CN113584616B - Double-acting sliding rail cross pre-drafting winding device and method - Google Patents

Abstract

The invention discloses a double-acting sliding rail cross pre-drafting winding device and a double-acting sliding rail cross pre-drafting winding method, relates to the technical field of textile machinery, and solves the technical problems of high labor intensity, long process time and model matching limitation in the related art. The oil homogenizing mechanism comprises an upper guide disc, a lower guide disc, a support, a first support arm, a second support arm, a slide rail, a first movable part, a second support arm, a lower guide disc and a linkage rod. The lower guide disc is hung only by hanging the lower guide disc, and then the lower guide disc is hung by the linkage of the first support arm and the second support arm.

Description

Double-acting sliding rail cross pre-drafting winding device and method

Technical Field

The invention relates to the technical field of textile machinery, in particular to a double-acting sliding rail cross pre-drafting winding device and method.

Background

At present, the POY type without an operation platform using a guide disc mostly adopts a type of a fixed guide disc and a movable guide disc, the initial position of the movable guide disc is close to the fixed guide disc, the movable guide disc ascends after being hung with a yarn, and the movable guide disc ascends to a certain height for spinning and the drafting and winding process time is long.

Moreover, the initial position of the movable guide disc is higher, when the movable guide disc is used for hanging wires, an operator is required to hold the wire sucking gun, the wire sucking gun is lifted, the movable guide disc can be bypassed, and the defect of high operation labor intensity exists.

Because the lifting position of the movable guide disc is single and unchanged, one lifting device can only be matched with one type of winding head, and the defects of inconvenient use and applicability exist.

Disclosure of Invention

The application provides a double-acting sliding rail cross pre-drafting winding device and a double-acting sliding rail cross pre-drafting winding method, which solve the technical problems of high labor intensity, long process time and model matching limitation in spinning pre-drafting winding in the related technology.

The application provides a double-acting slide rail alternately is draft coiling mechanism in advance, which comprises a bracket, go up the guide disc, a first support arm, lower guide disc, the second support arm, the slide rail, the gangbar, first moving part, the second moving part, power unit and even oily mechanism, go up the guide disc and install in first support arm one end, first support arm rotationally installs in the support, lower guide disc installs in second support arm one end, the second support arm rotationally installs in the support, the slide rail is fixed in the support, two extreme points of slide rail are equipped with the difference in height, first moving part slidingly sets up in the slide rail, slidingly sets up in first support arm and with the rotatable coupling of gangbar one end, second moving part slidingly sets up in the slide rail, slidingly set up in the second support arm and with the rotatable coupling of gangbar other end, power unit is with the relative support rotation of drive first support, even oily mechanism is fixed with the support relatively, the movement track of lower guide disc is located between even oily mechanism and the movement track of last guide disc.

Optionally, one end of the first support arm far away from the upper guide disc is rotatably installed at the first rotation point of the bracket, and the first movable piece is slidably arranged between the first support arm and the upper guide disc and the first rotation point;

the second support arm is rotatably arranged at a second rotating point of the bracket, and the second rotating point is arranged between the second movable piece and the lower guide disc;

the first rotating point and the second rotating point are arranged on two sides of the sliding rail in the vertical direction.

Optionally, the double-acting sliding rail cross pre-drafting winding device comprises a winding machine, wherein the winding machine is fixed relative to the bracket and is arranged below the lower guide disc.

Optionally, the lower guide disc is arranged below the oil homogenizing mechanism in a spinning state, so that tows between the oil homogenizing mechanism and the lower guide disc are vertically distributed.

Optionally, the height of the first rotation point is smaller than the height of the second rotation point.

Optionally, the slide rail is the arc setting, and the inboard of curved slide rail sets up towards first rotation point, outside towards the second rotation point.

Optionally, the first arm is offset from the slide rail compared to the second arm.

Optionally, the first support arm is rotatably installed at the first rotation point, and the movement track of the end of the second support arm away from the lower guide disc is arranged between the first rotation point and the sliding rail.

Optionally, the upper guide disc and the lower guide disc are arranged in the same vertical plane.

The double-acting sliding rail cross pre-drafting winding method adopts the double-acting sliding rail cross pre-drafting winding device and comprises the following steps:

the upper guide disc is positioned at a low position, the lower guide disc is positioned at a high position, and a filament suction gun is adopted to bypass the filament bundles around the upper guide disc;

starting a power mechanism, wherein the rotating first support arm drives the upper guide disc to move upwards, and the lower guide disc moves downwards in a follow-up way until the lower guide disc interferes with the movement of the tows so as to mount the tows on the lower guide disc;

the upper guide plate is moved to the high position, and the lower guide plate is moved to the low position, so as to prepare spinning.

