CN114875532A - Texturing equipment for super-soft fancy yarn - Google Patents

Abstract

The invention relates to an elasticizer for super soft fancy yarn, which comprises an elasticizer body, wherein the elasticizer body is internally provided with: the yarn feeding system is used for unwinding the raw silk yarn; the heating system heats the soft silk thread; the cooling system is used for cooling and shaping the high-temperature silk thread; a false twister false twisting the set yarn; the oiling system is used for oiling and lubricating the shaped silk threads; the winding device is used for winding the oiled silk thread; and the softening device is arranged between the yarn feeding system and the heating system and is used for softening the unwound silk yarn. The invention solves the problems that the prior softening treatment method for adding the elastic yarns is complex to operate and the softening performance of the yarns is difficult to obviously change.

Description

Texturing equipment for super-soft fancy yarn

Technical Field

The invention belongs to the technical field of textile machinery, and particularly relates to texturing equipment for super-soft fancy yarns.

Background

In the production process of the fancy yarn, filaments such as Polyester (POY), polypropylene and the like are unreeled from a yarn frame, are stretched and deformed in a plasticized state after passing through a heating oven, and are cooled and shaped to obtain the elastic yarn with medium elasticity and low elasticity. The fancy yarn processed by false twist deformation has good elasticity, but is difficult to meet the requirements of smooth and soft hand feeling of people, and still needs to be further softened in the subsequent production and processing process.

At present, Chinese patent with the patent application number of CN201811387346.6 discloses a technology for producing DTY yarns by an elasticizer, which can ensure POY protofilaments not to touch scales in a hot box by processing the scale thickness of the inner wall of the hot box. In addition, the oiling rate of the POY protofilament and the number of the friction disks are controlled, so that the generation of broken filaments is reduced, and the smooth hand feeling and the softness of the DTY are improved.

The texturing device reduces the generation of silk hair by reducing the contact and the pulling of the silk thread and scale, and can improve the flexibility of the silk thread to a certain extent, but the method has complex operation and the flexibility of the silk thread is difficult to generate obvious change. And other elasticizing devices used in the existing spinning processing can only elasticize the yarn without softening treatment, and if the yarn is to be softened, a softening step needs to be independently arranged, so that the production period is prolonged, and the production cost is increased.

Disclosure of Invention

The invention aims to solve the technical problem of providing texturing equipment for super-soft fancy yarns and solve the problems that the texturing method in the prior art is complex to operate and the softness of silk threads is difficult to change obviously.

In order to solve the technical problems, the invention adopts a technical scheme that: super soft fancy yarn add bullet equipment, including adding the bullet machine body, install in adding the bullet machine body:

the yarn feeding system is used for unwinding the raw silk yarn;

the heating system heats the soft silk thread;

the cooling system is used for cooling and shaping the high-temperature silk thread;

a false twister false twisting the set yarn;

the oiling system is used for oiling and lubricating the shaped silk thread;

the winding device is used for winding the oiled silk thread;

and the softening device is arranged between the yarn feeding system and the heating system and is used for softening the unwound silk yarn.

Further, the softening device comprises a silk thread guiding device, a softening agent storage cavity and a spraying nozzle; the softening agent storage cavity is positioned above the softening device and used for storing the softening agent required by the yarns; a filling opening is formed in the upper end of the softening agent storage cavity, a switch valve is arranged at the lower end of the softening agent storage cavity, and the softening agent is injected into the softening agent storage cavity from the filling opening and then flows into the spray pipe through the switch valve; the upper end of the spraying pipe is connected with the softening agent storage cavity, a plurality of spraying nozzles are arranged at the lower end at intervals, and the lower ends of the spraying nozzles are open, so that the softening agent can flow out conveniently.

Furthermore, the silk thread guiding device adopts yarn feeding rollers which are positioned at two ends of the softening device, and the silk threads are fed into the softening device through the yarn feeding rollers at one end and are taken out through the yarn feeding rollers at the other end.

Furthermore, an inclined groove is formed below the softening device, and the bottom end of the inclined groove is connected with a return pipe.

Furthermore, one end of the return pipe is provided with a pump, and the other end of the return pipe is connected to the softener storage cavity.

Furthermore, a liquid waste recovery pipe is connected to the bottom of the softener storage cavity through a liquid outlet.

Further, the yarn feeding system comprises a raw silk tube and a yarn feeding roller which are arranged on a raw silk frame, and the silk threads on the raw silk frame are sent to the softening device through the yarn feeding roller.

Further, the winding device comprises a wire frame and a wire barrel, and the treated stretch yarn is wound on the wire barrel.

Further, a filtering device is installed on the heating system.

Further, a yarn threading cylinder is arranged at the inlet end of the false twister.

