DE248456C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 248456 CLASS 76 b. GROUP

OTTO ROTHE in CHEMNITZ i. S.

Patented in the German Empire on September 17, 1911.

A main point on Heilmann combing machines is for the purpose of good web formation safe operation of the take-off rollers. This includes that these rollers have their well-known pilgrim step movement, Above all, execute the reversal points quickly, but gently and without impact, as well as exactly the same size for each comb game, which is not the case with most of the known tear-off roller drives, e.g. B. at the

ίο drives where a coupling sleeve on the right and left to engage in oppositely rotating coupling parts, whereby more or less violent shocks have to occur. There is also friction in the frictional drives no constant deduction guaranteed for every comb play, as a friction clutch more or less slips and when suddenly shut down as a result of the existing inertia only through braking at an unintentional further movement must be prevented.

Compared to these devices, the invention ensures a safe, shock-free and noiseless operation even at a higher than the usual number of revolutions of the machine and is characterized by its simplicity. The new drive, which is shown graphically in FIGS. 1 to 6, can be used for combing machines whose comb rollers are provided with and without a corrugated segment, regardless of whether the withdrawal of the withdrawal rollers takes place shortly before or shortly after the withdrawal, since the eccentric δ and c can be constructed according to the necessary peripheral speed of the take-off roller.

In Fig. Ι the eccentrics δ and c are shown so that the withdrawal takes place shortly before the trigger. The eccentrics b and c, consisting of one piece, sit on a shaft which also carries a sliding cube k for the fork end of a rack slide α . The roller Z of this slide runs in the eccentric groove 0. The slide α runs out at the other end in a rack, and the toothed part of the slide α engages in a wheel e , the movement of which is transmitted to the wheel f seated on the same pin , whereby the wheel g of the take-off roller h, in which wheel f engages, is moved. The slide α is pressed into the teeth of the wheel e by means of two rollers of the angle lever d , one roller m running on the eccentric c and the other roller η carrying the slide a.

In order to better explain the operation, the eccentrics b and c are divided into certain corresponding parts in the drawing, namely eccentric b in parts b ¹ to δ ⁵ , and eccentric c in parts c ¹ to c ⁵ , so that ζ. B. Part δ ¹ -δ ² of eccentric δ includes exactly the same angle as parts c ¹ -c ² of eccentric c etc.

The role of the slide α (Fig. 1) is on point δ ^{1 of} the eccentric b, the role of the lever d, however, on point c ^{1 of} the eccentric c. If the eccentrics δ and c are now

Claims (1)

direction of the arrow moves, the rack slide α is moved forward by its role according to the eccentric slope of part δ ¹ -δ ² , while lever d remains at rest, since eccentric c in part c ¹ - ^ is circular, whereby wheels e , f and g, since slide α is in engagement with wheel e , are rotated and the take-off rollers h perform the take-off movement. With further rotation of the ίο eccentrically, curve δ changes quickly but gently into a circular path and remains in this state ^{in part δ 2} -δ ^3. The slide rack α therefore does not move forwards or backwards. At the same time, however, slide a has come out of engagement with wheel e as a result of the falling of part c ² - c ³ and as a result of the tension of the spring. In part δ ³ -δ ⁴ , the slide α goes back a little, usually half of the trigger, namely a multiple of the tooth-rod pitch, because lever d remains at rest during the action of part c ³ - ^. During the part δ ⁴ -δ ^Β , slide α remains at rest again, but is pushed back into the wheel β by the lever d due to the rising curve of eccentric c between c * -e ⁵ , whereupon in part δ ⁵ -δ ¹ of Slide α completes its return movement and wheels e, f and g, including the take-off roller h, rotates backwards. The game then repeats itself. The engagement and disengagement of the rack slide α with wheel e only takes place when its forward or backward movement has completely stopped, so that a skidding of the wheels e, f and g is completely excluded and an always secure engagement of the rack slide α takes place in wheel e; a blocking of the wheel e is therefore not necessary. 2 to 6 show slide a, wheel e and lever d in the different positions to one another when the trigger is shortly before retraction. Godfather ν t-An s PRU CH: Device for Heilmann combing ^{machines 1} for driving take-off or tear-off rollers with pilgrim step movement, characterized in that the drive is done by a rack and pinion gear, the rack of which is moved back and forth by a slot eccentric and by a further eccentric for the purpose of disengaging and engaging the drive - and swinging downwards. 1 sheet of drawings.