DE1510853C - Device on a two-for-one twisting spindle for controlling thread brakes o the like - Google Patents

Description

The invention relates to a device on a two-for-one twisting spindle for controlling thread brakes or the like, which are arranged in the stationary stored delivery reel carrier, by means of magnetic force.

In a known device of this type (see US Pat. No. 2,952,114), magnetic force a braking body, namely the ball of a thread brake, with more or less strong pressure pressed against a braking surface. The ball interacts with permanent magnets that are in the area are assigned to the spindle rotor axis lying on the ball. To change the exerted on the ball Force is assigned to the ball, also located in the area of the spindle rotor axis, a wound field coil, which exerts different forces on the ball due to different feeds. For feeding of the field column with current are electrical connection lines required, which lead to a power source, which due to the rotation of the spindle rotor electrical connection must be made via sliding contacts. These sliding contacts are exposed and are thus exposed to dust and fiber / lug pollution. Also a spark and A conspiracy of the contacts cannot be ruled out, which can cause inflammation of the fiber particles and as a result can also be a dust explosion. The power consumption is also very high.

It is also known (see. German Patent 919 091), a brake body lying in the spindle axis Assign permanent magnets, through the influence of which the braking force can be changed by between Discs made of non-magnetic material are placed between the brake body and the permanent magnets will. With such an arrangement, the braking force can only be applied before the two-for-one twisting spindle is started up can be set to a certain value so that the braking force is influenced is not possible during operation.

It is known to have auxiliary devices at the upper end of the spindle axis for the supply reel to arrange the running thread, which is dragged by the thread. Even with such devices influencing during operation can be useful, which is the case with the known devices however, this is not possible or only with great difficulty.

The object of the invention is to create a device with which it is possible from the outside during operation on movable control elements on or in the delivery reel carrier to act, e.g. B. a thread brake, a drainage aid, a towing wing or the like, without the need for disadvantageous sliding contact connections or the like are.

To solve this problem, the device according to the invention is characterized in that outside of the delivery spool carrier and independent of it, at least one control magnet with variable Magnetic force is arranged, each of which is assigned a magnetic body, which is in the delivery spool carrier is guided or stored and the movement imposed on it by the .Steuermagneten by means of mechanically, hydraulically or pneumatically in the walls of the delivery spool carrier acting connecting members on at least one movable part of a thread brake or the like. transfers in the delivery reel carrier.

With such an arrangement, there is a need for each mechanical connection for power transmission between Parts outside the spindle and parts of the spindle itself are dispensed with, and there is only one connection by means of magnetic lines of force, which means that in contrast to known devices which Sliding contacts or the like need, no wear occurs. The energy requirement is also essential lower, since the losses that occur with sliding contacts are eliminated. There are still no Problems caused by a spark and a

ίο scorching of the contacts can occur. In the end the invention can be used both with electromagnets and with permanent magnets as control magnets realize what extends the scope of the device.

Depending on the local arrangement of the movable one influencing the thread itself or the thread path Part, the organs connecting this part to the movably arranged magnetic body can join the Bodenwainung of the bobbin case in a wall section of the bobbin case alone or extend through several wall sections merging into one another, among other things. also through the plate-shaped bottom of the bobbin case through to move parts in this way in the area of To influence the spindle hollow axis of the delivery reel carrier.

The connection by means of hydraulically or pneumatically acting connecting elements is special easy to implement because the hydraulic means or the pneumatic means, in particular Air, can be located in channels, which are located within a wall or within the walls of the Spulenopfcs extend. If necessary, a flexible hose or the like can be inserted into such channels.

35. be brought, which receives the hydraulic or pneumatic transmission means inside.

A preferred individual solution according to the invention can consist in that the movably guided Magnetic body in the outer wall of the delivery reel carrier against an elastically compressible one Bellows is slidable pneumatically or hydraulically is connected to an elastically stretchable bellows in the mandrel of the delivery reel carrier, which rests on the movable part of the thread brake.

If in this embodiment by the displacement of the magnet body against the elastically compressible Bellows the latter is compressed, this compression causes a displacement of the hydraulic or pneumatic means located within the bellows with the The result is that the elastic, expandable bellows is expanded, which in turn causes a corresponding movement of the movable part acting on the thread or influencing the thread path triggers.

