CN112709024A

CN112709024A - Small tool to unreel silk winding yarn sheet drying device and method

Info

Publication number: CN112709024A
Application number: CN201911016773.8A
Authority: CN
Inventors: 江文斌; 赵兰; 谢乃钧
Original assignee: Guangxi Jingxi Xinsheng Silk Technology Co ltd; Zhejiang University of Technology ZJUT
Current assignee: Guangxi Jingxi Xinsheng Silk Technology Co ltd; Zhejiang University of Technology ZJUT; Zhejiang Sci Tech University ZSTU; Zhejiang University of Science and Technology ZUST
Priority date: 2019-10-24
Filing date: 2019-10-24
Publication date: 2021-04-27

Abstract

The invention provides a small-sized container

Device and method for drying bobbin filament

After the soaking and the moistening are carried out,placed in a water tank from childhood

The unwound yarn is wound on a edgeless bobbin through a yarn guide hook, a broken end inductor, a tensioner and a yarn guide. The upper part of the edgeless bobbin is provided with an infrared lamp tube parallel to the edgeless bobbin, a temperature sensor for detecting infrared heating temperature is arranged between the edgeless bobbin and the edgeless bobbin, the temperature sensor is connected with a temperature controller, the temperature controller controls the working state of the infrared lamp tube through PID adjustment according to the comparison between the actual temperature detected by the temperature sensor and the set temperature, and the moisture regain requirement of the filament after the bobbin is formed is met. The bobbin winder is insulated by a left cover plate and a right cover plate which are connected through a connecting plate, a rear cover plate and an upper cover plate, a lower baffle plate is hung on the lower edge of the upper cover plate, and strand silk is in a heating space formed by the lower baffle plate, the upper cover plate, the left cover plate, the right cover plate and the rear cover plate when being wound into a bobbin, so that the bobbin winder has a better heating effect.

Description

Small tool to unreel silk winding yarn sheet drying device and method

Technical Field

The invention relates to a small-sized container

A device and a method for drying a bobbin filament, in particular to a wet yarn

A device and a method for drying spooled yarn pieces.

Background

The traditional silk making process and weaving process are complicated and complicated, and the silk is wound to be small through the silk reeling process

Then, the twisted wire is obtained through the working procedures of re-rolling, braiding, twisting, packaging and the like; the process steps of meridian, doubling, twisting, sizing and the like are carried out to obtain the cylindrical silk so as to meet the requirements of the subsequent weaving process and the like. The main process flow is as follows: fresh cocoon → baked cocoon → cocoon peeling → cocoon selection → boiled cocoon → silk reeling → vacuum moistening → re-shaking → weaving silk → silk reeling → packing → finished product; in silk factories, the packaged raw silk is unpacked, and the weaving requirements can be met after the procedures of soaking → airing → silk winding → doubling → two-for-one twisting → shaping → rewinding → moisture retention and the like.

The traditional silk making process and the weaving process have the following problems: (1) the process flow is long, the packing and unpacking work is repeatedly carried out, and the intelligent degree is low. (2) In the process of re-rolling finishing and hank silk soaking, the silk strips are easy to tangle, and in the subsequent winding, doubling, twisting and weaving processes, the broken ends are easy to occur, the raw material loss is large, and the production efficiency and the fabric quality are seriously influenced. (3) In the process of soaking and airing the twisted silk, a large amount of manpower and material resources are needed to complete the process, and time and labor are wasted.

