KR101342456B1 - Method for manufacturing carbon dioxide emissions reduction type environment friendly forming pellet and thereof composition - Google Patents

Abstract

The present invention provides a molding pellet which is obtained by stirring a synthetic resin, jamesonite powder, and additives to obtain a molding material, heating the molding material to be kneaded, extruding and cooling the material into a linear molding member, and cutting the linear molding member, by considering the molding pellet which is formed of the synthetic resin only, does not decompose or decay after being discarded and causes environment contamination. By extruding, injecting, or blowing, the molding pellet is capable of producing a food packaging container, a flowerpot, an electronic device case, a plant vegetation container, a product packaging material, or a construction material. [Reference numerals] (S10) Prepare a molding material;(S20) Knead the molding material;(S30) Prepare a linear molding member;(S40) Produce pellet for molding

Description

Manufacturing method and composition for pellets for reducing carbon emission type eco-friendly molding {METHOD FOR MANUFACTURING CARBON DIOXIDE EMISSIONS REDUCTION TYPE ENVIRONMENT FRIENDLY FORMING PELLET AND THEREOF COMPOSITION}

The present invention relates to a method for producing pellets for reducing carbon emissions and environmentally friendly molding, and more particularly, to a method for producing pellets for reducing carbon emissions and environmentally friendly molding which can prevent environmental pollution, minimize global warming, and reduce resource waste. And to the composition.

In general, molding pellets are used as raw materials for molding, and after melting and training the molding pellets, extrusion molding, injection molding or blow molding are used for food packaging containers, flower pots, home appliance cases, flower vegetation containers, and building materials. To make them.

Prior art document (10-2000-0005153; biodegradable material composition, biodegradable material container manufactured from this composition and method of manufacturing this biodegradable material container) The prior art document describes a process for producing a mixed raw material powder, in which a plant raw material powder containing chaff as a main component, and a biodegradable raw material powder obtained by grinding a biodegradable material including a binder are uniformly mixed, followed by a mixed raw material powder A method for producing a biodegradable material container, which comprises a step of compression molding the material into a shape of a container by heat and pressure, has been proposed. By the way, the prior art literature has a limit of excessively short lifespan because it is difficult to obtain the raw material, the strength of the container is poor and the moisture is weak due to the chaff and plant raw material powder as the main component.

It is an object of the present invention to minimize the environmental pollution by disintegrating into the soil much faster by the branching force of the fossil powder when it is disposed of robustness, and in particular, it is possible to reduce the carbon emissions relative to the container only made of plastic It is possible to minimize global warming and the like, and to provide a method for producing pellets for reducing carbon emissions and environmentally friendly molding pellets that can recycle resources.

It is an object of the present invention to provide a method for producing carbon-type eco-friendly pellets and a composition for reducing carbon emissions that can prevent waste of resources using waste ore containing fossils as raw materials in order to prevent environmental pollution and enable recycling of waste resources. Is in.

The method for producing pellets for reducing carbon emission type eco-friendly molding according to the present invention,

Preparing a raw material by stirring the fossil powder, the synthetic resin and the additive;

A step of training while applying heat to the molding material,

Providing a linear molding member by cooling the molding raw material while extruding it;

It characterized by the technical features of the technical configuration, including the step of producing a pellet for molding by cutting the linear molding member.

Carbon emission-reducing type eco-friendly molding pellet composition according to the present invention,

Its basic characteristics include 35 to 49 wt% of fossil powder, 35 to 49 wt% of synthetic resin, and 7 to 16 wt% of additive.

In the present invention, in the case of forming pellets made of only synthetic resins, they are not decayed and decomposed when disposed of, so that they are treated as the main cause of environmental pollution. It is possible to manufacture food packaging containers, flower pots, home appliance cases, flower vegetation containers, product packaging materials, building materials, etc. by injection molding or blow molding. It is much faster to decompose into the soil, thereby minimizing environmental pollution. In particular, compared to plastic-only containers, carbon emissions can be reduced relatively, thereby minimizing global warming.

The present invention has the effect of preventing the waste of resources by using waste ore containing the fossil as a raw material in order to prevent environmental pollution and enable the recycling of waste resources.

1 is a flow chart showing a method for producing pellets for reducing carbon emissions eco-friendly molding according to the present invention.
Figure 2 is a flow chart showing a method for preparing a stone powder applied to the pellet production method for reducing carbon emissions-type environmentally friendly according to the present invention.

