CN101029428B - Gloves maker - Google Patents

Gloves maker Download PDF

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Publication number
CN101029428B
CN101029428B CN2007100670785A CN200710067078A CN101029428B CN 101029428 B CN101029428 B CN 101029428B CN 2007100670785 A CN2007100670785 A CN 2007100670785A CN 200710067078 A CN200710067078 A CN 200710067078A CN 101029428 B CN101029428 B CN 101029428B
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CN
China
Prior art keywords
synchronizing wheel
guide rail
wallboard
disk assembly
drive disk
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN2007100670785A
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Chinese (zh)
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CN101029428A (en
Inventor
钱福海
张峰
罗士特
吴苗江
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Individual
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Individual
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Priority to CN2007100670785A priority Critical patent/CN101029428B/en
Publication of CN101029428A publication Critical patent/CN101029428A/en
Application granted granted Critical
Publication of CN101029428B publication Critical patent/CN101029428B/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

A gloves maker consists of frame, nose part installed on frame, shuttle part, shear part, fork part and transmission mechanism; the transmission mechanism consists of main transmission part connected with nose part and shuttle part, shear transmission part is connected with shear part, and fork transmission part is connected with fork part. The transmission part controls nose part, shear part and fork part etc. functional mechanism by computer program and makes braiding for gloves. It's fast, simple and efficient.

