DE1208665B - Control device for the drive motor of the winding spindle on cross-winding machines - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE Int. α .:

D02f

German KL: 76 d- 7/02

T "!

EDITORIAL

Number: 1208 665

File number: U 2637 VII a / 76 d

Filing date: February 27, 1954

Opened on: January 5, 1966

The invention relates to a control device that operates as a function of the thread tension for the drive motor of the winding spindle on cross-winding machines, whereby the speed change is effected by a magnetic core movable in an inductance coil and the two-armed feeler lever is biased by a spring, the tensioning force of which can be regulated as a function of the bobbin diameter.

Control devices of the aforementioned type are known in which one of the thread tension is applied to the feeler lever counteracting force is applied with the help of weights. The use of such weights leads to the disadvantage that, due to their inertia, when changes occur in the thread tension the feeler lever is subjected to rapid vibrations which, on the one hand, cause sudden changes in the The speed of the drive motor and thereby a non-uniform rotation of the take-up spindle and on the other hand, when winding fine threads, there is a risk that the thread being wound up will break.

The purpose of the invention is to create a control device of the type mentioned at the outset, in which this disadvantage is eliminated by the feeler lever is prevented from vibrating, so that a smooth rotation of the take-up spindle is ensured and tearing, in particular of fine threads, is eliminated with the greatest possible certainty.

According to the invention, this is achieved in that a damping device is connected to the feeler lever is the force that moves the magnetic core further into the inductance coil seeks, counteracts.

According to a particular embodiment of the invention, the damping device has a ratchet wheel on, which is arranged on an idler pulley around which a flexible member is wrapped that is connected to the magnetic core is connected, and that a pawl is provided to lock the ratchet wheel can to prevent rotation of the idler pulley in one direction.

The flexible member of the damping device preferably consists of a friction band that is on the locked idle disk slips to dampen the movement of the magnetic core.

In the drawings, embodiments of the invention are shown by way of example, namely is

F i g. 1 is a front view of a winding machine with a thread tension control,

F i g. Figure 2 is a part of a rear view, partly in section, and illustrates the control device for the thread tension,

F i g. 3 a drawn on an enlarged scale

Control device for the drive motor of the
Winding spindle on cross-winding machines

Applicant:

Universal Winding Company, Warwick, R. I.

(V. StA.)

Representative:

Dr. E. Wiegand and Dipl.-Ing. W. Niemann,

Patent Attorneys, Hamburg 1, Ballindamm 26

Named as inventor:

John Vernon Ketth, Warwick, R. I. (V. St. A.)

Claimed priority:

V. St. v. America July 8, 1953 (373 465)

Single view illustrating details of the device for moving the magnetic core in and out of the choke coil,

F i g. Fig. 4 is a view of the rear of the control panel with individual parts omitted and illustrates the damping device built into the control device according to the invention,

F i g. 5 shows a plan view of the damping device, drawn on an enlarged scale, and FIG

F i g. 6 is a view of this damping device.

In Fig. 1, the winder 10 is on a

Base 12 attached. The winding device 10 is of the type known as a "precision cross-winding machine" is known in which the number of revolutions of the winding spindle 14 for each reciprocating movement of the thread guide 16 from the beginning of the winding up to the point in time at which the lap is completely wound up, is certain. The winding spindle 14 is rotatably mounted in a housing 18. Of the Yarn guide 16 is guided in a running frame 20, which in turn is pivotably mounted on a shaft 22 is to enable that the thread guide with increasing bobbin diameter of the Spindle 14 moved away. The winding spindle 14 has a winding mandrel which can be expanded by means of a lever 26 24 for the bobbin. The winder 10 is driven by an electric variable speed motor 28, which is mounted on a bearing block 29.

The base 12 forms a hollow box with an opening 66 which can be closed by a plate 68.

