CN111005194A - Down jacket drying control method - Google Patents

Abstract

The invention relates to a down jacket drying control method, which comprises the following steps: step S1: hanging the cleaned down jacket, clamping the front and back surfaces of the down jacket by front and back rollers, rolling the rollers downwards along the surface of the down jacket, and extruding the adsorbed water in the down jacket in a roller clamping manner; step S2: blowing the surface of the down jacket processed in the step S1 by using warm air, rotating the suspended down jacket and circularly moving the suspended down jacket up and down; step S3: spreading the down jacket processed in the step S2, and introducing warm air from the bottom of the down jacket, wherein the warm air flows out from the neckline; step S4: while the step S3 is being performed, the surface of the down jacket is blown with warm air while the suspended down jacket is rotated and moved up and down circularly. The invention is convenient for improving the smoothness of the surface of the down jacket and can also improve the drying efficiency of the down jacket.

Description

Down jacket drying control method

Technical Field

The invention belongs to the technical field of down jacket drying, and particularly relates to a down jacket drying control method.

Background

The structure of the down jacket is more complex than that of a common coat, the fabric with high strength, softness, smoothness, cold-proof effect improvement is formed by multiple thin and compact terylene and chinlon fabrics on the outer surface, and a synthetic resin coating or resin finishing is arranged on the surface of a plurality of down jackets, so that the down jacket has better waterproof and air-permeable performance but is not wear-resistant; the middle layer of the down jacket generally comprises an anti-seepage layer which is used for preventing down from penetrating into the down jacket and is mainly composed of non-woven fabrics, so that the down jacket is low in strength and cannot resist frequent pulling; the down jacket is filled with goose down or duck down, so that the problems of poor stability, easy conglomeration during overturning, long drying time and the like exist.

Disclosure of Invention

The invention aims to solve the problems and provide a down jacket drying control method which is simple in structure and reasonable in design.

The invention realizes the purpose through the following technical scheme:

a drying control method for down jackets comprises the following steps:

step S1: hanging the cleaned down jacket, clamping the front and back surfaces of the down jacket by front and back rollers, rolling the rollers downwards along the surface of the down jacket, and extruding the adsorbed water in the down jacket in a roller clamping manner;

step S2: blowing the surface of the down jacket processed in the step S1 by using warm air, rotating the suspended down jacket and circularly moving the suspended down jacket up and down;

step S3: spreading the down jacket processed in the step S2, and introducing warm air from the bottom of the down jacket, wherein the warm air flows out from the neckline;

step S4: while the step S3 is being performed, the surface of the down jacket is blown with warm air while the suspended down jacket is rotated and moved up and down circularly.

As a further optimization scheme of the present invention, step S1: the down jackets are firstly arranged to be flat, the down jackets are directly hung from the neckline part through the clothes hanger, the rollers on the front and the back are mutually extruded and roll downwards, and the down jackets are circularly rolled and laminated for 5 to 10 times.

As a further optimization scheme of the present invention, step S2: the temperature of the warm air in the step is set between 15 and 25 ℃.

As a further optimization scheme of the present invention, step S2: the warm air temperature in this step is set to 20 degrees celsius.

As a further optimization scheme of the present invention, step S2: the warm air port in the step is fixed, and the warm air firstly blows the neckline of the down jacket and moves downwards from the neckline of the down jacket.

As a further optimization scheme of the present invention, step S3: the temperature of the warm air is set between 40 and 60 ℃.

As a further optimization scheme of the present invention, step S3: the warm air temperature in this step was set at 50 degrees celsius.

As a further optimization scheme of the present invention, step S4: the warm air port in the step is fixed, and the warm air firstly blows the bottom of the down jacket and moves upwards from the bottom of the down jacket.

As a further optimization scheme of the present invention, step S5: and (4) turning over and hanging the down jacket obtained in the step (S4), blowing the surface of the down jacket by using a fan, rotating the hung down jacket, and circularly moving the hung down jacket up and down.

