CN212450076U

CN212450076U - Yarn guide structure for textile machine

Info

Publication number: CN212450076U
Application number: CN202020983247.0U
Authority: CN
Inventors: 刘惠婷; 董嘉仪
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-02
Filing date: 2020-06-02
Publication date: 2021-02-02
Anticipated expiration: 2030-06-02

Abstract

The utility model discloses a yarn guide structure for a textile machine, which comprises a mounting base, a yarn guide roller, a yarn distribution mechanism, a first yarn guide roller, a second yarn guide roller and a height adjusting mechanism, wherein a plurality of groups of first annular guide grooves are uniformly arranged on the yarn guide roller; the first yarn guide roller and the second yarn guide roller have the same structure, a plurality of groups of second annular wire grooves are uniformly arranged on the first yarn guide roller and the second yarn guide roller, a plurality of groups of cotton yarn through holes are formed in the annular wire grooves inwards, and the cotton yarn through holes are communicated with the air suction pipeline; the yarn arranged on the yarn distribution mechanism is nested and installed on the movable part of the height adjusting mechanism after winding around the first yarn guide roller and the second yarn guide roller. The utility model discloses have the convenience and stabilize the yarn and arrange, conveniently get rid of the cotton silk, conveniently control yarn output height's beneficial effect.

Description

Yarn guide structure for textile machine

Technical Field

The utility model relates to a weaving is with relevant equipment technical field, specific yarn structure is led to weaving machine that says so.

Background

When weaving through weaving the machine, need with the stable input of multiunit yarn that arranges side by side in order to process into the cloth in weaving the machine, consequently need use the stable input of leading yarn structure control yarn, traditional leading yarn structure when handling the yarn causes the winding of knoing between the different yarns easily, and then influences placing efficiency and the quality of weaving the machine, causes the dead problem of weaving machine card even. Meanwhile, because the cotton fibers are attached to the yarns, if the cotton fibers are directly input into a textile machine for spinning, a large amount of textile dust is easily generated, and the working environment is influenced; and traditional yarn guide structure need adjust through the manpower when the height in the control yarn input weaving machine, and this kind of processing mode is not only inefficiency, still produces the regulation error easily.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned weak point that exists among the prior art, the utility model aims at providing a yarn guide structure of weaving machine that conveniently arranges, conveniently gets rid of the cotton silk, conveniently controls yarn output height steadily to the yarn.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: a yarn guide structure for a textile machine comprises a mounting base, a yarn arranging roller, a yarn distributing mechanism, a first yarn guide roller, a second yarn guide roller and a height adjusting mechanism, wherein the yarn arranging roller is mounted on the mounting base in a relative rotating mode, a plurality of groups of first annular guide grooves are uniformly arranged on the yarn arranging roller, and each yarn respectively bypasses the corresponding first annular guide groove and is fixedly connected to the yarn distributing mechanism; the yarn distribution mechanism comprises a yarn distribution rod, through wire guide holes uniformly formed in the radial direction of the yarn distribution rod, and clamping joints clamped with yarn ends, wherein each yarn penetrates through the corresponding through wire guide hole of the tube and is fixedly connected to the clamping joints, and the clamping joints are nested and clamped at the through wire guide holes;

the first yarn guide roller and the second yarn guide roller are arranged on the mounting base side by side in a relative rotation mode, the first yarn guide roller and the second yarn guide roller are identical in structure and are uniformly provided with a plurality of groups of second annular wire grooves, a plurality of groups of cotton silk through holes are formed in each group of annular wire grooves inwards, each group of cotton silk through holes are communicated with an air suction pipeline arranged inside the corresponding first yarn guide roller or second yarn guide roller, and the air suction pipeline is communicated with an air suction pump through the corresponding first yarn guide roller or second yarn guide roller; the yarns arranged on the yarn distribution mechanism are wound from the bottom side or the top side of the first yarn guide roller and wound from the top side or the bottom side of the second yarn guide roller, the yarn distribution mechanism is nested on the movable part of the height adjusting mechanism, and each yarn is respectively arranged in the corresponding second annular guide groove.

