DE636095C - Drive device for the sinkers of flat knitting machines - Google Patents

Description

Drive device for sinkers of flat knitting machines From the known devices for generating the movement of sinkers flat knitting machines, the simplest consists of a curved piece, the so-called Rößchen, which is moved along the row of sinkers and thereby the sinkers advances immediately. The transfer of movement from the steed to the The friction created by the sinker causes a great deal of wear and tear in the sinker guides. For the most part, you don't roll directly onto the boards, but rather indirectly, by placing two-armed levers between the steed and the plates, the so-called Swing, arrange. These wings, which always unite in a certain number Form the swing head, have the purpose of absorbing the aforementioned harmful forces and to transfer the stinging motion to the sinkers. Even if you are in place. of the little horse going back and forth, the ones known from the roller mill, around a drum If a toothed comb that winds itself around in a helical manner is used, it cannot be used immediately rolled onto the boards. Here, too, the wings must be the pushing ones Record the movement of the comb teeth and transfer it to the plates.

In the patent 613 863 is already to overcome these difficulties it has been suggested that from a back and forth in the time measure of the Kuliervorganges moving column of liquid a control piston displaceable in a cylinder is moved back and forth, alternating on one side of the control piston Overpressure and on the other side of the control piston underpressure prevails, so that the working piston located in the bores released by the control piston on the Overpressure side move the sinkers one after the other against the needles and open the the working piston lying on the negative pressure side held back by the external air pressure for so long until the culture is completed across the entire width of a job.

In the device according to the mentioned patent, a liquid pressure medium used; it swings back and forth, so it is practically not used up. All pistons must therefore fit extremely neatly, which is also the case with the current fitting technology is possible without great expense. Even so, it is not desirable in the manufacture the above-mentioned gate device the necessary accuracy in knitting machine construction to increase even further.

This disadvantage is said to be while maintaining the control that is expedient per se the working piston can be remedied by the present subject matter of the invention, and in that when a control piston is used that can be displaced in a cylinder for working pistons that act on the blanks, this control piston is controlled by a valve liquid or gaseous propellant is moved back and forth, periodically alternating at the same time on one side of the control piston overpressure, on the change Side negative pressure prevails, and that the control piston of all Working parts of a machine among themselves and with the Kulier-. linkage coupled are.-The subject matter of the invention brings to the. with the subject matter of patent 613 863 ve = bound, still following advantages: The du? Cli1 the liquid or gaseous Propellant moved control piston cause through the connecting rod to Kuliereeccenter a relief of the same; at the same time, however, that also controls Couliere eccentric over the aforementioned linkage which under it through the piston rod connected control piston of all work points on a machine, so avoids a lead or lag of the same or forces and ensures synchronization of the Work processes of the sinkers of all workplaces with the other loop-forming ones Tools of the machine.

It is known that the carriage of a flat knitting machine valve-controlled working piston moved by a liquid or gaseous propellant to let drive. Here, however, the propellant only acts on one side Working piston, in addition, the regulating connection of the cam eccentric or one is missing similar facility.

In warp knitting machines it is also known to use compressed air to pattern pins to press against a sample card from the inside of a mechanically driven roller, so that so if such a pattern pen through a pattern opening in the card protrudes from the same, a perforated needle is moved. The subject of the invention differs from this mainly in that it has the control piston moved simultaneously by two propellants of different pressure levels and also this movement is regulated by a curve, the so-called cam eccentric.

In the drawings, the subject matter of the invention is in one embodiment shown, namely the Fig. i shows this device in a single version in a horizontal longitudinal section.

Fig. 2 shows the same device in a cross section.

Fig. 3 shows the schematic representation of several cultivating devices including the control valves and the coupling of the control piston with the cam eccentric.

Fig. I shows that the cylinder body i has a bore which passes through the control piston 2 is divided into two separate chambers 3 and 4. Through the pipelines 5 and 6 takes place the inflow and outflow of the propellant in question, which through the valves shown in Fig. 3 is controlled. These can be seen in Fig. 3 Valves are shown as double valves; H. to each such double - '@: etil includes a pressure valve and a suction - '; yenti @ or, which means the same thing, an inlet valve and an exit valve. That in 'Fig. 3 shown double valve 2 r, 23 is seated thus with the common 'channel 1, I3 on channel 5 of Fig. i and that shown in Fig. 3 Double valve 22, 24 sits with the common channel 4.5 on channel 6 of Fig. I.

