CN202090145U - Triangle braiding mechanism adapted to the combination of knitting needle, elastic needle foot and needle pushing foot - Google Patents

Abstract

The utility model relates to a triangle braiding mechanism adapted to the combination of knitting needle, elastic needle foot and needle pushing foot. The mechanism comprises a triangular bottom board and a braiding triangle component for pushing needle heels; the braiding triangle component is mounted on the triangular bottom board to form at least one braiding region; a tucking cam according to the lower end of the needle pushing foot is disposed at the central position of the lower side of the braiding region; a transferring cam, a looping cam and the tucking cam are movably mounted on the triangular bottom board. When the transferring cam is protruded from the upper side surface of the triangular bottom board, the looping cam is not higher than the upper side surface, and the tucking cam is at a first height position above the upper side surface of the triangular bottom board; when the transferring cam is not higher than the upper side surface of the triangular bottom board, the looping cam is protruded from the upper side surface, and the tucking cam is at a second height position above the upper side surface of the triangular bottom board; wherein the second height position is higher than the first height position. The utility model achieves the advantages of ensuring the knitting needles to operate stably without shake, reducing false operations, and improving braiding quality.

Description

Be adapted to the triangular knitting mechanism of knitting needle, elasticity stitch and the pin of pushing pin combination

Technical field

The utility model relates to computer flat knitting machine, relates in particular to a kind of triangular knitting mechanism that is adapted to knitting needle, elasticity stitch and the pin of pushing pin combination.

Background technology

Three angle control systems of China's computer flat-bed knitting machine are to develop on the cam system basis of the smart company of the day island proper at present.Generally form by 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.

The cam system of day island proper essence as shown in Figure 1, the knitting needle combination corresponding with this system is made up of latch needles 20, needle jack 21, flower matrix 22 and selection piece 23.Adopt mechanical needle selection.Block pin triangle 1, depressing cam 2, lopping back stitching triangle 3, stitch cam 4, barring-on in the woven extent A on cam base plate top and block pin triangle 5, transfer cam 6 and adapter ring triangle 7.In the platen region B at middle part left and right sides adapter ring pressing plate 8, tuck pressing plate 9 and fixation clip 10 are arranged.Be provided with needle selection device 11 and needle selecting cam 12,13 in the needle selection zone C of bottom.

When weaving, selection piece 23 at first is subjected to the pushing and pressing of needle selecting cam 13, enters the first needle selection position, will be subjected to the needle selection of needle selection device 11.The latch needles 20 pairing selection pieces 23 that needle selection device 11 will not participate in weaving are depressed, and the back pin heel 23b of selection piece 23 sinks to needle tray, with the pushing and pressing that are subjected to less than needle selecting cam 12.This moment, flower matrix 22 was in lower N position, can be subjected to the compacting of fixation clip 10 at the colored type heel 22a of this position flower matrix 22, colored matrix 22 will be bent downwardly distortion behind needle jack 21 pressurizeds to pressing down needle jack 21, the back pin heel 21b of its upside sinks to needle tray, with the pushing and pressing that are subjected to less than knitting cam.The latch needles 20 pairing selection pieces 23 that participate in braiding are not subjected to the compacting of needle selection device 10, thereafter pin heel 23b be subjected to needle selecting cam 12 pushing and pressing and on move, it moves to the M position on pin heel 23c promotion flower matrix 22 down, the compacting of fixation clip 10 has been avoided in this position, makes the back pin heel 21b of needle jack be subjected to the pushing and pressing of stitch cam 4 to finish lopping and weaves.When the second needle selection position of needle selecting cam 12 is arrived in selection piece 23 relative motions, be on the cam base plate upside pushing and pressing selection piece 23 as this movable needle selecting cam and move, make colored matrix 22 move to the L position, promote to move on the needle jack from the M position, make it to be subjected to the pushing and pressing of transfer cam 6, finish the barring-on braiding.Also need cooperate left and right sides adapter ring pressing plate 8 and tuck pressing plate 9 as carrying out adapter ring braiding and tuck knitting.

