CN211645482U - Auto-leveling device for strands of drawing frame - Google Patents

Abstract

The utility model relates to a drawing frame must strip auto-leveling device directly installs additional between traditional non-auto-leveling drawing frame guide frame and draft part. The utility model discloses a: the device comprises a fiber strand parameter detection part, a pair of front upper roller and front lower roller, a drafting part consisting of a pair of rear upper roller and rear lower roller, at least one driving motor and a control processing unit. After the strand self-adjusting leveling device is additionally arranged, a plurality of strands fed from the drawing frame pass through the strand detection part, the sensor obtains a strand parameter change value and stores the strand parameter change value in the control processing unit, when a strand cluster enters a drafting area, the control processing unit calculates the required rotating speed change quantity of a back upper roller and a back lower roller according to the strand parameter change obtained by the sensor and the delay time from a detection point to a leveling point, changes the drafting ratio of the drafting area in real time to achieve the leveling effect, realizes the self-adjusting leveling function, improves the uniformity and the yarn quality of the strands, and has the advantages of low cost and simple structure.

Description

Auto-leveling device for strands of drawing frame

Technical Field

The utility model relates to a drawing frame of textile industry belongs to spinning machine technical field.

Background

Drawing frames are important processes for spinning. It is used for further mixing, drafting, fiber paralleling and impurity removing of fiber strands, and plays a decisive role in improving spinning quality. Drawing frames are known to be divided into two categories: non-autoleveller draw frames and autoleveller draw frames. The auto-leveling drawing frame is provided with the auto-leveling device, so the evenness of the fiber of the strand can be further improved, however, because the auto-leveling drawing frame has high cost, the auto-leveling drawing frame is generally used only by the drawing frame of the last procedure in the traditional spinning factory, and a large number of existing spinning factories still use the non-auto-leveling drawing frame. The non-autoleveller drawing frame does not apply the autoleveller function to the strands with inconsistent feeding evenness, the thickness evenness of the strands after drafting and mixing is not well improved, and the spinning quality is greatly influenced. With the increasing demand for high quality yarns, as an important process to control yarn quality, the auto-leveling function is more and more important in the drawing frame.

Disclosure of Invention

In order to overcome present non-autoleveller drawing frame and not have autoleveller function, the utility model provides a autoleveller device, this autoleveller device install additional on non-autoleveller drawing frame, has realized autoleveller function, has improved the degree of consistency of the palpus strip of production and has improved the resultant yarn quality, has the cost advantage moreover, reforms transform portably, and the popularization nature is strong.

The utility model provides a technical scheme that its technical problem adopted is: on traditional non-autoleveller drawing frame, behind the guide frame of beard strip feeding, before the beard strip gets into the drafting system part, install additional the utility model discloses autoleveller. Conventional draw frames typically operate with 1 or 2 eyes (sides) simultaneously. 4 to 8 palpus strips of guide frame of every eye pass through the utility model discloses the palpus strip parameter detection part of autoleveling device, the draft part of constituteing by a pair of back epithelium roller and back bottom roller and a pair of preceding epithelium roller and preceding bottom roller is fed into, in this draft region, based on the thickness change of the feeding palpus strip that detects, correspondingly through changing the draft ratio, realize the even effect, the palpus strip cluster after the even is fed into the draft part of traditional drawing frame, through draft effect and horn mouth polymerization, under the action of circle strip dish, the circle is put in empty can, forms required single palpus strip.

As a preferred embodiment of the present invention, the auto-leveling device of the present invention comprises: the device comprises a feeding sliver parameter detection part, a pair of front upper roller and front lower roller, a drafting part consisting of a pair of rear upper roller and rear lower roller, at least one driving motor and a control processing unit. The method comprises the steps that a plurality of strands fed from a guide frame usually 4 to 8 strands pass through a strand detection part, a sensor obtains strand parameter change values, the strand parameter change values are stored in a control processing unit, when a strand cluster enters a drafting area formed by a pair of front upper leather roller and front lower roller and a pair of rear upper leather roller and rear lower roller, the control processing unit calculates the required rotating speed change amount of the rear upper leather roller and rear lower roller according to the strand parameter change obtained by the sensor and the delay time from a detection point to an evening point, and the drafting ratio of the drafting area is changed in real time to achieve the evening effect.

As a preferred embodiment of the utility model, the feeding fiber strip parameter detecting part comprises a pair of convex roller, a pair of concave roller and a displacement sensor. The parameter deviation of the fiber strand cluster is converted into the displacement change of the concave roller in the concave-convex roller pair applying pressure, and the change is converted into an electric signal by the displacement sensor and is input into the control processing unit.

In a preferred embodiment of the present invention, the pair of front upper roller and front lower roller is driven by one servo motor, and the pair of rear upper roller and rear lower roller is driven by another servo motor. The control unit changes the revolution of the servo motor in real time according to the parameter change signal value of the fiber bundle acquired by the feeding fiber bundle detection part, so as to change the drafting ratio of the drafting part and realize the leveling function.