Disclosure of Invention

The first purpose of the present invention is to provide a small-sized container, which is suitable for the problems of the prior art

A method for drying a spooled yarn sheet mainly aims at solving the problem of small volume when shortening the process flow of yarn making and weaving

Can not be directly dried into a cylinder. The technical problem of the invention is mainly solved by the following technical scheme:

small

The winding yarn sheet drying method comprises the following steps:

(1) soaking: will be small

Placing the film in a vacuum humidifying device for vacuum humidifying;

(2) barrel forming and drying: small

Soaking and wetting, and placing in water tank for killing baby

The unwound yarn passes through a yarn guide hook, a broken end inductor and a tensioner, then is wound on a yarn guide and is wound on a edgeless bobbin of a bobbin winder, and each edgeless bobbin corresponds to a small bobbin

When the filament is wound on the edgeless bobbin, the filament wound on the edgeless bobbin is dried by an infrared heating device above the edgeless bobbin, and the filament is wound back and forth along the length direction of the edgeless bobbin under the action of a yarn guide,

further: when the filament is wound on the edgeless bobbin, the filament is dried by an infrared lamp tube which is matched with the full length of the edgeless bobbin and is positioned above the edgeless bobbin and parallel to the edgeless bobbin; the distance from the infrared lamp tube to the surface of the edgeless bobbin is 80-150 mm. The temperature around the temperature sensor is used for regulating and controlling the square infrared heating device, when the temperature around the temperature sensor is lower than a certain set value, the infrared heating device is started, and when the temperature around the temperature sensor is higher than the certain set value, the infrared heating device is stopped. The moisture regain of the silk slices after silk winding is controlled to be 12-14% under the action of an infrared heating device. The moisture regain of the wound yarn sheet means the percentage of moisture contained in the wound raw yarn to the dry weight thereof.

Further: the distance from the infrared lamp tube to the surface of the edgeless bobbin is 80-150mm, the temperature controller can be set at 55-70 ℃, and the moisture regain of the silk slices after winding can be controlled at 12-14%.

Another object of the invention is to provide a small container

Method for drying bobbin filament

The bobbin filament drying device is small in realization

Directly drying the soaked raw silk into a cylinder, shortening the technological process of silk and silk, reducing labor force, improving productivity and reducing raw silk damage and raw material loss caused by operation of each procedure. Therefore, the invention adopts the following technical scheme:

small

Method for drying bobbin filament

The device for drying the wound yarn sheets is characterized by comprising a small drum

The mounting position of the water tank and the edgeless bobbin is at the small part

A thread guide hook, a broken end inductor, a tensioner and a thread guide are sequentially arranged between the positions where the water tank and the edgeless bobbin are located; an infrared lamp tube parallel to the edgeless cylinder is arranged above the edgeless cylinder, a temperature sensor is arranged between the infrared lamp tube and the edgeless cylinder, and the temperature sensor is connected with a temperature controller.

Furthermore, the heat-insulating cover body comprises a left cover plate, a right cover plate, a rear cover plate, an upper cover plate, a top connecting plate, an upper baffle plate and a lower baffle plate, wherein the upper baffle plate is connected with the upper cover plate through a fixed hinge and can be turned upwards around the fixed hinge, the lower baffle plate is hung on the lower edge of the upper baffle plate, and the edgeless cylinder is positioned in the heat-insulating cover body.

Furthermore, when the edgeless bobbin is wound and formed, the motor drives the edgeless bobbin to rotate, and the yarn guide swings back and forth along the direction parallel to the edgeless bobbin, so that the yarn guide is small

The silk above can be uniformly wound on a edgeless bobbin after passing through the silk guide.

Furthermore, the infrared lamp tube is arranged on a lamp shade, the lamp shade is provided with an adjusting rod, and the adjusting rod is fixed at the top of the device through a fastening nut.

Furthermore, the broken end inductor adopts a photoelectric or capacitance induction mode, the strand silk passes through a U-shaped induction groove of the broken end inductor, when the strand silk is broken in the process of winding the strand silk to the edgeless bobbin, the broken end inductor cannot detect the strand silk, and the driving motors of the edgeless bobbin and the yarn guide can stop working.

Furthermore, a sprinkling pipe is arranged above the water tank.

Furthermore, the front angle of the upper cover plate is less than 85 degrees, so that the upturned upper baffle plate can be kept against falling freely on the upper cover plate in the morning; the upper baffle plate is provided with a transparent plate so as to observe the running condition of the machine and timely process faults.

