CN210711955U

CN210711955U - Computerized flat knitting machine with mixed yarn nozzles

Info

Publication number: CN210711955U
Application number: CN201921583996.8U
Authority: CN
Inventors: 金永良; 张和中; 孙健; 侯英杰; 张宏露
Original assignee: Jiangsu Jinlong Technology Co Ltd
Current assignee: Jiangsu Jinlong Technology Co Ltd
Priority date: 2019-09-23
Filing date: 2019-09-23
Publication date: 2020-06-09
Anticipated expiration: 2029-09-23

Abstract

The utility model provides a computerized flat knitting machine of hybrid yarn mouth, it changes partial yarn mouth into through independent motor control drive, realizes partial yarn mouth automatic operation, automatic positioning, and its flower type to needs switch over the yarn mouth repeatedly can become the geometric multiple and improve and weave efficiency knitting in-process. The novel flat knitting machine comprises a flat knitting machine frame and a needle bed base, wherein the needle bed base is installed on the flat knitting machine frame, slide rails are respectively arranged on two side inclined planes of the needle bed base, supports on two sides of a machine head are respectively installed on the corresponding slide rails, two ends of the machine head are connected through an overbridge, two ends of the needle bed base in the length direction are respectively provided with a top rod installation seat, two ends of a plurality of parallel top rods are respectively and fixedly installed at corresponding positions of the top rod installation seats on the two ends, each top rod is respectively and correspondingly provided with four yarn nozzles, and all the top rods comprise at least one first top rod used for installing the yarn nozzles driven by the machine head and at least one second top rod used for installing the self-running yarn nozzles.

Description

Computerized flat knitting machine with mixed yarn nozzles

Technical Field

The utility model relates to a technical field of computerized flat knitting machine structure specifically is a computerized flat knitting machine of hybrid yarn mouth.

Background

The existing computerized flat knitting machine drives yarn nozzles to advance along the track of a top bar through a machine head, in the actual process, the operation of each yarn nozzle needs to be driven by the machine head, the action of each yarn nozzle is controlled by the machine head, and particularly when the yarn nozzles are switched, a knitting system needs to be occupied, so that the knitting system cannot be knitted, and the knitting efficiency is greatly influenced.

Disclosure of Invention

To the above problem, the utility model provides a computerized flat knitting machine of hybrid yarn mouth, it changes partial yarn mouth into through independent motor control drive, realizes partial yarn mouth automatic operation, automatic positioning, and its pattern type to needs switch over the yarn mouth repeatedly can become the geometric multiple and improve the efficiency of weaving in weaving the in-process.

The utility model provides a computerized flat knitting machine of hybrid yarn mouth which characterized in that: the automatic yarn feeder comprises a flat knitting machine frame and a needle bed base, wherein the needle bed base is arranged on the flat knitting machine frame, slide rails are respectively arranged on the inclined planes on the two sides of the needle bed base, brackets on the two sides of a machine head are respectively arranged on the corresponding slide rails, the two ends of the machine head are connected through an overbridge, a top bar mounting seat is respectively arranged at the two ends of the needle bed base in the length direction, the two ends of a plurality of top bars which are arranged in parallel are respectively and fixedly arranged at the corresponding positions of the top bar mounting seats at the two ends, each top bar is respectively and correspondingly provided with four yarn nozzles, all the top bars comprise at least one first top bar for mounting the yarn nozzles driven by the machine head and at least one second top bar for mounting the automatic running yarn nozzles, a pair of synchronous belts which are arranged in a staggered manner in the height direction are respectively arranged on the front end face and the back end of each second top bar, the face position which is corresponding to the second top bar is, the inner side of each first Ues seat is clamped with the corresponding side wall of the second day rod, and the two first Ues seats positioned on the same end surface of the second day rod are arranged in the length direction of the second day rod; every first wu si seat rigid coupling respectively connects from the upper portion connection structure of running formula yarn mouth, every the both ends of hold-in range are connected with driving pulley respectively, follow driving wheel, every driving pulley's input shaft is connected with respective driving motor respectively, and every driving motor sets up to arrange corresponding one from running formula yarn mouth, the inboard difference joint of the second wusi seat of four yarn mouths on the first day pole the corresponding side wall of first day pole, the overline bridge is corresponding to every the position punishment of the second wusi seat on the first day pole does not are provided with corresponding yarn mouth electro-magnet, yarn mouth electro-magnet is used for connecting the second wusi seat that corresponds the position.

