CN106676741A - Whole-station combined operation type presser mechanism and whole-station combined operation type method for computerized flat knitting machine - Google Patents

Abstract

The invention relates to a whole-station combined operation type presser mechanism and a whole-station combined operation type method for a computerized flat knitting machine. Currently, a frequently-used computerized flat knitting machine is incomprehensive and unreasonable in function. The whole-station combined operation type presser mechanism comprises a cam, a gear, a base and a brace, and is characterized by comprising a left guide post, a middle guide post, a right guide post, a right station plate, a middle station plate and a left station plate, the base is provided with a left vertical groove, a middle vertical groove, a right vertical groove and a transverse groove, the left station plate, the middle station plate and the right station plate are disposed in the left vertical groove, the middle vertical groove and the right vertical groove respectively, the left guide post, the middle guide post and the right guide post are fixed on the left station plate, the middle station plate and the right station plate respectively, the brace is provided with an upper adjusting groove and a lower adjusting groove and is arranged in the transverse groove, the left guide post and the right guide post are positioned in the upper adjusting groove, and the middle guide post is positioned in the lower adjusting groove. The computerized flat knitting machine is more comprehensive and reasonable in function.

Description

For full work station through transport formula tablet press mechanism and method in Computerized flat knitting machine

Technical field

The present invention relates to a kind of full work station through transport formula tablet press mechanism and method in Computerized flat knitting machine, it is mainly used in control Knitting cam and needle overturning triangle in Computerized flat knitting machine enter working condition.

Background technology

Operationally, knitting cam and needle overturning triangle have different working conditions to Computerized flat knitting machine, at present conventional computer Straight-bar machines controls the mode of knitting cam and needle overturning triangle complex, control inconvenience, and the function of Computerized flat knitting machine is difficult to more comprehensive With it is reasonable, it is difficult to meet the requirement of different use clients.If publication date is 01 month 2016 13 days, Publication No. In the China of CN105239263A, a kind of disclosed complex cam system for being applied to be molded Computerized flat knitting machine entirely, although Neng Gouda To the effect of diversified weave pattern, but realize the complex structure of the function.

The content of the invention

It is an object of the invention to overcome above shortcomings in the prior art, and a kind of reasonable in design is provided, Control is simple so that the function of Computerized flat knitting machine more comprehensively and rationally, disclosure satisfy that different use customer requirements for computer Full work station through transport formula tablet press mechanism and method in straight-bar machines.

The present invention the used technical scheme that solves the above problems is：The full work station through transport formula pressure being used in Computerized flat knitting machine Piece mechanism includes cam, gear, pedestal and tie rod, and the tie rod sets with teeth, and the tooth engagement on the gear and tie rod is described Cam and gear are fixed, and its design feature is：Also include left guide pillar, middle guide pillar, right guide pillar, right working position plate, intermediate stations Plate and left station board, the pedestal are provided with left vertical channel, intermediate vertical groove, right vertical channel and translot, the left station board, in Between station board and right working position plate be respectively placed in left vertical channel, intermediate vertical groove and right vertical channel, the left guide pillar, middle guide pillar It is separately fixed on left station board, intermediate stations plate and right working position plate with right guide pillar, is provided with for driving a left side on the tie rod The upper regulating tank and the lower regulating tank for driving middle guide pillar of guide pillar and right guide pillar, the tie rod are placed in translot, the left side Guide pillar and right guide pillar are respectively positioned in regulating tank, and the middle guide pillar is located in lower regulating tank.

Preferably, upper regulating tank of the present invention includes the horizontal segment, the rising that are sequentially connected from left to right Section, No. two horizontal segments, descending branch, No. three horizontal segments, No. two ascent stages, No. four horizontal segments, No. two descending brancies, No. five levels Section, No. three ascent stages, No. six horizontal segments, No. three descending brancies and No. seven horizontal segments.

Preferably, lower regulating tank of the present invention includes the left horizontal segment, ascent stage and the right side that are sequentially connected from left to right Horizontal segment.

Preferably, the left end of a horizontal segment of the present invention is semicircular structure, the right part of semicircular structure to drawing The distance of bar left side edge is 3.5~4.5mm, and the bottom of the right-hand member of an ascent stage is to the distance of tie rod left side edge 10.71~11.71mm, the distance of the bottom of the right-hand member of a descending branch to tie rod left side edge for 20.14~ 21.14mm, the distance of the bottom of the right-hand member of No. three horizontal segments to tie rod left side edge is 39.36~40.36mm, described two The bottom of the right-hand member of number descending branch to the distance of tie rod left side edge be 51.65~52.65mm, the right-hand member of No. three ascent stages Bottom to the distance of tie rod left side edge be 64.21~65.21mm, the bottom of the right-hand member of No. three descending brancies to a tie rod left side The distance on side edge is 73.63~74.63mm；The bottom of the right-hand member of the left horizontal segment is to the distance of tie rod left side edge 42.36~43.36mm.