The beneficial effects of the application are as follows: the application provides a double-acting sliding rail cross pre-drafting winding device, wherein an upper guide disc and a lower guide disc are adopted for linkage in the pre-drafting winding process, the upper guide disc is arranged on a first support arm, the upper guide disc is rotatably arranged on a bracket through the first support arm, the lower guide disc is arranged on a second support arm, the lower guide disc is rotatably arranged on the bracket through the second support arm, and a sliding rail, a linkage rod, a first movable part and a second movable part are configured to realize linkage of the first support arm and the second support arm; at first, the upper guide disc is at a low position, the lower guide disc is at a high position, and the wire suction gun is manually operated to hang wires on the lower upper guide disc, so that the defect of high labor intensity caused by manually bypassing the movable guide disc to hang wires in the related technology is overcome; then, the power mechanism drives the first support arm to rotate, the upper guide disc moves upwards from a low position to a high position, in the process, the first movable piece moves along the arm body of the first support arm and moves upwards along the sliding rail along with the space rotation of the first support arm, so that the linkage rod is driven to move upwards, and in the process, the first movable piece and the linkage rod rotate mutually; the linkage rod moves upwards to drive the second movable part to move upwards along the sliding rail, the second movable part moves along the arm body of the second support arm and limits the second support arm to rotate, the lower guide disc moves downwards to a low position, and as the moving track of the lower guide disc is positioned between the oil homogenizing mechanism and the moving track of the upper guide disc, the lower guide disc moves downwards and interferes with the movement of spinning in the process that the spinning is driven to move upwards by the upper guide disc, so that the spinning is automatically mounted on the lower guide disc, and the yarn hanging of the upper guide disc and the lower guide disc is realized.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present invention.

Fig. 1 is a schematic structural view of an upper guide disc of a double-acting sliding rail cross pre-drafting winding device in a low position;

fig. 2 is a schematic structural view of an upper guide disc of a double-acting sliding rail cross pre-drafting winding device in a high position.

The drawings are marked: the device comprises a 1-bracket, a 1 a-first rotating point, a 1 b-second rotating point, a 2-upper guide disc, a 3-first support arm, a 4-lower guide disc, a 5-second support arm, a 6-slide rail, a 7-linkage rod, an 8-first movable piece, a 9-second movable piece, a 10-oil homogenizing mechanism and an 11-winding machine.

Detailed Description

The embodiment of the application solves the technical problems of high labor intensity, long process time and model matching limitation in spinning pre-stretching winding in the related technology by providing the double-acting sliding rail cross pre-stretching winding device and the double-acting sliding rail cross pre-stretching winding method.

The technical scheme in the embodiment of the application aims to solve the technical problems, and the overall thought is as follows:

the utility model provides a double-acting slide rail alternately is draft coiling mechanism in advance, which comprises a bracket, go up the guide disc, first support arm, lower guide disc, the second support arm, the slide rail, the gangbar, first moving part, the second moving part, power unit and even oily mechanism, go up the guide disc and install in first support arm one end, first support arm rotationally install in the support, lower guide disc installs in second support arm one end, the second support arm rotationally installs in the support, the slide rail is fixed in the support, two extreme points of slide rail are equipped with the difference in height, first moving part slidingly sets up in the slide rail, slidingly sets up in first support arm and with the rotatable coupling of gangbar one end, second moving part slidingly sets up in the slide rail, slidingly sets up in second support arm and with the rotatable coupling of gangbar other end, power unit is with the relative support rotation of drive first support, even oily mechanism is fixed with the support relatively, the removal orbit of lower guide disc is located between even oily mechanism and the removal orbit of last guide disc.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Example 1

Referring to fig. 1, the present embodiment provides a double-acting sliding rail cross pre-drafting winding device, which comprises a bracket 1, an upper guide disc 2, a first support arm 3, a lower guide disc 4, a second support arm 5, a sliding rail 6, a linkage rod 7, a first movable member 8, a second movable member 9, a power mechanism and an oil homogenizing mechanism 10.

The upper guide disc 2 is mounted at one end of the first support arm 3, and the first support arm 3 is rotatably mounted on the bracket 1. The lower guide disc 4 is mounted at one end of the second support arm 5, and the second support arm 5 is rotatably mounted on the bracket 1. The slide rail 6 is fixed on the support 1, and the two endpoints of the slide rail 6 are provided with a height difference, that is, the slide rail 6 can provide a vertical chute, and the slide rail 6 can move up and down, so that it is understood that the slide rail is not limited to be arranged vertically.

