CN109537154B - Letter gram device of computerized flat knitting machine - Google Patents
Letter gram device of computerized flat knitting machine Download PDFInfo
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- CN109537154B CN109537154B CN201910038101.0A CN201910038101A CN109537154B CN 109537154 B CN109537154 B CN 109537154B CN 201910038101 A CN201910038101 A CN 201910038101A CN 109537154 B CN109537154 B CN 109537154B
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B15/00—Details of, or auxiliary devices incorporated in, weft knitting machines, restricted to machines of this kind
- D04B15/32—Cam systems or assemblies for operating knitting instruments
- D04B15/36—Cam systems or assemblies for operating knitting instruments for flat-bed knitting machines
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
- Y02P70/62—Manufacturing or production processes characterised by the final manufactured product related technologies for production or treatment of textile or flexible materials or products thereof, including footwear
Abstract
The invention relates to a signal gram device of a computerized flat knitting machine, and belongs to the field of textile machinery. The Zuo Xinke sliding chute and the right signal gram sliding chute are both arranged on a signal gram mother board, the left signal gram sliding seat is positioned in the left signal gram sliding chute, the right signal gram sliding seat is positioned in the right signal gram sliding chute, the Zuo Xinke sliding seat and the right signal gram sliding seat are both arranged on a signal gram bottom plate, the left signal gram triangle is arranged on the left signal gram sliding seat, the right signal gram triangle is arranged on the right signal gram sliding seat, the left telescopic regulating mechanism is positioned on the left side of the left signal gram sliding seat, the left push-pull regulating mechanism is positioned on the right side of the left signal gram sliding seat, the left telescopic regulating mechanism and the left push-pull regulating mechanism are both contacted with the Zuo Xinke sliding seat, the right telescopic regulating mechanism is positioned on the right side of the right signal gram sliding seat, the right push-pull regulating mechanism is positioned on the left side of the right signal gram sliding seat, and the right push-pull regulating mechanism are both connected with the push-pull driving mechanism.
Description
Technical Field
The invention relates to a signal gram device of a computerized flat knitting machine, and belongs to the field of textile machinery.
Background
The signal gram device is installed in the computerized flat knitting machine, and mainly plays a role in guiding in the computerized flat knitting machine, and the signal gram device mainly plays a role in guiding through movement of two signal gram cams, so that the distance of movement of the two signal gram cams in most signal gram devices is fixed and cannot be adjusted.
In view of this, patent document No. 201521105492.7 discloses a signal gram device provided with a dynamic settling tank, which comprises a fixed frame, a fixed sleeve plate, a guide sliding block, a toothed plate, a fixed plate, a stepping motor and a speed reduction gear set, wherein the fixed sleeve plate is fixed on the fixed frame, the guide sliding block penetrates through the fixed sleeve, two sides of the guide sliding block are respectively provided with a guide groove, and two sliding grooves are formed in the fixed frame; the toothed plate is fixed on the guide sliding block, the fixed plate is vertically fixed on the fixed frame, the stepping motor and the reduction gear set are arranged on the fixed plate, the reduction gear set is connected with the stepping motor, and the reduction gear set is clamped with the toothed plate; the lower extreme of mount is provided with 3 fixed triangles and 2 movable triangles of mutual interval arrangement, and 3 fixed triangles are fixed in the lower extreme of mount, and 2 movable triangles are fixed with the direction slider through the fixed axle respectively, are provided with the needle groove of going of linking mutually in fixed triangle and the movable triangle. The position of the signal gram triangle in the comparison file is fixed and cannot be adjusted.
Disclosure of Invention
The invention aims to overcome the defects in the prior art and provide a signal gram device of a computerized flat knitting machine with reasonable structural design.
The invention solves the problems by adopting the following technical scheme: the signal gram device of the computerized flat knitting machine is characterized in that: the device comprises a left signal gram triangle, a right signal gram triangle, a Zuo Xinke sliding seat, a right signal gram sliding seat, a signal gram bottom plate, a Zuo Xinke sliding groove, a right signal gram sliding groove, a signal gram mother plate, a left telescopic adjusting mechanism, a right telescopic adjusting mechanism, a left push-pull adjusting mechanism, a right push-pull adjusting mechanism and a push-pull driving mechanism; zuo Xinke spout and right letter gram spout all set up on letter gram mother board, zuo Xinke slide is located left letter gram spout, right letter gram slide is located right letter gram spout, zuo Xinke slide and right letter gram slide all install on letter gram bottom plate, zuo Xinke triangle is installed on left letter gram slide, right letter gram triangle is installed on right letter gram slide, left side flexible adjustment mechanism is located left side of left letter gram slide, left push-pull adjustment mechanism is located left side of left letter gram slide, left side flexible adjustment mechanism and left push-pull adjustment mechanism all contact with Zuo Xinke slide, right side flexible adjustment mechanism is located right side of right letter gram slide, right push-pull adjustment mechanism is located right side of right letter gram slide, right flexible adjustment mechanism and right push-pull adjustment mechanism all contact with right letter gram slide, left side push-pull adjustment mechanism and right push-pull adjustment mechanism all are connected with push-pull drive mechanism. The two cam positions in the cam device of the computerized flat knitting machine can be adjusted to be suitable for flat knitting machine bottom plates with various specifications, and the cam device of the computerized flat knitting machine has the advantages of reasonable structural design, accurate needle running and high working efficiency.