An above-mentioned day island proper fine works is knitted control system, and more pressing plate is arranged and will cooperate corresponding needle selecting cam, complex structure, not only parts are many, and processing, installation complexity also make the cam base plate size bigger.

Chinese patent also discloses a kind of triangular knitting system that publication number is CN101314887, as shown in Figure 2.The knitting needle combination corresponding with this system is made up of knitting needle 30 and needle jack 31.Its triangular knitting system knits control system to above-mentioned day island proper fine works and improves, adopt electromagnetic needle selection to need not pressing plate (as the tuck pressing plate 9 among Fig. 1, adapter ring pressing plate 8 and fixation clip 10) and do not have platen region, need not needle selecting cam (12 among Fig. 1,13) and needle selection area part and overlap, system architecture is simplified with woven extent.But because needle jack 31 can rotate around the scarfing slot with the knitting needle interlocking, cause the rear end of knitting needle in needle tray, to teetertotter, influence the stable of knitting needle, cause fabric quality instability in the braiding process.

Summary of the invention

The purpose of this utility model is to propose the knitting needle combination that can not teetertotter at a kind of knitting needle.Above-mentioned purpose realizes by following technical scheme:

Described triangular knitting mechanism, the knitting cam that comprises cam base plate and the heel of pushing and pressing pin, described knitting cam is installed on the cam base plate, form at least one woven extent, this woven extent comprises that being arranged in this zone symmetrical centre upper needle blocks pin trigonometric sum transfer cam to the barring-on of elasticity stitch pin heel, stitch cam at this symmetry middle part, zone at the pin pin heel of pushing pin, lopping back stitching triangle, be symmetrically placed in stitch cam both sides at the depressing cam of the pin pin heel of pushing pin and place the adapter ring triangle of stitch cam downside and be arranged in a pair of lopping rise cam of adapter ring triangle both sides, wherein be provided with tuck cam at the end, underfooting of pushing pin in woven extent downside centre; Described transfer cam, stitch cam and tuck cam are movably arranged on the cam base plate.

The further design of described triangular knitting mechanism is that described adapter ring triangle is made up of the first adapter ring trigonometric sum, two second adapter ring triangles, and two second adapter ring triangles are in the symmetrical both sides of first adapter ring upper end.

The further design of described triangular knitting mechanism is, described transfer cam, stitch cam is connected by link gear with tuck cam, this link gear comprises motor, the control wheel, mount pad, fork, lead and trundle, described mount pad is fixed on the described cam base plate, described barring-on guide post, lopping guide post and tuck guide post are plugged on respectively in three pilot holes on the mount pad, described control wheel places the center between lopping lead and the tuck lead and is connected on the described motor shaft, the side that the lopping guide post is relative with the tuck guide post is connected described trundle respectively, and the circumference side of described control wheel is provided with the helical guide groove that is slidingly connected with described trundle; Described fork is rotationally connected between barring-on lead and lopping lead and with mount pad, and the fork two ends are slidingly connected with barring-on lead, lopping lead respectively.

The further design of described triangular knitting mechanism is, the hole wall of a relative side of two corresponding pilot holes of grafting lopping guide post and tuck guide post is provided with long slot bore, described trundle one end passes this long slot bore and extend in the described helical guide groove, realizes described being slidingly connected with described control wheel.

The further design of described triangular knitting mechanism is that described barring-on lead and lopping lead one axial location are provided with horizontal slip groove radially, and the fork two ends are by this horizontal slip groove respectively be slidingly connected described barring-on lead and lopping lead.

