CN101314888B

CN101314888B - Triangular knitting control system employing electromagnetic needle selection

Info

Publication number: CN101314888B
Application number: CN2008101244544A
Authority: CN
Inventors: 冯加林; 巫友群
Original assignee: 冯加林; 巫友群
Current assignee: Feng Jia Lin
Priority date: 2008-07-16
Filing date: 2008-07-16
Publication date: 2011-04-06
Anticipated expiration: 2028-07-16
Also published as: WO2010006503A1; CN101314888A

Abstract

The invention relates to a cam knitting control system adopting electromagnetic needle selection. The cam knitting control system comprises a cam bottom plate, knitting cams of a pushing needle jack butt, and an electromagnetic needle selector, wherein the knitting cams are distributed on the cam bottom plate, thereby forming at least a knitting area which comprises the knitting cams such as a transfer cam, a stitch cam, etc.; the electromagnetic needle selector is arranged on the upper side surface of the upper end of the cam bottom plate or the lower side surface of the lower end of the cambottom plate; four needle selection positions are arranged correspondingly to each knitting area, and are divided into two pairs to be symmetrically arranged on the two sides of the knitting area center; according to the motion direction of the needle jack butt relative to the system, the needle selection position II closer to the knitting area center is arranged on the rear side of the initial position of the needle stitching and raising cam contacted by the butt, and the needle selection position I further away from the knitting area center is arranged on the front side of the initial position of the needle stitching and raising cam contacted by the butt. The cam knitting control system has the advantages of very simple structure and very complete functions, thereby laying a foundation for greatly reducing the cost of a computer flat-knitting machine.

Description

A kind of triangular knitting control system that adopts electromagnetic needle selection

Technical field

The present invention relates to computer flat knitting machine, relate in particular to a kind of triangular knitting control system that adopts electromagnetic needle selection.

Background technology

The knitting control system of computer flat-bed knitting machine is arranged on the cam base plate, generally is made up of a plurality of braidings unit.Each braiding unit is made up of the woven extent that is distributed in cam base plate top, the needle selection zone that is distributed in the platen region at cam base plate middle part and is distributed in the cam base plate bottom.Main various knitting cams in the woven extent have fixation clip and movable pressing board in the platen region, needle selection device (dividing two kinds of mechanical type and electromagnetic types), needle selection pressing plate (or needle selection tooth) and needle selecting cam are arranged in the needle selection zone.

Figure 12 is the triangular knitting control system of a kind of computer flat knitting machine of German Manfred Stohl (Stoll) company production, adopts electromagnetic needle selection.In woven extent I, mainly contain stitch cam 180, lopping back stitching triangle 178, depressing cam 870, barring-on and block knitting cams such as braiding such as pin triangle 335 and tuck cam 863.At the cam base plate middle part movable pressing board 261,572 and fixation clip 923 are arranged.Electromagnetic needle selector 100, needle selecting cam 206,207,944,946,947 and needle selection pressing plate 274,275 are arranged in the cam base plate bottom.

Figure 13 is the harpoon combination that cooperates knitting control system shown in Figure 12, and it is made up of latch needles 9 and corresponding one group of auxilliary pin.Auxilliary pin comprises needle jack 10, intermediate 11, selection piece 12.

