CN109468738A - A kind of three system flat knitting machine soleplates - Google Patents

Abstract

The present invention relates to a kind of three system flat knitting machine soleplates, belong to field of textile machinery.Sharp mountain in the present invention is located at the top of triangle motherboard, needle overturning triangle is located at the lower section on sharp mountain, knitting cam is located at the lower section of needle overturning triangle, dish mountain is located at the lower section of knitting cam, left redundant degree mesh trigonometric sum right redundant degree mesh triangle is located at the two sides on sharp mountain, the left right degree mesh triangle of degree mesh trigonometric sum is located at the two sides of knitting cam, upper left shield mountain is located at the left side of left redundant degree mesh triangle, upper right shield mountain is located at the right side of right redundant degree mesh triangle, in upper shield mountain be located at the right side of right redundant degree mesh triangle in a triangular unit, and upper shield mountain is located at the left side of left redundant degree mesh triangle in another adjacent triangular unit in this.The case where mentioning high control precision, being not in striker guarantees working efficiency, improves production capacity.

Description

A kind of three system flat knitting machine soleplates

Technical field

The present invention relates to a kind of three system flat knitting machine soleplates, belong to field of textile machinery.

Background technique

Flat knitting machine soleplate is the volume core component in computer flat knitting machine, common are single system straight-bar machines at present, and dual system is horizontal Machine, three system straight-bar machines, four system straight-bar machines, it mainly controls braiding track to flat knitting machine soleplate, and existing flat knitting machine soleplate is controlled at work System is low with regard to precision, takes the needle unstable, serious wear, tastes the case where will appear striker, replacement vulnerable part is relatively cumbersome, Duo Shuotong Cross cam drive, noise is big when work.

In view of this, disclosing a kind of Computerized flat knitting machine bottom plate machine in the patent document application No. is 201721507298.0 Structure, system for weaving are two, are in left and right settings on bottom plate, reset triangle is located under upper Hu Shan, middle back-stitching cam and middle stitch Between two system for weaving；Triangle motor is mounted on bottom plate；Cam is mounted on the output shaft of lift needle triangle motor；Cam connects Spindle is mounted on cam；Cam connecting shaft is slidably mounted on one end of lever, the other end and lift needle triangle interlocking lever of lever Hingedly；Lever connecting seat is mounted on bottom plate, and lever is hinged with lever connecting seat；It is sliding equipped with interlocking lever to lift needle triangle interlocking lever Slot, lift needle triangle interlocking lever attachment base are slidably connected with interlocking lever sliding slot；Lift needle triangle joint seat is mounted on bottom plate；Lift needle three Angle is slidably mounted on lift needle triangle joint seat, and is fixed with lift needle triangle interlocking lever attachment base.Four in above-mentioned documents System computerized flat knitting machine bottom plate apparatus noise is big.

Summary of the invention

It is an object of the invention to overcome the above deficiencies in the existing technologies, and provide a kind of reasonable in design Three system flat knitting machine soleplates.

Technical solution used by the present invention solves the above problems is: the three systems flat knitting machine soleplate, including triangle motherboard, choosing Needle motherboard, three triangular units and three needle selection units, the triangle motherboard are connect with needle selection motherboard, three triangular units It is installed on triangle motherboard, three needle selection units are installed on needle selection motherboard, each triangular unit and a needle selection Unit is corresponding, and design feature is:

Further include braiding device, needle overturning device, attachment device, regulating device, positioning device, upper left Hu Shan, upper right Hu Shan, on Hu Shan, left back-stitching cam, right back-stitching cam, peach-shaped Hu Shan, left reservation Hu Shan, right reservation shield mountain, retain Hu Shan, left long shield mountain, Right long Hu Shan, long Hu Shan, middle long shield mountain, lower-left Hu Shan, bottom right Hu Shan, lower Hu Shan and in it is lower protect mountain,

The triangular unit include left redundant degree mesh triangle, right redundant degree mesh triangle, left degree mesh triangle, right degree mesh triangle, Jian Shan, Needle overturning triangle, knitting cam and dish mountain, the needle selection unit include that the left side trigonometric sum right side of pushing pin is pushed pin triangle；

The upper left Hu Shan, upper right Hu Shan, in upper Hu Shan, left back-stitching cam, right back-stitching cam, peach-shaped Hu Shan, left reservations protect mountain, Right reservation shield mountain and retain shield mountain and be installed on triangle motherboard, the left long Hu Shan, right long Hu Shan, long Hu Shan, middle long shield mountain, Lower-left Hu Shan, bottom right Hu Shan, lower Hu Shan and in lower shield mountain be installed on needle selection motherboard,

The point mountain is located at the top of triangle motherboard, and the needle overturning triangle is located at the lower section on sharp mountain, and the knitting cam, which is located at, to be turned over The lower section of needle triangle, the dish mountain are located at the lower section of knitting cam, the left redundant degree mesh trigonometric sum right redundant degree mesh triangle point Not Wei Yu sharp mountain two sides, the left right degree mesh triangle of degree mesh trigonometric sum is located at the two sides of knitting cam, the upper left shield Mountain is located at the left side of left redundant degree mesh triangle, and upper right shield mountain is located at the right side of right redundant degree mesh triangle, it is described in upper shield mountain The right side of right redundant degree mesh triangle in a triangular unit, and upper shield mountain is located in another adjacent triangular unit in this The left side of left redundant degree mesh triangle,

