CN105984749A - Textile machine with continuous supply of yarn and winding of yarn onto wound taper bobbin - Google Patents

Abstract

In the present invention, there is disclosed a textile machine with continuous supply of a produced yarn and winding of a yarn onto a cross-wound taper bobbin. The machine comprises a traverse mechanism (3) with its own individual drive, a taking-up roller (5) with its own individual drive and a pair of swivel bobbin arms (4) with means for rotatable mounting of the bobbin (2) tube ends. The traverse mechanism (3) and the taking-up roller (5) are mounted on the machine frame together in skew direction to each other by an angle ([alpha]) that makes one half of the angle of taper of the wound bobbin (2), the longitudinal axis (20) of which is horizontal.

Description

Continuous delivered yarn and on taper winding yarn cylinder the textile machinery of winding yarn

Technical field

The present invention relates to the Manufactured yarn of a kind of continuous conveying and on conical intersection winding bobbin the textile machinery of winding yarn, described textile machinery includes having the distributor of the Standalone Drives of himself, has the take-up roll of the Standalone Drives of himself and have a pair swing yarn cylinder arm of device of the end being rotatably mounted yarn cylinder bobbin.

Background technology

At present, on the textile machinery of the Manufactured yarn of continuous conveying, for example on the free end or air injection spinning machine of the Manufactured yarn of continuous conveying, at each working cell that a line is configured in working cell adjacent one another are, employ the winder unit for winding yarn on conical intersection winding bobbin.These winder units include the driven take-up roll rotating, and the yarn cylinder wherein being wound or bobbin are positioned in take-up roll with their periphery.Therefore, these yarn cylinders or bobbin are driven, and the yarn made continuously on machine is wound onto on them.Established yarn is drawn from yarn manufacturing cell by the derivation mechanism of yarn, and the compensator of the current difference being guide further through between the winding of yarn and off speed, and the sensor of the quality and/or presence or absence by sensing yarn, until reaching winder unit, here it is wound continuously.

At each station of the textile machinery of the Manufactured yarn of continuous conveying, yarn cone or the bobbin for winding yarn cone are along inclined direction rotatably installed between the inclined arm of winder unit, and wherein said arm is provided with the rotatable dish for being rotatably mounted yarn cylinder between the arms.By the described arm of lifting, not only have adjusted yarn cylinder or the bobbin pressure in take-up roll, but also be arranged in yarn cylinder or bobbin in take-up roll by this way and move away from it, its be connect or contrary disconnect yarn cylinder or bobbin rotate one of possible mode driving.Installation gradient (slope) in arm for the yarn cylinder is equal to the half of the tapering of winding bobbin.

To enable along the whole length of yarn cylinder or bobbin on the textile machinery of the Manufactured yarn of continuous conveying winding yarn, winder unit includes the Traverse Displacement Unit for traversing traversing winding yarn on the whole width of winding bobbin or bobbin.Traverse Displacement Unit includes the yarn guide portion that can inversely move, and yarn is through described yarn guide portion before being winding on yarn cylinder, and described yarn guide portion is connected to be controlled the driver of mechanism controls.

On the machine of the Manufactured yarn of continuous conveying, generally use the winder unit of such a embodiment, wherein the take-up roll of the i.e. each station of each take-up roll is arranged on shared wireline reel, described shared wireline reel is continuous print along the whole length of machine, i.e. the side at the textile machinery of the Manufactured yarn of continuous conveying passes through all stations.For each station, i.e. for each winder unit, this wireline reel only configures a take-up roll.Therefore the longitudinal axis of this take-up roll is limited by the longitudinal axis of continuous wireline reel, and the longitudinal axis of described continuous wireline reel is level, it means that the longitudinal axis of take-up roll is level equally.On the textile machinery of the Manufactured yarn of continuous conveying, the consequence of horizontal arrangement take-up roll and inclined winding bobbin is, yarn cylinder or bobbin are formed obliquely the taper bag (package) of the yarn made continuously and carry relative to vertical direction, the i.e. front side of line bag is to tilt relative to vertical direction, this means as the diameter of winding bobbin becomes big, the yarn being wound tends to the front side sliding with small diameter during traversing towards yarn cylinder, and this causes the winding of the yarn made continuously and carry that the risk of defect occurs.The further drawback of the background technology of the textile machinery of the Manufactured yarn of conveying is that, for the viewpoint building area, being on the width of machine at station needs the relatively large space for arranging winder unit continuously.The further drawback of the background technology of the textile machinery of the Manufactured yarn of conveying is continuously, change the tapering of winding bobbin if necessary, or it is wound on cylindrical yarn cylinder and vice versa from being wound switching on yarn cone if necessary, then needing to rebuild the winder unit of the Manufactured yarn of conveying continuously, this is totally impossible in many cases on the machine of the Manufactured yarn of continuous conveying.

