CN202671791U - Computer circular knitting machine with section pressing needle and embedded jacquard structure - Google Patents

Abstract

A computer circular knitting machine with a section pressing needle and an embedded jacquard structure is provided. An upper triangular density adjusting mechanism is of a structure that an upper triangular seat is provided with a T-shaped groove and a first screw hole, a first non-through hole, a second screw hole and a second non-through hole. The T-shaped groove is provided with a tail end, a first adjusting column is provided with a first adjusting column hole, a second adjusting column is provided with a second adjusting column hole, a first pressing needle triangle is provided with a first pressing needle triangle non-through hole, and a second pressing needle triangle is provided with a second pressing needle triangle non-through hole and a second pressing needle triangle rear portion. A needle drum device is of a structure that a needle selection instrument is provided with a needle selection cutter head and a shaft, and a third knitting needle is provided with a needle tail and a needle heel. An embedded sheet is tightly matched with a needle drum body, a needle groove is formed by the embedded sheet and the needle drum body, a jacquard needle and a third knitting needle are arranged on the needle groove of a needle drum, the needle selection device is arranged on a lower triangle seat, the needle selection cutter head corresponds to the needle selection heel of the jacquard needle, and a jacquard triangle is arranged on a table board and corresponds to the lower needle heel of the jacquard needle. The computer circular knitting machine shortens the height of the needle drum, can reduce production cost, fastens operation speed of the knitting needle, and improves product quality.

Description

Computer knitted circular knitting machine with segmentation pressing and embedded jacquard structure

Technical field:

The utility model relates to the Circular Knitted Technology field, more specifically to the computer knitted circular knitting machine with segmentation pressing and embedded jacquard structure.

Background technology:

The double knitting jacqard large circle machine adopts computer program to carry out knitting needle and selects to weave, do not weave and tuck, arranged dividing of two stations (lopping and flotation line, lopping and tuck) and three stations (one road simultaneously braiding, tuck and flotation line), be used for weaving the knit fabric of producing large-scale decorative pattern, and can the yarn changing color; General computer jacquard circular machine density in upper needle knitting system adopts the single hop pressing to regulate, that is to say in the system for weaving of every road, it is adjustable only having a depressing cam, and at syringe the combination pin is set, comprise: knitting needle, connect pin and knitting needle, because knitting needle, longer when connecing pin and knitting needle and being stitched together, participate in braiding therefore can in the syringe needle tray, move for ease of three sections pins, the height of circular knitting machine syringe will be increased, three sections pins are also longer in syringe needle tray run duration, this kind type seems, and speed is slow and production efficiency is low, needs a kind of new type to substitute.

Application number: 201010543925.2, publication number CN101984168A discloses a kind of full-automatic numerical control controlled multifunctional electronic yarn-changing jacquard double-back-side round weft knitting machine, and its weak point is:

1, its combined triangular mechanism generally comprises corner block and Triangulum.Corner block is fixed on the Triangulum, and corner block can not pass in and out automatically, changes the track of knitting needle.When needing to change, the operator at first stops knitting circular knitting machine work, then pulls down cam mechanism, changes corner block, thus so that the trail change of knitting needle.Like this, a knitting circular knit machine can only have single knitting needle track when work.Knitting needle track of every variation all needs the manual corner block of changing, operation inconvenience.And a large amount of hand labours, so that production efficiency is low.

2, the density control strip of its density control device is fixed on the knitting seat, and the control of knitting density is finished by this fixing density control strip.Its weak point is: it in the course of the work can't the conversion knitting density, after needing to shut down, changes the density that the density control strip could change knitting circular knit machine, and operating efficiency is also very low.

3, the length of the knitting needle of its needle selecting device is longer, so that the syringe height is higher, the one, increased equipment cost, the 2nd, when work, because knitting needle is longer, so that needle selecting device can't work fast, when cam mechanism moves when very fast, long knitting needle is so that knitting needle drives the reliability variation of knitting needle, so unsuitable very fast.

