CN211872198U - Fancy grey silk generating equipment - Google Patents

Abstract

The utility model provides a flower formula ash silk generates equipment belongs to textile sector. The wire separating device comprises a wire separating block, wherein at least two wire separating holes are formed in the wire separating block in a penetrating mode, each wire separating hole corresponds to one winding plate, a tension roller component capable of adjusting tension is arranged on each winding plate, a transverse moving plate which is arranged on each winding plate and can move back and forth along the corresponding winding plate in a reciprocating mode is arranged on one side, far away from the wire separating holes, of each tension roller component, and a rotating winding shaft is arranged on each transverse moving plate. The utility model discloses an advantage lies in changing the position that grey silk orientation corresponds the winding axle of being qualified for the next round of competitions through winding axle reciprocating motion all around, prevents grey silk wearing and tearing, and adjusts the tension size of twisted silk through tension roller part, prevents that twisted silk is too tight or too loose winding on the winding axle.

Description

Fancy grey silk generating equipment

Technical Field

The utility model belongs to the textile sector especially relates to a flower formula ash silk generates equipment.

Background

In the prior art, the hemp ash wire is usually arranged in a movable positioning block in a penetrating mode, the hemp ash wire is wound on a winding shaft layer by moving the positioning block back and forth, the hemp ash wire is continuously pushed and rubbed by the positioning block due to the fact that the position of the positioning block is continuously changed, the hemp ash wire is seriously abraded, the product quality is seriously affected, in addition, the hemp ash wire is made of nylon fibers, the nylon fibers have elasticity, when the hemp ash wire is wound on a winding drum, the hemp ash wire can not be wound on the winding drum in a loose mode, the tensile strength of the hemp ash wire cannot be too high, the hemp ash wire has high residual shrinkage due to the fact that the tensile strength is too high, and the package quality is easily deteriorated.

For example, chinese patent document discloses an elastic fiber winding machine [ patent application No.: [ CN201620294503.9], it includes elastic fiber spinning machine, elastic fiber, first thread guide device, second thread guide device, winding roller, feed roller, touch roller, transversing godet roller, elastic fiber spinning machine goes out the elastic fiber below and is provided with first thread guide device to and still be provided with second thread guide device in the direction of elastic fiber transmission, second thread guide device below is provided with winding roller, be provided with feed roller and touch roller on the winding roller, winding roller with be provided with transversing godet roller between the second thread guide device. The utility model discloses an elastic fiber winder, through the structure of the first wire device of special setting, second wire device, can reduce elastic fiber at the stretching force of coiling in-process, be favorable to improving elastic fiber's coiling quality. However, the device has many rollers and is too complicated in structure.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, provide a flower formula ash silk generates equipment.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a flower type grey silk of sesame production equipment, includes the branch silk piece, the branch silk piece on wear to be equipped with two branch silk holes at least, every branch silk hole corresponds a winding board, the winding board on be provided with and to adjust tensile tension roller component, one side that tension roller component kept away from the branch silk hole have the setting on the winding board and can be along the winding board reciprocating motion's sideslip board, the sideslip board on be equipped with pivoted winding axle.

In the fancy gray yarn generating device, the tension roller component comprises two positioning wheels arranged on the winding plate, and a tension wheel capable of reciprocating along the front and back directions of the winding plate is arranged between the two positioning wheels.

In the fancy gray silk generating device, the two positioning wheels are symmetrically arranged, and the moving path of the tension wheel is perpendicular to the connecting line between the two positioning wheels and is positioned on the perpendicular bisector of the connecting line.

In the fancy gray fiber generation device, a first chute is arranged in the winding plate, a first rotating motor is arranged on the inner wall of the first chute, a sliding block movably connected with the first chute is connected to an output shaft of the first rotating motor in a threaded manner, and the tension wheel rotates on the sliding block.

In the fancy gray yarn generating device, two yarn threading blocks arranged on the winding plate are arranged between the tension pulley and the winding shaft, the two yarn threading blocks are arranged oppositely, and yarn threading holes are arranged in the two yarn threading blocks in a penetrating manner.

