DE1760066C - Device on the winding part of upward twisting machines - Google Patents

Description

3. Vor'ung according to claim 2 at a stop is.

Wireszwirnmasehine, whose spindles are individually down- D ^ with the downward pivoting path of the bobbin

can be braked, characterized in that the frame from the raised locking position b: brake with a microswitch (5C) is connected to the height of the rotating friction roller through dedung, so that when the spindle is braked while the spindle is at a standstill automatically v, (1) the circuit of the electromagnet (33) its pivoting path is closed and the lever is blocked when the spindle (1) starts up, opening the winding mechanism. _{35 S} p _U le on the distribution roller no ^ h during the style

Stand the spindle is made impossible.

The swiveling of the Siriierungs lever can i, ·· advantageously be dependent on the spindle start-up that deflect-40 on the safety lever the free Enc'e of a sliding armature of a stationary electromagnet is hinged on the side.

The invention relates to a device of which the sliding armature when the locker is running! on the winding-up part of up-winding machines, whose spindle is drawn in by spring force and kept extended up and down on its axis when the bobbin frame is stationary. The shifting pivotable and in the anchor from the distribution roller thus releases the outward pivoting path of the raised position locked on the machine frame. The bobbin frame is only released when the spindle is running, is held. A _{ne upwinder} . their spindles

With most of the known upward twisting machines, which can be braked individually, anyone can do the brake machine is connected to a microswitch while the twisting spindle is running the take-up reel, which are between the arms of the 50, so that when the spindle is braked Coil frame axially clamped and releasably held circuit of the electromagnet closed and is, when the bobbin frame is unlocked when the spindle starts up. their own weight on the distribution roller and is z. B. is therefore still only

driven by this in rotation under friction. shut down the spindle and move the bobbin frame If the spindle is stopped or a thread break 55 is the bobbin frame pivot axis in the locking device correct or the spindle has to be swiveled with a new setting. With the braking process is To equip the delivery reel, however, at the same time via the micro switch of the The take-up reel on the up-twisting machines is powered by an electromagnet, which is more conventional Design the take-up reel by swiveling the safety lever into the swivel path Swiveling the bobbin frame upwards from the 60 of the bobbin frame so that it is in The friction roller can be lifted off. Swiveled up the upper locking position is also blocked. The reel frame is then locked by a downward pivoting of the reel frame to direction held cantilevered. The take-up reel is placed on the distribution roller

Before restarting the take-up, only after restarting the spindle, bobbin should start the spindle beforehand, so that after releasing the brake on the spindle, it is possible free thread length also immediately before the opening, so that even with multiple interruptions The Λ 'bobbin receives its twists and this length twisting process ensures a uniform thread quality on the light, untwisted to wind up. In addition, the take-up reel is wound. Also is the danger

I 760 066

Jos winding * untwisted yarn at a standstill Spindle avoided.

In the drawing, embodiments according to the invention are shown. Fs shows

F i g. I a two-for-one twisting spindle mounted in the spindle beam with a take-up reel held above the same by the reel frame.

F i g. 2 eir.cn section of a host egg stored in the spindle beam of a double-wire twisting spindle

F i g. 3 the spool frame of the take-up part of. ■ j: r side in raised position,

F i g. 3 a and F i g. 3 b Individual parts of the frame frame according to Fig. 3 in section,

F i g. 4 in section the spindle bar of the two-for-one twisting spindle according to FIG. I with the brake lever.

In Fiel is the I '.ippeldrahi / wirnspinde stored in the spindle bay 2! 1 shown, of the delivery reel 3, the Fiiden 4 over the hollow spindle ^! -L 5 circumferential towing wing 6 deducted

<yiden. The thread to be twisted goes through - Jilielkr.u the hollow spindle axis 5. emerge radially :: r thread storage disk 7 of the spindle rotor b

κ! describe a thread balloon around the protective pot 8, which links its vertex in the thread guide eyelet 9. ; e Langt: the take-up tube 13 to form a conical cross • bobbin. The take-up tube 13 isl between the two support arms 14 and 15 of the spool frame denoted by 16 is held axially clamped freely rotatable and rests on the friction roller 17 which is attached to the driven shaft in FIG.

