CN212505282U - Intelligent yarn running nozzle device of knitting machine - Google Patents

Abstract

The utility model discloses an intelligent yarn running nozzle device of a knitting machine, which comprises a plurality of I-shaped linear guide rails, wherein two side surfaces of each I-shaped linear guide rail are provided with intelligent yarn running nozzle parts; the I-shaped linear guide rail is provided with a steel wire track, and two ends of the I-shaped linear guide rail are respectively fixed on the left and right top rod supports and the left and right brackets; the intelligent yarn running nozzle component comprises a yarn nozzle, a yarn nozzle seat, a yarn nozzle supporting strip, a U-shaped bearing, a bearing mandrel, an eccentric wheel, a synchronous belt mounting seat, a synchronous belt clamping block and the like, and the intelligent yarn running nozzle component is sleeved on an I-shaped linear guide rail steel wire track and can flexibly reciprocate; the yarn mouth supporting strips are four types, namely a first path, a second path, a third path and a fourth path, and are respectively arranged in intelligent yarn running mouth parts on I-shaped linear guide rails at different positions. The utility model discloses a dress is at the transmission on controlling the day pole mount pad, under knitting machine electric control system's control, makes the intelligence of connecting on the hold-in range run yarn mouth part and carry out arbitrary reciprocating motion according to knitting fabric flower type needs along I shape linear guide and send the yarn, stop the yarn to realize that various flower types weave and once forming's intelligence is woven.

Description

Intelligent yarn running nozzle device of knitting machine

Technical Field

The utility model relates to a knitting machine's technical field, concretely relates to computer flat knitting machine's intelligent race yarn mouth device.

Background

The computerized flat knitting machine is a sweater knitting machine, the traditional computerized flat knitting machines at home and abroad adopt a mode that a machine head color changing seat device drives a yarn nozzle black yarn seat to realize yarn feeding knitting, and the pattern change is limited by the operation of the machine head. Along with the needs that sweater market was woven to the diversification of style pattern and one shot forming, traditional computerized flat knitting machine has been unable to reach the function that one shot forming woven, consequently the utility model discloses the urgent demand of computerized flat knitting machine intelligence yarn feeding mechanism innovation development has been satisfied.

Disclosure of Invention

The utility model aims at providing a rational in infrastructure, the transmission is nimble, the reliable intelligence of sending yarn runs yarn mouth device for computerized flat knitting machine, runs yarn mouth transmission through computerized flat knitting machine electrical system control intelligence, makes a plurality of groups intelligence run yarn mouth according to knitting fabric flower type needs arbitrary operation send the yarn, stop the yarn, and the idle running of the traditional flat knitting machine that significantly reduces realizes that various flower types are woven, are embedded the flower and are woven and one shot forming's intelligence is woven.

Therefore, the technical scheme of the utility model is a yarn mouth device is run to knitting quick-witted intelligence, its characterized in that: the intelligent yarn running device comprises a plurality of I-shaped linear guide rails which are provided with a plurality of groups of intelligent yarn running nozzle components, and two side surfaces of each I-shaped linear guide rail are provided with the intelligent yarn running nozzle components; two ends of the I-shaped linear guide rail are respectively fixed on the left and right top rod support seats and the left and right brackets. The I-shaped linear guide rail is provided with a steel wire track, and the intelligent yarn running nozzle part is provided with a U-shaped bearing and sleeved on the steel wire track to flexibly reciprocate; the intelligent yarn running nozzle component comprises a yarn nozzle, a yarn nozzle seat, a yarn nozzle supporting strip, a U-shaped bearing, a bearing mandrel, an eccentric wheel, a synchronous belt mounting seat, a synchronous belt clamping block and the like;

furthermore, the utility model discloses technical scheme contains following several:

1. the linear guide rail preferably adopts an aluminum alloy profile with an I-shaped structure, steel wire grooves are formed in the inner sides of four corners of the linear guide rail, and the linear guide rail is fixedly riveted after being respectively provided with steel wire rails; a plurality of waist-shaped holes are arranged in the middle of the I shape.

