CN113773637B - Loofah sponge for flatulence, preparation and application thereof and pillow - Google Patents

Loofah sponge for flatulence, preparation and application thereof and pillow Download PDF

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CN113773637B
CN113773637B CN202111031912.1A CN202111031912A CN113773637B CN 113773637 B CN113773637 B CN 113773637B CN 202111031912 A CN202111031912 A CN 202111031912A CN 113773637 B CN113773637 B CN 113773637B
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sponge
loofah sponge
flatulence
modified
fiber
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CN113773637A (en
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陈玉霞
张锦龙
翁蓓蓓
邬珊珊
郭勇
王福利
洪璐
陈郑杭
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Anhui Agricultural University AHAU
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    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J9/00Working-up of macromolecular substances to porous or cellular articles or materials; After-treatment thereof
    • C08J9/04Working-up of macromolecular substances to porous or cellular articles or materials; After-treatment thereof using blowing gases generated by a previously added blowing agent
    • C08J9/12Working-up of macromolecular substances to porous or cellular articles or materials; After-treatment thereof using blowing gases generated by a previously added blowing agent by a physical blowing agent
    • C08J9/14Working-up of macromolecular substances to porous or cellular articles or materials; After-treatment thereof using blowing gases generated by a previously added blowing agent by a physical blowing agent organic
    • C08J9/143Halogen containing compounds
    • C08J9/144Halogen containing compounds containing carbon, halogen and hydrogen only
    • C08J9/145Halogen containing compounds containing carbon, halogen and hydrogen only only chlorine as halogen atoms
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47GHOUSEHOLD OR TABLE EQUIPMENT
    • A47G9/00Bed-covers; Counterpanes; Travelling rugs; Sleeping rugs; Sleeping bags; Pillows
    • A47G9/10Pillows
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08GMACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
    • C08G18/00Polymeric products of isocyanates or isothiocyanates
    • C08G18/06Polymeric products of isocyanates or isothiocyanates with compounds having active hydrogen
    • C08G18/28Polymeric products of isocyanates or isothiocyanates with compounds having active hydrogen characterised by the compounds used containing active hydrogen
    • C08G18/40High-molecular-weight compounds
    • C08G18/48Polyethers
    • C08G18/4804Two or more polyethers of different physical or chemical nature
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J9/00Working-up of macromolecular substances to porous or cellular articles or materials; After-treatment thereof
    • C08J9/0085Use of fibrous compounding ingredients
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08GMACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
    • C08G2101/00Manufacture of cellular products
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J2203/00Foams characterized by the expanding agent
    • C08J2203/14Saturated hydrocarbons, e.g. butane; Unspecified hydrocarbons
    • C08J2203/142Halogenated saturated hydrocarbons, e.g. H3C-CF3
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J2375/00Characterised by the use of polyureas or polyurethanes; Derivatives of such polymers
    • C08J2375/04Polyurethanes
    • C08J2375/08Polyurethanes from polyethers
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J2497/00Characterised by the use of lignin-containing materials
    • C08J2497/02Lignocellulosic material, e.g. wood, straw or bagasse

Abstract

The invention provides a loofah sponge flatulence sponge, which comprises: 1-15 parts of loofah sponge fiber, 10-25 parts of first polyether polyol, 40-60 parts of second polyether polyol, 20-30 parts of third polyether polyol, 45-60 parts of modified MDI and the like; wherein the retinervus Luffae fructus fiber adopts natural retinervus Luffae fructus fiber, naOH-H 2 O 2 Modified loofah sponge fiber and NaOH-CH 3 COOH modified loofah sponge fiber and NaOH-CO (NH) 2 ) 2 One or more modified loofah sponge fibers. The invention also provides a preparation method and application of the loofah sponge flatulence sponge. Meanwhile, the invention also provides the loofah sponge pillow for flatulence. The invention utilizes natural or modified loofah sponge fiber to mix with polyether polyol and the like, and prepares the loofah sponge flatulence sponge by polyurethane slow rebound foaming technology; the material is used as pillow core material, and has antibacterial, sleep improving, tear resistance, moisture dispersing, air permeability, and yellowing resistance.

Description

Loofah sponge for flatulence, preparation and application thereof and pillow
Technical Field
The invention relates to the field of bedding, in particular to loofah sponge flatulence sponge, and preparation and application thereof, and a pillow.
Background
The sleep is the guarantee of human energy and physical recovery, and the mattress and the pillow are the supporting platform of human sleep, directly relate to human sleep quality.
At present, the common pillows in the market mostly take memory foam, latex, vacuum foam, buckwheat husk, tea leaves, lavender, cassia seeds and the like as pillow core (filling) materials, wherein the memory foam and the latex pillow occupy larger market share. However, these pillow materials have poor air permeability and moisture diffusion, sweat and water vapor generated during the sleeping process of human body cannot be discharged timely, so that the human body is stuffy, the sleeping quality is affected, and after long-term use, the pillow is bred with mites and other fungi, and the damage is caused to the human body surface, neck, scalp and the like. Meanwhile, the traditional memory foam has the phenomena of easy tearing, easy yellowing and the like, so that the service life of the memory foam material is greatly reduced.
The loofah sponge is a porous biomass material with a three-dimensional net structure, the porosity of the loofah sponge is up to 92 percent, and the gas flux of the loofah sponge is up to 63546L/m 2 S, called "memory foam" in plant fibers, has better energy absorption capacity. Relevant researches show that the loofah sponge can absorb water more than 3 times of the self weight of the loofah sponge, and the moisture dissipating rate in the 16 th hour is as high as 98%. Therefore, the loofah sponge is a natural plant fiber material with high moisture absorption, high moisture dissipation, high air permeability and good energy absorption performance. Meanwhile, modern medical research shows that the loofah sponge contains components such as ribosome inactivating protein, loofah saponin, squalene, isopropyl palmitate and the like; wherein, the luffa ribosome inactivating protein has the function of inhibiting the reproduction of viruses and bacteria; the saponin has antibacterial, antipyretic and sedative biological activities; the squalene has effects of caring skin, improving sleep, and inhibiting growth of mold; isopropyl palmitate is a common emollient in skin care products and can make skin soft and smooth.
Therefore, if the loofah sponge material prepared by mixing and foaming the loofah sponge and the polyether polyol is used as the pillow filling material, the sponge filling material can be endowed with high-efficiency moisture absorption, moisture dissipation and ventilation effects, so that the problems of poor ventilation and moisture dissipation of the existing material are solved, and the antibacterial sleep effect of the filling material is enhanced to a certain extent.
As for the problems of easy tearing and easy yellowing of the existing material, researches find that the natural plant fiber has corresponding efficacy by modifying the natural plant fiber. The common modification treatment modes comprise alkali treatment, acid treatment and the like, and the loofah serving as a natural plant fiber can also be optimized in performance.
Therefore, the sponge material and the corresponding sponge pillow which have the effects of resisting bacteria, helping sleep, having good hygroscopicity and moisture dispersion and simultaneously having the tearing resistance and/or yellowing resistance can be developed by utilizing natural or modified loofah sponge.
Disclosure of Invention
The invention aims to provide the loofah sponge flatulence sponge which has the advantages of antibiosis, sleep aiding, good moisture absorption and dispersion and tear resistance and/or yellowing resistance, and the preparation, application and pillow thereof.
The invention adopts the following technical scheme to solve the technical problems:
the loofah sponge flatulence sponge comprises the following raw materials in parts by weight: 1-15 parts of loofah sponge fiber, 10-25 parts of first polyether polyol, 40-60 parts of second polyether polyol, 20-30 parts of third polyether polyol, 2-5 parts of water, 1-3 parts of foaming agent, 0.5-3 parts of foam stabilizer, 0.5-3 parts of catalyst and 45-60 parts of modified MDI; the retinervus Luffae fructus fiber is selected from natural retinervus Luffae fructus fiber, naOH-H 2 O 2 Modified loofah sponge fiber and NaOH-CH 3 COOH modified loofah sponge fiber and NaOH-CO (NH) 2 ) 2 One or more of modified loofah sponge fiber.
Wherein the natural loofah sponge fiber which is not subjected to chemical modification treatment contains 1-behenyl alcohol, cedryl acetate and octadecanol. Relevant research shows that 1-docosanol is an effective antibacterial film agent, has inhibitory effect on various virulence factors of gram-positive bacteria. Cedryl acetate has a rich costustoot and is commonly used as a raw material of daily chemical essence. And the octadecanol has lower density and better hydrophobicity, and can promote the microphase separation of polyurethane and improve the shape memory performance of polyurethane foam as an auxiliary agent.
