CN203782343U - Single-system computerized flat knitting machine with dual-system function - Google Patents

Abstract

The utility model relates to a single-system computerized flat knitting machine with a dual-system function. Presently, the single-system computerized flat knitting machine with low production cost, little abrasion and long service lifetime does not come into being. The single-system computerized flat knitting machine comprises a machine frame, a machine seat, a needle plate, a machine head, a large bar and a display screen. A bottom plate of the single-system computerized flat knitting machine comprises a bottom plate body, a needle-turning triangular plate, a central triangular plate and a driving mechanism. The single-system computerized flat knitting machine is characterized in that the driving mechanism comprises a driving motor, an upper output shaft, a lower output shaft, a cam, a needle-turning rapping rod, a gear and a sliding plate; the back side of the needle-turning triangular plate is provided with a needle-turning guiding column; the driving motor is secured to a bottom plate body; the cam is secured to the upper output shaft; the needle-turning rapping rod is arranged on the bottom plate body; the gear is secured to the lower output shaft; a left guiding groove and a right guiding groove are both of wavy structures; and the gear is engaged with a rack. The single-system computerized flat knitting machine with the dual-system function is advantaged by being reasonable in structural design, low in production cost, small in abrasion and long in service lifetime and is capable of simultaneously fulfilling knitting and mesh-hanging functions in the same industry.

Description

The single-system computerized flat knitting machine that possesses dual system function

Technical field

The utility model relates to a kind of single-system computerized flat knitting machine, especially relates to a kind of single-system computerized flat knitting machine that possesses dual system function, and the colleague who possesses dual system Computerized flat knitting machine hangs order function.

Background technology

Conventional dual system Computerized flat knitting machine possesses colleague and hangs object function, open day is on December 02nd, 2009, publication number is in the Chinese patent of CN201354397, a kind of dual-system knitting computerized flat knitting machine is disclosed, this dual-system knitting computerized flat knitting machine is realized and is hung order function by hanging order system, but the complex structure of dual system Computerized flat knitting machine, production cost is high, market bearing capacity is limited, and existing single-system computerized flat knitting machine does not conventionally possess colleague and hangs object function, do not possess in same a line and both can weave, can hang object function again.Although open day is on 03 27th, 2013, publication number is in the Chinese patent of CN202830386U, disclose a kind of colleague and hung object single-system computerized flat knitting machine base plate, but step down and hang order set square, the right side and step down and hang order set square, a left side and hang order set square and the right side and hang order set square and be movable in the left side in this single-system computerized flat knitting machine base plate, structure is comparatively complicated, production cost is higher, and fault rate is relatively high.Also do not have now a kind of simple in structure, reasonable in design, dependable performance, production cost is low, noiselessness in running weares and teares little, long service life can complete braiding simultaneously and hang the single-system computerized flat knitting machine that possesses dual system function of order function in same a line.

Utility model content

The purpose of this utility model is to overcome above shortcomings in prior art, and provide a kind of reasonable in design, production cost is low, noiselessness in running, wear and tear little, long service life can complete braiding simultaneously and hang the single-system computerized flat knitting machine that possesses dual system function of order function in same a line.

The technical scheme in the invention for solving the above technical problem is: this single-system computerized flat knitting machine that possesses dual system function comprises frame, support, needle plate, head, large thick stick and display screen, described support is fixed in frame, and described needle plate is fixed on support, described large thick stick is arranged on support, described head and display screen are installed in frame, and described head comprises single system flat knitting machine soleplate, and described single system flat knitting machine soleplate comprises base plate body, herringbone set square, turn over pin set square, left degree order set square, right degree order set square, homing triangle in left braiding, homing triangle in right braiding, left back-stitching cam plate, right back-stitching cam plate, left homing triangle, right homing triangle, a left side connects pin set square, the right side connects pin set square, center triangular plate, connect pin set square, homing triangle on left needle selection, homing triangle under right needle selection, middle homing triangle, left needle-raising triangle board, right needle-raising triangle board, left pin choosing set square, right pin choosing set square, lift pin set square and driving mechanism, described herringbone set square, turn over pin set square, left degree order set square, right degree order set square, homing triangle in left braiding, homing triangle in right braiding, left back-stitching cam plate and right back-stitching cam plate are installed in the top of base plate body, described left homing triangle, right homing triangle, a left side connects pin set square, the right side connects pin set square, center triangular plate, connect pin set square, homing triangle on left needle selection, under right needle selection, homing triangle and middle homing triangle are installed in the middle part of base plate body, described left needle-raising triangle board, right needle-raising triangle board, left pin choosing set square, right pin choosing set square and lift the bottom that pin set square is installed in base plate body, its design feature is: described driving mechanism comprises drive motors, upper output shaft, lower output shaft, cam, turn over pin and strike bar, gear and slide plate, the described back side of turning over pin set square is provided with turns over pin guide pillar, described drive motors is fixed on base plate body, described upper output shaft and lower output shaft are arranged on respectively top and the bottom of drive motors, described cam is fixed on output shaft, the described pin that turns over strikes bar and is arranged on base plate body, describedly turn over that pin strikes the lower end of bar and cam coordinates, this turns over, and pin strikes the upper end of bar and the pin guide pillar that turns over that turns on pin set square coordinates, described gear is fixed on lower output shaft, is provided with left gathering sill on described slide plate, right gathering sill and tooth bar, described left gathering sill and right gathering sill are wavy shaped configuration, and described left needle-raising triangle board and right needle-raising triangle board coordinate with left gathering sill and right gathering sill respectively, described gear and tooth bar engagement.Make thus reasonable in design of the present utility model, in running, noiselessness produces, and the wearing and tearing between parts are little, long service life, energy saving in running.

