CN104018289A

CN104018289A - Dual-system knitting glove machine

Info

Publication number: CN104018289A
Application number: CN201410238002.4A
Authority: CN
Inventors: 陈百祥; 冯建明
Original assignee: Zhejiang Bai Xiang Science And Technology Ltd
Current assignee: Zhejiang Baixiang Technology Co.,Ltd.
Priority date: 2014-05-29
Filing date: 2014-05-29
Publication date: 2014-09-03
Anticipated expiration: 2034-05-29
Also published as: CN104018289B

Abstract

The invention discloses a dual-system knitting glove machine. The dual-system knitting glove machine comprises a glove machine frame, and a left wall plate, a right wall plate and a back wall plate mounted on the frame, a mechanical transmission device mounted on the back wall plate, sharp corner wall plate devices mounted on the left wall plate and the right wall plate, needle beds mounted on sharp corner wall plates, a control cabinet provided with a control unit, and the like; triangular baseplate devices, machine heads and yarn conversion devices are mounted on the needle beds, wherein the triangular baseplate devices are mounted on the needle beds through the machine heads, and comprise front triangular baseplates and back triangular baseplates; and three corners of each of the front triangular baseplates and the back triangular baseplates form primary knitting systems and secondary knitting systems. The dual-system knitting glove machine has a dual-system knitting function, can knit yarns with five different color compositions besides rubber bands, has a compact overall structure, and can increase the yield by 50% compared with a general single-system glove machine; and knitted gloves have prominently reinforced tiger-mouth parts, and are deeply welcomed by the market.

Description

A kind of dual system glove knitting machine

Technical field

The invention discloses a kind of dual system glove knitting machine, belong to glove knitting machine field.

Background technology

Along with the fast development of glove knitting machine industry, the competition in market is more and more fierce, just says in recent years, and on the one hand, the glove knitting machine on market is all to take common single system for weaving type as main, and the development of gloves machine was staying cool in recent years always.On the other hand, in recent years, workman's wage level improves constantly, and the price of finished product gloves is because the keen competition between each producer is in continuous decline, and Zhe Jiugei manufacturer has caused no small pressure.Moreover, along with the change of people's values and aesthetic conceptions, the requirement of the aesthetic property of gloves and strong degree aspect is all being improved.

In view of this, the inventor studies this, for overcoming the problems referred to above, develops specially a kind of dual system glove knitting machine, and this case produces thus.

Summary of the invention

The object of this invention is to provide a kind of dual system glove knitting machine, there is the output of dual system braiding function, comparable common single system glove knitting machine increase by 50%, and compact integral structure, easy to operate.

To achieve these goals, solution of the present invention is:

A kind of dual system glove knitting machine, comprise glove knitting machine frame, rack-mounted left wallboard, right wallboard and rear wall plate, be arranged on the mechanical driving device on rear wall plate, be arranged on the wedge angle wall plate device on left wallboard, right wallboard, be arranged on the needle-bar on wedge angle wallboard, and switch board of control module etc. is installed, on described needle-bar, Cam plate section apparatus is installed, head and yarn conversion equipment, wherein, described Cam plate section apparatus is arranged on needle-bar by head, Cam plate section apparatus comprises front triangle base plate and Vee formation base plate, gear pin triangle is installed on described front triangle base plate, the first density triangular, the second density triangular, front main stitch cam, front main gap bridge triangle, elastic depressing cam, block pin triangle, front secondary stitch cam, front secondary gap bridge triangle, sealing triangle, the first guide triangular, the second guide triangular, the first rise cam, the second rise cam, the first elastic triangle, on described Vee formation base plate, triple density triangle is installed, the 4th density triangular, the 3rd guide triangular, the 4th guide triangular, the 3rd rise cam, fourth pin triangle, the second elastic triangle, the first rear secondary stitch cam, the second rear secondary stitch cam, the first rear secondary bridge triangle, the second rear secondary bridge triangle, depressing cam, flat shelves triangle, guide triangular in the middle of first, guide triangular in the middle of second, wherein, described 4 density triangulars are slidably installed in cam base plate, described 4 rise cams, 2 elastic triangles, the movable embedding of sealing triangle is arranged in cam base plate, all the other triangles are fixedly mounted in cam base plate, above-mentioned each triangle forms respectively main system for weaving and secondary system for weaving.