When carrying out each row braiding, at first needle selection pressing plate 274 (or 275) is depressed the back pin heel 12b of selection piece 12, and the perk of selection piece front end is shared by electromagnetic needle selector 100 adhesives.Back pin heel 12b sinks to needle tray (it is outer not to be exposed at needle tray).When the first needle selection position of needle selecting cam 947 (or 944 or 946) is arrived in selection piece 12 relative motions, do not participate in the latch needles that weaves, its corresponding selection piece continues to be lived by the electromagnetic needle selector adhesive, thereafter pin heel 12b is subjected to pushing and pressing less than needle selecting cam move up (being moved to the left among the figure) because of sinking to needle tray, intermediate 11 can not be pushed upwardly, and is retained on the original position.And in this position, the pin of intermediate 11 heel will be subjected to the compacting of fixation clip 923, and intermediate 11 is pressed on the needle jack 10 of downside, and the pin heel of needle jack 10 upsides is sunk in the needle tray, is subjected to pushing and pressing less than knitting cam can not promote latch needles and carries out braid movement.Participate in the latch needles of braiding, its corresponding selection piece in this needle selection position because of being subjected to break away from electromagnetic needle selector less than the adhesive of electromagnetic needle selector, the front end of selection piece 12 falls after rise in needle tray, the rear end is upturned, pin heel 12a, 12b exposes needle tray, the pushing and pressing that pin heel 12b will be subjected to needle selecting cam 944 (or 947) inclined-plane move up, promote intermediate 11 move up (being moved to the left among Figure 13), the pin heel 11a (or 11b) of intermediate 11 is subjected to the compacting less than fixation clip 923, needle jack 10 is not also suppressed, the pin heel 10a of its upside is exposed at outside the needle tray, is subjected to the pushing and pressing of stitch cam 180, carries out the lopping braid movement thereby promote latch needles 9.When arriving the second needle selection position of needle selecting cam 206 (or 207) as selection piece 12 relative motions, and needle selecting cam that should activity moves on to set square baseplane upside, its top butt 12a can continue to be subjected to the pushing and pressing of needle selecting cam 206 (or 207), and it is moved on again, promote to move on the needle jack 10, its top butt 10a is subjected to the pushing and pressing of transfer cam 871 to finish barring-on to weave.When carrying out adapter ring braiding and tuck knitting, the cooperation of movable pressing

board

261 and 572 need be arranged also.

Figure 14 is the triangular knitting control system of a kind of computer flat knitting machine of the smart company of day island proper production, adopts mechanical needle selection.There is barring-on to block pin triangle 102, depressing cam 103, lopping back stitching triangle 104, stitch cam 105, block pin triangle 101, transfer cam 106, adapter ring trigonometric sum tuck cam 107 in the woven extent I on cam base plate top.Left and right sides movable pressing board 108, movable pressing board 108 ' and fixation clip 109 is arranged in the platen region II at middle part.Be provided with needle selection device 110 and needle selecting cam 111,112 in the needle selection area I II of bottom.

Figure 15 is the harpoon combination that cooperates knitting control system shown in Figure 14, and it is made up of latch needles 14 and corresponding one group of auxilliary pin.Auxilliary pin comprises needle jack 15, flower matrix 16, selection piece 17.

When weaving, selection piece 17 at first is subjected to the pushing and pressing of needle selecting cam 111, enters the first needle selection position, will be subjected to the needle selection of needle selection device 110.The latch needles 14 pairing selection pieces 17 that needle selection device 110 will not participate in weaving are depressed, and the back pin heel 17b of selection piece 17 sinks to needle tray, with the pushing and pressing that are subjected to less than needle selecting cam 112.This moment, flower matrix 16 was in lower B position, can be subjected to the compacting of fixation clip 109 at the colored type heel 16a of this position flower matrix 16, flower matrix 16 will be to pressing down needle jack 15, be bent downwardly distortion behind needle jack 15 pressurizeds, the preceding pin heel 15a of its upside and back pin heel 15b sink to needle tray, with the pushing and pressing that are subjected to less than knitting cam.The latch needles 14 pairing selection pieces 17 that participate in braiding are not subjected to the compacting of needle selection device 110, thereafter pin heel 17b be subjected to needle selecting cam 112 pushing and pressing and on move, it moves to the H position on pin heel 17c promotion flower matrix 16 down, the compacting of fixation clip 109 has been avoided in this position, makes the back pin heel 15b of needle jack be subjected to the pushing and pressing of rise cam 101 and stitch cam to finish lopping and weaves.When the second needle selection position of needle selecting cam 111 is arrived in selection piece 17 relative motions, be on the cam base plate upside pushing and pressing selection piece 17 as this movable needle selecting cam and move, make colored matrix 16 move to the A position, promote to move on the needle jack from the H position, make it to be subjected to the pushing and pressing of transfer cam, finish the barring-on braiding.As to carry out adapter ring braiding and tuck knitting also need cooperate left and right sides movable pressing board 108 and movable pressing board 108 '.