In the fancy gray yarn generating device, the center line of the yarn threading hole is tangent to the bottom end of the positioning wheel, and the center line of the yarn threading hole is tangent to the front end face of the winding shaft or is close to the front end face of the winding shaft.

In the fancy gray silk generating device, the winding plate is fixedly provided with two adjusting blocks which are in one-to-one correspondence with the silk threading blocks, the silk threading blocks can reciprocate back and forth along the corresponding adjusting blocks, and adjusting springs are connected between the silk threading blocks and the corresponding adjusting blocks.

In the fancy flay grey yarn generating device, each threading block extends out of the corresponding adjusting block and is abutted against the other threading block, the end part of the threading hole close to the winding shaft is horn-shaped, and the inner wall of the threading hole is smoothly arranged.

In the fancy gray silk generating device, the distance between the plurality of silk dividing holes gradually increases along the direction close to the winding plate, two bent angles with radian are arranged in the silk dividing holes, the outlets of the silk dividing holes are tangent to the bottom ends of the positioning wheels, and the inlets and the outlets of the silk dividing holes are arranged in parallel.

In the fancy gray fiber generating device, a second chute is arranged in the winding plate, a transverse moving driver is arranged on the inner wall of the second chute, an output shaft of the transverse moving driver is connected with the transverse moving plate, and the transverse moving plate is provided with a second rotating motor connected with the winding shaft.

Compared with the prior art, the utility model has the advantages of:

1. the utility model discloses a well be equipped with can adjust tensile tension gyro wheel part and can change the position that the grey silk of hemp was qualified for the next round of competitions orientation corresponds the winding axle through winding axle reciprocating motion all around and pivoted winding axle along the winding board to make grey silk twine layer upon layer on the winding axle, prevent grey silk wearing and tearing, and adjust the tension size of twisted silk through tension gyro wheel part, prevent twisted silk tension or too loose winding epaxial in the winding.

2. The utility model discloses a connecting wire between the removal route of well tension pulley and two locating pulleys is and places perpendicularly and be located the middle plumb line of this connecting wire, can evenly stretch the tension of the twisted silk of tension pulley both sides, prevents that the twisted silk part between tension pulley and the locating pulley that is closer apart from receiving great power of dragging, leads to disconnected silk easily.

Drawings

Fig. 1 is an overall schematic view of the present invention;

FIG. 2 is a front view of a winding plate;

FIG. 3 is a side view of the position of the feed-through hole of FIG. 2;

fig. 4 is a schematic view of a winding shaft being wound.

In the figure: the device comprises a wire dividing block 10, a wire dividing hole 11, a winding plate 12, a tension roller component 13, a transverse moving plate 14, a winding shaft 15, a positioning wheel 16, a tension wheel 17, a first sliding groove 18, a first rotating motor 19, a sliding block 20, a wire penetrating block 21, a wire penetrating hole 22, an adjusting block 23, an adjusting spring 24, a second sliding groove 25, a transverse moving driver 26 and a second rotating motor 27.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-4, a flower-type gray fiber producing apparatus includes a fiber dividing block 10, at least two fiber dividing holes 11 are formed in the fiber dividing block 10, each fiber dividing hole 11 corresponds to a winding plate 12, a tension roller member 13 capable of adjusting tension is disposed on the winding plate 12, a traverse plate 14 disposed on the winding plate 12 and capable of reciprocating back and forth along the winding plate 12 is disposed on a side of the tension roller member 13 away from the fiber dividing holes 11, and a rotating winding shaft 15 is disposed on the traverse plate 14.

