JP2002308180A - Processing method and facility for spent material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a highly efficient waste material treatment means. SOLUTION: A ship is provided with a function of processing or regenerating spent waste material.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ship having a function of processing waste material, particularly a function of recycling waste material, a method of treating waste material using the ship, and a processed material of waste material produced by the method, particularly a recycled product of waste material.

[0002]

2. Description of the Related Art Objects become waste when used and consumed. In the past, metals such as iron and copper, rags, and used paper were recovered and reused. However, in recent years, with the improvement of living standards, plastics, chemicals, fibers, glass, scraps of metal (iron, aluminum, etc.) and the like have been produced and consumed in large quantities. For example, in the case of plastics, production continues to expand, and about 10 million tons are produced and discarded annually.

[0003] Various problems occur in incineration and landfilling of such a large amount of waste, which may threaten the lives of the nation. The burden on the local government is large, such as securing a disposal site, which is a headache. As a solution to such a problem, it is proposed to recycle and reuse such wastes or waste materials. In 1991, in order to promote the recycling of waste materials, the "Law Concerning the Use of Recycled Resources" Has been promulgated and enforced. Furthermore, various measures are being promoted by local governments to promote waste recycling.

[0004] Various technologies for producing recycled products from waste materials have been developed. For example, there have been invented or devised processing techniques such as a crushing technique, a sorting technique, and a recycling technique for waste materials, and machines and devices that embody such techniques. However, although the problem of waste material recycling can be solved technically, it is most difficult to overcome economical efficiency.
In particular, places where waste materials are collected, places where waste materials are processed or recycled, and places where recycled products are consumed, for example, are far away from each other. Separation → transportation → (re-sorting → crushing) → regeneration processing is required. However, it takes a lot of processing time to go through a plurality of processes. In particular, at present, it is expensive and difficult to make a profit because it currently relies on ground transportation such as automobile transportation. If it is unprofitable, it will not be possible to implement excellent recycling technology. In addition, land-based means not only requires a great deal of transportation time, but also consumes a great deal of fossil resources, generates large amounts of harmful substances such as carbon dioxide,
Eventually, the emergence of waste material recycling technology with high transport efficiency is desired.

[0005] Regarding international issues, the Basel Convention exists on the border of waste, and the border of waste is severely restricted. However, there are countries where a large amount of waste materials are discharged and the disposal thereof is troublesome (for example, Germany, etc.), and countries where cheap recycled products produced from the waste materials are needed (for example, China). For this reason, there is a strong demand for a technology for converting waste into a recycled product that is valuable during or before or after crossing the border.

[0006]

SUMMARY OF THE INVENTION The object of the present invention is to overcome the above-mentioned disadvantages of the prior art and to meet the needs arising from the disadvantages of the prior art. Still another object of the present invention is to provide a solution to the problem of “converting waste into a recycled product during or before or after crossing borders” found by the present inventors.

[0007]

Means for Solving the Problems The present inventors have found that the above problem can be solved at once by a ship having a function of processing or recycling waste materials.