Through NaOH-H 2 O 2 The interior of the treated loofah sponge fiber becomes hollow, and a large number of grooves, pores and cracks appear on the surface of the fiber, so that the loofah sponge fiber is more beneficial to absorbing and dissipating moisture, the dryness of the modified loofah sponge pillow surface is ensured, and the loofah sponge pillow can be endowed with excellent moisture absorption and moisture dispersion and air permeability.
Through NaOH-CH 3 The hemicellulose of the COOH treated loofah sponge fiber is partially removed, so that the relative content of lignin in the loofah sponge fiber is relatively increased; in addition, the relative content of active substances of the loofah sponge fiber after alkali-acetic acid mixing treatment is increased; for example, by the method NaOH-CH 3 Compared with an untreated sample, the total relative content of squalene and squalane in the modified loofah sponge fiber after COOH treatment is respectively increased by 49.4%. The squalene is a substance with light fragrance and high antioxidant activity, and has a certain antibacterial function. Therefore, the flexibility of the modified loofah sponge fiber after alkali-acetic acid mixing treatment is improved, and the extraction of active substances, namely squalene, is facilitated.
By NaOH-CO (NH) 2 ) 2 The crystal form size of the cellulose of the treated loofah sponge fiber is reduced by 36.4 percent, the smaller the influence of the crystal structure on the activity of long-chain molecular chain segments is, the higher the fatigue resistance of the fiber is, which shows that the method is NaOH-CO (NH) 2 ) 2 The treated loofah sponge fiber has a compact crystal structure, and good mechanical properties and fatigue resistance. Furthermore, by the method NaOH-CO (NH) 2 ) 2 2-ethylhexyl trans-4-methoxycinnamic acid, 2-ethylhexyl salicylate, homosalate and other active substances are detected in the active substances of the treated loofah sponge fiber, and the active substances are ultraviolet filtering agents and are used in sunscreen cream formulas and other personal care products in the global range; this indicates that NaOH-CO (NH) was processed through the process 2 ) 2 When the treated loofah sponge fiber is applied to preparation of the flatulence sponge, the problem that the flatulence sponge is easy to yellow can be effectively solved.
In a preferred embodiment of the present invention, the first polyether polyol is polyether polyol 307, and has a hydroxyl value of 240mg KOH/mg; the second polyether polyol is 1621, and the hydroxyl value is 42mg KOH/mg; the third polyether polyol is polyether polyol 3630, and the hydroxyl value is 24.5mg KOH/mg.
In a preferred embodiment of the present invention, methylene chloride is used as the blowing agent.
In a preferred embodiment of the present invention, the foam stabilizer is prepared by mixing 20 to 50 mass% of open-cell silicone oil foam stabilizer Si1 and 50 to 80 mass% of closed-cell silicone oil foam stabilizer Si 2.
In a preferred embodiment of the present invention, the open-cell silicone oil foam stabilizer Si1 is specifically silicone oil BL-580, and the closed-cell silicone oil foam stabilizer Si2 is specifically silicone oil BA-7810.
As one of the preferable modes of the invention, the catalyst is formed by mixing 40-60% of component a and 40-60% of component b by mass percent; wherein, the component a comprises 40-60% of ammonium Catalyst diethanolamine and 40-60% of 1,2-propylene glycol by mass percent, and the component b comprises 20-30% of bis-dimethyl ethyl ether by mass percent, 20-30% of NIAX Catalyst A-300 by mass percent and 50-60% of N, N-dimethyl cyclohexylamine by mass percent.
As one of the preferred modes of the present invention, WANNATE 8019 is used as the modified MDI.
As one preferable mode of the present invention, the method for obtaining the natural loofah sponge fiber comprises: (1) soaking retinervus Luffae fructus, cutting open, and removing seeds; (2) separating the annular wall of the retinervus Luffae fructus from the core layer; (3) washing the loofah sponge ring wall and the core layer with water for multiple times, and drying in the air; (4) rolling and kneading the annular wall and the core layer of the loofah sponge for multiple times by using a double-roller rolling machine (a double-roller rolling machine), wherein the purpose of rolling and kneading is to loosen the loofah sponge fiber bundles; and then, crushing the loofah sponge into 100 meshes by adopting a crusher to obtain the natural loofah sponge fiber powder required by the target.
As one of the preferable modes of the present invention, naOH-H is mentioned 2 O 2 Modified loofah sponge fiber and NaOH-CH 3 COOH modified loofah sponge fiber and NaOH-CO (NH) 2 ) 2 The modified retinervus Luffae fructus fiber is 5% NaOH-5%H 2 Improvement of OSex, 10% NaOH-20% 3 COOH modified, 18% NaOH-1.6% 2 ) 2 And (4) modifying.
As one of the preferable modes of the present invention, naOH-H is mentioned 2 O 2 The method for obtaining the modified loofah sponge fiber comprises the following steps: firstly, putting natural loofah sponge fiber into mixed solution of 5wt% NaOH and 5wt% hydrogen peroxide, and heating in water bath at 85 ℃ for 60min, wherein the solid-to-liquid ratio is 1:20; washing the obtained modified loofah sponge with 5wt% acetic acid solution to be neutral, and washing with pure water; finally, crushing the modified loofah sponge into 100 meshes by a crusher to obtain the NaOH-H required by the target 2 O 2 Modified loofah sponge fiber powder;
the NaOH-CH 3 The method for obtaining the COOH modified loofah sponge fiber comprises the following steps: firstly, putting natural loofah sponge fiber into a 10wt% NaOH solution, and heating in water bath at 40 ℃ for 30min; then putting the mixture into 20wt% acetic acid solution, and heating in water bath at 40 ℃ for 30min; then, washing the loofah sponge fibers with deionized water to be neutral; finally, crushing the modified loofah sponge into 100 meshes by a crusher to obtain the NaOH-CH required by the target 3 COOH modified loofah sponge fiber powder;
the NaOH-CO (NH) 2 ) 2 The method for obtaining the modified loofah sponge fiber comprises the following steps: adding natural retinervus Luffae fructus fiber into 18wt% NaOH and 1.6wt% CO (NH) 2 ) 2 Heating the mixed solution in water bath at 80 ℃ for 30min; then, washing the sample by using deionized water, and carrying out dealkalization treatment; then, acid bath is carried out for 8min at the temperature of 40 ℃, and the acid solution condition is as follows: h 2 SO 4 25g/L,Na 2 SO 4 90g/L,ZnSO 4 25g/L; finally, crushing the modified loofah sponge into 100 meshes by a crusher to obtain the NaOH-CO (NH) required by the target 2 ) 2 Modified loofah sponge fiber powder.
A preparation method of the loofah sponge flatulence sponge comprises the following steps:
(1) Classifying the raw materials except the modified MDI into an A component, and classifying the modified MDI raw material into a B component;
(2) Firstly, stirring the component A for 40-60s by using a stirrer at the rotating speed of 2000-3000r/min, and then mixing and stirring the A, B for 4-6s;
(3) Pouring the stirred mixture obtained in the step (2) into a foaming mold, and taking out after the mold is insulated for 5-10min by a mold temperature machine;
(4) Curing for 24h at normal temperature to obtain the sponge material for flatulence of the loofah sponge required by the target.
The loofah sponge flatulence sponge is used as a pillow inner material of a pillow.
A retinervus Luffae fructus flatulence sponge pillow comprises a pillow core supporting layer and a pillowcase for accommodating the pillow core supporting layer; the pillow inner supporting layer comprises a neck supporting column I, a neck supporting column II, a replaceable supporting module and a function heightening module; the replacement support module comprises a support seat and a plurality of loofah sponge flatulence sponge blocks which are detachably arranged on the support seat; the sponge pieces are arranged on the supporting seat through sponge piece mounting holes formed in the supporting seat.
As one of the preferable modes of the invention, the loofah sponge flatulence sponge block is prepared by mixing loofah sponge fibers with polyether polyol and modified MDI (diphenylmethane diisocyanate) and adopting a polyurethane slow rebound foaming technology; wherein the retinervus Luffae fructus fiber is natural retinervus Luffae fructus fiber, naOH-H 2 O 2 Modified loofah sponge fiber and NaOH-CH 3 COOH modified loofah sponge fiber and NaOH-CO (NH) 2 ) 2 One or more of modified loofah sponge fiber.