After the gray fiber is made, the gray fiber needs to be wound on the winding shaft 15, and in the winding process, the gray fiber needs to be moved back and forth along the winding shaft 15 to wind the gray fiber on the winding shaft 15 layer by layer, in the prior art, the gray fiber is usually arranged on a movable positioning block in a penetrating way, the gray fiber is wound on the winding shaft 15 layer by moving the positioning block back and forth, but the gray fiber is continuously extruded and pushed and rubbed by the positioning block by continuously changing the position of the positioning block, so that the product quality is seriously influenced by the abrasion of the gray fiber, therefore, in the utility model, the outlet direction of the gray fiber is always unchanged by passing through the tension roller part 13, the horizontal direction of the gray fiber is always kept layer by layer, the transverse moving plate 14 drives the shaft 15 to move back and forth to change the outlet direction of the gray fiber corresponding to the winding shaft 15, so that the gray fiber is wound on the winding shaft 15, prevent the wearing and tearing of numb grey silk, because the material of numb grey silk is the polyamide fibre in addition, the polyamide fibre has elasticity, when winding numb grey silk on the reel, can not let the lax coiling of numb grey silk on the reel, also can not make numb grey silk too big by tensile intensity, tensile intensity too big can lead to the numb grey silk to have higher residual shrink, leads to the package quality to worsen easily, consequently the utility model discloses in, tension roller part 13 can also adjust the tension size of numb silk except the effect of direction, prevents that the numb grey silk is too tight or too loose to wind on winding shaft 15.

The tension roller assembly 13 includes two positioning wheels 16 disposed on the winding plate 12, and a tension roller 17 capable of reciprocating in a front-rear direction of the winding plate 12 is disposed between the two positioning wheels 16.

The utility model discloses in, first locating wheel 16 is walked around in proper order to the twist, tension pulley 17 and second locating wheel 16, locating wheel 16 plays the effect of direction, be equipped with pressure sensor on tension pulley 17, can sense the pressure that tensile twist is used in tension pulley 17, when the tension of twist is too little, make tension pulley 17 move forward towards the direction of keeping away from locating wheel 16, thereby pull the twist, make the tension grow of twist, when the tension of twist is too big, make tension pulley 17 move in the opposite direction.

The two positioning wheels 16 are symmetrically arranged, and the moving path of the tension wheel 17 is perpendicular to the connecting line between the two positioning wheels 16 and is positioned on the perpendicular bisector of the connecting line.

The utility model discloses in, can evenly stretch the tension of the twisted yarn of tension pulley 17 both sides, if the removal route of tension pulley 17 is not when on the perpendicular bisector of connecting wire between two locating pulleys 16, when keeping away from locating pulley 16 at tension pulley 17 and remove tensile twisted yarn, tension pulley 17 receives great power of dragging with apart from the twisted yarn part between the more nearly locating pulley 16, leads to disconnected silk easily.

A first chute 18 is arranged in the winding plate 12, a first rotating motor 19 is arranged on the inner wall of the first chute 18, a sliding block 20 movably connected with the first chute 18 is screwed on an output shaft of the first rotating motor 19, and the tension pulley 17 rotates on the sliding block 20.

The utility model discloses in, when the tension that needs remove tension pulley 17 and change the grey silk of sesame, the work of first rotating motor 19 makes its output shaft rotate, because slider 20 and first rotating motor 19's output shaft spiro union to make slider 20 take tension pulley 17 to slide around in first spout 18, compare in cylinder or hydro-cylinder, adopt the tension that the mode of spiro union can more accurate control the grey silk of sesame, prevent the broken end of the grey silk of sesame.

Two threading blocks 21 arranged on the winding plate 12 are arranged between the tension pulley 17 and the winding shaft 15, the two threading blocks 21 are arranged oppositely, and threading holes 22 are arranged in the two threading blocks 21 in a penetrating way.

The utility model discloses in, twine again to winding shaft 15 in penetrating the threading hole 22 from the twisted silk that locating wheel 16 was out of wind, at the in-process of high-speed transmission, prevent that the twisted silk from beating, influence the twisted silk winding process of opposite side.

The central line of the wire-passing hole 22 is tangent to the bottom end of the positioning wheel 16, and the central line of the wire-passing hole 22 is tangent to the front side end face of the winding shaft 15 or close to the front side end face of the winding shaft 15.

