CN108085856B - Double-system computerized flat knitting machine cam plate - Google Patents

Double-system computerized flat knitting machine cam plate Download PDF

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Publication number
CN108085856B
CN108085856B CN201711488073.XA CN201711488073A CN108085856B CN 108085856 B CN108085856 B CN 108085856B CN 201711488073 A CN201711488073 A CN 201711488073A CN 108085856 B CN108085856 B CN 108085856B
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mountain
auxiliary
triangle
needle
cam
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CN108085856A (en
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王靖敏
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Tongxiang Qianglong Machinery Co Ltd
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Tongxiang Qianglong Machinery Co Ltd
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Priority to CN201711488073.XA priority Critical patent/CN108085856B/en
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    • DTEXTILES; PAPER
    • D04BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
    • D04BKNITTING
    • D04B15/00Details of, or auxiliary devices incorporated in, weft knitting machines, restricted to machines of this kind
    • D04B15/32Cam systems or assemblies for operating knitting instruments
    • D04B15/36Cam systems or assemblies for operating knitting instruments for flat-bed knitting machines

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Knitting Machines (AREA)

Abstract

The invention relates to a double-system computerized flat knitting machine cam plate, wherein a triangle motherboard is provided with an auxiliary stitch and an auxiliary stitch transmission mechanism; the auxiliary mesh transmission mechanism comprises an auxiliary mesh motor, a motor seat, an auxiliary mesh sliding bar, a sliding bar gear, a sliding bar fixing seat, an auxiliary mesh clip and an auxiliary mesh sliding block; the motor base is fixed on the triangle motherboard; the auxiliary stitch motor is fixedly connected to the motor seat; an output shaft of the auxiliary mesh motor is connected with the slide bar gear; the slide bar gear is in meshed transmission connection with the auxiliary degree slide bar; the four auxiliary degree mesh clamps are respectively provided with two groups of two sides of the splayed sliding grooves in a group, are fixedly connected to the triangular motherboard, and are connected with the rotating strips and the auxiliary degree mesh sliding blocks; the slide bar fixing seat is fixedly connected to the triangle motherboard, and the auxiliary stitch slide bar is placed on the slide bar fixing seat and in the accommodating groove of the auxiliary stitch clip. The auxiliary mesh transmission mechanism has the characteristics of high precision, simple adjustment and simple transmission structure.

Description

Double-system computerized flat knitting machine cam plate
Technical Field
The invention relates to the technical field of knitting, in particular to a double-system computerized flat knitting machine cam plate.
Background
At present, a cam plate of a flat knitting machine is one of important parts of a computerized flat knitting machine, and has important influence on knitting quality. The prior double-system flat knitting machine cam has the defects of non-compact structure, low working efficiency, unstable transmission, large noise and non-adjustable eye hanging tightness, and in addition, the auxiliary eye transmission structure has the problems of unreasonable structural design and low precision.
For example, the Chinese patent of the invention with the application number 2017107048081: the technical scheme of the computerized flat knitting machine cam is that the auxiliary stitch transmission structure is designed as follows: the guide cushion block is arranged on the triangle motherboard, the auxiliary mesh connecting rod is arranged on the guide cushion block in a sliding manner, the inclined auxiliary mesh connecting rod sliding groove is formed in the auxiliary mesh connecting rod, the auxiliary mesh sliding block is connected to the auxiliary mesh connecting rod sliding groove in a sliding manner, the auxiliary mesh sliding block is connected with the auxiliary mesh, the motor is connected with the poking rod, the poking rod is connected with the auxiliary mesh connecting rod, the auxiliary mesh connecting rod is driven to move through the motor, and then the auxiliary mesh is driven to directionally slide, so that the following problems exist in the transmission structure: 1. the guide cushion block is fixed on the triangle motherboard through a screw, and the screw is loosened, so that deviation is easily caused to the movement of the auxiliary degree connecting rod, and the transmission precision of the auxiliary degree is further affected; 2. through the supplementary degree mesh connecting rod spout of design slope and then drive the directional removal of supplementary degree mesh slider that is located it, practical in-process, the spout is easy to wear, leads to control accuracy not high.