Further, the novel wireless communication system further comprises a signal gram rack and a signal gram base, wherein the signal gram rack is arranged on a signal gram base plate, and the signal gram motherboard is arranged on the signal gram base. The left signal gram triangle and the right signal gram triangle are driven by the signal gram rack.
Further, the left telescopic adjusting mechanism comprises a left telescopic adjusting clamping block, a left telescopic adjusting clamping groove, a left telescopic adjusting abutting seat, a left telescopic adjusting screw rod, a left telescopic adjusting sleeve, a left telescopic adjusting positioning ring, a left telescopic adjusting driving disc, a left telescopic adjusting driving groove, a left telescopic adjusting channel and a left telescopic adjusting positioning groove; zuo Xinke slide and left flexible adjustment draw-in groove contact, left flexible adjustment fixture block is located left letter gram spout, left flexible adjustment draw-in groove sets up on left flexible adjustment fixture block, left flexible adjustment butt seat is fixed on left flexible adjustment fixture block, left flexible adjusting screw is fixed with left flexible adjustment butt seat, left flexible adjusting screw is located left flexible adjustment sleeve, and left flexible adjustment telescopic tip and left flexible adjustment butt seat butt, left flexible adjusting locating ring is fixed outside left flexible adjustment sleeve, left flexible adjustment drive plate is fixed at left flexible adjustment telescopic tip, left flexible adjustment drive slot sets up on left flexible adjustment drive plate, left flexible adjustment passageway sets up on letter gram motherboard, and left flexible adjustment passageway and Zuo Xinke spout intercommunication, left flexible adjustment locating slot sets up in left flexible adjustment passageway, left flexible adjustment sleeve is located left flexible adjustment passageway, left flexible adjustment locating ring is located left flexible adjustment locating slot.
Further, the right telescopic adjusting mechanism comprises a right telescopic adjusting clamping block, a right telescopic adjusting clamping groove, a right telescopic adjusting abutting seat, a right telescopic adjusting screw rod, a right telescopic adjusting sleeve, a right telescopic adjusting positioning ring, a right telescopic adjusting driving disc, a right telescopic adjusting driving groove, a right telescopic adjusting channel and a right telescopic adjusting positioning groove; the right signal gram sliding seat is contacted with the right telescopic adjusting clamping groove, the right telescopic adjusting clamping block is positioned in the right signal gram sliding groove, the right telescopic adjusting clamping groove is arranged on the right telescopic adjusting clamping block, the right telescopic adjusting propping seat is fixed on the right telescopic adjusting clamping block, the right telescopic adjusting screw rod is fixed with the right telescopic adjusting propping seat, the right telescopic adjusting screw rod is positioned in the right telescopic adjusting sleeve, the end part of the right telescopic adjusting sleeve is propped against the right telescopic adjusting propping seat, the right telescopic adjusting positioning ring is fixed outside the right telescopic adjusting sleeve, the telescopic right adjusting drive disk is fixed at the telescopic right end, the telescopic right adjusting drive disk is provided with a telescopic right adjusting drive groove, a telescopic right adjusting channel is arranged on the signal gram motherboard and is communicated with the signal gram chute, a telescopic right adjusting positioning groove is arranged in the telescopic right adjusting channel, the telescopic right adjusting sleeve is positioned in the telescopic right adjusting channel, and a telescopic right adjusting positioning ring is positioned in the telescopic right adjusting positioning groove.
Further, the left push-pull adjusting mechanism comprises a left push-pull adjusting clamping block, a left push-pull adjusting clamping groove, a left push-pull adjusting pull rod, a left push-pull adjusting hinge seat, a left push-pull adjusting hinge rod and a left push-pull adjusting channel; zuo Xinke slide and left push-and-pull regulation draw-in groove contact, left push-and-pull regulation fixture block is located left letter gram spout, left push-and-pull regulation draw-in groove sets up on left push-and-pull regulation fixture block, the one end of left push-and-pull regulation pull rod is fixed with left push-and-pull regulation fixture block, left push-and-pull regulation articulated seat is fixed at the other end of left push-and-pull regulation pull rod, the one end of left push-and-pull regulation articulated seat is articulated with left push-and-pull regulation articulated seat, the other end of left push-and-pull regulation articulated rod is articulated with push-and-pull actuating mechanism, left push-and-pull regulation passageway sets up on letter gram mother board, and left push-and-pull regulation passageway and Zuo Xinke spout intercommunication, left push-and-pull regulation pull rod is located left push-and-pull regulation passageway.
Further, right push-and-pull adjustment mechanism includes right push-and-pull adjustment fixture block, right push-and-pull adjustment draw-in groove, right push-and-pull adjustment pull rod, right push-and-pull adjustment articulated seat, right push-and-pull adjustment articulated rod and right push-and-pull adjustment passageway, right signal gram slide and right push-and-pull adjustment draw-in groove contact, right push-and-pull adjustment fixture block is located right signal gram spout, right push-and-pull adjustment draw-in groove sets up on right push-and-pull adjustment fixture block, right push-and-pull adjustment pull rod's one end is fixed with right push-and-pull adjustment fixture block, right push-and-pull adjustment articulated seat is fixed at right push-and-pull adjustment pull rod's the other end, right push-and-pull adjustment articulated rod's the other end is articulated with push-and-pull actuating mechanism, right push-and-pull adjustment passageway sets up on signal gram motherboard, and right push-and-pull adjustment passageway and right signal gram spout intercommunication, right push-and-pull adjustment pull is located right push-and-pull adjustment passageway.