It is an object of the invention to the shortcoming eliminating or reducing background technology at least to greatest extent.

Content of the invention

The purpose of the present invention by the Manufactured yarn of a kind of continuous conveying and on conical intersection winding bobbin the textile machinery of winding yarn realize, its principle is, Traverse Displacement Unit and take-up roll are mounted obliquely within machine frame all at an angle, described angle accounts for the half angle of the tapering of winding bobbin, and the longitudinal axis of described winding bobbin is level.

The advantage of the program is, on the textile machinery of the Manufactured yarn of continuous conveying, the front side of the conical intersection winding bobbin of winding is vertical towards horizontal plane, this has obvious positive influences to directly constructing yarn cone on this machine, thus prevents yarn front side sliding (slip) with small diameter towards yarn cylinder during yarn distribution.Another advantage for the continuous machine carrying Manufactured yarn of the program is that structure area on such machine for the winder unit is narrower.Additionally, in this scenario advantageously, it is used for keeping the arm of yarn cylinder constructively can be approximately identical to the replaceable clamping disk for specific bobbin, and adjusted in the same manner for winding yarn cone and coiling column shape yarn cylinder.

In a preferred embodiment, yarn distributor and yarn cylinder driver are arranged in common frame in mutual restriction and constant position, it is pivotally mounted on machine frame when necessary, thus mode, traversing and winding module is i.e. used for traversing yarn and is used for driving the module of yarn cylinder to have independent driver, and has the option of the vertical inclination angle of the horizontal arrangement arm being independently arranged the yarn cylinder that take-up roll and Traverse Displacement Unit have horizontal longitudinal axes relative to band.Another advantage of the program is, the winder unit being redeveloped into the winder unit being used for winding yarn cone for coiling column shape yarn cylinder is relatively simple.

Brief description

The present invention is schematically depicted in the drawings, wherein figure 1 illustrate the front view of the station being delivered continuously to yarn in winder unit for manufacturing yarn, Fig. 2 shows the front details of the structure of winder unit, and Fig. 3 shows the top view of the structure of winder unit shown in Fig. 2.

Detailed description of the invention

The present invention will describe the embodiment of textile machinery, and it carries the yarn made continuously with winder unit, with by yarn winding on the cross winding yarn cylinder of taper.

Textile machinery includes that at least a line is configured to identical station adjacent one another are.Each station includes the device manufacturing yarn 0 continuously.From the continuous device manufacturing yarn 0, yarn 0 is drawn continuously by the derivation mechanism of yarn 0, and thus yarn is guide further to winder unit 1, and here yarn is continuously wound around on conical intersection winding bobbin 2.Before being winding on yarn cylinder 2, yarn 0 passes through the traversing guiding piece 30 of the Traverse Displacement Unit (traversing device) 3 of yarn 0, and it is along the traversing yarn 0 of yarn cylinder width 2, thus mode, rotate with yarn cylinder 2 and combine, and form the line bag (package) of cross winding.Traversing guiding piece 30 is along yarn cylinder 2 or more specifically reciprocably directly mobile along take-up roll 5 (it is described below) in Traverse Displacement Unit 3, wherein traversing guiding piece 30 is connected to the Standalone Drives of Traverse Displacement Unit 3, and this Standalone Drives is connected to a section of station and/or station and/or the control device of machine.

In order to make the winding yarn 0 that conveying is formed continuously on conical intersection winding bobbin 2 be possibly realized, the compensator (not shown) of the different circumferential speeds of yarn 0 is set the two of yarn cone 2 ends in the path of yarn 0 in the front side of winder unit 1, owing to each end in two ends of yarn cone 2 has different diameters, therefore for yarn cylinder 1 in the same number of revolutions of time per unit, it reaches different circumferential speeds, i.e. reach the different length of the yarn 0 being winding on yarn cylinder 2, this periodic fluctuation of the circumferential speed of yarn cone 2 is compensated device (not shown) and compensates, described compensator formed at each station before yarn 0 is wound up on yarn cylinder 2 and unclamps a loop yarn line 0.