When the magnet body returns to its starting position, the one that has been compressed by the magnet body springs Bellows back, and the expansion of the other bellows is undone, so that the Movable part of the delivery spool carrier returned to the initial position and the influencing of the Or the thread stops running.

In detail, according to the invention, the movable part of the thread brake can be the movable brake body be a thread brake acting directly on the thread through friction.

It can also be provided according to the invention that the movable part of the movable brake body a towing lever brake, which is at the top of the

Spindle height or on the upper outer edge of the'als Spool pot trained delivery spool carrier can be arranged.

Instead of one designed as a drag-link brake Thread run-off aids can also be influenced by a movable part that is designed in a different way be, for example, a bell-shaped body dragged by the thread, which opens the inlet of the thread its way from the delivery spool into the spindle hollow axis in the sense of a uniform thread circumference influenced while avoiding a sharp deflection angle.

In a further embodiment of the invention, as Control magnet an electromagnet can be provided.

An electromagnet preferably offers the possibility of changing the strength of the magnetic force and reversing the direction of the same so that, in the case of a brake, the braking force can be adjusted to the desired conditions, including the brake acting as a so-called thread stop device at full braking force or to fully bleed the brake so that it is completely inoperative. A similar influence is possible by means of an electromagnet in the case of a drag brake or some other drainage aid. Finally, as a result of the possibility of reversing the direction of the magnetic force, an electromagnet allows the thread to be cut by moving a movable part into the thread path and cutting the thread.

Instead of an electromagnet, a movable permanent magnet can also be used, so that through the displacement of the permanent magnet is not only the strength of the effective magnetic force is to be changed, but also a corresponding displacement of the magnet body can be done so that the latter is always opposite the control magnet, so that this movement on the movable part in the Delivery reel carrier is transferred. Among other things, the path of relocation can be through a curve be fixed. This can optionally be the distance between the control magnet and the magnet body change so that the magnetic force changes due to the shift in location. In the older patent I 268 032 is used for a thread brake on two-for-one twisting spindles Already one that can be displaced on the brake body housing by external action Magnet proposed, whereby the magnetic field between magnet and brake body in such a way it can be changed that the brake body is lifted from its opposite surface or the braking force is canceled between the brake body and the mating surface. However, the external influence is only with Standstill of the two-for-one twisting spindle is possible and can therefore be caused by pressing down the bobbin do not serve to change the braking force applied during operation.

The different ways of changing the magnetic force of the control magnet, which is on the movable guided magnetic body comes into effect, offer many possibilities of influencing the movable Parts of the delivery spool carrier. For example a movably guided braking body as a moveable part of the delivery reel carrier depending on the The thread pull-through speed, the spindle speed or the thread tension in the balloon are adjusted will.

Finally, there is the possibility of using the control magnet with any auxiliary organs of the spindle to allow them to interact, for example with thread monitors or the spindle brake switch the magnet on, off or toggle, for example

5 or switch it on again.

Conversely, it can be provided according to the invention that the displaceably arranged control magnet is connected to a spindle brake so that its displacement in one direction

ίο the spindle brake releases and in the other direction can address.

Furthermore, it can be provided according to the invention, that the control magnet designed as an electromagnet by a thread monitor to respond and / or is changeable in its magnetic force.

Thus "the invention creates, among other things, the prerequisites for the most diverse Initiate and carry out processes depending on one another.

According to a further invention it can be provided that the control magnet by a measuring device can be brought to response, which measures the winding length of the thread.

As a result, for example, the thread can be stopped inside the spindle hollow axis, so that the Delivery of the thread through the spindle hollow axis is interrupted.

According to the invention, it is also possible to provide the control magnets of several spindles or one machine or several machines to be controlled centrally in order to achieve a large number of To influence moving parts of delivery reel carriers or to centrally activate them in connection to arrange jointly with other bodies to be controlled.

