CS226344B1 - Linear reciprocatory organ drive - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for driving a rectilinear return member in machines for manufacturing or processing textile linear formations such as yarns, threads and the like, in particular in open-end spinning machines. It is a device in which the stroke of the return member is derived from a rotating cam by means of a gear, mainly consisting of a pinion, which engages with the teeth of the return member and which is rotatably mounted on an axis coupled to the guide track of said cam.

As is known, in machines of the above type, the linear formation is wound onto the bobbin while being guided between the ends of the bobbin back and forth by means of a reciprocating member, executing a linear reciprocating movement parallel to the shell of the sleeve. At the same time, the return body is periodically granted additional movement at the extreme dead centers, necessary to limit the increase in the windings of the linear formation at the edges of the package.

There are also known devices providing the drive of the reciprocating member to move in the sense of the above. In one of them (MSC No. 174023), the stroke of the reciprocating member is derived from a rotating cam with an endless guideway formed on its cylindrical surface: the cam guideway enters into engagement with a follower rotatable on a shaft whose axis runs at right angles to cam rotation axis. In this case, the follower shaft is mounted on a return member carrier guided by a pair of parallel guide rods parallel to the axis of rotation of the cam. To achieve additional movement at the restoring member, it is mounted on the carrier movably in accordance with the purpose of the restoring movement by means of a sliding member which is actuated by an eccentric mounted coaxially mounted on the now rotatably arranged follower shaft. The eccentric receives its movement from the rotating cam support shaft. For this purpose, a worm wheel is fixedly mounted on the follower shaft which engages the worm. The worm is located on a rotatably arranged guide rod of the return member carrier and is axially displaceable therewith together with the return member carrier.

Said guide rod is then in communication with the cam support shaft by means of a chain transmission. In such an arrangement, the fact that the basic or constant stroke of the return member is fixed by the magnitude of the cam guide path makes the device practically usable for guiding the linear formation only to produce a winding width that is adequate to said return member stroke.

It goes without saying that the device itself can be adapted to the new stroke size requirements of the return member by suitable sizing. However, this can result in increased space requirements and thus increased production costs, not only in terms of equipment modification, but mainly in terms of the design of storage locations on the machines for which it is intended.

The aforementioned drawbacks do not have a device for driving a rectilinear gear with a gear, consisting mainly of a pinion, which is engaged with the gear of the gear and which is rotatably mounted on an axis connected by means of a coupler to the guide track of a rotating cam. characterized in that a rack rack having an axially adjustable position extending parallel to the return member is associated with and engaged with the pinion. This arrangement makes it possible to easily determine the required basic stroke size and at the same time to add additional movement to the return member without changing the pitch of the cam guide path from which the basic stroke is derived.

Next, an exemplary embodiment of the invention is described based on the drawing. In this drawing, Fig. 1 schematically shows a device with a return member and means for axially moving the return member, a front view, Fig. 2 shows a side view of a part of the device in cross-section, and Fig.

According to Fig. 1, the device comprises a pinion mounted freely rotatable on an axis 6, which is in fixed connection with the carrier 2. This carrier 2 is located on a pair of fixed guide bars 16 and 17 (these bars are visible in Figure 2). arranged in a plane perpendicular to the pinion axis of rotation 2.

The carrier 2 on the guide rods and is axially movable by means of coupling pins 13 in engagement with the endless guide path 1 1 Voíka cam 22 · 12 is fixed on a rotatable support shaft 1 5. In addition, the pinion 2 is ⁱⁿ engagement both with the toothing of the return organ 2, which it is axially movable on the 2 β ia partly with toothed cog crest 22nd · which extends parallel to the deflection bodies 2 ⁰ is placed on line 14 and 2 ,. The rack rack 10 has an axially adjustable position. For this purpose, in conjunction with the output member 2 there is a locally rigidly arranged source of rectilinear reciprocation g. This source may be any known device capable of optionally adjusting the axial position of the rack rack 20.

In the alternative embodiment of FIG. 3, the pinion 18 consists of two coaxially rigidly connected, e.g., pressed, wheels 19 and 21 having toothings 22, 20 of unequal pitch circle diameter. In this case, the first wheel 21 meshes with comb 10th ozubnioovým yet oo second round 19 is engaged with a reciprocating body ^No. 2 · Based on this measure, it is possible to make the required fundamental constant of the reverse body lift can be used to guide cam 12 a relatively small incline path 11 so that the space required by the cam 12 would otherwise be reduced. Or, on the other hand, at a given dimension of the cam 22, resp. its guide tracks 22 ^{can be} easily adjusted to the transmission between the cam 1 2 and the return member 2 to the need for greater stroke at the return orgene 2 ·

The device according to the invention operates as follows: As soon as the cam 12 is rotated about its axis, the carrier 2 and with it the pinion 2 must execute a reciprocating movement in the transverse direction in terms of the axis of rotation of the cam 12. said reciprocating motion, which is rectilinear, still performs a rotary motion.

As a result, the reciprocating member 2 d ® is provided alternately with an axially displaceable direction facing one side and the other, which is increased by the value resulting from the angular rotation of the pinion 11. The actual stroke at the reciprocating member 2 is determined by the extreme limits of this increased movement. Optionally, the axial position of the rack rack 10 is adjusted by means of a rectilinear reciprocating motion 8 to achieve additional movement or possibly to shorten the stroke at the return member 2. In preparation for the use of a pinion 18 in the form of a pair of gears 19, 21, as shown in FIG. 3, the transfer process at the return member 2 proceeds as above, except that the first wheel 21 rolls over the rack rack 10. while the second wheel 19 imparts axially displaceable movement to the return member 2.

Claims (5)

SUBJECT OF THE INVENTION 1. Apparatus for propelling a rectilinear return member for machines for the production or processing of textile linear formations, in particular for open-end spinning rods, in which the return travel of the return member is derived from a rotating cam by means of a gear mainly consisting of a pinion. and which is rotatably mounted on an axis connected by means of a coupler to the guide track of said V8, characterized in that a pinion (10) running parallel to the pinion (5) is associated with and engaged with the pinion (1). axially adjustable position. Apparatus according to claim 1, characterized in that the axial position of the rack (10) is derived from a source of linear reciprocating motion (8). 3. The apparatus of item 2, (8) having a variable stroke. characterized in that: a source of linear reciprocating motion 4. A device according to claim 1, having a pitch circle diameter, in engagement with a return member (5) with a rack rack (10). characterized in that the pinion (1) has two gears of non-uniformity, wherein the gearing with the larger diameter of the pitch circle is and the gearing with the smaller diameter of the pitch circle is engaged Device according to Claim 4, characterized in that the pinion (1) consists of two gear wheels (19, 21) which are fixed on a common axis (6).