Disclosure of Invention
The invention aims to overcome the defects in the prior art and provide the double-system computerized flat knitting machine cam plate which is reasonable in structural design, stable in transmission and high in auxiliary degree transmission precision.
The invention solves the problems by adopting the following technical scheme:
a double-system computerized flat knitting machine cam plate comprises a triangle motherboard and a needle selecting motherboard, wherein the triangle motherboard and the needle selecting motherboard are connected together to form a cam plate bottom plate; the cam mother board is provided with an upper mountain protection left side, a needle turning cam I, a needle tip I, an upper mountain protection middle side, a needle tip II, a needle turning cam II, an upper mountain protection right side, a needle return cam left side, a first stitch cam left side, a knitting cam I, a first stitch cam right side, a peach-shaped mountain protection, a second stitch cam left side, a knitting cam II, a second stitch cam right side, a needle return cam right side, a dish mountain I, a dish mountain II, a hanging mesh leg pressing side, a needle connecting leg pressing side, a non-knitting pressing side, a reserved mountain protection left side, a reserved mountain protection right side and a reserved mountain protection middle side; the left side of the upper mountain guard, the first mountain guard, the middle side of the upper mountain guard, the second mountain guard and the right side of the upper mountain guard are sequentially arranged from left to right; the left of the upper guard mountain and the left of the needle return triangle are sequentially arranged from top to bottom; the right of the upper guard mountain, the right of the needle return triangle and the right of the reserved guard mountain are sequentially arranged from top to bottom; the needle turning triangle I is arranged below the pointed mountain I; the knitting cam I is positioned below the needle turning cam I; the first dish mountain is positioned below the first knitting triangle; the needle turning triangle II is arranged below the tip mountain II; the knitting cam II is positioned below the needle turning cam II; the dish mountain is positioned below the knitting triangle II; the left side of the first stitch cam and the right side of the first stitch cam are arranged on two sides of the first knitting cam; the left and right of the second stitch cam are arranged on the two sides of the second knitting cam; the peach-shaped mountain guard is positioned between the right of the first stitch triangle and the left of the second stitch triangle, and the reserved mountain guard is arranged below the peach-shaped mountain guard; the lower parts of the first dish mountain and the second dish mountain are respectively provided with a hanging eye pressing leg, a needle pressing leg and a non-woven pressing sheet, wherein the hanging eye pressing leg and the needle pressing leg are horizontally arranged, and the non-woven pressing sheet is positioned below the hanging eye pressing leg and the needle pressing leg; the needle selecting mother board is provided with a long mountain protection left, a long mountain protection first, a long mountain protection second, a long mountain protection right, a small red flag first, a small red flag second, a first push needle triangle left, a first push needle triangle right, a second push needle triangle left, a second push needle triangle right, a lower mountain protection left, a lower mountain protection middle, a lower mountain protection right, a homing guide block first and a homing guide block second; the long mountain protection left, the long mountain protection first, the long mountain protection middle, the long mountain protection second and the long mountain protection right are sequentially arranged from left to right; the first small red flag is positioned below the left of the long protected mountain, and the second small red flag is positioned below the right of the long protected mountain; the left side of the lower mountain guard, the middle side of the lower mountain guard and the right side of the lower mountain guard are sequentially arranged at the lower edge of the needle selecting mother board from left to right; the homing guide block I is arranged at the joint of the left side of the lower mountain and the lower mountain; the homing guide block II is arranged at the joint between the lower mountain guard and the right side of the lower mountain guard; the first push needle triangle, the right push needle triangle, the left push needle triangle and the right push needle triangle are sequentially arranged on the needle selecting