CN104499178A - Five-station knitting mechanism of computerized flat knitting machine adopting multi-level needle selection - Google Patents

Abstract

The invention discloses a five-station knitting mechanism of a computerized flat knitting machine adopting multi-level needle selection. The mechanism comprises a triangular bottom plate, a multi-level needle selector which is arranged on the triangular bottom plate and various triangle and control pressure blocks, wherein a triangular pressure block unit is arranged on the symmetrical central line of the knitting mechanism; the triangular pressure block unit is structurally characterized by sequentially comprising a loop transfer guide triangle, a loop transfer triangle, a guide triangle, a loop connecting triangle, a loop accumulating control pressure block and a withdrawing work control pressure block from top to bottom. The invention aims to provide the five-station knitting mechanism of the computerized flat knitting machine adopting multi-level needle selection. The mechanism can be used for randomly achieving five knitting modes such as looping of a long loop, looping of a short loop, loop accumulating of the long loop, loop accumulating of the short loop, not knitting and the like on all knitting needles of a same system and a same knitting line, so that the problem that the demand on multiple pattern production cannot be satisfied as the knitted structure of the existing computerized flat knitting machine is insufficient in knitting capacity is solved.

Description

A kind of five merit position Computerized flat knitting machine knitting mechanisms adopting multi-level pin selection

Technical field

The invention belongs to Computerized flat knitting machine technical field, relate to a kind of five merit position Computerized flat knitting machine knitting mechanisms adopting multi-level pin selection.

Background technology

Textile clothing industry is the conventional industries of China, is again the important industry of China's economic development, knit product as the important component part of textile product, with soft, breathe freely, the advantage such as can wear next to the skin and be deeply subject to liking of consumers in general.Along with the development of science and technology, the advantages such as Computerized flat knitting machine is fast with its speed, steady quality progressively instead of hand knitting machine, but, knitting needle in each the braiding line of existing Computerized flat knitting machine only can realize lopping, tuck and not weave three kinds of weaving manners, i.e. " three needle track braidings " or title " three merit positions braidings ", obviously can not meet the Production trend requirement of modern knitting woollen enterprise " small lot, multi-pattern type ", seriously constrain the development of woolen knitting profession.

The knitting mechanism of a kind of three merit position computer flat knitting machines of day island proper essence company production, is adopt multi-level pin selection, comprises cam base plate, various triangle, controls briquetting and multi-level pin selection device.It is when weaving, and knitting needle system to be hanked three kinds of needle track positions, make it in same line, complete lopping, tuck respectively and do not weave three kinds of functions by twice needle selection.When adopting three merit position needle selections braidings, two slide cam selectors all carry out needle selection, and the knitting needle system of braiding tuck is at a slide cam selector needle selection, and the knitting needle system of braiding lopping is at another one slide cam selector needle selection, and the knitting needle system do not woven is at two slide cam selectors not needle selections.

Above-mentionedly complete certain weaving manner, but, this kind of Computerized flat knitting machine is expensive, maintenance use cost is higher, can not generally accept by middle-size and small-size textile enterprise, its also not abundant knitted fabric tissue braiding ability, cannot meet the Production trend requirement of modern knitting woollen enterprise " small lot, multi-pattern type ".

Other, about proposing the material of Computerized flat knitting machine knitting mechanism, also not yet has the relevant report relating to multistage needle selection five merit position Computerized flat knitting machine knitting mechanism.

Summary of the invention

The object of this invention is to provide a kind of five merit position Computerized flat knitting machine knitting mechanisms adopting multi-level pin selection, long loop lopping, short coil lopping, long loop tuck, short coil tuck can be realized arbitrarily on the knitting needle that same system, same braiding line are all, five kinds of weaving manners such as not weave, solve the knitted fabric tissue's braiding scarce capacity existed in existing Computerized flat knitting machine, multi-pattern type Production requirement problem can not be met.

The technical solution adopted in the present invention is, a kind of five merit position Computerized flat knitting machine knitting mechanisms adopting multi-level pin selection, comprises cam base plate, is arranged at multi-level pin selection device and the various triangle in cam base plate and controls briquetting; This knitting mechanism symmetrical center line is provided with triangle press block set, the structure of triangle press block set is, is provided with barring-on guide triangular, transfer cam, guide triangular, adapter ring triangle, tuck control briquetting and control briquetting of deactivating by being arranged in order from top to bottom.