That is, the present invention provides (1) a ship having a function of processing used waste material, and (2) a ship according to (1), wherein the function of processing is waste material regeneration.
(3) The function of processing is one or more of a function of sorting waste materials, a function of crushing waste materials, a function of recycling waste materials, a function of forming recycled products, and a function of packing recycled products. The ship according to (1) above,
(4) A device for realizing the function according to (3) is (i) a crusher, (ii) a dryer, (iii) a pneumatic transport device,
(Iv) melting machine, (v) tank, (vi) magnetic separator, (vii)
Sorting machine, (viii) crusher, (ix) extruder, (x) pelletizer, (xi) feeder, (xii) computer, (xiii) sewing machine, (xiv) molding machine, (vx) washing machine, (Xvi) a dehydrator, (xvii) a dryer, (xviii) one or more devices selected from a cutting machine and (xix) a distillation machine, the ship according to the above (3), and (5) waste material The ship according to the above (1), which is industrial waste or general waste.
(6) The ship described in (1), wherein the waste material is agricultural film waste material, building material waste material, automobile part waste material, household appliance part waste material or medical waste material, and (7) the waste material is plastic or chemical. The vessel according to the above (1), wherein the vessel is composed of one or more selected from a chemical, fiber, glass, metal, and sludge;
The ship according to the above (1), which is a styrofoam packing material, a styrofoam fish box, a styrofoam tray, a bumper, a battery, a plastic pallet or a hose, and (9) a recycled product obtained by recycling waste material. The ship according to (2), wherein the ship is a pellet, a fluff, or a plastic molded product.
0) A used waste material processing method characterized by using a ship having a used waste material processing function, (11) The processing method according to the above (10), wherein the used waste material processing function is waste material regeneration. (12) Used waste material processing function is a function to sort waste materials, a function to crush waste materials,
The processing method according to (10), wherein the processing method is one or more of a function of recycling waste material, a function of forming a recycled product, and a function of packing a recycled product. (13) The processing method according to (12). The device for realizing the function of (i)
Crusher, (ii) dryer, (iii) pneumatic transport device, (iv)
Melting machine, (v) tank, (vi) magnetic separator, (vii) separator,
(Viii) crusher, (ix) extruder, (x) pelletizer, (x
i) feeding machine, (xii) computer, (xiii) sewing machine,
(Xiv) molding machine, (xv) washing machine, (xvi) dehydrator, (xvi
(1) at least one device selected from the group consisting of a dryer, (xviii) cutting machine and (xix) distillation machine.
2) The processing method according to the above, (14) the waste material is industrial waste or general waste, the processing method according to the above (10), (15) the waste material is agricultural film waste material, building material waste material, automobile (10) The method according to the above (10), wherein the waste material is a waste material of parts, a waste material of a household electric appliance part, or a medical waste material. (16) One of the waste materials selected from plastic, chemicals, fiber, glass, metal, and sludge. Or the processing method according to the above (10), which comprises two or more kinds,
(17) Waste material is PET bottle, Styrofoam packing material, Styrofoam fish box, Styrofoam tray,
(10) The method according to the above (10), which is a bumper, a battery, a plastic pallet or a hose, and (18) a recycled product obtained by recycling waste material is a plastic pellet, fluff or a plastic molded product. (19) A waste material processed product obtained by processing on a ship having a used waste material processing function, (20) A waste material reproduction obtained by recycling on a ship having a used waste material recycling function (21) Used waste material processing function is one or more of the following functions: sorting waste material, crushing waste material, recycling waste material, forming recycled product, and packing recycled product. (22) a processed waste material product according to the above (19),
An apparatus for embodying the function according to (21) includes:
(I) crusher, (ii) dryer, (iii) pneumatic transport device,
(Iv) melting machine, (v) tank, (vi) magnetic separator, (vii) separator, (viii) crusher, (ix) extruder, (x) pelletizer, (xi) feeder, (xii) computer , (Xiii) sewing machine, (xiv) molding machine, (xv) washing machine, (xvi) dehydrator,
(Xvii) at least one device selected from a dryer, (xviii) cutting machine and (xix) distillation machine, wherein the processed waste material according to (21), (23) the waste material is industrial waste or A waste material processed product according to the above (19), which is a general waste, (24) a waste material for agricultural film,
The waste material processed product according to the above (19), which is a waste material of a building material, a waste material of an automobile part, a waste material of a home appliance part, or a medical waste, (25) the waste material is a plastic, a chemical, a fiber, a glass, a metal, The waste material processed product according to (19), wherein the waste material is at least one selected from sludge, (26) the waste material is a PET bottle, a styrofoam packing material, a styrofoam fish box, a styrofoam tray, and a bumper. (19) The waste material processed product according to the above (19), which is a battery, a plastic pallet or a hose, and (27) the waste material recycled product is a plastic pellet, fluff or a plastic molded product. Recycled waste materials described and (28) Processed waste materials are piles, rods, packing, panels, mats, bonsai turntables, octopus pots, wheels Because, benches, play equipment, ventilation panel,
The present invention relates to the processed waste material according to the above (19), which is a truck bed plate, a ridge plate, or a fish reef.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention relates to a recycling technique for efficiently transporting and processing used waste materials, thereby greatly reducing environmental burdens and costs. Specifically, for example, by imparting the function of processing and regenerating waste materials to buoyancy-based transportation equipment such as ships, it is possible to process and recycle waste materials within transportation time by transporting with low fuel consumption. I do. Processed products and recycled products manufactured in this way are no longer valuable waste materials but valuables, so that processed products, recycled products, and the like can be crossed without being regulated by the Basel Convention. The present invention provides a means to promote recycling at the international level.

