CN216738772U - Mixed type intelligent yarn running nozzle device - Google Patents

Abstract

The utility model provides a hybrid intelligent yarn running nozzle device, in particular to a motor-driven automatic yarn running nozzle and a traditional electromagnet-driven yarn nozzle which are mixed, and the device comprises a top rod seat, a top rod group arranged on the top rod seat, a driven belt wheel assembly arranged in the top rod group, a cam rod arranged below the top rod group, a lifting motor arranged outside the top rod seat and used for driving the cam rod to swing, a first yarn nozzle assembly arranged on the top rod group and driven by the driven belt wheel assembly to move left and right along the top rod group, and a second yarn nozzle assembly arranged on the top rod group. The cam rod is arranged below the top rod group, so that the required space is smaller, and the structure is compact; the lifting motor is arranged at a position flush with the top rod base, so that the overall height and size are small; the problems that the traditional electromagnet driving yarn nozzle device cannot run intelligently and the yarn nozzle cannot move up and down automatically are solved; the intelligent yarn running nozzle device overcomes the defect that the intelligent yarn running nozzle device driven by a full motor has overhigh cost, and provides a low-cost and high-performance hybrid intelligent yarn running nozzle device for a computerized flat knitting machine.

Description

Mixed type intelligent yarn running nozzle device

Technical Field

The utility model relates to the technical field of computerized flat knitting machines, in particular to a hybrid intelligent yarn-running nozzle device.

Background

A flat knitting machine, which is a kind of knitting machine, generally refers to a flat knitting machine, that is, a machine that uses a horizontal knitting needle bed to perform knitting.

In the existing flat knitting machine, as the chinese patent with the application number of CN202021337140.5 and the name of flat self-running yarn nozzle up-and-down control device, a plurality of layers of corresponding synchronous inner grooves are arranged on the two side surfaces of a top bar body, so that each synchronous belt is arranged around the surface of the top bar, and a self-running yarn nozzle can be fixedly arranged on the corresponding synchronous belt; in addition, current day pole sets up in the top of pedestal usually for the overall structure size from the race yarn mouth is great, and can't install the yarn mouth of different specifications simultaneously.

SUMMERY OF THE UTILITY MODEL

The utility model provides a hybrid intelligent yarn running nozzle device to solve the problems in the background technology.

The utility model provides the following technical scheme:

a mixed intelligent yarn running nozzle device comprises a top rod seat, a top rod group arranged on the top rod seat, a driven belt wheel assembly arranged in the top rod group, a cam rod arranged below the top rod group, a lifting motor arranged outside the top rod seat and used for driving the cam rod to rotate and swing, a first yarn nozzle assembly arranged on the top rod group and driven by the driven belt wheel group to move left and right along the top rod assembly, and a second yarn nozzle assembly arranged on the top rod group; the cam rod is connected with the top rod group through a connecting seat, and the first yarn nozzle assembly is connected with the cam rod.

Further, the crown bar group comprises outer crown bars and at least two self-running crown bars arranged in the outer crown bars.

Further, the driven belt wheel assembly is arranged between the adjacent self-running top rods and the outer top rods.

Furthermore, the driven pulley assembly comprises a first synchronous belt arranged in the crown bar group, a motor mounting seat arranged at the outer end of the crown bar seat, a driven pulley unit arranged at the top of the motor mounting seat, a driving pulley, a second synchronous belt tensioned on the driven pulley unit and the driving pulley, and a translation motor arranged at the bottom of the motor mounting seat and driving the driving pulley to rotate.

Furthermore, a Z-shaped connecting plate is arranged below the motor mounting seat, the driven belt wheel unit comprises deep groove ball bearings arranged in the motor mounting seat and the connecting plate, a belt wheel shaft arranged in the two deep groove ball bearings, and an upper driven wheel and a lower driven wheel which are arranged on the belt wheel shaft, the upper driven wheel is in transmission connection with the second synchronous belt, and the lower driven wheel is in transmission connection with the first synchronous belt.

Furthermore, the two sides of the self-running pole are respectively provided with an accommodating groove along the length direction, and the first synchronous belt is positioned in the accommodating grooves.