Yarn cylinder 2 is rotatably installed between two arms 4, said two arm 4 vertically can be mounted obliquely within up and down machine or on the framework of station, wherein in addition, at least one arm in arm 4 in the horizontal direction reversibly tiltable away from the second arm 4 ground be arranged on machine or on the framework of station, this with bare bobbin change yarn cylinder 2 when be important for opening arms 4.Yarn cylinder 2 is rotatably installed between two arms 4 around the longitudinal axis 20 of its level.

During yarn 0 is wound up on yarn cylinder 2, arm 4 is downward-sloping, i.e. tilt to their lower position, and yarn cylinder 2 is connected on the surface of take-up roll 5 with its surface being positioned at its underpart, described take-up roll 5 is mounted obliquely within shared retainer 6 together with distributor 3, is in mutually that limit and constant position.

Take-up roll 5 has Standalone Drives, and it uses the motor in the inner space of the cylinder shape housing being built in take-up roll 5.Meanwhile, the cylinder shape housing of take-up roll 5 constitutes the rotor of the Standalone Drives of take-up roll 5, and its outer surface contacts with powered yarn cylinder 2, thus drives yarn cylinder 2 by roll mode.The Standalone Drives of take-up roll 5 is attached to energy source, and is attached to station and/or the controlling organization of machine section and/or whole machine.

Share the horizontal direction of longitudinal axis 20 that retainer 6 installs in arm 4 relative to yarn cylinder 2 be mounted obliquely within along the longitudinal direction machine or on the framework of station, the i.e. longitudinal axis 50 of take-up roll 5 reaches angle [alpha] relative to the vertical inclination angle of longitudinal axis 20 in arm 4 for the yarn cylinder 2, and wherein the size of angle [alpha] is corresponding to the half of the tapering of winding bobbin 2.Auxiliary compensation device 7 front side of the distribution guiding piece 30 at yarn 0 on the whole width that yarn 0 distributes is replaceably mounted on shared retainer 6.Auxiliary compensation device 7, on the direction of the width that yarn 0 distributes, i.e. on the direction of the reversible line motion of the distribution guiding piece 30 of yarn 0, has round-shaped leading edge 70.

In the exemplary embodiment shown in Fig. 2 and 3, share retainer 6 swingable relative to the horizontal longitudinal axes 20 of yarn cylinder 2 be adjustably arranged on machine or on the framework of station, therefore, it is possible to arrange the required gradient relative to the longitudinal axis 20 of yarn cylinder 2 for the longitudinal axis 50 of take-up roll 5, the i.e. required size of the angle [alpha] of the inclination relative to the longitudinal axis 20 of yarn cylinder 2 for the longitudinal axis 50 of take-up roll 5, thus also set up the size of the tapering of winding bobbin 2, without the setting changing arm 4.The gradient that arranges of retainer 6 is lockable.

In exemplary embodiment in fig. 2, share retainer 6 on the downside of it, be provided with a pair teat the 60th, 61, thus it swingable relative to the horizontal longitudinal axes 20 of yarn cylinder 2 be adjustably arranged on machine or on the framework X of station, such as by means of the pair of angled groove X0 in framework X.

In a unshowned exemplary embodiment, share a pair through hole that retainer 6 is implemented as being positioned in framework X relative to this swingable adjustment structure of the horizontal longitudinal axes 20 of yarn cylinder 2, one of them hole is formed by the through groove being configured to one section of circular arc, it is centrally located at the center in another hole, and another hole described is formed by through cylindrical hole.

In the exemplary embodiment illustrated in fig. 2, share retainer 6 and install by the through groove X0 of a pair in framework X realization relative to swinging of the horizontal longitudinal axes 20 of yarn cylinder 2, its further groove X0 is straight or curved, and tilting towards each other and away from each other, therefore they can realize being set to that is traversing for shared retainer 6 and winding module gradient the required incline direction (angle [alpha]) relative to the horizontal longitudinal axes 20 of yarn cylinder 2 for the longitudinal axis 50 of take-up roll 5.

For the winding bobbin of respective type, for example for coiling column shape yarn cylinder, there are 4 ° of 20' taperings yarn cone for, teat the 60th, 61 and their counterpart in the unshowned groove being positioned in framework X or groove X0 form determine the accurate gradient relative to the horizontal longitudinal axes 20 of yarn cylinder 2 for the retainer 6 at ad-hoc location.