Description

Glove knitting machine
Technical field
The present invention relates to a kind of glove knitting machine, belong to technical field of knitting machinery.
Technical background
Existing glove knitting machine, its transmission mechanism adopts a motor to drag a plurality of building blocks of functions, and parts such as head, scissors, fork cutter, shuttle are controlled by mechanisms such as multiple sets of teeth wheel, cam, connecting rods in the centre, finally realize braid movement.Because what it adopted is many ring machine driving, transmission is zero, parts are various, complex structure.Like this, will inevitably bring and make the precision prescribed height, debugging difficulty is big, excessive cycle, slow or the like the inconvenience of braiding conversion in the production.In current market fast changing today, the paces that original mode of production falls behind the times greatly require us to design a kind of dependable performance, easy and simple to handle, man-machine interface better products.
Summary of the invention
For solving original glove knitting machine transmission mechanism problem that too numerous and complicated, production debugging difficulty are big, the braiding conversion is slow, the object of the present invention is to provide a kind of better man-machine interface that has, make operation more become simple and convenient and easy to study, safeguard convenient, the glove knitting machine that production efficiency is high.
The present invention is achieved through the following technical solutions above-mentioned purpose, a kind of glove knitting machine, comprise frame 1, be installed in the left wallboard 10 on the frame 1, right wallboard 11, be installed in left wallboard 10, head part 5 between the right wallboard 11, scissors member 6, be installed in the fork blade insert 7 on the left wallboard 10, be installed in the shuttle parts 8 on the guide rail 13 that is fixed on left wallboard 10 and the right wallboard 11, drive disk assembly, it is characterized in that: described drive disk assembly comprises main transmission part 2, scissors drive disk assembly 3, fork cutter drive disk assembly 4, be installed on the right wallboard 11 with the main transmission part 2 that head part 5 links to each other with shuttle parts 8, the scissors drive disk assembly 3 that links to each other with scissors member 6 is installed in left wallboard 10, between the right wallboard 11, the fork cutter drive disk assembly 4 that links to each other with fork blade insert 7 is installed in the left side of left wallboard 10.
As the further setting of the present invention:
Main transmission part 2 comprises the servomotor 21 by computer control in the electric cabinet 9, servomotor 21 is installed on the frame 1, first synchronizing wheel 23 links to each other with servomotor 21, on right wallboard 11, support 27 is installed, the synchronizing wheel 25 and second synchronizing wheel 26 are installed in the two ends of support 27, the coaxial big synchronizing wheel 20 of first synchronizing wheel 23 and synchronizing wheel 25 is by being with 28 to link to each other greatly synchronously, between synchronizing wheel 25 and second synchronizing wheel 26 by being with 29 to link to each other synchronously, be with 29 to link to each other with driving head 210 by jockey 213 synchronously, driving head 210 is installed on the guide rail 212 that is fixed on the right wallboard 11 by four bearings 211.
Driving head 210 1 ends link to each other with head part 5 by connecting rod 54, and head part 5 is installed between left wallboard 10, the right wallboard 11 by upper rail 51, lower guideway 52, are equipped with to be used for the cylinder 53 of controller head member 5 on upper rail 51, lower guideway 52.
Also be connected with driving headstock 215 in the upper end of driving head 210, drive in the headstock 215 and be equipped with by spring controlled slide block 216, shuttle parts 8 are installed on the guide rail 13, the first guide rail slide plate 217 is installed on guide rail 13, the second guide rail slide plate 219, slide block location-plate 223, swing arm seat 224, shuttle parts 8 link to each other with the first guide rail slide plate 217, the first guide rail slide plate 217, link to each other by guide rail connecting rod 218 between the second guide rail slide plate 219, connecting rod 220 links to each other with swing arm 221, swing arm 221 is installed on the swing arm seat 224 and with the electromagnetic valve 222 of swing arm seat 224 and links to each other, slide block 216 is pressed on by connecting rod 220 and drives in the headstock 215, is provided with the groove that adapts with driving head slide block 216 on the second guide rail slide plate 219.