The above-mentioned two kinds of knitting control systems that can finish more complicated have more pressing plate and will cooperate corresponding needle selecting cam, complex structure, and not only parts are many, and processing, installation complexity also make the cam base plate size bigger.And knitting control system is mounted on the head of computer flat-bed knitting machine, so the size of head is also corresponding bigger.Head moves on needle-bar, and therefore, the size of needle-bar is inevitable to be increased thereupon.And needle-bar is a cast member, and the bigger inevitable consumptive material of bed body is more.Present global resource scarcity, the high day by day enterprise of price of steel product, this comparatively complex weave control structure and huger lathe bed structure make the manufacturing cost of computer flat knitting machine be difficult to by a relatively large margin decline.

The knitting control system of a kind of economical computer flat-bed knitting machine that this case applicant proposes before slightly (application number: 2008101226495), it is by reducing the auxiliary stitch quantity of latch needles, make needle tray contraction in length on the needle-bar, thereby significantly reduce the physical dimension of needle-bar and whole braiding machine, but this kind braiding machine can not carry out complicated front and back to turning over braiding, and the braiding function is complete inadequately.

Summary of the invention

The objective of the invention is to overcome the deficiency of above-mentioned prior art, design an a kind of and corresponding knitting needle combination of forming by latch needles and needle jack and be complementary, make that its braiding machine lathe bed structure is little, the braiding control structure is succinct and its cost is reduced and weave multiple functional a kind of triangular knitting control system that adopts electromagnetic needle selection.It is realized by following technical scheme:

Comprise cam base plate, the knitting cam and the electromagnetic needle selector of the heel of pushing and pressing needle jack pin, described knitting cam is distributed on the cam base plate, form at least one woven extent, this woven extent comprises that the barring-on that is arranged in this symmetrical centre top, zone blocks pin trigonometric sum transfer cam, be arranged in the stitch cam of this symmetrical centre bottom, zone, lopping back stitching trigonometric sum tuck cam, symmetric arrays is in the depressing cam of stitch cam both sides, be arranged in a pair of lopping rise cam of a docking ring trigonometric sum of tuck cam both sides from inside to outside, wherein said electromagnetic needle selector is arranged on the upper side of upper end of cam base plate or on the downside of lower end, be provided with 4 needle selection positions corresponding to each woven extent, a pair of in twos this both sides, woven extent center that are symmetrically placed in, by the described needle jack pin heel relative system direction of motion, nearer needle selection position II is arranged on described pin heel and makes contact to the rear side that encloses pin triangle original position apart from the woven extent center, and needle selection position I far away is arranged on described pin heel and makes contact to the front side that encloses pin triangle original position apart from the woven extent center.

Described woven extent also is provided with the needle selection pressing plate, and this needle selection pressing plate is arranged on the woven extent middle part and is on the outer fix of needle selection position I.

Described tuck cam slips up and down slippingly on cam base plate, upwards slides onto upper tuck operating position, slides onto the next adapter ring operating position downwards.

The present invention be according to the knitting needle combination that forms of corresponding latch needles and needle jack design, by to the set positions of electromagnetic needle selector in woven extent, the distribution of knitting cam and the interaction relation of related triangle make the structure of knitting control system become succinct completely, need not pressing plate and do not have platen region, need not needle selecting cam and needle selection area part and overlap with woven extent, system architecture is simplified greatly, the physical dimension of cam base plate reduces greatly, and the braiding function is very complete, the front and back that can carry out various complexity are to turning over braiding, thereby it is little for producing a kind of machine volume, consumptive material is few, cheap and computer flat-bed knitting machine that have a complete braiding function is laid a good foundation, satisfy the actual demand of weaving industry, also in the specific product design, put into practice the strategy and policy that country economizes on resources.

Description of drawings

Fig. 1 is an example structure schematic diagram.

Related knitting cam upper and lower position of Fig. 2 and interlock schematic diagram.

Fig. 3 is the structural representation with the corresponding knitting needle combination of knitting control system of the present invention.

Fig. 4 is that knitting needle combination is when being in woven condition not and the relational structure schematic diagram of system of the present invention.

The pin heel of needle jack front and back was at the trajectory diagram of woven extent when Fig. 5 was the lopping braiding.

The pin heel of needle jack front and back was at the trajectory diagram of woven extent when Fig. 6 was the barring-on braiding.

Fig. 7 be knitting needle combination when not participating in weaving before and after the needle jack pin heel at the trajectory diagram of woven extent.

The pin heel of needle jack front and back was at the trajectory diagram of woven extent when Fig. 8 was the adapter ring braiding.