[0010] Only the processing device other than the regenerating device may be mounted on the ship, and the regenerating device may be mounted on the ship, or may be installed near a port, for example. That is, for example, waste material expanded polystyrene is processed in a ship to become a solution,
The container storing the solution may be carried out at the port and subjected to a regenerating operation by a regenerating device provided near the port, or a regenerating operation may be performed by installing the solution contained in the container in a ship. The reproduction processing by the device may be applied. Recycled goods (for example, pellets) manufactured in ships are shipped from ports close to users (for example, resin manufacturers and molding companies). At this time, waste materials discharged from the user may be loaded in the ship. A feature of the present invention is that the processing and the regeneration are performed in the ship, and the processing and the reproduction may be performed according to known processing means. Examples are given below.

[Example 1]

[Table 1]

[Example 2]

[Table 2]

[Example 3]

[Table 3]

[Example 3] continued

[Table 4]

The present invention is particularly suitably applied to waste plastics. For example, fish boxes (polyethylene foam, etc.) accumulated in a port are loaded on the above-mentioned ship, and are loaded into the apparatus shown in FIG. 1 mounted on the ship.

Preferred embodiments include the following. Further, according to the present invention, for example, TV waste materials (for example, cabinets, rear covers, etc.) discharged in Japan are loaded on the ship of the present invention, and the waste materials are pulverized by a reproducing device mounted thereon and extruded under melting. The recycled pellets can be shipped from ships in countries where the pellets are to be used (eg, developing countries). The process is as follows, for example.

[0017]

[Table 5] This step may be performed according to a method known per se.

Further, according to the present invention, waste plastics may be converted into oil to be used as fuel. For example, a by-product polymer (raw polymer) discharged from a resin plant is charged into a melter, heated and melted, and supplied to a tank reactor. The tank reactor is maintained at about 420-450 ° C., and the raw polymer is immediately heated to this temperature and pyrolyzed. Decomposition products are reduced in molecular weight and become gaseous, but are cooled by a cooler to become mostly liquid oil and stored in a storage tank. About 5% is a low hydrocarbon C _l -C _4, which is used as fuel for the ship. Oil can be unloaded at ports that need it as valuable fuel. Further, according to the present invention, waste plastics can be converted into valuable products by, for example, monomer reduction and chemical reforming. These are performed according to a means known per se. For example, products such as polyolefin and polystyrene that have been treated with the following volume reducer using waste tempura oil are reduced to naphtha, and the resulting naphtha-like petroleum can be used as gasoline.

According to the present invention, waste materials can be recycled as fuel. For example, a plastic waste material is introduced into a high-temperature vegetable waste oil (standard temperature is 170 to 180 ° C.) in a volume reduction machine without pretreatment, and the volume is reduced to about 1/50 on average. Waste plastic for medicine can also be reduced in volume. The volume-reduced waste plastic is melted at a high temperature of 300 ° C. or more, and is made into a fine powder fuel by a crusher. In this case, a blended fuel obtained by blending fine powdered fuels obtained from different plastic waste materials may be used. Examples of fuel applications include various industrial heat sources, energy sources for power generation in factories, sauna baths, inns, and hot water sources for sports facilities.
In addition, a recycled product can be obtained by modifying waste plastics according to a means known per se, for example, using a flocculant, a water-absorbing resin, an ion-exchange resin, or the like. Further, according to the present invention, for example, various recycled molded products can be produced from waste plastics as described below.