To release the take-up tube 13 from the bobbin frame 16, its support arm 14 can be pivoted about the bolt 19 α by means of the hand lever 20 approximately in the axial direction of the take-up tube 13. The swivel arm 21 of the bobbin frame 16, which acts eccentrically on the base tavern: 19, reaches through the cover 22 extending along the machine, which holds the hollow support rod 23 and the holding and securing devices of the respective bobbin frame 16 shown in FIG. covers.

On the one from FIG. 3, attached to the support rod 23 below the cover 22 Profile support body 24, the coil frame pivot axis 25 is held. About the bobbin frame pivot axis 25, the swivel arm 21 of the bobbin frame 16 is mounted so that it can be swiveled up and down. Below of the pivot arm 21 extends the articulated on the profile support body 24 slide rail 26 which against the force of the one hand on the profile support body 24, on the other hand at the free end of the Spring 27 engaging slide rail 26 can be pivoted downward in the pivoting direction of pivot arm 21 is. On the slide rail 26 is supported with its free end via the roller 28 of the the pivot arm 21 rigidly connected support arm 29 from. The support of the coil frame 16 on the The support arm 29 on the slide rail 26 is used to even out the action on the distribution roller 17 Weight of the take-up reel, which becomes heavier in the course of the winding process.

Above the slide rail 26 extends the securing lever 30, which is approximately transverse to the pivot direction de; Support arm 29 is pivotably articulated at point 30 α on Profilirugkörper 24. The free end of the sliding armature 31 of the electromagnet 33, which is fixedly attached to the support rod 23 by means of the bracket 32, is articulated on the securing lever 30. As FIG. 3b shows, the sliding armature 31 can be retracted into the electromagnet 33 against the force of the spring 34. For this purpose, the spring 34 is supported on the one hand on the console 32 and

ίο on the other hand on a support shoulder of the sliding anchor 31 from.

In Fig. 3 is that pivot position of the Coil frame 16 shown, in which the spindle 1 is stopped according to FIG. 1 and the coil frame 16 in

lifted position from the friction roller 17 by means of the locking device shown in FIG. 3 a . The locking device consists of the top bar 35 of the profiled support body 4 with the spring-loaded locking bolt 36, which is then seen, which engages in a recess in the end face of the support stub 37 attached to the support arm 29 for locking purposes. In the position shown, the safety lever 30 is swiveled into the pivot of the support arm 29 against the force of the spring 34 with the aid of the electromagnet 33, which is energized when the spindle is at a standstill, and its end face 38 lies directly on the support arm 29. so that its pivoting in a clockwise direction, so that the downward pivoting of the spool frame 16 and the placement of its winding tube 13 on dl ·; Distribution roller 17. is made impossible.

According to FIGS. 1 to 4, the extension takes place Sliding armature 31 of the electromagnet 33 in the pivoting path of the support arm 29 and thus the blocking the pivoting path of the reel frame 16 through the safety lever 30 when the spindle is stationary 1 and the retraction of the sliding armature 31 and thus the release of the pivoting path of the coil frame 16 with running spindle 1 automatically depending on the respective position of the spindle brake.

After F "i g. 2, the spindle by means of a magnetic brake 39, which is arranged below the wharve 40 on a diamond-shaped base plate 41, braked. By closing of the braking circuit, switched to the electromagnet 33 i ^r t the electromagnet of the magnetic brake 39 and the electromagnet 33 is effective, the magnetic brake 39 brakes the whorl 40 in that, against the pressure of the springs 42 and 43, the direct base plate 41 of the magnetic brake 39 presses on the spindle bar 2, the magnetic brake 39 is raised The electromagnet 33 allows the safety lever 30 to pivot into the pivoting path of the reel frame 16, which, after the reel frame 16 has been raised, lies behind its support arm 29 until it is locked

by interrupting the circuit with the start-up of spindle 1. If the Electromagnet 33 de-energized, the sliding armature 31 slides back and under the force of the spring 34 pivots the safety lever 30 outward.

