described, all of which emerge from the description and the figures Details or features contribute to the solution of the problem within the meaning of the invention can and were included in the application with the will to be patented. Show it: Fig. 1 is a perspective view of a memory feeder according to an embodiment of the invention; Fig. 2 is a sectional view along lines 2-2 of Figure 1; Fig. 3 is a left side view of the device; Fig. Figure 4 is a partial side view of the device; Fig. 4 is a circuit diagram of an electrical Circuit that controls the maximum amount of thread stored on the drum will; 6a) a sectional view of the sensor device according to the invention, and viewed from the side; b) a top view of the sensing device; c) a A sectional view taken along lines 6c-6c of Figure 6a; Fig. 7 is a side view of a further embodiment according to the invention; 8 is a perspective partial view, which illustrates the operation of the embodiment of Fig. 7; Fig. 9 is a perspective view of yet another embodiment of the invention; Fig. 10 is a right side view of the embodiment of Fig. 9; Fig. 11 Fig. 11 is a sectional view taken along lines 11-11 of Fig. 10; Figure 12 is a side view a modification of the embodiment of FIG. 9; Fig. 13 is a side view yet another embodiment of the invention; with certain parts removed are; Pig. 14 is a sectional view taken along lines 14-14, 14 of FIG Fig. 13; Pig. Fig. 15 is a view similar to Fig. 11 of yet another modification according to the invention and Pig. 16 is a right side view of this modification; In the embodiment of the invention shown in FIGS. 1-4, there is a drive motor 10 supported in a suitable manner, e.g.

by a frame part 12, and provided with a hollow shaft 14, the Extension 16 carries a drum 18 by means of interposed ball bearings 20. A hollow spool arm 22 is attached to the hollow shaft 14 and extends therebetween the drum 18 and the motor 10 radially away from this. The Auispulatrm 22 ends in a stepped or angled part 24. An extension arm 26 extends diametrically opposite the Aufspularm 22 radially away from the shaft 14 and carries slidably a counterweight 28, which along the arm 26 by means of a set screw 30 adjustable in different ways. The cavities or channels in the shaft 14 and the Aufspularm 22 are in communication with each other, so that a thread 32 of a conical supply reel in the direction of the arrow shown in Fig. 1 through the Hollow shaft 14 and the Aufspularm 22 runs and at the free end of the angled part 24 emerges from this through a porcelain guide or eyelet 34.

The drum 18 has a uniform diameter and ends in a generally conical portion 36. The winding arm 22 and its angled Part 24 are arranged with respect to the drum 18 so that the through the Aufspularm filament dispensed upon rotation of the arm onto the conical section 36 wound up the threads wound onto the drum gradually counteracting the Move the free end of the drum towards when winding is continued. The thread will by the tensile force exerted by the needles axially from the drum through the thread guide 38 pulled through.

To prevent the drum from making any noticeable rotation, the drum is mounted eccentrically on the shaft 14 in such a way that its center of gravity is below the axis about which the drum would normally rotate freely. The drum can also be loaded, for example, as indicated at 40, for its inclination to decrease further during the winding of the thread on the drum to rotate the shaft 14.

For checking or controlling the minimum and maximum amount of pad, which is to be stored on the storage drum, a sensor 42 is provided, which is pressed elastically or resiliently against the storage drum 18, with which it forms a switch which is closed when the payer with the Circumference of the drum comes into contact, and which is open when the feeler through the thread is isolated from the drum. The position of the feeler 42 at the point at which it comes into abutment with the surface of the drum 18 is shown in FIG. The switch formed by the sensor and the storage drum is in this position closed.

The operation of the sensor 42 and storage drum 18 formed switch is shown in the circuit diagram of Pig 5.