The invention has the beneficial effects that:

1) according to the invention, the air blasting treatment is carried out on the down jacket, the water outlet treatment is carried out firstly, then the pretreatment before drying is carried out, after the pretreatment, the hot air is blown from the bottom of the down jacket to the neckline position in an air blasting mode, and meanwhile, the air blowing is added from the outside, so that the smoothness of the surface of the down jacket is improved, and the drying efficiency of the down jacket can also be improved;

2) the method is simple, high in stability, reasonable in design and convenient to implement.

Detailed Description

The present application is described in further detail below, and it should be noted that the following detailed description is provided for illustrative purposes only, and is not intended to limit the scope of the present application, which is defined by the appended claims.

Example 1

A drying control method for down jackets comprises the following steps:

step S1: hanging the cleaned down jacket, clamping the front and back surfaces of the down jacket by front and back rollers, rolling the rollers downwards along the surface of the down jacket, and extruding the adsorbed water in the down jacket in a roller clamping manner; firstly, arranging and flattening down coats, directly hanging the down coats from a neckline part through a clothes hanger, mutually extruding and rolling the down coats by rollers on the front and the back, and circularly rolling and laminating for 5-10 times; in actual use, a finishing agent may need to be smeared on the down jacket in the drying process, the finishing agent can be smeared on the surface of the down jacket after the down jacket is subjected to roller pressing and water drainage treatment for 5-6 times, and roller rolling can help the finishing agent to be smeared uniformly;

step S2: blowing the surface of the down jacket processed in the step S1 by using warm air, rotating the suspended down jacket and circularly moving the suspended down jacket up and down; the temperature of the warm air in the step can be set between 15 and 25 ℃; the optimal temperature of the warm air in the step is set to be 20 ℃; the warm air ports in the step are fixed, the warm air ports firstly blow the neckline of the down jacket and move downwards from the neckline of the down jacket, the warm air ports are not always required to be fixed in actual use, and the flexible warm air ports are convenient for blowing the down jackets of different models, in the embodiment, all the warm air ports are fixed, generally, water is absorbed in the down jacket and generally gathers at the bottom of the down jacket, the step is pretreatment of drying the down jacket, the water is blown to the bottom of the down jacket from the neckline part, the water content at the bottom of the down jacket is large, after the pretreatment, the roller in the step S1 can be used again for performing roller covering treatment on the lower part of the down jacket, and the time of the step is generally about 20 min;

step S3: spreading the down jacket processed in the step S2, and introducing warm air from the bottom of the down jacket, wherein the warm air flows out from the neckline; the temperature of the warm air in the step can be set between 40 and 60 ℃; the optimal warm air temperature in the step is set to be 50 ℃, and the expanding mode in the step is that even if the down jacket in the step S2 is expanded and swelled, the warm air with the temperature of 50 ℃ is introduced into the bottom of the down jacket, so that the moisture can move upwards;

step S4: blowing the surface of the down jacket with warm air while rotating the suspended down jacket and moving it up and down circularly while performing step S3; the warm air port in the step is fixed, the warm air firstly blows the bottom of the down jacket and moves upwards from the bottom of the down jacket, the surface cloth of the down jacket is generally thick or made of waterproof materials, external air blowing can help the warm air to contact with the down jacket and accelerate moisture to be discharged, and the fact that the wind power of the external air blowing is too large should be placed to enable the warm air not to blow in from the bottom of the down jacket needs to be noticed;

step S5: and (4) turning over and hanging the down jacket obtained in the step (S4), blowing the surface of the down jacket by using a fan, simultaneously rotating the hung down jacket, and circularly moving the hung down jacket up and down, wherein the blown air is room-temperature air, and the whole down jacket is assisted to be regular by using the blown air.