The pin heel of needle jack front and back was at the trajectory diagram of woven extent when Fig. 9 was tuck knitting.

Figure 10 is the another kind of structural representation of system for weaving of the present invention.

Figure 11 be electromagnetic needle selector in this knitting control system shown in Figure 10 the installation site and the structural representation of corresponding knitting needle combination.

Figure 12 is the structural representation of a kind of knitting control system of Manfred Stohl company production.

Figure 13 is the pairing knitting needle combination structural representation of the structure of knitting control system shown in Figure 12.

Figure 14 is the structural representation of leading a kind of knitting control system of smart company production.

Figure 15 is the pairing knitting needle combination structural representation of the structure of knitting control system shown in Figure 14.

Among the figure, the 9th, Stoll latch needles, 10 needle jacks, the pin heel of 10a needle jack, pin heel before 11 intermediates, 11a intermediate, pin heel behind the 11b intermediate, pin heel before 12 selection pieces, 12a selection piece, pin heel behind the 12b selection piece, 14 latch needles, 15 needle jacks, pin heel before the 15a needle jack, pin heel behind the 15b needle jack, 16 flower matrix, the heel of 16a flower matrix sheet, pin heel before 17 selection pieces, 17a selection piece, pin heel behind the 17b selection piece, pin heel under the 17c selection piece, 20 needle jacks, 21 needle jack matrixes, 22 interlocking portions, 23 back pin heels, pin heel before 24,25 adhesive faces, 26 elastic rods, 27 times locating surfaces, locating surface on 28,30 latch needles of the present invention, the needle body of 31 latch needles 30, scarfing slot on 32

latch needles

30,40 knitting cams, the 41st, depressing cam, 42 lopping back stitching triangles, 43 transfer cams, 44 barring-ons block the pin triangle, 45 rise cams, the 46th, tuck cam, the 47th, stitch cam, the 48th, adapter ring triangle, 49 triangles that reset, the 50th, needle selection pressing plate, the 60th, electromagnetic needle selector, the 61st, magnetic conductive board, the 62nd, solenoid, the 70th, computer flat-bed knitting machine head, 71 cam base plate, the 80th, needle-bar, the 81st, the needle tray on the needle plate, the 82nd, the breach on the needle tray, 90 leverages, 100 electromagnetic needle selectors, 101 block the pin triangle, and 102 barring-ons block the pin triangle, 103 depressing cams, 104 lopping back stitching triangles, 105 stitch cams, 106 transfer cams, 107 tuck cams, 108 left and right sides movable pressing boards, 109 fixation clips, 110 needle selection devices, 110a needle selection tooth, 111,112 needle selecting cams, 178 lopping back stitching triangles, 180 stitch cams, 206,207,944,946,947 needle selecting cams, 274,275 needle selection pressing plates, 335 barring-ons block pin triangle, 261,572 movable pressing boards, 863 tuck cams, 870 depressing cams, 923 fixation clips.

The specific embodiment

Below in conjunction with drawings and Examples the present invention and advantage thereof are described further.

Contrast Fig. 1, the knitting control system of present embodiment by cam base plate 71, place the electromagnetic needle selector 60 of cam base plate upper end and place various knitting cams and needle selection pressing plate 50 on the cam base plate upper side to form.Two woven extent of two groups of knitting cam formation on cam base plate 71 (promptly two braiding unit), each woven extent has following braiding control triangle: be arranged on woven extent top and the barring-on that is arranged on this zone symmetrical center line blocks pin triangle 44 and transfer cam 43 from top to bottom; Be located at the braiding bottom and be arranged in lopping back stitching triangle 42, stitch cam 47, tuck cam 46 on this zone symmetrical center line from top to bottom; A pair of depressing cam 41 is symmetrically placed in the both sides of stitch cam 47; One docking ring triangle 48 and rise cam 45 from-inner-to-outers are arranged in a side of tuck cam 46 respectively.Tuck cam 46 wherein, transfer cam 43, lopping back stitching triangle 42 and stitch cam 47 are to be installed in versatilely on the cam base plate 71.Tuck cam 46 is vertically to slip slippingly up and down on cam base plate 71 along cam base plate, upwards slides onto upper tuck operating position, slides onto the next adapter ring operating position downwards.And transfer cam 43 is along moving up and down perpendicular to cam base plate face direction with lopping back stitching triangle 42 and stitch cam 47.Lopping back stitching triangle 42 and stitch cam 47 are made of one, and realize interlock by a leverage 90 and transfer cam 43.Promptly when transfer cam 43 was higher than the bottom surface of set square 71, lopping back stitching triangle 42 and stitch cam 47 were not higher than the bottom surface (flushing with the cam base plate face substantially) of set square 71; Otherwise when transfer cam 43 was not higher than the bottom surface (flushing with the cam base plate face substantially) of set square 71, lopping back stitching triangle 42 and stitch cam 47 were higher than the bottom surface of set square 71, see also Fig. 2.