If through these double valves 21, -23 and 22, 24 only one coupling device, as is to be controlled in Fig. i, then the channels i g and 2o are at qz and 44 in Fig. 3 closed, because these channels only need to be present if several connecting devices as in Fig. 3 connected to the valves mentioned are.

The cylinder i in Fig. I has a thicker wall on the side facing the row of plates 7, which is provided with small protrusions 8. These holes 8 have the same distances from one another as the relevant board division. In each bore 8 a working piston 9 is displaceably and tightly mounted. In Figs. I and 2 - it is shown how the control piston 2 started the path from the right, the bore 8 in .c '#, bb. i and 2 released and the propellant in question has moved the working piston 9 and this at the same time forward the sinker plate io. The piston rods ii and 12 in Fig. I can be displaced through the cylinder bases and are tightly sealed, possibly guided by means of stuffing boxes and, as shown in Fig. 3, are connected at a suitable point 18 to the gearbox of the known cam control. In addition, Fig. 3 shows how the individual cylinder chambers are each connected to a common pipeline 19 and 20 for the propellant operating alternately with overpressure and underpressure. The pressure and suction valves 2 1 and 23, 22 and 24 are arranged on the left and right of the device and can be reversed by the same during the reversal of the sliding movement. Similar controls are known in engine construction; they work with the greatest operational reliability. In the working position shown in Fig. 3, the propellant acting with positive pressure is denoted by and the propellant acting with negative pressure is denoted by -.

The mode of operation of this device will now be explained with reference to Fig. 3. If the kulating begins from right to left, as is assumed in the figures, the pressure valve 2i and the suction valve 2-4 were opened shortly beforehand. The propellant with excess pressure flows through the open pressure valve 2l through the common channel I9 and fills the cavities 25, 26, z7 and 28 in the direction of the individual arrows. ' of the individual weeding devices. , Te control pistons 29, 30, 31 and 32 are ntjtl @? moved by the propellant in the direction of the arrow to: left. So that this movement does not become too large, but takes place exactly in the time measure of the setting, these control pistons 29, 30, 31 and 3 2 are attached to the through piston rod I3, La., 15, 16 and 17, and this is at 18 with the known coupling mechanism coupled.

In Fig. 3, this cam mechanism consists of the well-known cam eccentric 33, which is driven in the usual way and via the rollers 3.4 and 35, which are attached to the slide rod 36, this slide rod 36 back and forth emotional. The slide rod 36 transmits the movement via the connecting rod 37 the one-armed lever 38. This is displaceable in the elongated hole 39 by means of a Stone 4.o, your so-called sliding block, with one on the piston rod at 18 fastened bolt 41 connected, so let the one produced by the propellant Movement of the control piston coupled with the movement produced by the cam eccentric is. If the control pistons 29, 30, 3 r and 32 have arrived on the left, this is the Kulating ended, i.e. in by the control piston while moving from right to left consecutively released bores in which the working piston can be moved easily and are tightly stored, the pressure of the propellant has these working pistons one after the other moved forward and one after the other the whole row of boards 7 (see Fig. I) so far pushed against the needles, like the plate io in Fig. i and 2; so it is calculated been. .

::. It has already been mentioned that shortly before the start of killing too the suction valve 24. was opened. This was done so that the working pistons, which are still in front of the working piston that has already been moved forward during the killing, be held back by external air pressure.

When the kulating is over, the sinkers are returned in a known way with the board box, whereby precautions are taken, that with this movement the propellant does not have any counter pressure on the working piston exercises. The culture from left to right takes place in the same way; it will however, the inlet valve 21 and the outlet valve 2.4 closed and the inlet valve 22 and the outlet valve 23 is open.

Claims (1)

PATGNTAN SPRUCI3: drive device for sinkers from flat Knitting machines, characterized in that when using one in a cylinder displaceable control piston for the working piston acting on the plates Control piston by a valve-controlled liquid or gaseous propellant is moved back and forth, periodically alternating at the same time on one side of the control piston overpressure, on the other there is negative pressure, and that the control piston of all workplaces of a machine among yourself and with your linkage are coupled.