It is further characterized in that:

a first upper synchronous belt and a second lower synchronous belt are respectively arranged in the height direction of the front end surface of each second day rod, a third upper synchronous belt and a fourth lower synchronous belt are respectively arranged in the height direction of the rear end surface of each second day rod, the first upper synchronous belt and the second lower synchronous belt are arranged in the front space region of the front end surface and the front end surface of the corresponding second day rod and do not interfere with the adjacent day rods, and the third upper synchronous belt and the fourth lower synchronous belt are arranged in the rear space region of the rear end surface and the rear end surface of the corresponding second day rod and do not interfere with the adjacent day rods;

the first motor mounting seat and the second motor mounting seat are respectively fixedly arranged on the outer side end face of the sky rod mounting seat at corresponding positions, driving belt wheels and driven wheels are respectively arranged at positions, corresponding to the outer side of the second sky rod, of the motor mounting seat, a first driving belt wheel, a third driving belt wheel, a second driven wheel and a fourth driven wheel are arranged on the first motor mounting seat, a second driving belt wheel, a fourth driving belt wheel, a first driven wheel and a third driven wheel are arranged on the second motor mounting seat, two ends of a first upper synchronous belt are respectively meshed with the first driving belt wheel and the first driven wheel, two ends of a second lower synchronous belt are respectively meshed with the second driving belt wheel and the second driven wheel, two ends of the third upper synchronous belt are respectively meshed with the third driving belt wheel and the third driven wheel, and two ends of the fourth lower synchronous belt are respectively meshed with the fourth driving belt wheel, A fourth driven wheel;

the first driving belt wheel and the third driving belt wheel are respectively arranged at the opposite outer sides of the second driven wheel and the second driven wheel, the input shafts of the first driving belt wheel and the third driving belt wheel penetrate through the mounting plate of the first motor mounting seat and then are fixedly connected with corresponding driving motors, and the driving motors are respectively arranged on the lower surface of the mounting plate; the second driving belt wheel and the fourth driving belt wheel are respectively arranged at the opposite outer sides of the first driven wheel and the third driven wheel, the input shafts of the second driving belt wheel and the fourth driving belt wheel penetrate through the mounting plate of the second motor mounting seat and then are fixedly connected with corresponding driving motors, and the driving motors are respectively mounted on the lower surface of the mounting plate;

each synchronous belt is provided with a pressing and attaching guide wheel corresponding to the surface area of the synchronous belt between the driving belt wheel and the driven wheel, which is far away from the concave guide groove, and the pressing and attaching guide wheels ensure the transmission synchronism;

the height of the mounting position of each driven wheel is set corresponding to the height of each synchronous belt, so that interference is avoided;

each synchronous belt is fixedly connected with a corresponding connecting hole on the first Wusi seat from outside to inside through a screw respectively, and the synchronous belts drive the first Wusi seat to move synchronously, so that the accurate position control of the driving motor on the self-running yarn nozzle is ensured;

one or more second day rods which are provided with self-running yarn mouths are arranged in all the day rods.

Adopt the utility model discloses afterwards, change partial yarn mouth into through independent driving motor control drive, realize partial yarn mouth automatic operation, automatic positioning, its orbit of marcing does not receive the restriction of aircraft nose position, to needs switch over the flower type of yarn mouth repeatedly, knits the in-process and can become the geometric multiple and improve and weave efficiency.

Drawings

Fig. 1 is a schematic structural view of a perspective view of the present invention;

fig. 2 is a schematic diagram of a connection local enlarged structure of the first motor mounting seat and the corresponding synchronous belt of the present invention;

fig. 3 is a partial schematic view of the connection between the first wusi seat and the synchronous belt according to the present invention;

fig. 4 is a side view partially enlarged structural diagram of the present invention;