Electromagnetic needle selector 60 is installed in the upper end of cam base plate 71, and it is made up of 16 solenoids 62 and two magnetic conductive boards 61.Be equipped with eight solenoids 62 on the magnetic conductive board.The position of solenoid is identical on each magnetic conductive board 61.Two tired up and down folded parallel placements of magnetic conductive board 61, two solenoids 62 on the correspondence position form one group of solenoid, and like this, two-layer up and down magnetic conductive board forms eight groups of solenoids altogether.Each woven extent has 4 groups of solenoids 62, formation is corresponding to 4 needle selection positions of this woven extent, a pair of in twos this both sides, woven extent center that are symmetrically placed in, press the needle jack front and back pin heel relative system direction of motion, the one, the nearer needle selection position II apart from the woven extent center, it is arranged on the heel of needle jack pin and makes contact to the rear side that encloses pin triangle original position F; The one, the needle selection position I far away apart from the woven extent center, it is arranged on the heel of needle jack pin and makes contact to the front side that encloses pin triangle original position F, can be referring to Fig. 5.

Whole knitting control system contrast Figure 12, controlling organization shown in Figure 14 want much simple, and the needle selection area coincidence on the cam base plate is in woven extent, and no pressing plate does not just have the platen region of being made up of some pressing plates yet.No needle selecting cam, the needle selection pressing plate is arranged in the woven extent, needle selection area part woven extent is overlapped, make system architecture become very succinct, the longitudinal size of cam base plate reduces greatly, the needle bed dimension that cam base plate is installed also reduces thereupon, has saved consumptive material greatly, and the cost of complete machine is significantly reduced.

The employing of knitting control system of the present invention knitting needle combination as shown in Figure 3.It is by being made up of latch needles 30 and needle jack 20.Be placed in each needle tray on the needle-bar.

Knitting cam makes corresponding latch needles 20 upwards weave activity by pushing and pressing with the back pin heel 23 or the preceding pin heel 24 of the corresponding needle jack 20 of this latch needles, and preceding pin heel 24 or back pin heel 23 that the triangle that resets by being correlated with again after braiding finishes promotes this needle jack 20 reset corresponding latch needles.

When weaving, knitting control system is with braiding machine head 70 reciprocating motion on needle-bar 80, and the cell wall 81 of needle tray 80 is provided with the corresponding breach 82 that allows the needle selection plate pass through on the needle-bar.When needle selection pressing plate 50 passes through needle tray 80 tops, the matrix 21 of needle jack in the needle tray will be pressed down, making needle jack is that fulcrum rotates with elastically deformable rod 26 rear end, when upwards rotating, the electromagnetism adhesive face 25 of its front end held by needle selection device upper conduction magnetic board 61, elastically deformable rod's 26 compressive deformations of needle jack, its rear portion rotates, and needle tray is sunk in back pin heel 23.When electromagnetic needle selector 60 runs to needle selection position I, do not participate in braiding as the latch needles in the corresponding needle tray 30, magnetic conductive board 61 holds its corresponding needle jack 20 with continuing, and pin heel thereafter 23 is not exposed at outside the needle tray 81 is subjected to be in not woven condition less than the pushing and pressing of knitting cam 40, sees also Fig. 4.Participate in braiding as the latch needles in this needle tray 30, needle selection device 60 makes magnetic conductive board 61 no longer hold the electromagnetism adhesive face 25 of needle jack, needle jack 20 is thrown off magnetic conductive board 61, and under the elastic stress effect of elastic rod 26 rear portion is popped up, and needle tray 81 is all exposed in forward and backward pin heel.Be in the upside (43 downsides that are in cam base plate of transfer cam dot) of cam base plate as stitch cam 47, back pin heel 23 will be subjected to the pushing and pressing of stitch cam 47, carry out the lopping braiding, and the forward and backward pin heel track of its needle jack 20 is seen Fig. 5.Be in the upside of cam base plate as transfer cam 43, then before pin heel 24 will be subjected to the pushing and pressing of transfer cam 43, carry out the barring-on braiding.The forward and backward pin heel track of its needle jack 20 is seen Fig. 6.