Furthermore, be provided with first joint seat between yarn arranging roller and the first yarn guide roller, first joint seat fixed mounting is on the mounting base, and first joint seat with the both ends of wiring pole correspond nested joint.

Furthermore, the mounting bearings are fixedly connected with the positions, corresponding to the yarn arranging roller, the first yarn guide roller and the second yarn guide roller, of the mounting base, and the yarn arranging roller, the first yarn guide roller and the second yarn guide roller are respectively embedded and mounted in the corresponding mounting bearings in a relative rotating mode.

Furthermore, the shaft ends of the first yarn guide roller and the second yarn guide roller are respectively provided with a communicating structure, the communicating structures comprise a first annular communicating structure and a second annular communicating structure, annular communicating grooves are formed in the first annular communicating structure and the second annular communicating structure, the first annular communicating structure is fixedly connected to the corresponding mounting bearing, the second annular communicating structure is nested and mounted on the corresponding first annular communicating structure in a relative rotating mode, the annular communicating grooves of the first annular communicating structure and the second annular communicating structure are nested relatively to form a communicating passage, the air pumping pipeline is fixedly connected with the second annular communicating structure and communicated with the annular communicating grooves, the annular communicating grooves in the second annular communicating structure are communicated with a connecting pipe, and the connecting pipe is provided with the air pumping pump in a matched mode.

Further, the height adjusting mechanism includes: the mounting chutes are vertically arranged on two sides of the mounting base, the adjusting screw rods are vertically nested in the mounting chutes in a relative rotating mode, the second clamping seats are nested in the mounting chutes on two sides in a relative sliding mode and are screwed with the corresponding adjusting screw rods, and the driving mechanism is in power connection with the adjusting screw rods; the second clamping seat is correspondingly nested and clamped with the two ends of the wiring rod.

Furthermore, two groups of adjusting screw rods are arranged in the mounting sliding groove on each side, each group of adjusting screw rods are led out from the top end of the corresponding mounting sliding groove, transmission gears are fixedly connected at the positions with the same height of the top ends of the groups of adjusting screw rods, and the transmission gears are in power connection through chains; the driving mechanism comprises a driving motor arranged at the top end of the mounting chute, a first change gear fixedly connected to a rotating shaft of the driving motor, and a second change gear fixedly connected to the top end of one group of adjusting screw rods, and the first change gear is in meshed connection with the second change gear.

The utility model has the advantages that: the yarns are arranged on the yarn distribution mechanism in a matching manner, and the yarn distribution mechanism drives all the yarns to be uniformly wound on the first yarn guide roller and the second yarn guide roller, so that the yarns are conveniently and uniformly arranged;

in the process that the yarn enters the textile machine to be woven, the textile machine continuously takes in the yarn, the first yarn guide roller and the second yarn guide roller are driven to rotate, the yarn is in close contact with the cotton silk through hole, the yarn and the second annular guide groove move relatively, cotton silk attached to the yarn is sucked into the cotton silk through hole, the cotton silk is discharged from the air suction pipeline through the air suction pump, and the cotton silk is conveniently removed;

and controlling the driving motor to work to drive the second clamping seat to move up and down along the mounting chute, so that the height of the led-out yarn is adjusted.

Drawings

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

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

FIG. 3 is an enlarged detail view of the portion B of FIG. 1;

fig. 4 is a schematic front view of the structure of the present invention.

In the figure: the automatic yarn feeding device comprises a mounting base 1, a yarn arranging roller 2, a yarn distributing mechanism 3, a first yarn guiding roller 4, a second yarn guiding roller 5, a first annular wire guiding groove 6, a yarn distributing rod 7, a thread guiding hole 8, a clamping joint 9, a second annular wire guiding groove 10, a cotton silk through hole 11, an air suction pipeline 12, a first clamping seat 13, a mounting bearing 14, a first annular communicating structure 15, a second annular communicating structure 16, an annular communicating groove 17, a connecting pipe 18, a mounting sliding groove 19, an adjusting screw rod 20, a second clamping seat 21, a driving motor 22 and yarns 23.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, a yarn guiding structure for a textile machine includes an installation base 1, a yarn arranging roller 2, a yarn distributing mechanism 3, a first yarn guiding roller 4, a second yarn guiding roller 5, and a height adjusting mechanism, wherein the yarn arranging roller 2 is installed on the installation base 1 in a relative rotation manner, a plurality of groups of first annular guiding grooves 6 are uniformly arranged on the yarn arranging roller 2, and each yarn 23 is fixedly connected to the yarn distributing mechanism 3 by bypassing the corresponding first annular guiding groove 6; the yarn distribution mechanism 3 comprises a wiring rod 7, through line guide holes 8 uniformly formed along the radial direction of the wiring rod 7 and a clamping joint 9 clamped with the ends of the yarns 23, each yarn 23 penetrates through the corresponding through line guide hole 8 and is fixedly connected to the clamping joint 9, and the clamping joint 9 is nested and clamped at the through line guide hole 8;