Above-mentioned main system for weaving further comprises the main system for weaving of front triangle base plate and the main system for weaving of Vee formation base plate, secondary system for weaving further comprises the secondary system for weaving of front triangle base plate and the secondary system for weaving of Vee formation base plate, wherein, the main system for weaving of front triangle base plate mainly by gear pin triangle, the first density triangular, front main stitch cam, front main gap bridge triangle, elastic depressing cam, block pin triangle, sealing triangle, the first guide triangular, first withdrawal of needle trigonometric sum the first elastic triangle and form; The secondary system for weaving of described front triangle base plate is mainly comprised of the second density triangular, front secondary stitch cam, front secondary gap bridge triangle, the second guide triangular and the second rise cam; The main system for weaving of described Vee formation base plate is mainly comprised of guide triangular, the 3rd guide triangular, the 3rd rise cam, the second elastic triangle in the middle of triple density triangle, the first rear stitch cam, the first rear gap bridge triangle, elastic depressing cam, first; The secondary system for weaving of Vee formation base plate is mainly comprised of guide triangular, the 4th guide triangular and fourth pin triangle in the middle of the 4th density triangular, the second rear stitch cam, the second rear secondary gap bridge triangle, second.In cam base plate, front-rear triangular system all has main system for weaving and secondary system for weaving to form, and becomes dual system braiding during braiding.

Above-mentioned Cam plate section apparatus further comprises that 2 are drawn high device, be respectively used to control the secondary system for weaving on front triangle base plate and Vee formation base plate, the described device that draws high comprises rise cam handle, draw high controll block, draw high control block, electromagnet arm-tie and draw high electromagnet, described rise cam handle upper end is provided with a dead eye, be used for installing rolling bearing, drawing high control block is arranged on above head, draw high and in control block, be provided with an elongated slot, for installing, draw high controll block, drawing high controll block can slide in drawing high the elongated slot of control block, draw high controll block by electromagnet arm-tie with draw high electromagnet and be connected, rolling bearing on rise cam handle leans against and draws high in controll block, rise cam handle lengthens and reaches head outside, by drawing high the suction of electromagnet, put to control secondary system for weaving rise cam and move, by drawing high device, control secondary system for weaving and whether weave.

Described yarn conversion equipment comprises the bullet seat being installed on head and is loaded on the shuttle frame on wedge angle wall plate device, on described bullet seat, be provided with four bullet holes, in each bullet hole, 1 bullet is all installed, bullet is equipped with spring in hole, bullet can be in bullet hole stretching motion; Described shuttle frame comprises front shuttle frame and rear shuttle frame, shuttle frame is placed on the one hand for the shuttle base of sandspit is installed, can be used as guide rail on the other hand, by the bullet on bullet seat, drive shuttle base to move on the shuttle bar of shuttle frame, namely drive sandspit to weave.

Described front shuttle sets up and is equipped with upper and lower two shuttle bars, and upper and lower two shuttle bars left and right is provided with shuttle base, shuttle base control block, on described shuttle base, yarn mouth is housed, and above shuttle base control block, driving lever is housed; Described rear shuttle frame is also provided with upper and lower two shuttle bars, wherein, upper shuttle bar one side (left side) is provided with elastic shuttle control block and elastic shuttle base, on described elastic shuttle base, rubber band yarn mouth is installed, the opposite side (right side) that lower shuttle bar is relative with elastic shuttle control block is provided with hot melt shuttle control block and hot melt shuttle base, and described hot melt shuttle floor installation has hot melt sandspit.

