Patent Application
20200024411
The present invention relates to oyster paper and a manufacturing method thereof, and in particular to oyster paper that is made of virgin wood pulp paper substitute materials and contains disposed oyster shells and natural biodegradation inducing agents for replacing wood pulp paper and natural degradation after disposal and a method for manufacturing such oyster paper.
Paper products made of wood pulp have wide uses and applications in such as writing, printing, container making, and the likes. The amount of paper products that the entire world consumes every day is enormous, particularly for the large amount of advertisement printings, such as paper bags and paper cases. Such wood pulp paper has a major ingredient of pulp made of chipped wood, and thus woods must be vastly cut in order to make the wood pulp. This causes a great danger to the natural woods and rain forests, which are vastly cut down and disappear from maps, leading to crisis of ecology and vanish of the green world. Further, such a large amount of paper and paper products generate a huge amount of trashes after they have been used and disposed of. Dumping and covering with soil is a common way of handling such trashes, yet this way does not allow the disposed paper and paper products to degrade naturally and fast, and a large area is needed for building dumping sites. This is not economic and may not efficiently use such areas. Incineration is another commonly used way for handling such used paper and paper products, yet this generates a large amount of carbon dioxide that pollute the atmosphere, causing secondary contamination. This issue is a challenge to the modern production of paper and pulp-based articles.
Recycling and recovery of the used paper products for making recycled paper or recovered pulp is also one way that can be used to handle the issue of used paper and paper products. However, the cost of making the recovered pulp through recycling of the used paper is quite high and the process that is currently adopted to make the recovered pulp causes severe water contamination that is also an environmental pollution issue. In certain areas, such as China, Europe, and America, strict environmental protection regulations have been adapted to control such pollution issues and to reduce the number of pulp workshops and recovered pulp workshops. For such a trend, this solution of making recovered pulp will eventually in vain, and provides no solution at all for handling the environment issues resulting from the large amount of disposed paper and paper products.
Further, prior art patent documents are known in this field, such as Taiwan Patent Publication Nos. 201024501 and 201418545, which propose mineral paper that is made of mineral powder, nanometer calcium carbonate, and non-toxicant resin and plastics, such as polyethylene as a substitute of wood pulp paper. However, such mineral paper as taught in the two prior art patent documents still suffer environment issues of dumping of trashes as polyethylene as one of the ingredients of such mineral paper does not degrade biologically. In addition, a large amount of mineral powder and calcium carbonate is necessary for making such mineral paper and large-scale mining would cause unexpected damage to the environment and ecology, making it not industrially useful.
Further, Taiwan Patent No. 1507296 proposes green environment-friendly paper and a manufacturing method of such paper, in which plastic-based paper is made of ingredients including polymeric materials, inorganic materials, organic materials, and foaming agents as a substitute for wood pulp paper. However, in the prior art patent document, the inorganic materials comprise at least one mineral powder selected from calcium carbonate, kaolin clay, and titanium dioxide (TiO2), and the same issue of large-scale mining would be necessary and eventually, causing damage to the environment and ecology, and similarly making it not industrially useful.
In addition, U.S. Pat. No. 5,919,574 discloses biodegradable laminated films fabricated from pectin and chitosan, which suffers insufficient strength and stiffness and is not good as a substitute for wood pulp paper. Particularly, in such a prior art patent document, starch is added as an ingredient, which causes weakening of the film structure. Although such a prior art patent document teaches a plasticizer, such as lactic acid, is added to improve stiffness thereof, the addition of lactic acid causes hazing of such a film product and thus making the film product not fit to applications as a substitute for wood pulp paper.
The known way of making paper with wood pulp and the techniques of the prior art patent documents all suffer certain shortcomings, such as massive logging and tree harvesting, water pollution in papermaking, large-scale mining and consumption of mineral resources in making mineral paper, destruction of natural ecology and environment conservation, incapability of natural degradation, and insufficient strength and stiffness and undesired hazing, all these making them not fit to applications as a substitute for wood pulp paper.