The advantages of the invention are as follows:

the texturing equipment for the super-soft fancy yarn is improved on the basis of the original texturing machine, and a softening device is reasonably added. After the fancy yarns are processed by the texturing machine, the flexibility and the elasticity are improved to a certain degree, and the yarns do not need to be further subjected to softening treatment in the subsequent processing process. In addition, the softening device is arranged in a closed environment, the softening agent can be recycled under the action of the pump, the workshop environment cannot be influenced in the using process, and waste liquid flowing into the waste water recovery device waits for workshop workers to carry out uniform recovery treatment.

Drawings

Fig. 1 is a schematic structural view of texturing equipment for the super soft fancy yarn.

Fig. 2 is an internal structure view of the softening device according to the present invention.

Description of reference numerals: 1-a raw silk frame, 2-a raw silk barrel, 3-a yarn feeding roller, 4-a softening device, 5-a heating system, 6-a filtering device, 7-a cooling system, 8-a yarn threading barrel, 9-a false twister, 10-an oiling system, 11-a raw silk frame, 12-a yarn barrel, 41-a filling port, 42-a softening agent storage cavity, 43-a yarn feeding roller, 44-a switch valve, 45-a spray nozzle, 46-an inclined groove, 47-a return pipe, 48-a pump and 49-a liquid discharging port.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be embodied in other specific forms than those described herein, and it will be apparent to those skilled in the art that the present invention may be practiced without departing from the spirit and scope of the present invention.

The present invention will be described in further detail with reference to fig. 1 and 2.

The texturing equipment for the super-soft fancy yarn comprises: the yarn feeding system is arranged in the elasticizer body and is used for unwinding the raw silk yarns; the heating system 5 is used for heating the soft silk thread, and plasticizing the silk thread while shaping the softening agent; the cooling system 7 is used for cooling and shaping the high-temperature silk threads; a false twister 9 false twisting the set yarn; an oiling system 10, which is used for oiling and lubricating the shaped silk thread; the winding device is used for winding the oiled silk thread; and a softening device 4 which is installed between the yarn feeding system and the heating system 5 and which softens the unwound yarn.

The yarn feeding system comprises a package of raw silk 2 and a yarn feeding roller 3 mounted on a raw silk frame 1, the silk thread on the raw silk frame 1 is sent to a softening device 4 through the yarn feeding roller 3.

The winding device comprises a wire frame 11 and a wire barrel 12, and the treated stretch yarn is wound on the wire barrel 12.

A filter device 6 is mounted on the heating system 5.

A yarn threading cylinder 8 is arranged at the inlet end of the false twister 9.

As shown in fig. 2, the softening device 4 comprises a thread guide device, a softening agent storage chamber 42, a spray pipe, a return pipe and a waste liquid recovery pipe; the softening agent storage cavity 42 is positioned above the softening device 4 and is used for storing the softening agent required by the yarn; the upper end of the softener storage cavity 42 is provided with a filling port 41, the lower end of the softener storage cavity is provided with a switch valve 44, and the softener is injected into the softener storage cavity 42 from the filling port 41 and then flows into a spray pipe through the switch valve 44; the upper end of the spray pipe is connected with the softening agent storage cavity 42, a plurality of spray nozzles 45 are arranged at intervals at the lower end of the spray pipe, and the lower ends of the spray nozzles 45 are open, so that the softening agent can flow out conveniently; the silk thread guiding device adopts a yarn feeding roller 43, the yarn feeding roller 43 is positioned at two ends of the softening device 4, and the silk thread is fed into the softening device 4 through the yarn feeding roller 43 at one end and then taken out through the yarn feeding roller 43 at the other end; and opening a switch valve 44 on the softening agent storage cavity 42, enabling the softening agent to flow out through a spraying nozzle 45, soaking the silk threads below the spraying nozzle 45 by the softening agent, taking the silk threads out by a yarn feeding roller 43, and feeding the silk threads into the heating system 5 for subsequent texturing operation.

An inclined groove 46 is formed below the softening device 4, and redundant softening agent sprayed from the spray nozzle 45 flows into the inclined groove 46; because the bottom of the inclined groove 46 is inclined, the softener automatically flows into the bottom end of the inclined groove 46, and the bottom end of the inclined groove 46 is connected with a return pipe 47. The return pipe 47 has one end provided with a pump 48 and the other end connected to the softener storage chamber 42, and the softener stored in the return pipe 47 flows into the softener storage chamber 42 again under the action of the pump 48 for recycling.

A waste liquid recovery pipe is connected to the bottom of the softener storage chamber 42 through a liquid outlet 49; after the production of a batch of yarns is finished, the softener in the softener storage cavity 42 needs to be discarded, and the waste liquid can be recycled into a waste water collecting device by using a waste liquid recycling pipe at the bottom of the softener storage cavity 42 to wait for further treatment.

