CN106702585B - Crosspointer plate, which draws, is used for the movable tension disc mechanism that embossing weaves on tower summer flat braiding machine - Google Patents

Abstract

Drawing the present invention relates to crosspointer plate is used for the movable tension disc mechanism that embossing weaves on tower summer flat braiding machine, including movable tension disc and tension disc driver element, the movable tension disc is laterally set and with straight base and by the inclined hypotenuse of base front end forward upward, and tension disc driver element drives the movable tension disc to be in operating position or off-position；When movable tension disc is in off-position, movable line ball front edge of board is located at yarn mouth and changed on the position for not interfering yarn mouth to be changed of position lateral rear, and new and old yarn mouth is changed, form that new and old yarn crossovers change around contact；When movable tension disc is in operating position, tension disc is affixed on the preceding needle plate knitting needle back side, and the base of movable tension disc is affixed on nozzle, and the yarn around junction is suppressed in nozzle in the base, until old yarn completes kinking lopping.Its advantage is effectively to solve existing crosspointer plate to draw " big eye " problem that tower summer flat braiding machine usually occurs when embossing weaves, and greatly improves embossing weaving quality.

Description

Crosspointer plate, which draws, is used for the movable tension disc mechanism that embossing weaves on tower summer flat braiding machine

Technical field

The present invention relates to tower summer flat braiding machine field is drawn, the crosspointer plate of more particularly, to embossing braiding draws the horizontal braiding of tower summer The movable tension disc mechanism of machine.

Background technology

Embossing braiding is to weave to form a kind of weaving manner of Weaving pattern by different color yarn.Crosspointer plate draws tower Summer flat braiding machine can realize the embossing braiding of dashed line free.The machine weaves the yarn mouth replacing for proceeding to two kinds of colo(u)r streak intersections in embossing Position carries out the replacing of new and old yarn mouth, and original is moved with head 91 and carries the old of former color yarn (hereinafter referred to as old yarn) Yarn mouth 21 carries delivering mechanism 92 by yarn mouth and is pushed on the yarn mouth deposit frame 94 of the rear side of needle-bar 97, carries latter color The new yarn mouth 22 of color yarn (hereinafter referred to as new yarn) is changed position in yarn mouth and deposited by yarn mouth feeding mechanism 93 from yarn mouth on frame It is pushed on head 91, such as Figure 14.And old yarn mouth 21 be pushed to yarn mouth deposit frame 94 on when, its old yarn guided just feed Also non-lopping on to knitting needle 5, and institute's yarn feeding line is located at the top of nozzle 98, such as Figure 15,16 are formed at so high yarn feeding position New and old yarn crossovers solderless wrapped connection so that hereafter old yarn often causes the coil at solderless wrapped connection to be more than week in kinking knitting cycle is completed Contour circle, forms " the big eye " being commonly called as, so that the cloth eye of fabric is not of uniform size, thus influences weaving quality.

And in order to solve " big eye " problem, existing crosspointer plate draws point of the tower summer flat braiding machine using old yarn and new yarn Row braiding namely tears row braiding open to solve, and thus greatly reduces braid efficiency.

The content of the invention

It is an object of the invention to solve the existing tower summer flat braiding machine " big eye " for occurring during embossing braiding that draws to ask Topic, and a kind of crosspointer plate for not influenceing braid efficiency during solution and providing draws the movable tension disc of tower summer flat braiding machine Mechanism, is specifically realized by following technical scheme.

The movable tension disc mechanism is arranged on the head of the flat braiding machine and with head motion, and including activity pressure Line plate and tension disc driver element, the movable tension disc laterally set and with straight base and by the base front end forward The hypotenuse of inclined upward, tension disc driver element drives the movable tension disc to be in operating position or off-position；Activity When tension disc is in off-position, movable line ball front edge of board does not interfere yarn mouth to be changed positioned at yarn mouth replacing position lateral rear Position on, new and old yarn mouth is changed, and forms intersection that new and old yarn changes around contact；When movable tension disc is in operating position, Tension disc is affixed on the preceding needle plate knitting needle back side, and the base of movable tension disc is affixed on nozzle, yarn of the base compacting around junction In nozzle, until old yarn completes kinking lopping.

