KR840001519B1 - Heold driving mechanism on a loom - Google Patents

Abstract

A loom-driven can reciprocate the inner partial healds via follows, the reciprocating motion of the inner partial healds being transmitted oppositely to the outer partial spective partia healds carry opposing racks with a pinion between them. The mechanism is less wear prone than the usual chain-overpullley connecting the heald top ends.

Description

Carp drive of the loom

1 is a schematic side view of a circular loom embodying the present invention.

2 is a plan view of the loom according to FIG. 1;

3 is an enlarged schematic view of a heald driving device of the loom according to FIGS. 1 and 2;

4 is a schematic plan view of a rack and pinion gear of a modified carp drive.

TECHNICAL FIELD The present invention relates to a loom, and in particular, to a weaving drive device for a loom, in particular a circular loom. In such looms, the opposite reciprocation of the pair of caries is carried out by cam-controlled transverse rods or by mutually carrying two partial carbs of each pair at the top and bottom by a pulley with a drive belt or chain. By connecting.

However, such a drive device has a high wear rate, which results in problems and defects in such looms. In addition, such devices are expensive to manufacture and maintain. Therefore, there is a need for an in-wheel drive that requires no maintenance, no wear, and operates with maximum control precision and minimum production cost.

According to the present invention, there is provided a loom consisting of inner and outer carp members arranged in two rows around the main axis of the loom, and a driving device operating on the carp member to reciprocate the inner and outer carp members. Is a flat plate cam having a cam passage that can rotate with the main shaft and change in the axial direction, a pair of opposite follower rollers supporting the inner carp in relation to the cam passage to be moved up and down, and the outer carp member of the inner carp member. A rack and pinion gear device for transmitting cam-induced reciprocation of each inner carp member to the outer carp member associated to reciprocate in the opposite direction to the reciprocating motion, the rack and pinion gear device being associated with each pair And each rack and pinion device arranged on a support lath of each member for the external carp member, wherein the rack is It is coupled engaged with nieon device.

Preferably, the cam passage is formed by a web projecting radially from the flat cam or by peripheral slots in the flat cam, and the following rollers travel on these webs in these slots. At the same time, in order to prevent the twisting of the child members, the axial length of each tooth of each rack can be configured larger than the tooth height, and the pinion device can be composed of a toothed roller and two position forming gears. Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

The circular looms shown in FIGS. 1 and 2 are mounted on the base 1 in a conventional manner. Supported on the base is a circular frame support 2, which is a circular reed 3, an on-off switch 4 for the loom and another to support the partial ingots 6 and 7. The frame part 5 is provided. The partial carp 6 and 7 are arranged in two rows in a circle around the main shaft 8 of the loom, so that an external partial carp 6 and an internal partial carp 7 are formed.

In addition, the support member 9 for the fabric drawing device is supported on the base 1, which is driven by the fabric conveying drive 10, the fabric drawing rollers 11, 12, and the fabric package supporting device 13; It is composed. Fabric stretchers or softeners 14 also act in the first place. Also shown in relation to the loom are a left inclined inlet roller 15, a right inclined inlet roller 16, and a “over flow” roller 17 for a weft ribbon. Since the structure of the circular loom described so far can correspond to the prior art, such a loom need not be described in more detail.

The carp drive 20 generates opposite stroke motions for the external partial carp 6 and the internal partial carp 7 to form a shed. The carp drive 20 comprises a flat cam 21 which is rotatable with the main shaft 8 of the loom and has a cam passage 22, the side of which passes axially and on this passage. The internal partial carp 7 is supported through the following roller 23 so that it can be moved up and down.

The reciprocation of the partial carp 7 is converted by the rack and pinion gear 24 to the opposing reciprocation of the partial carp 6, which can be seen in detail from FIG. 3.

In Fig. 3, the car driving apparatus 20 is schematically enlarged, and each pair of one internal partial carp 7 and one external partial carp 6 (only one pair is shown in the drawing) Rack and pinion gear 24 include a rack 27 on the inla rd 37 and a rack 26 on the inla rd 36. The carp rods 36 and 37 are guided and supported movably in the longitudinal direction by suitable bearings 30. The tooth shaping gear wheel 25 may be adapted to the rack 26 of the outer partial carp 6 as the upward or downward stroke of the rack 27 of the inner part of the car 7 can be clearly seen from the drawings. Engage with racks 26 and 27 to concurrently engage in opposite strokes. As described above, this stroke movement of the inner partial carp 7 and the opposite stroke movement of the outer partial carp 6 coincident with the cam passage of the flat plate cam 21 when the flat cam is rotated ( It is caused by the side of 22.

Referring to FIG. 3, the cam passage 22 is formed by a web which radially protrudes from the surface of the flat cam 21 on which the follower roller 23 is supported. On the rack 27 of 7) is arranged in the form of opposing pairs. Alternatively, the cam passage may be formed by a peripheral slot in the flat cam so that the following roller can travel in the form of a sliding block.

4 shows a variant of the rack and pinion gear 24 described above, wherein the racks 26 and 27 are formed relatively wide on the heddle 36 or 37 and the double toothed gear 25 ') Or equivalent toothing roller. This structure protects the partial carp 6 and 7 against torsion in the bearing 30, thus eliminating the need for complicated and expensive guiding devices for these part of carp.

Therefore, the circular loom which embodies the present invention has an in-wheel drive having extremely strong, simple and precise control characteristics.

Claims (1)

In a loom consisting of inner and outer carp members arranged in two rows around the main shaft of the loom, and a drive device operating on the carp member to reciprocate the inner and outer carp members, the drive device can rotate with the main shaft. A flat cam having an axially changing cam passageway, a pair of opposing follower rollers supporting an inner carp in relation to a cam passage to be moved up and down, and an outer carp member reciprocating of the inner carp member Rack and pinion gears for transmitting the cam-induced reciprocating motion of each inner carp member to the associated outer carp member so as to reciprocate in the opposite direction with the rack and pinion gears It consists of a rack and pinion device, each rack arranged on a supporting rod of each member for the member, and the rack meshes with the pinion device Carp drive device of the loom, characterized in that connected to.

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