The left back-stitching cam is located at the left side of left degree mesh triangle, and the right back-stitching cam is located at the right side of right degree mesh triangle, institute The right side that peach-shaped shield mountain is located at right degree mesh triangle in a triangular unit is stated, and peach-shaped shield mountain is located at another adjacent triangle The left side of left degree mesh triangle in unit,

The left reservation Hu Shan and the right two sides for retaining shield mountain and being located at dish mountain, reservation shield mountain are located at two neighboring triangle In unit between dish mountain,

The left long shield mountain is located at the left lower section for retaining shield mountain, and the right long shield mountain is located at the right lower section for retaining shield mountain, it is described in Long shield mountain is located at the middle part of needle selection motherboard, each between right long Hu Shan and middle long shield mountain between the left long Hu Shan and middle long shield mountain One long shield mountain is installed,

Lower-left shield mountain is located at the lower section on left long shield mountain, and bottom right shield mountain is located at the lower section on right long shield mountain, it is described in lower shield Mountain is located at the middle part of needle selection motherboard, and lower shield mountain is located at the lower section on middle long shield mountain in this, the lower-left Hu Shan in lower shield mountain it Between and bottom right Hu Shan and in be respectively equipped under one between lower shield mountain and protect mountain, and the lower shield mountain is located at the lower section on long shield mountain, described A left side push pin triangle be located at lower-left Hu Shan and it is lower shield mountain top, the right side push pin triangle be located at bottom right Hu Shan and it is lower protect mountain it is upper Side；

The knitting cam with braiding device connect, and braiding device be mounted on triangle motherboard, the braiding device with connect Device connection, the attachment device contacts with needle overturning device, and the needle overturning device is connect with needle overturning triangle, the regulating device with Positioning device is installed in attachment device, and positioning device and regulating device cooperate.High control precision is mentioned, is not in striker The case where, guarantee working efficiency, improves production capacity.

Further, the needle selection unit further includes resetting guide block, and the resetting guide block is located at left side triangle of pushing pin to be pushed away with the right side Lower section in the middle part of needle triangle.

Further, the left redundant degree mesh triangle and the left degree mesh triangle of right redundant degree mesh trigonometric sum and right degree mesh triangle are equal It is slidably mounted on triangle motherboard.

Further, the braiding device includes braiding pedestal, braiding shaft, braiding idler wheel, braiding mandril, braiding top Plate, braiding spring, braiding groove and braiding convex block,

The braiding pedestal is mounted on triangle motherboard, and the braiding shaft is mounted on braiding pedestal, the braiding idler wheel peace In braiding shaft, on braiding idler wheel, one end of braiding mandril is arranged in the braiding convex block for the braiding groove setting, And braiding convex block is located in braiding groove, the other end of the braiding mandril is connect with knitting cam, and the braiding top plate is fixed On braiding mandril, one end of the braiding spring is abutted with braiding top plate, the other end and braiding pedestal of the braiding spring It abuts, the braiding shaft is connect with attachment device.Haunting for knitting cam is controlled by braiding device, its control essence can be improved Degree.

Further, the needle overturning device includes needle overturning connecting rod, needle overturning apical ring, needle overturning mandril, needle overturning pedestal, needle overturning turn Axis, needle overturning axle bed, needle overturning allocating slot and needle overturning inverted draw cut,

The needle overturning apical ring is fixed on one end of needle overturning connecting rod, and the other end of the needle overturning connecting rod is connect with needle overturning triangle, described One end of needle overturning mandril is located in needle overturning apical ring, and the other end of the needle overturning mandril is mounted on needle overturning pedestal, the needle overturning bottom Seat be mounted on needle overturning axle bed by needle overturning shaft, the needle overturning axle bed is mounted on triangle motherboard, the needle overturning allocating slot with turn over Needle inverted draw cut is arranged on needle overturning pedestal, and the needle overturning allocating slot and needle overturning inverted draw cut are contacted with attachment device.

Further, the attachment device includes connecting driving lever, connection jacking block, connection pedestal, connection shaft, connection company Bar, connecting crank and connection shaft,

The connection driving lever and connection jacking block are installed on connection pedestal, and the connection pedestal is mounted in connection shaft, institute It states connection shaft to be rotatably installed on triangle motherboard, one end of the connection driving lever is located in needle overturning allocating slot, the connection jacking block It is contacted with needle overturning inverted draw cut, one end of the connection connecting rod and regulating device are rotatablely connected, and the regulating device is slidably mounted on company It connects on pedestal, the other end of the connection connecting rod is connected with shaft is connect, and the connection shaft is fixed on connecting crank, described Connecting crank is mounted in the braiding shaft of braiding device, and the positioning device is mounted on connection pedestal.Pass through attachment device Realize the movement locus of reciprocal control needle overturning device.

Further, the regulating device includes adjusting screw rod, adjusting slide, adjustment base, adjusting slider, adjust and slide Slot adjusts annulus and adjusts annular groove,

The adjusting screw rod and adjusting slide are installed on connection pedestal, and are adjusted screw rod and adjusted slide and pass through screw thread company It connects, the adjustment base, which is fixed on, to be adjusted on slide, and the adjustment base is rotatablely connected with the one end for connecting connecting rod, the adjusting Sliding block is fixed on the two sides for adjusting slide, and the adjusting sliding slot and adjusting annular groove are arranged on connection pedestal, and the adjusting is slided Block, which is located at, to be adjusted in sliding slot, and the adjusting annulus, which is fixed on, to be adjusted on screw rod, and the adjusting annulus, which is located at, to be adjusted in annular groove, described Adjust annulus and positioning means contacts.It needs to adjust by angle of the regulating device to swing according to real work situation Section improves conformability.