2. The intelligent yarn running nozzle part comprises a nozzle seat, a synchronous belt is clamped on the synchronous belt fixing seat by a synchronous belt clamping block and then fixed on one surface of the nozzle seat with a boss, and a plurality of U-shaped bearings are respectively arranged at four corners of the surface of the nozzle seat; eccentric wheels are arranged in circular holes at two corners of the other surface of the yarn mouth seat and used for adjusting the tightness state of the intelligent yarn running mouth part in the steel wire track, and a first or second or third or fourth yarn mouth supporting strip is respectively arranged in a positioning groove on the surface of the yarn mouth seat according to the different positions of the intelligent yarn running mouth part in the I-shaped linear guide rail; the tail end of the yarn nozzle supporting strip is provided with a yarn nozzle; the intelligent yarn running nozzle parts are arranged on two sides of the I-shaped linear guide rail, a plurality of groups of yarn running nozzle parts are arranged on the right side of the I-shaped linear guide rail, and a plurality of groups of intelligent yarn running nozzle parts are arranged on the left side of the I-shaped linear guide rail and are sequentially arranged from the front to the back;

3. the yarn feeder support strips have four bending structure sizes, are respectively a first yarn feeder support strip, a second yarn feeder support strip, a third yarn feeder support strip and a fourth yarn feeder support strip, and are arranged in intelligent yarn feeder components at different positions, so that yarn guide ports of the yarn feeders are all positioned on the central line of a knitting machine.

4. The yarn nozzle seat is of a rectangular structure, one surface of the yarn nozzle seat is provided with a boss for mounting the synchronous belt fixing seat, and the other surface of the yarn nozzle seat is provided with a yarn nozzle supporting strip positioning groove; and shaft holes for mounting bearing cores are arranged at four corners of the yarn nozzle seat, and two counter bores for mounting eccentric wheels are processed in the two holes.

5. The synchronous belt clamping block is of a T-shaped structure, a mounting hole is formed in the middle of the synchronous belt clamping block, and a plurality of tooth forms for clamping the synchronous belt are arranged on two sides of the synchronous belt clamping block.

6. The synchronous belt fixing seat is of a U-shaped structure, a mounting hole is formed in the middle of the synchronous belt fixing seat, and positioning grooves of synchronous belt clamping blocks are formed in two sides of the synchronous belt fixing seat.

7. The eccentric wheel is of a cylindrical structure, a screw hole with a bearing arranged in the middle and the outer circle are eccentrically arranged and used for adjusting the tightness state of the intelligent yarn running nozzle component in the steel wire track; the eccentric wheel is provided with 2 fastening screw holes and 2 unthreaded holes for adjusting the eccentric wheel.

8. The left and right top pole mounting seats are of a rectangular structure, a plurality of positioning grooves of I-shaped linear guide rails and positioning grooves for mounting the transmission device and the tensioning device are arranged above the left and right top pole mounting seats, and a plurality of servo motor abdicating square holes are arranged on one side of the left and right top pole mounting seats.

9. The lower mounting surface of the left and right brackets is connected with a knitting machine, and the upper mounting surface is fixed with a left and right top bar mounting seat and a set of intelligent yarn running nozzle device; two side faces of the middle supporting part of the left support and the right support are provided with two notch grooves for abdicating the servo motor.

10. The middle positions of the 4I-shaped linear guide rails are connected together by a connecting block of a top rod, so that the consistent distance and height between the 4I-shaped linear guide rails are ensured; the connecting block of the top rod is provided with a plurality of locating slots for installing the I-shaped linear guide rails and a plurality of installing holes for connecting the I-shaped linear guide rails.

The utility model discloses a dress is at the transmission on controlling the day pole mount pad, under knitting machine electric control system's control, makes the intelligence of connecting on the hold-in range run yarn mouth part according to knitting fabric pattern needs, carries out arbitrary reciprocating motion along I shape linear guide and send the yarn, stop the yarn and weave to realize that various patterns are woven and once formed intelligence is woven.

Drawings

The following detailed description is made with reference to the accompanying drawings and embodiments of the present invention.