In the figures, exemplary embodiments according to the invention are shown. It shows

Fig. 1 is a schematic representation of a partial section by a two-for-one twisting spindle with a magnetic spindle arranged in the spindle's hollow axis or hydraulic connecting elements to be operated thread brake,

2 shows a partial section through the delivery reel carrier in the area of the spindle hollow axis with a spindle brake of a different design, the braking force of which can be influenced pneumatically,

F i g. 3 a schematic representation of a partial section through a two-for-one twisting spindle with a Thread brake of a different design in the spindle hollow axis and one at the upper end of the spindle hollow axis arranged plow brake,

4 shows a schematic representation of a partial section by a two-for-one twisting spindle with a mechanically operated spindle brake in the spindle hollow axis, whose magnetic body attacking it is radially displaceable,

F i g. 5 in a schematic representation of a thread brake of a different design, for example for the Use on.Place the thread brake according to Fig. 4,.

6 shows a partial section in a schematic representation by a two-for-one twisting spindle with one that can be operated magnetically via a lever linkage Thread brake and

Fig. 7 in a schematic representation of a part ■ cut through a two-for-one twisting spindle with a magnetically operated thread brake, at tier the Control magnet is arranged displaceably in terms of height.

The structure of the two-for-one twisting spindles shown in the figures is essentially the same in each case. Ks are therefore first and foremost common to all Features described in more detail.

The spindle roller blind ordered from whorl 1, on which the tangential flat belt, not shown, engages, the Fadenspcicherschcibe connected to the whorl 1 2 and the adjoining turntable 3.

As can be seen in particular from FIGS. 4 and 7 can be seen, the turntable 3 is provided with the bearing hub 4, in which there are rolling bearings 5, of which the upper one is shown in the figures mentioned. Using the Rolling bearing 5 is the end piece 6 of the Spiiidclliohlachse 7 freely rotatably mounted in the turntable 3 or its bearing hub 4. The Spindclhohlachse 7 includes the Delivery reel carrier 8 with the plate-shaped bottom 9, hereinafter referred to as a bobbin pot, the either an approximately cylindrical pot wall 10 adjoining the base 9 according to FIGS. 1 and has 2 or cylindrically distributed cup struts 11, the upper free ends of which through a Fadenabweisring 12 are connected to each other, as in the embodiments according to the Fig. 4, 6 and 7 is the case. The bobbin case 8 forms according to the F i g. 1 and 3 with the Spindelhohlachsc a unitary unit, while according to FIGS 6 and 7 is slipped onto the hollow spindle axis and secured against being pulled off by means of the nut 13.

In a manner not shown, the bobbin case 8 is on the outer edge of the base 9 or approximately halfway Provided the height of the outer wall 10 with magnetic bodies to which permanent magnets are assigned, which are fixedly arranged outside the spindle and hold the bobbin case 8, that is to say at a co-rotation prevent with dcmSpindehotor. In the delivery spool carrier 8, the delivery spool 14 with the thread package 15 attached to it is attached.

At a distance, the bobbin case 8 comprises the balloon limiter 16, as shown in FIG. 3, 4, 6 and 7 show. The balloon limiter 16 is fixedly attached to the machine frame (not shown).

According to FIG. 1, separators 16 α are arranged between the spindles instead of a, for example, cylindrical balloon limiter.

The cylindrical balloon limiter 16 or the separators 16 α each serve to hold a control magnet. This is located opposite the outer pot wall, according to the exemplary embodiments, at different heights, depending on the height at which the movably guided magnet body is provided.

When the Ausfühiungsbcispiclen is located axially Above the Spindelhohlachsc 7 the thread organ 17, with the help of which the thread 18 in the figures shown course.

According to Fig. 1, the control magnet 19 is approximately halfway up the bobbin 8 and is in the separator 16 ″ is used, the one for use with the one accessible from below. Pocket 20 provided is. Radially displaceable is located in the outer wall 10 of the bobbin 8 of the magnet body 21, the one having platleniformc training. A first bellows 22 is made of the magnet body radially inward assigned elastic material to the line 23, which extends through the outer wall 10 and the Bottom 9 and then extends upwards to the Spindclhohlachse, is connected. The line 23 opens into a second bellows 24 made of elastically stretchable material, the one on the pivotably mounted brake head 25 is present. Between the brake head 25 and the stationary brake surface 26 in the spindle hollow axis 7 the thread 18 runs through it. Located in the bellows 24 and 22 and in the connecting line 23 gas, air or liquid.