The movable tension disc base length is at least yarn mouth and changes position to the length between kinking knitting position,

The movable tension disc includes line ball portion and the connecting portion being arranged on rear side of line ball portion, and the base is line ball subordinate Edge, movable tension disc connects drive mechanism by connecting portion.

The lower edge of the connecting portion is higher than the lower edge in line ball portion.

When the movable tension disc is in off-position, it is also located at after not interfering that knitting needle goes out the position of pin on needle-bar.

The movable tension disc mechanism is arranged on the symmetrical both sides of head horizontal direction.

The tension disc driver element includes guide plate, leading truck, crank, the first sliding pin, the second sliding pin and motor, described Leading truck is fixed on head, at least provided with vertically disposed first guide groove and the second guiding being obliquely installed on guide plate Groove, the guide plate can be arranged in leading truck planar movement and one end stretching leading truck is outer is connected with movable tension disc, motor It is fixed on leading truck, crank is connected to motor shaft and rotated with motor, and the first sliding pin is slidably disposed in the first guide groove Interior and be connected with crank, the second sliding pin is slidably disposed in the second guide groove and is connected on leading truck.

First guide groove has one, is arranged on the transverse center line position of guide plate, and two second guide grooves are symmetrically set Put in the both sides of the first guide groove.

The leading truck includes location-plate, connecting plate, connecting screw rod and nut, and the connecting plate center, which is provided with, makes motor shaft The hole passed through, the location-plate and connecting plate by connecting screw rod it is parallel with nut and it is spaced link into an integrated entity, location-plate Interval between connecting plate, which is formed, accommodates guide plate and crank cavity, and the motor is fixed on connecting plate and motor shaft is passed through The hole is extend into cavity to be connected with crank, and guide plate one side is affixed on the location-plate side to form cavity bottom side, described Second sliding pin is fixed on location-plate and corresponding on the center of the second guide groove.

The tension disc driver element includes motor, initiatively rocking arm and isometric from motion rocker arm, the electricity with initiatively rocking arm Machine is fixed on head, and initiatively rocking arm one end is connected to motor shaft, and one end is rotatably connected on movable tension disc, from shaking The two ends of arm are rotatably connected at head and movable tension disc respectively.

The tension disc driver element includes rack, gear and motor, and the motor is fixed on head, and gear is connected to Motor shaft and engaged transmission rack, rack are slidably connected to head and are connected with movable tension disc.

The movable tension disc mechanism of the present invention provides a kind of movable tension disc, is fed them into by the driving of driver element Operating position or off-position, to be suppressed in operating position by tension disc correlation braiding yarn, change yarn Feeding position, is asked so as to efficiently solve existing crosspointer plate and draw " big eye " that tower summer flat braiding machine usually occurs when embossing weaves Topic, greatly improves embossing weaving quality, makes it possible not tear capable braiding open, substantially increase embossing braid efficiency, and in non-work Make position and offer space is provided for the new and old yarn mouth needed for embossing weaves, and do not done there is provided tension disc when carrying out other braidings Relate to the parked space that rear needle-bed knitting needle goes out pin.

Brief description of the drawings

Fig. 1 is that movable tension disc mechanism is symmetrically mounted on the structural representation drawn on tower summer crosspointer plate flat braiding machine.

Fig. 2 is the structural representation that new and old yarn mouth changes the above two lateral attitudes in embossing braiding.

Fig. 3 is that new and old yarn mouth shown in Fig. 2 changes partial schematic diagram in the above two lateral attitude structural representations.

Fig. 4 is the structural representation of both lateral attitudes after new and old yarn mouth replacing during embossing weaves.

Fig. 5 is the partial schematic diagram in both lateral attitude structural representations after new and old yarn mouth shown in Fig. 4 is changed.

Fig. 6 is the schematic diagram that embossing weaves the tension disc compacting yarn after new and old yarn mouth replacing in.

