CN106350933A - Electric tucking mechanism applied to warp knitting machine - Google Patents

Abstract

The invention relates to the technical field of accessories of warp knitting machines and particularly relates to an electric tucking mechanism applied to a warp knitting machine. The electric tucking mechanism applied to the warp knitting machine comprises a driving shaft and a driven shaft which are mounted on the warp knitting machine; a pressing plate secondary arm is fixedly mounted on the driven shaft; a sliding bar seat is fixedly mounted at the other end of the pressing plate secondary arm; a pressing plate component is movably arranged on the sliding bar seat, and comprises a pressing plate needle bed; a pattern pressing plate is fixedly mounted on one side of the pressing plate needle bed; a pressing plate sliding bar embedded in the sliding bar seat is fixedly mounted on the other side of the pressing plate needle bed; the pressing plate sliding bar, the pressing plate needle bed and the pattern pressing plate form an integrated structure; a yarn guide needle and a spring needle used for knitting tuck stitches are correspondingly arranged in front of the pressing plate component; the spring needle is mounted on a spring needle bed. The electric tucking mechanism applied to the warp knitting machine is reasonable in design, simple and convenient to operate; an encoder controls a servo motor to rotate; the servo motor controls the pattern pressing plate to move backward or forward; the tucking action or the looping action is completed; the production is stable; the quality of products is ensured.

Description

A kind of tricot machine is with electronic tuck mechanism

Technical field

The present invention relates to tricot machine attachment technique field, especially a kind of tricot machine is with electronic tuck mechanism.

Background technology

The shape with one group or several groups of yarns arranged in parallel, on all working pin of warp-wise feeding machine, lopping simultaneously Become knitted fabric, this method is referred to as warp knit, and fabric is referred to as WARP-KNITTING, completes this warp-knit machine and is referred to as tricot machine.Knitting There is a kind of pattern to be organized as tuck stitch in thing, be made up of coil and outstanding arc, some coils of this tissue remove and is cased with one Outside individual elongation coil, also one or several untight outstanding arcs.Traditional tricot machine does not possess the function of braiding tuck stitch, With the raising of Production requirement, traditional tricot machine can not meet the demand of production technology.

Content of the invention

The technical problem to be solved in the present invention is: overcomes the deficiency in prior art, provides a kind of structure simple, tuck Can good tricot machine with electronic tuck mechanism.

The technical solution adopted for the present invention to solve the technical problems is: a kind of tricot machine with electronic tuck mechanism, including It is arranged on the driving shaft on tricot machine and driven shaft, driven shaft is installed with pressing plate auxiliary, the pressing plate auxiliary other end is fixed Draw runner seat is installed, draw runner seat is movably equipped with Anchor plate kit, Anchor plate kit includes pressing plate needle-bar, the fixing peace in pressing plate needle-bar side Equipped with presser cut, pressing plate needle-bar opposite side is installed with the pressing plate draw runner being embedded in draw runner seat, pressing plate draw runner, pressing plate needle-bar It is overall structure with presser cut；To should have sley point and the spring being provided with for weaving tuck stitch in front of described Anchor plate kit Pin, spring needle is arranged on spring needle needle-bar；

The driving means driving presser cut motion are provided with described driven shaft, before and after driving means include driving presser cut Driving means and the up-down drive device driving presser cut up and down motion before and after motion；

Before and after described, driving means include ball-screw, and ball-screw one end is connected with the servo driving ball-screw work Motor, the ball-screw other end is fixedly connected with driving shaft by leading screw rocking arm, and ball-screw moves forward and backward drive driving shaft and turns Dynamic；Described driving shaft passes through connecting rod and driven shaft connects, and connecting rod includes first connecting rod and second connecting rod, and first connecting rod one end is passed through Driving shaft connecting rod base is fixedly mounted on driving shaft, and the first connecting rod other end is connected with second connecting rod by connecting pin, and second even The bar other end is fixedly mounted on driven shaft by pressing plate principal arm；

The encoder meeting basketry requirement is provided with described servomotor, encoder passes through circuit and servomotor Connect, encoder passes through wired or wirelessly controls computer to be connected with tricot machine.

