DE1078027B - Device on spinning machines, especially on roving machines, for automatic switch-off - Google Patents

Description

Equipment on spinning machines, in particular on roving machines, for automatic switch-off The invention relates to a device Spinning machines, in particular on roving machines, to switch off automatically with from one. Flat belt drive derived from the electric motor as well as one from the machine switching system independent shift rod for the belt fork, on which a compression spring is pushed which is fixedly connected to the rod at one end and move it axially can and is clamped when the machine starts up. Around the spring in a tense state to hold, an electromagnet is used, which is triggered by a control pulse, e.g. B. starting from a control device for the threads or rovings, the Peders tension triggers, causing the belt to suddenly move from the full pulley to the empty pulley is shoved over.

In spinning machines one has in many cases, both in group as well as individual drives, held on the flat belt drive, in which the out and Switching on the machine, which is driven by a constantly running motor, by shifting it of the belt from an empty pulley to a full pulley by means of a fork shift rod takes place because this ensures a smooth start of the machine and therefore fewer yarn breaks occur when the spinning machine starts up.

You can also work with certain electric motors, for example such with double star winding, achieve a smooth machine start. With such a Drive you have to accept a very high power consumption, which, if Carry out multiple switching operations in quick succession, a disadvantageous heat development triggers. In addition, there will be several when starting up at the same time Machines, which is not infrequently the case, the transformer statian of the plant overcharged.

The development of modern spinning machines -]) on, z. B. also roving machines, with a large number of automatically working ones that monitor the work process Control devices meant that new machines were built, because no better ones Solutions were available on solving the soft start on electric Passed paths and accepted the serious disadvantages mentioned.

If a system was to be modernized while continuing to use existing machines, one was initially forced to replace the no longer usable motor and drive with the aforementioned soft drive, "which turns out to be very expensive Avoid, and also found a solution to the effect that a spring is arranged on the shift linkage, which is tensioned when the machine is engaged or when the machine starts up and held in its tensioned position by an electromagnet off, e.g. from the meter counter or another control device, e.g. in the event of a thread breakage, to switch off the excitation current of the electronic magnet. In this form, however, this system is with the serious degree ngel afflicted that the operator - mostly women - when engaging the machine not only has to overcome the friction of the entire linkage and the movement of the belt from the empty to the full pulley, but that practically more than twice the effort, namely also the to preload the spring, is necessary. After the lock has been released, the release spring must again lead back the entire linkage. Investigations have shown that the force to be exerted when engaging the belt without tensioning the release spring is between 9 and 12 kg . In the prior art arrangement, a force is necessary j edoch that, so 25 is at least twice kg to 30th Another disadvantage here is that there is no longer any feeling for a smooth engagement of the machine.

The invention has. set the task through perfection to remedy the last-mentioned device, and essentially solves this problem in that the shift rod pushed onto the belt fork and at one end with her release spring firmly connected, on the other hand against one with the Shift rod supports the tube sleeve, which can move in the same axis and encloses the spring, which is coupled to the machine shift linkage and part of an electromagnetic clutch carries, e.g. B. the electromagnet, the other part, z. B. anchor part, with the fork rod is firmly connected.

, By moving the machine linkage to the "Off" position, the Release spring are tensioned and at the same time your electromagnet. Electricity supplied will. This creates a non-positive (magnetic) connection between the on the belt fork rod seated anchor and linked to the machine linkage Electromagnet and thus also between the machine linkage and the belt fork rod manufactured.

In a known similar arrangement there is between the facility and the machine linkage no connection. So it has to be done by the operator be moved back against the spring pressure of the release spring. If the latch falls off the fork rod is moved by the spring for linear displacement. Only when Malfunctions, the pawl is lifted out by an electro-magnet.

In another known arrangement, the machine linkage is also independent of the shift linkage, the shift linkage being under the action of a release spring. However, a pawl with a counterweight is connected between the linkage. This device is therefore relatively expensive and prone to failure because of the number of links and otherwise works without an electromagnet. Finally, a roving machine has become known which is shut down by a magnet which closes an electrical circuit in the event of a fault, as a result of which a pawl is raised and the belt fork is displaced under the action of a release spring.

Compared to these known arrangements. takes place with the subject of Invention the tensioning of the belt fork spring and the engagement of the belt of .der Empty on the full disc not jointly, should be done in two separate work stages. This not only makes it easier to tighten the release spring, but above all that gentle engagement of the pretensioner machine. When the roving machine engages only the friction of the linkage and the belt on the pulleys to be overcome will. On the other hand, all known facilities had to re-enter of the roving machine at the same time, the release spring is tensioned.

In the drawing, an exemplary embodiment of a device according to the invention is shown schematically in side view, partly in section, in various switching positions. 1 shows the device with its parts in the starting position with the machine belt drive disengaged, FIG. 2 the same in the engaged position, FIG. 3 in the automatically switched off position.