A preferred embodiment of the method for producing carbon-type eco-friendly molding pellet and the composition according to the present invention will be described with reference to the drawings, and a plurality of the embodiments may exist, and through such embodiments Better understanding of the purpose, features and advantages.

1 is a flow chart illustrating a method for producing pellets for reducing carbon emission type according to the present invention.

In accordance with the present invention, a method for preparing carbon-type eco-friendly molding pellets is prepared by stirring the fossil powder, the synthetic resin, and the additive as shown in FIG. 1 to prepare a molding material (S10), and training while applying heat to the molding material (S10). S20), while cooling the molding raw material while cooling to prepare a linear molding member (linear molding member made by extruding as if it is one of the food, such as noodles) (S30), cutting the linear molding member to produce a molding pellet ( S40).

In this case, in step S10, the fossil powder may be 35 to 49 wt%, the synthetic resin may be 35 to 49 wt%, and the additive may be 7 to 16 wt%.

More specifically, according to the present invention, the carbon emission-reducing eco-friendly molding pellet composition comprises 35 to 49 wt% of fossil powder, 35 to 49 wt% of synthetic resin, and 7 to 16 wt% of additive, wherein the additive is HDPE, LDPE And 5 to 9 wt% of any one of LLDPE, 1 to 5 wt% of fiber binder, 1 to 3 wt% of dispersant, 1 to 3 wt% of heat stabilizer, and 1 to 3 wt% of slip agent.

Jamesonite is usually in the form of hairy or needle-like aggregates, having a hardness of 2.5 and a specific gravity of 5.6, and is mainly grown in pores of ores and is porous. .

In the present invention, in the case of forming pellets made of only synthetic resins, they are not decayed and not decomposed when disposed of, so that they are treated as the main cause of environmental pollution. By cutting and extruding with a linear molding member to complete molding pellets. Extrusion, injection molding or blow molding to produce food packaging containers, flower pots, home appliance cases, plant vegetation containers, product packaging materials, and building materials. It is possible.

At this time, 35 ~ 49wt% of synthetic resin is mixed with 35 ~ 49wt% of fossil powder and 7 ~ 16wt% of remaining additive to prepare a molding raw material, and then it is trained by applying heat and cutting while extruding and cooling with a linear molding member to complete molding pellets. In this case, extrusion molding and injection molding are possible, but if the fossil powder contains relatively more weight than synthetic resin, blown-out wind blows due to the porosity of the fossil and the workability may be reduced. When manufacturing a case etc., it is preferable to set it as 35-49 wt% of synthetic resins, 35-49 wt% of fossil powders, and 7-16 wt% of the remaining additives.

When these materials are used in various containers and packaging materials and disposed of and disposed of, they can be decomposed into the soil much more quickly by the branching force of the fossil powder, thereby minimizing environmental pollution. In particular, carbon emissions are reduced relatively compared to plastic-only containers. It can minimize global warming.

More specifically, the additive of the step S10 is 5 to 9 wt% of any one of HDPE, LDPE and LLDPE, 5 to 9 wt%, fiber binder 1 to 5 wt%, dispersant 1 to 3 wt%, heat stabilizer 1 to 3 wt% and 1-3 wt% of a slip agent.

HDPE (High Density PolyEthylene) is mainly used as a raw material for disposable shopping bags, various containers, containers, pipes, etc., and is a synthetic resin produced by polymerizing ethylene, and is a translucent solid (density of 0.94 or more), and has excellent strength. In order to supplement the soft properties of the synthetic resin of the invention, LDPE (Low Density Polyethylene) or LLDPE (linear low density polyethylene) is a synthetic resin prepared by polymerizing ethylene as a transparent solid (density of 0.91 ~ 0.94) at room temperature It has low crystallization and is excellent in processability, flexibility and transparency, so it can be used as a raw material for agricultural and packaging transparent film, wire coating, and various wraps.

The fiber binder can be applied to cellulose, which is called cellulose because it constitutes plant fiber as the main component of the cell membrane of the plant. It is odorless white solid, insoluble in water, resistant to alkali, and resistant to chemicals, It is not eroded by microorganisms, so that the fossil powder and the synthetic resin can be combined with each other.

The dispersant may be applied to sodium silicate, sodium carbonate or zinc to disperse each other by dispersing the fossil powder and the synthetic resin.