Further, described up-down drive device includes eccentric ratio, and eccentric ratio is fixedly connected with connecting pin, eccentric Connecting rod bottom is connected with driving means,.

Further, described pressing plate needle-bar is connected with the traversing servomotor driving pressing plate needle-bar transverse moving left and right.

The invention has the beneficial effects as follows: the present invention is reasonable in design, easy and simple to handle, and encoder controls servomotor rotation, watches Take motor control presser cut to retreat or move forward, complete tuck action or lopping action, produce stable it is ensured that the matter of product Amount.

Brief description

The present invention is further described with reference to the accompanying drawings and examples.

Fig. 1 is the structural representation of the present invention.

In figure 1. servomotor, 2. ball-screw, 3 leading screw rocking arms, 4. driving shaft, 5. driven shaft, 6. driving shaft connecting rod base, 7. first connecting rod, 8. second connecting rod, 9. pressing plate principal arm, 10. eccentric ratio, 11. traversing servomotors, 12. pressing plate auxiliarys, 13. Draw runner seat, 14. pressing plate needle-bars, 15. pressing plate draw runners, 16. sley points, 17. presser cuts, 18. spring needles, 19. spring needle needle-bars, 20. encoders.

Specific embodiment

Presently in connection with accompanying drawing and preferred embodiment, the present invention is further illustrated.These accompanying drawings are the signal of simplification Figure, only illustrates the basic structure of the present invention, therefore it only shows the composition relevant with the present invention in a schematic way.

A kind of tricot machine as shown in Figure 1 with electronic tuck mechanism, including the driving shaft 4 being arranged on tricot machine and driven Axle 5, driven shaft 5 is installed with pressing plate auxiliary 12, and pressing plate auxiliary 12 other end is installed with draw runner seat 13, draw runner seat 13 On be movably equipped with Anchor plate kit, Anchor plate kit includes pressing plate needle-bar 14, and pressing plate needle-bar 14 side is installed with presser cut 17, pressure Plate needle-bar 14 opposite side is installed with the pressing plate draw runner 15 being embedded in draw runner seat 13, pressing plate draw runner 15, pressing plate needle-bar 14 and Presser cut 17 is overall structure；To should have sley point 16 and the spring needle being provided with for weaving tuck stitch in front of Anchor plate kit 18, spring needle 18 is arranged on spring needle needle-bar 19；The driving means driving presser cut 17 motion are provided with driven shaft 5, drive Dynamic device includes driving means in front and back and the drive up and down driving presser cut 17 up and down motion that driving presser cut 17 moves forward and backward Dynamic device；Driving means include ball-screw 2 in front and back, and ball-screw 2 one end is connected with the servo electricity driving ball-screw 2 work Machine 1, ball-screw 2 other end is fixedly connected with driving shaft 4 by leading screw rocking arm 3, and ball-screw 2 moves forward and backward drive driving shaft 4 rotations；Driving shaft 4 passes through connecting rod and driven shaft 5 connects, and connecting rod includes first connecting rod 7 and second connecting rod 8, first connecting rod 7 one end It is fixedly mounted on driving shaft 4 by driving shaft connecting rod base 6, first connecting rod 7 other end is connected with second connecting rod by connecting pin 8, second connecting rod 8 other end is fixedly mounted on driven shaft 5 by pressing plate principal arm 9；It is provided with servomotor 1 and meet establishment work The encoder 20 that skill requires, encoder 20 is connected with servomotor 1 by circuit, and encoder 20 passes through wired or wireless and warp Volume machine controls computer to connect.

Up-down drive device includes eccentric ratio 10, and eccentric ratio 10 is fixedly connected with connecting pin, eccentric ratio 10 bottom It is connected with driving means, eccentric ratio 10 rotates and drives support bar 10 to move up and down；Pressing plate needle-bar 14 is connected with driving pressing plate pin The traversing servomotor 11 of bed 14 transverse moving left and rights.