The utility model is the triangular knitting mechanism of a kind of compact conformation of designing according to a kind of knitting needle combination of being made up of knitting needle, elasticity stitch and the pin of pushing pin that is proposed, and it is knitting needle even running in needle tray, and not producing teetertotters provides assurance.The utility model is separately positioned on tuck cam and adapter ring triangle on the different width position of cam base plate simultaneously, when when carrying out delegation, having the braiding of lopping, tuck like this, corresponding triangle acts on the different parts of auxiliary stitch, will significantly reduce misoperation, improve weaving quality, make weaving quality more stable.

Description of drawings

Fig. 1-a is the structural representation of the smart cam system of day island proper.

Fig. 1-b is a needle tray structural representation on the needle plate of the correspondence of cam system shown in Fig. 1-a.

Fig. 2-a publication number is the structural representation of the cam system of CN101314887.

Fig. 2-b is a needle tray structural representation on the needle plate of the correspondence of cam system shown in Fig. 2-a.

Fig. 3-a is the structural representation and the corresponding knitting needle combination structural representation of the utility model cam mechanism.

Fig. 3-b is a needle tray structural representation on the needle plate of the correspondence of cam system shown in Fig. 3-a.

Fig. 4 is the structural representation of a kind of linkage status of link gear.

Fig. 5 is the structural representation of the another kind of linkage status of link gear.

Fig. 6-a is the pin heel trajectory diagram of not knitting needle.

Fig. 6-b is a needle tray structural representation on the needle plate of the cam system correspondence that relates to of Fig. 6-a.

Fig. 7-a is the pin heel trajectory diagram of lopping braiding.

Fig. 7-b is a needle tray structural representation on the needle plate of the cam system correspondence that relates to of Fig. 7-a.

Fig. 8-a is the pin heel trajectory diagram of tuck knitting.

Fig. 8-b is a needle tray structural representation on the needle plate of the cam system correspondence that relates to of Fig. 8-a.

Fig. 9-a is the pin heel trajectory diagram of barring-on braiding.

Fig. 9-b is a needle tray structural representation on the needle plate of the cam system correspondence that relates to of Fig. 9-a.

Figure 10-a is the pin heel trajectory diagram of adapter ring braiding

Figure 10-b is a needle tray structural representation on the needle plate of the cam system correspondence that relates to of Figure 10-a.

Among the figure, 40 knitting needles, 41 elasticity stitch, the heel of 41a first pin, the 41b elastic rod, 42 pin of pushing pin, the heel of 42a second pin, 42b electromagnetism adhesive face, the push pin rearward end of pin of 42c, 50 electromagnetic needle selectors, 51 needle trays, 60 cam base plate, 61 barring-ons block the pin triangle, 62 transfer cams, 63 lopping back stitching triangles, 64 stitch cams, 65 depressing cams, 66 first adapter ring triangles, 67 second adapter ring triangles, 68 tuck cams, 69 lopping rise cams, 70,71 pressing plates.

The specific embodiment

Below in conjunction with drawings and Examples the utility model and advantage thereof are described further.

Contrast Fig. 3, knitting cam of the present utility model mechanism are mainly by cam base plate 60 with place the various knitting cams on this base plate upper side to form.The cam base plate 60 of present embodiment has two groups of knitting cams, forms two woven extent, i.e. two braiding unit.Each woven extent has following knitting cam: be arranged on woven extent top and the barring-on that is arranged on this zone symmetrical center line from top to bottom and block pin triangle 61 and transfer cam 62; Be located at woven extent middle part and be arranged in lopping back stitching triangle 63, stitch cam 64, the first adapter ring triangle 66 on this zone symmetrical center line from top to bottom; A pair of depressing cam 65 is symmetrically placed in the both sides of stitch cam 64; A pair of second adapter ring triangle 67 and lopping rise cam 69 from-inner-to-outers are arranged in the both sides of the first adapter ring triangle 66 respectively.On the center of woven extent bottom, be provided with tuck cam 68.Electromagnetic needle selector 50 is installed in the top of the following end clamp plate 70,71 of cam base plate 60.There are 2 groups of electromagnetic needle selectors 50 each braiding unit, forms two couples of needle selection position I II corresponding to this braiding unit.