According to this circuit, current flows when switch 42-18 is closed from the positive terminal of DC power source 44, which is grounded, to the storage drum 18, which is also grounded, via the sensor 42> the limiting resistor 46, the charging capacitor 48 back to the negative terminal of the DC power source 44. Another StrompSaa is hosted by Werner via the resistor 50, the switching Part of transistor amplifier 52 back to the negative terminal of the DC power source 44 led. The current flow through the trigger circuit of the transistor amplifier 52 makes the latter conductive, with the current flowing as follows: From the earthed positive terminal of DC power source 44 to the grounded terminal of relay 54, and through transistor amplifier 52, and back to the negative terminal of the DC source. The consequent energization of relay 54 closes two contacts 56 to the motor 10 to put on tension, whereby the winding arm 22 rotates around the drum to to put on this extra thread. Winding up additional loads on the The drum separates the feeler 42 from its engagement with the drum, causing the switch 42-18 is opened. However, this does not result in an immediate interruption or Cancellation of the conductivity of the transistor amplifier 52, since the charge in the Capacitor 48 in the trigger circuit of transistor amplifier 52 discharges to a current flow through this and through the relay 54 for a predetermined period of time to be maintained while the motor and the auricular arm remain connected to voltage continues to rewind. The circuit in? Ig. 5 therefore forms a time delay which determines the amount of thread that will be used following the separation of the sensor 42 is to be wound up by the drum on this.

The sensor 42 therefore limits in cooperation with the time delay circuit 5 with great precision the minimum and maximum amounts of thread that to be placed on the drum at all times. A variable resistor 58 forms an alternate path for the capacitor 48 to discharge, eliminating the time delay can be adjusted as required. The use of this arrangement enables much greater control and flexibility in the operation of the memory feeder. Fig. 4 shows the state the memory feeder during the process the delay time, and it can be seen that in this state a predetermined maximum amount of thread has been stored on the drum 18.

Albeit Pig. 5 an electronic time delay circuit for Optional control of the amount of pad that is spooled on the drum is illustrated such a time delay can also be caused by others within the framework of the invention Achieve designs of electrical or electronic circuits, as well as further by mechanical or thermal devices that are able to produce an optional and to produce adjustable time delay for the purposes mentioned above.

The sensor 42 is in its operating position by a sensor device 60 supported, which with the cover 62 removed is best shown in FIGS. Sa, 6b and 6c is shown. The pad 42 has a wire that is connected to two legs 64 is provided, which are combined in a V-shape. The legs 64 are on Branches 66 bent back and terminate in inwardly extending arms 68. A The support bracket 70 is recessed at 72 in order to accommodate the sensor branches 66 in its interior and to mount the sensor 42 pivotably. The arms 68 are in the hook-shaped free ends 7d of the legs 76 of a connecting part 78 held, the opposite hook-shaped end 80 that holds one end of a spring 82 in place. The other end of the Spring 82 is connected to a piston 84, which is frictional, but displaceable seated in a socket 86 so that the tension of the spring 82 can be adjusted. The result of this arrangement is that the sensor 42 is pressed against the drum 18 by the spring 82 biased. Due to the shape of the uhlers 42 and its described above Support in the recesses 72 is limited between the legs 64 level and the opposite surface of the drum an angle 87 a, the is in the range of 20-300.

This area has been found to be the most appropriate for the Sensor 42 the axially moving thread turns on the drum during the winding process can follow, causing a build-up or balling of the thread against the feeler is prevented during the winding sequence. As shown in Fig. 1, the feeler support means slidably mounted with respect to a rod 88 which forms part of the base frame forms for the memory feeder, or is attached to it. Such Device allows one to move the feeler 42 axially to the minimum Select the amount of thread which is held as desired on the storage feeder shall be. Regardless of the setting position of the sensor, the maximum The amount of thread stored on the drum is solely due to the time delay controlled. Since the delay time can also be set, this is no problem it can be seen that the device according to the invention has practically no difficulty or discomfort allows great flexibility.

