CN103074693A - POY (Polyester Pre-Oriented Yarn) spinning and winding device with double yarn guide rollers - Google Patents

Abstract

The invention discloses a POY (Polyester Pre-Oriented Yarn) spinning and winding device with double yarn guide rollers and aims at providing the POY spinning and winding device with double yarn guide rollers which can reduce yarn bundle vibration, control the evenness of POY spinning and winding tension, control POY yarn evenness and stabilize physical properties of products. The POY spinning and winding device with double yarn guide rollers comprises a hot spinning box, a bundle collecting mechanism, a pre-networking mechanism, a yarn guide hook, a winding head and the like. By additionally arranging the yarn guide rollers and a yarn separating assembly, the vibrating situation of POY yarns during production is effectively stabilized, the interior quality of the POY yarns is guaranteed and the POY spinning and winding device with double yarn guide rollers has the characteristics of simple structure, convenience in use, improved production efficiency, low cost and the like.

Description

The POY filament yarn winding apparatus of the two godet rollers of band

Technical field

Involved in the present invention is a kind of POY filament yarn winding apparatus, especially a kind of POY filament yarn winding apparatus with two godet rollers.

Background technology

Polyester filament POY(terylene pre-oriented fiber) production process comprises melt spinning-coiling and molding-test package, wherein melt spinning is step very important in the whole production process, this production process is to the normal stable vital effect that plays of following process, traditional polyester POY silk production process is that tow is after the spinnerets ejection, by cooling and the boundling that oils, directly being pulled to the winding head that has set process speed reels, tow by spinnerets to there being larger distance the winding head, add the circulation of air in lateral blowing and the workshop, tow is shaken, and do not had other tenslator.Therefore, the dried lack of homogeneity of POY strand of producing, the physical index fluctuation is larger, and particularly there is very large fluctuation in the debatching tension force of winding tension and rear processing, the stability of rear processing and end product quality are produced larger impact, the quality of product has been caused larger hidden danger.

Summary of the invention

The object of the invention is in order to solve the deficiency of above-mentioned technology, and provide a kind of minimizing tow to shake, control POY spinning silk winding even tension, the POY filament yarn winding apparatus of the two godet rollers of band of the dried uniformity of control POY bar and stable prod physical index and the spinning silk winding method of POY silk.

The POY filament yarn winding apparatus of the two godet rollers of the band of gained of the present invention, it comprises hot manifold, bunching mechansim, pre-network mechanism, traveller, winding head; Described pre-network mechanism comprises frame, the first live-roller, sub-wire assembly, the second live-roller, motor; Described traveller is arranged on the winding head, and be positioned at silk cylinder directly over; Described the first live-roller be connected live-roller and all be connected with motor, driven by motor the first live-roller and the second live-roller rotate; Described sub-wire assembly, the first live-roller, the second live-roller are arranged on the frame, and are positioned on the same horizontal plane of frame; Described sub-wire assembly, the first live-roller, the second live-roller are all between winding head and bunching mechansim.

Above-described frame can be one flat plate, also can be a polygon support, such as triangular supports, quadrangle support etc.; As preferably, described frame is fixed on the body of wall, can certainly fix on the ground, can also be fixed on the frame of winding head.When described frame is triangular supports, three limits of triangular supports are that angle iron stay consists of, as preferably, being arranged on wherein on the angle iron stay of sub-wire assembly, the first live-roller, the second live-roller, this angle iron stay one end and an angle iron stay clamping, the other end is flexibly connected by pin and another angle iron stay; The joint end that is provided with the angle iron stay of sub-wire assembly, the first live-roller, the second live-roller is outward extended with handle, and this angle iron stay of pulling handle can rotate around pin, thereby finishes the head that rises of silk.

As preferably, from traveller to the plane that the silk cylinder forms, perhaps the center line of the first live-roller and the second live-roller is parallel to silk from traveller to a plane that the silk cylinder forms perpendicular to silk for the first above-mentioned live-roller and the center line of the second live-roller.

As preferably, the first live-roller does not overlap with the projection of the center line in the vertical direction of the second live-roller.