Further, the positioning device include positioning mandril, positioning base, retaining spring, locating convex block, positioning it is recessed Slot, placed channel, positioning ring cavity and positioning apical pore,

The positioning groove, placed channel and positioning ring cavity are arranged on connection pedestal, the positioning ring cavity and placed channel It is coaxially set, the diameter of the positioning ring cavity is greater than the diameter of placed channel, and placed channel is arranged in the positioning groove Inner wall, the positioning apical pore setting is on adjusting annulus, and the locating convex block is fixed on positioning mandril, the positioning mandril position In in placed channel, one end of the positioning mandril is located in positioning apical pore, and the positioning base is fixed on the another of positioning mandril One end, one end of the retaining spring are abutted with pedestal is connect, and the other end of the retaining spring is abutted with positioning base, described Locating convex block is located at that positioning ring is intracavitary, and locating convex block is contacted with the bottom wall of positioning ring cavity.

Further, when one end of positioning mandril is located at outside positioning apical pore, the locating convex block is located in positioning groove. Regulating device positioning can be carried out by positioning device after adjusting swing angle to avoid rotating.

Further, the quantity of the needle overturning apical ring is two, and described two needle overturning apical rings are located at needle overturning connecting rod Two sides, and two needle overturning apical rings shift to install, described two needle overturning apical rings are waist type structure.

Further, the quantity of the needle overturning inverted draw cut is two, and described two needle overturning inverted draw cuts are installed on needle overturning pedestal, The needle overturning allocating slot is located between two needle overturning inverted draw cuts, and described two needle overturning inverted draw cuts are respectively contacted with a connection jacking block.

Compared with prior art, the invention has the following advantages that can realize the volume to straight-bar machines by the three systems flat knitting machine soleplate It knits track to be controlled, prolong its service life, improve working efficiency, without often replacing to vulnerable part, control precision The case where height is not in striker, is driven without cam, and noise is small when work, improves production capacity, and energy saving reduces people The investment of power cost.

Detailed description of the invention

Fig. 1 is the schematic view of the front view of three system flat knitting machine soleplates of the embodiment of the present invention.

Fig. 2 is the backsight structural representation of three system flat knitting machine soleplates of the embodiment of the present invention.

Fig. 3 is the schematic perspective view of three system flat knitting machine soleplates of the embodiment of the present invention.

Fig. 4 is the schematic perspective view of the component in three system flat knitting machine soleplates of the embodiment of the present invention.

Fig. 5 is the portion the A enlarged structure schematic diagram in Fig. 4.

Fig. 6 is the left view configuration schematic diagram of the component in three system flat knitting machine soleplates of the embodiment of the present invention.

Fig. 7 is the B-B section view structural schematic diagram in Fig. 6.

Fig. 8 is the portion the C enlarged structure schematic diagram in Fig. 7.

Fig. 9 is the schematic perspective view of the component in three system flat knitting machine soleplates of the embodiment of the present invention.

Figure 10 is the portion the D enlarged structure schematic diagram in Fig. 9.

In figure: triangle motherboard 1, needle selection motherboard 2, triangular unit 3, needle selection unit 4, upper left shield mountain 51, upper right shield mountain 52, in Upper shield mountain 53, right back-stitching cam 62, peach-shaped shield mountain 63, left reservation shield mountain 71, right reservation shield mountain 72, retains left back-stitching cam 61 Shield mountain 73, left long shield mountain 81, right long shield mountain 82, length shield mountain 83, middle long shield mountain 84, lower-left shield mountain 91, bottom right shield mountain 92, lower shield mountain 93, lower shield mountain 94, left redundant degree mesh triangle 31, right redundant degree mesh triangle 32, left degree mesh triangle 33, right degree mesh triangle 34, point in It pushes pin triangle 42, braiding device 01, needle overturning dress on push pin triangle 41, the right side of mountain 35, needle overturning triangle 36, knitting cam 37, dish mountain 38, a left side It sets 02, attachment device 03, regulating device 04, positioning device 05, braiding pedestal 011, braiding shaft 012, braiding idler wheel 013, compile Knit mandril 014, braiding top plate 015, braiding spring 016, braiding groove 017, braiding convex block 018, needle overturning connecting rod 021, needle overturning top Ring 022, needle overturning mandril 023, needle overturning pedestal 024, needle overturning shaft 025, needle overturning axle bed 026, needle overturning allocating slot 027, needle overturning inverted draw cut 028, connect driving lever 031, connection jacking block 032, connection pedestal 033, connection shaft 034, connection connecting rod 035, connecting crank 036, Shaft 037 is connected, screw rod 041 is adjusted, adjusts slide 042, adjustment base 043, adjusting slider 044, adjust sliding slot 045, adjust Annulus 046 adjusts annular groove 047, positioning mandril 051, positioning base 052, retaining spring 053, locating convex block 054, positioning groove 055, placed channel 056, positioning ring cavity 057, positioning apical pore 058.

Specific embodiment

The present invention is described in further detail with reference to the accompanying drawing and by embodiment, and following embodiment is to this hair Bright explanation and the invention is not limited to following embodiments.

Embodiment.