The utility model content:

The purpose of this utility model is to overcome the deficiencies in the prior art, and the computer knitted circular knitting machine with segmentation pressing and embedded jacquard structure is provided, and it has shortened the height of syringe, can reduce production costs, and accelerates the knitting needle speed of service and improves the quality of products.

The scheme that the utility model solve the technical problem is:

Computer knitted circular knitting machine with segmentation pressing and embedded jacquard structure, comprise Triangulum, empiecement, syringe body and knitting needle, the structure of upper triangle Auto-regulating System of Density of Heavy Medium mechanism is, upper Triangulum offers not through hole the second screw, second through hole not of T-shaped groove and the first screw, first, T-shaped groove has tail end, and the first adjustable column has the first adjustable column hole; The second adjustable column has the second adjustable column hole, and the first depressing cam has not through hole of the first depressing cam, and the second depressing cam has the second depressing cam not through hole and the second depressing cam rear portion;

The first knitting needle and the second knitting needle have respectively the heel of the first pin and the heel of the second pin; The second depressing cam is arranged at T-shaped groove, and through hole, other end active force be not in the afterbody of T-shaped groove in the second depressing cam of the second depressing cam for the 4th spring one end active force, and the first adjustable column is arranged on the Triangulum hole; The first spring is arranged in the first adjustable column hole of the first adjustable column, and the first adjustment screw passes the first spring and adjustable column is combined with upper Triangulum screw, and the inclined-plane of offering on the head of the first adjustment screw and the second depressing cam pushes up pressure mutually; The first depressing cam is arranged in the T-shaped groove, the first depressing cam that the 3rd spring one end is arranged at the first depressing cam is through hole not, the other end contacts with the second depressing cam rear portion of the second depressing cam, on the second adjustable column sleeve in the Triangulum hole, the second spring sleeve is in the second adjustable column hole of the second adjustable column, the second adjustment screw is passed the second spring the second adjustable column and is combined with upper Triangulum screw, and the inclined-plane of offering on the head of the second adjustment screw and the first depressing cam pushes up pressure mutually; The first knitting needle, the second knitting needle are respectively along the orbital motion on the second depressing cam and the first depressing cam;

The structure of needle cylinder device is, knitting needle has lower pin heel, needle selection heel, top butt, breach, protruding part position, and slide cam selector has needle selection cutter head and axle, and the 3rd knitting needle has backshank and pin heel; Empiecement and syringe body close-fitting, empiecement and syringe body consist of needle tray, and knitting needle and the 3rd knitting needle are arranged at the syringe needle tray, slide cam selector is arranged on the trigonid, and the needle selection cutter head is corresponding with the needle selection heel of knitting needle, and accordion cam is arranged on the table top, and corresponding with the lower pin heel of knitting needle.

Outstanding effect of the present utility model is: 1, its needle cylinder device only adopts knitting needle and knitting needle, has saved the pin that connects of the prior art, and it can increase loom speed like this, thereby improves production of woven fabric.

2, connect pin owing to having saved, the height of syringe can be done smallerly like this, thereby has saved the device fabrication cost.

3, its upper triangle density regulating apparatus can be regulated knitting needle density easily, thereby increases the designs and varieties of fabric.

Description of drawings:

The structural representation of Triangulum density regulating apparatus on Fig. 1 the utility model

Fig. 2 is the structural representation of the utility model needle cylinder device

Fig. 3 is the adjusting schematic diagram of upper Triangulum density regulating apparatus

Fig. 4 is the schematic diagram that takes the needle of upper Triangulum density regulating apparatus

Fig. 5 is needle cylinder device off working state figure

Fig. 6 is the needle cylinder device working state figure

Fig. 7 is upper triangle density regulating apparatus and the installation site schematic diagram of needle cylinder device on computer knitted circular knitting machine

The specific embodiment:

Embodiment, see shown in Fig. 1 to 7, computer knitted circular knitting machine with segmentation pressing and embedded jacquard structure, comprise Triangulum 1, empiecement 20, syringe body 21 and knitting needle 22, the structure of the upper triangle Auto-regulating System of Density of Heavy Medium A of mechanism is, upper Triangulum 1 offers not through hole 1C, the second screw 1E, second through hole 1D not of T-shaped groove 1A and the first screw 1B, first, and T-shaped groove 1A has tail end 1A1, and the first adjustable column 2 has the first adjustable column hole 2A; The second adjustable column 7 has the second adjustable column hole 7A, and the first depressing cam 8 has not through hole 8A of the first depressing cam, and the second depressing cam 12 has the second depressing cam not through hole 12A and the second depressing cam rear portion 12B;

The first knitting needle 10 and the second knitting needle 11 have respectively the first pin heel 10A and the second pin heel 11A; The second depressing cam 12 is arranged among the T-shaped groove 1A, and through hole 12A, other end active force be not in the afterbody 1A1 of T-shaped groove 1A in the second depressing cam of the second depressing cam 12 for the 4th spring 13 1 end active forces, and the first adjustable column 2 is arranged on the 1C of Triangulum hole; The first spring 3 is arranged among the first adjustable column hole 2A of the first adjustable column 2, and the first adjustment screw 4 passes the first spring 3 and adjustable column 2 is combined with upper Triangulum screw 1B, and the inclined-plane of offering on the head of the first adjustment screw 4 and the second depressing cam 12 pushes up pressure mutually; The first depressing cam 8 is arranged among the T-shaped groove 1A, the first depressing cam that the 3rd spring 9 one ends are arranged at the first depressing cam 8 is through hole 8A not, the other end contacts with the second depressing cam rear portion 12B of the second depressing cam 12, on the second adjustable column 7 sleeves among the 1D of Triangulum hole, the second bullet 6 sleeves are at the second adjustable column hole 7A of the second adjustable column 7, the second adjustment screw 5 passes the second spring 6 and the second adjustable column 7 is combined with upper Triangulum screw 1E, and the inclined-plane of offering on the head of the second adjustment screw 5 and the first depressing cam 8 pushes up pressure mutually; The first knitting needle 10, the second knitting needle 11 are respectively along the orbital motion on the second depressing cam 12 and the first depressing cam 8;

The structure of needle cylinder device B is, knitting needle 22 has lower pin heel 22A, needle selection heel 22B, top butt 22C, breach 22D, protruding part position 22E, and slide cam selector 24 has needle selection cutter head 24A and axle 24B, and the 3rd knitting needle 25 has backshank 25A and pin heel 25B; Empiecement 20 and syringe body 21 close-fittings, empiecement 20 consists of needle tray with syringe body 21, knitting needle 22 and the 3rd knitting needle 25 are arranged at the syringe needle tray, slide cam selector is arranged on the trigonid, and needle selection cutter head 24A is corresponding with the needle selection heel 22B of knitting needle 22, accordion cam 23 is arranged on the table top, and corresponding with the lower pin heel 22A of knitting needle 22.

Operation principle: as shown in Figure 3, the 4th spring 13 is arranged at not between the through hole of the afterbody 1A1 of T-shaped groove 1A and the second depressing cam 12, and the 3rd spring 9 is arranged at 12B position and not between the through hole of the first depressing cam 8 of the second depressing cam 12; The first adjustment screw 4 is through the first spring 3, inclined-plane, back with the second depressing cam 12 behind the screw of the first adjustable column 2 and upper Triangulum 1 pushes up pressure mutually, when the first adjustment screw 4 when arrow Q direction is rotated as shown, also move towards the S direction simultaneously, the head of the first adjustment screw 4 moves along the inclined-plane, back of the second depressing cam 12, promote the second depressing cam 12 towards the motion of diagram arrow O direction, the density of the second depressing cam 12 is deepened, the first spring 3 and the 4th spring 13 are compressed, when the first adjustment screw 4 when arrow R direction is rotated as shown, also move towards the T direction simultaneously, the head of the first adjustment screw 4 retreats along the inclined-plane, back of the second depressing cam 12, the second depressing cam 12 is under the bounce pressure effect of the 4th spring 13, towards the motion of diagram arrow P direction, the density of the second depressing cam 12 reduces, and the first spring 3 and the 4th spring 13 discharge; The second adjustment screw 5 is through the second spring 6, inclined-plane, back with the first depressing cam 8 behind another screw of the second adjustable column 7 and upper Triangulum 1 pushes up pressure mutually, when the second adjustment screw 5 when arrow U direction is rotated as shown, also move towards the S direction simultaneously, the head of the second adjustment screw 5 moves along the inclined-plane, back of the first depressing cam 8, promote the first depressing cam 8 towards the motion of diagram arrow O direction, the density of the first depressing cam 8 is deepened, the second spring 6 and the 3rd spring 9 are compressed, when the second adjustment screw 5 when arrow V direction is rotated as shown, also move towards the T direction simultaneously, the head of the second adjustment screw 5 retreats along the inclined-plane, back of the first depressing cam 8, the first depressing cam 8 is under the bounce pressure effect of the 3rd spring 9, towards the motion of diagram arrow P direction, the density of the first depressing cam 8 reduces, and the second spring 6 and the 3rd spring 9 discharge.