FIG. 5 is an exploded view of the driven wheel, the pressing guide wheel, the rotating shaft and the mounting rack of the present invention;

the names corresponding to the sequence numbers in the figure are as follows:

the flat knitting machine comprises a flat knitting machine frame 1, a needle bed base 2, a sliding rail 3, a machine head 4, a side support 41, a top bridge 42, a top bar mounting seat 5, a first top bar 6, a second top bar 7, a first Uss seat 8, a self-running yarn nozzle 9, a driving motor 10, a yarn nozzle 11, a second Uss seat 12, a first upper synchronous belt 13, a second lower synchronous belt 14, a third upper synchronous belt 15, a fourth lower synchronous belt 16, a first motor mounting seat 17, a second motor mounting seat 18, a first driving belt wheel 19, a third driving belt wheel 20, a second driven wheel 21, a fourth driven wheel 22, a second driving belt wheel 23, a fourth driving belt wheel 24, a first driven wheel 25, a third driven wheel 26, a rotating shaft 27, a mounting frame 28, a pressing and attaching guide wheel 29 and a screw 30.

Detailed Description

A computerized flat knitting machine with a hybrid yarn nozzle, which is shown in figures 1-5: the automatic yarn feeding device comprises a flat knitting machine frame 1 and a needle bed base 2, wherein the needle bed base 2 is arranged on the flat knitting machine frame 1, slide rails 3 are respectively arranged on the inclined planes on the two sides of the needle bed base 2, brackets 41 on the two sides of a machine head 4 are respectively arranged on the corresponding slide rails 3, the two ends of the machine head 4 are connected through an overbridge 42, a plurality of ceiling rod mounting seats 5 are respectively arranged at the two ends of the needle bed base 2 in the length direction, the two ends of a plurality of ceiling rods which are arranged in parallel are respectively and fixedly arranged at the corresponding positions of the ceiling rod mounting seats 5 at the two ends, four yarn nozzles are respectively and correspondingly arranged on each ceiling rod, all the ceiling rods comprise at least one first ceiling rod 6 for mounting the yarn nozzles driven by the machine head and at least one second ceiling rod 7 for mounting the self-running yarn nozzles, a pair of synchronous belts which are arranged in staggered height direction are respectively connected with the front end face area position and the rear end surface area position, which is corresponding to each synchronous, the inner side of each first Ues seat 8 is clamped with the corresponding side wall of the second day rod 7, and the two first Ues seats 8 positioned on the same end surface of the second day rod 7 are respectively arranged in the length direction of the second day rod 7; every first uss seat 8 is fixedly connected with the upper connecting structure of the self-running yarn nozzle 9, two ends of each synchronous belt are connected with a driving belt wheel and a driven wheel respectively, an input shaft of each driving belt wheel is connected with respective driving motor 10 respectively, each driving motor 10 is arranged corresponding to one self-running yarn nozzle 9, the inner sides of second uss seats 12 of four yarn nozzles 11 on a first day rod 6 are clamped with corresponding side walls of the first day rod 6 respectively, positions of the overpass 4 corresponding to the first uss seats 11 on each first day rod 6 are provided with corresponding yarn nozzle electromagnets (not shown in the figure and belonging to the existing mature structure), and the yarn nozzle electromagnets are used for connecting the first uss seats 11 at corresponding positions.

A first upper synchronous belt 13 and a second lower synchronous belt 14 are respectively arranged in the height direction of the front end surface of each second day rod 7, a third upper synchronous belt 15 and a fourth lower synchronous belt 16 are respectively arranged in the height direction of the rear end surface of each second day rod 7, the first upper synchronous belt 13 and the second lower synchronous belt 14 are arranged in the front space region of the front end surface and the front end surface of the corresponding second day rod 7 and do not interfere with the adjacent day rods, and the third upper synchronous belt 15 and the fourth lower synchronous belt 16 are arranged in the rear space region of the rear end surface and the rear end surface of the corresponding second day rod 7 and do not interfere with the adjacent day rods;