As preferably, the pin set square that connects in single system flat knitting machine soleplate described in the utility model comprises and connects pin triangle body, described connecing on pin triangle body is provided with installing hole, the described top that connects pin triangle body is provided with breach, the described left side that connects pin triangle body is provided with left tilted surface, this left tilted surface raises from left to right gradually, described in connect pin triangle body right side be provided with right tilted surface, this right tilted surface is turned left from the right side and is raise gradually; Described connecing is provided with on pin triangle body that needle tray is walked on a left side and needle tray is walked on the right side, upper end and breach that needle tray is walked on a described left side are communicated with, lower end and left tilted surface that needle tray is walked on this left side are communicated with, and upper end and breach that needle tray is walked on the described right side are communicated with, and lower end and right tilted surface that needle tray is walked on this right side are communicated with.Make thus to connect in the utility model the reasonable in design of pin set square, Computerized flat knitting machine is connecing pin and is hanging in order process, spring pin can facilitate, along left tilted surface, a left side, walk needle tray flexibly and breach takes the needle, or along right tilted surface, the right side, walk needle tray and breach takes the needle, guarantee knitting needle taking the needle on flat knitting machine soleplate, improved the overall performance of Computerized flat knitting machine.

As preferably, on center triangular plate in single system flat knitting machine soleplate described in the utility model, be provided with installing hole, this center triangular plate comprises central cam body, lower protruding block, left side projection and the right side projection that takes the needle that takes the needle, the described left side projection that takes the needle, lower protruding block and the right projection that takes the needle are all fixed on the bottom of central cam body, this left side projection that takes the needle, lower protruding block and the right side projection that takes the needle is arranged in order from left to right, the take the needle top of projection, a described left side is provided with plane and the left side inclined-plane that takes the needle that takes the needle, a left side, described left side left end and the left side on the inclined-plane plane that takes the needle that takes the needle is connected, the take the needle height on inclined-plane of this left side reduces from left to right successively, the take the needle top of projection, the described right side is provided with plane and the right side inclined-plane that takes the needle that takes the needle, the right side, described right side right-hand member and the right side on the inclined-plane plane that takes the needle that takes the needle is connected, the take the needle height on inclined-plane of this right side raises from left to right successively.Make thus the reasonable in design of the center triangular plate in the utility model, Computerized flat knitting machine is connecing pin and is hanging in order process, spring pin can facilitate, along the right side, take the needle flexibly inclined-plane and the right side take the needle, and plane takes the needle, or take the needle along a left side inclined-plane and the left side plane that takes the needle takes the needle, Computerized flat knitting machine is weaving and is turning in pin process, spring pin can be effectively takes the needle along the outline on central cam body top, effectively guarantee knitting needle taking the needle on flat knitting machine soleplate, improved the overall performance of Computerized flat knitting machine.

As preferably, on left needle-raising triangle board in single system flat knitting machine soleplate described in the utility model, be provided with left side guide pillar, left side pillar and the left side axle sleeve of pushing pin of pushing pin of pushing pin, push pin one end of guide pillar, a described left side is vertically fixed on left needle-raising triangle board, push pin one end of pillar, a described left side is vertically fixed on a left side and pushes pin on guide pillar, the described left side axle sleeve of pushing pin is sleeved on a left side and pushes pin on pillar, and this left side axle sleeve of pushing pin is arranged in left gathering sill.

As preferably, on right needle-raising triangle board in single system flat knitting machine soleplate described in the utility model, be provided with right side guide pillar, right side pillar and the right side axle sleeve of pushing pin of pushing pin of pushing pin, push pin one end of guide pillar, the described right side is vertically fixed on right needle-raising triangle board, push pin one end of pillar, the described right side is vertically fixed on the right side and pushes pin on guide pillar, the described right side axle sleeve of pushing pin is sleeved on the right side and pushes pin on pillar, and this right side axle sleeve of pushing pin is arranged in right gathering sill.

As preferably, single system flat knitting machine soleplate described in the utility model also comprises left degree order motor, left degree order cam, right degree order motor and right degree order cam, described left degree order motor and right degree order motor are installed in the back side of base plate body, described left degree order cam and right degree order cam are arranged on respectively on left degree order motor and right degree order motor, and this left degree order cam and right degree order cam coordinate with left degree order set square and right degree order set square respectively.

As preferably, the herringbone set square in single system flat knitting machine soleplate described in the utility model and the distance connecing between pin set square are 58.5-60.5mm, and the distance between described herringbone set square and left needle-raising triangle board is 120-122mm.

As preferably, the left side connecing in pin set square described in the utility model is walked between needle tray and left tilted surface as circular arc is excessive, and the described right side is walked between needle tray and right tilted surface as circular arc is excessive.

As preferably, left tilted surface and the right tilted surface connecing in pin set square described in the utility model is all positioned at the bottom that connects pin triangle body.

As preferably, the both sides of the central cam body in center triangular plate described in the utility model are ramp-like configuration, and the lower width of this central cam body is greater than upper width.