Referring to shown in Fig. 1 to Figure 10, it should however be clear that this specification structure depicted in this specification institute accompanying drawings, ratio, size etc., only To cooperate the revealed content of specification, so that those skilled in the art understands and reads, it is not intended to limit the invention Enforceable qualifications, therefore do not have technical essential meaning, the modification of any structure, the change of proportionate relationship or size Adjustment should all still be fallen in disclosed in the case where not influencing the effect of present invention can be generated and the purpose that can reach In the range of technology contents can be covered.Meanwhile if in this specification with reference as "upper", "lower", "left", "right", " centre " and The term of " one " etc. is merely convenient to being illustrated for narration, rather than to limit the scope of the invention, relativeness It is altered or modified, under the content of no substantial changes in technology, when being also considered as the enforceable scope of the present invention.

Three system flat knitting machine soleplate of kind in the present embodiment, including 2, three triangle motherboard 1, needle selection motherboard 3 and of triangular unit Three needle selection units 4 weave device 01, needle overturning device 02, attachment device 03, regulating device 04, positioning device 05, upper left Hu Shan 51, upper right shield mountain 52, in upper shield mountain 53, left back-stitching cam 61, right back-stitching cam 62, peach-shaped shield mountain 63, left reservations shield mountain 71, the right side Retain shield mountain 72, retain and protect mountain 73, left long shield mountain 81, right long shield mountain 82, length shield mountain 83, middle long shield mountain 84, lower-left shield mountain 91, the right side Lower shield mountain 92, lower shield mountain 93 and in lower protect mountain 94.

Triangle motherboard 1 in the present embodiment is connect with needle selection motherboard 2, and three triangular units 3 are installed in triangle motherboard 1 On, three needle selection units 4 are installed on needle selection motherboard 2, and each triangular unit 3 is corresponding with a needle selection unit 4.

Triangular unit 3 in the present embodiment includes left redundant degree mesh triangle 31, right redundant degree mesh triangle 32, left degree mesh triangle 33, right degree mesh triangle 34, sharp mountain 35, needle overturning triangle 36, knitting cam 37 and dish mountain 38, needle selection unit 4 include that a left side is pushed pin triangle 41, the right side is pushed pin triangle 42 and resetting guide block.

Upper left shield mountain 51, upper right shield mountain 52 in the present embodiment, in upper protect mountain 53, left back-stitching cam 61, right back-stitching cam 62, peach-shaped shield mountain 63, left reservation shield mountain 71, right reservation shield mountain 72 and reservation shield mountain 73 are installed on triangle motherboard 1, Zuo Changhu Mountain 81, right long shield mountain 82, long shield mountain 83, middle long shield mountain 84, lower-left shield mountain 91, bottom right shield mountain 92, lower shield mountain 93 and in lower shield mountain 94 are installed on needle selection motherboard 2.

Sharp mountain 35 in the present embodiment is located at the top of triangle motherboard 1, and needle overturning triangle 36 is located at the lower section on sharp mountain 35, braiding Triangle 37 is located at the lower section of needle overturning triangle 36, and dish mountain 38 is located at the lower section of knitting cam 37, left redundant degree mesh triangle 31 and inside right forward Degree of helping mesh triangle 32 is located at the two sides on sharp mountain 35, and left degree mesh triangle 33 and right degree mesh triangle 34 are located at knitting cam 37 Two sides, upper left shield mountain 51 is located at the left side of left redundant degree mesh triangle 31, and upper right protects mountain 52 and is located at right redundant degree mesh triangle 32 Right side, in upper shield mountain 53 be located at the right side of right redundant degree mesh triangle 32 in a triangular unit 3, and upper shield mountain 53 is located at phase in this The left side of left redundant degree mesh triangle 31, left redundant degree mesh triangle 31 and right redundant degree mesh triangle in another adjacent triangular unit 3 32 and left degree mesh triangle 33 and right degree mesh triangle 34 be slidably mounted on triangle motherboard 1.

Left back-stitching cam 61 in the present embodiment is located at the left side of left degree mesh triangle 33, and right back-stitching cam 62 is located at right degree mesh The right side of triangle 34, peach-shaped protects the right side that mountain 63 is located at right degree mesh triangle 34 in a triangular unit 3, and the peach-shaped protects 63, mountain The left side of left degree mesh triangle 33 in another adjacent triangular unit 3.

Left reservation shield mountain 71 and the right two sides for retaining shield mountain 72 and being located at dish mountain 38 in the present embodiment, retain shield mountain 73 Between dish mountain 38 in two neighboring triangular unit 3.

Left long shield mountain 81 in the present embodiment is located at the left lower section for retaining shield mountain 71, and right long shield mountain 82 is located at right reservation shield mountain 72 lower section, middle long shield mountain 84 are located at the middle part of needle selection motherboard 2, between left long shield mountain 81 and middle long shield mountain 84 and right long shield mountain 82 One long shield mountain 83 is respectively installed between middle long shield mountain 84.

Lower-left shield mountain 91 in the present embodiment is located at the lower section on left long shield mountain 81, and bottom right protects mountain 92 and is located at right long shield mountain 82 Lower section, in lower shield mountain 94 be located at the middle part of needle selection motherboard 2, and lower shield mountain 94 is located at the lower section on middle long shield mountain 84 in this, and lower-left is protected Mountain 91 and between lower shield mountain 94 and bottom right shield mountain 92 and in shield mountain 93 under one, and the lower shield are respectively installed between lower shield mountain 94 Mountain 93 is located at the lower section on long shield mountain 83, and left side triangle 41 of pushing pin is located at lower-left shield mountain 91 and the lower top for protecting mountain 93, and the right side is pushed pin triangle 42 positioned at the top on bottom right shield mountain 92 and lower shield mountain 93, and resetting guide block is located at left triangle 41 and right 42 middle part of triangle of pushing pin of pushing pin Lower section.