FIG. 1 is the embodiment of the utility model provides an in intelligent race yarn mouth device structure look sideways at the sketch map

FIG. 2 is the embodiment of the utility model provides an in intelligent race yarn mouth device overall structure sketch map

FIG. 3 is a schematic structural view of an I-shaped linear guide rail according to an embodiment of the present invention

FIG. 4 is a schematic structural view of an intelligent yarn running nozzle component in an embodiment of the present invention

FIG. 5 is a schematic view of the No. 1~ 16 arrangement of the intelligent yarn-running nozzle

FIG. 6 is the embodiment of the present invention, wherein the four yarn feeder support bars are schematically shown in the structure

FIG. 7 is a schematic view of a yarn feeder seat according to an embodiment of the present invention

FIG. 8 is a schematic structural view of the synchronous belt clamping block in the embodiment of the present invention

FIG. 9 is a schematic view of an embodiment of the present invention showing a fixing seat of the synchronous belt

FIG. 10 is a schematic structural view of an eccentric wheel according to an embodiment of the present invention

FIG. 11 is a schematic view of the left and right top bar mounting seats in the embodiment of the present invention

FIG. 12 is a schematic view of the left and right supporting frames of the embodiment of the present invention

Figure 13 is the embodiment of the present invention shows a schematic view of a connecting block structure of a top rod

The labels in the figure are: 1 is a number 1 intelligent yarn running mouth part, 2 is a number 2 intelligent yarn running mouth part, 3 is a number 3 intelligent yarn running mouth part, 4 is a number 4 intelligent yarn running mouth part, 5 is a number 5 intelligent yarn running mouth part, 6 is a number 6 intelligent yarn running mouth part, 7 is a number 7 intelligent yarn running mouth part, 8 is a number 8 intelligent yarn running mouth part, 9 is a number 9 intelligent yarn running mouth part, 10 is a number 10 intelligent yarn running mouth part, 11 is a number 11 intelligent yarn running mouth part, 12 is a number 12 intelligent yarn running mouth part, 13 is a number 13 intelligent yarn running mouth part, 14 is a number 14 intelligent yarn running mouth part, 15 is a number 15 intelligent yarn running mouth part, 16 is a number 16 intelligent yarn running mouth part, 17 is a left and right bracket, 18 is an I-shaped linear guide rail, 19 is a stainless steel wire, 20 is a U-shaped bearing, 21 is a yarn mouth seat, 22 is a first yarn mouth support strip, 23 is a second yarn mouth support strip, 24 is the third yarn mouth brace, 25 is the fourth yarn mouth brace, 26 is the hold-in range compact heap, 27 is the hold-in range fixing base, 28 is the bearing dabber, 29 is the eccentric wheel, 30 is leading the yarn porcelain bushing, 31 five lead the yarn porcelain bushing braces, 32 is the yarn mouth, 33 is left front lower cover plate, 34 is the upper cover plate, 35 is left day pole mount pad, 36 is the hold-in range, 37 is right day pole mount pad, 38 is left back lower cover plate, 39 is the day pole connecting block.

Detailed Description

See the drawings. The utility model relates to an intelligent yarn running nozzle device of a computer flat knitting machine, which comprises 4I-shaped linear guide rails 18, 16 groups of intelligent yarn running nozzle parts (1-16) are arranged together, and 4 groups of intelligent yarn running nozzle parts (namely 2 groups are respectively arranged on two side surfaces) are arranged on each I-shaped linear guide rail 18; two ends of the I-shaped linear guide rail 18 are respectively fixed on the left (right) overhead rail support 35 (37) and the left and right brackets 17. The I-shaped linear guide rail 18 is provided with 4 stainless steel wire 19 tracks, and the intelligent yarn running nozzle part is provided with 4U-shaped bearings 20 which are sleeved on the stainless steel wire 19 tracks and can flexibly reciprocate; the intelligent yarn running nozzle component comprises a yarn nozzle 32, a yarn nozzle seat 21, yarn nozzle support bars 22 (23, 24 and 25), a U-shaped bearing 20, a bearing mandrel 28, an eccentric wheel 29, a synchronous belt 36, a synchronous belt mounting seat 27, a synchronous belt clamping block 26 and the like; the first 22 (or second 23 or third 24 or fourth 25) four nozzle bars, each of 4 pieces, are mounted on 16 sets of intelligent nozzle parts.

The embodiment is as follows:

the lower mounting surface of the left bracket 17 and the right bracket 17 is connected with a knitting machine, and the upper mounting surface is fixed with a left and a right top bar mounting seats 35 (37) and a complete set of intelligent yarn running nozzle device;

the left and right top rod mounting seats 35 and 37 are respectively provided with 8 groups of transmission mechanisms and 4I-shaped linear guide rails 18, and are connected with 16 groups of intelligent yarn running nozzle parts 1 to 16 through synchronous belts 36.