the first yarn guide roller 4 and the second yarn guide roller 5 are arranged on the mounting base 1 side by side in a relative rotation mode, the first yarn guide roller 4 and the second yarn guide roller 5 are identical in structure and are uniformly provided with a plurality of groups of second annular wire guide grooves 10, a plurality of groups of cotton silk through holes 11 are formed in each group of annular wire guide grooves inwards, each group of cotton silk through holes 11 are communicated with an air suction pipeline 12 arranged inside the corresponding first yarn guide roller 4 or second yarn guide roller 5, and the air suction pipeline 12 is communicated with an air suction pump through the corresponding first yarn guide roller 4 or second yarn guide roller 5; the yarns 23 arranged on the yarn distribution mechanism 3 are wound from the bottom side or the top side of the first yarn guide roller 4 and from the top side or the bottom side of the second yarn guide roller 5, and the yarn distribution mechanism 3 is nested on the movable part of the height adjusting mechanism, and each yarn 23 is respectively arranged in the corresponding second annular guide groove 10.

In the utility model, a first clamping seat 13 is arranged between the yarn arranging roller 2 and the first yarn guide roller 4, the first clamping seat 13 is fixedly arranged on the mounting base 1, and the first clamping seat 13 corresponds to the two ends of the yarn distributing rod 7 to be clamped in a nesting manner, when the yarns 23 are arranged, the yarn distributing rod 7 is clamped in the first clamping seat 13 in a nesting manner, each group of yarns 23 respectively bypasses the corresponding first annular guide groove 6, the yarns 23 are inserted into the corresponding through wire guide holes 8 and are fixedly clamped with the clamping heads 9, and the arrangement of the first clamping seat 13 is convenient for the yarns 23 to pass through the through wire guide holes 8 and be fixedly clamped with the clamping heads 9;

the mounting bearings 14 are fixedly connected to the positions, corresponding to the yarn arranging roller 2, the first yarn guide roller 4 and the second yarn guide roller 5, of the mounting base 1, and the yarn arranging roller 2, the first yarn guide roller 4 and the second yarn guide roller 5 are respectively embedded in the corresponding mounting bearings 14 in a relative rotation mode, so that the stable mounting of the yarn arranging roller 2, the first yarn guide roller 4 and the second yarn guide roller 5 is ensured;

the shaft end positions of the first yarn guide roller 4 and the second yarn guide roller 5 are both provided with a communicating structure, the communicating structure comprises a first annular communicating structure 15 and a second annular communicating structure 16, annular communicating grooves 17 are respectively arranged in the first annular communicating structure 15 and the second annular communicating structure 16, the first annular communicating structure 15 is fixedly connected on a corresponding mounting bearing 14, the second annular communicating structure 16 is nested on the corresponding first annular communicating structure 15 in a relative rotating mode, the annular communicating grooves 17 of the first annular communicating structure 15 and the second annular communicating structure 16 are nested relatively to form a communicating passage, the air pumping pipeline 12 is fixedly connected with the second annular communicating structure 16 and communicated with the annular communicating groove 17, the annular communicating groove 17 in the second annular communicating structure 16 is communicated with a connecting pipe 18, and an air pumping pump is arranged on the connecting pipe 18 in a matching mode to ensure the stable communication between the air pumping pipeline 12 and the air pumping pump, the situation that the corresponding air suction pipeline 12 is driven to rotate and cannot be stably communicated with an air suction pump when the first yarn guide roller 4 and the second yarn guide roller 5 rotate is avoided;

