CN110575034A - silk graphene quilt - Google Patents

Abstract

the invention discloses a silk graphene quilt, and particularly relates to the technical field of silk quilts, wherein the used raw materials (in parts by weight) comprise 30-50 parts of silk and 50-70 parts of graphene. Compared with the silk quilt in the prior art, the silk graphene quilt prepared by mixing the silk and the graphene according to a specific ratio not only effectively improves flexibility and strength, is soft and light, is smooth and close-fitting, and has strong tensile strength compared with the common silk, but also can ensure that the internal hollow part of the silk fiber is fused with the graphene carbon nano hollow tube to form a three-dimensional warm circulation spiral structure, so that the internal temperature of the silk graphene nano hollow tube is rapidly raised, the temperature is kept constant, the temperature is controlled, the evaporation of moisture in the quilt can be effectively promoted, the moisture is stored in the holes and flows to be converted into a warm air layer, the purpose of circulating moisture absorption is achieved, the skin.

Description

silk graphene quilt

Technical Field

the invention relates to the technical field of silk quilts, in particular to a silk graphene quilt.

Background

The silk quilt is a quilt with silk as a filler, has the unique qualities and advantages of close-fitting, warm keeping, fluffy, light and soft feeling, ventilation, health care, deep sleep and the like, is natural fiber integrating light, soft and fine in nature, is vegetarian with the reputation of the second skin of a human body, is named as fiber emphatic in the industry, mainly comprises pure natural animal protein fiber, has the most similar structure to the skin of the human body, has 87 percent of identity, contains various amino acids necessary for the human body, and has the effects of preventing wind, removing dampness, calming the nerves, nourishing and balancing the skin of the human body. The silk becomes a top material for making underwear due to the characteristics of smoothness, air permeability, softness, moisture absorption, no prickling, no itching, static resistance and the like, but the existing silk quilt has poor heat storage capacity and slow heating rate, so that a user can feel cold when sleeping in the silk quilt with a non-thickened cover in winter, and feel thick if the silk quilt with a thickened cover is thick.

graphene is a polymer made of carbon atoms in sp²the hybrid tracks form a hexagonal honeycomb-lattice two-dimensional carbon nano material, graphene has excellent optical, electrical and mechanical properties, has important application prospects in the aspects of materials science, micro-nano processing, energy, biomedicine, drug delivery and the like, and is considered to be a revolutionary material in the future, so that the invention of the silk graphene is necessary.

disclosure of Invention

in order to overcome the above defects in the prior art, embodiments of the present invention provide a silk graphene quilt, in which silk graphene quilt prepared by mixing silk and graphene according to a specific ratio not only effectively improves flexibility and strength, is soft and light, is smooth and close-fitting, and has a stronger tensile strength than the silk quilt in the prior art, but also has a three-dimensional warm circulation spiral structure formed by fusing a hollow part inside a silk fiber and a graphene carbon nano hollow tube, so that the temperature inside the silk fiber can be rapidly raised, the temperature can be controlled at a constant temperature, the evaporation of moisture in the quilt can be effectively promoted, the moisture is stored in holes and flows to be converted into a warm air layer, the purpose of circulating moisture absorption is achieved, the skin is dry and comfortable, and the comfort level and the sleep quality of a user are effectively improved.

In order to achieve the purpose, the invention provides the following technical scheme: the silk graphene quilt comprises, by weight, 30-50 parts of silk and 50-70 parts of graphene.

in a preferred embodiment, the raw materials used (by weight) comprise 30 parts of silk and 70 parts of graphene.

in a preferred embodiment, the raw materials used (by weight) comprise 40 parts of silk and 60 parts of graphene.

In a preferred embodiment, the raw materials used (by weight) comprise 50 parts of silk and 50 parts of graphene.

the invention also comprises a preparation method of the silk graphene quilt, which comprises the following specific processing steps:

s1, purchase: purchasing raw materials of silk and graphene which are refined, high in color purity and free of fracture;

S2, cleaning: the silk and graphene raw materials are separately cleaned, the silk and graphene raw materials are respectively placed into warm water to be soaked, impurities adhered to the silk and graphene are soaked out, the first cleaning is completed, the silk and graphene raw materials after soaking are washed by clear water to complete the second cleaning, then the silk and graphene raw materials are washed and kneaded by the warm water at the same time, and the third cleaning is completed;