The utility model compared with prior art, has the following advantages and effect: be single-system computerized flat knitting machine, the colleague who possesses dual system Computerized flat knitting machine hangs order function.Left needle-raising triangle board in single system flat knitting machine soleplate, right needle-raising triangle board and turn over the fixed point that pin triangle adopts same drive motors can complete four positions and drive.Can select seven sections of needle selections, needle selection stitch in seven sections of needle selections and spring pin are two individualities, by slide cam selector, control needle selection stitch and single system flat knitting machine soleplate set square control promotion spring pin, thereby promote knitting needle, complete braiding, turn over pin, hang order, connect pin and the braiding functions such as hanging order of going together.

The reasonable in design of the utility model single system flat knitting machine soleplate, in running, noiselessness produces, and the wearing and tearing between parts are little, long service life, energy saving in running, is exclusively used in single-system computerized flat knitting machine, and the colleague who possesses dual system Computerized flat knitting machine hangs object function, in same a line, both can weave, can hang object function again, whole is simple in structure, dependable performance, production cost is low, and market prospects are wide.Between head and large thick stick, without fricative resistance, greatly reduce the energy consumption of head operation, improved the speed of service of head; Adopt drive motors to drive, noiselessness in service produces, and the noise of complete machine operation has been played to very large reducing effect.

Drive motors in the utility model drives upper output shaft rotation, then is rotated by upper output shaft band moving cam, finally by cam driven, turns over pin and strikes bar and move, and by turning over pin, strikes bar and drives and turn over pin set square and move; Drive motors drives lower output shaft rotation, by lower output shaft driven gear, rotated again, due to gear and tooth bar engagement, so moved by gear driven slide plate, finally by the left gathering sill on slide plate and right gathering sill, drive respectively left needle-raising triangle board and right needle-raising triangle board to move.

Driving mechanism in the utility model turns over pin set square, left needle-raising triangle board and right needle-raising triangle board for control and carries out activity, Computerized flat knitting machine is in running, can guarantee between head and large thick stick without fricative resistance, greatly reduce the energy consumption of head operation, improved the speed of service of head; Adopt drive motors to drive, noiselessness in service produces, and the noise of complete machine operation has been played to very large reducing effect.

The utility model has been simplified triangle, has reduced movable labyrinth, greatly reduces 10% production cost, has reduced by 50% fault rate.Left pin choosing set square and right pin choosing set square possess the function of pre-needle selection, have reduced the frequency of utilization of slide cam selector, have reduced the wearing and tearing of slide cam selector blade.Adopt drive motors to drive simultaneously and turn over pin set square, left needle-raising triangle board and right needle-raising triangle board, on output shaft on drive motors, be designed with cam, cam driven turns over pin and strikes bar and stir the guide pillar that turns over the pin set square back side, realizes and lifts up and down the function of turning over pin set square.Simultaneously, on the lower output shaft of drive motors, be designed with gear, on slide plate, be designed with tooth bar, gear horizontally slips with tooth bar engaged transmission, on slide plate, be designed with left gathering sill and right gathering sill, on the back side guide pillar of left needle-raising triangle board and right needle-raising triangle board, be designed with axle sleeve, axle sleeve slides in left gathering sill and right gathering sill, realizes so left needle-raising triangle board and right needle-raising triangle board slides up and down action.

Accompanying drawing explanation

Fig. 1 is the main TV structure schematic diagram that possesses the single system flat knitting machine soleplate of dual system function in the utility model embodiment.

Fig. 2 is the backsight structural representation of Fig. 1.

Fig. 3 is the plan structure schematic diagram of Fig. 2.

Fig. 4 is the structural representation of looking up of Fig. 2.

Fig. 5 is the left TV structure schematic diagram of Fig. 2.

Fig. 6 indicates the structural representation after bottom center point R in the herringbone set square in the utility model embodiment.

Fig. 7 is that connecing in the utility model embodiment indicates the structural representation after center of top point M in pin set square.

Fig. 8 indicates the structural representation after center of top point N in the left needle-raising triangle board in the utility model embodiment.

Fig. 9 is the main TV structure schematic diagram that connects pin set square in the utility model embodiment.

Figure 10 connects the perspective view of pin set square in the utility model embodiment.

Figure 11 is another perspective view that connects pin set square in the utility model embodiment.

Figure 12 is the main TV structure schematic diagram of the center triangular plate in the utility model embodiment.

Figure 13 is the perspective view of the center triangular plate in the utility model embodiment.

Figure 14 is the structural representation of driving mechanism in the utility model embodiment.

Figure 15 is that the cam in the utility model embodiment driving mechanism is marked with braiding position P, braiding position Q, turns over pin position H and turn over the structural representation after the G of pin position.

Figure 16 is that the slide plate in the utility model embodiment driving mechanism is marked with the structural representation after position a, position b, position c, position d, position e, position f, position g and position h.

Figure 17 is the structure for amplifying schematic diagram between left needle-raising triangle board and slide plate in the utility model embodiment.

Figure 18 is the structure for amplifying schematic diagram between right needle-raising triangle board and slide plate in the utility model embodiment.

Figure 19 is the schematic diagram that takes the needle of single system flat knitting machine soleplate bottom plate triangular, knitting needle, spring pin and the needle selection stitch in braiding process of the utility model embodiment.

Figure 20 is single system flat knitting machine soleplate bottom plate triangular, knitting needle, spring pin and the needle selection stitch in turning over pin process of the utility model embodiment schematic diagram that takes the needle.

Figure 21 is single system flat knitting machine soleplate bottom plate triangular, knitting needle, spring pin and the needle selection stitch in connecing pin process of the utility model embodiment schematic diagram that takes the needle.

Figure 22 is single system flat knitting machine soleplate bottom plate triangular, knitting needle, spring pin and the needle selection stitch in hanging order process of the utility model embodiment schematic diagram that takes the needle.