the height adjustment mechanism includes: the mounting chutes 19 are vertically arranged at two sides of the mounting base 1, the adjusting screw rods 20 are vertically nested in the mounting chutes 19 in a relative rotating mode, the second clamping seats 21 are nested in the mounting chutes 19 at two sides in a relative sliding mode and are screwed with the corresponding adjusting screw rods 20, and the driving mechanism is in power connection with the adjusting screw rods 20; the second clamping seat 21 is correspondingly nested and clamped with two ends of the wiring rod 7; two groups of adjusting screw rods 20 are arranged in each side mounting chute 19, each group of adjusting screw rods 20 are led out from the top end of the corresponding mounting chute 19, transmission gears are fixedly connected at the same height positions of the top ends of the groups of adjusting screw rods 20, and the transmission gears are connected through chain power; the driving mechanism comprises a driving motor 22 installed at the top end of the installation chute 19, a first change gear fixedly connected to a rotating shaft of the driving motor 22 and a second change gear fixedly connected to the top end of one group of adjusting screw rods 20, the first change gear is meshed with the second change gear, the first change gear and the second change gear are driven to rotate by controlling the driving motor 22 to work, each group of adjusting screw rods 20 are further driven to rotate, the adjusting screw rods 20 rotate to drive the second clamping seats 21 to move up and down along the installation chute 19, and the height of the passing yarns 23 is adjusted.

The utility model discloses a theory of operation is: when in use, when the yarns 23 are arranged, the wiring rods 7 are nested and clamped in the first clamping seats 13, the yarns 23 of each group are respectively wound around the corresponding first annular guide grooves 6, and the yarns 23 are inserted into the corresponding through guide holes 8 and fixedly clamped with the clamping joints 9;

the yarn 23 arranged on the yarn distribution mechanism 3 bypasses from the bottom side or the top side of the first yarn guide roller 4 and bypasses from the top side or the bottom side of the second yarn guide roller 5, and the yarn distribution mechanism 3 is fixedly clamped on the second clamping seat 21; leading the yarns 23 with the end parts of the groups of connectors fixed into a textile machine for spinning; the driving motor 22 is controlled to work to drive the first change gear and the second change gear to rotate, so that each group of adjusting screw rods 20 are driven to rotate, the adjusting screw rods 20 rotate to drive the second clamping seats 21 to move up and down along the mounting sliding grooves 19, and the height of the discharged yarns 23 is adjusted;

in the process that the yarn 23 enters the textile machine to be woven, the textile machine continuously takes in the yarn 23 to drive the first yarn guide roller 4 and the second yarn guide roller 5 to rotate, and because the yarn 23 is in close contact with the cotton silk through hole 11, the yarn 23 and the second annular guide groove 10 move relatively to suck the cotton silk attached to the yarn 23 into the cotton silk through hole 11, and the cotton silk is discharged from the air suction pipeline 12 through the air suction pump, so that the effect of removing the cotton silk is realized.

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 yarn guide structure of weaving machine which characterized in that: the yarn arranging device comprises a mounting base (1), a yarn arranging roller (2), a yarn distributing mechanism (3), a first yarn guiding roller (4), a second yarn guiding roller (5) and a height adjusting mechanism, wherein the yarn arranging roller (2) is mounted on the mounting base (1) in a relative rotating mode, a plurality of groups of first annular guide grooves (6) are uniformly arranged on the yarn arranging roller (2), and each yarn (23) respectively bypasses the corresponding first annular guide groove (6) and is fixedly connected to the yarn distributing mechanism (3); the yarn distribution mechanism (3) comprises a yarn distribution rod (7), yarn through guide holes (8) uniformly formed in the radial direction of the yarn distribution rod (7), and clamping joints (9) clamped with the ends of the yarns (23), wherein each yarn (23) penetrates through the corresponding yarn through guide hole (8) and is fixedly connected to the clamping joint (9), and the clamping joints (9) are nested and clamped at the yarn through guide holes (8);