Tuck process: spring needle needle-bar 19 rises, drives spring needle 18 to begin to ramp up from minimum point, sley point 16 moves forward, Presser cut 17 retreats, and then spring needle needle-bar 19 continues to rise, and sley point 16 retreats, and completes yarn hook action；Then presser cut 17 Reach, sley point 16 moves forward, and completes overlap process；Last spring needle needle-bar 19 declines, when the needle point of spring needle 18 is down to On sinker during plane, according to process requirements, encoder 20 controls servomotor 1 to rotate, after servomotor 1 controls presser cut 17 Move back, complete tuck action.

Knitting cycle: spring needle needle-bar 19 rises, drives spring needle 18 to begin to ramp up from minimum point, sley point 16 moves forward, Presser cut 17 retreats, and then spring needle needle-bar 19 continues to rise, and sley point 16 retreats, and completes yarn hook action；Then presser cut 17 Reach, sley point 16 moves forward, and completes overlap process；Last spring needle needle-bar 19 declines, when the needle point of spring needle 18 is down to On sinker during plane, according to process requirements, encoder 20 controls servomotor 1 to rotate, before servomotor 1 controls presser cut 17 Move, complete lopping action.

Above-described embodiment only technology design to illustrate the invention and feature, its object is to allow person skilled in the art Scholar will appreciate that present disclosure and is carried out, and can not be limited the scope of the invention with this, all according to the present invention Equivalence changes or modification that spirit is made, all should cover within the scope of the present invention.

Claims (3)

1. a kind of tricot machine with electronic tuck mechanism it is characterised in that: include being arranged on driving shaft (4) on tricot machine and driven Axle (5), driven shaft (5) is installed with pressing plate auxiliary (12), and pressing plate auxiliary (12) other end is installed with draw runner seat (13), draw runner seat (13) is movably equipped with Anchor plate kit, Anchor plate kit includes pressing plate needle-bar (14), pressing plate needle-bar (14) side is solid Dingan County is installed with, equipped with presser cut (17), pressing plate needle-bar (14) opposite side, the pressing plate draw runner being embedded in draw runner seat (13) (15), pressing plate draw runner (15), pressing plate needle-bar (14) and presser cut (17) are overall structure；To should set in front of described Anchor plate kit There are the sley point (16) for weaving tuck stitch and spring needle (18), spring needle (18) is arranged on spring needle needle-bar (19)；

The driving means driving presser cut (17) to move are provided with described driven shaft (5), driving means include driving presser cut (17) driving means and drive presser cut (17) up-down drive device that moves up and down before and after moving forward and backward；

Before and after described, driving means include ball-screw (2), and ball-screw (2) one end is connected with driving ball-screw (2) work Servomotor (1), ball-screw (2) other end is fixedly connected with driving shaft (4) by leading screw rocking arm (3)；Described driving shaft (4) pass through connecting rod and driven shaft (5) connects, connecting rod includes first connecting rod (7) and second connecting rod (8), and first connecting rod (7) one end leads to Cross driving shaft connecting rod base (6) to be fixedly mounted on driving shaft (4), first connecting rod (7) other end is connected with second by connecting pin Connecting rod (8), second connecting rod (8) other end is fixedly mounted on driven shaft (5) by pressing plate principal arm (9)；

Be provided with described servomotor (1) meet basketry requirement encoder (20), encoder (20) pass through circuit with Servomotor (1) connects, and encoder (20) passes through wired or wirelessly controls computer to be connected with tricot machine.

2. tricot machine according to claim 1 with electronic tuck mechanism it is characterised in that: described up-down drive device bag Include eccentric ratio (10), eccentric ratio (10) is fixedly connected with connecting pin, and eccentric ratio (10) bottom is connected with driving means.

3. tricot machine according to claim 1 with electronic tuck mechanism it is characterised in that: described pressing plate needle-bar (14) is even It is connected to the traversing servomotor (11) driving pressing plate needle-bar (14) transverse moving left and right.