Figure 23 is the structural representation of knitting needle, spring pin and needle selection stitch used in Figure 19-22.

Figure 24 is the structure for amplifying schematic diagram of the utility model embodiment medi-spring stitch.

Figure 25 is the structural representation after the amplification of A place in Figure 24.

Figure 26 is the structural representation of the single system straight-bar machines pin of the needle selection stitch in the utility model embodiment while being one section.

Figure 27 is the structural representation of the single system straight-bar machines pin of the needle selection stitch in the utility model embodiment while being two sections.

Figure 28 is the structural representation of the single system straight-bar machines pin of the needle selection stitch in the utility model embodiment while being three sections.

Figure 29 is the structural representation of the single system straight-bar machines pin of the needle selection stitch in the utility model embodiment while being four sections.

Figure 30 is the structural representation of the single system straight-bar machines pin of the needle selection stitch in the utility model embodiment while being five sections.

Figure 31 is the structural representation of the single system straight-bar machines pin of the needle selection stitch in the utility model embodiment while being six sections.

Figure 32 is the structural representation of the single system straight-bar machines pin of the needle selection stitch in the utility model embodiment while being seven sections.

Figure 33 is the main TV structure schematic diagram that possesses the single-system computerized flat knitting machine of dual system function in the utility model embodiment.

Figure 34 is the right TV structure schematic diagram of Figure 33.

Figure 35 is the left TV structure schematic diagram of Figure 33.

Figure 36 is that Figure 35 removes the structural representation after part frame.

Figure 37 is knitting needle, spring pin, needle selection stitch, needle plate and the position view of single system flat knitting machine soleplate in single-system computerized flat knitting machine in the utility model embodiment.

The specific embodiment

Below in conjunction with accompanying drawing and by embodiment, the utility model is described in further detail, and following examples are to explanation of the present utility model and the utility model is not limited to following examples.

Embodiment.

Referring to Fig. 1 to Figure 37, the single-system computerized flat knitting machine that possesses dual system function in the present embodiment comprises frame 91, support 92, needle plate 93, head 94, large thick stick 95 and display screen 96, wherein, support 92 is generally pig iron support, support 92 is fixed in frame 91, needle plate 93 is fixed on support 92, each of front and back, and knitting needle 81, spring pin 82 and needle selection stitch 83 slide up and down in the needle tray of needle plate 93.Large thick stick 95 is arranged on support 92, head 94 and display screen 96 are installed in frame 91, head 94 comprises single system flat knitting machine soleplate 99, aluminium frame, overline bridge and nose cover, on aluminium frame, bearing is housed, large thick stick 95 is housed on support 92, bearing horizontally slips on large thick stick 95, and head 92 completes and horizontally slips.On main motor, synchronous pulley is housed, by Timing Belt, drives head 92 to horizontally slip.Display screen 96 is fixed on display/panel bracket, and it is upper that display/panel bracket is stuck in aluminium alloy slide plate (each up and down), can move to right in right amount, is convenient to threading.After left or right locking, be provided with door-hinge, can conveniently open the door, head 92 can skid off is convenient to keep in repair base plate.Woven workprint gets off before guide card plate.

The single system flat knitting machine soleplate 99 that possesses dual system function in the present embodiment comprises base plate body 1, herringbone set square 2, turn over pin set square 3, left degree order set square 4, right degree order set square 5, in left braiding, homing triangle 6, in right braiding, homing triangle 7, left back-stitching cam plate 8, right back-stitching cam plate 9, left homing triangle 10, right homing triangle 11, a left side connects pin set square 16, the right side connects pin set square 17, center triangular plate 20, connect pin set square 21, on left needle selection, homing triangle 22, under right needle selection, homing triangle 23, middle homing triangle 24, left needle-raising triangle board 25, right needle-raising triangle board 26, left pin choosing set square 27, right pin choosing set square 28, lift pin set square 29, driving mechanism, left degree order motor 36, left degree order cam 37, right degree order motor 38 and right degree order cam 39.

Herringbone set square 2 in the present embodiment, turn in pin set square 3, left degree order set square 4, right degree order set square 5, left braiding the top that homing triangle 7, left back-stitching cam plate 8 and right back-stitching cam plate 9 in homing triangle 6, right braiding are installed in base plate body 1, wherein, turning over pin set square 3, left degree order set square 4 and right degree order set square 5 is movable being arranged on base plate body 1, and in herringbone set square 2, left braiding, in homing triangle 6, right braiding, homing triangle 7, left back-stitching cam plate 8 and right back-stitching cam plate 9 are fixed being arranged on base plate body 1.In left braiding, homing triangle 6, left degree order set square 4, herringbone set square 2, in right degree order set square 5 and right braiding, homing triangle 7 is arranged in order from left to right, left back-stitching cam plate 8 be positioned at homing triangle 6 in left braiding under, in left back-stitching cam plate 8 and left braiding, between homing triangle 6, form a needle track taking the needle, right back-stitching cam plate 9 be positioned at homing triangle 7 in right braiding under, in right back-stitching cam plate 9 and right braiding, between homing triangle 7, also form a needle track taking the needle, turn over pin set square 3 be positioned at herringbone set square 2 under, turn over pin needle track turning between pin set square 3 and herringbone set square 2 to form.

