CN208501216U - A kind of four system computerized flat knitting machine bottom plate apparatus - Google Patents

Abstract

The utility model relates to a kind of four system computerized flat knitting machine bottom plate apparatus, every set cam system includes auxiliary degree mesh driving assembly and degree mesh triangle driving assembly.There is auxiliary degree mesh sliding slot on auxiliary degree mesh draw runner, motor one drives gear one, the rack structure engaged transmission of gear one and auxiliary degree mesh draw runner lower part；The bottom end of left redundant degree mesh sliding block and right redundant degree mesh sliding block is slidably arranged in auxiliary degree mesh sliding slot, and upper part is separately connected left redundant degree mesh and right redundant degree mesh.Spend fixed there are two bearing on mesh draw runner, motor two drives gear two, gear two and degree mesh draw runner lower gear rack structure engaged transmission；Left degree mesh sliding block and right degree mesh slider bottom are respectively provided with groove structure, and when degree mesh draw runner moves left and right, two bearings are respectively acting in groove structure, so that left degree mesh sliding block and right degree mesh sliding block be made to do orientation and move up and down.Multipair auxiliary degree mesh can be controlled separately by a motor control, the degree mesh triangle of each system in the utility model, control more accurate.

Description

A kind of four system computerized flat knitting machine bottom plate apparatus

Technical field

The utility model relates to textile machine apparatus fields, in particular, being related to a kind of four system computerized flat knitting machine bottom plates dress It sets.

Background technique

Floor structure on computer flat-knitting machine head can make knitting needle complete braiding, hang mesh, needle overturning, connect needle and do not knit five bases Movement.In order to improve braid efficiency and the more styles of braiding, technical staff develops dual system in succession or three systems are horizontal Machine bottom board carries out structure and layout optimization to the triangle device installed on bottom plate, in order to enable same a line adjacent windings size Enough adjustings, fabric change, increase stereovision, generally require that a pair of of auxiliary degree mesh is arranged in the top of a pair of of degree mesh triangle.

Multipair auxiliary degree purpose driving device on existing multisystem flat knitting machine soleplate generally uses a motor to combine auxiliary The mode of mesh connecting rod is spent, such as application No. is 2017107048081 Chinese patents: a kind of Computerized flat knitting machine mountain plate, the technical side Left and right linear movement is done using a motor driven auxiliary degree mesh connecting rod in case, is provided with sliding groove structure on auxiliary degree mesh connecting rod, Auxiliary degree mesh can be made to do displacement along the splayed sliding slot on triangle motherboard by sliding groove structure.It is multipair in the technical solution Auxiliary degree mesh is by same motor control, and when work runs simultaneously, and there are the auxiliary degree mesh of each system is not separately controllable Disadvantage.

In addition, one degree mesh triangle of a motor driven is often used in the driving device of degree mesh triangle, in a system A pair of degree mesh triangle is at least set, therefore two motors is at least needed to be driven, when for multisystem flat knitting machine soleplate, bottom plate back Face needs to install multiple motors and carries out driving degree mesh triangle, will cause each components and installs close, increase flat-knitting machine head weight, Its speed of service and precision are influenced, although having the design of motor driven a pair of degree mesh triangle in the prior art, also There are shortcoming and defect, such as application No. is the Chinese patents of 201220351479X: the degree mesh triangle driver of flat machine Structure uses a motor-driven gear case in the technical solution, has a driving lever and a follower lever on gear-box, on driving lever If follower lever is equipped with coaxial third gear and the 4th gear, the second tooth there are two coaxial first gear and second gear Wheel is engaged with the third gear on follower lever, and the 4th gear is engaged with the 5th and the 6th gear simultaneously, the 5th gear and the 6th tooth Wheel engage with the 7th gear and eighth gear respectively, the 7th gear and eighth gear respectively with spend what mesh triangle was fixed together Rack gear is meshed.Design gear case in the technical solution exists if applying in the plate of multisystem straight-bar machines mountain and increases head weight Disadvantage, in addition multipair gear is engaged transmission, if gear occurs completely engage between abrasion will lead to gear, it may occur that shake It is dynamic, influence knitting quality.