S3, drying: respectively putting the cleaned silk and graphene raw materials into a dryer for drying;

s4, antistatic treatment: the dried silk and graphene raw materials are subjected to humidification treatment by using a spraying machine, so that static electricity generated in subsequent processing of the dried silk and graphene raw materials is effectively prevented;

S5, opening: opening the silk and graphene raw materials by using an opener at normal temperature, and breaking large bundles of fiber groups in the silk and graphene raw materials into small bundles of fibers, so that the scale of the transverse connection of the fibers is reduced;

S6, drying: respectively putting the opened silk and graphene raw materials into a dryer for drying;

s7, mixing: the silk and graphene raw materials are put into a fiber mixer according to a required proportion, and then the fiber mixer is started to fully and uniformly mix the silk and graphene raw materials, so that the silk and graphene raw materials are fused without gaps to form cotton sheets;

S8, selecting: after the mixing is finished, manually selecting cotton sheets with uniform color and good glossiness so as to ensure the quality of products processed subsequently;

s9, carding: the carding machine is used for carding the cotton sheets for the second time, and the humidifier is used for humidifying the processing environment, so that the humidity of the processing environment is improved, and static electricity generated during carding of the cotton sheets is effectively prevented;

S10, drying: drying the carded cotton sheets by using a dryer;

S11, preparing: the method comprises the steps of pulling cotton sheets one by one, overlapping the cotton sheets in a criss-cross mode, making graphene silk quilt cores after the cotton sheets are overlapped to 5-10 layers, checking the graphene silk quilt cores, removing impurities on the surface, installing the graphene silk quilt cores in a quilt cover, and quilting the graphene silk quilt cores and the quilt cover to fix the graphene silk quilt cores and the quilt cover so as to make the silk graphene quilt.

in a preferred embodiment, the temperature of the warm water in step S2 is 30-40 ℃, and the soaking time is 25-35 min.

in a preferred embodiment, the drying temperature of the dryer is 80 ℃ to 95 ℃ and the drying time is 15min to 20min in step S3, and the drying temperature of the dryer is 80 ℃ to 95 ℃ and the drying time is 15min to 20min in step S6.

in a preferred embodiment, the ambient humidity is maintained at 40-70% in step S9, the drying temperature of the dryer is 80-90 ℃ and the drying time is 10-15 min in step S10.

the invention has the technical effects and advantages that:

1. compared with the silk quilt in the prior art, the silk graphene quilt prepared by mixing the silk and the graphene according to a specific ratio not only effectively improves flexibility and strength, is soft, light and smooth, and is close-fitting, but also can bear 50% more tensile force compared with the common silk quilt, has strong tensile strength and excellent conductivity, and simultaneously, the three-dimensional warm circulation spiral structure formed by fusing the hollow part in the silk fiber and the graphene carbon nano hollow tube can quickly heat the interior of the silk fiber, keep constant temperature and control temperature, effectively promote the evaporation of water vapor in the quilt, store the moisture in the holes and flow into a warm air layer, so that the purpose of circulating moisture absorption is achieved, the silk graphene quilt is dry and comfortable, and the skin care effect is achieved, and the comfort level and the sleep quality of a user are effectively improved;

2. The invention cleans the silk and graphene raw materials in a triple way during preparation, so that the cleaning is thorough, the quality of the products processed subsequently is effectively improved, the silk and graphene raw materials are subjected to opening treatment at normal temperature, large fiber bundles in the silk and graphene raw materials are torn into small fiber bundles, the scale of the transverse connection of the fibers is reduced, the silk and graphene raw materials can be uniformly mixed during subsequent mixing, and the two fibers can be fused without gaps, and the static electricity generated in the processing process of the silk and graphene raw materials is effectively reduced by carrying out secondary antistatic treatment in the preparation process, so that the normal operation of the processing is effectively ensured, the processing efficiency is effectively ensured, and effectively reduce the charged floating dust in the working environment, thereby effectively reducing the adverse effect of the charged floating dust on the skin of the human body.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

The invention provides a silk graphene quilt which comprises, by weight, 30-50 parts of silk and 50-70 parts of graphene.

and specifically to the embodiments: the raw materials comprise (by weight) 30 parts of silk and 70 parts of graphene.