Scissors drive disk assembly 3 comprises a stepper motor 31, stepper motor 31 is fixed on the frame 1 by motor frame 32, guide rod 33 and ball screw 34 are installed between left wallboard 10, right wallboard 11, scissors member 6 is installed on guide rod 33 and the ball screw 34, ball screw 34 is connected with the little synchronizing wheel 35 that is installed on the left wallboard 10, and little synchronizing wheel 35 is by linking to each other with the coaxial big synchronizing wheel 37 of stepper motor 31 with 36 synchronously.
Fork cutter moving component 4 comprises stepper motor 41, stepper motor 41 is fixed on left wallboard 10 left sides by motor case 42, little synchronizing wheel 44 is installed in the top of motor case 42, and by linking to each other with the big synchronizing wheel 43 of motor case 42 interlocks with 45 synchronously, ball screw 46 1 ends and little synchronizing wheel 44 are connected, fork blade insert 7 is installed on the guide rail of needle plate 71 and steel disc 72 compositions, needle plate 71 and steel disc 72 are fixed between left wallboard 10, the right wallboard 11, and fork blade insert 7 is connected by clutch 47 and ball screw 46.
The invention will be further described below in conjunction with drawings and Examples.
Description of drawings
Fig. 1 is a Facad structure schematic diagram of the present invention;
Fig. 2 is a right side view of the present invention;
Fig. 3 is the structural representation of main drive gear of the present invention;
Fig. 4 is the structural representation of head part of the present invention;
Fig. 5 is the structural representation of shuttle parts of the present invention;
Fig. 6 is the structural representation of scissors transmission mechanism of the present invention;
Fig. 7 is the structural representation of fork blade insert of the present invention;
Fig. 8 is the structural representation of fork cutter transmission mechanism of the present invention.
The specific embodiment
With reference to shown in Figure 1, main body of the present invention comprises frame 1, be installed in the left wallboard 10 on the frame 1, right wallboard 11, electric cabinet 9 is installed in the lower right of frame 1, head part 5, scissors member 6 is installed in left wallboard 10, between the right wallboard 11, fork blade insert 7 is installed on the left wallboard 10, shuttle parts 8 are installed on the guide rail 13, guide rail 13 is fixed on three bracing frames 12 on left wallboard 10 and the right wallboard 11, be installed on the right wallboard 11 with the main transmission part 2 that head part 5 links to each other with shuttle parts 8, the scissors drive disk assembly 3 that links to each other with scissors member 6 is installed on the frame 1 of right side below of left wallboard 10, and the fork cutter drive disk assembly 4 that links to each other with fork blade insert 7 is installed in the left side of left wallboard 10.
Please refer to Fig. 2, Fig. 3, main transmission part 2 comprises the servomotor 21 by computer control in the electric cabinet 9, servomotor 21 is fixed on the motor cabinet 22 by screw 24, motor cabinet 22 is installed on the frame 1 of electric cabinet 9 tops, first synchronizing wheel 23 is installed on the motor cabinet 22 and with servomotor 21 and is linked to each other, on right wallboard 11, support 27 is installed, the synchronizing wheel 25 and second synchronizing wheel 26 are installed in the two ends of support 27, first synchronizing wheel 23 links to each other with the coaxial big synchronizing wheel 20 of synchronizing wheel 25 with 28 synchronously by big, between synchronizing wheel 25 and second synchronizing wheel 26 by being with 29 to link to each other synchronously, be with 29 to link to each other with driving head 210 by jockey 213 synchronously, driving head 210 is installed on the guide rail 212 that is fixed on the right wallboard 11 by four bearings 211.
Referring again to Fig. 4, driving head 210 1 ends link to each other with head part 5 by connecting rod 54, head part 5 is installed between left wallboard 10, the right wallboard 11 by upper rail 51, lower guideway 52, and some cylinders 53 that are used for controller head member 5 all are installed on upper rail 51, lower guideway 52.
With reference to shown in Figure 5, shuttle parts 8 are installed on the guide rail 13, guide rail 13 is installed in left wallboard 10, on the bracing frame 12 on the right wallboard 11, the first guide rail slide plate 217 is installed on guide rail 13, the second guide rail slide plate 219, slide block location-plate 223, swing arm seat 224, shuttle parts 8 link to each other with the first guide rail slide plate 217, the first guide rail slide plate 217, link to each other by guide rail connecting rod 218 between the second guide rail slide plate 219, connecting rod 220 links to each other with swing arm 221, swing arm 221 is installed on the swing arm seat 224 and with the electromagnetic valve 222 of swing arm seat 224 and links to each other, be connected with driving headstock 215 in driving head 210 upper ends, drive in the headstock 215 and be equipped with by spring controlled slide block 216, slide block 216 is pressed on by connecting rod 220 and drives in the headstock 215, on the second guide rail slide plate 219, be provided with the groove that adapts with driving head slide block 216, slide block location-plate 223 is fixed on the right side of the second guide rail slide plate 219, plays the restriction first guide rail slide plate 217, the effect of the second guide rail slide plate 219 horizontal length of run on guide rail 13.
