CN202913169U - Novel sedimentation device for textile machine - Google Patents

Abstract

The utility model relates to a novel sedimentation device for a textile machine consisting of a sink tooth row fixed plate, a sink tooth row, a sink guide block, a sliding block, a sink key baseboard, a sliding bearing, a sliding plate and a sliding plate seat, wherein the sink guide block is arranged on one side of the sink tooth row fixed plate opposite to the sliding block, a rivet on the sink guide block passes through a guide hole on the tooth row fixed plate and is in a rivet joint with the sliding block, the sink key baseboard and the sliding bearing on the other side, the sink tooth row is connected to the sliding board provided with a guide rail, the rivet connected to the sliding plate seat and the sink tooth row fixed plate passes through the guide rail, and the guide rail of the sliding block is a channeled rail in the shape of a Chinese character 'ba'. According to the novel sedimentation device for textile machine, the guide rail of the sliding block is a channeled rail in the shape of a Chinese character 'ba', the sink sliding bearing slides more stably in the guide rail, the motion path is more precise, steady and smooth, and whole performance of textile machinery is effectively improved.

Description

A kind of Novel Spinning loom sedimentation device

Technical field

The utility model relates to textile machine, relates in particular to a kind of Novel Spinning loom sedimentation device.

Background technology

Weaving is to provide the device that moves up and down power to textile machine with putting-down machine.The traditional structure of this device is generally: comprise Kanehara base plate, Kanehara guide block, slide plate, inverting seat, tooth row, bearing block.Inverting seat is fixed on the Kanehara base plate, and slide plate is fixed with pair of guide rails, and slide plate is located in the groove of inverting seat, and bearing penetrates in the guide rail of slide plate; Tooth row is fixed in the slide plate middle part; Bearing block connects the Kanehara guide block by pin, and pin links to each other with the Kanehara guide block by the pilot hole of Kanehara motherboard.

The utility model of application number 201020678119.1 discloses a kind of single system sinker device of flat knitting machine, and the Kanehara seat is provided with draw bar, and draw bar is provided with the first inclined-plane and the second inclined-plane, and what the guide rail on the traction element of this traditional structure adopted is single groove design.

Above-mentioned traditional design is owing to adopting single groove guide rail, and sliding bearing slides in guide rail owing to only having single support on the Kanehara, and during the machine vigorous motion, bearing moves unstable in guide rail, causes the Kanehara deviation that moves up and down.

Summary of the invention

The purpose of this utility model is to overcome the above-mentioned deficiency of existing weaving loom sedimentation device, provides a kind of improvement structure, to provide a kind of operation more stable sedimentation device.

In order to realize the purpose of this utility model, the technical solution adopted in the utility model is:

A kind of Novel Spinning loom sedimentation device comprises Kanehara tooth row fixed head 1, Kanehara tooth row 3, Kanehara guide block 5, sliding

Piece 4, Kanehara key base plate 6, sliding bearing 7, slide plate 8, slide plate chair 10, described Kanehara guide block 5 is arranged on the opposite side of the Kanehara tooth row fixed head 1 relative with described slide block 4, rivet on the Kanehara guide block 5 passes the pilot hole of tooth row fixed head 1, in opposite side and slide block 4, Kanehara key base plate 6 and sliding bearing 7 riveted joints; Described Kanehara tooth row 3 is connected with slide plate 8, offers guide rail 9 on the slide plate, and the rivet that connects slide plate chair 10 and Kanehara tooth row fixed head 1 passes described guide rail, it is characterized in that: the guide rail 9 of described slide block is the grooved guide rail.

One limited block 2 is fixed on the tooth row fixed head 1, being connected on the limited block 2 of tooth row activity.

Described limited block 2 is fixed on the middle part of Kanehara tooth row fixed head 1.

Described Kanehara guide block 5 is two pairs, with respect to limited block 2 left-right symmetry, on the slide block 4 pair of guide rails is arranged, every pair of Kanehara

Sliding bearing on the guide block is inserted respectively in two pairs of guide rails.

The guide rail interlude of described slide block 4 is straight, and both sides form " eight " font slope.

The rear on font slope, described both sides " eight " is tending towards straight.

The up and down distance of the guide rail 9 of described slide block adapts with the diameter of bearing.

With respect to prior art, the beneficial effects of the utility model are:

1. the guide rail that slides for sliding bearing on the Kanehara 7 on the slide block is the grooved guide rail, and sliding bearing is transported in the grooved guide rail

When moving, have all the time two lines contact with guide rail, actual effect is that the path that moves up and down of slide block drive Kanehara is more accurate, moves more stable.

2. drive a pair of Kanehara guide block with respect to a slide block, the utility model is symmetrical arranged two pairs of Kanehara guide blocks, slide block

On have two namely, when slide block moves, can drive two pairs of guide blocks and move up and down for the guide rails of guide block upper bearing (metal)s motion, improved efficient.By thinking of the present utility model, can continue to set up the Kanehara guide block.

3. " eight " font guide rail on the slide block, chamfered transition is level and smooth, and tail end is tending towards straight gradually, like this bearing

Motion in guide rail is more smooth-going, and is stable.