Utility model content

The purpose of the utility model is to overcome the above deficiencies in the existing technologies, and provide a kind of structure design conjunction It manages, the auxiliary degree mesh of each system can be controlled separately, a pair of degree mesh triangle only needs motor-driven four system computerized flat knitting machine Bottom plate apparatus.

The technical scheme in the invention for solving the above technical problem is:

A kind of four system computerized flat knitting machine bottom plate apparatus, including triangle motherboard and needle selection motherboard, triangle motherboard and needle selection motherboard It is stitched together and forms flat knitting machine soleplate；On triangle motherboard be arranged four sets of cam systems, four sets of cam systems from left to right and about The middle line of triangle motherboard is relatively symmetrically successively set on triangle motherboard；Four sets of needle selecting systems, four sets of choosings are set on needle selection motherboard Needle system is from left to right and the middle line about needle selection motherboard is relatively symmetrically arranged on needle selection motherboard；A set of cam system corresponding one Cover needle selecting system；Every set cam system includes left redundant degree mesh, right redundant degree mesh, the right degree mesh triangle of left degree mesh trigonometric sum；It is left Auxiliary degree mesh and right redundant degree mesh are arranged on triangle motherboard in splayed；The left right degree mesh triangle of degree mesh trigonometric sum is set in splayed It sets on triangle motherboard, and is located at below left redundant degree mesh and right redundant degree purpose；Between the left right degree mesh triangle of degree mesh trigonometric sum It is provided with the oblique triangle of needle overturning, braiding depressing cam and braiding starting and connects needle depressing cam, and the oblique triangle of needle overturning, braiding depressing cam Needle depressing cam is connect with braiding starting to be successively set on from top to bottom on triangle motherboard；On left redundant degree mesh and right redundant degree purpose Side is disposed with left needle overturning depressing cam from left to right, swings the right needle overturning depressing cam of trigonometric sum；It is characterized by also including Auxiliary degree mesh driving assembly and degree mesh triangle driving assembly；

The auxiliary degree mesh driving assembly includes motor one, auxiliary degree mesh draw runner, left redundant degree mesh sliding block and right redundant degree Mesh sliding block；Auxiliary degree mesh sliding slot is offered on auxiliary degree mesh draw runner, auxiliary degree mesh sliding slot is nonlinear type, auxiliary degree mesh draw runner Lower part is rack structure；Gear one, the rack gear knot of gear one and auxiliary degree mesh draw runner lower part are connected on the output shaft of motor one Structure is engaged transmission；Inserted be arranged in opens up on triangle motherboard respectively for left redundant degree mesh sliding block and right redundant degree mesh sliding block In sliding slot one of a pair in splayed setting；The bottom end of left redundant degree mesh sliding block and right redundant degree mesh sliding block is slidably arranged in In auxiliary degree mesh sliding slot, upper part is separately connected left redundant degree mesh and right redundant degree mesh；

The degree mesh triangle driving assembly includes motor two, degree mesh draw runner, left degree mesh sliding block and right degree mesh sliding block；It is sliding to spend mesh Fixed there are two bearing on item, the lower part of degree mesh draw runner is rack structure；Gear two, gear are connected on the output shaft of motor two Two are engaged transmission with the rack structure for spending mesh draw runner lower part；The top of left degree mesh sliding block and right degree mesh sliding block is provided with one Casting lug thereon, two casting lug thereons are respectively in the inserted sliding slot two that a pair for opening up on triangle motherboard is arranged in splayed setting, Two casting lug thereons are fixedly connected with the right degree mesh triangle of left degree mesh trigonometric sum respectively；The bottom point of left degree mesh sliding block and right degree mesh sliding block It is not provided with groove structure, the two sides of the groove structure are nonplanar structure；When the output shaft rotation driven gear of motor two The rack structure of two rotations, gear two and degree mesh draw runner lower part is engaged and then drive degree mesh draw runner moves left and right, in degree mesh During draw runner moves left and right, two bearings are respectively acting in the groove structure of left degree mesh sliding block and right degree mesh slider bottom, To make left degree mesh sliding block and right degree mesh sliding block do orientation and move up and down.