Continue the needle jack 20 held at needle selection position I, when the needle selection position II on needle selection device 60 runs to above these needle jack 20 place needle trays, as also being continued to hold delegation's braiding that these needle jack 20 pairing latch needles then will not participate in knitting head and be carried out.The forward and backward pin heel of

needle jack

23,24 pushing and pressing that all are subjected to less than knitting cam, the knitting needle combination relative translation goes out knitting zone, and its track is seen Fig. 7.As not held, the same reason, needle tray 81 is all exposed in the forward and backward pin heel of needle jack 20, at this moment, be in the adapter ring operating position of downside as tuck cam 46, pin heel 23 is subjected to being subjected to behind the tuck cam 46 pushing and pressing of adapter ring triangle 48 earlier behind the needle jack, carries out the adapter ring braiding, and the forward and backward pin heel track of its needle jack 20 is seen Fig. 8.Be in the tuck operating position of upside as tuck cam 46, pin heel 23 is subjected to the pushing and pressing of tuck cam 46 behind the needle jack, carries out tuck knitting, and the forward and backward pin heel track of its needle jack 20 is seen Fig. 9.

Like this, knitting control system of the present invention cooperates corresponding knitting needle combination, there is not platen region at this controlling organization, do not have under the situation in the independent needle selection zone that the needle selecting cam distribution is arranged yet, but can finish the various complicated braiding that existing very complex weave control system can be finished well, reach and significantly reduce computer flat-bed knitting machine cost and multiple functional the object of the invention.

Electromagnetic needle selector 60 in the knitting control system of the present invention can oppositely be provided with, and promptly is arranged on the lower end rear side of cam base plate 71, referring to Figure 10.Pairing needle jack 20 ' then also carried out reverse setting, promptly electromagnetism adhesive face 25 is arranged on the downside of needle jack matrix 21 rear ends, and it and latch needles 30 carry out the another kind of knitting needle combination of chimeric formation, referring to Figure 11.This knitting control system and corresponding its operation principle of knitting needle combination and process and beneficial effect and above-mentioned Fig. 1 and knitting control system and knitting needle combination shown in Figure 3 are identical, repeat no more.

Claims

1. triangular knitting control system that adopts electromagnetic needle selection, comprise cam base plate, the knitting cam and the electromagnetic needle selector of the heel of pushing and pressing needle jack pin, described knitting cam is distributed on the cam base plate, form at least one woven extent, this woven extent comprises that the barring-on that is arranged in this symmetrical centre top, zone blocks pin trigonometric sum transfer cam, stitch cam in this symmetrical centre bottom, zone, lopping back stitching trigonometric sum tuck cam, be symmetrically placed in the depressing cam of the both sides of stitch cam, be arranged in a pair of lopping rise cam of a docking ring trigonometric sum of tuck cam both sides from inside to outside, it is characterized in that, described electromagnetic needle selector is arranged on the upper side of upper end of cam base plate or on the downside of lower end, be provided with 4 needle selection positions corresponding to each woven extent, a pair of in twos this both sides, woven extent center that are symmetrically placed in, by the described pin heel relative system direction of motion, nearer needle selection position II is arranged on described pin heel and makes contact to the rear side that encloses pin triangle original position apart from the woven extent center, needle selection position I far away is arranged on described pin heel and makes contact to the front side that encloses pin triangle original position apart from the woven extent center, described tuck cam slips on cam base plate up and down slippingly, upwards slide onto upper tuck operating position, slide onto the next adapter ring operating position downwards.

2. a kind of triangular knitting control system that adopts electromagnetic needle selection according to claim 1 is characterized in that described woven extent also is provided with the needle selection pressing plate, and this needle selection pressing plate is arranged on the woven extent middle part and is on the outer fix of needle selection position I.