Above-mentioned tuck cam 68, transfer cam 62, lopping back stitching triangle 63 and stitch cam 64 are to be installed in versatilely on the cam base plate 60, and by triangle link gear realization interlock, this link gear mainly is made up of motor 80, control wheel 72, mount pad 73, fork 74, barring-on lead 75, lopping lead 76, tuck lead 77 and trundle 78.Transfer cam 62, lopping back stitching triangle 63 and stitch cam 64., tuck cam 68 are connected with barring-on lead 75, lopping lead 76 and tuck lead 77 respectively, referring to Fig. 4.Mount pad 73 is fixed on the bottom surface of cam base plate 60, which is provided with three pilot holes, peg graft respectively in the pilot hole barring-on lead 75, lopping lead 76 and tuck lead 77, be provided with control wheel 72. these control wheels in the center between lopping lead 76 and the tuck lead 77 and be connected on the axle of a motor 80, its circumference side is provided with helical guide groove 70.Be respectively equipped with long slot bore 71 on the hole wall of a relative side of two pilot holes of lopping lead 76 and tuck lead 77, with the position of these long slot bore 71 corresponding lopping leads 76 and tuck lead 77 on be respectively arranged with trundle 79, this trundle 79 passes long slot bore 71 and stretches in the helical guide groove 70, to realize and to control being slidingly connected of wheel 72.One fork 74 is hinged on the mount pad between barring-on lead 75 and the lopping lead 76, barring-on lead 75 and lopping lead 76 1 axial locations are provided with horizontal slip groove 78 radially, and fork 74 two ends are slidingly connected by horizontal slip groove 78 and barring-on lead 75 and lopping lead 76 respectively.

With motor 80 clockwise or when rotating counterclockwise, helical guide groove 70 drives lopping leads 76 and tuck lead 77 by trundle 79 and moves up and down along pilot hole at control wheel 72.And moving up and down of lopping lead 76 can move up and down by fork 74 drive barring-on leads 75.Lopping lead 76 moves upward, stitch cam 64 is not higher than cam base plate 60 upper sides, tuck lead 77 is done moving up and down in the same way, tuck cam 68 is in first height and position that protrudes from the cam base plate upper side, barring-on lead 75 is then done reverse moving up and down, make transfer cam 62 protrude from the cam base plate upper side, please again referring to Fig. 4.Lopping lead 76 moves downward, and protrudes from the upper side of cam base plate 60, the motion that tuck lead 77 is done in the same way, and tuck cam 68 is in second height and position that protrudes from the cam base plate upper side, and second height and position is higher than first height and position.75 of barring-on leads are done reverse moving upward, and make transfer cam 62 be in the position that is not higher than cam base plate 60 upper sides, see also Fig. 5, thereby realize three's interlock of tuck cam, stitch cam and transfer cam.

Triangular knitting mechanism of the present utility model adopts knitting needle combination as shown in Figure 3.It is by being made up of knitting needle 40, elasticity stitch 41 and the pin 42 of pushing pin.Be placed in each needle tray 51 on the needle-bar, the pushing and pressing face of the rear end of first pin heel 41a, second pin heel 42a on it and the pin of pushing pin is subjected to the control of triangular knitting system.Corresponding triangle in the triangular knitting mechanism moves knitting needle by the pin heel 42a on the pin heel 41a on the pushing and pressing elasticity stitch 41, the pin 42 of pushing pin and the rearward end 42c of the pin 42 of pushing pin in needle tray.When weaving, triangular knitting mechanism is reciprocating motion on needle-bar, and above-mentioned knitting needle combination is subjected to different triangle effects and forms not knitting needle, lopping braiding, tuck knitting, five kinds of different braiding tracks of barring-on braiding and adapter ring braiding.