Thus, the primary objective of the present invention is to provide an oyster paper, which is made of 60%-70% oyster shell powder, 10%-20% polymer, 15%-17% natural biodegradation inducing agent, and 3%-5% natural biodegradation assisting additive agent, by volume ratio, that are subjected to mixing and pre-melting processing according to such ratios, followed by compounding and pelletizing to prepare a plurality of oyster paper pellets, the oyster paper pellets being subsequently subjected to film blowing processing to be subjected to a film blowing operation to form an oyster paper having a thickness of 0.05 millimeters to 0.5 millimeters.
Further, in the above oyster paper according to the present invention, the oyster shell powder is selected as oyster shell powder that are calcinated at 600° C.-800° C. and sieved with a mesh number of 2000 to have a powder particle diameter less than 6.5 micrometers (μm).
In the above oyster paper according to the present invention, the polymer is selected as one of a member of a polyethylene group and polypropylene or a combination thereof.
In the above oyster paper according to the present invention, the polyethylene group for the polymer includes linear low-density polyethylene, high-density polyethylene, low-density polyethylene, and medium-density polyethylene.
In the above oyster paper according to the present invention, the natural biodegradation inducing agent is selected as chitosan.
In the above oyster paper according to the present invention, chitosan for the natural biodegradation inducing agent comprises a deacetylation product of chitin.
In the above oyster paper according to the present invention, the natural biodegradation assisting additive agent is selected as one of guar gum and a fruit and vegetable enzyme or a combination thereof.
In the above oyster paper according to the present invention, the fruit and vegetable enzyme for the natural biodegradation assisting additive agent is selected as one of soybean, okra, and pineapple or a combination of two thereof.
The present invention also provides a method for manufacturing oyster paper, which comprises the following steps:
(A) material mixing and pre-melting, in which ingredients, including 60%-70% oyster shell powder, 10%-20% polymer, 15%-17% natural biodegradation inducing agent, and 3%-5% natural biodegradation assisting additive agent, by volume ratio, are subjected to mixing according to such ratios and pre-melting;
(B) compounding and pelletizing for preparing oyster paper pellet, in which the ingredients that are subjected to mixing and pre-melting in Step (A) are subjected to compounding and pelletizing processing at a temperature of 110° C.-150° C. to prepare a plurality of oyster paper pellets;
(C) film blowing processing, in which the oyster paper pellets prepared in Step (B) are subjected to film blowing processing at a temperature of 110° C.-150° C.; and
(D) oyster paper forming, in which an oyster paper having a thickness of 0.05 millimeters to 0.5 millimeters is formed after the film blowing processing of Step (C).
Further, in the above method for manufacturing oyster paper according to the present invention, in Step (A), the oyster shell powder is selected as oyster shell powder that are calcinated at 600° C.-800° C. and sieved with a mesh number of 2000 to have a powder particle diameter less than 6.5 micrometers.
In the above method for manufacturing oyster paper according to the present invention, in Step (A), the polymer is selected as one of a member of a polyethylene group and polypropylene or a combination thereof.
In the above method for manufacturing oyster paper according to the present invention, in Step (A), the polyethylene group for the polymer includes linear low-density polyethylene, high-density polyethylene, low-density polyethylene, and medium-density polyethylene.
In the above method for manufacturing oyster paper according to the present invention, in Step (A), the natural biodegradation inducing agent is selected as chitosan.
In the above method for manufacturing oyster paper according to the present invention, in Step (A), chitosan for the natural biodegradation inducing agent comprises a deacetylation product of chitin.
In the above method for manufacturing oyster paper according to the present invention, in Step (A), the natural biodegradation assisting additive agent is selected as one of guar gum and a fruit and vegetable enzyme or a combination thereof.
In the above method for manufacturing oyster paper according to the present invention, in Step (A), the fruit and vegetable enzyme for the natural biodegradation assisting additive agent is selected as one of soybean, okra, and pineapple or a combination of two thereof.