Although the sensor 42 is described in such a way that it with the exposed surface of the drum cooperates to create an electrical switch to form, it is within the scope of the invention to provide a switch assembly, which does not include the drum. More specifically, it's within the scope of this Invention of making a ground contact within device 60, which as a function of the movement of the feeler 42 due to the removal of the thread is engaged between the feeler and the drum. In accordance with such a modification, the one shown schematically in Fig. 5 would become grounded Contact 18 may be the contact which is arranged within the device 60 and depending switched by the movement of the sensor 42 will. Reference is now made to FIGS. 7 and 8. There is another in these Embodiment of the invention shown in which'die storage drum on which the thread is wound up in an absolutely fixed manner during the entire operation and steady state is maintained. In Fig. 7 is the same as in the embodiment According to Figures 1-4, a drive motor 90 is provided which is driven by the frame part 92 is supported in a suitable manner and provided with a hollow shaft 94, the Extension 96 carries a drum 98 by means of interposed ball bearings 100. A hollow take-up arm 102 attached to the hollow shaft 94 extends between the drum 98 and the motor 90 radially away from the hollow shaft. The take-up arm 102 ends in an angled part 104, which for the reasons described above conical part 106 of the drum overlaps. An extension arm 108 extends opposite the winding arm 102 radially away from the hollow shaft 94. The extension arm 108 carries a continuous Xelle 110 rotatably on ball bearing 109 next to its end, which has identical gears 112 and 114, respectively, on their opposing indices.

The motor 90 and the drum 98 are of the same type opposite one another Fixed gears 116 and 116, which mesh with the pinion gears 112 and 114, the be carried by the extension arm 108. The gear 118, which is on the engine 90 is fixed with respect to the frame 92. If accordingly the take-up arm 102 rotates as a function of the rotational movement of the drive motor 90, in order to wind the thread onto the storage drum, this is done with the stationary gear 118 meshing gear 114 in a circular path, as does gear 112 around the Gear 116 rotates, the condition of which is necessarily identical to the condition of the gear 118 must be, namely absolutely stationary or stationary. The control or control the minimum and maximum amounts of thread can be achieved with the storage device according to Figures 7 and 8 in the same Way like this in connection with the Ausführungsbei game of Figs. 1-4 was described, namely by using a feeler 42 carried by the feeler means 60 and is assigned to the time delay circuit, as shown, for example, in'Fig. 5 is shown.

In both of the embodiments described above, namely in the shown in Figures 1-4 and in the Figs.

7 and 8, the on spularm is shown through the hollow shaft of the motor carried. This hollow shaft has an extension on which the drum rests supported, on which the thread is in turn wound up for storage purposes. Such Arrangement requires that the drive motor be in a special relationship is positioned to the drum, with certain difficulties in threading of the thread through the hollow shaft and the hollow on spularm can occur. These Limitations are avoided in the embodiment shown in FIGS. 9-11. In this exemplary embodiment, the storage drum 120 is supported by ball bearings 122 supported on a solid shaft 124 on which a disk or a gear 126 is attached, which is provided with external teeth 128. Between openwork Two freewheel wheels 134 and 136 are mounted on bearing plates 130 and 132. The wave of the gear 134 is supported on ball bearings 138 and 140, and the shaft of the gear 136 is similarly supported in eugel bearings in plates 130 and 132. Both Freewheels 134 and 136 mesh with the toothed disc 126 to the latter during their Rotation by the driving pinion 142 which is in engagement with the toothed disc 126 stands at its upper part. The pinion 142 is between the plates 130 and 132 stored. and is rotated by the drive motor 144. As a result, if the Drive motor 144 is applied to voltage, it rotates the pinion 142, which in turn drives the pulley 126. However, the rotation of the toothed disk 126 does nothing noticeable rotation of the storage drum 120, which on ball bearings 122 is supported and loaded at 146 by a weight. As best shown in Fig. 10, the toothed washer 126 is provided with a hole 148 as well as having a tubular shape Thread guide 150 provided, which extends over the conical part 152 of the storage drum extends. The central openings 154 and 156 in the bearing plates 130 and 132, respectively are large enough to create a clearance for the thread guide 150 and the thread, who passes through this.

It is readily apparent that in this Ausfilbrungsbeispiel the rotation of the toothed disk 126 causes the thread guide 150 to pass through Thread is wound onto the storage drum 120, as in the previous embodiments the maximum and minimum thread quantities stored on the drum are controlled or controlled by a sensor 42, which is controlled by the sensor device 60 is carried and with the time delay circuit of FIG. 5 in connection stands. From Figs. -8-10 it can be seen that this embodiment eliminates the difficulties avoids that by using a motor with a hollow shaft for the drive the Aufspularmes and for the support of the storage drum occur. Since furthermore the thread guide 150 is short and easily accessible, occurs during threading of the thread through the storage device does not present any difficulty.