The I-shaped linear guide rail 18 is of an I-shaped structure and made of aluminum alloy materials, steel wire grooves are formed in the inner sides of four corners of the I-shaped linear guide rail, and stainless steel wires 19 are installed and then are firmly riveted; 4 waist-shaped holes are arranged in the middle of the I shape.

In the intelligent yarn running nozzle component, a synchronous belt 36 is clamped on a synchronous belt mounting seat 27 by a synchronous belt clamping block 26 and then fixed on one surface of a yarn nozzle seat 21 with a boss, and four corners of the surface of the yarn nozzle seat 21 are respectively provided with 4U-shaped bearings 20; eccentric wheels 29 are arranged in circular holes at two corners of the other surface of the yarn mouth seat 21 and used for adjusting the tightness state of the intelligent yarn running mouth part in a steel wire track, and a first yarn mouth 22 (or a second yarn mouth 23 or a third yarn mouth 24 or a fourth yarn mouth 25) supporting strip is respectively arranged in a positioning groove at the surface of the yarn mouth seat 21 according to the position difference of the intelligent yarn running mouth part in the I-shaped linear guide rail 18; the yarn nozzle 32 is arranged at the tail end of the yarn nozzle branch;

the 16 sets of intelligent yarn running nozzle components are characterized in that 4 sets of intelligent yarn running nozzle components are arranged on each I-shaped linear guide rail 18, 2 sets are respectively arranged on two sides of each I-shaped linear guide rail 18, the structure is shown in figures 1, 2 and 5, and No. 1-8 intelligent yarn running nozzle components are arranged on the right side of the intelligent yarn running nozzle device and are sequentially arranged from front to back; no. 9-16 intelligent yarn running nozzle parts are arranged on the left side of the intelligent yarn running nozzle device and are also sequentially arranged from front to back;

the yarn mouth supporting strip has four bending structure sizes of a first path 22, a second path 23, a third path 24 and a fourth path 25, and the intelligent yarn running mouth component which is correspondingly assembled is as follows: no. 1, No. 8, No. 9 and No. 16 intelligent yarn running nozzle parts are provided with first yarn nozzle supporting strips 22; no. 2, No. 7, No. 10 and No. 15 intelligent yarn running nozzle parts are provided with second yarn nozzle supporting strips 23; no. 3, No. 6, No. 11 and No. 14 intelligent yarn running nozzle parts are provided with third yarn nozzle supporting strips 24; no. 4, No. 5, No. 12 and No. 13 intelligent yarn running nozzle parts are provided with a fourth yarn nozzle supporting strip 25. .

The yarn nozzle seat 21 is of a rectangular structure, wherein one surface of the yarn nozzle seat is provided with a boss for installing the synchronous belt mounting seat 27, and the other surface of the yarn nozzle seat is provided with a yarn nozzle supporting strip positioning groove; four corners of the yarn nozzle base 21 are provided with screw holes for mounting the bearing mandrel 28, and the other two are provided with through holes and counter bores for mounting the eccentric wheel 29.

The synchronous belt clamping block 26 is of a T-shaped structure, a mounting hole is formed in the middle of the synchronous belt clamping block, and 4 tooth profiles for clamping the synchronous belt 36 are arranged on two sides of the synchronous belt clamping block.

The synchronous belt mounting seat 27 is of a U-shaped structure, a mounting hole is formed in the middle of the synchronous belt mounting seat, and positioning grooves for the synchronous belt clamping blocks 26 are formed in two sides of the synchronous belt mounting seat.

The eccentric wheel 29 is of a cylindrical structure, a screw hole with a bearing arranged in the middle and an excircle are eccentrically arranged, and the eccentric wheel is used for adjusting the tightness state of the intelligent yarn running nozzle component in a steel wire track; the eccentric wheel 29 is provided with 2 fastening screw holes and 2 unthreaded holes for adjusting the eccentric wheel 29.

The left and right top pole mounting seats 35 (37) are of a rectangular structure, 4 positioning grooves of the I-shaped linear guide rail 18 and positioning grooves for mounting the transmission device and the tensioning device are arranged above the left and right top pole mounting seats 35 (37), and 8 servo motor abdicating square holes are arranged on one sides of the left and right top pole mounting seats 35 (37).