Knitting cam 37 in the present embodiment is connect with braiding device 01, and is woven device 01 and be mounted on triangle motherboard 1, Braiding device 01 is connect with attachment device 03, and attachment device 03 is contacted with needle overturning device 02, needle overturning device 02 and needle overturning triangle 36 Connection, regulating device 04 and positioning device 05 are installed in attachment device 03, and positioning device 05 and regulating device 04 cooperate.

Braiding device 01 in the present embodiment includes braiding pedestal 011, braiding shaft 012, braiding idler wheel 013, braiding top Bar 014, braiding top plate 015, braiding spring 016, braiding groove 017 and braiding convex block 018, braiding pedestal 011 are mounted on triangle On motherboard 1, braiding shaft 012 is mounted on braiding pedestal 011, and braiding idler wheel 013 is mounted in braiding shaft 012, is woven recessed For the setting of slot 017 on braiding idler wheel 013, one end of braiding mandril 014 is arranged in braiding convex block 018, and weaves convex block 018 and be located at It weaves in groove 017, the other end of braiding mandril 014 is connect with knitting cam 37, and braiding top plate 015 is fixed on braiding mandril On 014, the one end for weaving spring 016 is abutted with braiding top plate 015, and the other end and braiding pedestal 011 for weaving spring 016 support It connects, braiding shaft 012 is connect with attachment device 03.

Needle overturning device 02 in the present embodiment includes needle overturning connecting rod 021, needle overturning apical ring 022, needle overturning mandril 023, needle overturning bottom Seat 024, needle overturning shaft 025, needle overturning axle bed 026, needle overturning allocating slot 027 and needle overturning inverted draw cut 028, needle overturning apical ring 022 are fixed on needle overturning The other end of one end of connecting rod 021, needle overturning connecting rod 021 is connect with needle overturning triangle 36, and one end of needle overturning mandril 023 is located at needle overturning top In ring 022, the other end of needle overturning mandril 023 is mounted on needle overturning pedestal 024, and needle overturning pedestal 024 is installed by needle overturning shaft 025 On needle overturning axle bed 026, needle overturning axle bed 026 is mounted on triangle motherboard 1, and needle overturning allocating slot 027 and needle overturning inverted draw cut 028 are arranged at On needle overturning pedestal 024, needle overturning allocating slot 027 and needle overturning inverted draw cut 028 are contacted with attachment device 03.

The quantity of needle overturning apical ring 022 in the present embodiment is two, and two needle overturning apical rings 022 are located at needle overturning connecting rod 021 two sides, and two needle overturning apical rings 022 shift to install, two needle overturning apical rings 022 are waist type structure；Needle overturning inverted draw cut 028 Quantity is two, and two needle overturning inverted draw cuts 028 are installed on needle overturning pedestal 024, and needle overturning allocating slot 027 is located at two needle overturning inverted draw cuts Between 028, two needle overturning inverted draw cuts 028 are respectively contacted with a connection jacking block 032.

Attachment device 03 in the present embodiment includes connection driving lever 031, connection jacking block 032, connection pedestal 033, connection turn Axis 034, connection connecting rod 035, connecting crank 036 and connection shaft 037, connection driving lever 031 and connection 032 company of being installed in of jacking block It connecing on pedestal 033, connection pedestal 033 is mounted in connection shaft 034, and connection shaft 034 is rotatably installed on triangle motherboard 1, One end of connection driving lever 031 is located in needle overturning allocating slot 027, and connection jacking block 032 is contacted with needle overturning inverted draw cut 028, connection connecting rod 035 One end and regulating device 04 are rotatablely connected, and regulating device 04 is slidably mounted on connection pedestal 033, connect the another of connecting rod 035 End is connected with shaft 037 is connect, and connection shaft 037 is fixed on connecting crank 036, and connecting crank 036 is mounted on braiding device In 01 braiding shaft 012, positioning device 05 is mounted on connection pedestal 033.

Regulating device 04 in the present embodiment includes adjusting screw rod 041, adjusting slide 042, adjustment base 043, adjust and slide Block 044 adjusts sliding slot 045, adjusts annulus 046 and adjusts annular groove 047, adjusts screw rod 041 and adjusts 042 company of being installed in of slide It connects on pedestal 033, and adjusts screw rod 041 and be connected through a screw thread with slide 042 is adjusted, adjustment base 043 is fixed on adjusting slide On 042, adjustment base 043 is rotatablely connected with the one end for connecting connecting rod 035, and adjusting slider 044, which is fixed on, adjusts the two of slide 042 Side, adjusts sliding slot 045 and adjusting annular groove 047 is arranged on connection pedestal 033, and adjusting slider 044, which is located at, adjusts sliding slot 045 It is interior, adjust annulus 046 be fixed on adjust screw rod 041 on, adjust annulus 046 be located at adjust annular groove 047 in, adjust annulus 046 with Positioning device 05 contacts.