Fig. 7 is the partial schematic diagram in the schematic diagram of tension disc compacting yarn after new and old yarn mouth shown in Fig. 6 is changed.

Fig. 8 is that movable tension disc 11 suppresses yarn at contact M in nozzle, makes to be fed to the yarn on knitting needle and is in nozzle The situation of position.

Fig. 9 is that the yarn being fed to shown in Fig. 8 on knitting needle is in the part of nozzle position situation under the effect of movable tension disc Schematic diagram.

Figure 10 is a kind of structural representation of tension disc driver element.

Figure 11 is the top view of driver element shown in Figure 10

Figure 12 is the structural representation of another tension disc driver element.

Figure 13 is the structural representation of another tension disc driver element.

Figure 14 is the structural representation that existing crosspointer plate draws tower summer flat braiding machine.

Figure 15 is that after old yarn mouth 21 is pushed to and is pushed on deposit frame 94 in flat braiding machine shown in Fig. 1, it is old that it is guided Yarn is fed on the knitting needle 5 on preceding needle-bar 95 and the situation above nozzle.

Figure 16 is that the yarn being fed to shown in Figure 15 on knitting needle is in the partial schematic diagram of situation above nozzle.

In figure, 1- tension discs mechanism, 11- activity tension discs, 111- bases, 112- hypotenuses, 11A- line balls portion, 11B- connecting portions, 12- tension disc driver elements, 121- guide plates, the guide grooves of 1211- first, the guide grooves of 1212- second, 122- leading trucks, 1221- location-plates, 1222- connecting plates, 1223- connecting screw rods, 123- cranks, the sliding pins of 124- first, The sliding pins of 125- second, 126- motors, another tension disc driver elements of 13-, 131- motors, 132- initiatively rocking arms, 133- is from motion rocker arm, another tension disc driver element of 14-, 141- racks, 142- gears, 143- motors, the old yarns of 21- Mouth, the new yarn mouths of 22-, the old yarns of 31-, the new yarns of 32-, knitting needle before 51-, knitting needle, 9- flat braiding machines, 91- machines after 52- Head, 92- yarn mouths carry needle-bar after needle-bar before delivering mechanism, 94- yarn mouths deposit frame, 95-, 97-, 93- yarn mouths feeding machine Structure, 98- nozzles.

Embodiment

Such as Fig. 1, two movable tension disc mechanisms 1 are symmetrically mounted on the machine for drawing tower summer crosspointer plate flat braiding machine 9 with horizontal direction On first 91, when head is along needle-bar transverse shifting, movable tension disc mechanism 1 will be with head transverse shifting.The movable line ball trigger Structure 1 is main to be made up of movable tension disc 11 and the tension disc driver element 12 for driving the movable tension disc 11 to move.

Such as Fig. 2,3, if Nose Left is run, that is, embossing braiding from right to left is carried out, two kinds of colored boundaries are reached During place, progress yarn mouth replacing at the A of position will be changed in yarn mouth by carrying the old yarn mouth of old yarn with carrying the new yarn mouth of new yarn.More Head changes stop motion at the A of position in yarn mouth before changing, and now movable tension disc 11 is in off-position, and its front end is located at yarn Mouth changes the lateral rear of position, that is, old yarn mouth is sent the transverse direction (transverse movement direction) that position is admitted to new yarn mouth Rear side, one does not interfere on the position that yarn mouth is changed, and is thus changed for new, old yarn mouth and provides space.If considering the horizontal stroke Braider will also carry out other braidings, then movable tension disc 11 is should be at after not interfering in off-position, also on needle-bar 97 Rear knitting needle 52 go out the position (reference can be made to Figure 14) of pin.