If a repulsive force is exerted on the magnet body 21 by the control magnet 19, it is effected this is a radial displacement of the magnet body 21, which presses the first bellows 22 together. As a result, the medium located therein is displaced from the first bellows 22 and into the second bellows 24 displaced, which expands. This involves pivoting the brake head 25, and depending on the force applied, the thread is braked between the Brake head 25 and the braking surface 26.

If the control magnet 19 exerts an attractive effect, the magnet body 21 moves radially Outside. The first bellows 22 is then able to expand elastically again, with at least the medium partially sucks out of the second bellows 24. As a result, the pivotable brake head 25 is released and can become detached from the braking surface 26. This ensures that the thread 18 passes through freely the spindle hollow axis 7 can run through. In this way, complete ventilation is possible to get through the brake not to be prevented, for example, when threading the thread.

FIG. 2 shows another embodiment of a brake, the actuation of which is analogous to the example according to FIG. 1 takes place. According to FIG. 2, the line 23 opens into an annular, elastically stretchable bellows 28 which extends around the thread flow connector 27 and on which the flange 30 a of the brake body 30, which is axially movable in the brake housing 29, is supported. The brake sleeve 32 extends between the axially movable brake body 30 and the stationary brake ring 31, the contact pressure of which on the brake bodies 30 and 31 can be varied in that the bellows 28 exerts a more or less strong pressure, which is caused by the displacement of the medium in the bellows 22 according to FIG. 1 is determined.

A comparison of the embodiments according to FIGS. 1 and 2 makes it clear that the most diverse Types of thread brakes within the delivery bobbin in the area of the spindle hollow axis, hydraulic or can be actuated pneumatically by means of the radially movably guided Maenetköipeis, with on the point of displacement of the medium by the arrangement of bellows at the ends of the line 23 also piston valve or the like. Can occur.

This makes clear, for example, FIG. 3, which also shows, for example, that several moving parts of the reel carrier are independent can be controlled from each other. Of course, joint control is also possible, in that a single control magnet influences several moving parts of the delivery reel carrier.

According to FIG. 3 is a control magnet approximately at one third of the height of the cylindrical balloon limiter 16 19 arranged, which in turn is opposite a magnetic body 21 in the wall 10 of the bobbin case, which can act on a bellows 22. The bellows 22 is as described in connection with FIG. 1 was connected via the line 23 to an annular bellows 28, which extends around the

7 8

Spindle hollow axis 7 approximately at the level of the outer body 45 according to FIG. 4 inwardly a braking edge 12 of the bobbin case extends. On the ring of the thread, the braking of the shaped bellows 28 requires the ring disk 33, above thread 18 according to FIG is stored. On 5 47 approximately in the situation according to FIG. 5 arrive.
Tow wing carrier 34 is the tow wing 35 with the A comparison of FIGS. 5 and 4 make it clear that thread eyelet 36 is attached. If, by turning the ring body 33, the thread can be braked both by a thread deflecting ring-shaped bellows 28 and the associated brake, and by a brake, an increased friction is experienced on the ring body 33 where two braking surfaces are exerted against each other another io be pressed. From this it becomes clear that braking, so that the dragging of each brake on it according to the invention comes into consideration, with the towing wing 35 attached by the thread 18 experiences one of the braking bodies moving against the other. The braking value can be similarly borrowed, the movement being caused by the magnetic body like the braking force of the thread brake according to FIG. 1 is influenced by which the control magnet 19 change. »5 start.

