CN219972588U - Yarn separating and texturing machine - Google Patents

Abstract

The utility model relates to a yarn separating and texturing machine which comprises a main frame, wherein auxiliary frames are arranged on two sides of the main frame, a yarn stock frame is arranged on one side of each auxiliary frame, a conveying device, a heating device and a false twisting device are arranged on the main frame, a winding device is arranged on each auxiliary frame, a foot pedal is arranged between the main frame and each auxiliary frame, and a yarn detector is arranged on each foot pedal. The utility model directly false twists the precursor wires after heating and deforming, reduces the wire paths, furthest reduces the tortuosity and friction of the wires in the spinning process, reduces the damage of the wire channel to the wires, and furthest reduces the generation of powdery mildew and broken wires. And the raw yarn unwinding device is arranged on the outer side of the auxiliary frame and acts together with the roller I and the roller II to ensure the consistency of unwinding tension and ensure the tension requirement of the subsequent process.

Description

Yarn separating and texturing machine

Technical Field

The utility model relates to a texturing machine, in particular to a split texturing machine which is mainly used for false twist texturing of silk yarns.

Background

The texturing machine is equipment for drawing and false twisting (texturing) terylene, chinlon pre-oriented yarns or other colored yarns, and the traditional texturing machine comprises a conveying device, a heating device, a cooling device, a false twisting device, a post-processing device and a winding device, wherein the silk yarns are cooled after being heated and deformed, and then are subjected to post-processing and shaping. The texturing machine has a complex structure, occupies a large area, has a long yarn path in the spinning process, is easy to damage the yarn, and increases the generation probability of powdery mildew and broken yarn. And the existing texturing machine directly and vertically places a precursor unwinding barrel on a precursor rack, so that the silk yarns are loose and easy to knot under the action of vertical gravity or are broken due to friction during filament withdrawal, thereby influencing the twisting tension of the silk yarns, being unfavorable for the subsequent filament separation and finally influencing the operation rate of a loom and the quality of twisted silk yarns.

The present utility model has been made based on this.

Disclosure of Invention

The present utility model is directed to a yarn separating and texturing machine for texturing various types of FDY yarn and then separating the yarn by a subsequent yarn separating machine, thereby producing monofilaments (European yarn) with curling characteristics, which can be used as a fashion fabric, and which is also commonly used for wedding dress making, various dress skirts, curtains, cloth arts, performance clothes, etc. due to its stiff and smooth texture.

The utility model optimizes the yarn path, realizes radial unwinding of the precursor yarn, ensures that the monofilaments in the fiber bundle are parallel to each other, and reduces the generation of powdery mildew and broken filaments.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the yarn separating and texturing machine comprises a main frame, wherein auxiliary frames are arranged on two sides of the main frame, a yarn stock frame is arranged on one side of each auxiliary frame, a conveying device, a heating device and a false twisting device are arranged on the main frame, a winding device is arranged on each auxiliary frame, a foot pedal is arranged between the main frame and each auxiliary frame, and a yarn detector is arranged on each foot pedal; the heating device is vertically installed, and the wire path of the heating device is an upright wire path.

The conveying device comprises an I roller, a II roller and a III roller, wherein the I roller is positioned between the main frame and the auxiliary frame, the II roller is positioned between the I roller and the heating device, and the III roller is positioned below the false twisting device.

An I roller yarn moving device is arranged on one side of the I roller, an II roller yarn moving device is arranged on one side of the II roller, and a III roller yarn moving device is arranged on one side of the III roller.

And a shredder is arranged between the auxiliary frame and the I roller.

The winding device comprises a grooved drum box, a friction roller is arranged on one side of the grooved drum box, and a drum rack is arranged on one side of the friction roller.

The device is characterized in that a primary wire unwinding device is mounted on the auxiliary frame and comprises an unwinding shaft, a shaft sleeve is arranged outside the unwinding shaft, a front disc and a rear disc are respectively arranged at two ends of the shaft sleeve, the front disc is movably connected with the shaft sleeve, a screw sleeve is arranged on one side of the front disc, the screw sleeve is fixed with the shaft sleeve, a tensioning piece is arranged between the front disc and the rear disc, a tensioning spring is arranged outside the tensioning piece, and a primary wire cylinder is sleeved outside the tensioning spring.

The front disc and the rear disc are both provided with slopes, and two ends of the tensioning sheet are positioned on the slopes.

An unwinding shaft seat is arranged at the end part of the unwinding shaft, the unwinding shaft seat is arranged on the upright post, and the unwinding shaft seat is connected with the rear disc.