Left homing triangle 10 in the present embodiment, right homing triangle 11, a left side connects pin set square 16, the right side connects pin set square 17, center triangular plate 20, connect pin set square 21, on left needle selection, homing triangle 22, under right needle selection, homing triangle 23 and middle homing triangle 24 are all fixedly mounted on the middle part of base plate body 1, a left side connects pin set square 16, center triangular plate 20 and the right side connect pin set square 17 and are arranged in order from left to right, and a left side connects pin set square 16, center triangular plate 20 and the right side connect the below that pin set square 17 is positioned at left homing triangle 10 and right homing triangle 11, a left side connects pin set square 16, between the integral body that center triangular plate 20 and the right integral body that connects that pin set square 17 forms and left homing triangle 10 and right homing triangle 11 form, form and weave needle track.Connect pin set square 21 be positioned at center triangular plate 20 under, connect between pin set square 21 and center triangular plate 20 to form and connect pin needle track.On left needle selection, under homing triangle 22, middle homing triangle 24 and right needle selection, homing triangle 23 is arranged in order from left to right, and on this left needle selection, under homing triangle 22, middle homing triangle 24 and right needle selection, homing triangle 23 is all positioned at the below that connects pin set square 21.

Left needle-raising triangle board 25 in the present embodiment, right needle-raising triangle board 26, left pin choosing set square 27, right pin choosing set square 28 and lift the bottom that pin set square 29 is installed in base plate body 1, wherein, left needle-raising triangle board 25 and right needle-raising triangle board 26 are movable to be arranged on base plate body 1, left pin choosing set square 27, right pin choosing set square 28 and lift that pin set square 29 is fixed to be arranged on base plate body 1.Left pin choosing set square 27, lift pin set square 29 and right pin choosing set square 28 is arranged in order from left to right, left needle-raising triangle board 25 be positioned at left pin choosing set square 27 directly over, right needle-raising triangle board 26 be positioned at right pin choosing set square 28 directly over.

Driving mechanism in the present embodiment comprises drive motors 75, upper output shaft 76, lower output shaft 77, cam 78, turn over pin strikes bar 79, gear 710 and slide plate 711.Turn over pin set square 3, left needle-raising triangle board 25 and right needle-raising triangle board 26 in the present embodiment are all movably arranged on base plate body 1, and making to turn over pin set square 3, left needle-raising triangle board 25 and right needle-raising triangle board 26 can move on base plate body 1.The back side of turning over pin set square 3 of the present embodiment is provided with turns over pin guide pillar 721.

Drive motors 75 in the present embodiment is fixed on base plate body 1, and upper output shaft 76 and lower output shaft 77 are arranged on respectively top and the bottom of drive motors 75, by drive motors 75, can drive upper output shaft 76 and lower output shaft 77 to rotate.Cam 78 in the present embodiment is fixed on output shaft 76, the rotation of upper output shaft 76 can drive cam 78 to rotate, turning over pin strikes bar 79 and is arranged on base plate body 1, turn over lower end and cam 78 cooperations that pin strikes bar 79, this turns over the upper end that pin strikes bar 79 and is positioned at the hole of turning over pin guide pillar 721 of turning on pin set square 3, turn over that pin strikes the upper end of bar 79 and the pin guide pillar 721 of turning over that turns on pin set square 3 coordinates, the rotation of cam 78 can be controlled and turn over the upper end that pin strikes bar 79 and fiddle with, thereby reach, controls the object of turning over 3 actions of pin set square.On cam 78 in the present embodiment, be provided with four positions, these four positions are respectively braiding position P, braiding position Q, turn over pin position H and turn over pin position G.

Gear 710 in the present embodiment is fixed on lower output shaft 77, and the rotation of lower output shaft 77 can be rotated by driven gear 710, is provided with left gathering sill 712, right gathering sill 713 and tooth bar 714 on slide plate 711, gear 710 and tooth bar 714 engagements.Left gathering sill 712 and right gathering sill 713 in the present embodiment are wavy shaped configuration, in left gathering sill 712, be provided with four positions, these four positions are respectively position a, position b, position c and position d, this position a, position b, position c and position d belong to braiding position or turn over pin position, in right gathering sill 713, be provided with four positions, these four positions are respectively position e, position f, position g and position h, and this position e, position f, position g and position h belong to braiding position or turn over pin position.

On left needle-raising triangle board 25 in the present embodiment, be provided with left side guide pillar 731, left side pillar 732 and the left side axle sleeve 733 of pushing pin of pushing pin of pushing pin, wherein, push pin one end of guide pillar 731, a left side is fixed on left needle-raising triangle board 25, push pin one end of pillar 732, a left side is fixed on a left side and pushes pin on guide pillar 731, the left side axle sleeve 733 of pushing pin is sleeved on a left side and pushes pin on pillar 732, this left side axle sleeve 733 of pushing pin is arranged in left gathering sill 712, and left needle-raising triangle board 25 and left gathering sill 712 coordinate.Generally, push pin one end of guide pillar 731, a left side is vertically fixed on left needle-raising triangle board 25, and push pin one end of pillar 732, a left side is vertically fixed on a left side and pushes pin on guide pillar 731.

On right needle-raising triangle board 26 in the present embodiment, be provided with right side guide pillar 741, right side pillar 742 and the right side axle sleeve 743 of pushing pin of pushing pin of pushing pin, wherein, push pin one end of guide pillar 741, the right side is fixed on right needle-raising triangle board 26, push pin one end of pillar 742, the right side is fixed on the right side and pushes pin on guide pillar 741, the right side axle sleeve 743 of pushing pin is sleeved on the right side and pushes pin on pillar 742, this right side axle sleeve 743 of pushing pin is arranged in right gathering sill 713, and right needle-raising triangle board 26 and right gathering sill 713 coordinate.Generally, push pin one end of guide pillar 741, the right side is vertically fixed on right needle-raising triangle board 26, and push pin one end of pillar 742, the right side is vertically fixed on the right side and pushes pin on guide pillar 741.