Such as Fig. 4,5 and Figure 14 is combined, will be by the old yarn mouth 21 for changing the old yarn 31 of position A places carrying when yarn mouth is changed The yarn mouth being fixed on head carries the yarn mouth deposit frame 94 that delivering mechanism 92 is pushed to the side of needle-bar 97 after flat braiding machine Correspondence position on, the distance of head transversal moving forward one of yarn mouth deposit frame 94 stop motion relatively, makes and old yarn mouth 21 afterwards Adjacent and on side position thereafter new yarn mouth 22 moves forward, and it is directed at position (the i.e. yarn mouth replacing for fixing yarn mouth on head Position A), carry delivering mechanism 92 with yarn mouth and be in identical lengthwise position (being longitudinally the direction vertical with transverse direction, referring to Fig. 1) Yarn mouth carries feeding mechanism 93 and new yarn mouth 22 is pushed on head, so far realizes the replacing of new and old yarn mouth, and form old yarn The crosspoint S of line 31 and new yarn 32, this moment old yarn mouth be positioned on the yarn mouth deposit frame for having a small distance from nozzle 98, Its old yarn guided is fed to before correspondence on knitting needle 51 generally flatly, and feeding position is from nozzle farther out, referring to Figure 14, now The also non-kinking lopping of old yarn.

Such as Fig. 6,7, after the completion of yarn mouth is changed, head starts to continue to be moved to the left, and carries the new yarn mouth of new yarn with head The laterally front side of old yarn mouth 21 is travelled forward and moved to, the crosspoint S of former new and old yarn formation is changed into intersection around contact M..Movable tension disc 11 is run from inoperative position to operating position, when movable tension disc 11 is in operating position, is affixed on preceding pin The plate knitting needle back side, and base is affixed on nozzle 98, such as Fig. 8,9.The hypotenuse 112 of movable tension disc in the process of running thereon is leaned on first Near and pressure contacts the old yarn 31 that old yarn mouth 21 is guided, and enters the base of movable tension disc with the old yarn 31 of operation of head 111, until base 111, which is suppressed, intersects the yarn around contact M in nozzle 98, make the feeding position of the yarn before being fed on knitting needle 51 Nozzle is displaced downwardly to, old yarn 31 is fed on knitting needle at a certain angle rather than generally flatly, and the effect of such yarn feeding can be effective Prevent the great circle of yarn possible caused yarn at the braiding of border.The compacting state of yarn at movable tension disc opposing connection contact M When at least maintaining to arrive old yarn mouth to the complete lopping of last root knitting needle institute yarn feeding line.

It by the Design of length on its straight base is from yarn mouth change bit that one preferred structure design of movable tension disc, which is, A is put to the length between kinking knitting position B, make movable tension disc to the compacting of yarn from yarn mouth change when old yarn feeding knit Pin to kinking lopping process；And preferred mode is that movable tension disc is pressed old yarn always in embossing braiding System, therefore the length on the movable straight base of tension disc is more than length between above-mentioned (AB) two positions.Certainly activity tension disc is put down The length of straight bottom might be less that the length between above-mentioned (AB) two positions, intersect in the compacting of movable tension disc 11 around contact M When locating yarn, while doing the motion with head motion in the opposite direction, at least remain to old yarn lopping and complete.

Afterwards, the head for carrying new yarn mouth is moved forward, and the new yarn of new yarn mouth guiding is fed to the knitting needle on needle-bar Yarn, embossing braiding is carried out with new yarn 32.When running to the yarn intersection of two kinds of colors again, movable tension disc will be from work Off-position is run to as position, situation as shown in figs. 2-9 is repeated, repeats no more here.

The movable tension disc 11 of the present invention is with straight base 111 and by the inclined hypotenuse of base front end forward upward 112.One preferred structure of movable tension disc 11 is made up of line ball portion 11A and connecting portion 11B, and straight base 111 is set The lower edge in line ball portion 11A is put, makes movable line ball front edge of board be in by forward by the inclined hypotenuse 112 of base front end forward upward What is gradually tapered up is tip-shape.To reach more preferable line ball effect, the lower edge of the connecting portion is higher than line ball lower edge.