Preferably, the bottom of a horizontal segment of the present invention, the bottom of No. three horizontal segments, the bottom of No. five horizontal segments 12.25~13.25mm, bottom, four of No. two horizontal segments are with No. seven bottoms of horizontal segment to the distance of tie rod bottom The bottom and No. six bottoms of horizontal segment of number horizontal segment are 15.6~16.6mm to the distance of tie rod bottom；The left horizontal segment Bottom be 2~3mm to the distance of tie rod bottom, the distance of the bottom of the right horizontal segment to tie rod bottom is 5.25~ 6.25mm；The thickness of the tie rod is 3.5~4.5mm, and the height of the tie rod is 25.5~26.5mm.

Preferably, the width of upper regulating tank of the present invention and lower regulating tank is 5mm, ascent stage, one Number descending branch, No. two ascent stages, No. two descending brancies, No. three ascent stages, No. three descending brancies and the gradients of ascent stage are 45 degree.

Preferably, the left end of a horizontal segment of the present invention is semicircular structure, the right part of semicircular structure to drawing The distance of bar left side edge is 4mm, and the bottom of the right-hand member of an ascent stage is to the distance of tie rod left side edge 11.21mm, the distance of the bottom of the right-hand member of a descending branch to tie rod left side edge is 20.64mm, No. three levels The bottom of the right-hand member of section to the distance of tie rod left side edge be 39.86mm, the bottom of the right-hand member of No. two descending brancies to tie rod The distance of left side edge is 52.15mm, and the bottom of the right-hand member of No. three ascent stages is to the distance of tie rod left side edge 64.71mm, the distance of the bottom of the right-hand member of No. three descending brancies to tie rod left side edge is 74.13mm；The left horizontal segment Right-hand member bottom to tie rod left side edge distance be 42.86mm.

Preferably, the bottom of a horizontal segment of the present invention, the bottom of No. three horizontal segments, the bottom of No. five horizontal segments 12.75mm, the bottom of No. two horizontal segments, No. four horizontal segments are with No. seven bottoms of horizontal segment to the distance of tie rod bottom Bottom and No. six bottoms of horizontal segment be 16.1mm to the distance of tie rod bottom；The bottom of the left horizontal segment to tie rod bottom The distance in portion is 2.5mm, and the distance of the bottom of the right horizontal segment to tie rod bottom is 5.75mm；The thickness of the tie rod is 4mm, the height of the tie rod is 26mm.

A kind of full work station through transport formula method in Computerized flat knitting machine, its feature is：Use described full work station through transport The step of formula tablet press mechanism, methods described, is as follows：Moved along translot by gear driven tie rod, realized adjacent among nine stations Switching between two stations, nine stations are followed successively by right lateral and hang mesh station, hang mesh station, left lateral and hang mesh station, zero-bit, right lateral Braiding station, left lateral connect pin station, connects pin station, right lateral connects pin station and left lateral braiding station.