Further, the push-pull driving mechanism comprises a left push-pull driving hinging seat, a right push-pull driving hinging seat, a push-pull driving sliding block, a push-pull driving sliding chute, a push-pull driving screw rod, a push-pull driving channel, a push-pull driving limiting groove and a push-pull driving limiting block; the push-pull driving sliding chute and the push-pull driving channel are both arranged on the signal gram mother board, the push-pull driving channel is communicated with the push-pull driving sliding chute, the left push-pull driving hinging seat and the right push-pull driving hinging seat are both fixed on the push-pull driving sliding block, the push-pull driving sliding block is positioned in the push-pull driving sliding chute, the push-pull driving screw is positioned in the push-pull driving channel, the push-pull driving limiting groove is formed in the push-pull driving sliding block, the push-pull driving limiting block is fixed on the push-pull driving screw, and the push-pull driving limiting block is positioned in the push-pull driving limiting groove.
Further, the push-pull driving sliding chute is communicated with a left push-pull adjusting channel in the left push-pull adjusting mechanism and a right push-pull adjusting channel in the right push-pull adjusting mechanism, the left push-pull driving hinging seat is hinged with the other end of the left push-pull adjusting hinging rod in the left push-pull adjusting mechanism, and the right push-pull driving hinging seat is hinged with the other end of the right push-pull adjusting hinging rod in the right push-pull adjusting mechanism.
Further, the push-pull driving sliding block is trapezoidal in shape.
Further, the signal gram rack is meshed with a signal gram gear, and the signal gram gear is installed on the driving motor.
Compared with the prior art, the invention has the following advantages: the cam positions of two cam in the cam device of the computerized flat knitting machine can be adjusted to be suitable for flat knitting machine bottom plates with various specifications, the cam device of the computerized flat knitting machine is reasonable in structural design, accurate in needle moving and high in working efficiency, the moving stroke of a left cam sliding seat can be controlled through a left telescopic adjusting mechanism and a left push-pull adjusting mechanism, the stroke of a right cam sliding seat can be controlled through a right telescopic adjusting mechanism and a right push-pull adjusting mechanism, accurate adjustment of the left push-pull adjusting mechanism and the right push-pull adjusting mechanism can be achieved through a push-pull driving mechanism, the wool yarn cannot be pressed and broken in the using process, smoothness and attractiveness of braided fabrics can be effectively guaranteed, and the qualification rate is improved.
Drawings
Fig. 1 is a schematic perspective view of a letter and gram device of a computerized flat knitting machine according to an embodiment of the invention.
Fig. 2 is a schematic perspective view of a letter and gram device of a computerized flat knitting machine according to an embodiment of the invention.
Fig. 3 is a schematic diagram of a front view of an explosion structure of a sinker device of a computerized flat knitting machine according to an embodiment of the invention.
Fig. 4 is a schematic view of the cross-sectional structure A-A in fig. 3.
Fig. 5 is an enlarged schematic view of the B portion in fig. 4.
Fig. 6 is an enlarged schematic view of the C portion in fig. 4.
Fig. 7 is an enlarged schematic view of the portion D in fig. 4.
In the figure: zuo Xinke cam 11, right cam 12, left cam slide 21, right cam slide 22, cam bottom plate 23, cam rack 24, left cam slide 31, right cam slide 32, cam motherboard 33, cam base 34, left telescoping adjustment mechanism 4, right telescoping adjustment mechanism 5, left push-pull adjustment mechanism 6, right push-pull adjustment mechanism 7, push-pull drive mechanism 8, left telescoping adjustment latch 41, left telescoping adjustment chuck 42, left telescoping adjustment abutment 43, left telescoping adjustment screw 44, left telescoping adjustment sleeve 45, left telescoping adjustment positioning ring 46, left telescoping adjustment drive disk 47, left telescoping adjustment drive slot 48, left telescoping adjustment channel 49, left telescoping adjustment positioning slot 490, right telescoping adjustment latch 51, right telescoping adjustment chuck 52, right telescoping adjustment abutment 53, right telescoping adjustment screw 54, right telescoping adjustment sleeve 55, right telescoping adjustment positioning ring 56, right telescoping adjustment drive disk 57, right telescoping adjustment drive slot 58, right telescoping adjustment channel 59, push-pull adjustment latch 61, left push-pull adjustment chuck 62, left telescoping adjustment chuck 64, right telescoping adjustment chuck 65, hinge adjustment drive rod 66, right hinge adjustment chuck 75, hinge adjustment drive rod 82, hinge adjustment chuck 65, hinge adjustment drive rod 82, hinge adjustment drive seat 82, hinge adjustment slide rail 71, hinge joint drive rod 82, hinge adjustment slide rail drive seat 75, hinge adjustment slide rail 86.
Detailed Description
The present invention will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and not limited to the following examples.
Examples
Referring to fig. 1 to 7, it should be understood that the structures, proportions, sizes, etc. shown in the drawings attached to the present specification are shown only for the purpose of understanding and reading by those skilled in the art, and are not intended to limit the applicable limitations of the present invention, so that any structural modification, change in proportion, or adjustment of size does not have any technical significance, and all fall within the scope of the technical content of the present invention without affecting the efficacy and achievement of the present invention. In the present specification, the terms "upper", "lower", "left", "right", "middle" and "a" are used for descriptive purposes only and are not intended to limit the scope of the invention, but are also intended to be within the scope of the invention without any substantial modification to the technical content.