509 777/131

3 4

The regulating device is located therein, which consists of arms 96 and 100 and the shaft 98 like a lever of a choke coil 50, in which a core 62 acts, which is pivotable about the shaft 98.
is arranged movably. Above the coil 50 is the free end of the arm 100 is rotatably mounted by means of a wheel 74 on a shaft 76 in such a way, link 108 with the lever 102 and this over a that its circumference is essentially tangential to the link 104 with the frame 20 connected so that the axis of the choke coil runs. The core 62 is connected to a pivoting movement of the mentioned frame 20, the wheel 74 by a flexible band 78, which is created by the growth of the package, which will raise the free end of the arm 100 with one end on the circumference of the wheel, whereby 74 engages and the other end of which is lowered with the core of the arm 96 and consequently the force is connected, with the effect that the core is tightened, which by the spring 92 on the wheel in the axial opening of the spool 50 in and out of which 74 is exercised. The free end of the arm 100 and ser can move out. A feeler lever 80 (Fig. 2) the lower end of the handlebar 108 is provided with a plurality of holes 110 and 112, with one of its ends attached to the shaft 76, to allow and carries at its other end a roller 82 that The maximum amount of thread loop, set in advance by the spring 92 over the amount of tension exerted in a known manner on the bobbin 15 to be sensed, runs so that when the tension of the bobbin thread Y is increased, the mentioned roller 82 can also be used by the maximum amount of tension of the bobbin thread Y. To be able to adjust the pivoting movement, which the frame lifted and which can also give to the arms 96 and 100 on the shaft 76 men 20,
The attached wheel 74 is rotated in a direction in which the core 62 descends into the coil 50 in a usually closed monopolar single-pole manner. By means of a switch 34, a movement of the core 62 into the coil 50 is attached to the shaft 76 on the inner surface of the plate 68 in such a way that a protruding effect carried by the operating arm 114 increases the impedance of this coil that via further switching means that are not counter-finger 113 with a spoke 116 of the wheel 74 in the state of the invention, the motor 28 slows down comes into engagement in order to open this switch, if is. Conversely, a decrease in the 25 bobbin thread Y should break and the motor 28 and tension of the bobbin thread Y will allow the roller 82 to stop the bobbin winder from working,
is moved downward, with the effect that in such a controllable winder wheel 74 rotates in a direction in which the core 62, when the winding is pulled out of the bobbin 50 at a high speed and the motor is fast, it is desirable , the vibrations of the 28 and the winder are accelerated. 30 feeler lever 80 to dampen. Figs. 5 and 6

If the core 62 moves from a position in which the damping front according to the invention, the greater part of its length is out of direction, and FIG. 4 illustrates the manner in which the coil 50 is located, moved into a position in which it increases in the manner in which such a damping device is essentially centered in this coil. 1 and 2 device shown next the magnetic attraction on the core to 35 is arranged. If such a damping before and reaches a maximum value, if the direction is used, the core described above remains in half of its way in the coil, beneath electrical parts and the way they are arranged and then decreases to a minimum, if the core in the machine is essentially the same, it is also centered in the spool. To compensate for this change in how the mechanical parts compensate for the magnetic pull exerted on the magnetic attraction of the core 62 and for some of the course that is applied to the wheel 74 and roller 82, imparting a pivoting motion to the sensing means of the flexible belt 78 is transmitted, lever is provided to a predetermined tension on the one spring device. Exercise this compensated bobbin thread Y. In the interest of simplicity, the spring device (FIG. 3) has a screw in FIG. 4 all these parts have been omitted, benfeder 86, one end of which is attached to a pin 45. The damping device has the shape of a 88 below the shaft 76, while its running disk 164, which engages on a stub shaft 166, the other end on a pin 90, which is rotatably supported by which is carried on the plate 68 of the hub 91 of the wheel 74. It is too fortified and protrudes inward from this,
know that when the wheel 74 is out of that The shaft 166 is above the wheel 74 position in which the core 62 is substantially moved out of the 50 in such a position that the circumference of the pulley 164 coil 50 is moved out, into a position is tangential to the axis of the choke coil 50 which essentially centers that core in the coil. The flexible band 78, one end of which is at which the spring 86 will act on the wheel, around the core 62 and the other end thereof is attached to the circumference of the magnetic attraction on the core 62 against the wheel 74, goes over the disc 164 act. 55 away, so that a movement of this band for the purpose of