Feature of the present invention is also,

Have space between transfer cam and guide triangular, the both sides of guide triangular are respectively arranged with a sitch cam, have space between guide triangular and rise cam, and this space is the passage of pusher jack bottom sheet heel, and sitch cam can be parallel to cam base plate and move up and down.

Adapter ring triangle is positioned at the inside of rise cam; The below of each rise cam is provided with one and half kinkings and controls briquetting, and half kinking controls briquetting and is divided into two pieces up and down that be arranged in parallel, and upper and lower two and half kinkings control there is space between briquetting.

The bottom often organizing half kinking control briquetting is also provided with adapter ring and controls briquetting, is all provided with needle selection guide card reset triangle and needle selection guide card reset triangle on the side often organizing adapter ring control briquetting and half kinking control briquetting.

Multi-level pin selection device is arranged on below needle selection guide card reset triangle and needle selection guide card reset triangle.

It is one group that multi-level pin selection device is respectively arranged with two groups of every two multi-level pin selection devices.

The bottom of cam base plate is provided with selection piece half rise cam, the pre-rise cam of selection piece, selection piece rise cam, selection piece replacement triangle, the pre-rise cam of selection piece is positioned at the below of slide cam selector, selection piece resets triangle and is positioned at immediately below control briquetting of deactivating, and selection piece rise cam is positioned at the both sides that selection piece resets triangle.

The side of barring-on guide triangular is pusher jack upper slice heel reset triangle, and opposite side is pusher jack upper slice heel stability triangle, and the below of upper slice heel reset triangle is provided with pusher jack upper slice heel auxiliary triangle.

The below of work briquetting is provided with selection piece upper slice heel stability triangle, and upper slice heel stability triangle both sides are selection piece upper slice heel reset triangle.

The invention has the beneficial effects as follows, on the basis that corresponding control briquetting and triangle cooperatively interact, by No. four needle selections, have developed five merit position Computerized flat knitting machine knitting mechanisms, relative to three merit position Computerized flat knitting machine knitting mechanisms, the flower pattern braiding quantity of its knitted fabric improves more than 10 times, makes the braiding function of Computerized flat knitting machine greatly abundant, the Production trend requirement of modern knitting woollen enterprise " small lot, multi-pattern type " can be met well, the development of woolen knitting profession can be promoted significantly.

Accompanying drawing explanation

Fig. 1 is the structural representation that the present invention adopts five merit position Computerized flat knitting machine knitting mechanisms of multi-level pin selection;

Fig. 2 is the structural representation of the knitting needle system adopting five merit position Computerized flat knitting machine knitting mechanisms of multi-level pin selection corresponding with the present invention;

Fig. 3 is the concrete form schematic diagram that the present invention adopts the sitch cam in five merit position Computerized flat knitting machine knitting mechanisms of multi-level pin selection;

Fig. 4 is the Cam Track of the present invention's knitting needle when adopting five merit position Computerized flat knitting machine knitting mechanisms of multi-level pin selection not weave;

Fig. 5 is the Cam Track of the present invention's knitting needle when adopting five merit position Computerized flat knitting machine knitting mechanisms braiding long loop tuck of multi-level pin selection;

Fig. 6 is the Cam Track of the present invention's knitting needle when adopting five merit position Computerized flat knitting machine knitting mechanisms braiding short coil tuck of multi-level pin selection;

Fig. 7 is the Cam Track of the present invention's knitting needle when adopting five merit position Computerized flat knitting machine knitting mechanisms braiding long loop lopping of multi-level pin selection;

Fig. 8 is the Cam Track of the present invention's knitting needle when adopting five merit position Computerized flat knitting machine knitting mechanisms braiding short coil lopping of multi-level pin selection;

Fig. 9 is the Cam Track of the present invention's knitting needle when adopting five merit position Computerized flat knitting machine knitting mechanisms braiding adapter ring of multi-level pin selection;

Figure 10 is the Cam Track of the present invention's knitting needle when adopting five merit position Computerized flat knitting machine knitting mechanisms braiding barring-on of multi-level pin selection;

The knitting mechanism schematic diagram of " three merit positions " Computerized flat knitting machine that Figure 11 Shi Daojing company produces.