The cam device of the computerized flat knitting machine in the embodiment comprises a cam Zuo Xinke 11, a right cam 12, a left cam slide 21, a right cam slide 22, a cam bottom plate 23, a cam rack 24, a left cam slide groove 31, a right cam slide groove 32, a cam motherboard 33, a cam base 34, a left telescopic adjusting mechanism 4, a right telescopic adjusting mechanism 5, a left push-pull adjusting mechanism 6, a right push-pull adjusting mechanism 7 and a push-pull driving mechanism 8.
The Zuo Xinke chute 31 and the right gram chute 32 in this embodiment are both disposed on the gram master 33, the left gram slide 21 is disposed in the left gram chute 31, the right gram slide 22 is disposed in the right gram chute 32, the Zuo Xinke slide 21 and the right gram slide 22 are both mounted on the gram base plate 23, the left gram cam 11 is mounted on the left gram slide 21, the right gram cam 12 is mounted on the right gram slide 22, the gram rack 24 is mounted on the gram base plate 23, the gram master 33 is mounted on the gram base 34, the gram rack 24 is engaged with the gram gear, and the gram gear is mounted on the drive motor.
The left telescopic adjusting mechanism 4 in the embodiment is located at the left side of the left signal gram sliding seat 21, the left push-pull adjusting mechanism 6 is located at the right side of the left signal gram sliding seat 21, the left telescopic adjusting mechanism 4 and the left push-pull adjusting mechanism 6 are both in contact with the Zuo Xinke sliding seat 21, the right telescopic adjusting mechanism 5 is located at the right side of the right signal gram sliding seat 22, the right push-pull adjusting mechanism 7 is located at the left side of the right signal gram sliding seat 22, the right telescopic adjusting mechanism 5 and the right push-pull adjusting mechanism 7 are both in contact with the right signal gram sliding seat 22, and the left push-pull adjusting mechanism 6 and the right push-pull adjusting mechanism 7 are both connected with the push-pull driving mechanism 8.
The left telescopic adjustment mechanism 4 in this embodiment includes a left telescopic adjustment fixture block 41, a left telescopic adjustment fixture groove 42, a left telescopic adjustment abutment 43, a left telescopic adjustment screw 44, a left telescopic adjustment sleeve 45, a left telescopic adjustment positioning ring 46, a left telescopic adjustment driving disk 47, a left telescopic adjustment driving groove 48, a left telescopic adjustment channel 49, and a left telescopic adjustment positioning groove 490.
Zuo Xinke slide 21 in this embodiment is contacted with left flexible adjustment draw-in groove 42, left flexible adjustment fixture block 41 is located left letter gram spout 31, left flexible adjustment draw-in groove 42 sets up on left flexible adjustment fixture block 41, left flexible adjustment butt seat 43 is fixed on left flexible adjustment fixture block 41, left flexible adjustment screw 44 is fixed with left flexible adjustment butt seat 43, left flexible adjustment screw 44 is located left flexible adjustment sleeve 45, and the tip and the flexible adjustment butt seat 43 butt of left flexible adjustment sleeve 45, left flexible adjustment locating ring 46 is fixed outside left flexible adjustment sleeve 45, left flexible adjustment drive disk 47 is fixed at the tip of left flexible adjustment sleeve 45, left flexible adjustment drive disk 47 sets up on left flexible adjustment drive disk 47, left flexible adjustment passageway 49 sets up on letter gram motherboard 33, and left flexible adjustment passageway 49 and Zuo Xinke spout 31 intercommunication, left flexible adjustment locating groove 490 sets up in left flexible adjustment passageway 49, left flexible adjustment sleeve 45 is located left flexible adjustment passageway 49, left flexible adjustment locating ring 46 is located left flexible adjustment locating groove 490.
The right telescopic adjustment mechanism 5 in this embodiment includes a right telescopic adjustment fixture block 51, a right telescopic adjustment fixture groove 52, a right telescopic adjustment abutment 53, a right telescopic adjustment screw 54, a right telescopic adjustment sleeve 55, a right telescopic adjustment positioning ring 56, a right telescopic adjustment driving disk 57, a right telescopic adjustment driving groove 58, a right telescopic adjustment channel 59, and a right telescopic adjustment positioning groove 590.
The right signal gram slide 22 in this embodiment contacts with the right telescopic adjustment clamping groove 52, the right telescopic adjustment clamping block 51 is located in the right signal gram sliding groove 32, the right telescopic adjustment clamping groove 52 is arranged on the right telescopic adjustment clamping block 51, the right telescopic adjustment abutting seat 53 is fixed on the right telescopic adjustment clamping block 51, the right telescopic adjustment screw 54 is fixed with the right telescopic adjustment abutting seat 53, the right telescopic adjustment screw 54 is located in the right telescopic adjustment sleeve 55, the end of the right telescopic adjustment sleeve 55 abuts against the right telescopic adjustment abutting seat 53, the right telescopic adjustment positioning ring 56 is fixed outside the right telescopic adjustment sleeve 55, the right telescopic adjustment driving disk 57 is fixed at the end of the right telescopic adjustment sleeve 55, the right telescopic adjustment driving disk 58 is arranged on the right telescopic adjustment driving disk 57, the right telescopic adjustment channel 59 is arranged on the signal gram motherboard 33, the right telescopic adjustment channel 59 is communicated with the right signal gram sliding groove 32, the right telescopic adjustment positioning groove 590 is arranged in the right telescopic adjustment channel 59, the right telescopic adjustment sleeve 55 is located in the right telescopic adjustment positioning groove 59, and the right telescopic adjustment positioning ring 56 is located in the right telescopic adjustment positioning groove 590.