Preferably, motor one described in the utility model and motor two are mounted in the same motor fixing seat.

Preferably, motor fixing seat described in the utility model back in the side of motor one and motor two from top to bottom It is disposed with draw runner fixinig plate, middle draw runner fixinig plate and lower draw runner fixinig plate；Upper draw runner fixinig plate and middle draw runner fixinig plate By the limit of auxiliary degree mesh draw runner in motor fixing seat；Middle draw runner fixinig plate and lower draw runner fixinig plate limit degree mesh draw runner in electricity In machine fixing seat.

Preferably, the cross section of upper draw runner fixinig plate described in the utility model is L-shaped.

Preferably, motor one described in the utility model and motor two are all made of stepper motor, precision is high, can be accurately Control auxiliary degree mesh draw runner moves left and right distance with degree mesh draw runner.

Preferably, the width of triangle motherboard described in the utility model is 550mm, structure is more compact.

Preferably, being additionally provided on triangle motherboard described in the utility model, left back-stitching cam, right back-stitching cam, a left side is adjustable Triangle, right adjustable triangle, left reservation triangle, right reservation triangle, three intermediate back-stitching cams, three intermediate reservation triangles；A left side is returned The right back-stitching cam left and right settings of needle trigonometric sum, and it is located at the two sides of four sets of cam systems, left adjustable triangle is located at left back-stitching cam Lower section, the left triangle that retains is located at the lower section of left adjustable triangle, and right adjustable triangle is located at the lower section of right back-stitching cam, right reservation three Angle is located at the lower section of right adjustable triangle；Three intermediate back-stitching cams and three intermediate triangles that retain are arranged in a one-to-one correspondence up and down, and It is successively set between per two adjacent cam systems from left to right.

Preferably, there are four motors of pushing pin for the back side setting of needle selection motherboard described in the utility model.

The utility model compared with prior art, has the following advantages that and effect: (1) more compared in existing multisystem One motor control shared to auxiliary degree mesh, when work, multipair auxiliary degree mesh was run simultaneously, each system in the utility model Auxiliary degree mesh can be controlled separately, and a pair of of auxiliary degree mesh is controlled more accurate by a motor control；(2) it is fixed using upper draw runner Auxiliary degree mesh draw runner, degree mesh draw runner are limited in motor fixing seat by piece, middle draw runner fixinig plate and lower draw runner fixinig plate, make to assist Degree mesh draw runner, degree mesh draw runner can only move left and right, and reduce its kinematic error；(3) four system straight-bar machines bottoms of the utility model design Hardened structure is more compact, is suitable for HP type, can be realized braiding, hangs mesh, needle overturning, connect needle, do not knit, weaving tight hang and to hang mesh tight Seven movements are hung, more varied and high-efficient can be woven.

Detailed description of the invention

Fig. 1 is the positive structure schematic of the present embodiment flat knitting machine soleplate.

Fig. 2 is the structure schematic diagram of the present embodiment flat knitting machine soleplate.

Fig. 3 is the positive structure schematic of a quarter triangle motherboard from the right in Fig. 1.

Fig. 4 is the schematic perspective view of Fig. 3.

Fig. 5 is the left view structural representation of Fig. 3.

Fig. 6 is structural schematic diagram after the triangle device removed on triangle motherboard and triangle motherboard in Fig. 3 (for illustrating Auxiliary degree mesh driving assembly and degree mesh triangle driving assembly).

Fig. 7 is the backsight structural representation of left degree mesh sliding block and right degree mesh sliding block in Fig. 6.

Stitch Cam Track schematic diagram when Fig. 8 is needle overturning in the present embodiment.

Fig. 9 is stitch Cam Track schematic diagram when weaving in the present embodiment.

Figure 10 is stitch Cam Track schematic diagram when connecing needle in the present embodiment.

Figure 11 is stitch Cam Track schematic diagram when hanging mesh in the present embodiment.

Figure 12 is stitch Cam Track schematic diagram when not knitting in the present embodiment.