Preferably, the present invention is when in zero-bit, the left guide pillar is located in No. three horizontal segments, and the right guide pillar is located at In No. five horizontal segments, the middle guide pillar is located in left horizontal segment, the bottom of the left station board, the bottom of right working position plate and in Between the bottom of station board flush, the left station board, right working position plate and intermediate stations plate are in benchmark position；On the basis of zero-bit On, during the tie rod moves right, sequentially pass through left lateral and hang mesh station, hang mesh station and right lateral hangs mesh station, it is described After tie rod moves right, zero-bit is switched to left lateral and hangs mesh station, and now described left guide pillar is located at by after a descending branch lifting In No. two horizontal segments, the left station board lifting of left guide pillar drive makes left station board be in lifting position, and the right guide pillar is located at No. five water In flat section, the middle guide pillar is located in left horizontal segment, and the right working position plate and intermediate stations plate remain unchanged in benchmark position；It is described Tie rod continues to move right, and left lateral hangs mesh Switch of working position to mesh station is hung, and now described left guide pillar is located in No. two horizontal segments, institute Right guide pillar is stated in being located at No. four horizontal segments after No. two descending branch liftings, right guide pillar drives right working position plate lifting to cause right working position Plate is in lifting position, and the middle guide pillar is located in left horizontal segment, and the left station board remains unchanged in lifting position, the middle work Position plate remains unchanged in benchmark position；The tie rod continues to move right, and hangs mesh Switch of working position and hangs mesh station to right lateral, now the left side Guide pillar is dropped in a horizontal segment by an ascent stage, and left guide pillar drives left station board to decline and causes that left station board resets to Benchmark position, the right guide pillar is located in No. four horizontal segments, and the middle guide pillar is located in left horizontal segment, and the right working position plate remains unchanged In lifting position, the intermediate stations plate remains unchanged in benchmark position；On the basis of zero-bit, the process that the tie rod is moved to the left In, sequentially pass through right lateral braiding station, left lateral and connect pin station, connect pin station, right lateral and connect pin station and left lateral braiding station, it is described After tie rod is moved to the left, zero-bit is switched to right lateral braiding station, and now described left guide pillar is located in No. three horizontal segments, and the right side is led In being located at No. six horizontal segments after No. three ascent stage liftings, right guide pillar drives right working position plate lifting to cause that right working position plate is in post Lifting position, in being located at right horizontal segment after ascent stage lifting, middle guide pillar drives intermediate stations plate lifting to the middle guide pillar So that intermediate stations plate is in lifting position, the left station board remains unchanged in benchmark position；The tie rod continues to be moved to the left, right lateral Braiding station is switched to left lateral and connects pin station, and now described left guide pillar is located in No. three horizontal segments, and the right guide pillar is located at No. six In horizontal segment, the middle guide pillar be located at right horizontal segment in, the left station board remain unchanged in benchmark position, the right working position plate according to It is old in lifting position, the intermediate stations plate remain unchanged in lifting position；The tie rod continues to be moved to the left, and left lateral connects pin station and cuts Change to and connect pin station, now described left guide pillar is located in No. three horizontal segments, and the right guide pillar drops to seven by No. three descending brancies In number horizontal segment, right guide pillar drives right working position plate to decline and causes that right working position sheet reset to benchmark position, the middle guide pillar are located at right In horizontal segment, the left station board remains unchanged in benchmark position, and the intermediate stations plate remains unchanged in lifting position；The tie rod continues It is moved to the left, connects pin Switch of working position and connect pin station to right lateral, now described left guide pillar is by being located at four after No. two ascent stage lifting In number horizontal segment, left guide pillar drives left station board lifting to cause that left station board is in lifting position, and the right guide pillar is located at No. seven water In flat section, the middle guide pillar be located at right horizontal segment in, the right working position plate remain unchanged in benchmark position, the intermediate stations plate according to It is old in lifting position；The tie rod continues to be moved to the left, and right lateral connects pin Switch of working position and weaves station to left lateral, and now the left side is led Post is located in No. four horizontal segments, and the right guide pillar is located in No. seven horizontal segments, and the middle guide pillar is located in right horizontal segment, described Left station board remains unchanged in lifting position, and the right working position plate remains unchanged in benchmark position, and the intermediate stations plate remains unchanged in lifting Position.

The present invention compared with prior art, with advantages below and effect：The function of making Computerized flat knitting machine by this mechanism is more Plus comprehensively and rationally, can conveniently, flexible realize that right lateral hangs mesh station, hangs mesh station, left lateral and hang mesh station, zero-bit, right lateral Braiding station, left lateral connect pin station, connects pin station, right lateral connects pin station and left lateral braiding station, disclosure satisfy that and different uses visitor The requirement at family.

Brief description of the drawings

Fig. 1 is the structural representation for the full work station through transport formula tablet press mechanism in Computerized flat knitting machine in the embodiment of the present invention.

Fig. 2 is the main structure diagram of tie rod in the embodiment of the present invention.

Fig. 3 is the left view structural representation of tie rod in the embodiment of the present invention.

Fig. 4 is the main structure diagram of tie rod in the embodiment of the present invention, and is labeled with corresponding size.

Fig. 5 is the left view structural representation of tie rod in the embodiment of the present invention, and is labeled with corresponding size.

Fig. 6 is for each station involved by the full work station through transport formula method in Computerized flat knitting machine in the embodiment of the present invention Between the schematic diagram changed, from first to the 9th, station is followed successively by right lateral and hangs mesh station, hangs mesh station, left lateral and hang mesh work Position, zero-bit, right lateral braiding station, left lateral connect pin station, connects pin station, right lateral connects pin station and left lateral braiding station.

Specific embodiment

The present invention is described in further detail below in conjunction with the accompanying drawings and by embodiment, and following examples are to this hair Bright explanation and the invention is not limited in following examples.

Embodiment.

Referring to Fig. 1 to Fig. 6, the full work station through transport formula tablet press mechanism being used in Computerized flat knitting machine in the present embodiment include cam 1, Gear 2, left guide pillar 31, middle guide pillar 32, right guide pillar 33, pedestal 4, tie rod 5, right working position plate 6, intermediate stations plate 7 and left station Plate 8.