Thermal stabilizer is a compound that is mixed with fossil powder and synthetic resin to help maintain the physical and chemical properties of the synthetic resin during the processing and use of the finished product. Especially, the synthetic resin is used to compensate for its weakness in heat. Powder, liquid, PASTE, GRANULE stabilizer, according to the properties of Cd / Ba / Zn based, Cd / Ba based, Ba / Zn based, Ca / Zn based, Na / Zn based, Sn based, Pb based, Cd System and Zn system.

Slip Agent is a material that prepares molding materials by stirring fossil powder, synthetic resin, and additives, and heats them so that they can easily escape when extruded after being trained, and are fine particles of inorganic minerals such as silica, diatomaceous earth, kaolin, etc. Can be applied to the present invention.

Figure 2 is a flow chart showing a method for preparing the fossil powder applied to the method for producing pellets for reducing carbon emissions eco-friendly molding according to the present invention.

According to the present invention, the fossil powder of step S10 is a step of collecting waste ores containing fossils (S11), crushing the waste ores containing fossils (S12), and then crushing the waste ores containing fossils into 300 to 400 mesh. It may be provided (S13).

In order to prevent environmental pollution and to recycle waste resources, the present invention is to implement waste prevention and resource recycling by using waste ore containing fossil as a raw material.

At this time, the synthetic resin of the step S10 may be any one of polyethylene (PE), polypropylene (PP), polyethylene phthalate (PET), polystyrene (PS) or polycarbonate (PC), of course, the cooling of the step S30 is water-cooled By applying cooling or air-cooled cooling to minimize the change in the shape of the linear molded member to be quickly cooled to mass production faster.

The present invention can be used in the industrial field that can produce a variety of food packaging containers, flower pots, home appliance cases, flower vegetation containers, building materials, etc. by melting and training the molding pellet, followed by extrusion molding, injection molding or blow molding have.

S10: forming raw materials
S11: Waste Ore Collection
S12: waste ore crushing
S13: crushed waste ore
S20: molding raw material training
S30: prepare linear molding member
S40: forming pellet for molding

Claims (8)

Step (S10) of preparing a molding material by stirring the follicle powder, synthetic resin and additives,
Step (S20) for training while applying heat to the molding material,
Step (S30) for providing a linear molding member by cooling while extruding the molding material;
Cutting the linear molding member to produce a molding pellet for molding (S40), characterized in that it comprises a carbon discharge-reducing eco-friendly molding pellet manufacturing method. The method of claim 1,
In the step S10, the fossil powder is 35 to 49 wt%, the synthetic resin is 35 to 49 wt%, and the additive is 7 to 16 wt% carbon emission reduction eco-friendly molding pellet manufacturing method. 3. The method of claim 2,
The additive of the step S10 is
5-9 wt% of any one of HDPE, LDPE and LLDPE,
1 to 5 wt% of a fiber binder,
1-3 wt% of dispersant,
1 to 3 wt% of a heat stabilizer,
A pellet manufacturing method for reducing carbon emission-type eco-friendly molding comprising 1 to 3 wt% of a slip agent. The method according to any one of claims 1 to 3,
The fossil powder of the step S10
A step (S11) for collecting the waste ore containing the fossils,
Step (S12) of crushing the waste ore containing the fossils,
Step (S13) for grinding the ore-containing waste ore to 300 to 400mesh, characterized in that the carbon emission reduction eco-friendly molding pellet manufacturing method. The method according to any one of claims 1 to 3,
Synthetic resin of the step S10 is a method for producing carbon-type eco-friendly molding pellets, characterized in that any one of PE, PP, PET, PS or PC. The method according to any one of claims 1 to 3,
The cooling of the step S30 is a carbon emission reduction eco-friendly molding pellet manufacturing method, characterized in that the water-cooled cooling or air-cooled cooling. A pellet composition for reducing carbon emission-type eco-friendly molding comprising 35 to 49 wt% of follicle powder, 35 to 49 wt% of synthetic resin, and 7 to 16 wt% of additives. The method of claim 7, wherein
The additive includes 5 to 9 wt% of any one of HDPE, LDPE and LLDPE, 1 to 5 wt% of fiber binder, 1 to 3 wt% of dispersant, 1 to 3 wt% of heat stabilizer, and 1 to 3 wt% of slip agent. Eco-friendly molding pellet composition for reducing carbon emissions.

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