In the above method for manufacturing oyster paper according to the present invention, in Step (A), an operation of preparing the oyster shell powder comprises:
(A1) oyster shell cleaning, in which outside and inside of disposed oyster shells are subjected to cleaning processing;
(A2) desalting processing, in which the oyster shells that are subjected to cleaning processing in Step (A1) are subjected to desalting processing;
(A3) pulverizing processing, in which the oyster shells that are subjected to desalting processing in Step (A2) are deposited into a pulverizing machine to be pulverized into a plurality of oyster shell fragments;
(A4) calcinating and sterilizing processing, in which the oyster shell fragments that are formed through the pulverizing processing of Step (A3) are deposited into a high-temperature rotary calcination furnace to be subjected to calcinating and sterilizing processing at a temperature of 600° C.-800° C.;
(A5) grinding processing, in which the oyster shell fragments that are subjected to calcinating and sterilizing processing in Step (A4) are deposited into a grinding machine to be ground into oyster shell powder particles; and
(A6) sieving and forming, in which the oyster shell powder particles that are formed through grinding in Step (A5) are subjected to sieving with a sieve of a mesh number 2000 to prepare an oyster shell powder product that is subjected to sieving with mesh number 2000 and has a powder particle diameter less than 6.5 micrometers.
In the above method for manufacturing oyster paper according to the present invention, in Step (B), the compounding and pelletizing processing is carried out with an intensive plastic mixer.
In the above method for manufacturing oyster paper according to the present invention, in Step (B), the compounding and pelletizing processing is carried out with a screw compounder.
In the above method for manufacturing oyster paper according to the present invention, in Step (C), the film blowing processing of the oyster paper pellets is carried out with a single-layer or multi-layer co-extrusion film blowing machine.
The oyster paper according to the present invention and the manufacturing method thereof provides the efficacies that disposed oyster shells are used as a major ingredient and are subjected to mixing, pre-melting, compounding, pelletizing, and film blowing processing I combination with a polymer, a natural biodegradation inducing agent, and a natural biodegradation assisting additive agent to achieve resources recycling and reuse and provide toughness similar to paper products made of wood pulp, to be widely used in various applications, including paper bags for fast food, shopping bags, advertisement boards, posters, civil and industrial packaging paper, envelopes, and printings. Further, the oyster paper according to the present invention provides features of waterproofness and being free of toxicity, and could be recycled and reused as secondary recycling materials to thereby completely eliminate the shortcomings of the known way of making paper with wood pulp and the techniques of the above-discussed prior art patent document, such as massive logging and tree harvesting and large-scale mining that causes destruction and pollution of the environment. It is particularly noted that the oyster paper according to the present invention, after being disposed and buried in soil, features direct induction of biodegradation with microorganisms present in the soil, and the completely degraded ingredient of oyster shell powder that contains rich organic calcium carbonate could serve as natural composting that fertilizes the soil to thereby achieve sustainable use of in multiple aspects of green environmental protections. Further, the major ingredient of the present invention is oyster shell and this helps resolves the issues of environmental pollution and sanitary damage caused by accumulation of disposed oyster shells, and thus further improving industrial use and economic effectiveness of the present invention.
The present invention provides an oyster paper, which is made by first having 60%-70% oyster shell powder, 10%-20% polymer, 15%-17% natural biodegradation inducing agent, and 3%-5% natural biodegradation assisting additive agent, by volume ratio, subjected to mixing and pre-melting processing, followed by compounding and pelletizing to initially prepare a plurality of oyster paper pellets, and subsequently having such oyster paper pellets subjected to film blowing processing through a film blowing operation to form an oyster paper product having a thickness of 0.05 millimeters to 0.5 millimeters.
The above-mentioned oyster shell powder is selected as oyster shell powder that has been calcinated at 600° C.-800° C. and has been sieved with a mesh number of 2000 to have a powder particle diameter less than 6.5 micrometers; the above-mentioned polymer is selected as one of a member of a polyethylene group and polypropylene or a combination thereof, wherein the polyethylene group for the polymer includes linear low-density polyethylene, high-density polyethylene, low-density polyethylene, and medium-density polyethylene.
The above-mentioned natural biodegradation inducing agent is selected as chitosan, wherein chitosan for the natural biodegradation inducing agent is a deacetylation product of chitin, which is a natural high-molecule polymer.
