DE697632C - Flat weft knitting machine - Google Patents

Description

Flat whirling machine The ones that re-teach at regular intervals Movements of the working devices on flat cooling machines are almost all. Derived from eccentrics, the curve shape of which corresponds to the desired individual Movements corresponds. One mounted on a lever runs on each of the eccentrics Roller that fastened through his; to the lever and ran to the frame of the machine Spring is pressed against the eccentric. Due to the design of the machines and the required Timing of the individual work processes ex- 'give up on deal eccentrics: often parts of the curve that rise or fall very steeply. This has the disadvantage. That '' Especially at higher speeds the rollers jump off the eccentric and so the prescribed curve path no longer follow, which makes a perfect Working of the machine is no longer guaranteed. About jumping off the roles To prevent it, there would be the possibility of increasing the force of the springs and thus to increase the contact pressure of the rollers. However, this has the disadvantage that. That means that the other parts also have to be reinforced. Another disadvantage. is that, the power requirement of the machine increases and , in addition, large fluctuations in the machine rotation capacity occur, which result in the uniform Gear of machine b, influencing. If one wanted to counter this disadvantage, then one would have to man accept the deal of larger and more expensive drive motors.

The invention avoids these disadvantages in that by the action magnetic forces prevent the reels from jumping off, foreshadowing a simultaneous Four reinforcement of the springs. This made it possible, the speed of work and thus to increase the performance of the machine without any damage caused by the eccentrics simultaneous increase in having to accept the power requirement. Analogous it is also possible to use the power of the feathers to reduce the power requirement of the machine at the same time. With the means known per se of a magnetic attraction force is used in the invention the novel effect achieved that the speed without an increase in the power requirement the machine can be increased or a decrease at the same speed the power requirement is possible.

It is known per se for lead spinning machines to wedge in; movement-related parts the liability of these parts or their contact pressure by using the magnetic. To enlarge the river. The working conditions, the tasks set and also the effect achieved are but completely different from the subject matter of the invention.

lii Figs. i to 3 are two embodiments of the invention shown.

In Fig. I, the lever i carries the fixed pin 2 on which rotatable the two roller parts 3 and q. are arranged. These roll on the curved track 5. Of the eccentric 6. Between the roller parts 3 and q. the coil 7 is firmly on the bolt 2 arranged. The current is fed to the coil 7 through a bore 8 in the bolt 2. If the coil 7 is now excited, a magnetic flux is created, which goes through the eccentric, thereby strongly promoting the role against this takes place.

Instead of the electromagnet shown, a permanent magnet occur, for example, the roller itself can be designed as a magnet. Similarly, it is also possible to: also design the eccentric in the manner described , instead of the roller or both roller and eccentric. Instead of the coil to be fixed, you can also let them run around.

From the abundance of possibilities, one should also be mentioned at which two consecutive rollers are provided, between which then the coil is arranged.

Figures 2 and 3 show such a device.

Here, a magnetic core 9 is designed as a pin at io, which is rotatably mounted on the lever i. At the same time, the roller i i is rotatably arranged on the pin io. At the other end of the magnet core 9, the roller 13 is located on the pin 12. The magnet coil 1 [is] attached between the two rollers, which induces the magnetic flux, the course of which is indicated by a drawn line of force 1 5 . The role ii has the same task as the role in Fig. I, while the role 13 for the return of the magnetic flux: serves. This embodiment has the advantage that the magnetic flux has approximately twice the iron cross-section available for its path compared to the arrangement according to FIG. In addition, large coils for generating the magnetic flux can be accommodated. It can be seen more quickly that large forces can be achieved with this arrangement.

Claims (7)

PATENT CLAIMS: i. Flat weft knitting machine, characterized in that that the roles of the various roller levers by the action of a magnetic Flux are pressed against the eccentric. 2. Machine according to claim i, characterized in that d: ate the magnetic flux emanates from: an electromagnet. 3. Machine according to claim i, characterized in that the magnetic flux emanates from your permanent magnet, wherein the rollers and the eccentrics are wholly or partially designed as permanent magnets could be. 4. Machine according to claim i and 2, characterized in that the Magnet is connected to the roller or to the eccentric or that depending on both an electromagnet is attached. 5. Machine according to claim i to q., Characterized in that that the role is divided and, if an electromagnet is used, the rotating one or stationary excitation coil between the two. Roll parts is arranged. 6. Machine according to claim i to q, characterized in that for conducting the magnetic Flux runs on the eccentric a second role, with the magnet between both is arranged. 7. Machine according to claim i to .6, ° "characterized in that that at the points where the risk of the role jumping off is particularly great, When using electromagnets, the magnetic flow of force is automatically amplified will.