The utility model discloses in, in order to reduce the friction between twisted silk and the threading hole 22, and keep the path that the twisted silk transmitted to winding axle 15 level and smooth, make the central line of threading hole 22 tangent with locating wheel 16 bottom, make the central line of threading hole 22 tangent or be close to the front side terminal surface of winding axle 15 with the front side terminal surface of winding axle 15, the direction of being qualified for the next round of competitions of twisted silk that winds out from locating wheel 16 is tangent with winding axle 15, and move forward to on the side terminal surface of winding axle 15.

The winding plate 12 is fixedly provided with two adjusting blocks 23 which are in one-to-one correspondence with the threading blocks 21, the threading blocks 21 can reciprocate back and forth along the corresponding adjusting blocks 23, and adjusting springs 24 are connected between the threading blocks 21 and the corresponding adjusting blocks 23.

The utility model discloses in, although the direction of being qualified for the next round of competitions of the twisted silk that winds out from locating wheel 16 is tangent with winding axle 15, and move forward to winding axle 15 on the side end face, and make the twisted silk twine to winding axle 15 through winding axle 15 back-and-forth movement, but when the twisted silk lasts continuous winding on winding axle 15, because winding axle 15's removal, the twisted silk part that the step is twining can be dragged to the former section twisted silk at winding axle 15, have a power forward or backward, offset through adjusting spring 24, prevent tightly pasting on threading hole 22 inner wall and by wearing and tearing of twisted silk.

Each threading block 21 extends out of a corresponding adjusting block 23 and abuts against the other threading block 21, the end part of the threading hole 22 close to the winding shaft 15 is horn-shaped, and the inner wall of the threading hole 22 is smoothly arranged.

The utility model discloses in, winding shaft 15's removal, preceding one section winding is at winding shaft 15's twist silk can be dragged the twist silk part that is carrying out the winding step, has a power forward or backward, can make the twist silk paste on threading hole 22 inner wall to slightly change the moving direction of twist silk, threading hole 22 tip is the loudspeaker form and prevents to have the water caltrop to cut off the twist silk.

The distance between a plurality of branch silk hole 11 is along the direction grow gradually that is close to winding plate 12, branch silk hole 11 in be equipped with two bent angles that have the radian, the export of branch silk hole 11 tangent with the bottom of locating wheel 16, just the import and the export parallel arrangement of branch silk hole 11.

The utility model discloses in, make the inlet wire of twisted silk unanimous with the direction of being qualified for the next round of competitions, help the tension of even change twisted silk.

A second sliding groove 25 is arranged in the winding plate 12, a traverse actuator 26 is arranged on the inner wall of the second sliding groove 25, the output shaft of the traverse actuator 26 is connected with the traverse plate 14, and the traverse plate 14 is provided with a second rotating motor 27 connected with the winding shaft 15.

The utility model discloses in, the second rotates motor 27 work and drives winding axle 15 and continuously rotate, and at the winding in-process, sideslip driver 26 work drive sideslip board 14 takes the 15 fore-and-aft directions of pivoted winding axle to remove, and sideslip driver 26 can be cylinder or hydro-cylinder, also can be the third and rotate the motor, and its output shaft and sideslip board 14 spiro union.