The first movable part 8 comprises three connection relations, including being slidingly arranged on the sliding rail 6, being slidingly arranged on the first support arm 3 and being rotatably connected with one end of the linkage rod 7, so that the first support arm 3, the sliding rail 6 and the linkage rod 7 can be linked at the first movable part 8. Correspondingly, the body of the first movable member 8 comprises a first portion cooperating with the slide rail 6, a second portion resembling a slider cooperating with the first arm 3, and a third portion resembling a shaft rotatably connected with the link lever 7.

The second movable member 9 includes three connection relations, including slidingly disposed on the sliding rail 6, slidingly disposed on the second support arm 5, and rotatably connected to the other end of the linkage rod 7, so that the second support arm 5, the sliding rail 6, and the linkage rod 7 can be linked at the second movable member 9. The specific arrangement of the second movable member 9 can be referred to the structure of the three parts of the body of the first movable member 8.

The power mechanism drives the first support arm 3 to rotate relative to the bracket 1 so as to provide power input for the rotation of the first support arm 3.

The oil homogenizing mechanism 10 is relatively fixed with the bracket 1, and the moving track of the lower guide disk 4 is positioned between the moving tracks of the oil homogenizing mechanism 10 and the upper guide disk 2. Optionally, the tow is further subjected to a cutting suction prior to passing through the oiling mechanism 10.

Referring to fig. 1 and 2, the process of fig. 1 and 2 is performed during the pre-stretching winding process, and the upper guide plate 4 and the lower guide plate 4 are linked during the pre-stretching winding process. The relevant operation procedure can be briefly described as follows:

at the beginning, the upper guide disc 2 is at a low position, the lower guide disc 4 is at a high position, and the wire sucking gun is manually operated to hang wires on the lower upper guide disc 2, so that the defect of high labor intensity caused by manually bypassing the movable guide disc for wire hanging in the related art is overcome;

then, the power mechanism drives the first support arm 3 to rotate, the upper guide disc 2 moves upwards from a low position to a high position, in the process, the first movable piece 8 moves along the arm body of the first support arm 3 and moves upwards along the slide rail 6 along with the space rotation of the first support arm 3, the linkage rod 7 can be driven to move upwards, and the first movable piece 8 and the linkage rod 7 rotate mutually during the process to avoid motion obstruction;

the linkage rod 7 is driven to move upwards, so that the second movable piece 9 is driven to move upwards along the sliding rail 6, and then the second movable piece 9 moves along the arm body of the second support arm 5, so that the second support arm 5 can rotate, and finally the lower guide disc 4 moves downwards to a low position, and as the moving track of the lower guide disc 4 is positioned between the oil homogenizing mechanism 10 and the moving track of the upper guide disc 2, the lower guide disc 4 moves downwards and is in motion interference with spinning in the process that spinning is driven to move upwards by the upper guide disc 2, so that spinning is automatically mounted on the lower guide disc 4, and the filament hanging of the upper guide disc 4 and the lower guide disc 4 is realized;

the upper guide plate 2 is moved to the high position, the lower guide plate 4 is lowered, and the filament bundle is subsequently hung on the winding machine 11 for subsequent normal spinning.

In the double-acting sliding rail cross pre-drafting winding device provided by the embodiment, the upper guide disc 2 at a low position is only required to be hung, then the upper guide disc 4 and the lower guide disc 4 can be hung through the linkage of the first support arm 3 and the second support arm 5, and only one power mechanism is required to be arranged to provide power for the rotation of the first support arm 3, and the second support arm 5 is arranged to follow, so that the device structure is reduced, and the production, the manufacturing, the cost, the spinning drafting winding process and the like are facilitated.

The double-acting sliding rail cross pre-drafting winding device provided by the embodiment has the advantages of short drafting winding operation time and low labor intensity, and can be also adapted to winding heads of different types, so that the practicability is improved.

Alternatively, the power mechanism may adopt a motor or an air cylinder to drive the first support arm 3 and the bracket 1 to rotate mutually, so as to drive the first movable member 8, the linkage rod 7, the second movable member 9 and the second support arm 5 to move.