If the spindle can be braked by an internal shoe brake, its in FIG. 4 not in detail shown expanding mandrel by pivoting in the horizontal direction of the extension 53

76Ü 066

engaging pivot lever 44 is rotated by means of the pivot lever 45 pivotably held on the spindle beam 2 by pivoting it clockwise. For this rotation, the actuating arm 46 is articulated eccentrically on the toggle lever 45, but its free end extends through an opening in the pivot lever 44. The movements of the actuating arm 46 are transmitted to the swivel lever 44 via the helical spring 47 comprising the actuating arm 46, for which the helical spring 47 is supported on the one hand on the nut 51 screwed onto the actuating lever 46 and on the other hand rests against the swivel lever 44. If the brake lever 45 is pivoted from the position shown with solid lines while lifting from the stop pad 48 about its pivot axis 52 into the position shown in dash-dotted lines, the pivot lever 44 is pivoted via the helical spring 47 and thus the spindle 1 is braked, and it is shifted The l'reic linde of the actuating arm 46 when it is pivoted against the switching lever 49 of the microswitch 50 attached to the Spindellialki.ii.ii.ii. With which the electromagnet 33 according to FIG. 3 is energized and the Sichertingslicbel 30 is pivoted into the swing path of the Sliit? - arm 29.

In both embodiments is thus electrically, namely according to FIG. 2 by a switch the annular magnetic brake 39 and according to Fig.l or 4 by closing the microswitch 50, each via the electromagnet 33 the Safety device to prevent the bobbin frame 16 from pivoting downwards when the stationary spindle brought into the operative position. Also automatically pivoted when the Spindle, namely when switching off the electromagnet of the magnetic brake 39 or when opening of the microswitch 50, the safety lever 30 off

ao the pivoting path of the support arm 29 out.

1 sheet of drawings

Claims (2)

should the thread bend from the delivery spool of de; Stand-by claims: take-up reel only when the spindle is rotating, as otherwise large lengths of thread are untwisted 1. The device on the winding part can be wound upwards. twisting machines, the bobbin frame of which is around its 5 Well, however, practice has shown that often insij Axis can be swiveled up and down and especially by newly trained operators!.:! the position lifted from the distribution roller on the first take-up reel from its locking device Machine frame is held locked, placed there and on the distribution roller and only then d ·. by g e k e η η ζ e i c h η e t that an approximately transverse brake of the spindle is completely released. It is called to the pivoting direction of the bobbin frame (16) io just in the reverse order the commissioning! pivotable safety lever (30) carried out on a settlement, with which the mentioned Nac '· the support body (24) carrying the winding part are connected to one another. is steered, the at spindle standstill and starting from a device of the input ^ raised bobbin frame (16), automatically in the type mentioned, the object of the invention is / i. whose pivoting path engages, the bobbin base 15, a device on the winding part of Au ' frame (16) from swiveling backwards prevents upward twisting machines from creating and with the spindle (1) running laterally from which the winding reel is placed on the Rcibw; !!, Pivoting '. J of the bobbin frame (16) deflected before the start of the spindle * reduced, is held. The invention consists then that on the reel .. 2. Apparatus according to claim 1, characterized in 20 an approximately ^ ucr to the pivoting direction of the Spulenrai indicates that on the safety lever (30) mens pivotable safety lever on a di. ·. on the deflection side, the free 'nde of a supporting body carrying a sliding winding-up part is articulated. d; armature (31) of a stationary electrical device when the spindle is at a standstill and when the spook is raised, magnet (33) is articulated, of which the frame, self-contained in its pivoting path cn; · Sliding anchor (31) with the spindle (1) running through 25, gripping the coil frame on the downward welding: Spring force (34) is drawn in and prevents it from moving when the spindle is stationary and to the side when the spindle is running The spindle (1) is kept extended. deflected by the gravity travel of the bobbin frame>. ■