In figure, 1. guide triangular, 2. rise cam, 3. sitch cam, 4. transfer cam, 5. adapter ring triangle, 6. barring-on guide triangular, 7. needle selection guide card reset triangle, 8. needle selection guide card reset triangle, 9. tuck controls briquetting, 10. adapter ring controls briquetting, 10 '. half kinking controls briquetting, 11. deactivate control briquetting, 12. multi-level pin selection devices, 13. selection piece rise cam 14. selection piece half rise cams, 15. selection pieces reset triangle, the pre-rise cam of 16. selection piece, 17. selection pieces, 18. needle selection guide cards, 19. pusher jacks, 20. knitting needles, 21. sinkers, 22. cam base plate, 23. pusher jack upper slice heel reset triangles, 24. pusher jack upper slice heel stability triangles, 25. selection piece upper slice heel stability triangles, 26. selection piece upper slice heel reset triangles, 27. pusher jack upper slice heel auxiliary triangles.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the present invention is described in detail.

A kind of five merit position Computerized flat knitting machine knitting mechanisms adopting multi-level pin selection of the present invention, comprise cam base plate 22, are arranged at multi-level pin selection device 12 and the various triangle in cam base plate 22 and control briquetting.

Embodiment shown in Fig. 1 comprises two knitting mechanisms, is wherein a knitting mechanism shown in dotted line frame,

The structure of this knitting mechanism is as follows: in this knitting mechanism symmetrical center line, be provided with triangle press block set, the structure of triangle press block set is, controls briquetting 11 by being arranged in order from top to bottom to be provided with barring-on guide triangular 6, transfer cam 4, guide triangular 1, adapter ring triangle 5, tuck control briquetting 9 and to deactivate.

The side of barring-on guide triangular 6 is pusher jack upper slice heel reset triangle 23, and opposite side is pusher jack upper slice heel stability triangle 24, and the below of upper slice heel reset triangle 23 is provided with pusher jack upper slice heel auxiliary triangle 27,

Have space between transfer cam 4 and guide triangular 1, the both sides of guide triangular 1 are respectively arranged with a sitch cam 3, have space between guide triangular 1 and rise cam 2, and this space is the passage of pusher jack bottom sheet heel.

Adapter ring triangle 5 is positioned at the inside of rise cam 2; The below of each rise cam 2 is provided with one and half kinkings control briquetting 10 ', half kinkings control briquettings 10 ' and is divided into two pieces up and down that be arranged in parallel, and upper and lower two and half kinkings control there is space between briquettings 10 '.

The bottom often organizing half kinking control briquetting 10 ' is also provided with adapter ring and controls briquetting 10, is all provided with needle selection guide card reset triangle 7 and needle selection guide card reset triangle 8 on the side often organizing adapter ring control briquetting 10 and half kinking control briquetting 10 '.

Below needle selection guide card reset triangle 7 and needle selection guide card reset triangle 8, be respectively arranged with two groups of multi-level pin selection devices 12, every two multi-level pin selection devices 12 are one group.

14 selection piece half rise cams, the pre-rise cam 16 of selection piece, selection piece rise cam 13, selection piece replacement triangle 15 is provided with in the bottom on triangle floor, the pre-rise cam 16 of selection piece is positioned at the below of slide cam selector 12, selection piece resets triangle 15 and is positioned at immediately below control briquetting 11 of deactivating, and selection piece rise cam 13 is positioned at the both sides that selection piece resets triangle 15.

The below of work briquetting 11 is provided with selection piece upper slice heel stability triangle 25, and upper slice heel stability triangle 25 both sides are selection piece upper slice heel reset triangle 26;

Sitch cam 3 has two sinking depths, and the sinking depth of internal layer is less than skin, and the difference between two sinking depths can change, and sitch cam 3 can be parallel to cam base plate and move up and down.

Half kinking of top controls briquetting 10 ' and is installed in cam base plate; Tuck controls briquetting 9 upper and lower two pieces, and the tuck of top controls briquetting 9 and controls to be fixed in cam base plate together with briquetting 10 ' with half kinking of below; The tuck control briquetting 9 of below can be parallel to cam base plate and move; Adapter ring controls briquetting 10 can move into adapter ring operating position perpendicular to cam base plate.

Multi-level pin selection device 12 is arranged on cam base plate middle and lower part, and every two slide cam selectors are one group, the both sides being placed in cam base plate symmetrical respectively, can select successively do not weave, long loop tuck, short coil tuck, long loop lopping, short coil lopping knitting needle.

Five merit position Computerized flat knitting machine knitting mechanisms of employing multi-level pin selection of the present invention, adopt as Fig. 2 knitting needle system, be made up of selection piece 17, needle selection guide card 18, pusher jack 19, knitting needle 20 and sinker 21, be placed in each needle tray on needle-bar, its knitting needle system position in needle tray is respectively sinker 21, knitting needle 20, pusher jack 19, needle selection guide card 18, selection piece 17 from high to low.