As shown in Figure 4, the first depressing cam 8, the second depressing cam 12, the 3rd spring 9 and the 4th spring 13 are arranged among the T-shaped groove 1A of Triangulum 1, but press with the second adjustment screw 5 and the first adjustment screw 4 top respectively on the inclined-plane, back of the first depressing cam 8 and the second depressing cam 12 and along the density of T-shaped groove radiai adjustment depressing cam.In the present embodiment, the first pin of the first knitting needle 10 and the second knitting needle 11 heel 10A, the second pin heel 11A are in the diverse location of knitting needle main body, therefore in T-shaped groove two depressing cams can be set simultaneously, make different knitting needles along different triangle orbital motions.When the second knitting needle 11 is in diagram P1, the second knitting needle 11 is under the effect of a stitch cam and moves back the circle highest order, then the second knitting needle 11 is in P1 and P2 position under the effect of triangle, be in the states such as pad yarn and kinking, then the pin of the second knitting needle 11 heel 11A is in the needle pressing density deepest point along the orbital motion of the first depressing cam 8 when arriving the P4 position again; When the first knitting needle 10 is in the Q1 position, the first knitting needle 10 is positioned under the effect of another stitch cam and moves back the circle peak, the first knitting needle 10 is in Q2 and Q3 position under the triangle effect subsequently, be in the states such as pad yarn and kinking, then the pin of the first knitting needle 10 heel 10A is in the needle pressing density deepest point along the orbital motion of the second depressing cam 12 when arriving the Q4 position again.

As shown in Figure 5, knitting needle 22 and the 3rd knitting needle 25 are arranged in the needle tray that empiecement 20 and syringe body 21 form, slide cam selector 24 comprises needle selection cutter head 24A and axle 24B, needle selection cutter head 24A can rotate along axle 24B, and the lower pin heel 22B of knitting needle 22 moves along accordion cam 23, when arriving the needle selection position, slide cam selector 24 is needle selection not, the breach 22D of knitting needle 22 does not promote the 3rd knitting needle 25 and rises, and when the 3rd knitting needle 25 during through S1, S2, S3, S4, S5, the 3rd knitting needle 25 is not participated in braiding.