As mentioned above, the front side of the traversing guiding piece 30 at yarn for the auxiliary compensation device 7 is replaceably mounted on shared retainer 6.Auxiliary compensation device 7 has the profile convexly symmetrical against yarn movement direction on the width of the yarn traversing towards the longitudinal direction of yarn of the width across yarn cylinder 2.Auxiliary compensation device 7 is formed by the sheet metal with shaping (shaped) leading edge 70 in the embodiment shown, and in unshowned embodiment, it is formed by bonding formed wire etc..The shape profile that the leading edge 70 of auxiliary compensation device 7 has is suitable for the yarn cylinder of coiling column shape or taper on the winder unit according to the present invention.With regard to the present invention winder unit in order in winding process for the longitudinal axis 50 of take-up roll 5 for the Geometrical optimization of the different size of angle [alpha] winding yarn that the horizontal longitudinal axes 20 of yarn cylinder 2 tilts and drawing rightly, the profile of the leading edge 70 of auxiliary compensation device 7 is different for different angle [alpha].For example, the profile being used for winding yarn cone is asymmetric, and the profile for coiling column shape yarn cylinder is symmetrical.

Industrial usability

Textile industry be applicable to textile machine construction for the present invention.

Claims (11)

1. the Manufactured yarn of continuous conveying and on conical intersection winding bobbin the textile machinery of winding yarn, described textile machinery includes the Traverse Displacement Unit with the Standalone Drives of himself, the take-up roll with the Standalone Drives of himself and a pair swing yarn cylinder arm of the device with the end being rotatably mounted yarn cylinder bobbin, it is characterized in that, described Traverse Displacement Unit (3) and described take-up roll (5) (α) all at an angle are mounted obliquely within machine frame, described angle (α) accounts for the half angle of the tapering of winding bobbin (2), the longitudinal axis (20) of described winding bobbin (2) is level.

2. textile machinery according to claim 1, it is characterized in that, described Traverse Displacement Unit (3) and take-up roll (5) are arranged in shared retainer (6) to be in and mutually limit and constant position, and wherein said shared retainer (6) is arranged on machine frame.

3. textile machinery according to claim 2, it is characterized in that, in the change direction at the angle of inclination (α) of the horizontal longitudinal axes (20) relative to the yarn cylinder (2) in arm (4) for the longitudinal axis (50) in take-up roll (5) for the described shared retainer (6), on the framework (X) being adjustably arranged on machine swingable relative to the horizontal longitudinal axes of yarn cylinder (2) (20).

4. textile machinery according to claim 3, it is characterized in that, described shared retainer (6) is provided with a pair teat (the 60th, 61) on the downside of it, thus it swingable relative to the horizontal longitudinal axes of yarn cylinder (2) (20) be adjustably arranged on machine or on the framework (X) of station.

5. textile machinery according to claim 3, it is characterized in that, in framework (X), there is a pair through hole, wherein one of through hole is formed by the through groove being configured to one section of circular arc, it is centrally located at the center of the second hole (X0), described second hole (X0) is formed by through cylindrical hole, and shared retainer (6) is swingable relative to the horizontal longitudinal axes of yarn cylinder (2) (20) is adjustably arranged on these through holes.

6. textile machinery according to claim 3, it is characterized in that, it is formed a pair through groove (X0) in framework (X), its further groove (X0) is straight or curved, and tilt towards each other and away from each other, and shared retainer (6) is swingable relative to the horizontal longitudinal axes of yarn cylinder (2) (20) is adjustably arranged on them.

7. the textile machinery according to claim 2-6, it is characterized in that, on shared retainer (6), front side at the traversing guiding piece (30) of yarn (0), removably being configured with auxiliary compensation device (7), it has the leading edge (70) of shaped profile on traversing width.

8. textile machinery according to claim 7, it is characterized in that, the leading edge (70) of auxiliary compensation device (7) has different contour shapes for the longitudinal axis (50) of take-up roll (5) for the different size of angle of inclination (α) of the horizontal longitudinal axes (20) of yarn cylinder (2).

9. textile machinery according to claim 8, it is characterised in that the leading edge (70) of the auxiliary compensation device (7) for winding yarn cone has asymmetric profile.

10. textile machinery according to claim 8, it is characterised in that the leading edge (70) of the auxiliary compensation device (7) for winding yarn cone has symmetrical profiles.

11. textile machineries according to claim 2, it is characterized in that, take-up roll (5) is provided with Standalone Drives, this Standalone Drives is made up of the motor in the inner space of the cylinder shape housing being built in take-up roll (5), wherein the cylinder shape housing of take-up roll (5) constitutes the rotor of the Standalone Drives of take-up roll (5), and the outer surface of the cylinder shape housing of take-up roll (5) is intended to contact with powered yarn cylinder (2), and rolled on the outer surface of the cylinder shape housing of take-up roll (5) by yarn cylinder (2) and drive yarn cylinder (2).