The invention is small in realization

The obtained product can be directly used as silk for a weaving previous process, a large number of processes such as re-shaking finishing, silk twisting soaking and the like are omitted, the silk and silk process flow is shortened, labor is reduced, the productivity is improved, and meanwhile, raw silk damage and raw material loss caused by operation of each process are reduced.

Drawings

FIG. 1 is a front view of the apparatus of the present invention;

FIG. 2 is a side view of the apparatus of the present invention;

in the figure: 1-adjusting a rod; 2-upper cover plate; 3-edgeless bobbin; 4-connecting plates; 5-a temperature sensor; 6-temperature control instrument; 7-infrared lamp tube; 8-a tensioner; 9-a wire guide hook; 10-strand silk; 11-an upper baffle plate; 12-a thread guide; 13-a broken end inductor; 14-a water tank; 15-small

16-a left cover plate; 17-a right cover plate; 18-a rear housing plate; 19-a fixed hinge; 20-a lower baffle; 21-a lampshade; 22-a fastening nut; 23-a sprinkler pipe; 24-transparent plate.

The specific implementation mode is as follows:

the invention is described in further detail with reference to the figures and specific embodiments.

The provided small of the embodiment

The wound yarn sheet drying device is shown in fig. 1 and 2:

small

15 are soaked and moistened, and then are placed in a water tank 14 for use from a small place

The silk 10 unwound from the 15 passes through the silk guide hook 9, the broken end inductor 13 and the tensioner 8, and then is wound on the silk guide 12 and is wound on the edgeless bobbin 3 of the winding machine. In the apparatus, a plurality of cells are generally performed simultaneously

15, a plurality of edgeless bobbins 3 are arranged in the device, and each edgeless bobbin 3 corresponds to one small bobbin

15, the said multiple edgeless bobbins 3 are set up above in the apparatus in parallel with each other and the end is forward, facilitate the change of the edgeless bobbin 3 and reduce the volume of the apparatus. An infrared lamp tube 7 parallel to the edgeless bobbin 3 is arranged above the edgeless bobbin 3, so that uniform drying and heating are facilitated, a temperature sensor 5 for detecting infrared heating temperature is arranged between the edgeless bobbin 3 and the edgeless bobbin, the temperature sensor 5 is connected with a temperature controller 6, the temperature controller 6 controls the working state of the infrared lamp tube 7 through PID adjustment according to the comparison between the actual temperature detected by the temperature sensor 5 and the set temperature, and the moisture regain requirement of the filament sheet after the filament sheet is formed into a tube is met. The heat preservation cover body of the device is a fixed cover body formed by connecting a left cover plate 16, a right cover plate 17, a connecting plate 4, a rear cover plate 18 and an upper cover plate 2, wherein the connecting plate is positioned above the fixed cover body and plays a role of supporting and connecting the upper cover plate 2 and the rear cover plate 18, the upper baffle plate 11 is connected with the upper cover plate 2 through a fixed hinge 19 and can be turned upwards around the fixed hinge 19, the lower baffle plate 20 is hung on the lower edge of the upper baffle plate 11, and a strand silk 10 is in a heating space formed by the lower baffle plate 20, the upper baffle plate 11, the upper cover plate 2, the left cover plate 16, the right cover plate 17, the rear cover plate 18 and the connecting plate 4 during winding.

When the edgeless bobbin 3 is wound and formed, the motor drives the edgeless bobbin 3 to rotate, and the yarn guide 12 moves towards the direction parallel to the edgeless bobbin 3Repeated swinging to small

The thread 10 on the thread guide device 12 can be uniformly wound on the edgeless bobbin 3.

The infrared lamp tube 7 is arranged on the lampshade 21, the lampshade 21 is provided with an adjusting rod 1, and the adjusting rod 1 is fixed on the top surface of the upper cover plate 2 through a fastening nut 22. When the infrared lamp tube 7 generates heat, the lampshade 21 can play an effective reflection effect, so that infrared heat can be better intensively radiated to the silk sheets wound on the edgeless bobbin 3, and the drying efficiency is improved. According to the drying process and the operation requirement, the distance between the lampshade 21 and the infrared lamp tube 7 and the edgeless bobbin 3 can be changed through the lifting adjusting rod 1, and preferably, the distance between the infrared lamp tube 7 and the surface of the edgeless bobbin 3 is 80-150 mm.