During work, computer by electric cabinet 9 sends instruction, 21 work of control servomotor, driving first synchronizing wheel 23 rotates, by being with 28 to drive synchronizing wheel 25,26 rotations of second synchronizing wheel greatly synchronously, be with 29 to produce reciprocal horizontal movement synchronously thereby make, at this moment, driving head 210 with by jockey 211 be with 29 to do horizontal reciprocating movement synchronously.
Driving head 210 drives head parts 5 by connecting rod 54 on the one hand and do reciprocal horizontal movement on upper rail 51, lower guideway 52, finishes the knitting of head part 5 by being installed in a plurality of cylinders 53 on the lower guideway 52 again.
On the other hand, driving head 210 is with a part of power drive shuttle parts 8, the concrete kind of drive is: before machine startup, slide block 216 is pressed on by connecting rod 220 and drives in the headstock 215, along with driving driving head 210, servomotor 21 does reciprocal horizontal movement at guide rail 212, electromagnetic valve 222 receives computer instruction in the electric cabinet 9, control swing arm 221 is upwards unclamped connecting rod 220, at this moment, the slide block 216 that drives in the headstock 215 is ejected, driving headstock 215 disengaging connecting rods 220 moves horizontally with driving head 210, after in slide block 216 moves to the groove that the operating position promptly just enters into the second guide rail slide plate 219, the second guide rail slide plate 219 moves horizontally with driving headstock 215 owing to the connection of slide block 216, the first guide rail slide plate 217 links by the guide rail connecting rod 218 and the first guide rail slide plate 217, thereby makes the shuttle parts 8 that are connected with the first guide rail slide plate 217 finish hello yarn action.
Please refer to shown in Figure 6, scissors drive disk assembly 3 comprises a stepper motor 31, stepper motor 31 is fixed on left wallboard 10 right sides by motor frame 32, guide rod 33 and ball screw 34 are installed between left wallboard 10, right wallboard 11, scissors member 6 is installed on guide rod 33 and the ball screw 34, ball screw 34 is connected with the little synchronizing wheel 35 that is installed on the left wallboard 10, and little synchronizing wheel 35 is by linking to each other with the coaxial big synchronizing wheel 37 of stepper motor 31 with 36 synchronously.During work, syncmotor 31 drives big synchronizing wheel 37 and rotates, by with 36 power being carried the little synchronizing wheel 35 link to each other with big synchronizing wheel 37 synchronously, thereby drive ball screw 34, make scissors assembly 6 along making horizontal reciprocating movement on the guide rails of guide rod 33, ball screw 34 common compositions.
As shown in Figure 7, fork blade insert 7 is installed on the guide rail of needle plate 71 and steel disc 72 compositions, needle plate 71 and steel disc 72 are fixed on left wallboard 10, between the right wallboard 11, the fork cutter moving component 4 that links to each other with fork blade insert 7 is installed in left wallboard 10 left sides, as shown in Figure 8, fork cutter moving component 4 comprises the motor case 42 that is fixed on left wallboard 10 left sides, stepper motor 41 is installed in the motor case 42, big synchronizing wheel 43 is contained in the motor case 42 and links to each other with stepper motor 41, little synchronizing wheel 44 is installed in the top of motor case 42, and by being with 45 to link to each other synchronously with big synchronizing wheel 43, ball screw 46 1 ends and little synchronizing wheel 44 are connected, and the other end is connected by clutch 47 and fork blade insert 7.During work, the big synchronizing wheel 43 that stepper motor 41 drives in the motor case 42 rotates, by being with the little synchronizing wheel 44 of 45 interlocks synchronously, transmit power to ball screw 46, fork blade insert 7 is by the rotation of clutch 47 with ball screw 46, along making horizontal reciprocating movement on the guide rail of needle plate 71 and steel disc 72 compositions.
The present invention adopts novel drive disk assembly to realize transmission to head part 5, scissors member 6, fork blade insert 7, shuttle parts 8, making in advance under the good computer program control, functional entity work such as controller head member 5, scissors member 6, fork blade insert 7, shuttle parts 8, thus realize the gloves braiding.Operation, easy to maintenance, transmission is quick, has improved production efficiency.