mother board from left to right; the method is characterized in that: the triangle motherboard is also provided with a first auxiliary degree left, a first auxiliary degree right, a second auxiliary degree left, a second auxiliary degree right and an auxiliary degree transmission mechanism; the auxiliary mesh transmission mechanism comprises an auxiliary mesh motor, a motor seat, an auxiliary mesh sliding bar, a sliding bar gear, a sliding bar fixing seat, four auxiliary mesh clamps and four auxiliary mesh sliding blocks; one end of the auxiliary degree sliding strip is of a rack structure, and the structure of the auxiliary degree sliding strip sequentially comprises a first straight part, a first bulge part, a second straight part, a second bulge part, a third straight part and a third bulge part from one end with the rack structure; the auxiliary stitch clamp is provided with an accommodating groove, one side of the accommodating groove is provided with a fixed shaft, and the fixed shaft is provided with a rotating strip; the triangular motherboard is provided with two groups of splayed sliding grooves, the first group of splayed sliding grooves are arranged on two sides of the needle turning triangle I, and the second group of splayed sliding grooves are arranged on two sides of the needle turning triangle II; the auxiliary degree mesh sliding block is slidably arranged in the splayed sliding groove; the left auxiliary degree mesh, the right auxiliary degree mesh, the left auxiliary degree mesh and the right auxiliary degree mesh are in one-to-one correspondence with the four auxiliary degree mesh sliding blocks and are fixedly connected; the motor base is fixed on the triangle motherboard; the auxiliary stitch motor is fixedly connected to the motor seat; an output shaft of the auxiliary mesh motor is connected with the slide bar gear; the gear part of the slide bar gear is in meshed transmission connection with a rack structure on the auxiliary degree slide bar; the four auxiliary degree mesh clamps are respectively provided with two groups of two sides of the splayed sliding grooves in a group, are fixedly connected to the triangle motherboard, and one end of the rotating strip is connected with the auxiliary degree mesh sliding block; the slide bar fixing seat is fixedly connected to the triangle motherboard, and the auxiliary degree slide bar is slidably arranged on the slide bar fixing seat and is arranged in the accommodating grooves of the four auxiliary degree clamps.
Preferably, the auxiliary stitch motor is a stepping motor.
Preferably, the motor base is fixed to the triangle motherboard through screws.
Preferably, the triangle master of the invention has a width of 300mm.
Preferably, the triangular motherboard is also fixedly connected with three guiding and positioning plates which are arranged at two sides of the auxiliary degree sliding strip.
Compared with the prior art, the invention has the following advantages and effects:
1. the auxiliary mesh transmission mechanism adopts a slide bar gear to drive an auxiliary mesh slide bar to move, and an auxiliary mesh clip is arranged to drive the auxiliary mesh to move directionally, so that the auxiliary mesh transmission mechanism has the characteristics of high precision, simplicity in adjustment and simplicity in whole transmission structure;
2. compared with the width of the bottom plate of the existing double system, the width of the bottom plate of the double system is reduced by 40mm, the whole structure is more compact, the weight of the machine head is reduced, and the working efficiency is improved.
Drawings
Fig. 1 is a schematic view showing a front structure of a cam plate of a flat knitting machine according to an embodiment of the present invention.
Fig. 2 is a schematic view showing a back structure of a cam plate of a flat knitting machine according to an embodiment of the present invention.
Fig. 3 is a schematic structural diagram of an auxiliary mesh transmission mechanism in an embodiment of the invention.
Fig. 4 is a schematic structural diagram of an auxiliary stitch slider in an embodiment of the present invention.
Fig. 5 is a schematic structural view of an auxiliary stitch clip according to an embodiment of the present invention.
Detailed Description
The present invention will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and not limited to the following examples.
Examples
See fig. 1 to 5.
The embodiment of the invention relates to a double-system computerized flat knitting machine mountain board, which comprises a triangle motherboard 1 and a needle selecting motherboard 2, wherein the triangle motherboard 1 and the needle selecting motherboard 2 are connected together to form a mountain board bottom board.
