FR2579965A1 - WIRE WINDING APPARATUS - Google Patents

Abstract

The unit consists of a compensator with a position measuring installation, a winding cylinder mounted on a winding shaft and a package pressed against the winding cylinder fastened on the machine frame through a package arm. The winding cylinder equipped with friction coatings on the two front planes is positioned movable on the winding shaft. An electromagnet is located on one side of the winding cylinder while a spring is incorporated in a hollow space between the electromagnet and the winding cylinder. A friction brake is fastened on the other side of the winding cylinder. Pref. servo unit of the installation consists of a winding cylinder The electromagnet located on the winding shaft is fed through a current conducting ring and a brush. The electromagnet incorporates a hollow space with a spring inside it. The brake is fixed to the machine frame with a fastening plate.

Description

Apparatus for winding wires
The present invention relates to an apparatus for winding threads, intended in particular for textile machines in which a thread under constant tension is sent to the winding device.

 An apparatus for winding wires is known (author's certificate No. 206,363 in the USSR) making it possible to regulate the tension of the wires during their winding. In this device, the drive of the winding cylinder of the textile machine is carried out using an electromagnet placed in the cylinder and fixed permanently to the winding shaft. To close the electrical supply circuit of the electromagnet, a winding cylinder made of soft magnetic material is used. The electromagnet is supplied using contact rings and bearings, and a rheostat is provided in this circuit. A movable wire guide constituted by a two-arm lever provided with a load compensation device, and which is crossed by the wire which is spooled, is connected by bearings to the frame of the apparatus. A transducer is mounted on the wire guide. The transducer is a rheostat comprising a tube of mercury glass and a high resistance conductor immersed in mercury.

 The disadvantages of this device reside in its large overall dimensions, the existence of a certain inertia and a certain instability during the treatment process, the high reactive losses as well as the deposition of the wires on each other ( which is also referred to as "image winding") during their winding.

 An apparatus for winding wires is also known, comprising a unit arranged so as to avoid the deposition of the wires on each other. In this apparatus, a winding cylinder is fixedly mounted on a winding shaft, and the wound coil, mounted on a spool arm, is pressed against this cylinder. An axially displaceable wire guide is arranged near the winding cylinder to guide the wire towards the spool. In addition to the winding cylinder, the device has a separate grooved cylinder for driving the wire guide. The grooved cylinder is connected via a toothed belt to the shaft of the winding cylinder. A tension roller is provided for the guideable part of the toothed belt while a pressure roller that operates periodically is disposed on the guide portion. Periodic compression is obtained using an independent device comprising a lever system and a transmission reduction gear, driven by an independent electric drive device.

 The disadvantages of this device are that it has complex (sophisticated) kinematics. In addition, it is not possible with this device to adjust the thread tension during winding.

 The object of the present invention is to create a simple device for winding wires, which maintains a constant tension on the wire, during the winding thereof, and which makes it possible to simultaneously obtain a movement of movement of the windings to prevent them to deposit on each other, which has low inertia and overall dimensions stable during the working process, and which causes low reaction losses. This problem is solved in accordance with the invention using an apparatus for winding wires, of the type comprising a control part and an active part comprising a compensator provided with a position transducer, a winding cylinder mounted on a winding shaft and a coil pressed against the winding cylinder and fixed by means of a spool-carrying arm to the frame of the machine, characterized in that the winding cylinder is provided with friction plates on its two front faces and is mounted so as to be detached can be placed on the winding shaft, in that an electromagnet is placed on one side of the winding cylinder, in that a spring is placed in a recess between the electromagnet and the winding cylinder, and in that a friction braking device rigidly connected to the frame of the machine is mounted on the other side of the winding cylinder.

 In this device, the electromagnet has a recess or a cavity and is rigidly fixed to the winding box and has a current supply ring associated with a brush.

 According to another embodiment, the electromagnet has a recess, is rigidly connected to the frame of the machine and is connected by means of bearings to the winding shaft, while a guide disc provided with a recess is fixed. rigidly at the winding shelter, in the recess of the electromagnet.

 The advantages of the invention lie in the fact that the apparatus is simple, and has reduced overall dimensions and low inertia, is stable during the treatment operation, has low reaction losses and simultaneously performs regulation. of the thread tension, while avoiding the application of the girls on each other during their winding. Coils which are correctly wound are thus obtained, while at the same time the fraying is reduced.