Further, first yarn mouth subassembly includes first straight yarn mouth and first oblique yarn mouth, first oblique yarn mouth include first black si seat, set up in the first panel of first black si seat one side, set up in first belt centre gripping group on the first panel, with first yarn mouth that the first panel links to each other, set up in first black si seat with first connecting piece between the first panel, set up in U type fixture block on the first connecting piece, with the line mouth of wearing that first connecting piece bottom links to each other, set up in the yarn mouth spring unit of first black si seat bottom, U type fixture block with the cam lever links to each other.

Further, a first porcelain tube mounting seat is arranged in the middle of the first yarn nozzle, and first porcelain tubes are arranged at two ends of the first porcelain tube mounting seat.

Further, the yarn mouth spring unit comprises a base connected with the bottom of the first Wusi seat, a spring seat arranged between the first Wusi seat and the base, an installation rod arranged in the spring seat and a yarn mouth spring sleeved on the installation rod.

Further, the second yarn nozzle assembly comprises a second straight yarn nozzle and a second inclined yarn nozzle, and the second inclined yarn nozzle comprises a second Uss seat, a second panel arranged on one side of the second Uss seat, a second connecting piece arranged between the second Uss seat and the second panel, a second yarn nozzle connected with the bottom of the second connecting piece, a yarn nozzle spring unit arranged on the bottom of the second Uss seat, a second porcelain tube mounting seat arranged in the middle of the second connecting piece, second porcelain tubes arranged at two ends of the second porcelain tube mounting seat and two adjusting clamping blocks arranged at the top of the second Uss seat.

The utility model has the beneficial effects that:

the utility model particularly relates to a hybrid intelligent yarn running nozzle device with a mixed yarn running nozzle driven by a motor and a yarn nozzle driven by a traditional electromagnet, wherein a driven belt wheel assembly is used for adjusting a first yarn nozzle assembly to move left and right along a top rod group, and a lifting motor drives a cam rod to rotate and swing, so that the first yarn nozzle assembly can be driven to lift, more actions can be realized, and more patterns can be woven;

compared with the prior art that the cam rod is arranged above the top lever group, the cam rod is arranged below the top lever group, and compared with the prior art that the cam rod is arranged above the top lever group, the cam rod has the advantages that the abdicating space during the rotation of the cam rod is not required to be reserved, the required space is smaller, and the structure is compact;

the lifting motor is installed downwards, so that the whole height and size of the hybrid intelligent yarn running nozzle device are small, and the first yarn nozzle component can move left and right;

the problems that the traditional electromagnet driving yarn nozzle device cannot run intelligently and the yarn nozzle cannot move up and down automatically are solved; the defect that the cost of the fully motor-driven hybrid intelligent yarn running nozzle device is too high is overcome, and the hybrid intelligent yarn running nozzle device which is intelligent, low in cost and high in performance is provided for the computerized flat knitting machine.

The problems that the traditional electromagnet driving yarn nozzle device cannot run intelligently and the yarn nozzle cannot move up and down automatically are solved; the intelligent yarn running nozzle device overcomes the defect that the intelligent yarn running nozzle device driven by a full motor has overhigh cost, and provides a low-cost and high-performance hybrid intelligent yarn running nozzle device for a computerized flat knitting machine.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of a hybrid intelligent yarn runner apparatus of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

FIG. 4 is a schematic view of another orientation of the hybrid intelligent yarn runner device of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 at C;

FIG. 6 is a schematic view of a driven pulley assembly of the hybrid intelligent yarn runner apparatus of the present invention;

FIG. 7 is a schematic view of a first diagonal yarn nozzle of the hybrid intelligent yarn runner device of the present invention;

FIG. 8 is another directional schematic view of the first diagonal nozzle of the hybrid intelligent yarn runner device of the present invention;

FIG. 9 is a schematic view of a second diagonal yarn nozzle of the hybrid intelligent yarn runner device of the present invention;

labeled as:

a top rod seat 1 is arranged on the top rod seat,

the upper rod group 2, the outer upper rod 21, the self-running upper rod 22, the containing groove 23,

a driven pulley assembly 3, a first synchronous belt 31, a motor mounting seat 32, a driven pulley unit 33, a deep groove ball bearing 331, a belt pulley shaft 332, an upper driven pulley 333, a lower driven pulley 334, a driving pulley 34, a second synchronous belt 35, a translation motor 36, a connecting plate 37,