Positioning device 05 in the present embodiment includes positioning mandril 051, positioning base 052, retaining spring 053, convex Block 054, positioning groove 055, placed channel 056, positioning ring cavity 057 and positioning apical pore 058, positioning groove 055, placed channel 056 is arranged on connection pedestal 033 with positioning ring cavity 057, and positioning ring cavity 057 is coaxially set with placed channel 056, positions The diameter of ring cavity 057 is greater than the diameter of placed channel 056, and the inner wall of placed channel 056, positioning top is arranged in positioning groove 055 On adjusting annulus 046, locating convex block 054 is fixed on positioning mandril 051 setting of hole 058, and it is logical that positioning mandril 051 is located at positioning In road 056, one end of positioning mandril 051 is located in positioning apical pore 058, and positioning base 052 is fixed on the another of positioning mandril 051 End, one end of retaining spring 053 are abutted with pedestal 033 is connect, and the other end of retaining spring 053 is abutted with positioning base 052, fixed Position convex block 054 is located in positioning ring cavity 057, and locating convex block 054 is contacted with the bottom wall of positioning ring cavity 057；When positioning mandril 051 One end be located at positioning apical pore 058 it is outer when, locating convex block 054 is located in positioning groove 055.

Specifically, which limits according to the needs of actual conditions at work, adjusts silk by rotation The position of 041 pair of bar adjusting slide 042 is adjusted, so that when being drivingly connected the swing of connecting rod 035 by connecting crank 036, Connection jacking block 032 meets the requirements along the angle that connection shaft 034 rotates, and positioning base 052 is pressed before adjustment and is rotated, so that Locating convex block 054 is located in positioning groove 055, while one end of positioning mandril 051 is separated with positioning apical pore 058, then logical It overregulates the height that the adjustment of screw rod 041 adjusts slide 042 and presses positioning base after adjusting to the height for adjusting slide 042 052 and rotate so that locating convex block 054 is located in positioning ring cavity 057, and make locating convex block 054 with positioning ring cavity 057 Bottom wall abuts, and one end of positioning mandril 051 is located in positioning apical pore 058 at this time, and realization exchanges pitch circle ring 046 and adjusts screw rod 041 positioning avoids adjusting the rotation of screw rod 041, to reduce its stress.

After adjusting screw rod 041 to it calmly, under normal operating conditions, braiding shaft 012 is connected to motor, and passes through motor control The rotation of shaft 012 is woven, and then controls the rotation of braiding idler wheel 013 and connecting crank 036, when system braiding idler wheel 013 rotates During, it is by braiding mandril 014 that knitting cam 37 is downward when the outer wall and braiding convex block 018 for weaving idler wheel 013 contact It pushes away, when weaving convex block 018 in braiding groove 017, is jacked up, realized to volume by top plate 015 is woven by braiding spring 016 The reset of mandril 014 is knitted, realization moves up and down control to knitting cam 37.

Connecting crank 036 is mounted in braiding shaft 012, and connection shaft 037 and braiding shaft 012 are arranged, and is realized to even The weave control of connective pole 035, and then by the connection control of connecting rod 035 connection pedestal 033 along connection 034 reciprocally swinging of shaft.

When connection pedestal 033 is swung to the right along connection shaft 034, connection driving lever 031 is located in needle overturning allocating slot 027, this When on the left of connection jacking block 032 contacted with the needle overturning inverted draw cut 028 in left side, right side connection jacking block 032 and right side needle overturning inverted draw cut 028 separation, while right side needle overturning mandril 023 downwards push right side needle overturning apical ring 022, and the needle overturning mandril 023 in left side to On push left side needle overturning apical ring 022.

When connection pedestal 033 is swung to the left along connection shaft 034, connection driving lever 031 is located in needle overturning allocating slot 027, this When on the right side of connection jacking block 032 contacted with the needle overturning inverted draw cut 028 on right side, left side connection jacking block 032 and left side needle overturning inverted draw cut 028 separation, while left side needle overturning mandril 023 downwards push left side needle overturning apical ring 022, and the needle overturning mandril 023 on right side to On push right side needle overturning apical ring 022；It is prolonged its service life with reducing its stress.

022 reciprocally swinging of needle overturning apical ring is controlled by needle overturning mandril 023, and then dish mountain can be controlled by needle overturning connecting rod 021 38 move up and down, so that knitting cam 37 and the movement on dish mountain 38 more coordinate, avoid at work there is a situation where striker, Simultaneously without cam drive, noise when work is reduced.

In addition, it should be noted that, the specific embodiments described in this specification, the shape of parts and components are named Title etc. can be different, and above content is only to structure of the invention example explanation described in this specification.It is all according to According to equivalence changes or simple change that the invention patent design structure, feature and principle is done, it is included in this hair In the protection scope of bright patent.Those skilled in the art can do described specific embodiment various The mode that the modify or supplement or adopt of various kinds is similar substitutes, and without departing from structure of the invention or surmounts present claims Range defined in book, is within the scope of protection of the invention.

Claims (10)

1. a kind of three system flat knitting machine soleplates, including triangle motherboard (1), needle selection motherboard (2), three triangular units (3) and three choosings Needle unit (4), the triangle motherboard (1) connect with needle selection motherboard (2), and three triangular units (3) are installed in triangle mother On plate (1), three needle selection units (4) are installed on needle selection motherboard (2), each triangular unit (3) and a needle selection list First (4) are corresponding, it is characterised in that:

It further include braiding device (01), needle overturning device (02), attachment device (03), regulating device (04), positioning device (05), a left side Upper shield mountain (51), upper right shield mountain (52), in upper shield mountain (53), left back-stitching cam (61), right back-stitching cam (62), peach-shaped protect mountain (63), left reservation shield mountain (71), right reservation protect mountain (72), retain and protect mountain (73), left long shield mountain (81), right length shield mountain (82), length Protect mountain (83), middle long shield mountain (84), lower-left Hu Shan (91), bottom right Hu Shan (92), lower shield mountain (93) and under shield mountain (94),