And a space ring is arranged between the unwinding shaft seat and the shaft sleeve.

The yarn separating and texturing machine has the following beneficial effects:

1. the utility model directly false twists the precursor wires after heating and deforming, reduces the wire paths, furthest reduces the tortuosity and friction of the wires in the spinning process, reduces the damage of the wire channel to the wires, and furthest reduces the generation of powdery mildew and broken wires. And the precursor unwinding device is arranged at the outer side of the auxiliary frame, so that the mutual balance of filaments in the unwinding process is ensured, the filament paths are reasonable, mutual interference is avoided, and the smooth filament separation of the subsequent process is ensured. And the tension control device is combined with the roller I and the roller II to ensure the consistency of unwinding tension and ensure the tension requirement of the subsequent process.

2. The heating device is vertically arranged, so that the yarn path is an upright yarn path, the transmission of twist is facilitated, the full deformation and the distortion of fibers are ensured, and the quality of finished yarn is ensured.

3. The winding device is a large-package finished silk winding mechanism, the winding diameter of the finished silk can be 400mm, special anti-overlapping measures such as retraction of an electric triangular wave disturbance signal into a winding stroke are adopted to avoid overlapping positions so as to ensure the consistency and stability of winding formation, the reversing position is slightly moved, the number of silk rings at the end part of a package is reduced, the spinning convex edge is woven, the surface of the package is smoother, and the appearance is more attractive. The process of the area with too small winding tension is shortened, the edge expansion on the winding can be hidden, and the shape of the end face of the winding can be improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic structural view of a filament unwinding device according to the present utility model;

wherein 1 is a yarn former, 2 is a yarn cutter, 3 is a roller I, 4 is a heating device, 5 is a main frame, 6 is a sub-frame, 7 is a false twisting device, 8 is a roller III, 9 is a pedal, 10 is a roller I yarn moving, 11 is a roller II yarn moving, 12 is a roller II, 13 is a bobbin frame, 14 is a friction roller, 15 is a groove drum box, 16 is a roller III yarn moving, 17 is a yarn detector, 18 is a yarn unwinding device, 181 is an unwinding shaft, 182 is a shaft sleeve, 183 is a front disc, 184 is a rear disc, 185 is a screw sleeve, 186 is a tension sheet, 187 is a tension spring, 188 is a yarn drum, 189 is a slope, 1810 is an unwinding shaft seat, 1811 is a column, 1812 is a spacer, and 1813 is a yarn.

Detailed Description

The present utility model will be further described with reference to specific examples, but the scope of the present utility model is not limited thereto.

As shown in fig. 1, the yarn separating and texturing machine comprises a main frame 5, auxiliary frames 6 are arranged on two sides of the main frame 5, and a yarn feeding frame 1 is arranged on one side of each auxiliary frame 6. The main frame 5 is provided with a conveying device, a heating device 4 and a false twisting device 7, the auxiliary frame 6 is provided with a winding device, the winding device comprises a groove drum box 15, one side of the groove drum box 15 is provided with a friction roller 14, and one side of the friction roller 14 is provided with a drum rack 13. Be equipped with step board 9 between main frame 5 and the subframe 6, install silk detector 17 on the step board 9, be equipped with filament cutter 2 between subframe 5 and the I roller 3, silk detector 17 and filament cutter 2 make the spinning in-process produce when breaking the head former silk 1813 cut off by filament cutter 2 and hold, guarantee no longer to feed and wind the roller to reduce loss, raise the efficiency.

Further, the conveying device in the utility model comprises an I roller 3, an II roller 12 and an III roller 8,I, wherein the roller 3 is positioned between the main frame 5 and the auxiliary frame 6, the II roller 12 is positioned between the I roller 3 and the heating device 4, and the III roller 8 is positioned below the false twisting device 7. And, I roller moves silk 10, II roller 12's one side is installed to I roller 3's one side, and II roller moves silk 11, III roller 8's one side is installed III roller and moves silk 16.