The left push-pull adjusting mechanism 6 in the present embodiment includes a left push-pull adjusting block 61, a left push-pull adjusting block groove 62, a left push-pull adjusting rod 63, a left push-pull adjusting hinge seat 64, a left push-pull adjusting hinge rod 65, and a left push-pull adjusting channel 66; zuo Xinke slide 21 and left push-and-pull adjustment draw-in groove 62 contact, left push-and-pull adjustment fixture block 61 is located left letter gram spout 31, left push-and-pull adjustment draw-in groove 62 sets up on left push-and-pull adjustment fixture block 61, left push-and-pull adjustment pull rod 63's one end is fixed with left push-and-pull adjustment fixture block 61, left push-and-pull adjustment articulated seat 64 is fixed at left push-and-pull adjustment pull rod 63's the other end, left push-and-pull adjustment articulated seat 64 articulates, left push-and-pull adjustment articulated rod 65's the other end and push-and-pull actuating mechanism 8 articulates, left push-and-pull adjustment passageway 66 sets up on letter gram motherboard 33, and left push-and-pull adjustment passageway 66 and Zuo Xinke spout 31 intercommunication, left push-and-pull adjustment pull rod 63 is located left push-and-pull adjustment passageway 66.
The right push-pull adjusting mechanism 7 in this embodiment includes a right push-pull adjusting clamp block 71, a right push-pull adjusting clamp groove 72, a right push-pull adjusting pull rod 73, a right push-pull adjusting hinge seat 74, a right push-pull adjusting hinge rod 75 and a right push-pull adjusting channel 76, the right letter slide 22 is in contact with the right push-pull adjusting clamp groove 72, the right push-pull adjusting clamp block 71 is located in the right letter slide 32, the right push-pull adjusting clamp groove 72 is disposed on the right push-pull adjusting clamp block 71, one end of the right push-pull adjusting pull rod 73 is fixed with the right push-pull adjusting clamp block 71, the right push-pull adjusting hinge seat 74 is fixed at the other end of the right push-pull adjusting pull rod 73, one end of the right push-pull adjusting hinge rod 75 is hinged with the right push-pull adjusting hinge seat 74, the other end of the right push-pull adjusting hinge rod 75 is hinged with the push-pull driving mechanism 8, the right push-pull adjusting channel 76 is disposed on the letter motherboard 33, and the right push-pull adjusting channel 76 is communicated with the right letter slide 32, and the right push-pull adjusting pull 73 is located in the right push-pull adjusting channel 76.
The push-pull driving mechanism 8 in the present embodiment includes a left push-pull driving hinge seat 81, a right push-pull driving hinge seat 82, a push-pull driving slider 83, a push-pull driving chute 84, a push-pull driving screw 85, a push-pull driving channel 86, a push-pull driving limit groove 87, and a push-pull driving limit block 88; the push-pull driving chute 84 and the push-pull driving channel 86 are both arranged on the signal gram mother board 33, the push-pull driving channel 86 is communicated with the push-pull driving chute 84, the left push-pull driving hinging seat 81 and the right push-pull driving hinging seat 82 are both fixed on the push-pull driving sliding block 83, and the push-pull driving sliding block 83 is trapezoidal in shape.
The push-pull driving sliding block 83 in the embodiment is positioned in the push-pull driving sliding groove 84, the push-pull driving screw rod 85 is positioned in the push-pull driving channel 86, the push-pull driving limiting groove 87 is arranged on the push-pull driving sliding block 83, the push-pull driving limiting block 88 is fixed on the push-pull driving screw rod 85, and the push-pull driving limiting block 88 is positioned in the push-pull driving limiting groove 87; the push-pull driving sliding chute 84 is communicated with the left push-pull adjusting channel 66 in the left push-pull adjusting mechanism 6 and the right push-pull adjusting channel 76 in the right push-pull adjusting mechanism 7, the left push-pull driving hinge seat 81 is hinged with the other end of the left push-pull adjusting hinge rod 65 in the left push-pull adjusting mechanism 6, and the right push-pull driving hinge seat 82 is hinged with the other end of the right push-pull adjusting hinge rod 75 in the right push-pull adjusting mechanism 7.
Specifically, the signal gram device of the computerized flat knitting machine is characterized in that before working, the positions of the left telescopic adjusting mechanism 4 and the left push-pull adjusting mechanism 6 are adjusted to further limit the moving stroke of the left signal gram sliding seat 21, the positions of the right telescopic adjusting mechanism 5 and the right push-pull adjusting mechanism 7 are adjusted to further limit the stroke of the right signal gram sliding seat 22, and the left push-pull adjusting mechanism 6 and the right push-pull adjusting mechanism 7 are synchronously adjusted through the push-pull driving mechanism 8.
The position of the left telescopic adjusting clamping block 41 is adjusted, the left telescopic adjusting clamping groove 42 is in contact with the left side of the Zuo Xinke sliding seat 21, a wrench is installed in the left telescopic adjusting driving groove 48 on the left telescopic adjusting driving disc 47 during adjustment, the wrench is rotated, the left telescopic adjusting sleeve 45 is rotated in the left telescopic adjusting channel 49, the left telescopic adjusting positioning ring 46 is positioned in the left telescopic adjusting positioning groove 490 during rotation, the left telescopic adjusting positioning ring 46 is positioned, the left telescopic adjusting screw 44 is in threaded connection with the left telescopic adjusting sleeve 45, and the left telescopic adjusting clamping block 41 slides in the left signal gram sliding groove 31 through rotation of the left telescopic adjusting sleeve 45.