FIG. 12 shows a modification of the embodiment of FIG. 9-11, in which the two bearing plates are replaced by a closed housing 158 are. The drive pinion 142 is driven by a pulley 160, which in turn belt driven by motor 162 at a read location will.

In yet another embodiment shown in FIGS the storage drum 164 is provided with an inner raceway 16 which is provided with a outer race 168 on an annular body 170 and Eugell bearing rollers therebetween 172 cooperates, whereby the annular body is rotatable around the drum. The annular body 170 is provided with external teeth 174 and between bearing plates 130 and 132 in a manner similar to that shown in FIG. 11 is similar. There are also supportive freewheel wheels here 134 and 136 and a driving pinion 142 are provided, also a tubular one Thread guide 175 on the annular body 170 through which the thread runs, before it is wound onto the storage drum 164. The storage drum is at 176 carefully balanced to prevent any noticeable rotation thereof, while the annular body 170 rotates in the course of the tracing process. Of the FUELER 42 attached to the sensing device 50 cooperates with the storage device 13 and 14 together to control the minimum and maximum amounts of thread, to be stored on the drum.

In this embodiment, therefore, any type of support shaft is used avoided for the storage drum, resulting in a more compact overall arrangement of the various Components is made possible, which form part of the memory supply device.

Reference is now made to FIGS. 15 and 16. There is one in these modified version of the memory feeder shown in Fig. 11 is shown. According to this modification, the storage drum 178 is immediately supported by a massive Wave 180 worn. A tooth lock washer 182 which is a functional equivalent of the Toothed washer 126 in Fig. 10, is on by means of ball bearings 184 of the shaft 180 to allow relative rotation between, as required, the To enable toothed washer 182 and the drum 178. The massive shaft 180 is with a downwardly extending counterweight 186, one of the functions this counterweight is any appreciable rotation of the drum 178 prevent, which in contrast to the previous bus routing examples does not it is necessary to load the storage drum itself with a weight. By the placement of a counterweight 186 on the opposite side of the pulley 182 receives the counterweight the further function of generating a torque, which cancels the opposite torque generated by storage drum 178 is, and it should be noted that the shape and specific gravity of the counterweight 186 are set such that a balancing torque is as accurate as desired is caused to make the whole unit more stable.

Claims (5)

Claims ~~~ ~~ ~ ~~~~~ 1. Fadenzuführvorxichtung for a textile machine with a drum, a device that winds the thread tangentially onto the drum, a device that senses an optionally predetermined amount of thread that is on the Drum is wound up and a device, which on the actuation of the sensing device responds to selectively control the operation of the thread winder, whereby an amount of thread within a selectable predetermined range on the drum is stored for transfer to the textile machine, characterized in that that the sensing device has a sensor (42) "which is directed against the drum (18 etc.) and between a first position in which the sensor is in Plant is located with the drum, and a second position is movable in the the sensor is held out of contact with the thread wound on the drum or is relocated. 2. Device according to claim 1, characterized in that the Control device puts the thread winding device into operation when the sensor (42) is in the first position and the thread winding device via a optionally certain time span in actuated state after the feeler has assumed its second position. 3. Apparatus according to claim 1, characterized in that the sensor (42) is axially movable away from the drum, whereby the amount of thread on the drum can be adjusted at the point in time at which the sensor is in its second position emotional. 4. Apparatus according to claim 1, characterized in that the sensor (42) in its second position by a moving forward on the drum only layer adjacent, the wound thread turns held out of contact or is relocated. 5. Device according to claims 1 and 2, characterized in that that the control device is an electrical circuit with an adjustable time delay element comprises, and that this circuit has a drive device (M) for the thread winding device applies voltage when the sensor (42) is in the first position, and which, when the sensor (42) assumes the second position, the drive device switches off after a predetermined adjustable delay time.