In the embodiment of the invention, an upper guard left 3, a stitch cam I5, a stitch cam I6, an upper guard middle 8, a stitch cam II 10, a stitch cam II 11, an upper guard right 13, a return cam left 14, a stitch cam left 15, a knitting cam I16, a stitch cam right 17, a peach-shaped guard 18, a stitch cam II left 19, a knitting cam II 20, a stitch cam II right 21, a return cam right 22, a dish cam I23, a dish cam II 24, a lifting eye leg 25, a needle pressing leg 26, a non-knitting pressing sheet 27, a reserved guard left 28, a reserved guard right 29, a reserved guard middle 46, a first auxiliary stitch left 4, a first auxiliary stitch right 7, a second auxiliary stitch left 9, a second auxiliary stitch right 12 and an auxiliary stitch transmission mechanism are arranged on a triangle motherboard 1.
In the embodiment of the invention, the upper mountain protection left 3, the mountain protection first 6, the upper mountain protection middle 8, the mountain protection second 10 and the upper mountain protection right 13 are sequentially arranged from left to right. The upper mountain protection left 3, the needle return triangle left 14 and the reserved mountain protection left 28 are sequentially arranged from top to bottom. The upper guard right 13, the needle return triangle right 22 and the reserved guard right 29 are sequentially arranged from top to bottom. The needle turning cam I5 is arranged below the tip mountain I6; the knitting cam I16 is positioned below the needle turning cam I5; the dish one 23 is located below the knitting cam one 16. The needle turning triangle II 11 is arranged below the tip mountain II 10; the knitting cam II 20 is positioned below the needle turning cam II 11; the second dish mountain 24 is located below the second knitting cam 20. The left stitch cam 15 and the right stitch cam 17 are arranged on two sides of the first knitting cam 16; the second stitch cam left 19 and the second stitch cam right 21 are arranged on two sides of the knitting cam two 20. The peach-shaped guard mountain 18 is positioned between the right 17 of the first stitch cam and the left 19 of the second stitch cam, and the reserved guard mountain 46 is arranged below the peach-shaped guard mountain 18. The lower parts of the first dish mountain 23 and the second dish mountain 24 are respectively provided with a hanging eye pressing leg 25, a needle pressing leg 26 and a non-woven pressing sheet 27, wherein the hanging eye pressing leg 25 and the needle pressing leg 26 are horizontally arranged, and the non-woven pressing sheet 27 is positioned below the hanging eye pressing leg 25 and the needle pressing leg 26.
The needle mother board 2 is provided with a long mountain protection left 30, a long mountain protection first 31, a long mountain protection second 33, a long mountain protection right 34, a small red flag first 35, a small red flag second 36, a first push needle triangle left 37, a first push needle triangle right 38, a second push needle triangle left 39, a second push needle triangle right 40, a lower mountain protection left 41, a lower mountain protection second 42, a lower mountain protection right 43, a homing guide first 44 and a homing guide second 45.
In the embodiment of the invention, a long mountain protection left 30, a long mountain protection first 31, a long mountain protection middle 32, a long mountain protection second 33 and a long mountain protection right 34 are sequentially arranged from left to right. The first small red flag 35 is positioned below the left 30 of the long protected mountain, and the second small red flag 36 is positioned below the right 34 of the long protected mountain. The left 41, the middle 42 and the right 43 of the lower guard are arranged at the lower edge of the needle selecting mother board 2 from left to right. The homing guide block I44 is arranged at the joint of the lower mountain protection left 41 and the lower mountain protection middle 42; the second homing guide 45 is arranged at the joint of the lower guard center 42 and the right lower guard center 43. The first push needle triangle left 37, the first push needle triangle right 38, the second push needle triangle left 39, and the second push needle triangle right 40 are sequentially arranged on the needle selecting mother board 2 from left to right.
The auxiliary mesh transmission mechanism in the embodiment of the invention comprises an auxiliary mesh motor 47, a motor seat 48, an auxiliary mesh slide bar 49, a slide bar gear 50, a slide bar fixing seat 51, four auxiliary mesh clamps 52 and four auxiliary mesh sliding blocks 56.