Described sub-wire assembly comprises sub-wire device, pre-the nozzle of interlace, the pre-external vavuum pump of the nozzle of interlace; As preferably, the sub-wire device is two, and pre-the nozzle of interlace is arranged between two sub-wire devices.

The spinning silk winding method of POY silk: out POY silk from hot manifold, make silk integrated a branch of through beaming device successively, then successively by sub-wire assembly, the first live-roller, the second live-roller, traveller, enter at last winding head and be wound into spinning cake; The first live-roller be connected live-roller and all be connected their rotations of driven by motor with motor; Described sub-wire assembly, the first live-roller, the second live-roller are arranged on the same horizontal plane of frame.

The spinning silk winding method of POY silk: out POY silk from hot manifold, make silk integrated a branch of through beaming device successively, then successively by the first live-roller, pre-network mechanism, the second live-roller, traveller, enter at last winding head and be wound into spinning cake; The first live-roller be connected live-roller and all be connected with motor, they rotate driven by motor; Described pre-network mechanism, the first live-roller, the second live-roller are arranged on the same horizontal plane of frame.

The spinning silk winding method of POY silk: out POY silk from hot manifold, make silk integrated a branch of through beaming device successively, then successively by the first live-roller, the second live-roller, pre-network mechanism, traveller, enter at last winding head and be wound into spinning cake; The first live-roller be connected live-roller and all be connected with motor, they rotate driven by motor; Described pre-network mechanism, the first live-roller, the second live-roller are arranged on the same horizontal plane of frame.

As preferably, the filament yarn winding apparatus of gained of the present invention, with two godet rollers, comprise the hot case of spinning, creel, brandreth, the first live-roller, sub-wire assembly, the second live-roller, be characterized in before tow enters the winding head coiling, first by the first live-roller, the second live-roller, sub-wire assembly, then reeling, its purpose is in the shake that is to reduce tow, stablize spinning silk winding tension force, stablize the bar of POY silk and do and inherent physical index, guarantee the rear crudy of product, promote the POY product specification.

The POY filament yarn winding apparatus of the two godet rollers of the band of gained of the present invention, by installing godet roller and sub-wire assembly additional, effectively stablized POY silk jitter conditions in process of production, guaranteed the interior quality of POY silk, physical index to doing product is tested, the index of using this device such as: bar is done, tension force, the coefficient of variation etc. obviously are better than not using the product of producing of this device, and uses to produce behind this device and stablize, little breakage, the employee's of minimizing labour intensity.This plant modification is convenient simultaneously, and cost is lower, is conducive to the traditional forms of enterprises and popularizes in an all-round way, carries out the product transformation upgrading.Thereby, it have simple in structure, easy to use, enhance productivity and the characteristics such as cost is low.

Description of drawings

Fig. 1 is the structural representation of embodiment 1;

Fig. 2 is the structural representation of pre-network mechanism among the embodiment 1;

Fig. 3 is the structural representation of pre-network mechanism among the embodiment 2;

Fig. 4 is the structural representation of embodiment 3;

Fig. 5 is the structural representation of pre-network mechanism among the embodiment 3;

Fig. 6 is the structural representation of embodiment 4;

Fig. 7 is the structural representation of pre-network mechanism among the embodiment 5;

Fig. 8 is the structural representation of pre-network mechanism among the embodiment 6.

The specific embodiment

The invention will be further described below in conjunction with accompanying drawing.

Case study on implementation 1:

As shown in Figure 1 and Figure 2, the filament yarn winding apparatus of the two godet rollers of the described band of present embodiment, it comprises hot manifold 1, bunching mechansim 2, pre-network mechanism, traveller 7, winding head 8; Described pre-network mechanism comprises frame 3, the first live-roller 4, sub-wire assembly 5, the second live-roller 6, motor 9; Described traveller 7 is arranged on the winding head 8, and be positioned at winding head 8 the spinning cake shaping cylinder directly over; Described the first live-roller 4 be connected live-roller 6 and all be connected with motor 9, motor 9 drives the first live-rollers 4 and the second live-roller 6 rotates; Described sub-wire assembly 5, the first live-roller 4, the second live-roller 6 are arranged on the frame 3, and are positioned on the same horizontal plane of frame 3; Sub-wire assembly 5, the first live-roller 4, the second live-roller 6 is all between winding head 8 and bunching mechansim 2, described frame 3 is iron plate, thick about 2 centimetres iron plate of welding above coiler device, two diameters of leaving on iron plate are 10 centimetres circular hole, the first live-roller 4 is installed, the second live-roller 6, and a sub-wire assembly 5 is installed above the first live-roller 4, the first live-roller 4 is installed on the lower left of iron plate, the position of the second live-roller 6 of installing is in the upper right side of iron plate, and be positioned at the centre position of winding head 8, during the device operation, tow by 1 ejection of hot manifold through bunching mechansim 2 boundling that oils, by sub-wire assembly 5, at last by the left side successively through the first live-roller 4, traveller 7 on the second live-roller 6 and the winding head 8 enters winding head 8 and carries out coiling and molding; The plane that the center line of the first live-roller 4 and the second live-roller 6 forms from traveller 7 to the silk cylinder perpendicular to silk.

Case study on implementation 2:

As shown in Figure 3, the first live-roller 4 is installed on the lower right of iron plate 3, the second live-roller 6 is installed on the upper left side of iron plate 3, and be positioned at the centre position of winding head, during the device operation, through bunching mechansim 2 boundling that oils, by sub-wire assembly 5, last tow enters winding head through the traveller on the first live-roller 4, the second live-roller 6 and the winding head by the right side and carries out coiling and molding tow successively by 1 ejection of hot manifold; The center line of the first live-roller 4 and the second live-roller 6 is perpendicular to the plane of silk from traveller to the formation of silk cylinder.

Case study on implementation 3:

Such as Fig. 4, shown in Figure 5: the first live-roller 4 is installed on the lower right of iron plate 3, the second live-roller 6 is installed on the upper left side of iron plate 3, and be positioned at the centre position of winding head 8, during the device operation, tow by 1 ejection of hot manifold through bunching mechansim 2 boundling that oils, by sub-wire assembly 5, last tow enters winding head 8 through the traveller 7 on the first live-roller 4, the second live-roller 6 and the winding head successively by the right side and carries out coiling and molding; The center line of the first live-roller 4 and the second live-roller 6 is parallel to the plane that silk forms from traveller 7 to the silk cylinder.

Case study on implementation 4:

As shown in Figure 6: described traveller 7 is arranged on the winding head 8, and be positioned at winding head 8 the spinning cake shaping cylinder directly over; Described the first live-roller 4 be connected live-roller 6 and all be connected with motor, driven by motor the first live-roller 4 and the second live-roller 6 rotate; Described sub-wire assembly 5, the first live-roller 4, the second live-roller 6 are arranged on the frame 3, and are positioned on the same horizontal plane of frame 3; Sub-wire assembly 5, the first live-roller 4, the second live-roller 6 is all between winding head 8 and bunching mechansim 2, described frame 3 is iron plate, thick about 2 centimetres iron plate of welding above coiler device, two diameters of leaving on iron plate are 10 centimetres circular hole, the first live-roller 4 is installed, the second live-roller 6, and a sub-wire assembly 5 is installed above the first live-roller 4, the first live-roller 4 is installed on the lower left of iron plate, the position of the second live-roller 6 of installing is in the upper right side of iron plate, and be positioned at the centre position of winding head 8, during the device operation, tow by 1 ejection of hot manifold through bunching mechansim 2 boundling that oils, by sub-wire assembly 5, at last by the left side successively through the first live-roller 4, traveller 7 on the second live-roller 6 and the winding head 8 enters winding head 8 and carries out coiling and molding; The center line of the first live-roller 4 and the second live-roller 6 is parallel to the plane that silk forms from traveller 7 to the silk cylinder.

Case study on implementation 5:

As shown in Figure 7, the iron plate 3 of fixing the first live-roller 4, the second live-roller 6 and sub-wire assembly 5 changes to a tripod, directly carries out scrap build at tripod, has further saved the cost of transforming, and reduces taking of space.