Figure 13 is that stitch Cam Track schematic diagram when tightly hanging is woven in the present embodiment.

Figure 14 is that stitch Cam Track schematic diagram when mesh is tightly hung is hung in the present embodiment.

Description of symbols: triangle motherboard C1；Needle selection motherboard C2；Right back-stitching cam 1；Right adjustable triangle 2；Right reservation triangle 3；Right redundant degree mesh 4；Right needle overturning depressing cam 5；Swing triangle 6；Left needle overturning depressing cam 7；Left redundant degree mesh 8；Right degree mesh three Angle 10；Braiding starting connects needle depressing cam 11；Weave depressing cam 12；Left degree mesh triangle 13；The oblique triangle 14 of needle overturning；Centre retains Triangle 15；Left back-stitching cam 16；Intermediate back-stitching cam 17；Left adjustable triangle 18；Left reservation triangle 19；Motor 1；Motor two 21；Left redundant degree mesh sliding block 22；Auxiliary degree mesh draw runner 23；Auxiliary degree mesh sliding slot 23-1；Right redundant degree mesh sliding block 24；Upper draw runner is solid Stator 25；Motor fixing seat 26；Middle draw runner fixinig plate 27；Right degree mesh sliding block 28；Lower draw runner fixinig plate 29；Spend mesh draw runner 30；Axis Hold 30-1,30-2；Left degree mesh sliding block 31；Groove structure 31-1；Casting lug thereon 31-2；Gear 1；Gear 2 33；Sliding slot 1； Sliding slot 2 35；Stitch 36A；Stitch 36B；Push pin motor E.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing and by embodiment, and following embodiment is pair The explanation of the utility model and the utility model is not limited to following embodiment.

Embodiment.

Referring to Fig. 1 to Figure 14.

The present embodiment four system computerized flat knitting machine bottom plate apparatus of one kind, including triangle motherboard C1 and needle selection motherboard C2, triangle are female Plate C1 and needle selection motherboard C2 are stitched together and form flat knitting machine soleplate, and the present embodiment can be realized braiding, hang mesh, needle overturning, connect needle, no It knits, weave and tightly hang and hang mesh and tightly hang seven movements.

Be provided on triangle motherboard C1 left back-stitching cam 16, right back-stitching cam 1, left adjustable triangle 18, right adjustable triangle 2, Left reservation triangle 19, right reservation triangle 3, three intermediate 17, three intermediate reservation triangles 15 of back-stitching cams and four sets of cam systems A,B,C,D.Four sets of cam systems A, B, C, D are from left to right and the middle line about triangle motherboard C1 is relatively symmetrically successively set on three On the motherboard C1 of angle.1 left and right settings of left back-stitching cam 16 and right back-stitching cam, and it is located at the two sides of four sets of cam systems A, B, C, D, Left adjustable triangle 18 is located at the lower section of left back-stitching cam 16, and the left lower section for retaining triangle 19 and being located at left adjustable triangle 18 is right adjustable Triangle 2 is located at the lower section of right back-stitching cam 1, the right lower section for retaining triangle 3 and being located at right adjustable triangle 2；Three intermediate back-stitching cams 17 and three intermediate about 15 triangles that retain be arranged in a one-to-one correspondence, and be successively set on often two adjacent triangle systems from left to right Between system.

Four sets of needle selecting systems are set on needle selection motherboard C2, and four sets of needle selecting systems are from left to right and about in needle selection motherboard C2 Line is relatively symmetrically arranged on needle selection motherboard C2.A set of cam system corresponds to a set of needle selecting system.The back side of needle selection motherboard C2 is set Push pin motor E there are four setting, and the motor E that pushes pin corresponds to a set of needle selecting system.

Every set cam system include left redundant degree mesh 8, right redundant degree mesh 4, left degree mesh triangle 13, right degree mesh triangle 10, Auxiliary degree mesh driving assembly and degree mesh triangle driving assembly.