a cam lever 4, a lifting motor 41, a lifting driven wheel 42, a lifting driving wheel 43, a lifting belt 44, a connecting seat 45,

a first feeder assembly 5, a first straight feeder 5a, a first skew feeder 5b, a first wusi socket 51, a first panel 52, a first belt clamping group 53, a first feeder 54, a first connecting piece 55, a U-shaped latch 56, a threading feeder 57, a feeder spring unit 58, a base 581, a spring seat 582, a mounting lever 583, a feeder spring 584, a first porcelain tube mounting seat 59, a first porcelain tube 591,

the yarn feeder comprises a second yarn feeder assembly 6, a second straight yarn feeder 6a, a second inclined yarn feeder 6b, a second Uster seat 61, a second panel 62, a second connecting piece 63, a second yarn feeder 64, a yarn feeder spring unit 65, a second porcelain tube mounting seat 66, a second porcelain tube 67 and an adjusting clamping block 68.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present invention. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Referring to fig. 1 to 9, the present invention provides a hybrid intelligent yarn running nozzle device, which includes a top rod base 1, a top rod set 2 disposed on the top rod base 1, a driven pulley assembly 3 disposed in the top rod set 2, a cam rod 4 disposed below the top rod set 2, a lifting motor 41 disposed outside the top rod base 1 and driving the cam rod 4 to swing rotationally, a first yarn nozzle assembly 5 disposed on the top rod set 2 and driven by the driven pulley assembly 3 to move left and right along the top rod set 2, and a second yarn nozzle assembly 6 disposed on the top rod set 2; the cam rod 4 is connected with the crown bar group 2 through a connecting seat 45, and the first yarn feeder assembly 5 is connected with the cam rod 4. The driven belt wheel assembly 3 is used for adjusting the first yarn nozzle assembly 5 to move left and right along the antenna rod assembly 2, and the lifting motor 41 drives the cam rod 4 to rotate and swing, so that the first yarn nozzle assembly 5 can be driven to lift, more actions can be realized, and more patterns can be woven; the second yarn nozzle assembly 6 can be fixed in the vertical direction, and can be driven by an electromagnet (not shown) to move left and right along the top rod group 2 for weaving, the cam rod 4 is arranged below the top rod group 2, and compared with the existing cam rod arranged below the top rod group, the cam rod is not required to reserve a abdicating space during rotation, so that the required space is smaller, and the structure is compact; and the lifting motor 41 can be arranged at a position flush with the top rod seat 1, so that the whole height and size of the hybrid intelligent yarn running nozzle device are small.

The utility model relates to a hybrid intelligent yarn running nozzle device with a motor-driven self yarn running nozzle and a traditional electromagnet-driven yarn nozzle mixed, which solves the problems that the traditional electromagnet-driven yarn nozzle device cannot realize intelligent self yarn running and the yarn nozzle cannot automatically move up and down; the intelligent yarn running nozzle device overcomes the defect that the intelligent yarn running nozzle device driven by a full motor has overhigh cost, and provides a low-cost and high-performance hybrid intelligent yarn running nozzle device for a computerized flat knitting machine.

The driven pulley assembly 3 is disposed between the adjacent free-ranging poles 22 and the outer free-ranging pole 21.

The crown bar group 2 comprises an outer crown bar 21 and at least two self-running crown bars 22 arranged in the outer crown bar 21. The cross section of the cam rod 4 is 8-shaped, one end of the cam rod 4 is provided with a lifting driven wheel 42, the output end of the lifting motor 41 is provided with a lifting driving wheel 43, and a lifting belt 44 is tensioned on the lifting driven wheel 42 and the lifting driving wheel 43. The cross section of the cam rod 4 is 8-shaped, one side with the larger diameter is connected with the crown bar group 2 through the connecting seat 45 and is specifically connected with the self-running crown bar 22, two openings are formed in two ends of the connecting seat 45, the two cam rods 4 can be positioned at the same time, the side with the larger diameter of the cam rod 4 can swing in the connecting seat 45 under the driving of the lifting motor 41, so that the side with the smaller diameter of the cam rod 4 is driven to swing up and down, the lifting of the second yarn nozzle component 6 is realized, the structure is compact, one cam rod 4 can be provided with a plurality of second yarn nozzle components 6, and the plurality of second yarn nozzle components 6 are driven to work at the same time, so that the mixed intelligent yarn running nozzle device can weave a plurality of products at one time.