Resilient means in the form of a spring 92 raise or lower said core the is provided to remove the weight of the core 62- the pulley 164 seeks to rotate. With the match and to provide a force that the core from disk 164 is a ratchet 170 rotatably connected Seeks to pull out bobbin 50. One end is the, and on the stub shaft 166 is next to that this spring 92 is on a length of a flexible 60 ratchet wheel 170 by means of an adjusting screw 174 Belt 94 attached, which in turn attached to the circumference of the arm 172. From this arm 172 is a Hub 91 attacks. The other end of the spring 92 pawl 176 is pivotally supported so that it can with engages at one end of an arm 96 (FIG. 1) the ratchet wheel 170 can engage. the on, the other end of which is firmly seated on a shaft 98, running disk 164 can thus be in one direction in the front wall of the base 12 so that it can rotate freely and is supported against rotation in the wall and is held through this wall by the pawl 176, stretches. A second arm 100 is with its one the running disk 164 acts for the damping of the End also attached to the shaft 98, so that the oscillating movement of the sensing lever 80 in the following

Way: When the winding spindle 14 winds the bobbin thread Y more slowly than it is being fed to the winder, the feeler lever 80 is lowered and thereby the core 62 is pulled out of the choke bobbin 50, whereby the speed of the motor 28 is increased. During this movement of the feeler lever 80 and the core 62, the running disk 164 is freely rotatable and thus transmits very little, if any, resistance to the downward movement of the feeler lever 80. When the winding spindle 14 winds the bobbin thread Y faster than it is fed to the winder is, the yarn raises the feeler 80 and lowers the core 62 into the choke coil 50, whereby the motor 28 is slowed down. During this movement of the sensing lever 80 and the core 62, the pulley 164 is held against rotation by the pawl 176 after it has come into engagement with the ratchet wheel 170 , with the result that the flexible band 78 is now over the circumferential surface of the pulley 164 must slide and the friction of this band exerts a retarding force on the upward movement of the feeler lever 80. A desired retarding or damping force can be applied to the feeler lever 80 by appropriately selecting the fabrics or materials for the pulley 164 and flexible belt 78, and by selecting the width of the pulley and belt and the diameter and amount of wrap.

Claims (3)

Patent claims: i. Depending on the thread tension working control device for the drive motor of the winding spindle on cross-winding machines, the speed change is effected by a magnetic core movable in an inductance coil and the two-armed feeler lever is pretensioned by a spring, the tensioning force of which can be regulated as a function of the bobbin diameter, characterized in that a damping device (164, 170, 176) is connected to the feeler lever (80) and counteracts the force which seeks to move the magnetic core (62) further into the inductance coil (50). 2. Control device according to claim 1, characterized in that the damping device comprises a ratchet wheel (170) which is arranged on an idle pulley (164) around which a flexible band (78) is wound, which is connected to the magnetic core (62) and that a pawl (176) is provided which can lock the ratchet wheel (170) to prevent rotation of the idler pulley (164) in one direction. 3. Control device according to claim 2, characterized in that the flexible band (78) consists of a friction band which slides on the locked idle disk (164) in order to dampen the movement of the magnetic core (62). Considered publications:
British Patent No. 653,902;
U.S. Patent Nos. 2,608,355, 2,554,956;
Electronics magazine, January 1951, p. 105;
Electrical Engineering magazine, June 1950, pp. 542/543. For this purpose 2 sheets of drawings E09 777/131 12.65 © Bundesdruckerei Berlin