The pin set square 21 that connects in the present embodiment comprises and connects pin triangle body 51, is provided with installing hole 52 connecing on pin triangle body 51.The top that connects pin triangle body 51 in the present embodiment is provided with breach 57, and the left side that connects pin triangle body 51 is provided with left tilted surface 53, and this left tilted surface 53 raises from left to right gradually, and spring pin can be climbed to and connect on pin set square 21 along left tilted surface 53 very easily.The right side that connects pin triangle body 51 is provided with right tilted surface 54, and this right tilted surface 54 is turned left from the right side and raise gradually, and spring pin can be climbed to and connect on pin set square 21 along right tilted surface 54 very easily.

Connecing in the present embodiment is provided with on pin triangle body 51 that needle tray 55 is walked on a left side and needle tray 56 is walked on the right side, upper end and breach 57 that needle tray 55 is walked on a left side are communicated with, the lower end of needle tray 55 is walked on this left side and left tilted surface 53 is communicated with, and makes thus spring pin to facilitate, along left tilted surface 53, a left side, walks needle tray 55 flexibly and breach 57 takes the needle.The upper end of needle tray 56 is walked on the right side and breach 57 is communicated with, and lower end and right tilted surface 54 that needle tray 56 is walked on this right side are communicated with, and makes thus spring pin to facilitate, along right tilted surface, the right side, walks needle tray flexibly and breach takes the needle.

A left side in the present embodiment is walked can be excessive for circular arc between needle tray 55 and left tilted surface 53, and the right side is walked also can be excessive for circular arc between needle tray 56 and right tilted surface 54.Left tilted surface 53 and right tilted surface 54 all can be positioned at the bottom that connects pin triangle body 51, and a left side is walked needle tray 55 and the right side and walked needle tray 56 and be ramp-like configuration, walks needle tray 55 and the right side walk between needle tray 56 to form triangular structure on a left side, and installing hole 52 is located in triangular structure.

Center triangular plate 20 in the present embodiment comprises central cam body 61, lower protruding block 62, left side projection 63 and the right side projection 64 that takes the needle that takes the needle, wherein, take the needle projection 63, lower protruding block 62 and the right projection 64 that takes the needle of a left side is all fixed on the bottom of central cam body 61, and this left side projection 63, lower protruding block 62 and right side projection 64 that takes the needle that takes the needle is arranged in order from left to right.Center triangular plate 20 in the present embodiment is integral type structure, and central cam body 61 links into an integrated entity with left side projection 63, lower protruding block 62 and the right side projection 64 that takes the needle that takes the needle respectively.

The take the needle top of projection 63, a left side in the present embodiment is provided with plane 65 and the left side inclined-plane 66 that takes the needle that takes the needle, a left side, left side left end and the left side on inclined-plane 66 plane 65 that takes the needle that takes the needle is connected, the left end on the left inclined-plane 66 that takes the needle and the left side plane 65 that takes the needle is positioned at sustained height, the take the needle height on inclined-plane 66 of a left side in the present embodiment reduces from left to right successively, make Computerized flat knitting machine connect pin and hanging in order process, spring pin inclined-plane 66 and the left side plane 65 that takes the needle that can take the needle along a left side successively takes the needle.

The take the needle top of projection 64, the right side in the present embodiment is provided with plane 67 and the right side inclined-plane 68 that takes the needle that takes the needle, the right side, right side right-hand member and the right side on inclined-plane 68 plane 67 that takes the needle that takes the needle is connected, the right-hand member on the right inclined-plane 68 that takes the needle and the right side plane 67 that takes the needle is positioned at sustained height, the take the needle height on inclined-plane 68 of the right side in the present embodiment raises from left to right successively, make Computerized flat knitting machine connect pin and hanging in order process, spring pin inclined-plane 68 and the right side plane 67 that takes the needle that can take the needle along the right side successively takes the needle.

On the center triangular plate 20 of the present embodiment, be provided with installing hole 69, the both sides of central cam body 61 are ramp-like configuration, the lower width of this central cam body 61 is greater than upper width, the top of the central cam body 61 in the utility model is generally arc-shaped structure, make Computerized flat knitting machine in braiding and turn in pin process, spring pin can be effectively takes the needle along the outline on central cam body 61 tops.The left side that a left side in the present embodiment takes the needle in projection 63 takes the needle the height of plane 65 lower than the height of central cam body 61, the right side that the right side takes the needle in projection 64 takes the needle the height of plane 67 lower than the height of central cam body 61, can more effectively guarantee spring pin plane 65 and the right side enterprising walking pin of plane 67 that takes the needle that takes the needle on a left side.

Left degree order motor 36 in the present embodiment and right degree order motor 38 are installed in the back side of base plate body 1, left degree order cam 37 and right degree order cam 39 are arranged on respectively on left degree order motor 36 and right degree order motor 38, and this left degree order cam 37 and right degree order cam 39 coordinate with left degree order set square 4 and right degree order set square 5 respectively.