Claims (7)

1. glove knitting machine, comprise frame (1), be installed in the left wallboard (10) on the frame (1), right wallboard (11), be installed in left wallboard (10), head part (5) between the right wallboard (11), scissors member (6), be installed in the fork blade insert (7) on the left wallboard (10), be installed in the shuttle parts (8) on first guide rail (13) that is fixed on left wallboard (10) and the right wallboard (11), drive disk assembly, it is characterized in that: described drive disk assembly comprises main transmission part (2), scissors drive disk assembly (3), fork cutter drive disk assembly (4), main transmission part (2) is installed on the right wallboard (11), main transmission part (2) is by servomotor (21) gear head member (5) and shuttle parts (8), scissors drive disk assembly (3) is installed in left wallboard (10), between the right wallboard (11), scissors drive disk assembly (3) is by first stepper motor (31) interlock scissors member (6), fork cutter drive disk assembly (4) is installed in the left side of left wallboard (10), and fork cutter drive disk assembly (4) is by second stepper motor (41) interlock fork blade insert (7).
2. a kind of glove knitting machine according to claim 1, it is characterized in that: main transmission part (2) comprises the servomotor (21) that is installed on the frame (1), the first little synchronizing wheel (23) links to each other with servomotor (21), support (27) is installed on right wallboard (11), the synchronizing wheel (25) and the second little synchronizing wheel (26) are installed in the two ends of support (27), the coaxial big synchronizing wheel (20) of the first little synchronizing wheel (23) and synchronizing wheel (25) links to each other by big band (28) synchronously, link to each other by band (29) synchronously between synchronizing wheel (25) and the second little synchronizing wheel (26), be installed on by bearing (211) on second guide rail (212) that is fixed on the right wallboard (11) with the driving head (210) that head part (5) links to each other with shuttle parts (8), driving head (210) links to each other with being with (29) synchronously by jockey (213).
3. a kind of glove knitting machine according to claim 2, it is characterized in that: head part (5) links to each other with driving head (210) by connecting rod (54), head part (5) is installed between left wallboard (10), the right wallboard (11) by upper rail (51), lower guideway (52), is equipped with to be used for the cylinder (53) of controller head member (5) on upper rail (51), lower guideway (52).
4. a kind of glove knitting machine according to claim 2, it is characterized in that: be equipped with in driving head (210) upper end and drive headstock (215), in driving headstock (215), be equipped with by spring controlled slide block (216), the first guide rail slide plate (217) is installed on first guide rail (13), the second guide rail slide plate (219), slide block location-plate (223), swing arm seat (224), shuttle parts (8) link to each other with the first guide rail slide plate (217), the first guide rail slide plate (217), link to each other by guide rail connecting rod (218) between the second guide rail slide plate (219), connecting rod (220) is installed on the swing arm seat (224) by swing arm (221), swing arm (221) links to each other with the electromagnetic valve (222) of swing arm seat (224), slide block (216) is pressed on by connecting rod (220) and drives in the headstock (215), be provided with the groove that adapts with slide block (216) on the second guide rail slide plate (219), slide block location-plate (223) is fixed on the right side of the second guide rail slide plate (219).
5. a kind of glove knitting machine according to claim 4, it is characterized in that: during shuttle parts (8) work, electromagnetic valve (222) control swing arm (221) is upwards unclamped connecting rod (220), slide block (216) breaks away from connecting rod (220), when slide block (216) moves horizontally with driving headstock (215), after slide block (216) entered in the groove of the second guide rail slide plate (219), the second guide rail slide plate (219) was connected with driving head (210).
6. a kind of glove knitting machine according to claim 1, it is characterized in that: scissors drive disk assembly (3) comprises first stepper motor (31) that is fixed on left wallboard (10) the right side frame (1), be installed in left wallboard (10), guide rod (33) and ball screw (34) between the right wallboard (11), scissors member (6) is installed on guide rod (33) and the ball screw (34), ball screw (34) is connected with the little synchronizing wheel (35) that is installed on the left wallboard (10), and little synchronizing wheel (35) is connected with the big synchronizing wheel (37) that first stepper motor (31) links to each other by being with (36) synchronously.
7. a kind of glove knitting machine according to claim 1, it is characterized in that: fork cutter drive disk assembly (4) comprises the motor case (42) that is fixed on left wallboard (10) left side, be installed in second stepper motor (41) in the motor case (42), big synchronizing wheel (43) is contained in the motor case (42) and links to each other with second stepper motor (41), little synchronizing wheel (44) is installed in the top of motor case (42), and by being with (45) to link to each other synchronously with big synchronizing wheel (43), ball screw (46) one ends and little synchronizing wheel (44) are connected, and the other end is connected by clutch (47) and fork blade insert (7).
CN2007100670785A 2007-02-09 2007-02-09 Gloves maker Expired - Fee Related CN101029428B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2007100670785A CN101029428B (en) 2007-02-09 2007-02-09 Gloves maker

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2007100670785A CN101029428B (en) 2007-02-09 2007-02-09 Gloves maker

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CN101029428A CN101029428A (en) 2007-09-05
CN101029428B true CN101029428B (en) 2011-05-25

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CN2007100670785A Expired - Fee Related CN101029428B (en) 2007-02-09 2007-02-09 Gloves maker

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Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102002814B (en) * 2010-05-24 2013-01-16 常州众创腾飞纺织机械科技有限公司 Multi-finger sandwich colored jacquard knitting machine
CN102493113B (en) * 2011-11-25 2013-07-31 丁原章 Glove knitting machine with electronic pneumatic control type piston needle selection device
CN107385663A (en) * 2017-07-05 2017-11-24 绍兴金隆机械制造有限公司 A kind of needle selection drum drive mechanism of automatic glove machine

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