As a preferred embodiment of the present invention, the pair of front upper roller and front lower roller and the pair of rear upper roller and rear lower roller are driven by a variable frequency motor together, wherein the pair of rear upper roller and rear lower roller are driven by the variable frequency motor via a pair of tapered pulleys and a belt. The belt on the conical belt pulley can move back and forth on the conical belt pulley through a deflector rod device. The deflector rod device is controlled by a control unit, and precisely controls the reciprocating movement of a belt on a conical belt wheel pair, so that the rotating speeds of a rear lower roller and a rear upper roller are changed in real time, the drafting ratio is further changed, and the leveling effect is achieved.

As a preferred embodiment of the present invention, the belt shifter device on the tapered pulley is driven by a linear motor.

As a preferred embodiment of the present invention, the belt deflector device on the conical pulley is driven by a servo motor and a ball screw.

As a preferred embodiment of the invention, the leveling of the bundle of strands takes place in the drafting zone between a pair of front upper and lower rollers and a pair of rear upper and lower rollers.

As a preferred embodiment of the present invention, the present invention is additionally installed between the guide frame and the draft part of the conventional double-hole drawing frame. The utility model discloses a device is installed additional respectively to every eye (side), respectively behind every eye (side) guide frame, before the drawing frame draft part.

As a preferred embodiment of the present invention, the present invention is additionally installed between the guide frame and the draft part of the conventional monocular drawing frame. Respectively after the monocular (side) creel, before the drafting section of the draw frame.

The beneficial effects of the utility model are that, simple structure, it is with low costs, install additional between the guide frame and the draft system of non-autoleveller drawing frame, do not influence the performance of current drawing frame, increased autoleveller function, realized better must the degree of consistency and the depth of parallelism of strip. Further improving the quality of the spun yarn. The invention does not change the original mechanism of the traditional drawing frame, does not damage the quality precision and the original process of the original drawing frame, and ensures the reliability and the stability of the traditional drawing frame.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic view of a conventional double-eye non-auto-leveling drawing frame

FIG. 2 is a schematic view of an embodiment of the present invention in a conventional drawing frame

FIG. 3 is a schematic view of the position of the other embodiment of the present invention installed on the conventional drawing frame

FIG. 4 is a schematic structural diagram of a preferred embodiment of the present invention

FIG. 5 is a schematic structural diagram of another preferred embodiment of the present invention

In the figure, 1. can, 2. sliver roller pair, 3. bell mouth, 4. winding disc, 5. convex roller, 6. concave roller, 7a. front upper roller, 7b. front lower roller, 8a. rear upper roller, 8b. rear lower roller, 9. front servo motor, 10. rear servo motor, 11. control processing unit, 12. displacement sensor, 13. inverter motor, 14. linear motor, 15a. upper conical belt pulley, 15b. lower conical belt pulley, 16. belt, 17. deflector rod device, a. sliver guide, b. drafting part, c. an embodiment of the present invention, d. another embodiment of the present invention, FB. sliver, FB' sliver cluster.

Detailed Description

In fig. 1, a schematic diagram of a conventional non-autoleveller drawing frame is shown. The sliver FB in the sliver can 1 with 4 to 8 slivers per eye usually passes through the sliver roller pair 2 of the sliver guide frame A to form a sliver cluster FB' which is fed to the drafting part B, and the sliver FB after drafting is guided into the rotating coiler 4 through a bell mouth 3 and then is coiled in the empty sliver can 1 for the next process. In the whole production and processing process, the fed strands are uneven in thickness, and the traditional non-autoleveller drawing frame has no autoleveller function, so that the uniformity of the formed strands can influence the spinning quality of the next procedure.

In fig. 2, a schematic view of an embodiment C of the present invention added to a conventional drawing frame is shown. The embodiment C of the present invention is installed behind the guide frame a of the conventional drawing frame before the drafting section B. Every eye is 4 to 8 strand FB usually in can 1, behind the guide roller pair 2 of guide frame a, form strand bunch FB 'and feed into in an embodiment C of the utility model, after the leveling action of the auto-leveling device, obtain even strand bunch FB', enter into the draft part B, after the draft action, strand FB passes through a horn mouth 3, after leading-in to rotatory circle can 4, the circle is put in empty can 1 the inside, forms even unanimous strand FB.

In fig. 3, a schematic view of another embodiment D of the present invention added to a conventional drawing frame is shown. Another embodiment of the invention D is installed after the guide frame a of the conventional drawing frame, before the drafting section B. Every eye is 4 to 8 strand FB usually in can 1, behind the guide roller pair 2 of guide frame a, form strand bunch FB 'and feed into in an embodiment D of the utility model, after the leveling action of the auto-leveling device, obtain even strand bunch FB', enter into the draft part B, after the draft action, strand FB passes through a horn mouth 3, after leading-in 4 rotatory circle can coils, the circle is put in empty can 1 the inside, forms even unanimous strand FB.