Comparative example

Placing down coats of the same type in sufficient water for soaking for 0.5h at the same environmental temperature, taking out the down coats, placing the down coats in the same environmental temperature, extruding and draining the down coats by using the same flat plate, and starting a test when the measured weight error is within 100g after water on the surfaces of the down coats does not flow due to self gravity:

the first group of down jackets are dried in a common drying drum;

the second group of down jackets are hung, and the down jackets are arranged outside the down jacket and blown by a unidirectional blower;

the third group hangs the down jacket and rotates under the same condition as the second group;

a fourth group of down jackets are hung, and the bottom of the down jackets is placed on a blower for blowing, and the conditions are the same as those in the step S3;

a fifth group of suspended down jackets, which is different from the present embodiment, and uses a large air port to blow air, that is, the air blowing surface directly covers the whole surface of the down jacket in S2 and S3, but the wind power is the same as that in the embodiment in the same area, that is, the present embodiment uses a small air port circulation from top to bottom in step S2 and a blowing manner from bottom to top in step S4;

and the sixth group, drying by adopting the mode disclosed by the embodiment.

The drying effect table is as follows:

ABCD in the table represents the wrinkling and wearing condition of the surface of the down jacket respectively, the D grade is that the number of wrinkles visible to the naked eye exceeds 10, the C grade is that the number of wrinkles is between 5 and 10, the B grade is that the number of wrinkles is between 3 and 5, and the A grade is that the number of wrinkles is within 3; a represents the drying completion, b represents the humidity with a tactile feel, the same drying time is adopted in the second group, the third group and the fourth group, namely within 50 minutes, the drying is completed, the time of the fourth group and the sixth group is the time which is compared separately, and is different from the counting time of the first four groups, and as can be seen from the final result, the drying time required by the air blowing processing method in the step S2 and the step S4 in the embodiment is less than that in the fifth group, and the surface of the obtained down jacket is smoother, because the air blowing processing method in the step S2 and the step S4 has the group of releasing own moisture from the down jacket, so that the effect of accelerating the drying is achieved.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (9)

1. A drying control method for down jackets is characterized by comprising the following steps: the method comprises the following steps:

step S1: hanging the cleaned down jacket, clamping the front and back surfaces of the down jacket by front and back rollers, rolling the rollers downwards along the surface of the down jacket, and extruding the adsorbed water in the down jacket in a roller clamping manner;

step S2: blowing the surface of the down jacket processed in the step S1 by using warm air, rotating the suspended down jacket and circularly moving the suspended down jacket up and down;

step S3: spreading the down jacket processed in the step S2, and introducing warm air from the bottom of the down jacket, wherein the warm air flows out from the neckline;

step S4: while the step S3 is being performed, the surface of the down jacket is blown with warm air while the suspended down jacket is rotated and moved up and down circularly.

2. The drying control method of the down jacket as claimed in claim 1, wherein: step S1: the down jackets are firstly arranged to be flat, the down jackets are directly hung from the neckline part through the clothes hanger, the rollers on the front and the back are mutually extruded and roll downwards, and the down jackets are circularly rolled and laminated for 5 to 10 times.

3. The drying control method of the down jacket as claimed in claim 1, wherein: step S2: the temperature of the warm air in the step is set between 15 and 25 ℃.

4. The drying control method of the down jacket as claimed in claim 3, wherein: step S2: the warm air temperature in this step is set to 20 degrees celsius.

5. The drying control method of the down jacket as claimed in claim 1, wherein: step S2: the warm air port in the step is fixed, and the warm air firstly blows the neckline of the down jacket and moves downwards from the neckline of the down jacket.

6. The drying control method of the down jacket as claimed in claim 1, wherein: step S3: the temperature of the warm air is set between 40 and 60 ℃.

7. The drying control method of the down jacket as claimed in claim 6, wherein: step S3: the warm air temperature in this step was set at 50 degrees celsius.

8. The drying control method of the down jacket as claimed in claim 1, wherein: step S4: the warm air port in the step is fixed, and the warm air firstly blows the bottom of the down jacket and moves upwards from the bottom of the down jacket.

9. The drying control method of the down jacket as claimed in claim 1, wherein: step S5: and (4) turning over and hanging the down jacket obtained in the step (S4), blowing the surface of the down jacket by using a fan, rotating the hung down jacket, and circularly moving the hung down jacket up and down.