[0020]

[Table 6]

[0021]

[Embodiment 1] FIG. 1 is a schematic sectional view of a foamed polystyrene dissolving apparatus (volume reducing apparatus) 101 according to this embodiment. This apparatus has a size and a shape that can be installed in a store or the like for the purpose of dissolving the expanded polystyrene, and supplies an opening 2 for charging the expanded polystyrene and a container to the upper part of the housing 1 to supply a solvent. A solvent supply unit 3 is provided, and a side wall 5 of the crushing and dissolving unit 4 for expanded polystyrene is provided below these. The lower portion 8 of the side wall 5 is squeezed so as to have a smaller cross-sectional area than the side wall 5 and extends vertically downward to form a dissolution region 7. Exit 8b.

A pair of crushing wheels 6, 6 are provided inside the upper portion of the side wall 5 of the melting section 4, and are driven to rotate in opposite directions in the directions of arrows by driving means (not shown). In addition, a stirring blade 10 is provided in the dissolving area 7, and is rotated by a driving unit (not shown). As the solvent, d-limonene is used.
The solvent is supplied from above to the dissolving area 7 by the weight of the solvent from a liquid container 13 (indicated by a phantom line) attached to 3. Inside one of the side walls 8 of the dissolution region 7, for example, an optical sensor 19 for detecting that a predetermined amount of the solvent 17 has been supplied is arranged. Then, below the bottom wall 8a constituting the lower side of the dissolving area 7, the container 13 emptied after the supply of the above-mentioned solvent is attached to the solution outlet 8b, and a storage section for storing the expanded polystyrene solution 11 are formed. The bottom wall 8a is fixed to one side wall of the housing 1 by a bottom plate 9.

Next, the dissolving treatment of the discarded expanded polystyrene will be described. In the solvent supply unit 3, the container 13
When a predetermined amount of the solvent 17 is supplied to the dissolving region 7 up to the level of the imaginary line, and the sensor 19 detects this, the crushing wheels 6, 6 rotate. Then, the foamed polystyrene compact 15 to be discarded is put into the melting section 4 through the opening 2 and crushed by the crushing wheels 6, 6 to form a foamed polystyrene small piece 16. The small pieces 16 fall into the solvent 17 in the dissolving region 7 and dissolve in the solvent 17 while being stirred by the stirring blade 10 to form the solution 18.
Becomes In order to promote this dissolution, the stirring blade 10 rotates to stir the solvent and the small pieces 16. Since the solvent 17 dissolves the expanded polystyrene, the liquid volume in the dissolution region 7 increases to the solid line level. In this case, the volume of the expanded polystyrene molded body 15 is significantly reduced (for example, 1/10 to 1/25).

The liquid level of the solution 18 in which a predetermined amount of expanded polystyrene is dissolved is detected by, for example, an optical sensor 20 located above the sensor 19, and the supply of expanded polystyrene is performed so that the liquid level does not rise any more. To stop. This can be indicated to the user by a display lamp or the like on the processing device. The sensor 20 is provided at a liquid level at which the polystyrene concentration of the solution 18 is 30% (equivalent to 10,000 cps in viscosity when d-limonene is used as a solvent) and the capacity is 7 to 201. In this manner, a solution having a constant viscosity and a constant amount can always be reliably generated by one dissolution treatment, which is advantageous for a regeneration treatment described later. Note that d-
Limonene is contained in citrus peels and is used in food additives as a fragrance and has high safety,
It has a boiling point of 176 ° C and low flammability. In addition, it shows the property of dissolving polystyrene well at room temperature, and is suitable as a solvent in this example.