As one preferable mode of the invention, the pillow case sequentially comprises a first neck support accommodating area, a replaceable support accommodating area and a second neck support accommodating area along the width direction of the pillow case; the neck support accommodating area I, the replaceable support accommodating area and the neck support accommodating area of the pillowcase are respectively and correspondingly accommodated with the neck support pillar I, the replaceable support module and the neck support pillar II; meanwhile, the replaceable supporting and accommodating area of the pillow case comprises a supine sleeping area and two side sleeping areas positioned at two sides of the supine sleeping area along the length direction of the replaceable supporting and accommodating area; the sponge loofah flatulence sponge block comprises a sponge loofah sponge flatulence sponge block, a sponge cushion and a sponge cushion, wherein the sponge cushion corresponds to the supine region and the sponge cushion corresponds to the lateral sleep region, and the sponge cushion in the supine region and the sponge cushion in the lateral sleep region has different modification modes and addition amounts; in addition, in the pillowcase, the function heightening module is arranged at the bottoms of the neck support column I, the replaceable support module and the neck support column II.
As one preferable mode of the present invention, the first neck support column and the second neck support column are respectively horizontally arranged in the first neck support accommodating area and the second neck support accommodating area of the pillow case, and the sponge for swelling sponge for the luffa in the supine sleeping area and the sponge for swelling sponge for swelling in the lateral sleeping area on the replaceable support module are respectively vertically arranged in the supine sleeping area and the lateral sleeping area of the pillow case; on the supporting seat, the softness and hardness of pillows in different areas are adjusted by the sponge columns which are provided with different quantities of the loofah sponge flatulence sponge blocks, different loofah sponge modification modes and loofah sponge fiber contents, and the heights of the whole and pillows in different areas are adjusted by the function heightening modules and the loofah sponge flatulence sponge blocks with different heights.
Compared with the prior art, the invention has the advantages that:
(1) The invention adopts waste loofah leftover materials as raw materials, utilizes the slow rebound foaming process of polyurethane to prepare the loofah flatulence sponge pillow with non-toxicity, no pollution and ecological degradability, overcomes the defect of higher price of chemical raw materials of the existing common pillow filling materials, and has higher economic value.
(2) The invention fully exerts the characteristics of the components with bacteriostasis, anti-mite and sleep-aiding functions contained in the natural/modified loofah sponge. For example, both natural and modified loofah sponges contain a certain amount of squalene, which can emit light faint scent, is beneficial to improving the sleep quality of people and is beneficial to human health; in addition, the natural loofah sponge also contains 1-behenyl alcohol, and the 1-behenyl alcohol is an effective antibacterial film agent and has an inhibition effect on various virulence factors of gram-positive bacteria, so that the loofah sponge flatulence sponge has a certain antibacterial activity.
(3) According to the NaOH-H2O2 modified loofah sponge fiber, after alkali and hydrogen peroxide are mixed, the fiber becomes softer, the interior becomes hollow, and pores are formed on the surface, so that the hygroscopicity, the moisture dispersion and the sound absorption of the material are improved, the dryness and the comfort of a human-pillow interface are kept, the external noise pollution is reduced, and a good sleeping environment is created.
(4) According to the NaOH-CH3COOH modified loofah sponge fiber powder, after alkali-acetic acid mixing treatment, the flexibility of the modified loofah sponge is improved, so that the tensile resistance and the tearing resistance of the modified loofah sponge flatulence sponge are improved, the defect that the flatulence sponge is short in service life is overcome, and the modified loofah sponge flatulence sponge pillow can be used for a long time.
(5) After the NaOH-CO (NH 2) 2 modified loofah sponge fiber powder is subjected to alkali-urea mixing treatment, active substances such as 2-ethylhexyl trans-4-methoxycinnamic acid, 2-ethylhexyl salicylate, homosalate and the like are detected in the modified loofah sponge, and the active substances are better ultraviolet filtering agents; the loofah sponge flatulence sponge modified by alkali-urea mixed treatment can effectively overcome the defect that the conventional flatulence sponge is easy to yellow.
(6) The loofah sponge pillow adopts a partition design, and the loofah sponge blocks in each partition can be selected according to the requirements of consumers, the air permeability, moisture dispersion, tear resistance and other properties of the side sleeping area and the back sleeping area can be adjusted by changing the addition amount of the loofah sponge fiber or the modification mode of the loofah sponge. Based on the good moisture absorption and dispersion of the loofah sponge fibers, a three-dimensional circulation system of the moisture of the pillow is constructed, and the dynamic optimization of the sleeping environment of the loofah sponge bloating pillow is realized.
(7) The loofah sponge bloating sponge block realizes quantitative support by sorting quantitative modification mode, addition amount and density of the bloating sponge, and performs pillow partition structure design according to the requirement of a consumer on the hardness of the pillow.
(8) The loofah sponge pillow for flatulence realizes the regular replacement of internal raw materials through module design, fully exerts the characteristics of high moisture absorption and high moisture dispersion of loofah sponge fibers, and is favorable for refreshing a sleep microenvironment. Ensuring the performances of the natural/modified loofah sponge pillow filling material.
Drawings
FIG. 1 is a schematic view showing the overall structure of the sponge pillow for sponge circulation and flatulence in example 10;
FIG. 2 is a side view and a longitudinal section of the sponge pillow for sponge inflation in example 10;
FIG. 3 is a top cross sectional view of a supporting layer of a pillow inner in example 10;
FIG. 4 is a structural view of the sponge block for promoting the circulation of qi and the supporting post for the neck in example 10;
FIG. 5 is a structural view of the sponge block for promoting the circulation of qi and the supporting base of the silk melon collaterals in example 10.
In the figure: 1 is the pillow supporting layer, 11 is neck support column one, 12 is neck support column two, 13 is the supporting seat, 131 is the sponge piece mounting hole, 14 is luffa flatulence sponge piece, 141 is the somnolence district luffa flatulence sponge piece, 142 is the somnolence district luffa flatulence sponge piece, 15 is the function module of increaseing, 151 is the latex pad, 2 is the pillowcase, 21 holds district one for the neck support, 22 holds the district for removable the support, 221 is the somnolence district, 222 is the somnolence district, 23 holds district two for the neck support.
Detailed Description
The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.
Example 1
The natural loofah sponge flatulence sponge comprises the following raw materials in parts by weight: 1 part of natural loofah sponge fiber, 10 parts of first polyether polyol, 40 parts of second polyether polyol, 20 parts of third polyether polyol, 2 parts of water, 1 part of foaming agent, 0.5 part of foam stabilizer, 0.5 part of catalyst and 60 parts of modified MDI.
Further, in this embodiment, the first polyether polyol is polyether polyol 307, and the hydroxyl value is 240mg KOH/mg; the second polyether polyol is 1621, and the hydroxyl value is 42mg KOH/mg; the third polyether polyol is polyether polyol 3630, and the hydroxyl value is 24.5mg KOH/mg.
Further, in this example, methylene chloride was used as the blowing agent. The foam stabilizer is formed by mixing 20 mass percent of open-pore silicone oil foam stabilizer Si1 and 80 mass percent of closed-pore silicone oil foam stabilizer Si 2; wherein the open-pore silicone oil foam stabilizer Si1 is specifically silicone oil BL-580, and the closed-pore silicone oil foam stabilizer Si2 is specifically silicone oil BA-7810.
Meanwhile, the catalyst is formed by mixing 40 mass percent of the component a and 60 mass percent of the component b; wherein the component a comprises 40 mass percent of ammonium Catalyst diethanolamine and 60 mass percent of 1,2-propylene glycol, and the component b comprises 20 mass percent of bis-dimethylethyl ether, 20 mass percent of NIAX Catalyst A-300 and 60 mass percent of N, N-dimethylcyclohexylamine.
The modified MDI was used as WANNATE 8019.
In addition, in this embodiment, the natural loofah sponge fiber is in a powder form, and the obtaining method is as follows: (1) soaking retinervus Luffae fructus, cutting open, and removing seeds; (2) separating the annular wall from the core layer; (3) washing the loofah sponge ring wall and the core layer with water for multiple times, and drying in the air; (4) rolling and kneading the annular wall and the core layer of the loofah sponge for multiple times by using a double-roller rolling machine (a double-roller rolling machine), wherein the purpose of rolling and kneading is to loosen the loofah sponge fiber bundles; and then, crushing the loofah sponge into 100 meshes by adopting a crusher to obtain the natural loofah sponge fiber powder required by the target.