On the left side of described front shuttle frame, shuttle bar is provided with the first electromagnet, lower shuttle bar is provided with a controll block, on the bar of shuttle up and down on right side, be respectively equipped with the second electromagnet and the 3rd electromagnet, described controll block is arranged in the shuttle base control block of lower left, by arm-tie, be connected with the first electromagnet, can put to control by the suction of electromagnet the rotation of controll block, thereby control the open and close of driving lever, by controlling band that the driving lever above control block at the bottom of upper and lower shuttle seat moves to control bullet above bullet seat and putting, make bullet drive shuttle base to weave or stop braiding.By controll block, can realize the open and close that only just can control two driving levers in left side with an electromagnet, save cost, convenient in the time of can making again yarn conversion equipment change yarn, flexible.

As preferably, the front and back needle plate of described needle-bar is all provided with two cutter grooves in needle tray left and right, for yarn cutter is installed, so that the trimming requirement while adapting to multiple yarn braiding.

The operation principle of above-mentioned dual system glove knitting machine: glove knitting machine starts, and the transmission of motor driven gear, controls each work of electromagnet by control module; Accurate action by each cam, slide block, connecting rod etc. coordinates, and to drive head system to do left and right reciprocating motion, the reciprocating motion of head drives the side-to-side movement of head system to drive latch needles to weave.Distinguish in order little finger, the third finger, middle finger, forefinger, four fingers and palms, thumb, the five fingers palm, the rib collar of knitted glove.During braiding when head right-to-left moves, front needle-bar weaves, by the secondary system for weaving of front triangle base plate, first woven, by the main system for weaving of front triangle base plate, woven again, when head moves from left to right, by rear needle-bar, woven, by the main system for weaving of Vee formation base plate, first weave again and woven by the secondary system for weaving of Vee formation base plate, twice lopping of one stroke braiding; When secondary system for weaving rise cam is not worked, the system for weaving of dual system glove knitting machine can weave by single system, to be suitable for braiding fused yarns.

Dual system glove knitting machine of the present invention, not only there is dual system braiding function and can weave except elastic five kinds of different colours combinations yarn and compact integral structure, can increase than common single system glove knitting machine by 50% output, and gloves tiger's jaw out of braiding has obvious reinforcement, be received by the market.

Below in conjunction with drawings and the specific embodiments, the present invention is described in further detail.

Accompanying drawing explanation

Fig. 1 is dual system glove knitting machine structural representation in preferred embodiment of the present invention;

Fig. 2 A is front triangle base arrangement schematic diagram in preferred embodiment of the present invention;

Fig. 2 B is Vee formation base arrangement schematic diagram in preferred embodiment of the present invention;

Fig. 3 draws high apparatus structure schematic diagram in preferred embodiment of the present invention;

Fig. 4 is shuttle frame device structure schematic diagram in preferred embodiment of the present invention;

Fig. 5 is the preferred embodiment of the present invention headstock structural representation of being hit by a bullet;

Fig. 6 is controll block scheme of installation in preferred embodiment of the present invention;

Fig. 7 is controll block structural representation in preferred embodiment of the present invention;

Fig. 8 is needle plate floor map in preferred embodiment of the present invention;

Fig. 9 is part mechanical transmission component structural representation in preferred embodiment of the present invention;

Needle trajectory map (front triangle base plate) when Figure 10 is preferred embodiment dual system knitted gloves unit double system braiding of the present invention;

Needle trajectory map (Vee formation base plate) when Figure 11 is preferred embodiment dual system knitted gloves unit double system braiding of the present invention;

Needle trajectory map (front triangle base plate) when Figure 12 is preferred embodiment dual system glove knitting machine single system braiding of the present invention;

Needle trajectory map (Vee formation base plate) when Figure 13 is preferred embodiment dual system glove knitting machine single system braiding of the present invention.