For the broken end inductor 13, the strand silk 10 passes through a U-shaped induction groove of the broken end inductor 13, the broken end inductor 13 adopts a photoelectric or capacitance induction mode, when the strand silk 10 is broken in the winding process, the broken end inductor 13 cannot detect the strand silk, namely, the driving motors of the bobbin 3 and the yarn guide 12 can stop working, and the bobbin 3 and the yarn guide 12 can stop working.

In practical use, when the broken end needs to be treated, the lower baffle plate 20 can be taken down, the upper baffle plate 11 rotates around the fixed hinge 19 to turn upwards and lean against the upper cover plate 2, the angle of the front surface of the upper cover plate 2 is less than 85 degrees, and the upper baffle plate 11 can be kept not to fall down freely.

In order to observe the working state of the edgeless bobbin 3 and the upper infrared lamp tube 7, the upper baffle 11 is provided with a transparent plate 24 so as to observe the running state of the machine and process faults in time.

A sprinkling pipe 23 is arranged above the water tank 14 and is small

15 can lose part of water when winding for a long time, is not beneficial to unwinding, is easy to generate broken ends, can influence the moisture regain of the wound silk simultaneously, causes uneven drying, and needs to be small when winding

15 the silk slices are sprayed with water at proper time to keep a wet state.

The tensioner 8 adopts an adjustable clamping type, when the strand silk passes through the tensioner, the tension during winding is adjusted according to the clamping degree of the tensioner, and the winding tension is controlled to be 1-3 cN.

The above description is only an embodiment of the present invention, but the structural features of the present invention are not limited thereto, and any changes or modifications within the scope of the present invention by those skilled in the art are covered by the present invention.

The method provided by the present invention is further specifically illustrated by the following examples.

Example 1: a small of this example

The method for drying the wound silk sheet comprises selecting small summer cocoon reeled in 2017 of Guangxi Napo

The method comprises the following steps:

small

Soaking and wetting, and placing in water tank for killing baby

The unwound yarn passes through a yarn guide hook, a broken end inductor and a tensioner, then is wound on a yarn guide and is wound on the edgeless bobbins of the device, and each edgeless bobbin corresponds to a small bobbin

When the silk is wound on the edgeless bobbin, the infrared lamp tube which is matched with the full length of the edgeless bobbin and is positioned above the edgeless bobbin is used for drying the silk in the full length range of the edgeless bobbin; the filament is wound back and forth along the length direction of the edgeless bobbin under the action of the filament guide, so that the drying uniformity is further improved, and a good drying effect is obtained. The distance from the infrared lamp tube to the surface of the edgeless bobbin is 100 mm. The temperature around the temperature sensor is used for regulating and controlling the infrared heating device, the set temperature is 55 +/-2 ℃, when the temperature around the temperature sensor is lower than 53 ℃, the infrared heating device is started, and when the temperature around the temperature sensor is higher than 57 ℃, the infrared lamp tube is closed. The moisture regain of the silk sheet after winding is 13.71% under the action of the infrared heating device.

Raw silk Performance index of example 1

Example 2: a small of this example

The method comprises the following steps:

small

Soaking and wetting, and placing in water tank for killing baby

When the silk is wound on the edgeless bobbin, the infrared lamp tube which is matched with the full length of the edgeless bobbin and is positioned above the edgeless bobbin is used for drying the silk in the full length range of the edgeless bobbin; the filament is wound back and forth along the length direction of the edgeless bobbin under the action of the filament guide, so that the drying uniformity is further improved, and a good drying effect is obtained. The distance from the infrared lamp tube to the surface of the edgeless bobbin is 150 mm. The temperature around the temperature sensor is used for regulating and controlling the infrared heating device, the set temperature is 60 +/-2 ℃, when the temperature around the temperature sensor is lower than 58 ℃, the infrared heating device is started, and when the temperature around the temperature sensor is higher than 62 ℃, the infrared lamp tube is closed. The moisture regain of the silk sheet after winding is 12.86% under the action of the infrared heating device.