In the embodiment of the invention, two groups of splayed sliding grooves are arranged on a triangle motherboard 1, the first group of splayed sliding grooves are arranged on two sides of a needle turning triangle I5, and the second group of splayed sliding grooves are arranged on two sides of a needle turning triangle II 11; the auxiliary degree mesh sliding block 56 is slidably arranged in the splayed sliding groove; the first auxiliary degree left 4, the first auxiliary degree right 7, the second auxiliary degree left 9 and the second auxiliary degree right 12 are in one-to-one correspondence with the four auxiliary degree sliding blocks 56 and are fixedly connected.
One end of the auxiliary stitch slide bar 49 is a rack structure 49-1, and the structure of the auxiliary stitch slide bar 49 is a first straight portion 49-2, a first convex portion 49-3, a second straight portion 49-4, a second convex portion 49-5, a third straight portion 49-6 and a third convex portion 49-7 from the end with the rack structure 49-1. The auxiliary stitch clamp 52 is provided with a receiving groove 52-1, one side of the receiving groove 52-1 is provided with a fixed shaft 52-3, and the fixed shaft 52-3 is provided with a rotating bar 52-2.
In the embodiment of the invention, a motor seat 48 is fixed on a triangle motherboard 1 through a screw, an auxiliary mesh motor 47 is a stepping motor and is fixedly connected to the motor seat 48, an output shaft of the auxiliary mesh motor 47 is connected with a slide bar gear 50, and a gear part of the slide bar gear 50 is in meshed transmission connection with a rack structure 49-1 on an auxiliary mesh slide bar 49. The four auxiliary stitch clips 52 are respectively provided with two splayed slide grooves in a group of two sides, and are fixedly connected to the triangle motherboard 1, and one end of the rotating bar 52-2 is connected with the auxiliary stitch slide block 56. The slide bar fixing seat 51 is fixedly connected to the triangle motherboard 1, and the auxiliary stitch slide bar 49 is slidably disposed on the slide bar fixing seat 51 and is disposed in the accommodating grooves 52-1 of the four auxiliary stitch clips 52.
In the embodiment of the present invention, in the initial position, the receiving grooves 52-1 of the four auxiliary stitch clips 52 are respectively engaged to the excessive connection a of the third convex portion 49-7 and the third flat portion 49-6, the excessive connection b of the third flat portion 49-6 and the second convex portion 49-5, the excessive connection c of the second convex portion 49-5 and the second flat portion 49-4, and the excessive connection d of the second flat portion 49-4 and the first convex portion 49-3 of the auxiliary stitch slider 49.
In the embodiment of the invention, the width of the triangle motherboard 1 is 300mm, three guide positioning plates 57 are fixedly connected to the triangle motherboard 1 and are arranged on two sides of the auxiliary mesh sliding bar 49, and when the auxiliary mesh sliding bar 49 moves left and right under the drive of the auxiliary mesh motor 47, the auxiliary mesh sliding bar 49 performs a guide function.
In the embodiment of the invention, the working process of the auxiliary mesh transmission mechanism is as follows: the auxiliary mesh motor 47 drives the slide bar gear 50 to rotate left and right, the slide bar gear 50 is meshed with a rack structure 49-1 on the auxiliary mesh slide bar 49 for transmission, and further drives the auxiliary mesh slide bar 49 to move left and right, and as the auxiliary mesh slide bar 49 is provided with a first convex part 49-3, a second convex part 49-5 and a third convex part 49-7, when the auxiliary mesh slide bar 49 moves left and right, the rotary bar 52-2 of the four auxiliary mesh clamps 52 is driven to rotate in a directional manner, and the directional rotation of the rotary bar 52-2 drives the auxiliary mesh slide block 56 connected with the rotary bar gear to move in a directional manner in the splayed slide groove, so that the auxiliary mesh slide block 56 is driven to move in a directional manner; the movement stroke of the auxiliary mesh slide bar 49 is controlled by the rotation angle of the auxiliary mesh motor 47, so that the auxiliary mesh station is controlled, the auxiliary mesh is randomly adjusted, the precision is high, and the effect is good.