Further, as shown in fig. 2, the auxiliary frame 6 of the utility model is provided with the precursor unwinding device 18, the precursor unwinding device 18 comprises an unwinding shaft 181, a shaft sleeve 182 is arranged outside the unwinding shaft 181, two ends of the shaft sleeve 182 are respectively provided with a front disc 183 and a rear disc 184, the front disc 183 is movably connected with the shaft sleeve 182, one side of the front disc 183 is provided with a screw sleeve 185, the screw sleeve 185 is fixed with the shaft sleeve 182, a tensioning sheet 186 is arranged between the front disc 183 and the rear disc 184, the front disc 183 and the rear disc 184 are respectively provided with a slope 189, and two ends of the tensioning sheet 186 are positioned on the slope 189. The outer part of the tensioning sheet 186 is provided with a tensioning spring 187, and the outer part of the tensioning spring 187 is sleeved with a precursor tube 188. An unwinding shaft seat 1810 is arranged at the end part of the unwinding shaft 181, and a spacer 1812 is arranged between the unwinding shaft seat 1810 and the shaft sleeve 182. The unwind shaft seat 1810 is mounted on the upright 1811 and the unwind shaft seat 1810 is connected to the rear disc 4.

When the precursor unwinding device 18 is used, the precursor cylinder 188 is sleeved on the tensioning spring 187, the screw sleeve 185 is screwed, the screw sleeve 185 drives the front disc 183 to move left and right, the tensioning sheet 186 is enabled to move outwards through the slope 189 of the front disc 183, and accordingly the tensioning spring 187 is driven to move outwards, and finally, the precursor 1813 sleeved outside the tensioning spring 187 is tensioned. Radial unwinding of the precursor filaments 1813 is realized, the filaments in the fiber bundle are ensured to be parallel to each other, the stability of unwinding tension is ensured, and the requirement of subsequent processing is met.

When the yarn winding device is used, after passing through the yarn unwinding device 18, the yarn 1813 sequentially passes through the roller I10, the roller I3, the roller II 11 and the roller II 12, enters the heating device 4 for heating deformation, then directly enters the false twisting device 7 for false twisting, and the yarn after the false twisting enters the winding device for winding through the roller III 16 and the roller III 8. The utility model greatly reduces the yarn path, furthest reduces the bending and friction of the yarn in the spinning process, reduces the damage of yarn channels to the yarn, and furthest reduces the generation of powdery mildew and broken yarn.

The above embodiments are only for illustrating the inventive concept of the present utility model and not for limiting the protection of the claims of the present utility model, and all the insubstantial modifications of the present utility model using the concept shall fall within the protection scope of the present utility model.

Claims (9)

1. The utility model provides a divide silk to add bullet machine, includes the main frame, the main frame both sides all are equipped with the auxiliary frame, one side of auxiliary frame is equipped with former silk frame, its characterized in that: the main frame is provided with a conveying device, a heating device and a false twisting device, the auxiliary frame is provided with a winding device, a foot pedal is arranged between the main frame and the auxiliary frame, and the foot pedal is provided with a yarn detector; the heating device is vertically installed, and the wire path of the heating device is an upright wire path.

2. The split texturing machine of claim 1, wherein: the conveying device comprises an I roller, a II roller and a III roller, wherein the I roller is positioned between the main frame and the auxiliary frame, the II roller is positioned between the I roller and the heating device, and the III roller is positioned below the false twisting device.

3. The split texturing machine of claim 2, wherein: an I roller yarn moving device is arranged on one side of the I roller, an II roller yarn moving device is arranged on one side of the II roller, and a III roller yarn moving device is arranged on one side of the III roller.

4. The split texturing machine of claim 1, wherein: and a shredder is arranged between the auxiliary frame and the I roller.

5. The split texturing machine of claim 1, wherein: the winding device comprises a grooved drum box, a friction roller is arranged on one side of the grooved drum box, and a drum rack is arranged on one side of the friction roller.

6. The split texturing machine of claim 1, wherein: the device is characterized in that a primary wire unwinding device is mounted on the auxiliary frame and comprises an unwinding shaft, a shaft sleeve is arranged outside the unwinding shaft, a front disc and a rear disc are respectively arranged at two ends of the shaft sleeve, the front disc is movably connected with the shaft sleeve, a screw sleeve is arranged on one side of the front disc, the screw sleeve is fixed with the shaft sleeve, a tensioning piece is arranged between the front disc and the rear disc, a tensioning spring is arranged outside the tensioning piece, and a primary wire cylinder is sleeved outside the tensioning spring.

7. The split texturing machine of claim 6, wherein: the front disc and the rear disc are both provided with slopes, and two ends of the tensioning sheet are positioned on the slopes.

8. The split texturing machine of claim 6, wherein: an unwinding shaft seat is arranged at the end part of the unwinding shaft, the unwinding shaft seat is arranged on the upright post, and the unwinding shaft seat is connected with the rear disc.

9. The split texturing machine of claim 6, wherein: and a space ring is arranged between the unwinding shaft seat and the shaft sleeve.