Such as Figure 10,11, give a kind of tension disc driver element 12, the tension disc driver element 12 include guide plate 121, Leading truck 122, crank 123, the first sliding pin 124, the second sliding pin 125 and motor 126.Mainly by movable tension disc 11 and tension disc The tension disc mechanism 1 that driver element 12 is constituted is fixed on head by leading truck 122, is hung down on guide plate 121 at least provided with one The first guide groove 1211 directly set and the second guide groove 1212 being obliquely installed, the guide plate can be arranged on lead to planar movement It is connected into frame and outside one end stretching leading truck with movable tension disc 11, motor 126 is fixed on leading truck 122, and crank 123 connects It is connected on motor shaft, is rotated with motor, the first sliding pin 124 is slidably disposed in the first guide groove 1211 and is connected to crank Radial direction one end, the second sliding pin 125 is slidably disposed in the second guide groove 1212 and is connected on leading truck 122.Work as electricity By the motion of relative first guide groove 1211 of the first sliding pin 124 when the drive crank 123 of machine 126 is rotated, guide plate 121 is driven to transport It is dynamic, and the guiding movement by the second sliding pin 125 along the second guide groove 1212, make above and below guide plate 121 does in leading truck 122 The composite plane movement of left and right.So as to completion activity tension disc 11 from the bottom to top and from left to right (or from right to left) by working Position translation to off-position motion, and movable tension disc 11 from top to bottom and from right to left (or from left to right) by non- Motion of the operating position to operating position.

The motion of the above-mentioned driving activity tension disc 11 of tension disc driver element 12, makes it when in operating position：It is affixed on The back side of preceding knitting needle 51 on preceding needle-bar, base 111 is affixed on nozzle 98；When in off-position：Front end is located at yarn mouth more It is other braidings of without prejudice to, base 111 is higher by rear needle-bar and knitted on the position for not interfering yarn mouth replacing of change place lateral rear Pin 52 goes out pin end (highest extended position).

Above-mentioned leading truck 122 is mainly made up of location-plate 1221, connecting plate 1222, connecting screw rod 1223 and nut, even The center of fishplate bar 1222 is provided with hole, and the hole at least allows motor shaft to pass through, and location-plate 1221 and connecting plate 1222 are in screw rod 1223 Position and fixed with nut on the step at two ends, make two plates parallel and link into an integrated entity with interval；Interval shape between two plates Into the cavity for accommodating guide plate 121 and crank 123；Motor 126 is fixed on the side of connecting plate 1222, and motor shaft is passed through and connected The hole at the center of fishplate bar 1222 is extend into the cavity to be connected with crank 123, and the one side of guide plate 121 is affixed on to form cavity The side of location-plate 1221 of bottom side, the second sliding pin 125 is fixed on location-plate 1221, and corresponding to the center of the second guide groove On position, it is oriented to the planar movement to guide plate 121.

The preferred embodiment of crank 123 be made as shown in Figure 10 it is discoid, the crank 123 is concentrically attached to motor shaft On, the first sliding pin 124 is connected in one end of one radial direction, is acted on by the sliding pin with the first being slidably connected for guide groove 1211 Guide plate 121.

Such as Figure 12, another tension disc driver element 13 is given, the tension disc driver element 13 includes motor 131, master Motion rocker arm 132 and from motion rocker arm 133, isometric from motion rocker arm 133 and initiatively rocking arm 132, motor is fixed on head 91, is actively shaken The one end of arm 132 is connected to motor shaft, and one end is rotatably connected on movable tension disc 11, can be turned respectively from the two ends of motion rocker arm Head 91 and movable tension disc 11 are connected to dynamicly.The movable tension disc driver element has actually constituted a parallel―ordinal shift machine Structure, so that movable tension disc 11 does the compound translational motion essentially identical with tension disc driver element 12 shown in Fig. 8,9, drives Movable tension disc 11 is run to off-position by operating position or run by off-position to operating position, and tension disc 11 position features in operating position or off-position are also identical, repeat no more.

Such as Figure 13, another tension disc driver element 14 is given, the tension disc driver element 14 includes rack 141, tooth Wheel 142 and motor 143, motor 143 are fixed on head 91, and gear 142 is connected to motor shaft and engaged transmission rack 141, tooth Bar 141 is slidably connected to head 91, is allowed to keep moving horizontally in the engaged transmission with gear 142, rack and movable tension disc Connection.