The F i g. FIG. 3 also shows one in the spindle according to FIG. 6 is the connection of the brake hollow axis becoming effective thread brake, with the head 41 with the magnetic body 21 b in the bottom 9 in place of the pivotable brake head 25 after the bobbin case 8 by means of a rod 46 and a brake head 37 designed as a slide, double-armed pivot lever47 established who joined. This is displaceably 20 48 in the bobbin case 8 is mounted in the channel 38. The guided and supported radially outward on the rod 46 and the double-armed pivot lever 47 pin 39. The brake head undergoes the displacement extend within the channel 49.
37 in one direction or the other through the again, the magnet body 21 b is assigned the control magnet body 21 a, which is assigned in the base 9 of the coil magnet 19, to which the radial displacement cup 8 is mounted so as to be radially displaceable. The magnetic 25 exercise of the magnetic body 21 b in one or the other body 21 α is shown in FIG. 3 caused by a flexible Verren direction, the binding element 40 being connected to the slide 37 by pivoting. of the double-armed lever 47 of the brake head 41 more.
occur, so that in this case the magnetic body 21 a 30 According to the F i g. 7 is the effect that extends through the channel 50 as a hydraulic or pneumatic piston to the action in the bottom 9 of the bobbin case 8. The magnetic lever 51 is displaced by a pivot lever articulated at 52. Selecting body 21 α angled in one direction or the other by rend at the outer free end of the maggot control magnet 19, which is arranged at the level of the bottom 9 gnelkörper 45, the other end is attached to the balloon limiter 16. 35 the brake head 41, which of the braking surface 26 in

The embodiment according to FIG. 4 different spindle hollow axis 7 is assigned.
This differs from the brake according to FIG. 3, according to which a deviation from the previous embodiment slide 37 is arranged as a brake head, in that, for example, the pivoting of the lever 51 takes place in that, as a movable brake body, the lower-lying in upward or downward direction is or downward displacement of the brake surface 26 40 arranged on the spindle hollow axis of the control magnet 19 α, which is assigned to a brake head 41 on the balloon, which is arranged displaceably on the free limiter 16.
End of the angled rod 42 is located. The similar to the previous Ausführungsbeispie rod 42 is located radially displaceable within Jen, the braking force of the brake formed by the brake head of the channels 43 and 44 in the delivery spool carrier 8 and 41 and the braking surface 26 can be changed in the bottom of the spool pot. Set the radially outer 45 or inoperative.

free end 45 is designed as a magnetic body and 19 is in each case in the exemplary embodiments

extends angled upwards. The magnet control magnet, which acts as an electromagnet

body 45 is in turn the control magnet 19 is formed radially, so that its effect solely by one

opposite, which in turn can be caused to change the power supply at the balloon limiter 16.

Height of the bottom 9 is attached. The working and 50 In the same way is also a polarity reversal

Mode of action is the same as that possible in context.

with the brake body designed as a slide 37 instead of the stationary electromagnet 19 according to FIG. 3 has been described. can according to FIG. 7 also movable permanent die F i g. 5 shows a particular embodiment magnets 19 α occur. Such a permanent magnet of a thread brake, which is for example the brake 55, in contrast to the electromagnet 19 of the surface 26 and the brake head 41 according to FIG. 4, can occupy the previous exemplary embodiments with 19α. draws.

According to FIG. 5, the angled end 46 of the The exemplary embodiments according to FIGS. 3 and 6

Rod 42 arranged a number of rings 47, make a special kind of action on

which is possible with the radial infeed of the rod 42 between the thread 18. It can be thought of

the rings 48 grip, which are hollow in the spindle, the magnetic bodies 21 α and 21 b in this way

axis 7 are arranged. To arrange in the position of the rod bottom 9 that it is through the control magnet

42 according to FIG. 5, the thread 18 will be pulled out radially from the bottom 9 at pass 19 th

deflected several times by the rings 47 or 48 and can. In this case, the magnetic bodies engage

thereby slowed down. If the rings 47 are radially in 65 21 α or 21 b in the path of the balloon-shaped circular

the hollow spindle axis 7 is pushed in, so the thread of thread 18 can be inserted. This leads to separation

walk freely through the 18. of the thread, so that the winding of the thread a

While a radial displacement of the magnet is interrupted.

This setting comes into question, for example, if the required value is placed on the take-up reel Yarn length has been applied and thus the winding is to be ended before the yarn package 15 is completely used up. The response of the control magnet in this way can, for example, by a Measuring device are triggered, which measures the Aufwicke'.länge on the take-up reel.