Left redundant degree mesh 8 and right redundant degree mesh 4 are arranged on triangle motherboard C1 in splayed；Left degree mesh triangle 13 and right degree Mesh triangle 10 is arranged on triangle motherboard C1 in splayed, and is located at the lower section of left redundant degree mesh 8 and right redundant degree mesh 4.Zuo Du It is provided with the oblique triangle 14 of needle overturning, braiding depressing cam 12 and braiding starting between mesh triangle 13 and right degree mesh triangle 10 and connects needle pressing Triangle 11, and the oblique triangle 14 of needle overturning, braiding depressing cam 12 and braiding starting connect needle depressing cam 11 and set gradually from top to bottom On triangle motherboard C1.The top of left redundant degree mesh 8 and right redundant degree mesh 4 is disposed with left needle overturning depressing cam from left to right 7, triangle 6 and right needle overturning depressing cam 5 are swung.

Auxiliary degree mesh driving assembly includes motor 1, auxiliary degree mesh draw runner 23, left redundant degree mesh sliding block 22 and right redundant Spend mesh sliding block 24.Auxiliary degree mesh sliding slot 23-1 is offered on auxiliary degree mesh draw runner 23, auxiliary degree mesh sliding slot 23-1 is nonlinear type, The lower part of auxiliary degree mesh draw runner 23 is rack structure.Be connected with gear 1 on the output shaft of motor 1, gear 1 with it is auxiliary The rack structure of 23 lower part of degree of helping mesh draw runner is engaged transmission.Left redundant degree mesh sliding block 22 and right redundant degree mesh sliding block 24 are distinguished In the inserted sliding slot 1 that a pair opened up on triangle motherboard C1 is set in splayed setting.22 He of left redundant degree mesh sliding block The bottom end of right redundant degree mesh sliding block 24 is slidably arranged in auxiliary degree mesh sliding slot 23-1, and upper part is separately connected left redundant degree Mesh 8 and right redundant degree mesh 4.The output shaft rotation driven gear 1 of motor 1 rotates, gear 1 and auxiliary degree mesh draw runner The rack structure of 23 lower parts is engaged and then moves left and right with dynamic auxiliary degree mesh draw runner 23, due on auxiliary degree mesh draw runner 23 Auxiliary degree mesh sliding slot 23-1 is nonlinear type, and then makes left redundant degree mesh sliding block 22 and right redundant degree mesh sliding block 24 respectively along three A pair on the motherboard C1 of angle is done orientation in the inner wall of the sliding slot 1 of splayed setting and is moved up and down, so drive respectively with inside left Left redundant degree mesh 8, the right redundant degree mesh 4 that degree of helping mesh sliding block 22, right redundant degree mesh sliding block 24 are fixedly connected do displacement.

Degree mesh triangle driving assembly includes motor 2 21, degree mesh draw runner 30, left degree mesh sliding block 31 and right degree mesh sliding block 28.Degree Fixed there are two bearing 30-1,30-2 on mesh draw runner 30, the lower part of degree mesh draw runner 30 is rack structure.The output shaft of motor 2 21 On be connected with gear 2 33, the rack structure of gear 2 33 and degree 30 lower part of mesh draw runner is engaged transmission.Left degree mesh sliding block 31 It is provided with a casting lug thereon (referring to Fig. 6, the left casting lug thereon 31-2 spent on mesh sliding block 31) with the top of right degree mesh sliding block 28, two Respectively in the inserted sliding slot 2 35 that a pair opened up on triangle motherboard C1 is arranged in splayed setting, two protrude casting lug thereon Block is fixedly connected with left degree mesh triangle 13 and right degree mesh triangle 10 respectively.The rear part of left degree mesh sliding block 31 and right degree mesh sliding block 28 It is not provided with groove structure (referring to Fig. 7, the groove structure 31-1 at left degree 31 rear portion of mesh sliding block), the two sides of the groove structure are Nonplanar structure.When the rotation of output shaft rotation driven gear 2 33 of motor 2 21, gear 2 33 and degree 30 lower part of mesh draw runner Rack structure is engaged and then drive degree mesh draw runner 30 moves left and right, during degree mesh draw runner 30 moves left and right, two axis It holds 30-1,30-2 to be respectively acting in left degree mesh sliding block 31 and the groove structure of right degree 28 bottom of mesh sliding block, to make left degree mesh Sliding block 31 and right degree mesh sliding block 28 are oriented along a pair on triangle motherboard C1 in the inner wall of the sliding slot 2 35 of splayed setting It moves up and down, and then drives left degree mesh triangle 13, the right degree mesh being fixedly connected respectively with left degree mesh sliding block 31, right degree mesh sliding block 28 Triangle 10 does orientation and moves up and down.