The position of the right telescopic adjusting clamping block 51 is adjusted, the right telescopic adjusting clamping groove 52 is in contact with the right side of the right signal gram sliding seat 22, a wrench is installed in a right telescopic adjusting driving groove 58 on a right telescopic adjusting driving disc 57 during adjustment, the wrench is rotated, the right telescopic adjusting sleeve 55 is rotated in a right telescopic adjusting channel 59, the right telescopic adjusting positioning ring 56 is positioned in a right telescopic adjusting positioning groove 590 during rotation, the right telescopic adjusting positioning ring 56 is positioned, the right telescopic adjusting screw 54 is in threaded connection with the right telescopic adjusting sleeve 55, and the right telescopic adjusting clamping block 51 slides in the right signal gram sliding groove 32 through rotation of the right telescopic adjusting sleeve 55.
The positions of the left push-pull adjusting clamping block 61 and the right push-pull adjusting clamping block 71 are synchronously adjusted, the push-pull driving screw 85 is in threaded connection with the push-pull driving channel 86, the trapezoidal push-pull driving sliding block 83 can limit the left push-pull adjusting hinging rod 65 and the right push-pull adjusting hinging rod 75 in the adjusting process, the push-pull driving limiting block 88 rotates in the push-pull driving limiting groove 87 by screwing the push-pull driving screw 85, the push-pull driving sliding block 83 moves downwards along the push-pull driving sliding groove 84, the left push-pull adjusting pulling rod 63 is pushed to move leftwards by the left push-pull adjusting hinging rod 65, meanwhile, the right push-pull adjusting pulling rod 73 is pushed to move rightwards by the right push-pull adjusting hinging rod 75, the left push-pull adjusting clamping block 61 and the right push-pull adjusting clamping block 71 are respectively close to the left signal gram sliding seat 21 and the right signal gram sliding seat 22, the left push-pull adjusting clamping groove 62 is contacted with the Zuo Xinke sliding seat 21, and the right push-pull adjusting clamping groove 72 is contacted with the right signal gram sliding seat 22.
Through the adjusting process, the signal gram device of the computerized flat knitting machine is applicable to the bottom plates of the computerized flat knitting machines with various specifications and models, and has the advantages of high control precision, accurate guiding, high working efficiency, no firing pin in the working process and the like.
In addition, it should be noted that the specific embodiments described in the present specification may vary from part to part, from name to name, etc., and the above description in the present specification is merely illustrative of the structure of the present invention. All equivalent or simple changes of the structure, characteristics and principle according to the inventive concept are included in the protection scope of the present patent. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions in a similar manner without departing from the scope of the invention as defined in the accompanying claims.
Claims (8)
1. A signal gram device of a computerized flat knitting machine is characterized in that: the device comprises a left signal gram triangle (11), a right signal gram triangle (12), a Zuo Xinke sliding seat (21), a right signal gram sliding seat (22), a signal gram bottom plate (23), a signal gram rack (24), a Zuo Xinke sliding groove (31), a right signal gram sliding groove (32), a signal gram mother plate (33), a signal gram base (34), a left telescopic adjusting mechanism (4), a right telescopic adjusting mechanism (5), a left push-pull adjusting mechanism (6), a right push-pull adjusting mechanism (7) and a push-pull driving mechanism (8); the Zuo Xinke sliding chute (31) and the right signal gram sliding chute (32) are both arranged on the signal gram motherboard (33), the Zuo Xinke sliding chute (21) is arranged in the left signal gram sliding chute (31), the right signal gram sliding chute (22) is arranged in the right signal gram sliding chute (32), the Zuo Xinke sliding chute (21) and the right signal gram sliding chute (22) are both arranged on the signal gram bottom plate (23), the Zuo Xinke triangle (11) is arranged on the left signal gram sliding chute (21), the right signal gram triangle (12) is arranged on the right signal gram sliding chute (22), the left telescopic adjusting mechanism (4) is arranged on the left side of the left signal gram sliding chute (21), the left telescopic adjusting mechanism (6) is arranged on the right side of the left signal gram sliding chute (21), the left telescopic adjusting mechanism (4) and the left push-pull adjusting mechanism (6) are both contacted with the Zuo Xinke sliding chute (21), the right telescopic adjusting mechanism (5) is arranged on the right side of the right signal gram sliding chute (22), the right push-pull adjusting mechanism (7) is arranged on the right side of the signal gram sliding chute (22), the push-pull adjusting mechanism (7) is arranged on the right side of the signal gram bottom plate (23), the push-pull adjusting mechanism (7) is connected with the right adjusting mechanism (7) and the push-pull adjusting mechanism (7) is arranged on the right side of the signal gram bottom plate (21), the signal gram mother board (33) is arranged on the signal gram base (34); the left telescopic adjusting mechanism (4) comprises a left telescopic adjusting clamping block (41), a left telescopic adjusting clamping groove (42), a left telescopic adjusting abutting seat (43), a left telescopic adjusting screw (44), a left telescopic adjusting sleeve (45), a left telescopic adjusting positioning ring (46), a left telescopic adjusting driving disc (47), a left telescopic adjusting driving groove (48), a left telescopic adjusting channel (49) and a left telescopic adjusting positioning groove (490); the Zuo Xinke sliding seat (21) is in contact with the left telescopic adjusting clamping groove (42), the left telescopic adjusting clamping block (41) is positioned in the left letter slide groove (31), the left telescopic adjusting clamping groove (42) is arranged on the left telescopic adjusting clamping block (41), the left telescopic adjusting abutting seat (43) is fixed on the left telescopic adjusting clamping block (41), the left telescopic adjusting screw (44) is fixed with the left telescopic adjusting abutting seat (43), the left telescopic adjusting screw (44) is positioned in the left telescopic adjusting sleeve (45), the end part of the left telescopic adjusting sleeve (45) is abutted with the left telescopic adjusting abutting seat (43), the left telescopic adjusting positioning ring (46) is fixed outside the left telescopic adjusting sleeve (45), the left telescopic adjusting driving disc (47) is fixedly arranged at the end part of the left telescopic adjusting sleeve (45), the left telescopic driving groove (48) is arranged on the left telescopic driving disc (47), the left telescopic adjusting channel (49) is arranged on the letter slide groove (33), the left telescopic adjusting channel (49) is arranged in the left telescopic positioning sleeve (490) and is positioned in the left telescopic positioning sleeve (35), the left telescopic adjusting and positioning ring (46) is positioned in the left telescopic adjusting and positioning groove (490).