a first motor mounting seat 17 and a second motor mounting seat 18 are respectively fixedly arranged on the outer side end face of the day rod mounting seat 5 at corresponding positions, the motor mounting seat is respectively provided with a driving belt wheel and a driven wheel corresponding to the outer side position of the second day rod 7, the first motor mounting seat 17 is provided with a first driving belt wheel 19, a third driving belt wheel 20, a second driven wheel 21 and a fourth driven wheel 22, the second motor mounting seat 18 is provided with a second driving belt wheel 23, a fourth driving belt wheel 24, a first driven wheel 25 and a third driven wheel 26, two ends of the first upper synchronous belt 13 are respectively engaged with the first driving belt wheel 19 and the first driven wheel 25, two ends of the second lower synchronous belt 14 are respectively engaged with the second driving belt wheel 23 and the second driven wheel 21, two ends of the third upper synchronous belt 15 are respectively engaged with the third driving belt wheel 20 and the third driven wheel 26, two ends of the fourth lower synchronous belt 16 are respectively engaged with the fourth driving belt wheel 24 and the fourth driven wheel 24, A fourth driven pulley 22;

the first driving belt wheel 19 and the third driving belt wheel 20 are respectively arranged at the opposite outer sides of the second driven wheel 21 and the second driven wheel 22, the input shafts of the first driving belt wheel 19 and the third driving belt wheel 20 are fixedly connected with the corresponding driving motors 10 after penetrating through the mounting plate of the first motor mounting seat 17, and the driving motors 10 are respectively arranged on the lower surface of the mounting plate; the second driving belt wheel 23 and the fourth driving belt wheel 24 are respectively arranged at the opposite outer sides of the first driven wheel 25 and the third driven wheel 26, the input shafts of the second driving belt wheel 23 and the fourth driving belt wheel 24 are fixedly connected with the corresponding driving motors 10 after penetrating through the mounting plate of the second motor mounting seat 18, and the driving motors 10 are respectively arranged on the lower surface of the mounting plate;

an adhesive guide wheel 29 is pressed on the surface area of each synchronous belt, which is far away from the concave guide groove 28, corresponding to the synchronous belt between the driving belt wheel and the driven wheel, and the adhesive guide wheel 29 ensures the transmission synchronism;

each synchronous belt is fixedly connected with a corresponding connecting hole on the first Ues seat 8 from outside to inside through a screw 30 respectively, so that the synchronous belts drive the first Ues seats 8 to move synchronously, and further, the accurate position control of the driving motor 21 on the self-running yarn nozzle 9 is ensured.

In a specific embodiment, four top rods are arranged in parallel, the second top rod from front to back is a second top rod 7, the left side and the right side of the front end surface and the rear end surface of the second top rod 7 are respectively and fixedly provided with a first Wusi seat 8 of a self-running yarn nozzle 9 through corresponding synchronous belts, the first Wusi seat 8 is driven to move forward through a corresponding driving motor 21, and the rest first top rods 6 are respectively provided with second Wusi seats 12 of passive yarn nozzles 11 driven by a machine head 4; the second day rod 7 and the first day rod 6 have the same structure, so that the whole computerized flat knitting machine can be conveniently installed; driven wheel, pressure attach the leading wheel and all install in corresponding mounting bracket 28 through pivot 27, and the high position of every mounting bracket 28 sets up according to the position from driven wheel, pressure attach the leading wheel, ensures that all hold-in ranges homoenergetic independently stably rotate the output.

The working principle is that part of the yarn nozzles are changed into independent driving motors to control and drive, so that the automatic operation and the automatic positioning of the part of the yarn nozzles are realized, the traveling track of the yarn nozzles is not limited by the position of a machine head, the patterns of the yarn nozzles needing to be switched repeatedly can be changed into geometric multiples in the weaving process, and the weaving efficiency is improved.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a computerized flat knitting machine of hybrid yarn mouth which characterized in that: the automatic yarn feeder comprises a flat knitting machine frame and a needle bed base, wherein the needle bed base is arranged on the flat knitting machine frame, slide rails are respectively arranged on the inclined planes on the two sides of the needle bed base, brackets on the two sides of a machine head are respectively arranged on the corresponding slide rails, the two ends of the machine head are connected through an overbridge, a top bar mounting seat is respectively arranged at the two ends of the needle bed base in the length direction, the two ends of a plurality of top bars which are arranged in parallel are respectively and fixedly arranged at the corresponding positions of the top bar mounting seats at the two ends, each top bar is respectively and correspondingly provided with four yarn nozzles, all the top bars comprise at least one first top bar for mounting the yarn nozzles driven by the machine head and at least one second top bar for mounting the automatic running yarn nozzles, a pair of synchronous belts which are arranged in a staggered manner in the height direction are respectively arranged on the front end face and the back end of each second top bar, the face position which is corresponding to the second top bar is, the inner side of each first Ues seat is clamped with the corresponding side wall of the second day rod, and the two first Ues seats positioned on the same end surface of the second day rod are arranged in the length direction of the second day rod; every first wu si seat rigid coupling respectively connects from the upper portion connection structure of running formula yarn mouth, every the both ends of hold-in range are connected with driving pulley respectively, follow driving wheel, every driving pulley's input shaft is connected with respective driving motor respectively, and every driving motor sets up to arrange corresponding one from running formula yarn mouth, the inboard difference joint of the second wusi seat of four yarn mouths on the first day pole the corresponding side wall of first day pole, the overline bridge is corresponding to every the position punishment of the second wusi seat on the first day pole does not are provided with corresponding yarn mouth electro-magnet, yarn mouth electro-magnet is used for connecting the second wusi seat that corresponds the position.