The specific embodiment

As shown in Figure 1, a kind of dual system glove knitting machine, comprises glove knitting machine frame 1, is arranged on the left wallboard 2a in frame 1, right wallboard 2b and rear wall plate 2c, be arranged on the mechanical driving device on rear wall plate 2c, is arranged on left wallboard 2a, wedge angle wall plate device 6 on right wallboard 2b, is arranged on wedge angle wallboard 6 needle-bar 7, and switch board 8 of control module etc. is installed, and Cam plate section apparatus is installed on described needle-bar 7, head 4 and yarn conversion equipment, wherein, described Cam plate section apparatus is arranged on needle-bar 7 by head 4, and Cam plate section apparatus comprises front triangle base plate 10a and Vee formation base plate 10b, and gear pin triangle 11 is installed on described front triangle base plate 10a, the first density triangular 12a, the second density triangular 12b, front main stitch cam 13, front main gap bridge triangle 14, elastic depressing cam 15, block pin triangle 16, front secondary stitch cam 17, front secondary gap bridge triangle 18, sealing triangle 19, the first guide triangular 20a, the second guide triangular 20b, the first rise cam 21a, the second rise cam 21b, the first elastic triangle 22a, on described Vee formation base plate, triple density triangle 12c is installed, the 4th density triangular 12d, the 3rd guide triangular 20c, the 4th guide triangular 20d, the 3rd rise cam 21c, fourth pin triangle 21d, the second elastic triangle 22b, the first rear secondary stitch cam 23a, the second rear secondary stitch cam 23b, the first rear secondary bridge triangle 24a, the second rear secondary bridge triangle 24b, depressing cam 25, flat shelves triangle 26, guide triangular 27a in the middle of first, guide triangular 27b in the middle of second, wherein, described 4 density triangulars are slidably installed in cam base plate, described 4 rise cams, 2 elastic triangles, sealing triangle movable 19 embeds and is arranged in cam base plate, all the other triangles are fixedly mounted in cam base plate, above-mentioned each triangle forms respectively main system for weaving and secondary system for weaving.

As shown in Figure 2, above-mentioned main system for weaving further comprises the main system for weaving of front triangle base plate and the main system for weaving of Vee formation base plate, secondary system for weaving further comprises the secondary system for weaving of front triangle base plate and the secondary system for weaving of Vee formation base plate, wherein, the main system for weaving of front triangle base plate mainly by gear pin triangle 11, the first density triangular 12a, front main stitch cam 13, front main gap bridge triangle 14, elastic depressing cam 15, block pin triangle 16, sealing triangle 19, the first guide triangular 20a, the first rise cam 21a and the first elastic triangle 22a and form; The secondary system for weaving of described front triangle base plate is mainly comprised of the second density triangular 12b, front secondary stitch cam 17, front secondary gap bridge triangle 18, the second guide triangular 20b and the second rise cam 21b; The main system for weaving of described Vee formation base plate is mainly comprised of triple density triangle 12c, the first rear stitch cam 23a, the first rear gap bridge triangle 24a, elastic depressing cam the 25, first middle guide triangular 27a, the 3rd guide triangular 20c, the 3rd rise cam 21c, the second elastic triangle 22b; The secondary system for weaving of Vee formation base plate is mainly comprised of guide triangular 27b, the 4th guide triangular 20d and fourth pin triangle 21d in the middle of the 4th density triangular 12d, the second rear stitch cam 23b, the second rear secondary gap bridge triangle 24b, second.In cam base plate, front-rear triangular system all has main system for weaving and secondary system for weaving to form, and becomes dual system braiding during braiding.

Above-mentioned Cam plate section apparatus further comprises that 2 are drawn high device 9, be respectively used to control the secondary system for weaving on front triangle base plate 10a and Vee formation base plate 10b, it is that example is specifically described that the former cam base plate 10a of the present embodiment draws high device, as shown in Figure 3, the described device 9 that draws high comprises rise cam handle 91, draw high controll block 92, draw high control block 93, electromagnet arm-tie 94 and draw high electromagnet, described rise cam handle 91 upper ends are provided with a dead eye, be used for installing rolling bearing 95, drawing high control block 93 is arranged on above head 4, draw high and in control block 93, be provided with an elongated slot, for installing, draw high controll block 92, drawing high controll block 92 can slide in the elongated slot that draws high control block 93, draw high controll block 92 by electromagnet arm-tie 94 with draw high electromagnet and be connected, rolling bearing 95 on rise cam handle 91 leans against and draws high in controll block 92, rise cam handle 91 lengthens and reaches head 4 outsides, by drawing high the suction of electromagnet, put to control secondary system for weaving rise cam 21b and move, by drawing high device, control secondary system for weaving and whether weave.