Tie rod 5 in the present embodiment sets with teeth, and the tooth engagement on gear 2 and tie rod 5, cam 1 and gear 2 are fixed, base Seat 4 is provided with left vertical channel 41, intermediate vertical groove 42, right vertical channel 43 and translot 44, left station board 8, intermediate stations plate 7 and the right side Station board 6 is respectively placed in left vertical channel 41, intermediate vertical groove 42 and right vertical channel 43, left guide pillar 31, middle guide pillar 32 and the right side Guide pillar 33 is separately fixed on left station board 8, intermediate stations plate 7 and right working position plate 6.

It is provided with tie rod 5 in the present embodiment for driving the upper regulating tank 51 of left guide pillar 31 and right guide pillar 33 and being used for The lower regulating tank 52 of guide pillar 32 in the middle of driving, tie rod 5 is placed in translot 44, and left guide pillar 31 and right guide pillar 33 are respectively positioned on regulating tank In 51, middle guide pillar 32 is located in lower regulating tank 52.

Upper regulating tank 51 in the present embodiment includes the 101, ascent stage an of horizontal segment being sequentially connected from left to right 102nd, No. two ascent stage 106, No. four of horizontal segment 105, two of descending branch 104, three of a horizontal segment 103, horizontal segments 107, two Number ascent stage of horizontal segment 109, three 110, No. six of descending branch 108, five descending branch 112 of horizontal segment 111, three and No. seven levels Section 113.Lower regulating tank 52 includes the left horizontal segment 521, ascent stage 522 and the right horizontal segment 523 that are sequentially connected from left to right.

A left end for horizontal segment 101 in the present embodiment is semicircular structure, and the right part of semicircular structure is left to tie rod 5 The distance on side edge is 3.5~4.5mm, and a bottom for the right-hand member of ascent stage 102 is to the distance of the left side edge of tie rod 5 10.71~11.71mm, the distance of a bottom for the right-hand member of descending branch 104 to the left side edge of tie rod 5 for 20.14~ 21.14mm, the distance of No. three bottoms of the right-hand member of horizontal segment 105 to the left side edge of tie rod 5 is 39.36~40.36mm, under No. two Drop section 108 right-hand member bottom to the left side edge of tie rod 5 distance be 51.65~52.65mm, No. three right-hand members of ascent stage 110 Bottom to the left side edge of tie rod 5 distance be 64.21~65.21mm, No. three bottoms of the right-hand member of descending branch 112 to tie rod 5 The distance of left side edge is 73.63~74.63mm；The bottom of the right-hand member of left horizontal segment 521 is to the distance of the left side edge of tie rod 5 42.36~43.36mm.Preferably, left end for horizontal segment 101 is semicircular structure, the right part of semicircular structure to tie rod 5 The distance of left side edge is 4mm, and the distance of a bottom for the right-hand member of ascent stage 102 to the left side edge of tie rod 5 is 11.21mm, A number bottom for the right-hand member of descending branch 104 to the distance of the left side edge of tie rod 5 be 20.64mm, No. three right-hand members of horizontal segment 105 Bottom to the left side edge of tie rod 5 distance be 39.86mm, No. two bottoms of the right-hand member of descending branch 108 to the left side edge of tie rod 5 Distance is 52.15mm, and the distance of No. three bottoms of the right-hand member of ascent stage 110 to the left side edge of tie rod 5 is 64.71mm, under No. three Drop section 112 right-hand member bottom to the left side edge of tie rod 5 distance be 74.13mm；The bottom of the right-hand member of left horizontal segment 521 to draw The distance of the left side edge of bar 5 is 42.86mm.

A bottom for horizontal segment 101 in the present embodiment, the bottom of No. three horizontal segments 105, the bottom of No. five horizontal segments 109 Portion and No. seven bottoms of horizontal segment 113 are 12.25~13.25mm, No. two bottoms of horizontal segment 103 to the distance of the bottom of tie rod 5 Portion, the bottom and No. six bottoms of horizontal segment 111 of No. four horizontal segments 107 are 15.6~16.6mm to the distance of the bottom of tie rod 5； The bottom of left horizontal segment 521 to the distance of the bottom of tie rod 5 be 2~3mm, the distance of the bottom of right horizontal segment 523 to the bottom of tie rod 5 It is 5.25~6.25mm；The thickness of tie rod 5 is 3.5~4.5mm, and the height of the tie rod 5 is 25.5~26.5mm.Preferably, one The bottom of number horizontal segment 101, the bottom of No. three horizontal segments 105, the bottom and No. seven bottoms of horizontal segment 113 of No. five horizontal segments 109 Portion is 12.75mm to the distance of the bottom of tie rod 5, No. two bottoms of horizontal segment 103, the bottom of No. four horizontal segments 107 and No. six The bottom of horizontal segment 111 is 16.1mm to the distance of the bottom of tie rod 5；Distance of the bottom of left horizontal segment 521 to the bottom of tie rod 5 It is 2.5mm, the distance of the bottom of right horizontal segment 523 to the bottom of tie rod 5 is 5.75mm；The thickness of tie rod 5 is 4mm, the tie rod 5 Highly it is 26mm.