In addition, it should be noted that the specific embodiments described in the present specification may vary from part to part, from name to name, etc., and the above description in the present specification is merely illustrative of the structure of the present invention. All equivalent or simple changes of the structure, characteristics and principle according to the inventive concept are included in the protection scope of the present patent. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions in a similar manner without departing from the scope of the invention as defined in the accompanying claims.

Claims (5)

1. A double-system computerized flat knitting machine cam plate comprises a triangle motherboard and a needle selecting motherboard, wherein the triangle motherboard and the needle selecting motherboard are connected together to form a cam plate bottom plate; the cam mother board is provided with an upper mountain protection left side, a needle turning cam I, a needle tip I, an upper mountain protection middle side, a needle tip II, a needle turning cam II, an upper mountain protection right side, a needle return cam left side, a first stitch cam left side, a knitting cam I, a first stitch cam right side, a peach-shaped mountain protection, a second stitch cam left side, a knitting cam II, a second stitch cam right side, a needle return cam right side, a dish mountain I, a dish mountain II, a hanging mesh leg pressing side, a needle connecting leg pressing side, a non-knitting pressing side, a reserved mountain protection left side, a reserved mountain protection right side and a reserved mountain protection middle side; the left side of the upper mountain guard, the first mountain guard, the middle side of the upper mountain guard, the second mountain guard and the right side of the upper mountain guard are sequentially arranged from left to right; the left of the upper guard mountain and the left of the needle return triangle are sequentially arranged from top to bottom; the right of the upper guard mountain, the right of the needle return triangle and the right of the reserved guard mountain are sequentially arranged from top to bottom; the needle turning triangle I is arranged below the pointed mountain I; the knitting cam I is positioned below the needle turning cam I; the first dish mountain is positioned below the first knitting triangle; the needle turning triangle II is arranged below the tip mountain II; the knitting cam II is positioned below the needle turning cam II; the dish mountain is positioned below the knitting triangle II; the left side of the first stitch cam and the right side of the first stitch cam are arranged on two sides of the first knitting cam; the left and right of the second stitch cam are arranged on the two sides of the second knitting cam; the peach-shaped mountain guard is positioned between the right of the first stitch triangle and the left of the second stitch triangle, and the reserved mountain guard is arranged below the peach-shaped mountain guard; the lower parts of the first dish mountain and the second dish mountain are respectively provided with a hanging eye pressing leg, a needle pressing leg and a non-woven pressing sheet, wherein the hanging eye pressing leg and the needle pressing leg are horizontally arranged, and the non-woven pressing sheet is positioned below the hanging eye pressing leg and the needle pressing leg; the needle selecting mother board is provided with a long mountain protection left, a long mountain protection first, a long mountain protection second, a long mountain protection right, a small red flag first, a small red flag second, a first push needle triangle left, a first push needle triangle right, a second push needle triangle left, a second push needle triangle right, a lower mountain protection left, a lower mountain protection middle, a lower mountain protection right, a homing guide block first and a homing guide block second; the long mountain protection left, the long mountain protection first, the long mountain protection middle, the long mountain protection second and the long mountain protection right are sequentially arranged from left to right; the first small red flag is positioned below the left of the long protected mountain, and the second small red flag is positioned below the right of the long protected mountain; the left side of the lower mountain guard, the middle side of the lower mountain guard and the right side of the lower mountain guard are sequentially arranged at the lower edge of the needle selecting mother board from left to right; the homing guide block I is arranged at the joint of the left side