2. The letter and gram device of a computerized flat knitting machine according to claim 1, characterized in that: the right telescopic adjusting mechanism (5) comprises a right telescopic adjusting clamping block (51), a right telescopic adjusting clamping groove (52), a right telescopic adjusting abutting seat (53), a right telescopic adjusting screw (54), a right telescopic adjusting sleeve (55), a right telescopic adjusting positioning ring (56), a right telescopic adjusting driving disc (57), a right telescopic adjusting driving groove (58), a right telescopic adjusting channel (59) and a right telescopic adjusting positioning groove (590); the right signal gram sliding seat (22) is contacted with the right telescopic adjustment clamping groove (52), the right telescopic adjustment clamping block (51) is positioned in the right signal gram sliding groove (32), the right telescopic adjustment clamping groove (52) is arranged on the right telescopic adjustment clamping block (51), the right telescopic adjustment supporting seat (53) is fixed on the right telescopic adjustment clamping block (51), the right telescopic adjustment screw (54) is fixed with the right telescopic adjustment supporting seat (53), the right telescopic adjustment screw (54) is positioned in the right telescopic adjustment sleeve (55), the end part of the right telescopic adjustment sleeve (55) is abutted with the right telescopic adjustment supporting seat (53), the right telescopic adjustment positioning ring (56) is fixed outside the right telescopic adjustment sleeve (55), the right telescopic adjustment driving disc (57) is fixedly arranged at the end part of the right telescopic adjustment sleeve (55), the right telescopic adjustment driving groove (58) is arranged on the right telescopic adjustment driving disc (57), the right telescopic adjustment channel (59) is arranged on the signal gram (33), the right telescopic adjustment positioning ring (59) is positioned in the right telescopic adjustment sleeve (55) and is communicated with the right telescopic adjustment positioning ring (59), the right telescopic adjusting positioning ring (56) is positioned in the right telescopic adjusting positioning groove (590).
3. The letter and gram device of a computerized flat knitting machine according to claim 1, characterized in that: the left push-pull adjusting mechanism (6) comprises a left push-pull adjusting clamping block (61), a left push-pull adjusting clamping groove (62), a left push-pull adjusting pull rod (63), a left push-pull adjusting hinge seat (64), a left push-pull adjusting hinge rod (65) and a left push-pull adjusting channel (66); zuo Xinke slide (21) and left push-and-pull regulation draw-in groove (62) contact, left push-and-pull regulation draw-in groove (61) are located left letter gram spout (31), left push-and-pull regulation draw-in groove (62) set up on left push-and-pull regulation draw-in groove (61), the one end and the left push-and-pull regulation draw-in block (61) of left push-and-pull regulation pull rod (63) are fixed, left push-and-pull regulation articulated seat (64) are fixed at the other end of left push-and-pull regulation pull rod (63), the one end and the left push-and-pull regulation articulated seat (64) of left push-and-pull regulation articulated rod (65), the other end and push-and-pull actuating mechanism (8) of left push-and-pull regulation passageway (66) set up on letter gram motherboard (33), and left push-and-pull regulation passageway (66) and Zuo Xinke spout (31) are linked together, left push-and-pull regulation pull rod (63) are located left push-and-pull regulation passageway (66).
4. The letter and gram device of a computerized flat knitting machine according to claim 1, characterized in that: the right push-pull adjusting mechanism (7) comprises a right push-pull adjusting clamping block (71), a right push-pull adjusting clamping groove (72), a right push-pull adjusting pull rod (73), a right push-pull adjusting hinging seat (74), a right push-pull adjusting hinging rod (75) and a right push-pull adjusting channel (76), the right signal gram sliding seat (22) is in contact with the right push-pull adjusting clamping groove (72), the right push-pull adjusting clamping block (71) is positioned in a right signal gram sliding groove (32), the right push-pull adjusting clamping groove (72) is arranged on the right push-pull adjusting clamping block (71), one end of the right push-pull adjusting pull rod (73) is fixed with the right push-pull adjusting clamping block (71), the right push-pull adjusting hinging seat (74) is fixed at the other end of the right push-pull adjusting pull rod (73), one end of the right push-pull adjusting hinging rod (75) is hinged with the right push-pull adjusting hinging seat (74), the other end of the right push-pull adjusting hinging rod (75) is hinged with the push-pull driving mechanism (8), the right push-pull adjusting channel (76) is arranged on the signal gram motherboard (33), the right push-pull adjusting channel (76) is communicated with the right push-pull adjusting channel (73).