The width of upper regulating tank 51 and lower regulating tank 52 in the present embodiment is 5mm, under an ascent stage 102, No. one The drop ascent stage 106, No. two of section 104, two descending branch 108, three descending branch 112 of ascent stage 110, No. three and ascent stage 522 Gradient is 45 degree.

The step of full work station through transport formula method being used in Computerized flat knitting machine in the present embodiment, is as follows：Driven by gear 2 and drawn Bar 5 is moved along translot 44, realizes the switching between two neighboring station among nine stations, and nine stations are followed successively by right lateral and hang mesh Station, hang mesh station, left lateral and hang mesh station, zero-bit, right lateral braiding station, left lateral and connect pin station, connect pin station, right lateral and connect pin work Position and left lateral weave station.

When in zero-bit, left guide pillar 31 is located in No. three horizontal segments 105, and right guide pillar 33 is located in No. five horizontal segments 109, Middle guide pillar 32 is located in left horizontal segment 521, the bottom of the bottom, the bottom of right working position plate 6 and intermediate stations plate 7 of left station board 8 Portion flushes, and the left station board 8, right working position plate 6 and intermediate stations plate 7 are in benchmark position.

On the basis of zero-bit, during tie rod 5 moves right, sequentially pass through left lateral hang mesh station, hang mesh station and Right lateral hangs mesh station, and after tie rod 5 moves right, zero-bit is switched to left lateral and hangs mesh station, and now left guide pillar 31 is by a decline Section 104 liftings after be located at No. two horizontal segments 103 in, left guide pillar 31 drive the lifting of left station board 8 make left station board 8 be in lifting Position, right guide pillar 33 is located in No. five horizontal segments 109, and middle guide pillar 32 is located in left horizontal segment 521, right working position plate 6 and middle work Position plate 7 is still in benchmark position.Tie rod 5 continues to move right, and left lateral hangs mesh Switch of working position to mesh station is hung, now left guide pillar 31 In No. two horizontal segments 103, right guide pillar 33 by after the lifting of No. two descending brancies 108 be located at No. four horizontal segments 107 in, right guide pillar The lifting of 33 drive right working position plate 6 causes that right working position plate 6 is in lifting position, and middle guide pillar 32 is located in left horizontal segment 521, left station , still in lifting position, intermediate stations plate 7 is still in benchmark position for plate 8.Tie rod 5 continues to move right, and hangs mesh Switch of working position and arrives Right lateral hangs mesh station, and during now left guide pillar 31 drops to a horizontal segment 101 by an ascent stage 102, left guide pillar 31 drives The decline of left station board 8 causes that left station board 8 resets to benchmark position, and right guide pillar 33 is located in No. four horizontal segments 107, middle guide pillar 32 In left horizontal segment 521, still in lifting position, intermediate stations plate 7 is still in benchmark position for right working position plate 6.

On the basis of zero-bit, during tie rod 5 is moved to the left, sequentially passes through right lateral braiding station, left lateral and connect pin work Position, connect pin station, right lateral connect pin station and left lateral braiding station, after tie rod 5 is moved to the left, zero-bit is switched to right lateral weaver Position, now in No. three horizontal segments 105, right guide pillar 33 is by being located at No. six water after No. three liftings of ascent stage 110 for left guide pillar 31 In flat section 111, right guide pillar 33 drives the lifting of right working position plate 6 to cause that right working position plate 6 is in lifting position, and middle guide pillar 32 is by rising It is located in right horizontal segment 523 after 522 liftings of section, middle guide pillar 32 drives the lifting of intermediate stations plate 7 to cause that intermediate stations plate 7 is in Lifting position, left station board 8 is still in benchmark position.Tie rod 5 continues to be moved to the left, and right lateral braiding station is switched to left lateral and connects pin work Position, now in No. three horizontal segments 105, right guide pillar 33 is located in No. six horizontal segments 111 left guide pillar 31, and middle guide pillar 32 is located at In right horizontal segment 523, still in benchmark position, still in lifting position, intermediate stations plate 7 remains unchanged right working position plate 6 left station board 8 In lifting position.Tie rod 5 continues to be moved to the left, and left lateral connects pin Switch of working position to pin station is connect, and now left guide pillar 31 is located at No. three In horizontal segment 105, right guide pillar 33 is dropped in No. seven horizontal segments 113 by No. three descending brancies 112, and right guide pillar 33 drives right working position Plate 6 decline cause right working position plate 6 reset to benchmark position, middle guide pillar 32 be located at right horizontal segment 523 in, left station board 8 still locate In benchmark position, intermediate stations plate 7 is still in lifting position.Tie rod 5 continues to be moved to the left, and connects pin Switch of working position and connects pin work to right lateral Position, now in being located at No. four horizontal segments 107 after No. two liftings of ascent stage 106, left guide pillar 31 drives left station to left guide pillar 31 The lifting of plate 8 causes that left station board 8 is in lifting position, and right guide pillar 33 is located in No. seven horizontal segments 113, and middle guide pillar 32 is located at right water In flat section 523, still in benchmark position, intermediate stations plate 7 is still in lifting position for right working position plate 6.Tie rod 5 continues to moving to left Dynamic, right lateral connects pin Switch of working position and weaves station to left lateral, and now left guide pillar 31 is located in No. four horizontal segments 107, right guide pillar 33 In No. seven horizontal segments 113, middle guide pillar 32 is located in right horizontal segment 523, and left station board 8 is still in lifting position, right working position , still in benchmark position, intermediate stations plate 7 is still in lifting position for plate 6.