It is common to all of the exemplary embodiments that the control magnets 19 and 19 ″, for example, all of them The spindles of a machine or the spindles of several machines can be controlled centrally, or can be set centrally to specific fire values.

The braking values in the case of thread brakes or the desired movements of other mobile ones Parts in the delivery reel carrier are in the case of electromagnets 19 as control magnets on electrical Adjustable travel. In the case of switchable permanent magnets 19 a, the reversal or setting takes place on certain values of the magnetic force by switching movements, for example carried out mechanically The movements can be triggered by other organs, which in turn are triggered by the Spindle speed, the thread speed, the balloon shape, the winding process or the like. Influences will. There is also the possibility of the control magnets interacting with a spindle brake, for example to let, for example in such a way that in the event of a thread break on the thread the full Braking force acts when the spindle brake responds and the spindle stops, on the other hand the thread brake is partially released when the spindle brake releases the rotation of the spindle.

The figures show partly different types of thread brakes in the area of the spindle axis, partly one Drag wing brake, which is also located on the hollow spindle axis 7.

Deviating from the exemplary embodiments, it is also important to consider parts that influence the thread to be arranged on or in the delivery reel carrier in the area of the upper outer edge 12 in order to achieve a Influence on the thread circulation around the outer edge 12. For example, think about the Towing wing 35 according to FIG. 3 with more or less strong friction to let sit on the outer edge 12, so the rotation of the tow wing instead to influence from the inside outside. In this case, for example, proceeding from FIG. 3, along the edge 12, an annular bellows extend similar to the bellows 28 pneumatically or hydraulically is stretched more or less so that the towing wing 35 is more or less full, if you think of the tow wing 35 resting on it with its free end. Split the connection the bellows 22 according to FIG. 3 and a bellows on the edge 12 could be produced through a channel, which extends upward within the wall 10 of the bobbin case 8, in this case the wall 10 would have to be made correspondingly thicker.

Claims (9)

Patent claims: 1. Device on a two-for-one twisting spindle for controlling von.Fadenbremsen od. The like., Which are arranged in the stationary stored delivery reel carrier, by means of magnetic force, characterized in that outside of the delivery reel carrier and independently of it, at least one control magnet (19; 19 λ) with variable Magnetic force arranged ΊτΛ, each of which is assigned a magnetic body (21, 21 ″, 21 b, 45), which belongs or is stored in the delivery reel carrier and the movement forced on it by the control magnet (19; 19 ″) by means of itself in the Walls (9, 10) of the delivery reel carrier extending mechanically, hydraulically or pneumatically acting connecting members on at least one movable part of a thread brake or the like. 2. Device according to claim 1, characterized in that the movably guided magnetic body (21) in the outer wall (10) of the delivery spool carrier against an elastically compressible Bellows (22) is slidable pneumatically or hydraulically with an elastic expandable bellows (24) in the mandrel of the delivery spool carrier (8) is connected to the movable Part of the thread brake (25, 26) is applied (Fig. 1). 3. Apparatus according to claim 1, characterized in that the movable part (25, 30, 37, 41) the thread brake the movable brake body one by friction directly on the thread acting thread brake is (Fig. 1, 2, 3, 4 to 7). 4. Apparatus according to claim 1, characterized in that the movable part of the movable brake body (35) is a tow bar brake (33 to 36) (Fig. 3). 5. Device according to one or more of the preceding claims, characterized in that that an electromagnet (19) is provided as a control magnet. 6. Device according to one or more of the preceding claims, characterized in that that a movable permanent magnet (19α) is provided as a control magnet (Fig. 7). 7. Device according to one or more of the preceding claims, characterized in that that the control magnet designed as an electromagnet (19) through a thread monitor to Can be addressed and / or its magnetic force can be changed. 8. Device according to one or more of the preceding claims, characterized in that that the control magnet (19; 19 «) can be made to respond by a measuring device is the soft measure of the winding length of the thread. 9. Device according to one or more of the preceding claims, characterized in that that the control magnet (19; 19 «) of several spindles of a machine or several Machines can be centrally controlled together. For this purpose 2 sheets of drawings