The driven pulley assembly 3 comprises a first synchronous belt 31 arranged in the crown bar group 2, a motor mounting seat 32 arranged at the outer end of the crown bar seat 1, a driven pulley unit 33 arranged at the top of the motor mounting seat 32, a driving pulley 34, a second synchronous belt 35 tensioned on the driven pulley unit 33 and the driving pulley 34, and a translation motor 36 arranged at the bottom of the motor mounting seat 32 and driving the driving pulley 34 to rotate.

As a preferred embodiment of the present invention, the number of the self-running skynes 22 may include 2, and four sets of driven pulley assemblies are provided; a Z-shaped connecting plate 37 is arranged below the motor mounting seat 32, the driven pulley unit 33 includes deep groove ball bearings 331 arranged in the motor mounting seat 32 and the connecting plate 37, a pulley shaft 332 arranged in the two deep groove ball bearings 331, and an upper driven pulley 333 and a lower driven pulley 334 arranged on the pulley shaft 332, the upper driven pulley 333 is in transmission connection with the second synchronous belt 35, and the lower driven pulley 334 is in transmission connection with the first synchronous belt 32. Install respectively four angle below of motor mount pad 32 translation motor 36, the Z type connecting plate 37 sets up four between translation motor 36, set up four driven pulley units 33 respectively on it, can play the effect of stepping down, realize four groups driven pulley assembly 3's integration, compact structure.

Two sides of the self-running pole 22 are respectively provided with an accommodating groove 23 along the length direction thereof, and the first synchronous belt 31 is positioned in the accommodating grooves 23. The first timing belt 31 is movable in the housing groove 23 to perform the left and right movement of the first nozzle unit 5.

The first yarn nozzle assembly 5 comprises a first straight yarn nozzle 5a and a first inclined yarn nozzle 5b, wherein the first inclined yarn nozzle 5b comprises a first black holder 51, a first panel 52 arranged on one side of the first black holder 51, a first belt clamping group 53 arranged on the first panel 52, a first yarn nozzle 54 connected with the first panel 52, a first connecting piece 55 arranged between the first black holder 51 and the first panel 52, a U-shaped fixture block 56 arranged on the first connecting piece 55, a threading nozzle 57 connected with the bottom of the first connecting piece 55, and a yarn nozzle spring unit 58 arranged at the bottom of the first black holder 51, and the U-shaped fixture block 56 is connected with the cam rod 4. The U-shaped latch 56 is connected to the cam rod 4, so that when the cam rod 4 swings to the side with a smaller diameter, the first connecting piece 55 and the thread passing nozzle 57 swing up and down to realize lifting. The structure of the first straight thread nozzle 5a is similar to that of the first inclined thread nozzle 5b, and only the angles of the first thread nozzle 54, the first connecting piece 55 and the thread passing nozzle 57 are different, and will not be described in detail.

A first porcelain tube mounting seat 59 is arranged in the middle of the first yarn nozzle 54, and first porcelain tubes 591 are arranged at two ends of the first porcelain tube mounting seat 59.

The yarn feeder spring unit 58 comprises a base 581 connected with the bottom of the first wusi seat 51, a spring seat 582 arranged between the first wusi seat 51 and the base 581, a mounting rod 583 arranged in the spring seat 582, and a yarn feeder spring 584 sleeved on the mounting rod 583.

The second yarn nozzle assembly 6 comprises a second straight yarn nozzle 6a and a second inclined yarn nozzle 6b, the second inclined yarn nozzle 6b comprises a second Uss seat 61, a second panel 62 arranged on one side of the second Uss seat 61, a second connecting piece 63 arranged between the second Uss seat 61 and the second panel 62, a second yarn nozzle 64 connected with the bottom of the second connecting piece 63, a yarn nozzle spring unit 65 arranged on the bottom of the second Uss seat 61, a second porcelain tube mounting seat 66 arranged in the middle of the second connecting piece 63, second porcelain tubes 67 arranged at two ends of the second porcelain tube mounting seat 66 and two adjusting clamping blocks 68 arranged at the top of the second Uss seat 61. The second straight yarn feeder 6a has a structure similar to that of the second oblique yarn feeder 6b, and only the angles of the second yarn feeder 64 and the second connecting piece 63 are different, which will not be described in detail.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above examples are only for illustrating the technical idea and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the content of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. The utility model provides a yarn mouth device is run to hybrid intelligence which characterized in that: the yarn feeding device comprises a top rod seat, a top rod group arranged on the top rod seat, a driven belt wheel assembly arranged in the top rod group, a cam rod arranged below the top rod group, a lifting motor arranged outside the top rod seat and used for driving the cam rod to rotate and swing, a first yarn nozzle assembly arranged on the top rod group and driven by the driven belt wheel assembly to move left and right along the top rod group, and a second yarn nozzle assembly arranged on the top rod group; the cam rod is connected with the top rod group through a connecting seat, and the first yarn nozzle assembly is connected with the cam rod.

