The present invention relates to a production method of a water repellent down, which can prevent down from becoming damp and lose its capability heat retention, and also relates to a down product produced by using said method.
Down and feather grow on the bodies of ducks and geese. Duck and geese are water birds that can live on water, and therefore, down and feather have the inherent water repellent ability. However, the grease found on the surface of down and feather has a fishy smell that is originally present on ducks and geese. As a result, in order to use these materials in products, first of all, a cleaning process is required, by which most of the grease found on the surface of duck and goose fine hair would be removed, and which also reduces the water repellent characteristic of down.
Feather and down have the characteristics of being light, preserving heat, and keeping warm air within textile; and therefore, they are processed and used in warm products, for instance down jackets, down quilts, or sleeping bags etc. When these kinds of warm products (insulation product) are worn on or cover a user's body, they preserve all the heat emitted from the body of the user, and thus achieve the purpose of keeping the user warm and defending him/her against cold. They are also light, and thus don't restrict the movement of the user.
As mentioned before, feather and down have high insulation characteristic, but they are quite sensitive to moisture. After coming into contact with water vapor, feather and down tend to stick together easily, and while they don't provide insulation in this state, it is very hard to dry them and restore to their original state. If the body discharges great amount of sweat or moisture rapidly, the down that gathers and sticks together would lose its insulation ability and cause the user have insufficient warmth and easily catch cold.
In the light of the above given reasons, the present application owners have especially invested in great amount of research and development, resources, and efforts about the innovation in said field with the hope of providing a novel technique to solve related problems and thus provide a beneficial product for the society and promote industrial development.
In order to provide a simpler and clearer description, the down product disclosed in the present description comprises a mixture of down and feather, which is equal to above given descriptions.
The water repellent down produced with the present invention prevents down from agglomerating after being affected by damp, and therefore, even if the user discharges great amount of sweat or water vapor, the down would still preserve its original state, keep the heat inside, provide warming function for the wearer, and thus overcome the known problems of the prior art.
In order to achieve above said purposes, the water repellent down of the present invention, the surface of the down is clad by a water repellent layer, wherein said water repellent layer is formed of a water-drawing agent comprising a fluoride or siloxane functional group. When said water repellent layer is installed, water wouldn't be kept on the down and no down would be affected by water and thus agglomeration wouldn't occur, so that the known drawbacks of the prior art could be overcome.
In order to clad the water repellent layer on the down in a favorable manner, the means adopted by the present invention water repellent down production method comprises: a soaking step, a cross-linking agent addition step, a water-drawing agent addition step, a stirring step, and a dehydration and oven-drying step.
Soaking step relates to soaking of the cleaned down into a solution with pH between 4 and 7, so that the down would be adequately wet and ready for the following cross-linking reaction; cross-linking agent addition step relates to addition of a cross-linking agent comprising an isocyanate or acrylic acid functional group into the solution, such that the weight ratio of the down and the cross-linking agent would be between 1:0.005 to 1:0.06; water-drawing agent addition step relates to addition of a water-drawing agent comprising a fluorocarbon or siloxane functional group into the solution, such that the weight ratio of the down and the water-drawing agent would be between 1:0.01 to 1:0.1; stirring step relates to mixing continuously for at least 15 minutes after addition of the cross-linking agent and the water-drawing agent, so that by means of continuous stirring, the down is allowed to adequately react in three-dimensional space and the water-drawing agent is adhered homogeneously on the down; dehydration and oven-drying step relates to separation of the down and the solution via draining and dehydration following completion of the reaction, and then the down is oven-dried with air heated over 120° C.; and after oven-drying is complete, water repellent down is obtained by cooling to room temperature.
By means of the cross-linking reaction occurring between the water-drawing agent of the present invention and the cross-linking agent, the water-drawing agent is properly clad over the down surface, so that it wouldn't come off due to stirring, oven-drying, wind blow etc. processes, and also the produced water repellent down has favorable water repellency and the water repellent layer becomes much more long-lasting and durable. Besides, the manufacturing process of the present invention is simple and convenient, which enables quick and efficient mass production, reduces processing costs, and the yield of the produced water repellent down is extremely high, and the problem of incomplete cladding of the water repellent layer is rarely encountered.
During the manufacturing process of the present invention, the weight ratio of the down and the solution can be between 1:20 and 1:35, and by means of controlling this proportion appropriately, full cross-linking reaction can be obtained on the surface of the down.
Preferably, the weight ratio of the down and the cross-linking agent can also be between 1:0.005 and 1:0.05, and the weight ratio of the down and the water drawing agent can also be between 1:0.09 and 1:0.03; and by means of arranging a good proportion between the cross-linking agent and the water-drawing agent, the reaction would be even more compete.