Herringbone set square 2 in the present embodiment and the distance X connecing between pin set square 21 are 58.5-60.5mm, distance Y between herringbone set square 2 and left needle-raising triangle board 25 is 120-122mm, make thus structural design more reasonable, running is more steady, wearing and tearing between parts are less, long service life, energy saving in running.In the utility model, said herringbone set square 2 and the distance that connects between pin set square 21 refer to that herringbone set square 2 bottom center point R are to the distance connecing between pin set square 21 center of top point M, and the distance between herringbone set square 2 and left needle-raising triangle board 25 refers to that herringbone set square 2 bottom center point R are to the distance between left needle-raising triangle board 25 center of top point N.

Single system flat knitting machine soleplate 99 in the present embodiment is exclusively used in single-system computerized flat knitting machine, the colleague who possesses dual system Computerized flat knitting machine hangs object function, in same a line, both can weave, can hang object function again, whole is simple in structure, reasonable in design, dependable performance, production cost is low, and market prospects are wide.Figure 19 is the schematic diagram that takes the needle of single system flat knitting machine soleplate 99 bottom plate triangular, knitting needle 81, spring pin 82 and needle selection stitch 83 in braiding process, Figure 20 is single system flat knitting machine soleplate 99 bottom plate triangular, knitting needle 81, spring pin 82 and needle selection stitch 83 in the turning over pin process schematic diagram that takes the needle, Figure 21 is single system flat knitting machine soleplate 99 bottom plate triangular, knitting needle 81, spring pin 82 and needle selection stitch 83 in the connecing pin process schematic diagram that takes the needle, and Figure 22 is single system flat knitting machine soleplate 99 bottom plate triangular, knitting needle 81, spring pin 82 and needle selection stitch 83 in the hanging order process schematic diagram that takes the needle.

The eedle being applicable in the single-system computerized flat knitting machine in the present embodiment comprises knitting needle 81, spring pin 82 and needle selection stitch 83, and spring pin 82 and needle selection stitch 83 all belong to stitch.On knitting needle 81 in the present embodiment, be provided with knitting needle pin bell 811; on this knitting needle pin bell 811, be provided with knitting needle protector 812; on spring pin 82 in the present embodiment, be provided with spring needle bell 821; on this spring needle bell 821, be provided with spring protection groove 822; the front end of spring pin 82 is arc-shaped structure 826; the front end of this spring pin 82 and knitting needle 81 coordinate, and it is common practise to those skilled in the art that the front end of spring pin 82 and knitting needle 81 coordinate.On spring pin 82 in the present embodiment, be disposed with from front to back and do not knit position 823, connect that pin hangs order position 824 and pin position 825 is turned in braiding, this does not knit position 823, connect pin hangs order position 824 and braiding and turns over pin position 825 and be nick shaped, do not knit position 823, connect that pin hangs order position 824 and the nick shaped that turns on pin position 825 of braiding is arc-shaped structure, and do not knit breach size on position 823, connect pin and hang the breach size that breach size on order position 824 and braiding turn on pin position 825 and increase successively.On needle selection stitch 83 in the present embodiment, be provided with needle selection pin bell 831, the front end of this needle selection stitch 83 and spring pin 82 coordinate, and it is common practise to those skilled in the art that the front end of needle selection stitch 83 and spring pin 82 coordinate.Needle selection stitch 83 in the utility model can be seven segmentation structures, and needle selection stitch 83 can form by one section, two sections, three sections, four sections, five sections, six sections and seven sections.

In addition, it should be noted that, the specific embodiment described in this description, the shape of its parts and components, institute's title of being named etc. can be different, and the above content described in this description is only to the explanation of the utility model structure example.All equivalence variation or simple change of doing according to described structure, feature and the principle of the utility model patent design, are included in the protection domain of the utility model patent.The utility model person of ordinary skill in the field can make various modifications or supplements or adopt similar mode to substitute described specific embodiment; only otherwise depart from structure of the present utility model or surmount this scope as defined in the claims, all should belong to protection domain of the present utility model.

Claims (10)

1. a single-system computerized flat knitting machine that possesses dual system function, comprises frame, support, needle plate, head, large thick stick and display screen, described support is fixed in frame, and described needle plate is fixed on support, described large thick stick is arranged on support, described head and display screen are installed in frame, and described head comprises single system flat knitting machine soleplate, and described single system flat knitting machine soleplate comprises base plate body, herringbone set square, turn over pin set square, left degree order set square, right degree order set square, homing triangle in left braiding, homing triangle in right braiding, left back-stitching cam plate, right back-stitching cam plate, left homing triangle, right homing triangle, a left side connects pin set square, the right side connects pin set square, center triangular plate, connect pin set square, homing triangle on left needle selection, homing triangle under right needle selection, middle homing triangle, left needle-raising triangle board, right needle-raising triangle board, left pin choosing set square, right pin choosing set square, lift pin set square and driving mechanism, described herringbone set square, turn over pin set square, left degree order set square, right degree order set square, homing triangle in left braiding, homing triangle in right braiding, left back-stitching cam plate and right back-stitching cam plate are installed in the top of base plate body, described left homing triangle, right homing triangle, a left side connects pin set square, the right side connects pin set square, center triangular plate, connect pin set square, homing triangle on left needle selection, under right needle selection, homing triangle and middle homing triangle are installed in the middle part of base plate body, described left needle-raising triangle board, right needle-raising triangle board, left pin choosing set square, right pin choosing set square and lift the bottom that pin set square is installed in base plate body, is characterized in that: described driving mechanism comprises drive motors, upper output shaft, lower output shaft, cam, turn over pin and strike bar, gear and slide plate, the described back side of turning over pin set square is provided with turns over pin guide pillar, described drive motors is fixed on base plate body, described upper output shaft and lower output shaft are arranged on respectively top and the bottom of drive motors, described cam is fixed on output shaft, the described pin that turns over strikes bar and is arranged on base plate body, describedly turn over that pin strikes the lower end of bar and cam coordinates, this turns over, and pin strikes the upper end of bar and the pin guide pillar that turns over that turns on pin set square coordinates, described gear is fixed on lower output shaft, is provided with left gathering sill on described slide plate, right gathering sill and tooth bar, described left gathering sill and right gathering sill are wavy shaped configuration, and described left needle-raising triangle board and right needle-raising triangle board coordinate with left gathering sill and right gathering sill respectively, described gear and tooth bar engagement.