The triangular unit (3) include left redundant degree mesh triangle (31), right redundant degree mesh triangle (32), left degree mesh triangle (33), Right degree mesh triangle (34), sharp mountain (35), needle overturning triangle (36), knitting cam (37) and dish mountain (38), the needle selection unit (4) are wrapped Include that triangle (41) is pushed pin on a left side and triangle (42) are pushed pin on the right side；

The upper left Hu Shan (51), upper right shield mountain (52), in upper shield mountain (53), left back-stitching cam (61), right back-stitching cam (62), Peach-shaped shield mountain (63), left reservation shield mountain (71), right reservation shield mountain (72) and reservation shield mountain (73) are installed in triangle motherboard (1) On, left long shield mountain (81), right long shield mountain (82), long shield mountain (83), middle long shield mountain (84), lower-left Hu Shan (91), bottom right shield Mountain (92), lower shield mountain (93) and in lower shield mountain (94) be installed on needle selection motherboard (2),

The point mountain (35) is located at the top of triangle motherboard (1), and the needle overturning triangle (36) is located at the lower section of sharp mountain (35), described Knitting cam (37) is located at the lower section of needle overturning triangle (36), and the dish mountain (38) is located at the lower section of knitting cam (37), the left side Auxiliary degree mesh triangle (31) and right redundant degree mesh triangle (32) are located at the two sides of sharp mountain (35), the left degree mesh triangle (33) The two sides of knitting cam (37) are located at right degree mesh triangle (34), the upper left Hu Shan (51) is located at left redundant degree mesh triangle (31) left side, upper right shield mountain (52) are located at the right side of right redundant degree mesh triangle (32), it is described in upper protect mountain (53) be located at The right side of right redundant degree mesh triangle (32) in one triangular unit (3), and upper shield mountain (53) is located at adjacent another three in this The left side of left redundant degree mesh triangle (31) in angle unit (3),

The left back-stitching cam (61) is located at the left side of left degree mesh triangle (33), and the right back-stitching cam (62) is located at right degree mesh three The right side at angle (34), peach-shaped shield mountain (63) are located at the right side of right degree mesh triangle (34) in a triangular unit (3), and the peach Shape shield mountain (63) is located at the left side of left degree mesh triangle (33) in another adjacent triangular unit (3),

Mountain (73) are protected in left reservation shield mountain (71) and the right two sides for retaining shield mountain (72) and being located at dish mountain (38), the reservation Between dish mountain (38) in two neighboring triangular unit (3),

Left long shield mountain (81) is located at the left lower section for retaining shield mountain (71), and right long shield mountain (82) is located at right reservation shield mountain (72) lower section, the middle long middle part protected mountain (84) and be located at needle selection motherboard (2), left long shield mountain (81) and middle long shield mountain (84) one long shield mountain (83) is respectively installed between right long shield mountain (82) and middle long shield mountain (84) between,

The lower-left Hu Shan (91) is located at the lower section of left long shield mountain (81), and the bottom right Hu Shan (92) is located at right long shield mountain (82) Lower section, it is described in lower shield mountain (94) be located at the middle part of needle selection motherboard (2), and lower shield mountain (94) is located at middle long protect mountain (84) in this Lower section, the lower-left Hu Shan (91) and in protect between mountain (94) down in and respectively install with bottom right Hu Shan (92) between lower shield mountain (94) Have and protect mountain (93) under one, and lower shield mountain (93) is located at lower section of long shield mountain (83), triangle (41) are pushed pin positioned at a left side in the left side The top of lower shield mountain (91) and lower shield mountain (93), right side triangle (42) of pushing pin are located at bottom right Hu Shan (92) and lower protect mountain (93) Top；

The knitting cam (37) connect with braiding device (01), and weaves device (01) and be mounted on triangle motherboard (1), described Braiding device (01) is connect with attachment device (03), and the attachment device (03) contacts with needle overturning device (02), the needle overturning dress It sets (02) to connect with needle overturning triangle (36), the regulating device (04) and positioning device (05) are installed in attachment device (03) On, and positioning device (05) and regulating device (04) cooperate.

2. three systems flat knitting machine soleplate according to claim 1, it is characterised in that: the needle selection unit (4) further includes playback Guide block, the resetting guide block are located at the lower section that triangle (41) are pushed pin on a left side and the right side is pushed pin in the middle part of triangle (42).

3. three systems flat knitting machine soleplate according to claim 1, it is characterised in that: the left redundant degree mesh triangle (31) and the right side Auxiliary degree mesh triangle (32) He Zuodu mesh triangle (33) and right degree mesh triangle (34) are slidably mounted on triangle motherboard (1).

4. three systems flat knitting machine soleplate according to claim 1, it is characterised in that: the braiding device (01) includes braiding bottom Seat (011), braiding shaft (012), braiding idler wheel (013), braiding mandril (014), braiding top plate (015), braiding spring (016), groove (017) and braiding convex block (018) are woven,

The braiding pedestal (011) is mounted on triangle motherboard (1), and the braiding shaft (012) is mounted on braiding pedestal (011) On, the braiding idler wheel (013) is mounted in braiding shaft (012), and braiding groove (017) setting is in braiding idler wheel (013) on, braiding convex block (018) setting is in one end of braiding mandril (014), and it is recessed positioned at weaving to weave convex block (018) In slot (017), the other end of braiding mandril (014) is connect with knitting cam (37), and the braiding top plate (015) is fixed on It weaves on mandril (014), one end of braiding spring (016) is abutted with braiding top plate (015), the braiding spring (016) The other end with braiding pedestal (011) abut, the braiding shaft (012) connect with attachment device (03).