Preferably, motor 1 and motor 2 21 are all made of stepper motor in the present embodiment, and precision is high, can accurately control System auxiliary degree mesh draw runner 23 moves left and right distance with degree mesh draw runner 30, and two motors are mounted on the same motor fixing seat On 26, motor fixing seat 26 is fixed back to being disposed with upper draw runner from top to bottom in the side of motor 1 and motor 2 21 Piece 25, middle draw runner fixinig plate 27 and lower draw runner fixinig plate 29, wherein the cross section of upper draw runner fixinig plate 25 is designed as L-type, it is convenient It is more securely fixed in motor fixing seat 26；Upper draw runner fixinig plate 25 and middle draw runner fixinig plate 27 are by auxiliary degree mesh draw runner 23 limits are in motor fixing seat 26；Middle draw runner fixinig plate 27 and lower draw runner fixinig plate 29 limit degree mesh draw runner 30 to be consolidated in motor In reservation 26, to guarantee that auxiliary degree mesh draw runner 23 and degree mesh draw runner 30 can only move left and right, kinematic error is reduced, movement is improved Precision.

The width L of triangle motherboard C1 containing four sets of cam systems in the present embodiment is only 550mm, and structure is more compact, Braid efficiency is higher.

It is that knitting needle is woven, hangs mesh, needle overturning, connects needle, does not knit, weave and tight hang and hang mesh and tightly hang seven referring to Fig. 8 to Figure 14 Cam Track when a movement, is illustrated one by one below.

(1) needle overturning

Referring to Fig. 8, first set cam system is played with the left side and is described, when weaving needle overturning, knitting needle according in figure from a left side to Right direction enters knitting cam, and stitch 36B is moved up along the left inclined-plane for retaining triangle 19, subsequently into left degree mesh triangle Groove needle track on 13, at this time in the not recessed triangle motherboard C1 of the oblique triangle 14 of needle overturning, needle under the action of needle overturning oblique triangle 14 Foot 36B continues to move to the right according to the stitch track in figure, subsequently enters in the braiding needle track on braiding depressing cam 12, in Between retain triangle 15 under the action of, knitting needle walks out knitting cam, is completed at the same time needle overturning.

(2) it weaves

Referring to Fig. 9, first set cam system is played with the left side and is described, when braiding, knitting needle according in figure from left to right Direction enters knitting cam, and stitch 36B is moved up along the left inclined-plane for retaining triangle 19, after then translating one end distance, quilt The bottom face of left degree mesh triangle 13 is caught, and is subsequently entered in the braiding needle track on braiding depressing cam 12, is then passed through right degree mesh 3 10, under the action of centre retains triangle 15, knitting needle walks out knitting cam, completes braiding.

(3) needle is connect

Referring to Fig.1 0, first set cam system played with the left side be described, when connecing needle, knitting needle according in figure from left to right Direction enters knitting cam, and stitch 36B is moved to enter after a distance and be woven along the planar horizontal on left reservation triangle 19 Needle connects the needle needle track completion that connects on needle depressing cam 11 and connects needle, continues thereafter with to move horizontally and walks out knitting cam.

(4) mesh is hung

Referring to Fig.1 1, first set cam system played with the left side be described, when hanging mesh, knitting needle according in figure from left to right Direction enters knitting cam, and stitch 36B enters braiding pressure after moving a distance along the planar horizontal on left reservation triangle 19 In braiding needle track on needle triangle 12, connect needle depressing cam 11 due to weaving starting at this time and be recessed in triangle motherboard C1, knitting needle into It is horizontally moved to the right after entering to weave needle track according to the stitch track in figure, after mobile a distance, in right degree mesh triangle 10 Under the action of, walk out knitting cam.