More preferably, the cross-linking agent comprises an isocyanate functional group with a down-to-isocyanate weight ratio between 1:0.03 and 1:0.05; and the water-drawing agent comprises a fluorocarbon functional group with a down-to-fluorocarbon weight ratio between 1:0.03 and 1:0.09.
More preferably, the cross-linking agent comprises an isocyanate functional group with a down-to-isocyanate weight ratio between 1:0.005 and 1:0.03; and the water-drawing agent comprises a siloxane functional group with a down-to-siloxane weight ratio between 1:0.05 and 1:0.07.
Preferably, the time during which stirring continues in the stirring step is limited to 30 minutes at most.
Preferably, during the dehydration and oven-drying steps, when the draining and dehydration are completed, the down is first loosened by stirring and oven-drying is carried out.
Preferably, the dehydration and oven-drying step relates to carrying out oven-drying with hot air between 120° C. and 140° C.
Preferably, the soaking step relates to addition of glacial acetic acid into the solution in order to adjust the pH value, and the pH value can also be controlled between 4 and 5.
Preferably, between the soaking step and said stirring step, the solution temperature is maintained between 20° C. and 60° C.
The water repellent down produced by the present invention process can be filled into various types of down products, such as commonly seen down jackets, down quilts, down pillows etc. By using favorable water repellency, the product can keep its fluffy and heat retention (insulating) characteristics and therefore have better quality.
In order to allow the esteemed examiner understand the contents of the present invention better, two of the most preferred embodiments are described in detail as follows:
Down processing can be divided as pre-processing procedures (P0) and water repellent treatment procedures (S0). As shown in
Moreover, the water repellent down production method of the present invention mainly relates to the water repellent treatment procedures (S0) that come after the pre-processing procedures (P0). In these procedures, the down cleaned through the pre-processing procedures (P0) is used and water repellent down is manufactured through a soaking step (S1), a cross-linking agent addition step (S2), a water-drawing agent addition step (S3), a stirring step (S4), and a dehydration and oven-drying step (S5).
The soaking step (S1) primarily relates to soaking of the cleaned down into a solution with a temperature between 20-60° C. and pH 4-7. Afterwards, the according to the cross-linking agent addition step (S2) and the water-drawing agent addition step (S3), the cross-linking agent and the water-drawing agent are added, respectively, wherein the cross-linking agent can be a cross-linking agent comprising an isocyanate or acrylic acid functional group, and the down-to-cross-linking agent weight ratio can be between 1:0.005 and 1:0.06; and the water-drawing agent can be a water-drawing agent comprising a fluorocarbon or siloxane functional group, and the ratio of the down and the water-drawing agent can be between 1:0.01 and 1:0.1. After the cross-linking agent and the water-drawing agent are added, stirring step (S4) is performed, wherein stirring is made continuously for 15-30 minutes to let the cross-linking agent and the water-drawing agent completely react and enable the solution have complete contact with the surface of the down, so that following the reaction, the water-drawing agent and the cross-linking agent can be adhered evenly on the surface of the down. When the reaction is completed (and after waiting until the end of the regular reaction time), dehydration and oven-drying step (S5) is performed, wherein draining and dehydration is made to separate the down and the solution, and the down is loosened by means of stirring after dehydration is complete. Afterwards, the down is oven-dried by dry air at around 120-140° C. After the down is oven-dried, it is cooled down to room temperature and thus the water repellent treatment procedures (S0) are completed.
By means of the water repellent down production method provided with the present invention, after completion of the reaction, the water-drawing agent and the cross-linking agent can be adhered evenly on the surface of the down, and following oven-drying, an intact and durable water repellent layer is produced. The water repellent down produced with the production method of the present invention, and the product obtained with this down doesn't let water vapor remain on the down; and the water repellent layer formed by the present invention is even more durable and long-lasting, so that the down products can maintain their fluffiness and favorable heat retention property for longer time periods.
According to the production method of the present invention, the types of water-drawing agents, two of the most preferred manufacturing process embodiments, and more detailed description for the way of use of the present invention are provided below:
First embodiment: relates to the example where fluorocarbon functional group is used as the water-drawing agent, which comprises the steps of:
Second embodiment: relates to the example where siloxane functional group is used as the water-drawing agent, which comprises the steps of:
In summation of the description above, the present invention overcomes the drawbacks of the prior art and properly controls the cost and improves the production capacity by a simple, easy and efficient operation process. While the invention has been described by means of specific embodiments, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope and spirit of the invention set forth in the claims.
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Entry |
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Caplus and wpix abstracts of CN 103485186, Jan. 2014. |
Machine translation of CN 103485186, Jan. 2014. |
Taiwan Patent Office, Office Action and Search Report, Patent Application Serial No. TW103132423, Oct. 20, 2015, Taiwan. |
Number | Date | Country | |
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20160222581 A1 | Aug 2016 | US |