The position corresponding relation of knitting needle system and knitting mechanism is as shown in Fig. 4 ~ 10, carrying out in the process woven, relevant triangle moves upward weave by acting on selection piece corresponding to this knitting needle system 17, promoted the sheet heel of selection piece, needle selection guide card, pusher jack after having woven again by associated reset triangle, make corresponding knitting needle system reset.

The present invention adopts the braiding process of five merit position Computerized flat knitting machine knitting mechanisms of multi-level pin selection to be specially, and when weaving, selection piece 17 acts on by multi-level pin selection device 12.If the needle selection head of slide cam selector 12 is pressed onto in the corresponding teeth of selection piece 17, just make selection piece 17 be pressed into needle tray, the bottom sheet heel of selection piece 17 is not then risen along selection piece rise cam.If in the corresponding teeth of the needle selection head pressure of slide cam selector 12 less than selection piece 17, then selection piece 17 is not pressed into needle tray, the bottom sheet heel of selection piece 17 is then risen along needle selecting cam, makes the heel of corresponding needle selection guide card 18 rise to T by N position ₂, T ₁, L ₂or L ₁position.Head at every turn traversing in, each knitting mechanism of head makes all selection pieces 17 by slide cam selector 12 needle selection four times, wherein only has selected knitting needle work.

Carry out knitting when head moves from right to left, now guide triangular 1 enters work, and transfer cam 4 is deactivated.When needle selection, idle selection piece is squeezed into by slide cam selector 12a, corresponding needle selection guide card 18 is still in N position, the heel of needle selection guide card is subject to deactivating the effect and the needle tray that submerges that control briquetting 11, the lower heel of the pusher jack 19 of its correspondence is driven also to submerge needle tray, it can not rise along rise cam 2, also do not act on sitch cam 3, corresponding knitting needle does not work, the Cam Track of knitting needle system as shown in Figure 4, the bottom sheet heel of other selection piece is risen along the lower floor of the pre-rise cam 16a of selection piece, promotes corresponding needle selection guide card 18 and arrives T2 position by N position.

Then, the selection piece of braiding long loop tuck is squeezed into by slide cam selector 12b, corresponding needle selection guide card 18 is still in T2 position, the heel of T2 position needle selection guide card 18, tuck will be subject to and control the effect of briquetting 9 and the needle tray that submerges, the lower heel of the pusher jack 19 of its correspondence is driven also to submerge needle tray, it can not continue to rise along rise cam 2, corresponding knitting needle braiding long loop tuck, the Cam Track of knitting needle system as shown in Figure 5, the bottom sheet heel of other selection piece is risen along triangle 14, promotes corresponding needle selection guide card 18 and arrives T1 position by T2 position.

Then, the selection piece of braiding short coil tuck is squeezed into by slide cam selector 12c, corresponding needle selection guide card 18 is still in T1 position, and the heel of T1 position needle selection guide card 18 will control the effect of briquetting 10 ' in stroke by the left side half kinking, and the 19 times heels of corresponding pusher jack are submerged needle tray half; When the heel of needle selection guide card 18 and tuck control briquetting 9 joint, will be subject to tuck and control the effect of briquetting 9 and the needle tray that all submerges, drive the lower heel of the pusher jack 19 of its correspondence also to submerge needle tray, it can not continue to rise along rise cam 2; When the lower heel of pusher jack 19 will contact with sitch cam 3, the heel of corresponding needle selection guide card 18 is pressed into needle tray half by being controlled briquetting 10 ' by half kinking on the right, the lower heel of the pusher jack 19 of its correspondence is submerged needle tray half, kinking work (shown in Figure 3) is completed by the internal layer of sitch cam 3, therefore corresponding knitting needle braiding short coil tuck, the Cam Track of knitting needle system as shown in Figure 6, the bottom sheet heel of other selection piece rises along on the upper strata of triangle 16b, promotes corresponding needle selection guide card 18 and arrives L2 position by T1 position.

Then, the selection piece of braiding long loop lopping is squeezed into by slide cam selector 12d, corresponding needle selection guide card 18 is still in L2 position, the heel of the needle selection guide card 18 of L2 position, effect not by any briquetting in stroke, the 19 times heels of corresponding pusher jack are not submerged needle tray yet, it will rise along rise cam 2, complete and move back circle work, then decline along guide triangular 1, complete kinking work by the skin of sitch cam 3, the knitting needle braiding long loop lopping of its correspondence, the Cam Track of knitting needle system as shown in Figure 7.