2. The computerized flat knitting machine with a hybrid yarn feeder of claim 1, wherein: every the direction of height of the preceding terminal surface of second day pole is provided with synchronous belt, second lower synchronous belt respectively, every on the direction of height of the rear end face of second day pole is provided with synchronous belt, fourth lower synchronous belt on the third respectively, synchronous belt, second lower synchronous belt arrange in the preceding terminal surface of corresponding second day pole rather than the preceding front portion space region of terminal surface, and do not interfere adjacent day pole on the first, synchronous belt, fourth lower synchronous belt arrange in the rear end face of corresponding second day pole and its rear portion space region of terminal surface, and do not interfere adjacent day pole on the third.

3. The computerized flat knitting machine with a hybrid yarn feeder of claim 2, wherein: the first motor mounting seat and the second motor mounting seat are respectively fixedly arranged on the outer side end face of the sky rod mounting seat at corresponding positions, driving belt wheels and driven wheels are respectively arranged at positions, corresponding to the outer side of the second sky rod, of the motor mounting seat, a first driving belt wheel, a third driving belt wheel, a second driven wheel and a fourth driven wheel are arranged on the first motor mounting seat, a second driving belt wheel, a fourth driving belt wheel, a first driven wheel and a third driven wheel are arranged on the second motor mounting seat, two ends of a first upper synchronous belt are respectively meshed with the first driving belt wheel and the first driven wheel, two ends of a second lower synchronous belt are respectively meshed with the second driving belt wheel and the second driven wheel, two ends of the third upper synchronous belt are respectively meshed with the third driving belt wheel and the third driven wheel, and two ends of the fourth lower synchronous belt are respectively meshed with the fourth driving belt wheel, And a fourth driven wheel.

4. The computerized flat knitting machine with a hybrid yarn feeder of claim 3, wherein: the first driving belt wheel and the third driving belt wheel are respectively arranged at the opposite outer sides of the second driven wheel and the second driven wheel, the input shafts of the first driving belt wheel and the third driving belt wheel penetrate through the mounting plate of the first motor mounting seat and then are fixedly connected with corresponding driving motors, and the driving motors are respectively arranged on the lower surface of the mounting plate; the second driving belt wheel and the fourth driving belt wheel are respectively arranged on the opposite outer sides of the first driven wheel and the third driven wheel, the input shafts of the second driving belt wheel and the fourth driving belt wheel penetrate through the mounting plate of the second motor mounting seat and then are fixedly connected with corresponding driving motors, and the driving motors are respectively mounted on the lower surface of the mounting plate.

5. The computerized flat knitting machine with a hybrid yarn feeder of claim 4, wherein: and a pressing guide wheel is pressed on the surface of each synchronous belt, which is far away from the concave guide groove, corresponding to the synchronous belt between the driving belt wheel and the driven wheel.

6. The computerized flat knitting machine with a hybrid yarn feeder of claim 1, wherein: the height of the mounting position of each driven wheel corresponds to the height of each synchronous belt.

7. The computerized flat knitting machine with a hybrid yarn feeder of claim 1, wherein: each synchronous belt is fixedly connected with a corresponding connecting hole on the first Ues seat from outside to inside through a screw.

8. The computerized flat knitting machine with a hybrid yarn feeder of claim 1, wherein: one or more second day rods which are provided with self-running yarn mouths are arranged in all the day rods.