The flat belt 2, which rests on the empty disk 3 in FIG. 1, is driven by the continuously running electric motor 1. For a smooth start-up of the spinning machine, not shown, the belt must be pushed onto the solid pulley 4, which then drives the shaft 5 and the gearbox for the machine housed in the box at 6. The belt is pushed over in the usual way by means of a shift fork 7 which is seated on an arm 8 which is firmly connected to a fork shift rod 9. The fork shift rod 9 is stationary. Bearings 10 can be moved lengthways.

Regardless of the Gabälschaltstange9 the machine or flyer shift rod is movable, the main shift rod 11 in not indicated bearings, z. B. with the help of hinged control levers 12, is Längsverschiebbax, the lower arm of which can be pivoted in the illustration according to the arrow labeled "Off-On". A rod 13 is firmly connected to the main shaft rod 11 , the other end of which engages in an articulated manner on a clamping claw 15 seated on a sleeve 14. The sleeve 14 is penetrated by the fork shift rod 9 in the longitudinal direction and encloses a helical spring 16, which can be seen at one end. against an organ in the form of a base plate or the like 17 of the tubular sleeve 14 is supported. The coil part 18 of an electromagnetic clutch is fixedly arranged on the other end of the tubular sleeve 14 and is fed via a supply line 19. The coil part 18 of the electromagnetic clutch can be de-energized by means of impulses from control devices of the machine, which are not shown.

The armature part 20 belonging to the electromagnetic clutch is firmly connected to the fork shaft 9. In the illustration of FIG. 1 , the fork stem 9 and the machine or flyer gearshift rods 11, 12 are connected to one another via the coupling 18, 20, so that a movement of the rods 11, 12 can be transmitted to the forked shift rod 9 .

The release spring 16 is firmly connected to the fork shift rod 9 at one end at 21. In derDarstellung of FIGS. 1 and 2, the spring in located below current elel <tro-magnetkttpplung 18, 20 in its tensioned state while being relaxed when current losers electromagnet in Fig. 3.

In Fig. 1 and 2, the release spring 16 is biased with a force of about 9 kg. This low force is sufficient because the spring does not have to move the entire linkage system, but only part of it, namely the belt fork rod 9.

The operator engages the belt fork rod 9 via the shift linkage 11, 12 in an absolutely familiar manner (see the pivoted lever 12 in FIG. 2). The magnetic coupling 18, 20 holds the pretensioned spring, and the entire coupling unit 18, 20 moves with it, so that the machine starts up.

The following state can now be seen in FIG. 3 : In the event of a pulse which is caused by a control device, the electromagnet 18 is de-energized. At the same moment, the disengagement spring relaxed 16 and slides over the belt fork rod 9 the drive belt 2 to the empty disc 3. The machine or the flyer runs out and stops. The shift linkage 12 am.Flyer is still in the "On" position in FIG. 3. If the machine is to start again, the shift linkage12 must first be pushed from "On" to "Off". As a result, the release spring is pretensioned and the magnet 18 is energized (FIG. 1).

The roving machine can then be engaged normally again, since the shift linkage 11, 12 is again firmly coupled to the belt fork rod 9 b-zw. is in connection (Fig. 1). The effort required for this is a fraction of the effort that would be required if the release spring also had to be pretensioned. It is an advantage of the device according to the invention that the operator 1 of the roving machine can carry out the same handling as usual.

Claims (2)

PATENT CLAIMS: 1. Device on spinning machines, especially on roving machines, for automatic switching off with a flat belt drive derived from an electric motor and a switching rod for the belt fork, independent of the machine switching linkage, on which a pressure fiber is pushed, with the rod at one end is firmly connected and it can move axially and is tensioned when the machine starts up, using an electromagnet holding the spring in the tensioned state, which, when a control pulse, e.g. B. starting from a control device for the threads or rovings, the spring tension triggers, whereby the belt is suddenly pushed over from the solid disk to the blank slot, characterized in that the on the belt fork shift rod (9) pushed and one end (21) firmly connected to it Release spring (16) at the other end against a tube sleeve (14, 17) which is movable in the same axis as the shift rod and encloses the spring, which is coupled to the machine shift rod (11, 12) and which has one part, e.g. E.g. electromagnets (18), an electromagnetic clutch, the other part of which, e.g. B. anchor (20) is firmly connected to the fork rod (9). 2. Device according to claim 1, characterized in that by moving the machine linkage (11 to 13) in the "off" position, the release spring (16) is tensioned and at the same time the electromagnet (18) current is supplied, whereby a non-positive (magnetic ) Connection between the armature (20) sitting on the belt fork rod (9) and the electromagnet (18) linked to the machine rod (11 to 13 ) and thus also between the machine rod (11, 12) and the belt fork rod (9) established is (Fig. 1). Documents considered: German Patent No. 236 959; British Patent No. 361602; U.S. Patent Nos. 1108 127, 2 007 643, 2084810.