The utility model discloses a theory of operation does: the twist silk passes through the first positioning wheel 16, the tension wheel 17 and the second positioning wheel 16 in sequence, then passes through the silk threading hole to the winding shaft, the second rotating motor 27 works to drive the winding shaft 15 to rotate continuously, the transverse moving driver 26 works to drive the transverse moving plate 14 to drive the rotating winding shaft 15 to move in the front-back direction in the winding process, when the tension of the twist silk needs to be changed, the first rotating motor 19 works to enable the output shaft of the first rotating motor 19 to rotate, and the sliding block 20 drives the tension wheel 17 to slide back and forth in the first sliding groove 18 due to the fact that the sliding block 20 is in threaded connection with the output shaft of the first rotating motor 19.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms of the thread dividing block 10, the thread dividing hole 11, the winding plate 12, the tension roller member 13, the traverse plate 14, the winding shaft 15, the positioning wheel 16, the tension wheel 17, the first slide groove 18, the first rotating motor 19, the slider 20, the thread passing block 21, the thread passing hole 22, the adjusting block 23, the adjusting spring 24, the second slide groove 25, the traverse actuator 26, the second rotating motor 27, etc., are used more herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The flower-type gray silk generating equipment comprises a silk dividing block (10) and is characterized in that at least two silk dividing holes (11) are formed in the silk dividing block (10) in a penetrating mode, each silk dividing hole (11) corresponds to one winding plate (12), tension roller parts (13) capable of adjusting tension are arranged on the winding plates (12), one sides, far away from the silk dividing holes (11), of the tension roller parts (13) are provided with transverse moving plates (14) which are arranged on the winding plates (12) and can move back and forth along the winding plates (12), and rotating winding shafts (15) are arranged on the transverse moving plates (14).

2. Fancy gray yarn producing apparatus as claimed in claim 1, wherein said tension roller means (13) comprises two positioning wheels (16) disposed on the winding plate (12), and a tension wheel (17) capable of reciprocating in the front-rear direction of the winding plate (12) is provided between the two positioning wheels (16).

3. Fancy gray yarn generating device according to claim 2, wherein two positioning wheels (16) are symmetrically arranged with each other, and the moving path of the tension wheel (17) is perpendicular to and on the perpendicular bisector of the connecting line between the two positioning wheels (16).

4. The fancy grey hemp yarn generating device according to claim 2 or 3, wherein a first chute (18) is arranged in the winding plate (12), a first rotating motor (19) is arranged on the inner wall of the first chute (18), a sliding block (20) movably connected with the first chute (18) is screwed on the output shaft of the first rotating motor (19), and the tension wheel (17) rotates on the sliding block (20).

5. Fancy gray yarn generating device according to claim 2, wherein two threading blocks (21) arranged on the winding plate (12) are arranged between the tension pulley (17) and the winding shaft (15), the two threading blocks (21) are arranged opposite to each other, and threading holes (22) are arranged in the two threading blocks (21).

6. The fancy flay grey yarn generating device according to claim 5, wherein the central line of the threading hole (22) is tangent to the bottom end of the positioning wheel (16), and the central line of the threading hole (22) is tangent to the front end face of the winding shaft (15) or close to the front end face of the winding shaft (15).

7. The fancy grey yarn generating device according to claim 5, wherein two adjusting blocks (23) corresponding to the threading blocks (21) one by one are fixedly arranged on the winding plate (12), the threading blocks (21) can reciprocate back and forth along the corresponding adjusting blocks (23), and an adjusting spring (24) is connected between the threading blocks (21) and the corresponding adjusting blocks (23).

8. The fancy flay grey yarn generating device according to claim 7, wherein each threading block (21) extends out of the corresponding adjusting block (23) and is abutted against the other threading block (21), the end part of the threading hole (22) close to the winding shaft (15) is in a trumpet shape, and the inner wall of the threading hole (22) is smoothly arranged.

9. Fancy gray yarn generating device according to claim 2, wherein the distance between a plurality of yarn dividing holes (11) is gradually increased along the direction close to the winding plate (12), two arc-shaped bending angles are arranged in the yarn dividing holes (11), the outlet of the yarn dividing holes (11) is tangent to the bottom end of the positioning wheel (16), and the inlet and the outlet of the yarn dividing holes (11) are arranged in parallel.

10. Fancy gray yarn generating apparatus as claimed in claim 1, wherein a second chute (25) is provided in said winding plate (12), a traverse actuator (26) is provided on an inner wall of said second chute (25), an output shaft of said traverse actuator (26) is connected to said traverse plate (14), and said traverse plate (14) is provided with a second rotating motor (27) connected to said winding shaft (15).

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