5. The letter and gram device of a computerized flat knitting machine according to claim 1, characterized in that: the push-pull driving mechanism (8) comprises a left push-pull driving hinging seat (81), a right push-pull driving hinging seat (82), a push-pull driving sliding block (83), a push-pull driving sliding chute (84), a push-pull driving screw rod (85), a push-pull driving channel (86), a push-pull driving limiting groove (87) and a push-pull driving limiting block (88); push-pull drive spout (84) and push-pull drive passageway (86) all set up on letter gram mother board (33), and push-pull drive passageway (86) and push-pull drive spout (84) intercommunication, left push-pull drive articulated seat (81) and right push-pull drive articulated seat (82) all fix on push-pull drive slider (83), push-pull drive slider (83) are located push-pull drive spout (84), push-pull drive screw (85) are located push-pull drive passageway (86), push-pull drive spacing groove (87) set up on push-pull drive slider (83), push-pull drive spacing block (88) are fixed on push-pull drive screw (85), push-pull drive spacing block (88) are located push-pull drive spacing groove (87).
6. The letter and gram device of a computerized flat knitting machine according to claim 5, wherein: the push-pull driving sliding chute (84) is communicated with a left push-pull adjusting channel (66) in the left push-pull adjusting mechanism (6) and a right push-pull adjusting channel (76) in the right push-pull adjusting mechanism (7), the left push-pull driving hinging seat (81) is hinged with the other end of the left push-pull adjusting hinging rod (65) in the left push-pull adjusting mechanism (6), and the right push-pull driving hinging seat (82) is hinged with the other end of the right push-pull adjusting hinging rod (75) in the right push-pull adjusting mechanism (7).
7. The letter and gram device of a computerized flat knitting machine according to claim 5, wherein: the push-pull driving sliding block (83) is trapezoidal in shape.
8. The letter and gram device of a computerized flat knitting machine according to claim 1, characterized in that: the signal gram rack (24) is meshed with a signal gram gear, and the signal gram gear is installed on a driving motor.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201910038101.0A CN109537154B (en) | 2019-01-16 | 2019-01-16 | Letter gram device of computerized flat knitting machine |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201910038101.0A CN109537154B (en) | 2019-01-16 | 2019-01-16 | Letter gram device of computerized flat knitting machine |
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| CN109537154A CN109537154A (en) | 2019-03-29 |
| CN109537154B true CN109537154B (en) | 2023-09-12 |
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Citations (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2008043219A1 (en) * | 2006-10-10 | 2008-04-17 | Yu-Hsin Wu | Automatic lifting mechanism of yarn guide |
| CN202466102U (en) * | 2012-03-21 | 2012-10-03 | 连坚和 | Sinker mountain board component device of computerized flat knitting machine |
| US8381550B1 (en) * | 2011-09-19 | 2013-02-26 | Pai Lung Machinery Mill Co., Ltd. | Needle bed structure for flat knitting machines |
| EP2570532A1 (en) * | 2011-09-16 | 2013-03-20 | Pai Lung Machinery Mill Co., Ltd. | Sinker control apparatus for flat knitting machines |
| CN105019123A (en) * | 2015-07-30 | 2015-11-04 | 桐乡市强隆机械有限公司 | Sinker triangle structure for adjustable and energy-saving sinker device of single-double system flat knitting machine |
| JP2016141910A (en) * | 2015-02-03 | 2016-08-08 | 株式会社島精機製作所 | Flat knitting machine including movable sinker |
| CN108998881A (en) * | 2018-08-08 | 2018-12-14 | 江苏金龙科技股份有限公司 | A kind of Kanehara control device |
| CN209537751U (en) * | 2019-01-16 | 2019-10-25 | 宁波博日机械有限公司 | The Kanehara device of Computerized flat knitting machine |
-
2019
- 2019-01-16 CN CN201910038101.0A patent/CN109537154B/en active Active
Patent Citations (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2008043219A1 (en) * | 2006-10-10 | 2008-04-17 | Yu-Hsin Wu | Automatic lifting mechanism of yarn guide |
| EP2570532A1 (en) * | 2011-09-16 | 2013-03-20 | Pai Lung Machinery Mill Co., Ltd. | Sinker control apparatus for flat knitting machines |
| US8381550B1 (en) * | 2011-09-19 | 2013-02-26 | Pai Lung Machinery Mill Co., Ltd. | Needle bed structure for flat knitting machines |
| CN202466102U (en) * | 2012-03-21 | 2012-10-03 | 连坚和 | Sinker mountain board component device of computerized flat knitting machine |
| JP2016141910A (en) * | 2015-02-03 | 2016-08-08 | 株式会社島精機製作所 | Flat knitting machine including movable sinker |
| CN105019123A (en) * | 2015-07-30 | 2015-11-04 | 桐乡市强隆机械有限公司 | Sinker triangle structure for adjustable and energy-saving sinker device of single-double system flat knitting machine |
| CN108998881A (en) * | 2018-08-08 | 2018-12-14 | 江苏金龙科技股份有限公司 | A kind of Kanehara control device |
| CN209537751U (en) * | 2019-01-16 | 2019-10-25 | 宁波博日机械有限公司 | The Kanehara device of Computerized flat knitting machine |
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| CN109537154A (en) | 2019-03-29 |
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