Claims (11)

1. crosspointer plate, which draws, is used for the movable tension disc mechanism that embossing weaves on tower summer flat braiding machine, it is characterised in that：The activity Tension disc mechanism is arranged on the head of the flat braiding machine and with head motion, and including movable tension disc and tension disc driving Unit, the movable tension disc is laterally set and with straight base and by the inclined hypotenuse of base front end forward upward, Tension disc driver element drives the movable tension disc to be in operating position or off-position；Movable tension disc is in inoperative During position, movable line ball front edge of board is located at yarn mouth and changed on the position for not interfering yarn mouth to be changed of position lateral rear, new and old yarn Mouth is changed, and forms the intersection of new and old yarn replacing around contact；When movable tension disc is in operating position, before movable tension disc is affixed on The needle plate knitting needle back side, the base of movable tension disc is affixed on nozzle, and the yarn around junction is suppressed in nozzle in the base, until old Yarn completes kinking lopping.

2. movable tension disc mechanism according to claim 1, it is characterised in that：The movable tension disc base length is at least Position is changed to the length between kinking knitting position for yarn mouth.

3. movable tension disc mechanism according to claim 1, it is characterised in that：The movable tension disc include line ball portion and The connecting portion on rear side of line ball portion is arranged on, the base is line ball lower edge, and movable tension disc is connected by connecting portion and driven Mechanism.

4. movable tension disc mechanism according to claim 3, it is characterised in that：The lower edge of the connecting portion is higher than line ball The lower edge in portion.

5. the tension disc mechanism according to claim any one of 1-4, it is characterised in that：The movable tension disc is in non-work When making position, knitting needle goes out the position of pin on needle-bar after not interfering.

6. movable tension disc mechanism according to claim 1, it is characterised in that：The movable tension disc mechanism is arranged on machine The symmetrical both sides of head horizontal direction.

7. movable tension disc mechanism according to claim 1, it is characterised in that：The tension disc driver element includes being oriented to Plate, leading truck, crank, the first sliding pin, the second sliding pin and motor, the leading truck are fixed on head, at least set on guide plate There are vertically disposed first guide groove and the second guide groove being obliquely installed, the guide plate can be arranged on guiding planar movement Stretching leading truck in frame and one end is outer to be connected with movable tension disc, and motor is fixed on leading truck, and crank is connected to motor shaft simultaneously Rotated with motor, the first sliding pin is slidably disposed in the first guide groove and is connected with crank, and the second sliding pin is slidably set Put in the second guide groove and be connected on leading truck.

8. movable tension disc mechanism according to claim 7, it is characterised in that：First guide groove has one, setting In the transverse center line position of guide plate, two second guide grooves are symmetricly set on the both sides of the first guide groove.

9. movable tension disc mechanism according to claim 7, it is characterised in that：The leading truck includes location-plate, connection Plate, connecting screw rod and nut, the connecting plate center is provided with the hole that motor shaft is passed through is made, and the location-plate and connecting plate pass through even Connect screw rod it is parallel with nut and it is spaced link into an integrated entity, interval between location-plate and connecting plate formed accommodate guide plate and The cavity of crank, the motor is fixed on connecting plate and motor shaft extend into cavity through the hole and is connected with crank, is led It is affixed on the location-plate side to form cavity bottom side to plate one side, second sliding pin is fixed on location-plate and corresponding to the On the center of two guide grooves.

10. movable tension disc mechanism according to claim 1, it is characterised in that：The tension disc driver element includes electricity Machine, initiatively rocking arm and isometric from motion rocker arm with initiatively rocking arm, the motor is fixed on head, and initiatively rocking arm one end is connected to Motor shaft, one end is rotatably connected on movable tension disc, from the two ends of motion rocker arm be rotatably connected at respectively head and Movable tension disc.

11. movable tension disc mechanism according to claim 1, it is characterised in that：The tension disc driver element includes tooth Bar, gear and motor, the motor are fixed on head, and gear is connected to motor shaft and engaged transmission rack, and rack, which is slided, to be connected It is connected to head and is connected with movable tension disc.