Knitting needle not: needle selection pressing plate 70,71 will press down the rear portion of the pin 42 of pushing pin in the needle tray, and the electromagnetism adhesive face 42b adhesive that makes the pin 42 of pushing pin is to needle selection device 50.Pin heel 42a on it sinks in the needle tray 51, firmly the push pin electromagnetism adhesive face 42b of pin 42 of needle selection device 50 adhesive all the time, make the pin heel 42a of the pin 42 of pushing pin and rear end 42c be subjected to pushing and pressing less than corresponding triangle all the time, make knitting needle can not be in the needle-like attitude, its pin heel track sees also Fig. 6.

Lopping braiding: the electromagnetism adhesive face 42b on the pin 42 of pushing pin is lived by 50 adhesives of needle selection device and when moving to needle selection position I with triangular knitting mechanism, the adhesive that needle selection device 50 is decontroled electromagnetism adhesive face 42b makes the pin heel 42a on the pin 42 of pushing pin expose needle tray under the effect of the elastic rod 41b on the elasticity stitch 41.At this moment, stitch cam 64 is protruded the cam base plate upper side, and tuck cam 68 is in second height and position that protrudes from the cam base plate upper side, and transfer cam 62 is in and is not higher than the cam base plate upper side.Pin heel 42a enters into the needle track of being made up of lopping back stitching triangle 63 and stitch cam 64, promotes knitting needle and finishes the lopping braiding, and its pin heel track sees also Fig. 7.

Tuck knitting: the electromagnetism adhesive face 42b on the pin 42 of pushing pin is lived by 50 adhesives of needle selection device and when moving to needle selection position II with triangular knitting mechanism, the adhesive that needle selection device 50 is decontroled electromagnetism adhesive face 42b, make the pin heel 42a on the pin 42 of pushing pin expose needle tray, at this moment, stitch cam 64 is protruded the cam base plate upper side, tuck cam 68 is in second height and position that protrudes from the cam base plate upper side, and transfer cam 62 is in and is not higher than the cam base plate upper side.The rear end 42c of pin 42 of pushing pin is subjected to the pushing and pressing of tuck cam 68, promotes knitting needle and finishes tuck knitting, and its pin heel track sees also Fig. 8.

Barring-on braiding: the electromagnetism adhesive face 42b on the pin 42 of pushing pin is lived by 50 adhesives of needle selection device and when moving to needle selection position I with triangular knitting mechanism, the adhesive that needle selection device 50 is decontroled electromagnetism adhesive face 42b makes the pin heel 42a on the pin 42 of pushing pin expose needle tray.At this moment, transfer cam 62 protrudes the cam base plate upper side, and tuck cam 68 is in first height and position that protrudes from the cam base plate upper side, and stitch cam 64 is not higher than the cam base plate upper side.The pushing and pressing that make pin heel 42a on the pin 42 of pushing pin be subjected to lopping withdrawal of needle 69 earlier move upward, make the pin heel 41a on the elasticity stitch 41 enter into the barring-on needle track of forming by barring-on hurdle pin triangle 61 and transfer cam 62, promote knitting needle and finish the barring-on braiding, its pin heel track sees also Fig. 9.

Adapter ring braiding: the electromagnetism adhesive face 42b on the pin 42 of pushing pin is lived by 50 adhesives of needle selection device and when moving to needle selection position II with triangular knitting mechanism, the adhesive that needle selection device 50 is decontroled electromagnetism adhesive face 42b makes the pin heel 42a on the pin 42 of pushing pin expose needle tray.At this moment, transfer cam 62 protrudes the cam base plate upper side, and tuck cam 68 is in first height and position that protrudes from the cam base plate upper side, and stitch cam 64 is not higher than the cam base plate upper side.Make the pin heel 42a on the pin 42 of pushing pin successively be subjected to upwards pushing against of the first adapter ring triangle 66 and the second adapter ring triangle 67, make pin heel 41a on the elasticity stitch be subjected to the downward pushing and pressing on the inclined-plane of transfer cam 62 lower ends, drive knitting needle and finish the adapter ring braiding, its pin heel track sees also Figure 10.