Raw silk Performance index of example 2

Claims

1. Small

The winding yarn sheet drying method comprises the following steps:

(1) soaking: will be small

Placing the film in a vacuum humidifying device for vacuum humidifying;

(2) barrel forming and drying: small

Soaking and wetting, and placing in water tank for killing baby

When the filament is wound on the edgeless bobbin, the filament wound on the edgeless bobbin is dried by an infrared heating device above the edgeless bobbin, and the filament is wound back and forth along the length direction of the edgeless bobbin under the action of a yarn guide.

2. A tablet as claimed in claim 1

The method for drying the spooled yarn sheets is characterized by comprising the following steps of: when the filament is wound on the edgeless bobbin, the filament is dried by an infrared lamp tube which is matched with the full length of the edgeless bobbin and is positioned above the edgeless bobbin and parallel to the edgeless bobbin; the distance from the infrared lamp tube to the surface of the edgeless bobbin is 80-200 mm. The temperature around the temperature sensor is used for regulating and controlling the square infrared heating device, when the temperature around the temperature sensor is lower than a certain set value, the infrared heating device is started, and when the temperature around the temperature sensor is higher than the certain set value, the infrared heating device is stopped. The moisture regain of the silk slices after silk winding is controlled to be 12-14% under the action of an infrared heating device.

3. A tablet as claimed in claim 1

The method for drying the spooled yarn sheets is characterized by comprising the following steps of: the distance from the infrared lamp tube to the surface of the edgeless bobbin is 80-150mm, the temperature controller can be set at 55-70 ℃, and the moisture regain of the silk slices after winding can be controlled at 12-14%.

4. Small

Method for drying bobbin filament

The device for drying the wound yarn is characterized by comprisingSmall

5. The capsule as claimed in claim 4

The winding yarn sheet drying device is characterized in that the device is provided with a heat-preserving cover body which comprises a left cover plate, a right cover plate, a rear cover plate, an upper cover plate, a top connecting plate, an upper baffle and a lower baffle, wherein the upper baffle is connected with the upper cover plate through a fixed hinge and can be turned upwards around the fixed hinge, the lower baffle is hung on the lower edge of the upper baffle, and a borderless bobbin is positioned in the heat-preserving cover body.

6. The capsule as claimed in claim 4

The drying device for the yarn winding sheet is characterized in that when the edgeless bobbin is wound and formed, the edgeless bobbin is driven by a motor to rotate, and a yarn guide reciprocates along the direction parallel to the edgeless bobbin to ensure that the yarn guide is small

7. The capsule as claimed in claim 4

The winding filament drying device is characterized in that the infrared lamp tube is arranged on a lamp shade, the lamp shade is provided with an adjusting rod, and the adjusting rod is fixed at the top of the device through a fastening nut.

8. The capsule as claimed in claim 4

The device for drying the wound yarn sheets is characterized in that a broken end inductor adopts a photoelectric or capacitive induction mode, the yarn passes through a U-shaped induction groove of the broken end inductor, when the yarn is broken in the winding process of the edgeless bobbin, the broken end inductor cannot detect the yarn, and the driving motors of the edgeless bobbin and the yarn guide can stop working.

9. The capsule as claimed in claim 4

The device for drying the spooled yarn sheets is characterized in that a water spraying pipe is arranged above the water tank.

10. The capsule as claimed in claim 5

The device for drying the spooled yarn sheets is characterized in that the angle of the front surface of an upper cover plate is less than 85 degrees, and an upturned upper baffle can be kept to lean against the upper cover plate and cannot fall down freely; the upper baffle plate is provided with a transparent plate so as to observe the running condition of the machine and timely process faults.