The above-mentioned natural biodegradation assisting additive agent is selected as one of guar gum and a fruit and vegetable enzyme or a combination thereof, and the fruit and vegetable enzyme for the natural biodegradation assisting additive agent is selected as one of soybean, okra, and pineapple or a combination of two thereof, wherein guar gum and fruit and vegetable enzyme are both natural biodegradation agents, which can assist the above-mentioned natural biodegradation inducing agent to accelerate speed and efficiency of biodegradation carried out by microorganisms in soil.
Referring to
(10) material mixing and pre-melting, in which 60%-70% oyster shell powder, 10-20% polymer, 15%-17% natural biodegradation inducing agent, and 3%-5% natural biodegradation assisting additive agent, by volume ratio, are subjected to mixing according to such ratios and pre-melting;
(20) compounding and pelletizing for preparing oyster paper pellet, in which raw materials that have been subjected to mixing and pre-melting in Step (10) are deposited into an intensive plastic mixer or a screw compounder to be subjected to compounding and pelletizing processing at a temperature of 110° C.-150° C. to prepare a plurality of oyster paper pellets;
(30) film blowing processing, in which the oyster paper pellets prepared in Step (20) are subjected to film blowing processing at a temperature of 110° C.-150° C. with a single-layer or multi-layer co-extrusion film blowing machine; and
(40) oyster paper forming, in which a finished oyster paper product having a thickness of 0.05 millimeters to 0.5 millimeters is formed after the film blowing processing of Step (30).
In the method for manufacturing oyster paper according to the present invention illustrated in
(11) oyster shell cleaning, in which outside and inside of disposed oyster shells are subjected to cleaning processing;
(12) desalting processing, in which the oyster shells that are subjected to cleaning processing in Step (11) are subjected to desalting processing;
(13) pulverizing processing, in which the oyster shells that are subjected to desalting processing in Step (12) are deposited into a pulverizing machine to be pulverized into a plurality of oyster shell fragments;
(14) calcinating and sterilizing processing, in which the oyster shell fragments that are formed through the pulverizing processing of Step (13) are deposited into a high-temperature rotary calcination furnace to be subjected to calcinating and sterilizing processing at a temperature of 600° C.-800° C.;
(15) grinding processing, in which the oyster shell fragments that are subjected to calcinating and sterilizing processing in Step (14) are deposited into a grinding machine to be ground into oyster shell powder particles; and
(16) sieving and forming, in which the oyster shell powder particles that are formed through grinding in Step (15) are subjected to sieving with a sieve of a mesh number 2000 to prepare an oyster shell powder product that is subjected to sieving with mesh number 2000 and has a powder particle diameter less than 6.5 micrometers.
Referring to
Further, the oyster paper according to the present invention also features being non-toxicant. Tests (SGS Taiwan Limited of Test Report No. CE/2015/C4552) carried out for toxicity inspection of heavy metals, such as cadmium (Cd), plumbum (Pb), hydrargyrum (Hg), and hexavalent chromium (Cr6+), polybrominated biphenyl (PBBs), polybrominated diphenyl ethers (PBDEs), and halogens show the result is no toxicity. Further, tests (Industrial Technology Research Institute of Test Report No. 10354C02920-1-1-01) have been carried out on the oyster paper according to the present invention for toxicant gases of combustion show the oyster paper according to the present invention does not generate toxicant gases even under a combusted condition, and thus, the oyster paper according to the present invention is totally no harm to human body health and air quality either in practical utilization or in combination or incineration.
Referring to
In the above-described oyster paper according to the present invention and the manufacturing method thereof, the description and drawings provided above are used as an illustrative explanation of the technical contents and solution adopted in the present invention, and the embodiments described are not intended to impose undue limitations to the scope of the present invention. All the equivalent modifications and variations of the structure details or components of the present invention are believed falling in the spirit and scope of the inventiveness of the application, which are only defined by the claims appended below.
| Number | Date | Country | Kind |
|---|---|---|---|
| 107125364 | Jul 2018 | TW | national |