Fig. 4 shows a preferred embodiment of the present invention. In this embodiment, the fiber bundle FB 'is fed into a pair of roller pairs consisting of a convex roller 5 and a concave roller 6, the thickness variation of each fiber bundle FB' is converted into the displacement variation of the movable convex roller 6, and the displacement variation is detected by a displacement sensor 12 and transmitted to the control processing unit 11 in real time. When the strand cluster FB' enters a drafting area formed by the rear upper roller 8a, the rear lower roller 8b, the front upper roller 7a and the front lower roller 7b, the control processing unit 11 controls the rear servo motor 10 to change the motor rotating speed in real time according to an electric signal of the strand thickness acquired by the displacement sensor 12, so that the rotating speeds of the rear upper roller and the rear lower roller are changed, and the front servo motor 9 drives the rotating speeds of the front upper roller 7a and the front lower roller 7b to keep a specified constant rotating speed. Thus, the draft ratio of the draft area formed by the rear upper roller 8a and the rear lower roller 8b and the front upper roller 7a and the front lower roller 7b changes in real time corresponding to the thickness of the fed sliver cluster FB ', and the effect of leveling the sliver cluster FB' is achieved. This homogenized, uniform bundle of strands FB' is fed to the drawing section B of the drawing frame and is further drawn to the desired target weight.

Fig. 5 shows another preferred embodiment of the present invention. In this embodiment, the fiber bundle FB 'is fed into a pair of roller pairs consisting of a convex roller 5 and a concave roller 6, the thickness variation of each fiber bundle FB' is converted into the displacement variation of the movable convex roller 6, and the displacement variation is detected by a displacement sensor 12 and transmitted to the control processing unit 11 in real time. When the strand cluster FB' enters a drafting area formed by the rear upper roller 8a, the rear lower roller 8b, the front upper roller 7a and the front lower roller 7b, the control processing unit 11 controls the linear moving distance and direction of the linear motor 14 in real time according to the electrical signals of the strand thickness acquired by the displacement sensor 12. The linear motor 14 controls the distance and direction of movement of the belt 16 on a pair of conical pulleys (15 a, 15 b) via a shifter 17. The diameter ratio of the tapered pulley 15a and the tapered pulley 15b is changed by changing the position of the belt 16 on the pair of tapered pulleys (15 a, 15 b), and the rotation speed of the variable frequency motor 13 driving the lower tapered pulley 15b and the front lower roller 7b is kept constant. The upper conical belt pulley 15a brings the rotation speed change of the upper conical belt pulley 15a due to the position change of the belt 16 on the conical belt pulleys (15 a, 15 b), and the change is consistent with the change of the electric signals of the strand thickness acquired by the control processing unit 11 and the displacement sensor 12, so that the drafting ratio between the rear upper roller 8a and the rear lower roller 8b and the front upper roller 7a and the front lower roller 7b is changed, and the leveling effect of the strand bundle FB' is realized. This homogenized, uniform bundle of strands FB' is fed to the drawing section B of the drawing frame and is further drawn to the desired target weight.

Figure 4 is an efficient digital embodiment of the present invention; yet another preferred embodiment figure 5 is an economical embodiment. Through installing additional the utility model discloses install non-autoleveller drawing frame, data show can obviously improve the degree of consistency of palpus strip, reach the function of autoleveller drawing frame. Various modifications, additions and substitutions for the specific embodiments described herein will occur to those skilled in the art without departing from the scope of the invention as defined by the accompanying claims.

Claims (7)

1. The utility model provides a drawing frame whisker auto-leveling device, has whisker parameter testing part (5, 6), a pair of preceding epitheca roller (7 a) and preceding bottom roller (7 b) and a pair of back epitheca roller (8 a) and the draft region that back bottom roller (8 b) constitutes, at least one motor (9, 10, 13) and control processing unit (11) for install additional on non-auto-leveling drawing frame, characterized by: the strand auto-leveling device (C, D) is installed between the guide frame (A) and the drafting part (B) of the non-auto-leveling drawing frame.

2. Device according to claim 1, characterized in that: the front lower roller (7 b) is driven by a motor (9), the rear lower roller (8 b) is driven by another motor (10), and the rotating speed of one motor is correspondingly changed according to the change of the parameters of the feeding fiber strands.

3. Device according to claim 2, characterized in that: the two motors (9, 10) are servo motors.

4. Device according to claim 1, characterized in that: the front lower roller (7 b) and the rear lower roller (8 b) are driven by a motor (13), wherein the front lower roller (7 b) is connected with the motor (13), and the rear lower roller (8 b) is connected with the motor (13) through a pair of conical belt pulleys (15 a, 15 b) and a belt (16).

5. Device according to claim 4, characterized in that: the belt (16) on the pair of conical belt pulleys (15 a, 15 b) is provided with a belt deflector rod device (17); the deflector rod device (17) drives the belt (16) to move back and forth on the conical belt pulleys (15 a, 15 b); the distance and direction of movement of the belt (16) on the conical pulleys (15 a, 15 b) is determined by the parameters of the feeding strand.

6. Device according to claim 5, characterized in that: the belt deflector rod device (17) is driven by a linear motor.

7. Device according to claim 5, characterized in that: the belt deflector rod device (17) is driven by a ball screw and a motor.

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