the first yarn guide roller (4) and the second yarn guide roller (5) are arranged on the mounting base (1) side by side in a relative rotating mode, the first yarn guide roller (4) and the second yarn guide roller (5) are identical in structure, a plurality of groups of second annular wire guide grooves (10) are uniformly arranged on the first yarn guide roller and the second yarn guide roller, a plurality of groups of cotton silk through holes (11) are formed in each group of annular wire guide grooves towards the inner side, each group of cotton silk through holes (11) are communicated with an air suction pipeline (12) arranged inside the corresponding first yarn guide roller (4) or second yarn guide roller (5), and the air suction pipeline (12) is communicated with an air suction pump through the corresponding first yarn guide roller (4) or second yarn guide roller (5); the yarns (23) arranged on the yarn distribution mechanism (3) bypass from the bottom side or the top side of the first yarn guide roller (4) and bypass from the top side or the bottom side of the second yarn guide roller (5), the yarn distribution mechanism (3) is nested on the movable part of the height adjusting mechanism, and each yarn (23) is respectively arranged in the corresponding second annular guide groove (10).

2. The yarn guide structure for textile machines of claim 1, characterized in that: arrange and be provided with first joint seat (13) between yarn roller (2) and first yarn guide roller (4), first joint seat (13) fixed mounting is on mounting base (1), and first joint seat (13) with the both ends of wiring pole (7) correspond nested joint.

3. The yarn guide structure for textile machines of claim 1, characterized in that: the mounting base (1) is provided with mounting bearings (14) which are fixedly connected with the corresponding positions of the yarn arranging roller (2), the first yarn guide roller (4) and the second yarn guide roller (5), and the yarn arranging roller (2), the first yarn guide roller (4) and the second yarn guide roller (5) are respectively embedded and mounted in the corresponding mounting bearings (14) in a relative rotating mode.

4. A yarn guide structure for textile machines as claimed in claim 3, characterized in that: the yarn guide device is characterized in that the shaft end positions of the first yarn guide roller (4) and the second yarn guide roller (5) are respectively provided with a communication structure, each communication structure comprises a first annular communication structure (15) and a second annular communication structure (16), annular communication grooves (17) are formed in the first annular communication structure (15) and the second annular communication structure (16), the first annular communication structures (15) are fixedly connected to the corresponding mounting bearings (14), the second annular communication structures (16) are nested and mounted on the corresponding first annular communication structures (15) in a relative rotating mode, the annular communication grooves (17) of the first annular communication structures (15) and the second annular communication structures (16) are nested and formed into a communication passage, the air suction pipeline (12) is fixedly connected with the second annular communication structures (16) and communicated with the annular communication grooves (17) in the second annular communication structures (16), the annular communication grooves (17) in the second annular communication structures (16) are communicated with a connecting pipe (18), and the connecting pipe (18) is arranged on the connecting pipe (18) in a matched mode The air pump is arranged.

5. The yarn guide structure for textile machines of claim 1, characterized in that: the height adjustment mechanism includes: the mounting chutes (19) are vertically arranged on two sides of the mounting base (1), the adjusting screw rods (20) are vertically nested and mounted in the mounting chutes (19) in a relative rotating mode, the second clamping seats (21) are nested and mounted in the mounting chutes (19) on two sides in a relative sliding mode and are screwed with the corresponding adjusting screw rods (20), and the driving mechanism is in power connection with the adjusting screw rods (20); the second clamping seat (21) is correspondingly nested and clamped with the two ends of the wiring rod (7).

6. The yarn guide structure for textile machines of claim 5, characterized in that: two groups of adjusting screw rods (20) are arranged in each side of the mounting sliding groove (19), each group of adjusting screw rods (20) are led out from the top end of the corresponding mounting sliding groove (19), transmission gears are fixedly connected at the positions with the same height of the top ends of the groups of adjusting screw rods (20), and the transmission gears are in power connection through chains; the driving mechanism comprises a driving motor (22) arranged at the top end of the mounting chute (19), a first change gear fixedly connected to a rotating shaft of the driving motor (22), and a second change gear fixedly connected to the top end of one group of adjusting screw rods (20), and the first change gear is in meshed connection with the second change gear.