Described yarn conversion equipment comprises the bullet seat 5 being installed on head and is loaded on the shuttle frame 3 on wedge angle wall plate device, on described bullet seat 5, be provided with four bullet holes, as shown in Figure 4,1 bullet is all installed in each bullet hole, be respectively the first bullet 51, the second bullet 52, triplet 53 and the 4th bullet 54, bullet is equipped with spring in hole, bullet can be in bullet hole stretching motion; Described shuttle frame comprises front shuttle frame and rear shuttle frame, shuttle frame is placed on the one hand for the shuttle base of sandspit is installed, can be used as guide rail on the other hand, by the bullet on bullet seat, drive shuttle base to move on the shuttle bar of shuttle frame, namely drive sandspit to weave.

As shown in Figure 5, described front shuttle sets up and is equipped with upper and lower two shuttle bars 42, upper and lower two shuttle bar 42 left and right sides are respectively arranged with the first shuttle base 31, the second shuttle base 32, the 3rd shuttle base 33, the 4th shuttle base 34, the first shuttle base control block 27, the second shuttle base control block 28, the 3rd shuttle base control block 29, the 4th shuttle base control block 30, on above-mentioned 4 shuttle bases, yarn mouth is all housed, above 4 shuttle base control blocks, correspondence is provided with the first driving lever 35 respectively, the second driving lever 36, the 3rd driving lever 37, the 4th driving lever 38, the first shuttle base 31, on the 3rd shuttle base 33 and the 4th shuttle base 34, correspondence is provided with the first electromagnet 39 respectively, the second electromagnet 40 and the 3rd electromagnet 41, one controll block 43 is installed below the upper left shuttle base 31 of described front shuttle frame, as shown in Fig. 6-7, controll block 43 is provided with the hole, axle position 431 and the connecting hole 432 that is connected arm-tie that connects shuttle base control block 28, controll block 43 is arranged in shuttle base control block 28 by axle position screw, by arm-tie, be connected with the first electromagnet 39, can put to control by the suction of the first electromagnet 39 rotation of controll block 43, on the first driving lever 35, have the first breach A1, on the second driving lever 36, have the second breach A2, the first control point B1 in controll block 43 and the second control point B2 can be respectively by with driving lever on the cooperation of the first breach A1 and the second breach A2 control the open and close of driving lever.When position, control point is on breach, now the bullet on bullet seat 5 51 drives shuttle base to weave, otherwise does not weave.By controll block 43, can realize the open and close that only just can control the first driving lever 35 and the second driving lever 36 with an electromagnet, save cost, convenient in the time of can making again yarn conversion equipment change yarn, flexible.

Glove knitting machine described in the present embodiment operation principle when changing yarn is as follows: before taking up one's knitting, upper left shuttle base 31 and upper right shuttle base 33 are parked in the left side, and when braiding starts, the first electromagnet 39, the second electromagnet 40 are not worked, the 3rd electromagnet 41 work.By the second bullet 44, triplet 45 on bullet seat 5, be with respectively upper right shuttle base 33 and upper left shuttle base 31 to weave.In braiding process, when the first electromagnet 39 work, the second electromagnet 40 is not worked, the 3rd electromagnet 41 is not worked, by the 4th bullet 46 on bullet seat 5 and the second bullet 44, be with respectively lower-left shuttle base 32 and upper right shuttle base 33 to weave, when the first electromagnet iron 39 is not worked, the second electromagnet 40 work, when the 3rd electromagnet 41 is not worked, by triplet 45 on bullet seat 5 and the first bullet 43, drive respectively upper left shuttle base 31 and bottom right shuttle base 34 to weave.When the first electromagnet 39 work, the second electromagnet 40 work, the 3rd electromagnet 41 is not worked, and by the 4th bullet 46 on bullet seat 5 and the first bullet 43, is with respectively lower-left shuttle base 32 and bottom right shuttle base 34 to weave.