The preparation method of the natural loofah sponge flatulence sponge comprises the following steps:
(1) Classifying the raw materials except the modified MDI into an A component, and classifying the modified MDI raw material into a B component;
(2) Firstly, stirring the component A for 60s by using a stirrer at the rotating speed of 2000r/min, and then mixing and stirring the A, B for 4s;
(3) Pouring the stirred mixture obtained in the step (2) into a foaming mold, and taking out after the mold is kept warm for 5min by a mold temperature machine;
(4) Curing for 24 hours at normal temperature to obtain the sponge material required by the target.
Example 2
The natural loofah sponge flatulence sponge comprises the following raw materials in parts by weight: 5 parts of natural loofah sponge fiber, 15 parts of first polyether polyol, 50 parts of second polyether polyol, 25 parts of third polyether polyol, 3 parts of water, 2 parts of foaming agent, 2.5 parts of foam stabilizer, 1.5 parts of catalyst and 55 parts of modified MDI.
Further, in this embodiment, the first polyether polyol is polyether polyol 307, and the hydroxyl value is 240mg KOH/mg; the second polyether polyol is 1621, and the hydroxyl value is 42mg KOH/mg; the third polyether polyol is polyether polyol 3630, and the hydroxyl value is 24.5mg KOH/mg.
Further, in this example, methylene chloride was used as the blowing agent. The foam stabilizer is formed by mixing 30 mass percent of open-pore silicone oil foam stabilizer Si1 and 70 mass percent of closed-pore silicone oil foam stabilizer Si 2; wherein the open-pore silicone oil foam stabilizer Si1 is specifically silicone oil BL-580, and the closed-pore silicone oil foam stabilizer Si2 is specifically silicone oil BA-7810.
Meanwhile, the catalyst is formed by mixing 50 mass percent of the component a and 50 mass percent of the component b; wherein the component a comprises 50 mass percent of ammonium Catalyst diethanolamine and 50 mass percent of 1,2-propylene glycol, and the component b comprises 25 mass percent of bis-dimethyl ethyl ether, 25 mass percent of NIAX Catalyst A-300 and 50 mass percent of N, N-dimethyl cyclohexylamine.
The modified MDI was used as WANNATE 8019.
In addition, in this embodiment, the natural loofah sponge fiber is in a powder form, and the obtaining method is as follows: (1) soaking retinervus Luffae fructus, cutting open, and removing seeds; (2) separating the annular wall of the retinervus Luffae fructus from the core layer; (3) washing the loofah sponge ring wall and the core layer with water for multiple times, and drying in the air; (4) rolling and kneading the loofah sponge ring wall and the core layer for multiple times by using a double-roller rolling machine (a double-roller rolling machine), wherein the purpose of rolling and kneading is to loosen loofah sponge fiber bundles; and then, crushing the loofah sponge into 100 meshes by adopting a crusher to obtain the natural loofah sponge fiber powder required by the target.
The preparation method of the natural loofah sponge flatulence sponge comprises the following steps:
(1) Classifying the raw materials except the modified MDI into an A component, and classifying the modified MDI raw material into a B component;
(2) Firstly, stirring the component A for 50s by a stirrer at the rotating speed of 2500r/min, and then mixing and stirring the A, B for 5s;
(3) Pouring the stirred mixture obtained in the step (2) into a foaming mold, and taking out after the mold is kept warm for 8min by a mold temperature machine;
(4) Curing for 24h at normal temperature to obtain the sponge material for flatulence of the loofah sponge required by the target.
Example 3
A5% NaOH-5%H of this example 2 The O-modified loofah sponge flatulence sponge comprises the following raw materials in parts by weight: 5% NaOH-5%H 2 5 parts of O-modified loofah sponge fiber, 15 parts of first polyether polyol, 50 parts of second polyether polyol, 25 parts of third polyether polyol, 3 parts of water, 2 parts of foaming agent, 2.5 parts of foam stabilizer, 1.5 parts of catalyst and 55 parts of modified MDI.
Further, in this embodiment, the first polyether polyol is polyether polyol 307, and the hydroxyl value is 240mg KOH/mg; the second polyether polyol is 1621, and the hydroxyl value is 42mg KOH/mg; the third polyether polyol is polyether polyol 3630, and the hydroxyl value is 24.5mg KOH/mg.
Further, in this example, methylene chloride was used as the blowing agent. The foam stabilizer is formed by mixing 30 mass percent of open-pore silicone oil foam stabilizer Si1 and 70 mass percent of closed-pore silicone oil foam stabilizer Si 2; wherein the open-pore silicone oil foam stabilizer Si1 is specifically silicone oil BL-580, and the closed-pore silicone oil foam stabilizer Si2 is specifically silicone oil BA-7810.
Meanwhile, the catalyst is formed by mixing 50 mass percent of the component a and 50 mass percent of the component b; wherein the component a comprises 50 mass percent of ammonium Catalyst diethanolamine and 50 mass percent of 1,2-propylene glycol, and the component b comprises 25 mass percent of bis-dimethyl ethyl ether, 25 mass percent of NIAX Catalyst A-300 and 50 mass percent of N, N-dimethyl cyclohexylamine.
The modified MDI was used as WANNATE 8019.
In addition, in this example, 5% NaOH-5%H 2 The O modified loofah sponge fiber is powdery and is obtained by the following method: (1) soaking retinervus Luffae fructus, cutting open, and removing seeds; (2) separating the annular wall of the retinervus Luffae fructus from the core layer; (3) washing the loofah sponge ring wall and the core layer with water for multiple times, and drying; (4) rolling and kneading the loofah sponge ring wall and the core layer for multiple times by using a double-roller rolling machine (a double-roller rolling machine), wherein the purpose of rolling and kneading is to loosen loofah sponge fiber bundles; (5) putting loofah sponge fiber into mixed solution of 5wt% NaOH and 5wt% hydrogen peroxide, heating in water bath at 85 ℃ for 60min, wherein the solid-liquid ratio is 1:20; (6) washing the obtained modified loofah sponge with 5wt% acetic acid solution to be neutral, and washing with pure water; (7) pulverizing the modified retinervus Luffae fructus to 100 mesh with pulverizer to obtain 5% NaOH-5%H 2 O modified loofah sponge fiber powder.
5% of NaOH-5%H as described above 2 The preparation method of the O-modified loofah sponge flatulence sponge comprises the following steps:
(1) Classifying the raw materials except the modified MDI into an A component, and classifying the modified MDI raw material into a B component;
(2) Firstly, stirring the component A for 50s by a stirrer at the rotating speed of 2500r/min, and then mixing and stirring the A, B for 5s;
(3) Pouring the stirred mixture obtained in the step (2) into a foaming mould, and taking out after preserving the heat of the mould for 8min by adopting a mould temperature machine;
(4) Curing for 24 hours at normal temperature to obtain the sponge material required by the target.
Example 4
A 10-20% NaOH-20% of this example 3 The COOH modified loofah sponge flatulence sponge comprises the following raw materials in parts by weight: 10% NaOH-20% 3 5 parts of COOH modified loofah sponge fiber, 15 parts of first polyether polyol, 50 parts of second polyether polyol, 25 parts of third polyether polyol, 3 parts of water, 2 parts of foaming agent and 2.5 parts of foam stabilizer, and catalyst1.5 parts of a curing agent and 55 parts of modified MDI.
Further, in this embodiment, the first polyether polyol is polyether polyol 307, and the hydroxyl value is 240mg KOH/mg; the second polyether polyol is 1621, and the hydroxyl value is 42mg KOH/mg; the third polyether polyol is polyether polyol 3630, and the hydroxyl value is 24.5mg KOH/mg.
Further, in this example, methylene chloride was used as the blowing agent. The foam stabilizer is formed by mixing 30 mass percent of open-pore silicone oil foam stabilizer Si1 and 70 mass percent of closed-pore silicone oil foam stabilizer Si 2; wherein the open-pore silicone oil foam stabilizer Si1 is specifically silicone oil BL-580, and the closed-pore silicone oil foam stabilizer Si2 is specifically silicone oil BA-7810.
Meanwhile, the catalyst is formed by mixing 50 mass percent of the component a and 50 mass percent of the component b; wherein the component a comprises 50 mass percent of ammonium Catalyst diethanolamine and 50 mass percent of 1,2-propylene glycol, and the component b comprises 25 mass percent of bis-dimethyl ethyl ether, 25 mass percent of NIAX Catalyst A-300 and 50 mass percent of N, N-dimethyl cyclohexylamine.