Case study on implementation 6:

As shown in Figure 8: the iron plate 3 of fixing the first live-roller 4, the second live-roller 6 and sub-wire assembly 5 can change to a tripod, three limits of tripod are that angle iron stay consists of, as preferably, being arranged on wherein on the angle iron stay of sub-wire assembly 5, the first live-roller 4, the second live-roller 6, this angle iron stay one end and an angle iron stay clamping, the other end is flexibly connected by pin 10 and another angle iron stay; The joint end that is provided with the angle iron stay of sub-wire assembly 5, the first live-roller 4, the second live-roller 6 is outward extended with handle 11, and pulling handle 11 these angle iron stays can rotate around pin 10, thereby finishes the head that rises of silk; The first above-mentioned live-roller 4 and the center line of the second live-roller 6 are perpendicular to the plane of silk from traveller to the formation of silk cylinder.

Claims (10)

1. the POY filament yarn winding apparatus of the two godet rollers of band, it is characterized in that: it comprises hot manifold, bunching mechansim, pre-network mechanism, traveller, winding head; Described pre-network mechanism comprises frame, the first live-roller, sub-wire assembly, the second live-roller, motor; Described traveller is arranged on the winding head, and be positioned at silk cylinder directly over; Described the first live-roller be connected live-roller and all be connected with motor, driven by motor the first live-roller and the second live-roller rotate; Described sub-wire assembly, the first live-roller, the second live-roller are arranged on the frame, and are positioned on the same horizontal plane of frame; Described sub-wire assembly, the first live-roller, the second live-roller are all between winding head and bunching mechansim.

2. a kind of POY filament yarn winding apparatus with two godet rollers according to claim 1, it is characterized in that: described frame is one flat plate or polygon support.

3. a kind of POY filament yarn winding apparatus with two godet rollers according to claim 2, it is characterized in that: described polygon support is triangular supports.

4. a kind of POY filament yarn winding apparatus with two godet rollers according to claim 3, it is characterized in that: three limits of triangular supports are that angle iron stay consists of, being arranged on the same angle iron stay of sub-wire assembly, the first live-roller, the second live-roller, this angle iron stay one end and an angle iron stay clamping, the other end is flexibly connected by pin and another angle iron stay.

5. a kind of POY filament yarn winding apparatus with two godet rollers according to claim 4, it is characterized in that: the joint end that is provided with the angle iron stay of sub-wire assembly, the first live-roller, the second live-roller is outward extended with handle, and this angle iron stay of pulling handle can rotate around pin.

6. it is characterized in that according to claim 1 or 4 or 5 described a kind of POY filament yarn winding apparatus with two godet rollers: the center line of the first live-roller and the second live-roller perpendicular to silk from traveller to plane that the silk cylinder forms or the center line of the first live-roller and the second live-roller be parallel to silk from traveller to a plane that the silk cylinder forms.

7. according to claim 1 or 4 or 5 or 6 described a kind of POY filament yarn winding apparatus with two godet rollers, it is characterized in that: the first live-roller does not overlap with the projection of the center line in the vertical direction of the second live-roller.

8. the spinning silk winding method of a POY silk, it is characterized in that: out POY silk from hot manifold, make silk integrated a branch of through beaming device successively, then successively by sub-wire assembly, the first live-roller, the second live-roller, traveller, enter at last winding head and be wound into spinning cake; The first live-roller be connected live-roller and all be connected with motor, they rotate driven by motor; Described sub-wire assembly, the first live-roller, the second live-roller are arranged on the same horizontal plane of frame.

9. the spinning silk winding method of a POY silk, it is characterized in that: out POY silk from hot manifold, make silk integrated a branch of through beaming device successively, then successively by the first live-roller, sub-wire assembly, the second live-roller, traveller, enter at last winding head and be wound into spinning cake; The first live-roller be connected live-roller and all be connected with motor, they rotate driven by motor; Described sub-wire assembly, the first live-roller, the second live-roller are arranged on the same horizontal plane of frame.

10. the spinning silk winding method of a POY silk, it is characterized in that: out POY silk from hot manifold, make silk integrated a branch of through beaming device successively, then successively by the first live-roller, the second live-roller, sub-wire assembly, traveller, enter at last winding head and be wound into spinning cake; The first live-roller be connected live-roller and all be connected with motor, they rotate driven by motor; Described sub-wire assembly, the first live-roller, the second live-roller are arranged on the same horizontal plane of frame.

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