Described rear shuttle frame is also provided with upper and lower two shuttle bars, wherein, the left side of upper shuttle bar is provided with elastic shuttle control block and elastic shuttle base, on described elastic shuttle base, rubber band yarn mouth is installed, the right side of lower shuttle bar is provided with hot melt shuttle control block and hot melt shuttle base, and described hot melt shuttle floor installation has hot melt sandspit.

As shown in Figure 8, the front and back needle plate 71 of described needle-bar 7 all needle tray 72 be each side provided with a cutter groove 73, for yarn cutter is installed, so that the trimming requirement while adapting to multiple yarn braiding.

As shown in Figure 9, on rear wall plate 2c, mechanical transmission component is housed, comprise gear drive and cam gear, gear drive mainly comprises pinion 101, gear wheel 102, short connecting rod 103, long connecting rod 104, the short slide block 106 of slim slide block 105, first and the second short slide block 107 etc., the movement travel of head 4 while weaving for controlling, the relative position of head 4 when cam gear weaves for controlling

The operation principle of above-mentioned dual system glove knitting machine: glove knitting machine starts, and the transmission of motor driven gear, controls each work of electromagnet by control module; Accurate action by each cam, slide block, connecting rod etc. coordinates, and to drive head system to do left and right reciprocating motion, the reciprocating motion of head 4 drives the side-to-side movement of head system to drive latch needles to weave.Distinguish in order little finger, the third finger, middle finger, forefinger, four fingers and palms, thumb, the five fingers palm, the rib collar of knitted glove.During braiding when 4 right-to-lefts whens motion of head, front needle-bar weaves, by the secondary system for weaving of front triangle base plate, first woven, by the main system for weaving of front triangle base plate, woven again, when head moves from left to right, by rear needle-bar, woven, by the main system for weaving of Vee formation base plate, first weave again and woven by the secondary system for weaving of Vee formation base plate, twice lopping of one stroke braiding, needle trajectory map when Figure 10-11 weave for dual system; When secondary system for weaving rise cam is not worked, the system for weaving of dual system glove knitting machine can weave by single system, to be suitable for braiding fused yarns, and needle trajectory map when Figure 12-13 weave for glove knitting machine single system.

Above-described embodiment and graphic and non-limiting product form of the present invention and style, suitable variation or modification that any person of an ordinary skill in the technical field does it, all should be considered as not departing from patent category of the present invention.

Claims

1. a dual system glove knitting machine, it is characterized in that: comprise glove knitting machine frame, rack-mounted left wallboard, right wallboard and rear wall plate, be arranged on the mechanical driving device on rear wall plate, be arranged on the wedge angle wall plate device on left wallboard, right wallboard, be arranged on the needle-bar on wedge angle wallboard, and the switch board that control module is installed, on described needle-bar, Cam plate section apparatus is installed, head and yarn conversion equipment, wherein, described Cam plate section apparatus is arranged on needle-bar by head, Cam plate section apparatus comprises front triangle base plate and Vee formation base plate, gear pin triangle is installed on described front triangle base plate, the first density triangular, the second density triangular, front main stitch cam, front main gap bridge triangle, elastic depressing cam, block pin triangle, front secondary stitch cam, front secondary gap bridge triangle, sealing triangle, the first guide triangular, the second guide triangular, the first rise cam, the second rise cam, the first elastic triangle, on described Vee formation base plate, triple density triangle is installed, the 4th density triangular, the 3rd guide triangular, the 4th guide triangular, the 3rd rise cam, fourth pin triangle, the second elastic triangle, the first rear secondary stitch cam, the second rear secondary stitch cam, the first rear secondary bridge triangle, the second rear secondary bridge triangle, depressing cam, flat shelves triangle, guide triangular in the middle of first, guide triangular in the middle of second, wherein, described 4 density triangulars are slidably installed in cam base plate, described 4 rise cams, 2 elastic triangles, the movable embedding of sealing triangle is arranged in cam base plate, all the other triangles are fixedly mounted in cam base plate, above-mentioned each triangle forms respectively main system for weaving and secondary system for weaving.