The modified MDI was used with WANNATE 8019.
Furthermore, in the present example, 10% NaOH-20% 3 The COOH modified loofah sponge fiber is powdery and is obtained by the following method: (1) soaking retinervus Luffae fructus, cutting open, and removing seeds; (2) separating the annular wall of the retinervus Luffae fructus from the core layer; (3) washing the loofah sponge ring wall and the core layer with water for multiple times, and drying; (4) rolling and kneading the annular wall and the core layer of the loofah sponge for multiple times by using a double-roller rolling machine (a double-roller rolling machine), wherein the purpose of rolling and kneading is to loosen the loofah sponge fiber bundles; (5) adding natural retinervus Luffae fructus fiber into 10wt% NaOH solution, and heating in water bath at 40 deg.C for 30min; then putting the mixture into 20wt% acetic acid solution, and heating in water bath at 40 ℃ for 30min; (6) washing loofah sponge fibers with deionized water to be neutral; (7) pulverizing the modified retinervus Luffae fructus to 100 mesh with pulverizer to obtain 10% NaOH-20% of target content 3 COOH modified loofah sponge fiber powder.
10% of above NaOH-20% 3 Preparation method of COOH modified loofah sponge for flatulence and bagThe method comprises the following steps:
(1) Classifying the raw materials except the modified MDI into an A component, and classifying the modified MDI raw material into a B component;
(2) Firstly, stirring the component A for 50s by a stirrer at the rotating speed of 2500r/min, and then mixing and stirring the A, B for 5s;
(3) Pouring the stirred mixture obtained in the step (2) into a foaming mold, and taking out after the mold is kept warm for 8min by a mold temperature machine;
(4) Curing for 24h at normal temperature to obtain the sponge material for flatulence of the loofah sponge required by the target.
Example 5
An 18-percent NaOH-1.6-percent CO (NH) of this example 2 ) 2 The modified loofah sponge flatulence sponge comprises the following raw materials in parts by weight: 18% NaOH-1.6% by weight of CO (NH) 2 ) 2 5 parts of modified loofah sponge fiber, 15 parts of first polyether polyol, 50 parts of second polyether polyol, 25 parts of third polyether polyol, 3 parts of water, 2 parts of foaming agent, 2.5 parts of foam stabilizer, 1.5 parts of catalyst and 55 parts of modified MDI.
Further, in this embodiment, the first polyether polyol is polyether polyol 307, and the hydroxyl value is 240mg KOH/mg; the second polyether polyol is 1621, and the hydroxyl value is 42mg KOH/mg; the third polyether polyol is polyether polyol 3630, and the hydroxyl value is 24.5mg KOH/mg.
Further, in this example, methylene chloride was used as the blowing agent. The foam stabilizer is formed by mixing 30 mass percent of open-pore silicone oil foam stabilizer Si1 and 70 mass percent of closed-pore silicone oil foam stabilizer Si 2; wherein the open-pore silicone oil foam stabilizer Si1 is specifically silicone oil BL-580, and the closed-pore silicone oil foam stabilizer Si2 is specifically silicone oil BA-7810.
Meanwhile, the catalyst is formed by mixing 50 mass percent of the component a and 50 mass percent of the component b; wherein the component a comprises 50 mass percent of ammonium Catalyst diethanolamine and 50 mass percent of 1,2-propylene glycol, and the component b comprises 25 mass percent of bis-dimethyl ethyl ether, 25 mass percent of NIAX Catalyst A-300 and 50 mass percent of N, N-dimethyl cyclohexylamine.
The modified MDI was used as WANNATE 8019.
Furthermore, in the present example, 18% NaOH-1.6% CO (NH) 2 ) 2 The modified loofah sponge fiber is powdery and is obtained by the following method: (1) soaking retinervus Luffae fructus, cutting open, and removing seeds; (2) separating the annular wall of the retinervus Luffae fructus from the core layer; (3) washing the loofah sponge ring wall and the core layer with water for multiple times, and drying; (4) rolling and kneading the annular wall and the core layer of the loofah sponge for multiple times by using a double-roller rolling machine (a double-roller rolling machine), wherein the purpose of rolling and kneading is to loosen the loofah sponge fiber bundles; (5) loofah sponge fibers were put into 18wt% NaOH and 1.6wt% CO (NH) 2 ) 2 Heating the mixed solution in water bath at 80 ℃ for 30min; (6) washing a sample by using deionized water, and carrying out dealkalization treatment; (7) acid bath is carried out for 8min at the temperature of 40 ℃, and the acid liquor condition is as follows: h 2 SO 4 25g/L,Na 2 SO 4 90g/L,ZnSO 4 25g/L; (8) pulverizing the modified retinervus Luffae fructus to 100 mesh with pulverizer to obtain the desired content of 18% NaOH-1.6% CO (NH) 2 ) 2 Modified loofah sponge fiber powder.
18% of NaOH-1.6% as described above 2 ) 2 The preparation method of the modified loofah sponge flatulence sponge comprises the following steps:
(1) Classifying the raw materials except the modified MDI into an A component, and classifying the modified MDI raw material into a B component;
(2) Firstly, stirring the component A for 50s by a stirrer at the rotating speed of 2500r/min, and then mixing and stirring the A, B for 5s;
(3) Pouring the stirred mixture obtained in the step (2) into a foaming mould, and taking out after preserving the heat of the mould for 8min by adopting a mould temperature machine;
(4) Curing for 24h at normal temperature to obtain the sponge material for flatulence of the loofah sponge required by the target.
Example 6
The modified loofah sponge mixed flatulence sponge comprises the following raw materials in parts by weight: 5 parts of loofah sponge fiber mixture, 15 parts of first polyether polyol, 50 parts of second polyether polyol, 25 parts of third polyether polyol, 3 parts of water, 2 parts of foaming agent, 2.5 parts of foam stabilizer, 1.5 parts of catalyst and modified MDIAnd 55 parts. Wherein the vegetable sponge fiber mixture is prepared from natural vegetable sponge fiber powder, 5% NaOH-5%H 2 O-modified retinervus Luffae fructus fiber powder, 10% NaOH-20% 3 COOH modified loofah sponge fiber powder with 18% NaOH-1.6% 2 ) 2 The modified loofah sponge fiber powder is prepared from a mixture of modified loofah sponge fiber powder (various types of powder are mixed according to a weight ratio of 1.
Further, in this embodiment, the first polyether polyol is polyether polyol 307, and the hydroxyl value is 240mg KOH/mg; the second polyether polyol is 1621, and the hydroxyl value is 42mg KOH/mg; the third polyether polyol is polyether polyol 3630, and the hydroxyl value is 24.5mg KOH/mg.
Further, in this example, methylene chloride was used as the blowing agent. The foam stabilizer is formed by mixing 30 mass percent of open-pore silicone oil foam stabilizer Si1 and 70 mass percent of closed-pore silicone oil foam stabilizer Si 2; wherein the open-pore silicone oil foam stabilizer Si1 is specifically silicone oil BL-580, and the closed-pore silicone oil foam stabilizer Si2 is specifically silicone oil BA-7810.
Meanwhile, the catalyst is formed by mixing 50 mass percent of the component a and 50 mass percent of the component b; wherein the component a comprises 50 mass percent of ammonium Catalyst diethanolamine and 50 mass percent of 1,2-propylene glycol, and the component b comprises 25 mass percent of bis-dimethyl ethyl ether, 25 mass percent of NIAX Catalyst A-300 and 50 mass percent of N, N-dimethyl cyclohexylamine.
The modified MDI was used as WANNATE 8019.
In addition, in this embodiment, the method for obtaining the natural loofah sponge fiber powder includes: (1) soaking retinervus Luffae fructus, cutting open, and removing seeds; (2) separating the annular wall from the core layer; (3) washing the loofah sponge ring wall and the core layer with water for multiple times, and drying in the air; (4) rolling and kneading the loofah sponge ring wall and the core layer for multiple times by using a double-roller rolling machine (a double-roller rolling machine), wherein the purpose of rolling and kneading is to loosen loofah sponge fiber bundles; and then, crushing the loofah sponge into 100 meshes by adopting a crusher to obtain the natural loofah sponge fiber powder required by the target.