The lower mounting surface of the left bracket 17 and the right bracket 17 is connected with a knitting machine, and the upper mounting surface is fixed with a left and a right top bar mounting seats 35 (37) and a complete set of intelligent yarn running nozzle device; two side faces of the middle supporting part of the left bracket 17 and the right bracket 17 are provided with two notch grooves for abdicating the servo motor.

The middle positions of the 4I-shaped linear guide rails 18 are connected together through a connecting block 39 of a top rod, so that the consistency of the distance and the height of the 4I-shaped linear guide rails 18 is ensured. The connecting block 39 is provided with four positioning grooves for mounting the I-shaped linear guide rail and four mounting holes for connecting the I-shaped linear guide rail.

The upper cover plate 34, the left front lower cover plate 33 and the left rear lower cover plate 38 are arranged at the left end and the right end of the intelligent yarn running nozzle device, a transmission mechanism of the intelligent yarn running nozzle device is covered and protected, and the intelligent yarn running nozzle device is safe and attractive.

This embodiment during operation, install through computerized flat knitting machine electrical system control the utility model discloses transmission among the intelligence yarn running mouth device makes 16 group intelligence yarn running mouth parts under the drive of hold-in range, along the steel wire track reciprocating motion in I-shaped linear guide 18, at the weaving in-process, 16 group intelligence yarn running mouth parts can move by oneself and send the yarn position to the arbitrary flower type of I-shaped steel linear guide 18 according to the needs of flower type, the intelligence yarn running mouth part that needs to weave is reciprocating motion along with the aircraft nose, the aircraft nose and the knitting needle of cooperation knitting machine send the yarn to weave, the intelligence yarn running mouth part that need not weave can stop on the arbitrary position of I-shaped linear guide according to weaving needs, stop the yarn and wait to weave, thereby realize that yarn mouth 32 needs the arbitrary operation according to the knitting flower type and send the yarn, stop the yarn, the idle running of the traditional flat knitting machine that significantly reduces, realize that various flower types weave, Embedding flower weaving and one-step formed intelligent weaving.

Claims (11)

1. An intelligent yarn running nozzle device of a knitting machine is characterized in that: the intelligent yarn running device comprises a plurality of I-shaped linear guide rails, wherein two side surfaces of each I-shaped linear guide rail are respectively provided with an intelligent yarn running nozzle component, and two ends of each I-shaped linear guide rail are respectively fixed on a left and right top rod support saddle and a left and right support; the I-shaped linear guide rail is provided with a steel wire track, and the intelligent yarn running nozzle part is provided with a U-shaped bearing and sleeved on the steel wire track to flexibly reciprocate; the intelligent yarn running nozzle component comprises a yarn nozzle, a yarn nozzle seat, a yarn nozzle supporting strip, a U-shaped bearing, a bearing mandrel, an eccentric wheel, a synchronous belt mounting seat and a synchronous belt clamping block; the yarn mouth supporting strips comprise a first path, a second path, a third path and a fourth path, and the first path, the second path, the third path or the fourth path of yarn mouth supporting strips are respectively arranged at different positions of the I-shaped linear guide rail according to the intelligent yarn running mouth part; the intelligent yarn running nozzle component connected to the synchronous belt can carry out random reciprocating operation yarn feeding and yarn stopping along the I-shaped linear guide rail according to the pattern of the braided fabric under the control of the electric control system of the knitting machine through the transmission device arranged on the left and right day rod mounting seats, thereby realizing various pattern knitting and one-step formed intelligent knitting.

2. The intelligent yarn running nozzle device of a knitting machine as claimed in claim 1, wherein: the I-shaped linear guide rail is of an I-shaped structure and made of aluminum alloy materials, steel wire grooves are formed in the inner sides of four corners of the I-shaped linear guide rail and are fixedly riveted after steel wire rails are installed respectively, and a plurality of waist-shaped holes are formed in the middle of the I-shaped linear guide rail.