The operation principle of full work station through transport formula tablet press mechanism is as follows in the present embodiment：Right working position plate 6, the and of intermediate stations plate 7 Left station board 8 is respectively placed in right vertical channel 43, intermediate vertical groove 42 and left vertical channel 41, right working position plate 6, intermediate stations plate 7 Can be slided up and down along right vertical channel 43, intermediate vertical groove 42 and left vertical channel 41 respectively with left station board 8, tie rod 5 is placed in translot In 44, tie rod 5 connects left station board 8, intermediate stations plate 7 and the right side respectively by left guide pillar 31, middle guide pillar 32 and right guide pillar 33 Station board 6, tie rod 5 is engaged with gear 2, the direct-connected motor of gear 2, cam 1 also with motor direct-connected；Motor rotarily drives the He of cam 1 Gear 2 rotates, and gear 2 drives tie rod 5 to be moved horizontally in the translot 44 of pedestal 4, by left guide pillar 31, the middle and of guide pillar 32 Right guide pillar 33 connects left station board 8, intermediate stations plate 7 and right working position plate 6 and is moved up and down vertically in pedestal 4 respectively, is drawing Under the collective effect of bar 5, left guide pillar 31, middle guide pillar 32 and right guide pillar 33 so that right working position plate 6, intermediate stations plate 7 and left work Position plate 8 forms right lateral and hangs mesh station, hangs mesh station, left lateral and hang mesh station, zero-bit, right lateral braiding station, left lateral and connect pin station, connect Pin station, right lateral connect pin station and left lateral braiding each station of station.Simultaneously because angle of the cam 1 on each station is different, Knitting cam and needle overturning triangle can be made when different, and machine enters working condition in due course.

" left side ", " centre " and " right side " in the present invention is with the placement shape of full work station through transport formula tablet press mechanism in accompanying drawing 1 It is described on the basis of state, " left side ", " centre " and " right side " is to those skilled in the art common knowledge.

Furthermore, it is necessary to explanation, the specific embodiment described in this specification, is named the shape of its parts and components Claiming etc. can be with difference, and the above content described in this specification is only to structure example explanation of the present invention.It is all according to The equivalence changes or simple change done according to the construction described in inventional idea of the present invention, feature and principle, are included in this hair In the protection domain of bright patent.Those skilled in the art can do various to described specific embodiment The modification of various kinds or supplement are substituted using similar mode, without departing from structure of the invention or surmount present claims Scope defined in book, all should belong to protection scope of the present invention.

Claims (10)

1. a kind of full work station through transport formula tablet press mechanism in Computerized flat knitting machine, including cam, gear, pedestal and tie rod, it is described Tie rod sets with teeth, the tooth engagement on the gear and tie rod, and the cam and gear are fixed, it is characterised in that：Also include a left side Guide pillar, middle guide pillar, right guide pillar, right working position plate, intermediate stations plate and left station board, the pedestal be provided with left vertical channel, in Between vertical channel, right vertical channel and translot, the left station board, intermediate stations plate and right working position plate be respectively placed in left vertical channel, in Between in vertical channel and right vertical channel, the left guide pillar, middle guide pillar and right guide pillar are separately fixed at left station board, intermediate stations plate On right working position plate, upper regulating tank for driving left guide pillar and right guide pillar is provided with the tie rod and for driving centre to lead The lower regulating tank of post, the tie rod is placed in translot, and the left guide pillar and right guide pillar are respectively positioned in regulating tank, and the centre is led Post is located in lower regulating tank.