Description of drawings:

Fig. 1 is the structural representation of the utility model integral body;

Fig. 2 is the utility model Kanehara tooth row fixed plate structure schematic diagram;

Fig. 3 be the utility model slide plate and on the guide rail structure schematic diagram;

Fig. 4 is the utility model Kanehara guide block (left side) structural representation;

Fig. 5 is the utility model Kanehara key base arrangement schematic diagram;

Fig. 6 is the utility model limited block structural representation;

Fig. 7 is the utility model slide plate chair structural representation;

Fig. 8 is the utility model Kanehara tooth row structural representation.

Among the figure: 1, Kanehara tooth row fixed head; 2, limited block; 3, Kanehara tooth row; 4, slide plate; 5, Kanehara guide block; 6, Kanehara key base plate; 7, sliding bearing; 8, slide block; 9, guide rail; 10, slide plate chair.

The specific embodiment:

The present invention is further described below in conjunction with drawings and Examples:

Embodiment of the present utility model is as follows:

1. scheme: referring to accompanying drawing 1, comprise Kanehara tooth row fixed head 1, Kanehara tooth row 3, Kanehara guide block 5, slide block 4, Kanehara key base plate 6, sliding bearing 7, slide plate 8, slide plate chair 10, described Kanehara guide block 5 is arranged on the opposite side of the Kanehara tooth row fixed head 1 relative with described slide block 4, rivet on the Kanehara guide block 5 passes the pilot hole of tooth row fixed head 1, in opposite side and slide block 4, Kanehara key base plate 6 and sliding bearing 7 riveted joints; Described Kanehara tooth row 3 is connected with slide plate 8, offers guide rail 9 on the slide plate, and the rivet that connects slide plate chair 10 and Kanehara tooth row fixed head 1 passes described guide rail.The guide rail 9 of described slide block is for the rear on " eight " font guide rail " eight " font slope is tending towards straight, and the up and down distance of the guide rail 9 of described slide block adapts with the diameter of bearing.(referring to Fig. 2).

2. another kind of preferred version is not given unnecessary details with scheme 1 identical point, and difference is:

Referring to accompanying drawing 1 ~ 8, limited block 2 is fixed on the middle part of tooth row fixed head 1, being connected on the limited block 2 of tooth row activity, Kanehara guide block 5 and 5 ' is two pairs, with respect to limited block 2 left-right symmetry, on the slide block 4 pair of guide rails is arranged, the sliding bearing on the every pair of Kanehara guide block is inserted respectively in two pairs of guide rails.

Operation principle of the present utility model is: by motor-driven Kanehara tooth row 3, drive slide plate 4 move left and right.When slide plate 4 mobile, when Kanehara bearing 7 moved to plurality of ramps, a pair of Kanehara is up and down relative motion thereupon, drove the textile machine action.

What embodiment of the present utility model announced is preferred embodiment; those of ordinary skill in the art is according to above-described embodiment; the non-creativeness of making changes; such as changes such as increase or minimizing Kanehara guide block quantity; only otherwise break away from spirit of the present utility model, all should drop in the protection domain of the present utility model.

Claims (7)

1. Novel Spinning loom sedimentation device, comprise Kanehara tooth row fixed head, Kanehara tooth row, Kanehara guide block, slide block, Kanehara key base plate, sliding bearing, slide plate, slide plate chair, described Kanehara guide block is arranged on the opposite side of the Kanehara tooth row fixed head relative with described slide block, rivet on the Kanehara guide block passes the pilot hole of tooth row fixed head, in opposite side and slide block, Kanehara key base plate and sliding bearing riveted joint; Described Kanehara tooth row is connected with slide plate, offers guide rail on the slide plate, and the rivet that connects slide plate chair and Kanehara tooth row fixed head passes described guide rail, and it is characterized in that: the guide rail of described slide block is the grooved guide rail.

2. a kind of Novel Spinning loom sedimentation device as claimed in claim 1, it is characterized in that: a limited block is fixed on the tooth row fixed head, being connected on the limited block of tooth row groove activity.

3. a kind of Novel Spinning loom sedimentation device as claimed in claim 2 is characterized in that: limited block is fixed on Kanehara tooth row fixed head middle part.

4. a kind of Novel Spinning loom sedimentation device as claimed in claim 3, it is characterized in that: described Kanehara guide block is two pairs, with respect to the limited block left-right symmetry, pair of guide rails is arranged on the slide block, the sliding bearing on the every pair of Kanehara guide block is inserted respectively in two pairs of guide rails.

5. a kind of Novel Spinning loom sedimentation device as claimed in claim 4, it is characterized in that: the guide rail interlude of described slide block is straight, and both sides form " eight " font slope.

6. a kind of Novel Spinning loom sedimentation device as claimed in claim 5, it is characterized in that: the rear on font slope, described both sides " eight " is tending towards straight.

7. a kind of Novel Spinning loom sedimentation device as claimed in claim 6 is characterized in that: the up and down distance of the grooved guide rail of described slide block adapts with the diameter of bearing.

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