a preparation method of a silk graphene quilt comprises the following specific processing steps:

s1, purchase: purchasing raw materials of silk and graphene which are refined, high in color purity and free of fracture;

S2, cleaning: the silk and graphene raw materials are cleaned separately, the silk and graphene raw materials are respectively placed in warm water for soaking, the temperature of the warm water is 30 ℃, the soaking time is 25min, impurities adhered to the silk and graphene are soaked out, the first cleaning is completed, the soaked silk and graphene raw materials are washed by clean water, the second cleaning is completed, then the warm water is used for washing the silk and graphene raw materials while rubbing, and the third cleaning is completed;

S3, drying: respectively putting the cleaned silk and graphene raw materials into a dryer for drying, wherein the drying temperature of the dryer is 80 ℃, and the drying time is 15 min;

s4, antistatic treatment: the dried silk and graphene raw materials are subjected to humidification treatment by using a spraying machine, so that static electricity generated in subsequent processing of the dried silk and graphene raw materials is effectively prevented;

s5, opening: opening the silk and graphene raw materials by using an opener at normal temperature, and breaking large bundles of fiber groups in the silk and graphene raw materials into small bundles of fibers, so that the scale of the transverse connection of the fibers is reduced;

S6, drying: respectively putting the opened silk and graphene raw materials into a dryer for drying, wherein the drying temperature of the dryer is 80 ℃, and the drying time is 15 min;

s7, mixing: the silk and graphene raw materials are put into a fiber mixer according to a required proportion, and then the fiber mixer is started to fully and uniformly mix the silk and graphene raw materials, so that the silk and graphene raw materials are fused without gaps to form cotton sheets;

s8, selecting: after the mixing is finished, manually selecting cotton sheets with uniform color and good glossiness so as to ensure the quality of products processed subsequently;

s9, carding: the cotton piece is combed for the second time by using the carding machine, and meanwhile, the processing environment is humidified by using the humidifier, so that the environment humidity is kept at 40%, the humidity of the processing environment is improved, and static electricity is effectively prevented from being generated during carding of the cotton piece;

s10, drying: drying the carded cotton sheets by using a dryer, wherein the drying temperature of the dryer is 80 ℃, and the drying time is 10 min;

S11, preparing: the cotton sheets are pulled apart one by one, the cotton sheets are overlapped in a criss-cross mode, the graphene silk quilt core is manufactured after the cotton sheets are overlapped to 5 layers, then the graphene silk quilt core is checked, impurities on the surface are removed, then the graphene silk quilt core is arranged in the padding sleeve, and finally the graphene silk quilt core and the padding sleeve are quilted, so that the graphene silk quilt core is fixed with the padding sleeve, and the silk graphene quilt is manufactured.

example 2:

the invention provides a silk graphene quilt which comprises, by weight, 30-50 parts of silk and 50-70 parts of graphene.

And specifically to the embodiments: the raw materials comprise 40 parts of silk and 60 parts of graphene.

a preparation method of a silk graphene quilt comprises the following specific processing steps:

s1, purchase: purchasing raw materials of silk and graphene which are refined, high in color purity and free of fracture;

S2, cleaning: the silk and graphene raw materials are cleaned separately, the silk and graphene raw materials are respectively placed in warm water for soaking, the temperature of the warm water is 35 ℃, the soaking time is 30min, impurities adhered to the silk and graphene are soaked out, the first cleaning is completed, the soaked silk and graphene raw materials are washed by clean water, the second cleaning is completed, then the warm water is used for washing the silk and graphene raw materials while rubbing, and the third cleaning is completed;

S3, drying: respectively putting the cleaned silk and graphene raw materials into a dryer for drying, wherein the drying temperature of the dryer is 90 ℃, and the drying time is 17.5 min;

s4, antistatic treatment: the dried silk and graphene raw materials are subjected to humidification treatment by using a spraying machine, so that static electricity generated in subsequent processing of the dried silk and graphene raw materials is effectively prevented;

s5, opening: opening the silk and graphene raw materials by using an opener at normal temperature, and breaking large bundles of fiber groups in the silk and graphene raw materials into small bundles of fibers, so that the scale of the transverse connection of the fibers is reduced;

s6, drying: respectively putting the opened silk and graphene raw materials into a dryer for drying, wherein the drying temperature of the dryer is 90 ℃, and the drying time is 17.5 min;