2. the full work station through transport formula tablet press mechanism in Computerized flat knitting machine according to claim 1, it is characterised in that：It is described Upper regulating tank includes the horizontal segment, ascent stage, No. two horizontal segments, descending branch, three that are sequentially connected from left to right Number horizontal segment, No. two ascent stages, No. four horizontal segments, No. two descending brancies, No. five horizontal segments, No. three ascent stages, No. six horizontal segments, three Number descending branch and No. seven horizontal segments.

3. the full work station through transport formula tablet press mechanism in Computerized flat knitting machine according to claim 1, it is characterised in that：It is described Lower regulating tank includes the left horizontal segment, ascent stage and the right horizontal segment that are sequentially connected from left to right.

4. the full work station through transport formula tablet press mechanism in Computerized flat knitting machine according to claim 2, it is characterised in that：It is described Number left end for horizontal segment is semicircular structure, the right part of semicircular structure to the distance of tie rod left side edge is 3.5~ 4.5mm, the distance of the bottom of the right-hand member of an ascent stage to tie rod left side edge is 10.71~11.71mm, described No. one The bottom of the right-hand member of descending branch to tie rod left side edge distance be 20.14~21.14mm, the right-hand member of No. three horizontal segments Bottom to the distance of tie rod left side edge be 39.36~40.36mm, on the left of the bottom of the right-hand member of No. two descending brancies to tie rod The distance at edge is 51.65~52.65mm, and the bottom of the right-hand member of No. three ascent stages is to the distance of tie rod left side edge 64.21~65.21mm, the distance of the bottom of the right-hand member of No. three descending brancies to tie rod left side edge for 73.63~ 74.63mm；The bottom of the right-hand member of the left horizontal segment to tie rod left side edge distance be 42.36~43.36mm.

5. the full work station through transport formula tablet press mechanism in Computerized flat knitting machine according to claim 2, it is characterised in that：It is described Number bottom for horizontal segment, the bottom of No. three horizontal segments, the bottom and No. seven bottoms of horizontal segment to tie rod bottom of No. five horizontal segments The distance in portion is 12.25~13.25mm, the bottom of No. two horizontal segments, the bottom of No. four horizontal segments and No. six horizontal segments Bottom be 15.6~16.6mm to the distance of tie rod bottom；The bottom of the left horizontal segment to tie rod bottom distance be 2 ~3mm, the distance of the bottom of the right horizontal segment to tie rod bottom is 5.25~6.25mm；The thickness of the tie rod be 3.5~ 4.5mm, the height of the tie rod is 25.5~26.5mm.

6. the full work station through transport formula tablet press mechanism in Computerized flat knitting machine according to claim 2, it is characterised in that：It is described The width of upper regulating tank and lower regulating tank is 5mm, an ascent stage, descending branch, No. two ascent stages, No. two declines Section, No. three ascent stages, No. three descending brancies and the gradients of ascent stage are 45 degree.

7. the full work station through transport formula tablet press mechanism in Computerized flat knitting machine according to claim 4, it is characterised in that：It is described Number left end for horizontal segment is semicircular structure, and the right part of semicircular structure to the distance of tie rod left side edge is 4mm, described one The bottom of the right-hand member of number ascent stage to the distance of tie rod left side edge be 11.21mm, the bottom of the right-hand member of a descending branch Distance to tie rod left side edge is 20.64mm, the distance of the bottom of the right-hand member of No. three horizontal segments to tie rod left side edge It is 39.86mm, the distance of bottom to the tie rod left side edge of the right-hand member of No. two descending brancies is 52.15mm, on described No. three Rise section right-hand member bottom to the distance of tie rod left side edge be 64.71mm, the bottom of the right-hand member of No. three descending brancies to drawing The distance of bar left side edge is 74.13mm；The bottom of the right-hand member of the left horizontal segment is to the distance of tie rod left side edge 42.86mm。

8. the full work station through transport formula tablet press mechanism in Computerized flat knitting machine according to claim 5, it is characterised in that：It is described Number bottom for horizontal segment, the bottom of No. three horizontal segments, the bottom and No. seven bottoms of horizontal segment to tie rod bottom of No. five horizontal segments The distance in portion is 12.75mm, and the bottom of the bottom of No. two horizontal segments, the bottom of No. four horizontal segments and No. six horizontal segments is arrived The distance of tie rod bottom is 16.1mm；The bottom of the left horizontal segment to tie rod bottom distance be 2.5mm, the right level Section bottom to tie rod bottom distance be 5.75mm；The thickness of the tie rod is 4mm, and the height of the tie rod is 26mm.