The bottom sheet heel of other selection piece is risen along triangle 13, promote corresponding needle selection guide card 18 and rise to L1 position by L2 position, the heel of the needle selection guide card 18 of L1 position, control the effect of briquetting 10 ' by half kinking in stroke always, the 19 times heels of corresponding pusher jack are submerged needle tray half always, it will rise along rise cam 2, complete and move back circle work, then decline along guide triangular 1, when the lower heel of pusher jack 19 drop to contact with sitch cam 3 time, internal layer by sitch cam 3 is carried out kinking work by it, corresponding knitting needle braiding short coil lopping, the Cam Track of knitting needle system as shown in Figure 8.

When weaving barring-on, work for slide cam selector 12a, b and d.Guide triangular 1, left and right four and half kinking control briquetting 10 ' and two tucks control pendulum on briquetting 9, and deactivate, other trigonometric sum briquettings enter work.What selection piece was squeezed at slide cam selector 12a place does not work, corresponding needle selection guide card 18 is still in N position, the heel of the needle selection guide card 18 of N position, the effect and the needle tray that submerges that control briquetting 11 by being subject to deactivating, the lower heel of the pusher jack 19 of its correspondence is driven also to submerge needle tray, it can not rise along rise cam 2 or adapter ring triangle 5, and therefore corresponding knitting needle does not work.The remaining lower floor along the pre-rise cam 16a of selection piece rises to T2 position, the participation adapter ring work that selection piece is squeezed at slide cam selector 12b place, corresponding needle selection guide card 18 is still in T2 position, and remaining rises along selection piece half rise cam 14, and corresponding needle selection guide card 18 rises to T1 position.The heel of the needle selection guide card 18 of T2 position, first controls briquetting 10 with the adapter ring on the left side and contacts, be pressed into needle tray, and drive the lower heel of the pusher jack 19 of its correspondence also to submerge needle tray, it will not rise along rise cam 2; Then, the adapter ring control briquetting 10 on the left side is left in the heel of the needle selection guide card 18 of T2 position, needle selection guide card 18 is under the effect of its own resilient, its heel is exposed on needle tray, now, the lower heel of corresponding pusher jack 19 rises to adapter ring position along adapter ring triangle 5, and corresponding knitting needle accepts the coil that opposite needle-bed knitting needle transfer comes; Then, the heel of needle selection guide card 18 and the adapter ring on the right control briquetting 10 and contact, by its press-in needle tray, the lower heel of the pusher jack 19 of its correspondence is driven also to submerge needle tray, its by not by rise cam 2 and adapter ring triangle 5 effect and level is advanced, complete adapter ring work, the Cam Track of its knitting needle system as shown in Figure 9.Slide cam selector 12c does not work, and corresponding needle selection guide card 18 rises to L2 position, and selection piece is all squeezed at slide cam selector 12d place, participates in barring-on work.The heel of the needle selection guide card 18 of L2 position, effect not by any briquetting in stroke, the lower heel of corresponding pusher jack 19 is not submerged needle tray yet, it will rise along rise cam 2, when rising to tuck height position, effect by transfer cam 4 is risen to transfer position by the upper heel of pusher jack 19, coil on it is transferred on the corresponding knitting needle of opposite needle-bar by corresponding knitting needle, then, the upper heel of pusher jack 19 declines along barring-on guide triangular 6, get back to initial position, complete barring-on work, the Cam Track of knitting needle system as shown in Figure 10.

A kind of five merit position Computerized flat knitting machine knitting mechanisms adopting multi-level pin selection of the present invention, its whole knitting mechanism contrasts the knitting mechanism of " three merit positions " Computerized flat knitting machine of employing multi-level pin selection representative in the prior art shown in Figure 11, each knitting mechanism adds two slide cam selectors, some auxiliary triangles and controls briquetting, define the braiding function of five merit positions, the flower pattern function of knitting mechanism is greatly abundant thereupon.Such as, when the pin number of braided fabric flower pattern is 100 pin, the flower pattern quantity that three merit position Computerized flat knitting machine knitting mechanisms can weave is 3100 kinds, and the flower pattern quantity that five merit position Computerized flat knitting machine knitting mechanisms can weave is 5100 kinds, as can be seen here, five merit position Computerized flat knitting machine knitting mechanisms are relative to three merit position Computerized flat knitting machine knitting mechanisms, and the flower pattern braiding quantity of its knitted fabric improves more than 10 times, and it can meet the Production trend demand of modern knitting woollen enterprise " small lot, multi-pattern type " well.