Alternatively, as shown in fig. 1 and 2, an end of the first arm 3 away from the upper guide disc 2 is rotatably mounted on the bracket 1 at a first rotation point 1a, and the first movable member 8 is slidably disposed between the first arm 3 and the upper guide disc 2 and the first rotation point 1 a. The second arm 5 is rotatably mounted on the bracket 1 at a second rotation point 1b, and the second rotation point 1b is disposed between the second movable member 9 and the lower guide disc 4. Wherein the first rotation point 1a and the second rotation point 1b are arranged at two sides of the sliding rail 6 in the vertical direction.

The first rotating point 1a is matched with the first support arm 3 and is combined with the slide rail 6 to define the movement track of the upper guide disc 2; the second rotating point 1b is matched with the second support arm 5, and the movement track of the lower guide disc 4 is defined by combining the linkage rod 7 and the sliding rail 6; the first rotation point 1a and the second rotation point 1b are disposed on two sides of the slide rail 6 in the vertical direction, as shown in fig. 1 and 2, where two sides of the slide rail 6 in the vertical direction should be understood as a side area of the slide rail 6 away from the oil homogenizing mechanism 10, and a side area between the slide rail 6 and the oil homogenizing mechanism 10.

The first rotation point 1a and the second rotation point 1b are arranged on two sides of the sliding rail 6 in the vertical direction, so that the upper guide disc 2 moves along with the first support arm 3 and the lower guide disc 4 moves along with the second support arm 5, avoiding each other, and the moving track of the lower guide disc 4 is positioned between the oil homogenizing mechanism 10 and the moving track of the upper guide disc 2 through the setting of the lengths of the corresponding support arms, and one embodiment is shown in fig. 1.

Alternatively, as shown in fig. 1, the height of the first rotation point 1a is smaller than the height of the second rotation point 1 b. Compared with the scheme that the second rotation point 1b is level with the first rotation point 1a or lower, in the scheme that the second rotation point 1b is higher than the first rotation point 1a, the method is equivalent to moving up the movement track of the lower guide disc 4, and is beneficial to meeting the setting that the movement track of the lower guide disc 4 is located between the oil homogenizing mechanism 10 and the movement track of the upper guide disc 2.

Alternatively, as shown in fig. 1, the sliding rail 6 is in an arc shape, including a semicircular shape, and the inner side of the arc-shaped sliding rail 6 is disposed toward the first rotation point 1a and the outer side is disposed toward the second rotation point 1 b. The arrangement of the arc-shaped sliding rail 6 is beneficial to the flexible follow-up of the second support arm 5 and the linkage rod 7 along with the rotation of the first support arm 3 under the condition that the length of the linkage rod 7 is unchanged.

Alternatively, the linkage rod 7 is arranged as a straight rod as shown in fig. 1 and 2, and may be arranged as a bent rod, in other irregular forms, or the like. In other ways, the linkage rod 7 may also be configured as a rod with an adjustable length, so that the movement track of the upper guide disc 2 and the lower guide disc 4 is adjusted by changing the linkage rod 7 in a manner determined by the bracket 1, the first arm 3, the second arm 5, etc.

Optionally, the first support arm 3 is offset from the sliding rail 6 compared with the second support arm 5, so that the first support arm 3 and the second support arm 5 do not interfere with each other in the process that the upper guide disc 2 moves from low to high and the upper guide disc 2 moves from high to low.

Optionally, a moving track of an end of the second support arm 5 away from the lower guide disc 4 is disposed between the first rotation point 1a and the sliding rail 6, so as to avoid adverse movement interference during the operation of the second support arm 5 along with the first support arm 3.

Alternatively, as shown in fig. 1, the double-acting sliding rail cross pre-drafting winding device comprises a winding machine 11, wherein the winding machine 11 is fixed relative to the bracket 1, and the winding machine 11 is arranged below the lower guide disc 4. And (5) carrying out normal winding of spinning after the yarn hanging is completed.

Optionally, as shown in fig. 2, in the spinning state, the lower guide disc 4 is disposed below the oil homogenizing mechanism 10, so that tows between the oil homogenizing mechanism 10 and the lower guide disc 4 are vertically distributed, the tows are ensured to vertically fall down, and the tows sequentially bypass the lower guide disc 4 and the upper guide disc 2 and are wound on the winding machine 11.

Alternatively, in the double-acting slide rail cross pre-drafting winding device of the present embodiment, the upper guide disc 2 and the lower guide disc 4 are disposed in the same vertical plane. So as to ensure that the spinning is interfered with the movement of the lower guide disc 4 in the process that the second support arm 5 moves along with the first support arm 3.