The working process of the invention is as follows:

untreated precursor filaments are unwound from a precursor filament bobbin 2, conveyed to a softening device 4 through a yarn feeding roller 3 for softening treatment, conveyed to a heating system 5 through the yarn feeding roller 3 for heating and plasticizing, and heated residual substances are absorbed through a filtering device 6. The plasticized and deformed silk threads are cooled by a cooling system 7 and then enter a false twister 9 through a yarn threading cylinder 8 to be subjected to false twisting deformation, so that the silk threads are endowed with required elasticity. The treated stretch yarn is oiled and lubricated by an oiling system 10, and finally wound on a new yarn drum 12, so that the soft texturing of the yarn is completed.

Factory workers add prepared thread softener to the softener storage chamber 42 via the filling port 41. When the silk thread is continuously conveyed forwards through the yarn feeding rollers 43 on the two sides of the softening device 4, the switch valve 44 is opened, so that the softening agent is continuously sprayed on the silk thread through the spraying nozzle 45, and the silk thread is soaked. The thread carries away a part of the softening agent, the excessive softening agent falls on the bottom of the inclined groove 46 and flows into the return pipe 47, and under the action of the pump 48, the excessive softening agent in the return pipe returns to the softening agent storage cavity again, so that the softening agent can be recycled. When a batch of yarn production finishes, the softener in the storage chamber needs abandonment processing, and waste liquid recovery pipe in usable storage chamber bottom retrieves the waste liquid to waste water collection device, waits for the workman to carry out safety processing.

The above detailed description is made on the texturing device for the super-soft fancy yarn provided by the present application, and a specific example is applied in the present application to explain the principle and the implementation manner of the present application, and the description of the above example is only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. The utility model provides an equipment that adds bullet of super soft fancy yarn which characterized in that, includes and adds the bullet machine body, installs in adding the bullet machine body:

the yarn feeding system is used for unwinding the raw silk yarn;

the heating system heats the soft silk thread;

the cooling system is used for cooling and shaping the high-temperature silk thread;

a false twister false twisting the set yarn;

the oiling system is used for oiling and lubricating the shaped silk thread;

the winding device is used for winding the oiled silk thread;

and the softening device is arranged between the yarn feeding system and the heating system and is used for softening the unwound silk yarn.

2. The texturing apparatus of the super soft effect yarn according to claim 1, wherein: the softening device comprises a silk thread guiding device, a softening agent storage cavity and a spraying nozzle; the softening agent storage cavity is positioned above the softening device and used for storing the softening agent required by the yarns; a filling opening is formed in the upper end of the softening agent storage cavity, a switch valve is arranged at the lower end of the softening agent storage cavity, and the softening agent is injected into the softening agent storage cavity from the filling opening and then flows into the spray pipe through the switch valve; the upper end of the spraying pipe is connected with the softening agent storage cavity, a plurality of spraying nozzles are arranged at the lower end at intervals, and the lower ends of the spraying nozzles are open, so that the softening agent can flow out conveniently.

3. The texturing apparatus of the super soft effect yarn according to claim 2, wherein: the silk thread guiding device adopts a yarn feeding roller wheel which is positioned at two ends of the softening device, and the silk thread is fed into the softening device through the yarn feeding roller wheel at one end and then taken out through the yarn feeding roller wheel at the other end.

4. The texturing apparatus of the super soft effect yarn according to claim 2, wherein: an inclined groove is formed below the softening device, and the bottom end of the inclined groove is connected with a return pipe.

5. The texturing apparatus of the super soft effect yarn according to claim 4, wherein: one end of the return pipe is provided with a pump, and the other end of the return pipe is connected to the softener storage cavity.

6. The texturing apparatus of the super soft effect yarn according to claim 2, wherein: the bottom of the softener storage cavity is connected with a waste liquid recovery pipe through a liquid outlet.

7. The texturing apparatus of the super soft effect yarn according to claim 1, wherein: the yarn feeding system comprises a raw silk barrel and a yarn feeding roller which are arranged on a raw silk rack, and the silk threads on the raw silk rack are sent to the softening device through the yarn feeding roller.

8. The texturing apparatus of the super soft effect yarn according to claim 1, wherein: the winding device comprises a wire frame and a wire barrel, and the treated stretch yarn is wound on the wire barrel.

9. The texturing apparatus of the super soft effect yarn according to claim 1, wherein: and installing a filtering device on the heating system.

10. The texturing apparatus of the super soft effect yarn according to claim 1, wherein: and a yarn threading cylinder is arranged at the inlet end of the false twister.

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