Other characteristics and advantages of the present invention will emerge from the description which will be given below with reference to the appended drawings in which
- Figure 1 shows a diagram of the device
- Figure 2 is a cross-sectional view of the active part of the device which is provided with a movable electromagnet; and
- Figure 3 is a cross-sectional view of the active part of the device which is provided with a stationary electromagnet.

 The device has a control part and an active part.

The control part is constituted by a position transducer 1, a compensator 2 provided with a probe 5 for the wire, and in the position transducer 1 there is provided an incorporated device 4 serving to regulate the action of the compensator. The wire 3 is wound on the spool 16 mounted on the spool-carrying arm 17. The active part of the device comprises a winding cylinder 7 mounted so as to be movable on the winding shaft 6 and comprising on its two front faces, friction plates 11 made of magnetic material. On one side of the winding cylinder 7 is rigidly mounted on the winding shaft 6, an electromagnet 8 supplied by means of a ring 13 for supplying the current and a brush 14. In the electromagnet 8 is provided a cavity 18 in which is placed a spring 12. On the other side of the winding cylinder 7, a braking device 10 is mounted on the winding shaft 6 by means of bearings, being rigidly fixed to the machine frame by means of a fixing device 15.

 According to another embodiment of the device, shown in Figure 3, the electromagnet 8 is connected to the frame of the machine 19 and is mounted by means of bearings on the winding shaft 6. '-'electro - magnet 8 has a recess 20 in which is placed a disk of si: 4age -. This guide disc 9 is fixedly mounted on the winding shaft r and includes a recess 28 in which the spring 12 is housed.

The electromagnet includes a current supply device 21.

 The operation of the apparatus is as follows: the winding of the wire 3 with a normal voltage is carried out when the electromagnet 8 is connected. When the winding speed increases in relation to the speed of supply of the wire 3, the tension of the latter increases and at this instant the compensator 2 moves by compensating to a certain degree the speed difference obtained If this difference exceeds a value predetermined, the position transducer 1 is activated, which stops the electrical supply to the electromagnet 8. As a result, the spring t2 axially pushes the winding cylinder 7, which causes the actuation of the device 10.With the action of this braking device, the movement of the winding cylinder begins to slow down until the difference in speed obtained is compensated.

 The feeler 5 for the wire 3 then returns to its initial position while the position transducer 1 allows the electromagnet 8 to be supplied so that the winding takes place under normal voltage. The winding cylinder 7, attracted by the electromagnet 8-, overcomes the force of the spring 12 and therefore the cylinder 7 compresses, against the electromagnet 8, the guide disc 9 which has the angular speed of the winding shaft. For any new difference obtained between the feed speed and the wire winding speed, this cycle is repeated. Each cycle of compensation for the difference between the speeds consists simultaneously of a disturbing movement of the winding cylinder 7, under the effect of its axial displacement, which makes it possible to avoid the application of the wires to each other ("formations images ").

Claims (3)

 1. Apparatus for winding wires, of the type comprising a control part and an active part, comprising a compensator (2) provided with a position transducer (1), a winding cylinder (7) mounted on a winding shaft (6) and a spool (16) pressed against the winding cylinder and fixed by means of a spool-carrying arm (17) to the frame (19) of the machine, characterized in that the winding cylinder (7 ) is provided with friction plates (11) on its two front faces and is mounted so that it can be moved on the winding shaft (6), in that an electromagnet (8) is arranged on one side of the winding cylinder (7), in that a spring (12) is arranged in a recess (18, 20) between the electromagnet (8) and the winding cylinder (7) and in that a friction braking device (10) rigidly connected to the frame (19) of the machine is mounted on the other side of the winding cylinder (7).  2. Apparatus for winding wires according to claim 1, characterized in that the electromagnet (8), provided with the recess (18), is rigidly fixed to the winding shaft (6) and comprises a ring (13 ) supplying the current associated with a brush (14).  3. Apparatus for winding wires according to claim 1, characterized in that the electromagnet (8), of the recess (20), is rigidly connected to the frame (19) of the machine and is connected using bearings at the winding shaft (6), and in that a guide disc (9) provided with a recess (28) is housed in the recess (20) of the electromagnet (8) and is rigidly fixed to the winding shaft (6).