As shown in Figure 6, knitting needle 22 and the 3rd knitting needle 25 are arranged in the needle tray that empiecement 20 and syringe body 21 form, and slide cam selector 24 comprises needle selection cutter head 24A and axle 24B, and needle selection cutter head 24A can rotate along axle 24B; Knitting needle 22 and the 3rd knitting needle 25 move with syringe, and the lower pin heel 22B of knitting needle 22 is along the orbital motion of accordion cam 23, when knitting needle 22 is in the needle selection position, slide cam selector 24 needle selections, needle selection cutter head 24A rotates around axle 24B, the needle selection heel 22B of knitting needle 22 is along rising on the inclined-plane of needle selection cutter head 24A, the breach 22D of knitting needle 22 also promotes the afterbody motion of the 3rd knitting needle 25 simultaneously, then the pin of the 3rd knitting needle 25 heel 25B enters triangle rising track, suppose that the 3rd knitting needle 25 grips the coil of haveing been friends in the past in this uphill process, when the 3rd knitting needle 25 arrives R2 from the R1 position, be in tuck position, old coil 30 is positioned on the needle latch of the 3rd knitting needle 25, when being in subsequently the R3 position, old coil 30 slips over needle latch and is on the ranine crown of pin, the 3rd knitting needle 25 is positioned at and moves back the circle highest point, then the 3rd knitting needle 25 arrives the R4 position, new yarn 31 pad yarns, old coil 30 moves along the back side of needle latch and needle latch is closed gradually, again then when the 3rd knitting needle 25 is in R5, the knocking over of old coil 30, new yarn 31 lopping and be in the pressing deepest point.

Claims (1)

1. the computer knitted circular knitting machine that has segmentation pressing and embedded jacquard structure, comprise Triangulum (1), empiecement (20), syringe body (21) and knitting needle (22), it is characterized in that: the structure of upper triangle Auto-regulating System of Density of Heavy Medium mechanism (A) is, upper Triangulum (1) offers not through hole (1C), the second screw (1E), second through hole (1D) not of T-shaped groove (1A) and the first screw (1B), first, T-shaped groove (1A) has tail end (1A1), and the first adjustable column (2) has the first adjustable column hole (2A); The second adjustable column (7) has the second adjustable column hole (7A), and the first depressing cam (8) has not through hole (8A) of the first depressing cam, and the second depressing cam (12) has the second depressing cam not through hole (12A) and the second depressing cam rear portion (12B);

The first knitting needle (10) and the second knitting needle (11) have respectively the first pin heel (10A) and the second pin heel (11A); The second depressing cam (12) is arranged in the T-shaped groove (1A), through hole (12A), other end active force be not in the afterbody (1A1) of T-shaped groove (1A) in the second depressing cam of the second depressing cam (12) for the 4th spring (13) one end active forces, and the first adjustable column (2) is arranged on the Triangulum hole (1C); The first spring (3) is arranged in the first adjustable column hole (2A) of the first adjustable column (2), the first adjustment screw (4) is passed the first spring (3) and adjustable column (2) and upper Triangulum screw (1B) combination, and the inclined-plane of offering on the head of the first adjustment screw (4) and the second depressing cam (12) pushes up pressure mutually; The first depressing cam (8) is arranged in the T-shaped groove (1A), the first depressing cam that the 3rd spring (9) one ends are arranged at the first depressing cam (8) is through hole (8A) not, the other end contacts Triangulum hole (1D) on the second adjustable column (7) sleeve with the second depressing cam rear portion (12B) of the second depressing cam (12)

In, the second spring (6) sleeve is in the second adjustable column hole (7A) of the second adjustable column (7), the second adjustment screw (5) is passed the second spring (6) and the second adjustable column (7) and upper Triangulum screw (1E) combination, and the inclined-plane of offering on the head of the second adjustment screw (5) and the first depressing cam (8) pushes up pressure mutually; The first knitting needle (10), the second knitting needle (11) are respectively along the orbital motion on the second depressing cam (12) and the first depressing cam (8);

The structure of needle cylinder device (B) is, knitting needle (22) has lower pin heel (22A), needle selection heel (22B), top butt (22C), breach (22D), protruding part position (22E), slide cam selector (24) has needle selection cutter head (24A) and axle (24B), and the 3rd knitting needle (25) has backshank (25A) and pin heel (25B); Empiecement (20) and syringe body (21) close-fitting, empiecement (20) consists of needle tray with syringe body (21), knitting needle (22) is arranged at the syringe needle tray with the 3rd knitting needle (25), slide cam selector is arranged on the trigonid, and needle selection cutter head (24A) is corresponding with the needle selection heel (22B) of knitting needle (22), accordion cam (23) is arranged on the table top, and corresponding with the lower pin heel (22A) of knitting needle (22).

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