9. a kind of full work station through transport formula method in Computerized flat knitting machine, it is characterised in that：It is any using such as claim 1~8 The step of full work station through transport formula tablet press mechanism described in claim, methods described, is as follows：By gear driven tie rod along translot It is mobile, the switching between two neighboring station among nine stations is realized, nine stations are followed successively by right lateral and hang mesh station, hang mesh work Position, left lateral are hung mesh station, zero-bit, right lateral braiding station, left lateral and connect pin station, connect that pin station, right lateral connect pin station and left lateral is compiled Weaver position.

10. the full work station through transport formula method in Computerized flat knitting machine according to claim 9, it is characterised in that：When being in During zero-bit, the left guide pillar is located in No. three horizontal segments, and the right guide pillar is located in No. five horizontal segments, and the middle guide pillar is located at In left horizontal segment, the bottom of the bottom, the bottom of right working position plate and intermediate stations plate of the left station board flushes, the left station Plate, right working position plate and intermediate stations plate are in benchmark position；On the basis of zero-bit, during the tie rod moves right, Sequentially pass through left lateral to hang mesh station, hang mesh station and right lateral hangs mesh station, after the tie rod moves right, zero-bit is switched to left lateral Mesh station is hung, in being located at No. two horizontal segments after a descending branch lifting, left guide pillar drives left station to now described left guide pillar Plate lifting makes left station board be in lifting position, and the right guide pillar is located in No. five horizontal segments, and the middle guide pillar is located at left level Duan Zhong, the right working position plate and intermediate stations plate remain unchanged in benchmark position；The tie rod continues to move right, and left lateral hangs mesh station It is switched to and hangs mesh station, now described left guide pillar is located in No. two horizontal segments, and the right guide pillar is by after No. two descending branch liftings In No. four horizontal segments, right guide pillar drives right working position plate lifting to cause that right working position plate is in lifting position, the middle guide pillar position In left horizontal segment, the left station board remains unchanged in lifting position, and the intermediate stations plate remains unchanged in benchmark position；The tie rod Continue to move right, hang mesh Switch of working position and hang mesh station to right lateral, now described left guide pillar drops to one by an ascent stage In number horizontal segment, left guide pillar drives left station board to decline and causes that left station board resets to benchmark position, and the right guide pillar is located at No. four In horizontal segment, the middle guide pillar is located in left horizontal segment, and the right working position plate remains unchanged in lifting position, the intermediate stations plate Still in benchmark position；On the basis of zero-bit, during the tie rod is moved to the left, sequentially pass through right lateral braiding station, Left lateral connect pin station, connect pin station, right lateral connect pin station and left lateral braiding station, after the tie rod is moved to the left, zero-bit switching Station is woven to right lateral, now described left guide pillar is located in No. three horizontal segments, and the right guide pillar is by after No. three ascent stage liftings In No. six horizontal segments, right guide pillar drives right working position plate lifting to cause that right working position plate is in lifting position, and the middle guide pillar leads to It is located in right horizontal segment after crossing ascent stage lifting, middle guide pillar drives intermediate stations plate lifting to cause that intermediate stations plate is in lifting Position, the left station board remains unchanged in benchmark position；The tie rod continues to be moved to the left, and right lateral braiding station is switched to left lateral and connects pin Station, now described left guide pillar is located in No. three horizontal segments, and the right guide pillar is located in No. six horizontal segments, the middle guide pillar position In right horizontal segment, the left station board remains unchanged in benchmark position, and the right working position plate remains unchanged in lifting position, the middle work Position plate remains unchanged in lifting position；The tie rod continues to be moved to the left, and left lateral connects pin Switch of working position to pin station is connect, now the left side Guide pillar is located in No. three horizontal segments, and the right guide pillar is dropped in No. seven horizontal segments by No. three descending brancies, and right guide pillar drives right Station board declines and causes right working position sheet reset to benchmark position, the middle guide pillar in the right horizontal segment, the left station board according to It is old in benchmark position, the intermediate stations plate remain unchanged in lifting position；The tie rod continues to be moved to the left, and connects pin Switch of working position and arrives Right lateral connects pin station, and in being located at No. four horizontal segments after No. two ascent stage liftings, left guide pillar drives left now described left guide pillar Station board lifting causes that left station board is in lifting position, and the right guide pillar is located in No. seven horizontal segments, and the middle guide pillar is located at In right horizontal segment, the right working position plate remains unchanged in benchmark position, and the intermediate stations plate remains unchanged in lifting position；The tie rod after Continuous to be moved to the left, right lateral connects pin Switch of working position and weaves station to left lateral, and now described left guide pillar is located in No. four horizontal segments, described Right guide pillar is located in No. seven horizontal segments, and the middle guide pillar is located in right horizontal segment, and the left station board remains unchanged in lifting position, The right working position plate remains unchanged in benchmark position, and the intermediate stations plate remains unchanged in lifting position.