Triangle interlock: motor 80 clockwise or rotate counterclockwise, make the control wheel 72 be installed on 80 in the motor promote two trundles 79 simultaneously upwards or move downward by helicla flute 70, thereby realization tuck lead 77 makes progress simultaneously with lopping lead 76 or moves downward, when lopping lead 76 makes progress or moves downward, lopping lead 76 interior horizontal slip grooves 78 are being with interior fork 74 1 ends of groove to make progress or are being moved downward, the end that fork 74 is positioned at barring-on lead 75 horizontal concrete chutes 78 downwards or move upward, barring-on lead 75, lopping lead 76 and tuck lead 77 threes realize interlock, thereby realize tuck cam 68, stitch cam 64, transfer cam 62 threes' interlock.

Claims (5)

1. be adapted to knitting needle, the triangular knitting mechanism of the elasticity stitch and the pin combination of pushing pin, the knitting cam that comprises cam base plate and the heel of pushing and pressing pin, described knitting cam is installed on the cam base plate, form at least one woven extent, this woven extent comprises that being arranged in this zone symmetrical centre upper needle blocks pin trigonometric sum transfer cam to the barring-on of elasticity stitch pin heel, stitch cam at this symmetry middle part, zone at the pin pin heel of pushing pin, lopping back stitching triangle, be symmetrically placed in stitch cam both sides at the depressing cam of the pin pin heel of pushing pin and place the adapter ring triangle of stitch cam downside and be arranged in a pair of lopping rise cam of adapter ring triangle both sides, it is characterized in that being provided with tuck cam at the end, underfooting of pushing pin in woven extent downside centre; Described transfer cam, stitch cam and tuck cam are movably arranged on the cam base plate.

2. the triangular knitting mechanism that is adapted to knitting needle, elasticity stitch and the pin of pushing pin combination according to claim 1, it is characterized in that described adapter ring triangle is made up of the first adapter ring trigonometric sum, two second adapter ring triangles, two second adapter ring triangles are in the symmetrical both sides of first adapter ring upper end.

3. the knitting needle that is adapted to according to claim 1, the triangular knitting mechanism of the elasticity stitch and the pin combination of pushing pin, it is characterized in that described transfer cam, stitch cam is connected by link gear with tuck cam, this link gear comprises motor, the control wheel, mount pad, fork, the barring-on lead, the lopping lead, tuck lead and trundle, described mount pad is fixed on the described cam base plate, mount pad is provided with three pilot holes, described barring-on guide post, lopping guide post and tuck guide post are plugged on respectively in described three pilot holes, described control wheel places the center between lopping lead and the tuck lead and is connected on the described motor shaft, the side that the lopping guide post is relative with the tuck guide post is connected described trundle respectively, and the circumference side of described control wheel is provided with the helical guide groove that is slidingly connected with described trundle; Described fork is rotationally connected between barring-on lead and lopping lead and with mount pad, and the fork two ends are slidingly connected with barring-on lead, lopping lead respectively.

4. the triangular knitting mechanism that is adapted to knitting needle, elasticity stitch and the pin of pushing pin combination according to claim 3, the hole wall of a relative side of two corresponding pilot holes of lopping guide post and tuck guide post of it is characterized in that pegging graft is provided with long slot bore, described trundle one end passes this long slot bore and extend in the described helical guide groove, realizes described being slidingly connected with described control wheel.

5. the triangular knitting mechanism that is adapted to knitting needle, elasticity stitch and the pin of pushing pin combination according to claim 3, it is characterized in that described barring-on lead and lopping lead one axial location are provided with horizontal slip groove radially, the fork two ends are by this horizontal slip groove respectively be slidingly connected described barring-on lead and lopping lead.

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