2. The hybrid intelligent yarn runner device of claim 1, wherein: the sky pole group includes outer sky pole and sets up in at least two of outer sky pole are from running sky pole.

3. The hybrid intelligent yarn runner device of claim 2, wherein: the driven belt wheel assembly is arranged between the adjacent self-running top rods and the outer top rods.

4. The hybrid intelligent yarn runner device of claim 2, wherein: the driven pulley assembly comprises a first synchronous belt arranged in the crown bar group, a motor mounting seat arranged at the outer end of the crown bar seat, a driven pulley unit arranged at the top of the motor mounting seat, a driving pulley, a second synchronous belt tensioned on the driven pulley unit and the driving pulley, and a translation motor arranged at the bottom of the motor mounting seat and used for driving the driving pulley to rotate.

5. The hybrid intelligent yarn runner device of claim 4, wherein: the belt wheel driving device comprises a motor mounting seat, a driven belt wheel unit, a second synchronous belt and a first synchronous belt, wherein the motor mounting seat is arranged on the upper portion of the belt wheel unit, the motor mounting seat is arranged on the lower portion of the belt wheel unit, the driven belt wheel unit comprises deep groove ball bearings arranged in the motor mounting seat and the connecting plate, belt wheel shafts arranged in the two deep groove ball bearings, an upper driven wheel and a lower driven wheel arranged on the belt wheel shafts, the upper driven wheel is in transmission connection with the second synchronous belt, and the lower driven wheel is in transmission connection with the first synchronous belt.

6. The hybrid intelligent yarn runner device of claim 4, wherein: the two sides of the self-running pole are respectively provided with an accommodating groove along the length direction, and the first synchronous belt is positioned in the accommodating grooves.

7. The hybrid intelligent yarn runner device of claim 1, wherein: first yarn mouth subassembly includes first straight yarn mouth and first oblique yarn mouth, first oblique yarn mouth include first black si seat, set up in the first panel of first black si seat one side, set up in first belt centre gripping group on the first panel, with first yarn mouth that the first panel links to each other, set up in first black si seat with first connecting piece between the first panel, set up in U type fixture block on the first connecting piece, with the threading mouth that first connecting piece bottom links to each other, set up in the yarn mouth spring unit of first black si seat bottom, U type fixture block with the cam lever links to each other.

8. The hybrid intelligent yarn runner nozzle device of claim 7, wherein: the middle part of the first yarn nozzle is provided with a first porcelain tube mounting seat, and two ends of the first porcelain tube mounting seat are provided with first porcelain tubes.

9. The hybrid intelligent yarn runner nozzle device of claim 7, wherein: the yarn mouth spring unit comprises a base connected with the bottom of the first Wusi seat, a spring seat arranged between the first Wusi seat and the base, an installation rod arranged in the spring seat and a yarn mouth spring sleeved on the installation rod.

10. The hybrid intelligent yarn runner device of claim 1, wherein: the second yarn nozzle assembly comprises a second straight yarn nozzle and a second inclined yarn nozzle, the second inclined yarn nozzle comprises a second Uss seat, a second panel arranged on one side of the second Uss seat, a second connecting piece arranged between the second Uss seat and the second panel, a second yarn nozzle connected with the bottom of the second connecting piece, a yarn nozzle spring unit arranged on the bottom of the second Uss seat, a second porcelain tube mounting seat arranged in the middle of the second connecting piece, second porcelain tubes arranged at two ends of the second porcelain tube mounting seat and two adjusting clamping blocks arranged at the top of the second Uss seat.

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