S7, mixing: the silk and graphene raw materials are put into a fiber mixer according to a required proportion, and then the fiber mixer is started to fully and uniformly mix the silk and graphene raw materials, so that the silk and graphene raw materials are fused without gaps to form cotton sheets;

s8, selecting: after the mixing is finished, manually selecting cotton sheets with uniform color and good glossiness so as to ensure the quality of products processed subsequently;

s9, carding: the cotton piece is combed for the second time by using the carding machine, and meanwhile, the processing environment is humidified by using the humidifier, so that the environment humidity is kept at 55%, the humidity of the processing environment is improved, and static electricity is effectively prevented from being generated during carding of the cotton piece;

S10, drying: drying the carded cotton sheets by using a dryer, wherein the drying temperature of the dryer is 85 ℃, and the drying time is 12.5 min;

s11, preparing: the cotton sheets are pulled apart one by one, the cotton sheets are overlapped in a criss-cross mode, the graphene silk quilt core is manufactured after being laid to 7 layers, then the graphene silk quilt core is checked, impurities on the surface are removed, then the graphene silk quilt core is arranged in the padding sleeve, and finally the graphene silk quilt core and the padding sleeve are quilted, so that the graphene silk quilt core is fixed with the padding sleeve, and the silk graphene quilt is manufactured.

example 3:

The invention provides a silk graphene quilt which comprises, by weight, 30-50 parts of silk and 50-70 parts of graphene.

and specifically to the embodiments: the raw materials comprise, by weight, 50 parts of silk and 50 parts of graphene.

a preparation method of a silk graphene quilt comprises the following specific processing steps:

S1, purchase: purchasing raw materials of silk and graphene which are refined, high in color purity and free of fracture;

s2, cleaning: the silk and graphene raw materials are cleaned separately, the silk and graphene raw materials are respectively placed in warm water for soaking, the temperature of the warm water is 40 ℃, the soaking time is 35min, impurities adhered to the silk and graphene are soaked out, the first cleaning is completed, the soaked silk and graphene raw materials are washed by clean water, the second cleaning is completed, then the warm water is used for washing the silk and graphene raw materials while rubbing, and the third cleaning is completed;

s3, drying: respectively putting the cleaned silk and graphene raw materials into a dryer for drying, wherein the drying temperature of the dryer is 95 ℃, and the drying time is 20 min;

S4, antistatic treatment: the dried silk and graphene raw materials are subjected to humidification treatment by using a spraying machine, so that static electricity generated in subsequent processing of the dried silk and graphene raw materials is effectively prevented;

s5, opening: opening the silk and graphene raw materials by using an opener at normal temperature, and breaking large bundles of fiber groups in the silk and graphene raw materials into small bundles of fibers, so that the scale of the transverse connection of the fibers is reduced;

s6, drying: respectively putting the opened silk and graphene raw materials into a dryer for drying, wherein the drying temperature of the dryer is 95 ℃, and the drying time is 20 min;

s7, mixing: the silk and graphene raw materials are put into a fiber mixer according to a required proportion, and then the fiber mixer is started to fully and uniformly mix the silk and graphene raw materials, so that the silk and graphene raw materials are fused without gaps to form cotton sheets;

s8, selecting: after the mixing is finished, manually selecting cotton sheets with uniform color and good glossiness so as to ensure the quality of products processed subsequently;

s9, carding: the cotton piece is combed for the second time by using the carding machine, and meanwhile, the processing environment is humidified by using the humidifier, so that the environment humidity is kept at 70%, the humidity of the processing environment is improved, and static electricity is effectively prevented from being generated during carding of the cotton piece;

S10, drying: drying the carded cotton sheets by using a dryer, wherein the drying temperature of the dryer is 90 ℃, and the drying time is 15 min;

S11, preparing: the cotton sheets are pulled apart one by one, the cotton sheets are overlapped in a criss-cross mode, the graphene silk quilt core is manufactured after the cotton sheets are overlapped to 10 layers, then the graphene silk quilt core is checked, impurities on the surface are removed, then the graphene silk quilt core is arranged in the padding sleeve, and finally the graphene silk quilt core and the padding sleeve are quilted, so that the graphene silk quilt core is fixed with the padding sleeve, and the silk graphene quilt is manufactured.