5. three systems flat knitting machine soleplate according to claim 1, it is characterised in that: the needle overturning device (02) includes that needle overturning connects Bar (021), needle overturning apical ring (022), needle overturning mandril (023), needle overturning pedestal (024), needle overturning shaft (025), needle overturning axle bed (026), needle overturning allocating slot (027) and needle overturning inverted draw cut (028),

The needle overturning apical ring (022) is fixed on one end of needle overturning connecting rod (021), the other end of the needle overturning connecting rod (021) with turn over Needle triangle (36) connection, one end of the needle overturning mandril (023) are located in needle overturning apical ring (022), the needle overturning mandril (023) The other end is mounted on needle overturning pedestal (024), and the needle overturning pedestal (024) is mounted on needle overturning axle bed by needle overturning shaft (025) (026) on, the needle overturning axle bed (026) is mounted on triangle motherboard (1), the needle overturning allocating slot (027) and needle overturning inverted draw cut (028) It is arranged on needle overturning pedestal (024), the needle overturning allocating slot (027) and needle overturning inverted draw cut (028) are contacted with attachment device (03).

6. three systems flat knitting machine soleplate according to claim 1, it is characterised in that: the attachment device (03) includes that connection is dialled Bar (031), connection jacking block (032), connection pedestal (033), connection shaft (034), connection connecting rod (035), connecting crank (036) With connection shaft (037),

The connection driving lever (031) and connection jacking block (032) are installed in connection pedestal (033), the connection pedestal (033) It is mounted in connection shaft (034), the connection shaft (034) is rotatably installed on triangle motherboard (1), the connection driving lever (031) one end is located in needle overturning allocating slot (027), and the connection jacking block (032) contacts with needle overturning inverted draw cut (028), the connection One end and regulating device (04) of connecting rod (035) are rotatablely connected, and the regulating device (04) is slidably mounted on connection pedestal (033) On, the other end of connection connecting rod (035) is fixed on connection song with shaft (037) connection, the connection shaft (037) is connect On handle (036), the connecting crank (036) is mounted in the braiding shaft (012) of braiding device (01), the positioning device (05) it is mounted in connection pedestal (033).

7. three systems flat knitting machine soleplate according to claim 1, it is characterised in that: the regulating device (04) includes adjusting silk Bar (041) adjusts slide (042), adjustment base (043), adjusting slider (044), adjusts sliding slot (045), adjusts annulus (046) With adjust annular groove (047),

The adjusting screw rod (041) and adjust slide (042) be installed in connection pedestal (033) on, and adjust screw rod (041) with It adjusts slide (042) to be connected through a screw thread, the adjustment base (043), which is fixed on, to be adjusted on slide (042), the adjustment base (043) it is rotatablely connected with the one end for connecting connecting rod (035), the adjusting slider (044) is fixed on the two of adjusting slide (042) Side, the adjusting sliding slot (045) and adjusting annular groove (047) are arranged in connection pedestal (033), the adjusting slider (044) Positioned at adjusting in sliding slot (045), the adjusting annulus (046), which is fixed on, to be adjusted on screw rod (041), the adjusting annulus (046) Positioned at adjusting in annular groove (047), the adjusting annulus (046) contacts with positioning device (05).

8. three systems flat knitting machine soleplate according to claim 1, it is characterised in that: the positioning device (05) includes positioning top Bar (051), positioning base (052), retaining spring (053), locating convex block (054), positioning groove (055), placed channel (056), ring cavity (057) and positioning apical pore (058) are positioned,

The positioning groove (055), placed channel (056) and positioning ring cavity (057) are arranged in connection pedestal (033), institute It states positioning ring cavity (057) to be coaxially set with placed channel (056), the diameter of positioning ring cavity (057) is greater than placed channel (056) diameter, inner wall of positioning groove (055) setting in placed channel (056), positioning apical pore (058) setting On adjusting annulus (046), the locating convex block (054) is fixed on positioning mandril (051), positioning mandril (051) position In placed channel (056), one end of the positioning mandril (051) is located in positioning apical pore (058), the positioning base (052) it is fixed on the other end of positioning mandril (051), one end of the retaining spring (053) is abutted with pedestal (033) is connect, The other end of the retaining spring (053) is abutted with positioning base (052), and the locating convex block (054) is located at positioning ring cavity (057) in, and locating convex block (054) is contacted with the bottom wall of positioning ring cavity (057)；And/or；When one end of positioning mandril (051) When outer positioned at positioning apical pore (058), the locating convex block (054) is located in positioning groove (055).

9. three systems flat knitting machine soleplate according to claim 5, it is characterised in that: the quantity of the needle overturning apical ring (022) is Two, described two needle overturning apical rings (022) are located at the two sides of needle overturning connecting rod (021), and two needle overturning apical ring (022) dislocation Setting, described two needle overturning apical rings (022) are waist type structure.

10. three systems flat knitting machine soleplate according to claim 5, it is characterised in that: the quantity of the needle overturning inverted draw cut (028) It is two, described two needle overturning inverted draw cuts (028) are installed on needle overturning pedestal (024), and the needle overturning allocating slot (027) is located at two Between needle overturning inverted draw cut (028), described two needle overturning inverted draw cuts (028) are respectively contacted with a connection jacking block (032).