5%NaOH-5%H 2 O-modified loofah sponge fiber powderThe last acquisition method comprises the following steps: (1) soaking retinervus Luffae fructus, cutting open, and removing seeds; (2) separating the annular wall from the core layer; (3) washing the loofah sponge ring wall and the core layer with water for multiple times, and drying; (4) rolling and kneading the annular wall and the core layer of the loofah sponge for multiple times by using a double-roller rolling machine (a double-roller rolling machine), wherein the purpose of rolling and kneading is to loosen the loofah sponge fiber bundles; (5) adding retinervus Luffae fructus fiber into mixed solution of 5wt% NaOH and 5wt% hydrogen peroxide, heating in 85 deg.C water bath for 60min with solid-to-liquid ratio of 1:20; (6) washing the obtained modified loofah sponge with 5wt% acetic acid solution to be neutral, and washing with pure water; (7) pulverizing the modified retinervus Luffae fructus to 100 mesh with pulverizer to obtain 5% NaOH-5%H 2 O modified loofah sponge fiber powder.
10%NaOH-20%CH 3 The method for obtaining the COOH modified loofah sponge fiber powder comprises the following steps: (1) soaking retinervus Luffae fructus, cutting open, and removing seeds; (2) separating the annular wall of the retinervus Luffae fructus from the core layer; (3) washing the loofah sponge ring wall and the core layer with water for multiple times, and drying; (4) rolling and kneading the annular wall and the core layer of the loofah sponge for multiple times by using a double-roller rolling machine (a double-roller rolling machine), wherein the purpose of rolling and kneading is to loosen the loofah sponge fiber bundles; (5) adding natural retinervus Luffae fructus fiber into 10wt% NaOH solution, and heating in water bath at 40 deg.C for 30min; then putting the mixture into 20wt% acetic acid solution, and heating in water bath at 40 ℃ for 30min; (6) washing loofah sponge fibers with deionized water to be neutral; (7) pulverizing the modified retinervus Luffae fructus to 100 mesh with pulverizer to obtain 10% NaOH-20% of target content 3 COOH modified loofah sponge fiber powder.
18%NaOH-1.6%CO(NH 2 ) 2 The method for obtaining the modified loofah sponge fiber powder comprises the following steps: (1) soaking retinervus Luffae fructus, cutting open, and removing seeds; (2) separating the annular wall of the retinervus Luffae fructus from the core layer; (3) washing the loofah sponge ring wall and the core layer with water for multiple times, and drying; (4) rolling and kneading the annular wall and the core layer of the loofah sponge for multiple times by using a double-roller rolling machine (a double-roller rolling machine), wherein the purpose of rolling and kneading is to loosen the loofah sponge fiber bundles; (5) loofah sponge fibers were put into 18wt% NaOH and 1.6wt% CO (NH) 2 ) 2 Heating the mixed solution in water bath at 80 ℃ for 30min; (6) washing the sample by using deionized water, and carrying out dealkalization treatment; (7) acid bath at 40 deg.C8min, acid liquor condition: h 2 SO 4 25g/L,Na 2 SO 4 90g/L,ZnSO 4 25g/L; (8) pulverizing the modified retinervus Luffae fructus to 100 mesh with pulverizer to obtain the desired content of 18% NaOH-1.6% CO (NH) 2 ) 2 Modified loofah sponge fiber powder.
The preparation method of the modified loofah sponge mixed flatulence sponge comprises the following steps:
(1) Classifying the raw materials except the modified MDI into an A component, and classifying the modified MDI raw material into a B component;
(2) Firstly, stirring the component A for 50s by a stirrer at the rotating speed of 2500r/min, and then mixing and stirring the A, B for 5s;
(3) Pouring the stirred mixture obtained in the step (2) into a foaming mold, and taking out after the mold is kept warm for 8min by a mold temperature machine;
(4) Curing for 24h at normal temperature to obtain the sponge material for flatulence of the loofah sponge required by the target.
Example 7
The natural loofah sponge flatulence sponge comprises the following raw materials in parts by weight: 15 parts of natural loofah sponge fiber, 25 parts of first polyether polyol, 60 parts of second polyether polyol, 30 parts of third polyether polyol, 5 parts of water, 3 parts of foaming agent, 3 parts of foam stabilizer, 3 parts of catalyst and 60 parts of modified MDI.
Further, in this embodiment, the first polyether polyol is polyether polyol 307, and the hydroxyl value is 240mg KOH/mg; the second polyether polyol is 1621 polyether polyol with a hydroxyl value of 42mg KOH/mg; the third polyether polyol is polyether polyol 3630, and the hydroxyl value is 24.5mg KOH/mg.
Further, in this example, methylene chloride was used as the blowing agent. The foam stabilizer is formed by mixing 50 mass percent of open-pore silicone oil foam stabilizer Si1 and 50 mass percent of closed-pore silicone oil foam stabilizer Si 2; wherein the open-pore silicone oil foam stabilizer Si1 is specifically silicone oil BL-580, and the closed-pore silicone oil foam stabilizer Si2 is specifically silicone oil BA-7810.
Meanwhile, the catalyst is formed by mixing 60 mass percent of the component a and 40 mass percent of the component b; wherein the component a comprises 60 mass percent of ammonium Catalyst diethanolamine and 40 mass percent of 1,2-propylene glycol, and the component b comprises 30 mass percent of bis-dimethyl ethyl ether, 20 mass percent of NIAX Catalyst A-300 and 50 mass percent of N, N-dimethyl cyclohexylamine.
The modified MDI was used as WANNATE 8019.
In addition, in this embodiment, the natural loofah sponge fiber is in a powder form, and the obtaining method includes: (1) soaking retinervus Luffae fructus, cutting open, and removing seeds; (2) separating the annular wall from the core layer; (3) washing the loofah sponge ring wall and the core layer with water for multiple times, and drying in the air; (4) rolling and kneading the annular wall and the core layer of the loofah sponge for multiple times by using a double-roller rolling machine (a double-roller rolling machine), wherein the purpose of rolling and kneading is to loosen the loofah sponge fiber bundles; and then, crushing the loofah sponge into 100 meshes by adopting a crusher to obtain the natural loofah sponge fiber powder required by the target.
The preparation method of the natural loofah sponge flatulence sponge comprises the following steps:
(1) Classifying the raw materials except the modified MDI into an A component, and classifying the modified MDI raw material into a B component;
(2) Firstly, stirring the component A for 40s by using a stirrer at the rotating speed of 3000r/min, and then mixing and stirring the A, B for 6s;
(3) Pouring the stirred mixture obtained in the step (2) into a foaming mold, and taking out after the mold is insulated for 10min by a mold temperature machine;
(4) Curing for 24h at normal temperature to obtain the sponge material for flatulence of the loofah sponge required by the target.
Example 8
The sponge without loofah sponge flatulence comprises the following raw materials in parts by weight: 0 part of loofah sponge fiber, 15 parts of first polyether polyol, 50 parts of second polyether polyol, 25 parts of third polyether polyol, 3 parts of water, 2 parts of foaming agent, 2.5 parts of foam stabilizer, 1.5 parts of catalyst and 55 parts of modified MDI.
Further, in this embodiment, the first polyether polyol is polyether polyol 307, and the hydroxyl value is 240mg KOH/mg; the second polyether polyol is 1621, and the hydroxyl value is 42mg KOH/mg; the third polyether polyol is polyether polyol 3630, and the hydroxyl value is 24.5mg KOH/mg.
Further, in this example, methylene chloride was used as the blowing agent. The foam stabilizer is formed by mixing 30 mass percent of open-pore silicone oil foam stabilizer Si1 and 70 mass percent of closed-pore silicone oil foam stabilizer Si 2; wherein the open-pore silicone oil foam stabilizer Si1 is specifically silicone oil BL-580, and the closed-pore silicone oil foam stabilizer Si2 is specifically silicone oil BA-7810.
Meanwhile, the catalyst is formed by mixing 50 mass percent of the component a and 50 mass percent of the component b; wherein the component a comprises 50 mass percent of ammonium Catalyst diethanolamine and 50 mass percent of 1,2-propylene glycol, and the component b comprises 25 mass percent of bis-dimethyl ethyl ether, 25 mass percent of NIAX Catalyst A-300 and 50 mass percent of N, N-dimethyl cyclohexylamine.
The modified MDI was used as WANNATE 8019.