Example 4:

The silk graphene quilts prepared in the above examples 1 to 3 were respectively tested, and 90 silk graphene quilts prepared in the above examples 1 to 3 were provided for users with poor sleep quality, each of the silk graphene quilts was used as one group for every 30 silk graphene quilts, and the silk graphene quilts prepared in the three examples were respectively used in three groups, and after 2 days of use, the following data were obtained:

As can be seen from the above table, the raw material mixing proportion is moderate in the embodiment 3, the compression rate and the recovery rate of the prepared silk graphene quilt are best, the silk graphene quilt prepared by the embodiment can be rapidly heated and controlled at a constant temperature, is comfortable and skin-friendly, and effectively improves the sleep quality of a user.

and finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims (8)

1. a silk graphene quilt is characterized in that: the used raw materials (by weight portion) comprise 30-50 portions of silk and 50-70 portions of graphene.

2. the silk graphene quilt according to claim 1, characterized in that: the raw materials comprise (by weight) 30 parts of silk and 70 parts of graphene.

3. The silk graphene quilt according to claim 1, characterized in that: the raw materials comprise 40 parts of silk and 60 parts of graphene.

4. the silk graphene quilt according to claim 1, characterized in that: the raw materials comprise, by weight, 50 parts of silk and 50 parts of graphene.

5. The silk graphene quilt according to any one of claims 1 to 4, wherein: the preparation method of the silk graphene quilt further comprises the following specific processing steps:

s1, purchase: purchasing raw materials of silk and graphene which are refined, high in color purity and free of fracture;

s2, cleaning: the silk and graphene raw materials are separately cleaned, the silk and graphene raw materials are respectively placed into warm water to be soaked, impurities adhered to the silk and graphene are soaked out, the first cleaning is completed, the silk and graphene raw materials after soaking are washed by clear water to complete the second cleaning, then the silk and graphene raw materials are washed and kneaded by the warm water at the same time, and the third cleaning is completed;

S3, drying: respectively putting the cleaned silk and graphene raw materials into a dryer for drying;

s4, antistatic treatment: the dried silk and graphene raw materials are subjected to humidification treatment by using a spraying machine, so that static electricity generated in subsequent processing of the dried silk and graphene raw materials is effectively prevented;

s5, opening: opening the silk and graphene raw materials by using an opener at normal temperature, and breaking large bundles of fiber groups in the silk and graphene raw materials into small bundles of fibers, so that the scale of the transverse connection of the fibers is reduced;

S6, drying: respectively putting the opened silk and graphene raw materials into a dryer for drying;

s7, mixing: the silk and graphene raw materials are put into a fiber mixer according to a required proportion, and then the fiber mixer is started to fully and uniformly mix the silk and graphene raw materials, so that the silk and graphene raw materials are fused without gaps to form cotton sheets;

S8, selecting: after the mixing is finished, manually selecting cotton sheets with uniform color and good glossiness so as to ensure the quality of products processed subsequently;

s9, carding: the carding machine is used for carding the cotton sheets for the second time, and the humidifier is used for humidifying the processing environment, so that the humidity of the processing environment is improved, and static electricity generated during carding of the cotton sheets is effectively prevented;

s10, drying: drying the carded cotton sheets by using a dryer;

s11, preparing: the method comprises the steps of pulling cotton sheets one by one, overlapping the cotton sheets in a criss-cross mode, making graphene silk quilt cores after the cotton sheets are overlapped to 5-10 layers, checking the graphene silk quilt cores, removing impurities on the surface, installing the graphene silk quilt cores in a quilt cover, and quilting the graphene silk quilt cores and the quilt cover to fix the graphene silk quilt cores and the quilt cover so as to make the silk graphene quilt.

6. The preparation method of the silk graphene quilt according to claim 5, characterized by comprising the following steps: in step S2, the temperature of the warm water is 30-40 ℃, and the soaking time is 25-35 min.

7. the preparation method of the silk graphene quilt according to claim 5, characterized by comprising the following steps: the drying temperature of the dryer is 80-95 ℃ and the drying time is 15-20 min in step S3, and the drying temperature of the dryer is 80-95 ℃ and the drying time is 15-20 min in step S6.

8. The preparation method of the silk graphene quilt according to claim 5, characterized by comprising the following steps: the environmental humidity is maintained at 40-70% in step S9, the drying temperature of the dryer is 80-90 ℃ in step S10, and the drying time is 10-15 min.