of the lower mountain and the lower mountain; the homing guide block II is arranged at the joint between the lower mountain guard and the right side of the lower mountain guard; the first push needle triangle, the right push needle triangle, the left push needle triangle and the right push needle triangle are sequentially arranged on the needle selecting mother board from left to right; the method is characterized in that: the triangle motherboard is also provided with a first auxiliary degree left, a first auxiliary degree right, a second auxiliary degree left, a second auxiliary degree right and an auxiliary degree transmission mechanism; the auxiliary mesh transmission mechanism comprises an auxiliary mesh motor, a motor seat, an auxiliary mesh sliding bar, a sliding bar gear, a sliding bar fixing seat, four auxiliary mesh clamps and four auxiliary mesh sliding blocks; one end of the auxiliary degree sliding strip is of a rack structure, and the structure of the auxiliary degree sliding strip sequentially comprises a first straight part, a first bulge part, a second straight part, a second bulge part, a third straight part and a third bulge part from one end with the rack structure; the auxiliary stitch clamp is provided with an accommodating groove, one side of the accommodating groove is provided with a fixed shaft, and the fixed shaft is provided with a rotating strip; the triangular motherboard is provided with two groups of splayed sliding grooves, the first group of splayed sliding grooves are arranged on two sides of the needle turning triangle I, and the second group of splayed sliding grooves are arranged on two sides of the needle turning triangle II; the auxiliary degree mesh sliding block is slidably arranged in the splayed sliding groove; the left auxiliary degree mesh, the right auxiliary degree mesh, the left auxiliary degree mesh and the right auxiliary degree mesh are in one-to-one correspondence with the four auxiliary degree mesh sliding blocks and are fixedly connected; the motor base is fixed on the triangle motherboard; the auxiliary stitch motor is fixedly connected to the motor seat; an output shaft of the auxiliary mesh motor is connected with the slide bar gear; the gear part of the slide bar gear is in meshed transmission connection with a rack structure on the auxiliary degree slide bar; the four auxiliary degree mesh clamps are respectively provided with two groups of two sides of the splayed sliding grooves in a group, are fixedly connected to the triangle motherboard, and one end of the rotating strip is connected with the auxiliary degree mesh sliding block; the slide bar fixing seat is fixedly connected to the triangle motherboard, and the auxiliary degree slide bar is slidably arranged on the slide bar fixing seat and is arranged in the accommodating grooves of the four auxiliary degree clamps.
2. The dual system computerized flat knitting machine cam of claim 1, wherein: the auxiliary stitch motor is a stepping motor.
3. The dual system computerized flat knitting machine cam of claim 1, wherein: the motor base is fixed on the triangle motherboard through a screw.
4. The dual system computerized flat knitting machine cam of claim 1, wherein: the width of the triangle master plate is 300mm.
5. The dual system computerized flat knitting machine cam of claim 1, wherein: and the triangular motherboard is also fixedly connected with three guide positioning plates which are arranged on two sides of the auxiliary degree sliding strip.
CN201711488073.XA 2017-12-30 2017-12-30 Double-system computerized flat knitting machine cam plate Active CN108085856B (en)

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CN107326519A (en) * 2017-08-17 2017-11-07 桐乡市强隆机械有限公司 A kind of Computerized flat knitting machine mountain plate
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Publication number Priority date Publication date Assignee Title
US4526017A (en) * 1982-12-11 1985-07-02 Shima Idea Center Co., Ltd. Knitting density adjusting method
CN2623726Y (en) * 2003-04-01 2004-07-07 金永良 Structure improved density cam regulating device
CN104862873A (en) * 2015-05-18 2015-08-26 桐乡市强隆机械有限公司 Dual-system all-motor flat knitting machine bottom plate with dual-motor homing
CN105624905A (en) * 2016-03-08 2016-06-01 浙江丰帆数控机械有限公司 Adjustable tucking and sinking control structure of computerized flat knitting machine
CN107326519A (en) * 2017-08-17 2017-11-07 桐乡市强隆机械有限公司 A kind of Computerized flat knitting machine mountain plate
CN207878009U (en) * 2017-12-30 2018-09-18 桐乡市强隆机械有限公司 A kind of dual system Computerized flat knitting machine mountain plate

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