A kind of five merit position Computerized flat knitting machine knitting mechanisms of multi-level pin selection that adopt of the present invention are on the basis that corresponding control briquetting and triangle cooperatively interact, by No. four needle selections, five kinds of weaving manners such as all knitting needle of each braiding line can realize arbitrarily long loop lopping, short coil lopping, long loop tuck, short coil tuck and do not weave, make the braiding function of Computerized flat knitting machine greatly abundant, the Production trend requirement of modern knitting woollen enterprise " small lot, multi-pattern type " can be met well, the development of woolen knitting profession in the world can be promoted significantly.

Claims (9)

1. one kind adopts five merit position Computerized flat knitting machine knitting mechanisms of multi-level pin selection, it is characterized in that, comprise cam base plate (22), triangle that the multi-level pin selection device (12) be arranged in cam base plate (22) is different with some functions and control briquetting; This knitting mechanism symmetrical center line is provided with triangle press block set, the structure of described triangle press block set is, controls briquetting (11) by being arranged in order from top to bottom to be provided with barring-on guide triangular (6), transfer cam (4), guide triangular (1), adapter ring triangle (5), tuck control briquetting (9) and to deactivate.

2. five merit position Computerized flat knitting machine knitting mechanisms of employing multi-level pin selection according to claim 1, it is characterized in that, space is had between described transfer cam (4) and guide triangular (1), the both sides of described guide triangular (1) are respectively arranged with a sitch cam (3), space is had between described guide triangular (1) and rise cam (2), this space is the passage of pusher jack bottom sheet heel, and described sitch cam (3) can be parallel to cam base plate and move up and down.

3. five merit position Computerized flat knitting machine knitting mechanisms of employing multi-level pin selection according to claim 1, is characterized in that, described adapter ring triangle (5) is positioned at the inside of rise cam (2); The below of described each rise cam (2) is provided with one and half kinkings and controls briquetting (10 '), half described kinking controls briquetting (10 ') and is divided into two pieces up and down that be arranged in parallel, and upper and lower two and half kinkings control there is space between briquetting (10 ').

4. five merit position Computerized flat knitting machine knitting mechanisms of the employing multi-level pin selection according to claim 1 or 3, it is characterized in that, the bottom that described often group half kinking controls briquetting (10 ') is also provided with adapter ring control briquetting (10), and the side controlling briquetting (10) and half kinking control briquetting (10 ') at described often group adapter ring is all provided with needle selection guide card reset triangle (7) and needle selection guide card reset triangle (8).

5. five merit position Computerized flat knitting machine knitting mechanisms of employing multi-level pin selection according to claim 1, it is characterized in that, described multi-level pin selection device (12) is arranged on needle selection guide card reset triangle (7) and needle selection guide card reset triangle (8) below.

6. five merit position Computerized flat knitting machine knitting mechanisms of employing multi-level pin selection according to claim 5, is characterized in that, described multi-level pin selection device (12) is respectively arranged with two groups, and every two multi-level pin selection devices (12) are one group.

7. five merit position Computerized flat knitting machine knitting mechanisms of employing multi-level pin selection according to claim 1, it is characterized in that, the bottom of described cam base plate (22) is provided with (14) selection piece half rise cam, the pre-rise cam of selection piece (16), selection piece rise cam (13), selection piece resets triangle (15), the pre-rise cam of described selection piece (16) is positioned at the below of slide cam selector (12), described selection piece resets triangle (15) and is positioned at immediately below control briquetting (11) of deactivating, described selection piece rise cam (13) is positioned at the both sides that selection piece resets triangle (15).

8. five merit position Computerized flat knitting machine knitting mechanisms of employing multi-level pin selection according to claim 1, it is characterized in that, the side of described barring-on guide triangular (6) is pusher jack upper slice heel reset triangle (23), opposite side is pusher jack upper slice heel stability triangle (24), and the below of described upper slice heel reset triangle (23) is provided with pusher jack upper slice heel auxiliary triangle (27).

9. five merit position Computerized flat knitting machine knitting mechanisms of employing multi-level pin selection according to claim 1, it is characterized in that, the below of described work briquetting (11) is provided with selection piece upper slice heel stability triangle (25), and described upper slice heel stability triangle (25) both sides are selection piece upper slice heel reset triangle (26).