Example 2

The embodiment provides a double-acting sliding rail cross pre-drafting winding method, which adopts the double-acting sliding rail cross pre-drafting winding device of the embodiment 1, and comprises the following steps:

the upper guide disc 2 is positioned at a low position, the lower guide disc 4 is positioned at a high position, and a filament suction gun is adopted to bypass the filament bundles around the upper guide disc 2;

starting a power mechanism, wherein the rotating first support arm 3 drives the upper guide disc 2 to move upwards, and the lower guide disc 4 moves downwards along with the movement of the tows until the lower guide disc 4 interferes with the movement of the tows so as to mount the tows on the lower guide disc 4;

the upper guide plate 2 is moved to the high position, the lower guide plate 4 is moved to the low position, and the spinning is subsequently mounted on the winding machine 11, ready for normal spinning.

The method only needs to hang wires on the lower upper guide disc 2, and then the wires are linked through the first support arm 3 and the second support arm 5, so that the operation time is short, the labor intensity is low, and the method can be also suitable for winding heads of different types, and has strong practicability.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (9)

1. Double-acting slide rail alternately reaches draft coiling mechanism in advance, characterized by includes:

a bracket;

the upper guide disc is arranged at one end of the first support arm, and the first support arm is rotatably arranged on the bracket;

the lower guide disc is arranged at one end of the second support arm, and the second support arm is rotatably arranged on the bracket;

the sliding rail is fixed on the bracket, and the two end points of the sliding rail are provided with height differences;

a linkage rod;

the first movable piece is arranged on the sliding rail in a sliding manner, is arranged on the first support arm in a sliding manner and is rotatably connected with one end of the linkage rod;

the second movable piece is arranged on the sliding rail in a sliding manner, is arranged on the second support arm in a sliding manner and is rotatably connected with the other end of the linkage rod;

the power mechanism is used for driving the first support arm to rotate relative to the bracket;

the oil homogenizing mechanism is fixed relative to the bracket;

the moving track of the lower guide disc is positioned between the oil homogenizing mechanism and the moving track of the upper guide disc;

one end of the first support arm, which is far away from the upper guide disc, is rotatably arranged at a first rotating point of the bracket, and the first movable piece is arranged between the upper guide disc and the first rotating point;

the second support arm is rotatably arranged at a second rotating point of the bracket, and the second rotating point is arranged between the second movable piece and the lower guide disc;

the first rotating point and the second rotating point are arranged on two sides of the sliding rail in the vertical direction.

2. The double-acting slide-rail cross pre-drafting winding device according to claim 1, characterized in that the double-acting slide-rail cross pre-drafting winding device comprises a winding machine which is fixed relative to the support and is arranged below the lower guide disc.

3. The double-acting sliding rail cross pre-drafting winding device according to claim 1, wherein the lower guide disc is arranged below the oil homogenizing mechanism in a spinning state so that tows between the oil homogenizing mechanism and the lower guide disc are distributed vertically.

4. The double-acting slide rail cross pre-drafting winding device as claimed in claim 1 wherein the height of the first rotation point is less than the height of the second rotation point.

5. The double-acting sliding rail cross pre-drafting winding device according to claim 1, wherein the sliding rail is arranged in an arc shape, and the inner side of the arc-shaped sliding rail is arranged towards the first rotation point and the outer side of the arc-shaped sliding rail is arranged towards the second rotation point.

6. The double-acting rail cross pre-draft winding device according to claim 1 wherein said first arm is offset from said rail relative to said second arm.

7. The double-acting sliding rail cross pre-drafting winding device according to claim 1, wherein the first support arm is rotatably mounted on the bracket at a first rotation point, and the moving track of the end of the second support arm away from the lower guide disc is arranged between the first rotation point and the sliding rail.

8. Double-acting slide rail cross pre-drafting winding device as claimed in any one of claims 1-7 wherein the upper guide disc and the lower guide disc are arranged in the same vertical plane.

9. A double-acting sliding rail cross pre-drafting winding method, characterized in that the double-acting sliding rail cross pre-drafting winding device as claimed in any one of claims 1-8 is adopted, comprising the steps of:

s1, enabling the upper guide disc to be in a low position and the lower guide disc to be in a high position, and enabling a silk suction gun to bypass the upper guide disc by silk bundles;

s2, starting the power mechanism, wherein the rotating first support arm drives the upper guide disc to move upwards, and the lower guide disc moves downwards in a follow-up manner until the lower guide disc interferes with the movement of the tows so as to mount the tows on the lower guide disc;

s3, the upper guide disc moves to a high position, and the lower guide disc moves to a low position to prepare spinning.

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