3. The intelligent yarn running nozzle device of a knitting machine as claimed in claim 1, wherein: the intelligent yarn running nozzle part comprises a nozzle seat, a synchronous belt is clamped on the synchronous belt fixing seat by a synchronous belt clamping block and then fixed on one surface of the nozzle seat with a boss, and U-shaped bearings are respectively arranged at four corners of the surface of the nozzle seat; eccentric wheels are arranged in counter bores at two corners of the other surface of the yarn mouth seat and used for adjusting the tightness state of the intelligent yarn running mouth part in the steel wire track, and a first or second or third or fourth yarn mouth supporting strip is respectively arranged in a positioning groove on the surface of the yarn mouth seat according to the different positions of the intelligent yarn running mouth part on the I-shaped linear guide rail; the tail end of the yarn nozzle supporting strip is provided with a yarn nozzle; the intelligent yarn running nozzle parts are arranged on two sides of the I-shaped linear guide rail, a plurality of groups of intelligent yarn running nozzle parts are arranged on the right side of the I-shaped linear guide rail, and a plurality of groups of intelligent yarn running nozzle parts are arranged on the left side of the I-shaped linear guide rail and are sequentially arranged from the front side to the back side.

4. The intelligent yarn running nozzle device of a knitting machine as claimed in claim 1 or claim 3, wherein: the yarn feeder support strips have four bending structure sizes, are divided into a first yarn feeder support strip, a second yarn feeder support strip, a third yarn feeder support strip and a fourth yarn feeder support strip, and are arranged in intelligent yarn feeder components at different positions, so that yarn guide ports of the yarn feeders are all positioned on the central line of a knitting machine.

5. The intelligent yarn running nozzle device of a knitting machine as claimed in claim 1 or claim 3, wherein: the yarn nozzle seat is of a rectangular structure, one surface of the yarn nozzle seat is provided with a boss for mounting the synchronous belt fixing seat, and the other surface of the yarn nozzle seat is provided with a yarn nozzle supporting strip positioning groove; and shaft holes for mounting bearing cores are arranged at four corners of the yarn nozzle seat, and counter bores for mounting eccentric wheels are processed in two holes.

6. The intelligent yarn running nozzle device of a knitting machine as claimed in claim 1 or claim 3, wherein: the synchronous belt clamping block is of a T-shaped structure, a mounting hole is formed in the middle of the synchronous belt clamping block, and tooth shapes of a plurality of clamping synchronous belts are arranged on two sides of the synchronous belt clamping block.

7. The intelligent yarn running nozzle device of a knitting machine as claimed in claim 3, wherein: the synchronous belt fixing seat is of a U-shaped structure, a mounting hole is formed in the middle of the synchronous belt fixing seat, and positioning grooves of synchronous belt clamping blocks are formed in two sides of the synchronous belt fixing seat.

8. The intelligent yarn running nozzle device of a knitting machine as claimed in claim 1 or claim 3, wherein: the eccentric wheel is of a cylindrical structure, the center of a screw hole with a bearing arranged in the middle and the circle center of an excircle are eccentric, and the eccentric wheel is used for adjusting the tightness state of the intelligent yarn running nozzle component in the steel wire track; the eccentric wheel is provided with 2 fastening screw holes and 2 unthreaded holes for adjusting the eccentric wheel.

9. The intelligent yarn running nozzle device of a knitting machine as claimed in claim 1, wherein: the left and right top pole mounting seats are of a rectangular structure, a plurality of positioning grooves of I-shaped linear guide rails and positioning grooves for mounting the transmission device and the tensioning device are arranged above the left and right top pole mounting seats, and a plurality of servo motor abdicating square holes are arranged on one side of the left and right top pole mounting seats.

10. The intelligent yarn running nozzle device of a knitting machine as claimed in claim 1, wherein: the lower mounting surface of the left and right brackets is connected with a knitting machine, and the upper mounting surface is fixed with a left and right top bar mounting seat and a set of intelligent yarn running nozzle device; two side faces of the middle supporting part of the left support and the right support are provided with two notch grooves for abdicating the servo motor.

11. The intelligent yarn running nozzle device of a knitting machine as claimed in claim 1 or claim 2, wherein: the middle positions of the 4I-shaped linear guide rails are connected together through a top rod connecting block, the distance and the height of the 4I-shaped linear guide rails are consistent, the top rod connecting block is provided with four positioning grooves for mounting the I-shaped linear guide rails, and four mounting holes for connecting the I-shaped linear guide rails.

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