2. a kind of dual system glove knitting machine as claimed in claim 1, it is characterized in that: described main system for weaving further comprises the main system for weaving of front triangle base plate and the main system for weaving of Vee formation base plate, secondary system for weaving further comprises the secondary system for weaving of front triangle base plate and the secondary system for weaving of Vee formation base plate, wherein, the main system for weaving of front triangle base plate is mainly by gear pin triangle, the first density triangular, front main stitch cam, front main gap bridge triangle, elastic depressing cam, block pin triangle, sealing triangle, the first guide triangular, first withdrawal of needle trigonometric sum the first elastic triangle forms, the secondary system for weaving of described front triangle base plate is mainly comprised of the second density triangular, front secondary stitch cam, front secondary gap bridge triangle, the second guide triangular and the second rise cam, the main system for weaving of described Vee formation base plate is mainly comprised of guide triangular, the 3rd guide triangular, the 3rd rise cam, the second elastic triangle in the middle of triple density triangle, the first rear stitch cam, the first rear gap bridge triangle, elastic depressing cam, first, the secondary system for weaving of Vee formation base plate is mainly comprised of guide triangular, the 4th guide triangular and fourth pin triangle in the middle of the 4th density triangular, the second rear stitch cam, the second rear secondary gap bridge triangle, second, in cam base plate, front-rear triangular system all has main system for weaving and secondary system for weaving to form, and becomes dual system braiding during braiding.

3. a kind of dual system glove knitting machine as claimed in claim 1, it is characterized in that: described Cam plate section apparatus further comprises that 2 are drawn high device, be respectively used to control the secondary system for weaving on front triangle base plate and Vee formation base plate, the described device that draws high comprises rise cam handle, draw high controll block, draw high control block, electromagnet arm-tie and draw high electromagnet, described rise cam handle upper end is provided with a dead eye, be used for installing rolling bearing, drawing high control block is arranged on above head, draw high and in control block, be provided with an elongated slot, for installing, draw high controll block, drawing high controll block can slide in drawing high the elongated slot of control block, draw high controll block by electromagnet arm-tie with draw high electromagnet and be connected, rolling bearing on rise cam handle leans against and draws high in controll block, rise cam handle lengthens and reaches head outside, by drawing high the suction of electromagnet, put to control secondary system for weaving rise cam and move.

4. a kind of dual system glove knitting machine as claimed in claim 1, it is characterized in that: described yarn conversion equipment comprises the bullet seat being installed on head and is loaded on the shuttle frame on wedge angle wall plate device, on described bullet seat, be provided with four bullet holes, in each bullet hole, 1 bullet is all installed, bullet is equipped with spring in hole, bullet can be in bullet hole stretching motion; Described shuttle frame comprises front shuttle frame and rear shuttle frame.

5. a kind of dual system glove knitting machine as claimed in claim 1, it is characterized in that: described front shuttle sets up and is equipped with upper and lower two shuttle bars, upper and lower two shuttle bars left and right is provided with shuttle base, shuttle base control block, on described shuttle base, yarn mouth is housed, above shuttle base control block, driving lever is housed; Described rear shuttle frame is also provided with upper and lower two shuttle bars, wherein, upper shuttle bar one side is provided with elastic shuttle control block and elastic shuttle base, on described elastic shuttle base, rubber band yarn mouth is installed, the opposite side that lower shuttle bar is relative with elastic shuttle control block is provided with hot melt shuttle control block and hot melt shuttle base, and described hot melt shuttle floor installation has hot melt sandspit.

6. a kind of dual system glove knitting machine as claimed in claim 5, it is characterized in that: on the left side of described front shuttle frame, shuttle bar is provided with the first electromagnet, lower shuttle bar is provided with a controll block, on the bar of shuttle up and down on right side, be respectively equipped with the second electromagnet and the 3rd electromagnet, described controll block is arranged in the shuttle base control block of lower left, by arm-tie, be connected with the first electromagnet, can put to control by the suction of electromagnet the rotation of controll block, thereby control the open and close of driving lever.

7. a kind of dual system glove knitting machine as claimed in claim 1, is characterized in that: the front and back needle plate of described needle-bar is all provided with two cutter grooves in needle tray left and right, for yarn cutter is installed.