The preparation method of the sponge without loofah sponge flatulence comprises the following steps:
(1) Classifying the raw materials except the modified MDI into an A component, and classifying the modified MDI raw material into a B component;
(2) Firstly, stirring the component A for 50s by a stirrer at the rotating speed of 2500r/min, and then mixing and stirring the A, B for 5s;
(3) Pouring the stirred mixture obtained in the step (2) into a foaming mold, and taking out after the mold is kept warm for 8min by a mold temperature machine;
(4) Curing the mixture for 24 hours at the normal temperature, and obtaining the loofah sponge flatulence sponge material required by the target.
Example 9
The results of the performance tests of the sponge materials of this example, which are prepared from the above-mentioned sponge materials of examples 1 to 8, are shown.
According to the raw material formulas and the preparation methods of the embodiments, the corresponding natural and modified loofah sponge flatulence sponges are prepared respectively, and the sponge flatulence sponges are subjected to sample cutting and testing respectively.
The results of the various performance tests are shown in table 1. Table 1 various mechanical properties, moisture absorption and dispersion properties, air permeability and antibacterial properties (staphylococcus aureus) of natural and modified loofah sponge flatulence sponges were determined according to GB/T6344-2008, GB/T6670-1997, GB/T10808-2006, ASTM D3574, GB/T24218-2009, iso 22649 2016, lSO 20645 (E). In addition, the color change of the natural/modified loofah sponge flatulence sponge after being placed for 6 months is detected by a CM-3600d horizontal spectrocolorimeter of Konika Mentada sensor company of Japan.
TABLE 1 test results of the sponge for loofah sponge flatulence
Figure BDA0003245649790000221
As can be seen from table 1, compared with the conventional sponge material without loofah sponge fibers, the natural/modified loofah sponge material of the present invention has the characteristics of high moisture-dissipating, high air permeability, tear resistance, bacteriostasis, sleep-aiding, etc. In addition, after the sponge is placed for 6 months, the flatulence sponge without the loofah sponge has obvious yellowing phenomenon, and NaOH-CO (NH) 2 ) 2 The modified loofah sponge flatulence sponge only slightly yellows. Compared with the conventional flatulence sponge, the natural/modified loofah sponge material ensures comfort, and the method can also give consideration to better performance and has better application value.
Example 10
As shown in fig. 1 to 5, the loofah sponge pillow comprises a pillow core supporting layer 1 and a pillow case 2 accommodating the pillow core supporting layer 1. The pillow inner supporting layer comprises a neck supporting column I11, a neck supporting column II 12, a replaceable supporting module and a function height adjusting module 15, and the replaceable supporting module comprises a supporting seat 13 and a plurality of loofah sponge flatulence sponge blocks 14 which are detachably mounted on the supporting seat 13. Wherein, a plurality of sponge blocks 14 for sponge flatulence are arranged on the supporting seat 13 through sponge block mounting holes 131 arranged on the supporting seat 13.
Specifically, referring to fig. 1 and fig. 2, in the present embodiment, the upper surface of the pillow case 2 is B-shaped, and the lower surface of the pillow case 2 is horizontal. The pillow case 2 is sleeved on the periphery of the pillow core supporting layer 1, and the pillow core supporting layer 1 is placed in the pillow core supporting layer through an invisible zipper arranged on the side part of the pillow case. The neck support columns I11, the neck support columns II 12 and the replaceable support modules are placed in the pillowcase 2 through the same invisible zipper, and the function heightening module 15 is placed in the pillowcase 2 through the other invisible zipper.
Specifically, referring to fig. 1, fig. 2 and fig. 3, in the present embodiment, the pillow case 2 sequentially includes a first neck support accommodating area 21, a replaceable support accommodating area 22 and a second neck support accommodating area 23 along the width direction thereof; wherein, the neck support accommodating area I21, the replaceable support accommodating area 22 and the neck support accommodating area II 23 of the pillow case 2 are respectively and correspondingly accommodated with a neck support pillar I11, a replaceable support module and a neck support pillar II 12. Meanwhile, the replaceable supporting and accommodating section 22 of the pillow case 2 further includes a sleeping-on-back section 221 and two sleeping-on-side sections 222 located at both sides of the sleeping-on-back section 221 along the length direction thereof. Wherein, the pillowcase 2 corresponding to the supine region 221 contains the sponge for flatulence 141 in the supine region, the pillowcase 2 corresponding to the lateral region 222 contains the sponge for flatulence 142 in the lateral region, and the sponge for flatulence 141 in the supine region and the sponge for flatulence 142 in the lateral region have different modification modes and addition amounts. In addition, in the pillow case 2, a function heightening module 15 is disposed at the bottom of the neck support pillar one 11, the replaceable support module and the neck support pillar two 12, and the function heightening module 15 is specifically a latex pad 151 having a certain height.
Specifically, referring to fig. 2 and 4, in the present embodiment, the neck supporting columns 11 and the neck supporting columns 12 are respectively horizontally disposed in the neck supporting and accommodating area 21 and the neck supporting and accommodating area 23 of the pillow case 2, and the sponge 141 for sleeping on the back and the sponge 142 for sleeping on the side on the replaceable supporting module are respectively vertically disposed in the back and side sleeping areas 221 and 222 of the pillow case 2. When the multifunctional pillow is used, the softness and hardness of the pillows in different areas can be adjusted by setting different quantities of the loofah sponge flatulence sponge blocks 14, different loofah sponge modification modes and different loofah sponge fiber contents, and the heights of the whole and different area pillows can be adjusted by setting the function height adjusting module 15 and setting the loofah sponge flatulence sponge blocks 14 with different heights.
In addition, regarding the material of the pillow of the present embodiment: the first neck support column 11 and the second neck support column 12 are made of common memory cotton, the function height adjusting module 15 is made of latex, and the replacement support module is made of loofah sponge flatulence sponge. According to the preparation method and the raw material formula of the loofah sponge flatulence sponge material, referring to the examples 1-7, the example 9 proves that the addition of the natural or modified loofah sponge fiber is beneficial to enhancing the tear resistance, the air permeability, the yellowing resistance, the hygroscopicity and the moisture dispersion of the flatulence sponge.
The pillow installation method of the embodiment comprises the following steps:
firstly, the replaceable supporting module is sequentially placed into the sponge block mounting holes 131 of the supporting seat 13 according to the sponge swelling sponge block 141 in the supine sleeping area and the sponge swelling sponge block 142 in the lateral sleeping area, so as to complete the mounting of the replaceable supporting module, as shown in fig. 5. Then, the installed replaceable support module is placed into a replaceable support accommodating area 22 of the pillowcase 2, and the neck support pillar I11 and the neck support pillar II 12 are respectively placed into a neck support accommodating area I21 and a neck support accommodating area II 23 of the pillowcase 2; meanwhile, the function-increasing module 15 is placed in the position inside the pillow case 2 below the neck support pillar I11, the neck support pillar II 12 and the replaceable support module, as shown in fig. 2; and finally, pulling the corresponding invisible zipper to complete the assembly of the loofah sponge flatulence sponge pillow.
The use and adjustment method of the pillow comprises the following steps:
(1) When a user uses the pillow, according to sleeping habits of different people and preferences on the hardness of the pillow, the hardness, the air permeability and the antibacterial activity of the pillow are regulated and controlled by placing different quantities and types of the modified or natural loofah sponge blocks 14, and the height of the pillow is regulated and controlled by whether the function heightening module 15 is placed or not and placing the loofah sponge blocks 14 with different heights, so that the optimal pillow matching of the people is realized;
(2) The loofah sponge flatulence sponge pillow in the embodiment has three functions: firstly, the defect of poor flatulence and moisture dispersion in the market is overcome, the dryness and comfort of the pillow surface are guaranteed, and a good sleeping microenvironment is provided; secondly, the natural/modified loofah contains squalene components, which is beneficial to the sleep of a human body and enables the human body to sleep easily; thirdly, the characteristic that the flatulence sponge on the market is easy to oxidize and yellow and the characteristic that the flatulence sponge is easy to tear is improved, and the service life of the flatulence sponge is prolonged.
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 and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The loofah sponge flatulence sponge is characterized by comprising the following raw materials in parts by weight: 1-15 parts of loofah sponge fiber, 10-25 parts of first polyether polyol, 40-60 parts of second polyether polyol, 20-30 parts of third polyether polyol, 2-5 parts of water, 1-3 parts of foaming agent, 0.5-3 parts of foam stabilizer, 0.5-3 parts of catalyst and 45-60 parts of modified MDI; wherein the retinervus Luffae fructus fiber is selected from natural retinervus Luffae fructus fiber, naOH-H 2 O 2 Modified loofah sponge fiber and NaOH-CH 3 COOH modified loofah sponge fiber and NaOH-CO (NH) 2 ) 2 One or more of modified loofah sponge fiber.
