DE1022168B - Drive for the lifting device of jacquard machines, in particular double-stroke jacquard machines - Google Patents

Description

Drive for the lifting device of jacquard machines, in particular double-stroke jacquard machines Double-stroke jacquard machines are generally mine used for high-speed looms. Ever faster but the loom runs, the more precisely it has to be or should, in kinematic terms, be the compartment opening can be adapted to the shooter throughput. Of the Weber should be able to use his jacquard machine the given: textile conditions, such as Weaving width, thread material and number of turns of the weaving chair to be able to adapt to thereby the. external to achieve the highest degree of efficiency. The invention meets these needs, and they do represents a drive gear that the jacquard machine is upstream and that for double-stroke Jacquard machines from a combination of a running crank slider in connection with a There is distraction by a straight thrust gear. With this. Facility arises the possibility of the specialist movement is infinitely variable and completely independent to be adjusted depending on each other variably. This is determine. that with double-stroke dobby machines the stepless regulation of the knife movement play is known and that with the shaft drive, the shaft Here the supporting `veldte experiences an additional movement. The invention consists in that, ß to achieve an infinitely variable adjustable specialist run for jacquard machines on one with constant Angular velocity rotating drive shaft a crankshaft is provided, which via a sliding stone with a crank loop of an intermediate shaft is in engagement, and that the intermediate shaft is axially parallel to an output shaft driven by it is mounted in such a way that its distance from, the drive shaft constant, compared to the drive shaft however is changeable. Here it is with Doppelhuh-Jacqua.rdmaschinen Advantageously, the output shaft from the intermediate shaft with a frontal dpaa.r in a ratio of 1: 2 drive so that the output shaft at an angle of rotation of 360 ° twice a delayed movement of each 90 ° and an accelerated movement of twice can also perform 90 ° each. In particular, can for this purpose a crank on the output shaft be provided with adjustable piston pin on on which a double-armed rocker arm is mounted, one arm of which has a pin for moving the Lifting device carries and the other arm over a connecting rod and an adjustable one. Crank- pin is connected to a control shaft whose. Angular velocity with that of the output wave matches. The adjustability of the course belbolzens and the. crank pin as well as the intermediate wave can; here an independent one stepless and variable setting of the specialist running are made possible. The invention is shown in the drawing in one embodiment management example shown schematically, and it shows Fig. 1 the transmission in side view, 2 shows the transmission according to FIG. 1 in plan view and Fig. 3 is a graph of the Faoh movement, in curve l corresponds to the normal, up to now customary run, curve II the normal course with specialist standstill and curve III the derived subject course, as it is due to the inventive design drove especially with double-stroke jacquardina: cliineii is achievable represents. A drive shaft 1 is stationary. To store. 2 and 3 stored and carries the not shown drive wheel, depending on the desired drive from Loom can be made from a bevel or chain wheel. The drive shaft 1 is. from the loom with constant angular velocity driven. At the end the drive shaft 1 sits a crank 4, which over the Pin 5 and the sliding block 6 with a crank loop 7 is engaged. The slider crank 7 is mounted at one end of an intermediate shaft 8, which displaceable to drive shaft 1 and axially parallel to the output shaft 11 is arranged. By not Coaxial storage of the drive shaft 1 and the Intermediate shaft 8, the constant angular velocity the crank 4 on the intermediate shaft 8 so over- wear that these with uneven angular speed revolves. The extent of this un Uniformity is determined by the distance of both shafts, which start when the drive is at a standstill is adjustable. Every revolution of the drive shaft 1 calls consequently, on the one hand, an even delay and on the other hand a smooth acceleration the slider crank 7 emerges. The acceleration and the deceleration each have an effect in a rotation angle of 180 °. When increasing the distance between the drive shaft 1 and the intermediate shaft 8, only the intermediate shaft 8 is lowered according to FIG. 1 and adapted to the radius of the gear wheel 10 a.

In double-stroke jacquard machines, however, the shed movement must be of this type be driven that there is a counter-rotating movement of the boxes. results. the end this is the reason for the uniformly decelerated and accelerated movement of the intermediate shaft 8 translated by a pair of front wheels 9 and 10 in a ratio of 1: 2. This leads the output shaft 11 in an angle of rotation of 360 ° twice a delayed movement from 90 ° each.

With the device described so far, it is possible to make the curve II of the normal course of the subject with subject standstill according to Fig. 3 to describe. With this movement achieves a variable technical standstill. Here, however, must The following must be observed: The greater the standstill, the faster or The change A between the individual specialist shutdowns is accelerated. this but would be unfavorable for the function of a double hub jacquard machine. So worth striving for The technical standstill as such is so unfavorable is a quick change on the function of the machine. As is known, double-stroke jacquard machines work two sinkers in opposite directions and operate a chain thread. Since it, itself If it is a semi-open machine, one sinker transfers the chain thread over one: tripod hook. the other board that corresponds to it.

By. the already mentioned acceleration between the individual Standstills. would this. Passing must be done extremely quickly. Around To avoid this, curve III in FIG. 3 is desirable. To that end is furthermore a straight thrust gear for the purpose of delaying the transfer between the two boards.

The output shaft 11 here transfers its movement just described to a crank 12 which has an adjustable crank pin 13. On this one A double-armed rocking lever 14 is rotatably mounted on the crank pin 13. This rocker arm 14, which is rotatably supported only by the crank bolt: 13 and by the tie rod 15 is, makes the movement of the crank 12 - depending on the setting of the crank bolt 13 - with. In the area designated by A in FIG. 3, the pin 16 of the rocker arm becomes 14, on which the means for moving the lifting device are articulated, by the adjustable crank 17 braked, since the end of the pin 16 opposite The rocker arm 14 is pushed up when the compartment is lifted or down when the compartment is closed will. The crank 17 is mounted on a control shaft 17 'which has the same angular speed as the output shaft 11 has. This makes the curve valuable for the weaving process III according to FIG. 3 is reached. By adjusting the crank pin 13 and of the crank pin 18 and the intermediate shaft 8, this curve can be completely infinitely; @ and variably set independently of each other.

Claims (3)

PATENT CLAIMS: 1. Drive for the lifting device of. Jacquard machines, in particular double-stroke jacquard machines. characterized in that a crank (4) is provided on a drive shaft (1) running at constant angular speed, which is in engagement via a sliding block (6) with a crank loop (7) of an intermediate shaft (8), and that the intermediate shaft (8 ) is mounted axially parallel to an output shaft (11) driven by it in such a way that its distance from the take-off shaft (11) is constant, but is variable with respect to the drive shaft (1). 2. Drive according to claim 1 for double-stroke jacquard machines, characterized in that the output shaft (11) is driven from the intermediate shaft (8 ) by a spur gear pair (9 and 10) in a ratio of 1: 2. will. 3. Drive according to claim 2, characterized in that a crank (12) with an adjustable crank pin (13) is provided on the output shaft (11), on which a double-armed rocker arm (14) is mounted, one type of which has a pin (16 ) to move the lifting device and whose other arm is connected via a connecting rod (15) and an adjustable crank pin (18) to a control shaft (1T) whose angular speed corresponds to that of the output shaft (11). Considered publications: German Patent Specifications No. 870 827, 760 560.