(5) it does not knit

Referring to Fig.1 2, first set cam system played with the left side be described, when not knitting, knitting needle according in figure from left to right Direction enters knitting cam, and stitch 36B is horizontally moved under the plane effect on left reservation triangle 19 and moves right, until Walk out knitting cam.

(6) braiding is tightly hung

Referring to Fig.1 3, first set cam system is played with the left side and is described, when braiding is tightly hung, knitting needle according in figure from a left side to Right direction enters knitting cam, at this point, left redundant degree mesh 8 is moved down in operating position, stitch 36A first touches inside left The Cam Track of degree of helping mesh 8, the i.e. level of 8 lower part of left redundant degree mesh walk dial, and stitch 36A walks dial along level and moves one section After distance, stitch 36B, which is braided starting and connects the inclined-plane of needle depressing cam 11, to be caught, and is subsequently entered in normal braiding track, until This completes braiding and tightly hangs.

(7) mesh is hung tightly to hang

Referring to Fig.1 4, first set cam system is played with the left side and is described, when hanging mesh and tightly hanging, knitting needle according in figure from a left side to Right direction enters knitting cam, at this point, left redundant degree mesh 8 is moved down in operating position, stitch 36A first touches inside left The Cam Track of degree of helping mesh 8, the i.e. level of 8 lower part of left redundant degree mesh walk dial, and stitch 36A walks dial along level and moves one section After distance, stitch 36B walks dial by the side of left degree mesh triangle 13 and catches, and subsequently enters and normally hangs in mesh track, so far complete It is tightly hung at mesh is hung.

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 the utility model structure example explanation described in this specification. All equivalence changes or simple change done according to structure, feature and principle described in the concept of the patent of the utility model, are wrapped It includes in the protection scope of the utility model patent.Those skilled in the art of the present invention can be to described Specific embodiment does various modifications or additions or is substituted in a similar manner, without departing from the knot of the utility model Structure or beyond the scope defined by this claim, all should belong to the protection range of the utility model.

Claims (8)

1. a kind of four system computerized flat knitting machine bottom plate apparatus, including triangle motherboard and needle selection motherboard, triangle motherboard and needle selection motherboard are spelled It is connected together and forms flat knitting machine soleplate；Four sets of cam systems are set on triangle motherboard, and four sets of cam systems are from left to right and about three The middle line of angle motherboard is relatively symmetrically successively set on triangle motherboard；Four sets of needle selecting systems, four sets of needle selections are set on needle selection motherboard System is from left to right and the middle line about needle selection motherboard is relatively symmetrically arranged on needle selection motherboard；A set of cam system corresponds to a set of Needle selecting system；Every set cam system includes left redundant degree mesh, right redundant degree mesh, the right degree mesh triangle of left degree mesh trigonometric sum；Inside left Degree of helping mesh and right redundant degree mesh are arranged on triangle motherboard in splayed；The left right degree mesh triangle of degree mesh trigonometric sum is arranged in splayed On triangle motherboard, and it is located at below left redundant degree mesh and right redundant degree purpose；It is set between the left right degree mesh triangle of degree mesh trigonometric sum Be equipped with the oblique triangle of needle overturning, braiding depressing cam and braiding starting and connect needle depressing cam, and the oblique triangle of needle overturning, braiding depressing cam and Braiding starting connects needle depressing cam and is successively set on triangle motherboard from top to bottom；Above left redundant degree mesh and right redundant degree purpose It is disposed with left needle overturning depressing cam from left to right, swings the right needle overturning depressing cam of trigonometric sum；It is characterized by also including auxiliary Degree of helping mesh driving assembly and degree mesh triangle driving assembly；