2. The loofah sponge according to claim 1, wherein the first polyether polyol is polyether polyol 307 having a hydroxyl number of 240mg KOH/mg; the second polyether polyol is 1621 polyether polyol with a hydroxyl value of 42mg KOH/mg; the third polyether polyol is polyether polyol 3630, and the hydroxyl value is 24.5mg KOH/mg.
3. The loofah sponge flatulence sponge according to claim 1, characterized in that the foam stabilizer is formed by mixing 20-50% by mass of an open-cell silicone oil foam stabilizer Si1 and 50-80% by mass of a closed-cell silicone oil foam stabilizer Si 2.
4. The loofah sponge for flatulence according to claim 1, wherein the catalyst is prepared by mixing 40-60% of component a and 40-60% of component b by mass; wherein the component a comprises 40-60% by mass of ammonium Catalyst diethanolamine and 40-60% by mass of 1,2-propylene glycol, and the component b comprises 20-30% by mass of bis-dimethylethyl ether, 20-30% by mass of NIAX Catalyst A-300 and 50-60% by mass of N, N-dimethylcyclohexylamine.
5. The loofah sponge according to claim 1, wherein said NaOH-H 2 O 2 The method for obtaining the modified loofah sponge fiber comprises the following steps: firstly, putting natural loofah sponge fiber into mixed solution of 5wt% NaOH and 5wt% hydrogen peroxide, and heating in water bath at 85 ℃ for 60min, wherein the solid-to-liquid ratio is 1:20; washing the obtained modified loofah sponge with 5wt% acetic acid solution to be neutral, and washing with pure water; finally, crushing the modified loofah sponge into 100 meshes by a crusher to obtain the NaOH-H required by the target 2 O 2 Modified loofah sponge fiber powder;
the NaOH-CH 3 The method for obtaining the COOH modified loofah sponge fiber comprises the following steps: firstly, putting natural loofah sponge fiber into a 10wt% NaOH solution, and heating in water bath at 40 ℃ for 30min; then putting the mixture into 20wt% acetic acid solution, and heating in water bath at 40 ℃ for 30min; then, washing the loofah sponge fibers with deionized water to be neutral; finally, crushing the modified loofah sponge into 100 meshes by a crusher to obtain the NaOH-CH required by the target 3 COOH modified loofah sponge fiber powder;
the NaOH-CO (NH) 2 ) 2 The method for obtaining the modified loofah sponge fiber comprises the following steps: first, natural vegetable sponge fibers were put into 18wt% NaOH and 1.6wt% CO (NH) 2 ) 2 Heating the mixed solution in water bath at 80 ℃ for 30min; then, washing the sample by using deionized water, and carrying out dealkalization treatment; and then, carrying out acid bath for 8min at the temperature of 40 ℃, wherein the acid solution condition is as follows: h 2 SO 4 25g/L,Na 2 SO 4 90g/L,ZnSO 4 25g/L; finally, crushing the modified loofah sponge into 100 meshes by a crusher to obtain the NaOH-CO (NH) required by the target 2 ) 2 Modified loofah sponge fiber powder.
6. A method for preparing the loofah sponge flatulence sponge according to any one of claims 1 to 5, comprising the following steps:
(1) Classifying the raw materials except the modified MDI into an A component, and classifying the modified MDI raw material into a B component;
(2) Firstly, stirring the component A for 40-60s by using a stirrer at the rotating speed of 2000-3000r/min, and then mixing and stirring the A, B for 4-6s;
(3) Pouring the stirred mixture obtained in the step (2) into a foaming mold, and taking out after the mold is insulated for 5-10min by a mold temperature machine;
(4) Curing for 24h at normal temperature to obtain the sponge material for flatulence of the loofah sponge required by the target.
7. Use of the loofah sponge according to any one of claims 1-5, wherein the loofah sponge is used as a pillow core material of a pillow.
8. A loofah sponge pillow with flatulence is characterized by comprising a pillow core supporting layer and a pillow case for accommodating the pillow core supporting layer; the pillow inner supporting layer comprises a neck supporting column I, a neck supporting column II, a replaceable supporting module and a function heightening module; the replacement support module comprises a support seat and a plurality of loofah sponge flatulence sponge blocks which are detachably arranged on the support seat; wherein the loofah sponge flatulence sponge block is made of loofah sponge flatulence sponge material, the loofah sponge flatulence sponge as described in any one of claims 1-5; the sponge blocks are arranged on the supporting seat through sponge block mounting holes arranged on the supporting seat.
9. The loofah sponge pillow as claimed in claim 8, wherein the loofah sponge pillow is prepared by mixing loofah sponge fibers with polyether polyol and modified MDI (diphenyl-methane-diisocyanate) and performing slow-rebound polyurethane foaming; wherein the retinervus Luffae fructus fiber is natural retinervus Luffae fructus fiber, naOH-H 2 O 2 Modified loofah sponge fiber and NaOH-CH 3 COOH modified loofah sponge fiber and NaOH-CO (NH) 2 ) 2 One or more of modified retinervus Luffae fructus fiberA plurality of mixtures.
10. The loofah sponge pillow with flatulence as recited in claim 8, wherein the pillow case comprises a first neck support accommodation area, a replaceable support accommodation area and a second neck support accommodation area in sequence along a width direction of the pillow case; the neck support accommodating area I, the replaceable support accommodating area and the neck support accommodating area of the pillowcase are respectively and correspondingly accommodated with the neck support pillar I, the replaceable support module and the neck support pillar II; meanwhile, the replaceable supporting and accommodating area of the pillow case comprises a supine sleeping area and two side sleeping areas positioned at two sides of the supine sleeping area along the length direction of the replaceable supporting and accommodating area; wherein the pillowcase corresponding to the supine region contains sponge block for promoting flatulence of retinervus Luffae fructus in the supine region, the pillowcase corresponding to the side sleeping area contains sponge gourd vegetable sponge flatulence sponge block, the sponge gourd vegetable sponge flatulence sponge block in the supine sleeping area and the sponge vegetable sponge flatulence sponge block in the lateral sleeping area have different modification modes and addition amounts; in addition, in the pillowcase, the function heightening module is arranged at the bottoms of the neck support column I, the replaceable support module and the neck support column II.
CN202111031912.1A 2021-09-03 2021-09-03 Loofah sponge for flatulence, preparation and application thereof and pillow Active CN113773637B (en)

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109929085A (en) * 2019-03-26 2019-06-25 上海馨源新材料科技有限公司 Hydrophilic ventilative MDI memory foam of one kind and preparation method thereof
CN110025178A (en) * 2018-07-23 2019-07-19 安徽农业大学 A kind of luffa Spring pillow and its pillow
CN110025179A (en) * 2018-07-23 2019-07-19 安徽农业大学 A kind of luffa functional module pillow and its pillow
CN110698825A (en) * 2019-10-11 2020-01-17 河南功能高分子膜材料创新中心有限公司 Process for preparing high-toughness biodegradable composite material by utilizing loofah sponge fibers and PLA
CN111346622A (en) * 2018-12-24 2020-06-30 内蒙古蒙牛乳业(集团)股份有限公司 Chromatographic packing and preparation method and application thereof

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA2800374C (en) * 2011-02-11 2016-01-05 Jiangsu Healthcare Co., Ltd An mdi system non-temperature sensitive memory sponge suitable for flat foam foaming process

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110025178A (en) * 2018-07-23 2019-07-19 安徽农业大学 A kind of luffa Spring pillow and its pillow
CN110025179A (en) * 2018-07-23 2019-07-19 安徽农业大学 A kind of luffa functional module pillow and its pillow
CN111346622A (en) * 2018-12-24 2020-06-30 内蒙古蒙牛乳业(集团)股份有限公司 Chromatographic packing and preparation method and application thereof
CN109929085A (en) * 2019-03-26 2019-06-25 上海馨源新材料科技有限公司 Hydrophilic ventilative MDI memory foam of one kind and preparation method thereof
CN110698825A (en) * 2019-10-11 2020-01-17 河南功能高分子膜材料创新中心有限公司 Process for preparing high-toughness biodegradable composite material by utilizing loofah sponge fibers and PLA

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