2. the single-system computerized flat knitting machine that possesses dual system function according to claim 1, it is characterized in that: the pin set square that connects in described single system flat knitting machine soleplate comprises and connects pin triangle body, described connecing on pin triangle body is provided with installing hole, the described top that connects pin triangle body is provided with breach, the described left side that connects pin triangle body is provided with left tilted surface, this left tilted surface raises from left to right gradually, described in connect pin triangle body right side be provided with right tilted surface, this right tilted surface is turned left from the right side and is raise gradually; Described connecing is provided with on pin triangle body that needle tray is walked on a left side and needle tray is walked on the right side, upper end and breach that needle tray is walked on a described left side are communicated with, lower end and left tilted surface that needle tray is walked on this left side are communicated with, and upper end and breach that needle tray is walked on the described right side are communicated with, and lower end and right tilted surface that needle tray is walked on this right side are communicated with.

3. the single-system computerized flat knitting machine that possesses dual system function according to claim 1, it is characterized in that: on the center triangular plate in described single system flat knitting machine soleplate, be provided with installing hole, this center triangular plate comprises central cam body, lower protruding block, left side projection and the right side projection that takes the needle that takes the needle, the described left side projection that takes the needle, lower protruding block and the right projection that takes the needle are all fixed on the bottom of central cam body, this left side projection that takes the needle, lower protruding block and the right side projection that takes the needle is arranged in order from left to right, the take the needle top of projection, a described left side is provided with plane and the left side inclined-plane that takes the needle that takes the needle, a left side, described left side left end and the left side on the inclined-plane plane that takes the needle that takes the needle is connected, the take the needle height on inclined-plane of this left side reduces from left to right successively, the take the needle top of projection, the described right side is provided with plane and the right side inclined-plane that takes the needle that takes the needle, the right side, described right side right-hand member and the right side on the inclined-plane plane that takes the needle that takes the needle is connected, the take the needle height on inclined-plane of this right side raises from left to right successively.

4. according to the single-system computerized flat knitting machine that possesses dual system function described in claim 1 or 2 or 3, it is characterized in that: on the left needle-raising triangle board in described single system flat knitting machine soleplate, be provided with left side guide pillar, left side pillar and the left side axle sleeve of pushing pin of pushing pin of pushing pin, push pin one end of guide pillar, a described left side is vertically fixed on left needle-raising triangle board, push pin one end of pillar, a described left side is vertically fixed on a left side and pushes pin on guide pillar, the described left side axle sleeve of pushing pin is sleeved on a left side and pushes pin on pillar, and this left side axle sleeve of pushing pin is arranged in left gathering sill.

5. according to the single-system computerized flat knitting machine that possesses dual system function described in claim 1 or 2 or 3, it is characterized in that: on the right needle-raising triangle board in described single system flat knitting machine soleplate, be provided with right side guide pillar, right side pillar and the right side axle sleeve of pushing pin of pushing pin of pushing pin, push pin one end of guide pillar, the described right side is vertically fixed on right needle-raising triangle board, push pin one end of pillar, the described right side is vertically fixed on the right side and pushes pin on guide pillar, the described right side axle sleeve of pushing pin is sleeved on the right side and pushes pin on pillar, and this right side axle sleeve of pushing pin is arranged in right gathering sill.

6. according to the single-system computerized flat knitting machine that possesses dual system function described in claim 1 or 2 or 3, it is characterized in that: described single system flat knitting machine soleplate also comprises left degree order motor, left degree order cam, right degree order motor and right degree order cam, described left degree order motor and right degree order motor are installed in the back side of base plate body, described left degree order cam and right degree order cam are arranged on respectively on left degree order motor and right degree order motor, and this left degree order cam and right degree order cam coordinate with left degree order set square and right degree order set square respectively.

7. according to the single-system computerized flat knitting machine that possesses dual system function described in claim 1 or 2 or 3, it is characterized in that: the herringbone set square in described single system flat knitting machine soleplate and the distance connecing between pin set square are 58.5-60.5mm, and the distance between described herringbone set square and left needle-raising triangle board is 120-122mm.

8. the single-system computerized flat knitting machine that possesses dual system function according to claim 2, is characterized in that: described in connect a left side in pin set square and walk between needle tray and left tilted surface as circular arc is excessive, the described right side is walked between needle tray and right tilted surface as circular arc is excessive.

9. the single-system computerized flat knitting machine that possesses dual system function according to claim 2, is characterized in that: described in the left tilted surface and the right tilted surface that connect in pin set square be all positioned at the bottom that connects pin triangle body.

10. the single-system computerized flat knitting machine that possesses dual system function according to claim 3, is characterized in that: the both sides of the central cam body in described center triangular plate are ramp-like configuration, and the lower width of this central cam body is greater than upper width.