The auxiliary degree mesh driving assembly includes that motor one, auxiliary degree mesh draw runner, left redundant degree mesh sliding block and right redundant degree mesh are sliding Block；Auxiliary degree mesh sliding slot is offered on auxiliary degree mesh draw runner, auxiliary degree mesh sliding slot is nonlinear type, the lower part of auxiliary degree mesh draw runner For rack structure；Be connected with gear one on the output shaft of motor one, the rack structure of gear one and auxiliary degree mesh draw runner lower part into Row engaged transmission；Left redundant degree mesh sliding block and right redundant degree mesh sliding block is inserted respectively that a pair opened up on triangle motherboard is arranged in In sliding slot one in splayed setting；The bottom end of left redundant degree mesh sliding block and right redundant degree mesh sliding block is slidably arranged in auxiliary It spends in mesh sliding slot, upper part is separately connected left redundant degree mesh and right redundant degree mesh；

The degree mesh triangle driving assembly includes motor two, degree mesh draw runner, left degree mesh sliding block and right degree mesh sliding block；It spends on mesh draw runner Fixed there are two bearings, and the lower part for spending mesh draw runner is rack structure；Be connected with gear two on the output shaft of motor two, gear two with The rack structure of degree mesh draw runner lower part is engaged transmission；The top of left degree mesh sliding block and right degree mesh sliding block is provided with a protrusion Block, the inserted a pair opened up on triangle motherboard that is arranged in is in two in the sliding slot two of splayed setting to two casting lug thereons respectively Casting lug thereon is fixedly connected with the right degree mesh triangle of left degree mesh trigonometric sum respectively；The bottom of left degree mesh sliding block and right degree mesh sliding block is set respectively It is equipped with groove structure, the two sides of the groove structure are nonplanar structure；When two turns of output shaft rotation driven gear of motor two Dynamic, the rack structure of gear two and degree mesh draw runner lower part is engaged and then drive degree mesh draw runner moves left and right, in degree mesh draw runner During moving left and right, two bearings are respectively acting in the groove structure of left degree mesh sliding block and right degree mesh slider bottom, thus Left degree mesh sliding block and right degree mesh sliding block is set to do orientation and move up and down.

2. four system computerized flat knitting machines bottom plate apparatus according to claim 1, it is characterised in that: the motor one and motor two It is mounted in the same motor fixing seat.

3. four system computerized flat knitting machines bottom plate apparatus according to claim 2, it is characterised in that: the motor fixing seat back to It is solid that draw runner fixinig plate, middle draw runner fixinig plate and lower draw runner are disposed in the side of motor one and motor two from top to bottom Stator；Upper draw runner fixinig plate and middle draw runner fixinig plate limit auxiliary degree mesh draw runner in motor fixing seat；Middle draw runner fixinig plate Degree mesh draw runner is limited in motor fixing seat with lower draw runner fixinig plate.

4. four system computerized flat knitting machines bottom plate apparatus according to claim 3, it is characterised in that: the upper draw runner fixinig plate Cross section is L-shaped.

5. four system computerized flat knitting machines bottom plate apparatus according to claim 1, it is characterised in that: the motor one and motor two It is all made of stepper motor.

6. four system computerized flat knitting machines bottom plate apparatus according to claim 1, it is characterised in that: the width of the triangle motherboard For 550mm.

7. four system computerized flat knitting machines bottom plate apparatus according to claim 1, it is characterised in that: also set on the triangle motherboard Be equipped with left back-stitching cam, right back-stitching cam, left adjustable triangle, right adjustable triangle, left reservation triangle, right reservation triangle, in three Between back-stitching cam, three intermediate retain triangles；Left back-stitching cam and right back-stitching cam left and right settings, and it is located at four sets of cam systems Two sides, left adjustable triangle is located at the lower section of left back-stitching cam, the left lower section for retaining triangle and being located at left adjustable triangle, right adjustable three Angle is located at the lower section of right back-stitching cam, the right lower section for retaining triangle and being located at right adjustable triangle；Three intermediate back-stitching cams and three Centre retains triangle and is arranged in a one-to-one correspondence up and down, and is successively set between per two adjacent cam systems from left to right.

8. four system computerized flat knitting machines bottom plate apparatus according to claim 1, it is characterised in that: the back side of the needle selection motherboard There are four motors of pushing pin for setting.