After supplying the solvent in the solvent supply section 3, the container 13
Is emptied, but the emptied container 13 is inserted from the imaginary line position to the solid line position (the position below the melting area 7 of the storage unit 11) via the entrance 12 from the direction of the arrow 100. This is container 1
A caster 14 is provided at the bottom of
Provided, it is easy. Then, a valve to be described later is opened, and the solution 18 flows from the dissolving region 7 to the solution inlet 1
It is stored in the container 13 via 3a. In addition, in container 13,
A solution outlet 13b for supplying a solution to a polystyrene regenerating device described later is provided.

FIG. 2 is an enlarged sectional view showing the solution inlet 13a and the valve. On the bottom wall 8a of the melting region 7,
A tubular body 8c is connected to communicate with the solution outlet 8b, a valve 8d is provided on the tubular body 8c, and a seal member 8f is attached to an end of the tubular body 8c.

FIG. 2A shows a state immediately before the container 13 is attached to the dissolving area 7, and the valve 8d is in a closed state. The container 13 is provided with a tubular body 13c for forming a solution inlet 13a. The opening and closing of the solution inlet 13a is performed by the vertical movement of the movable member 13e.
The enlarged diameter portion 13f is fixed to the movable member 13e, the shaft 13g fixed to the enlarged diameter portion 13f is urged upward by the coil spring 13i, and the enlarged diameter portion 13f contacts the inward flange 13d of the tubular body 13c. Thus, the solution inlet 13a is closed. The coil spring 13i is a shaft
It is slidably fitted to 13g and abuts on a guide ring 13h fixed to the distal end of the tubular body 13c.

FIG. 2B shows a state where the container 13 is attached to the dissolving area 7. In this state, the tubular bodies 8c and 13c
Is sealed by the seal member 8f. Then, the push pin 8e fixed to the melting region 7 pushes the movable member 13e downward, and against the urging force of the coil spring 13i, the tubular body 1
The enlarged diameter portion 13f is separated from the inward flange 13d of 3c, and the solution inlet 13a is opened. However, in this state, the valve 8d
Is closed and no solution is introduced into the container.
The dissolution of the small pieces of polystyrene in the solvent proceeds while maintaining this state. When the dissolution is completed, the valve 8d is opened as shown in FIG. 2C, and the polystyrene solution 18 in the dissolution region is introduced into the container 13 as indicated by an arrow.

FIG. 3 is an enlarged sectional view showing the solution outlet 13b of the container 13. A valve seat 13j having a tapered inner peripheral surface and having a through hole 13n for forming a solution discharge port 13b (see FIG. 4) is screwed into and fitted to the bottom wall of the container 13. A poppet valve body 13k having a tapered outer peripheral surface that matches the tapered inner peripheral surface is fitted into the through hole 13n. The poppet valve body 13k is urged downward by the cap portion 131 fixed to the valve seat 13j and the coil spring 13m provided inside the cap portion 131, and closes the through hole 13n.

FIG. 4 is an enlarged sectional view showing the solvent supply section 3 of FIG. A push mechanism 1b is provided in contact with a solvent supply port 1a provided on the upper wall of the housing 1. The push mechanism 1b includes a tubular body 1c, a push pin support plate 1d provided with an annular through-hole 1f, and a push pin 1e integrated with each other. At the upper end of the tubular body 1c is an annular sealing member 1g
Has been fixed. The solvent supply unit 3 normally holds the same state as in FIG. When the container 13 is set on the upper wall of the housing 1 as shown in FIG. 4, the push pin 1e contacts the poppet valve 13k, and the poppet valve 13k rises against the urging force of the coil spring 13m. The valve 17 is separated from the valve seat 13j, whereby a through hole 13n is opened and the solvent 17 passes through the solution outlet 13b.
Is supplied from the container 13 into the housing 1 as indicated by an arrow. When the polystyrene solution in the container 13 is supplied by the waste regenerating apparatus described later, the polystyrene solution can be supplied by the same mechanism as in FIG.

FIG. 5 is a schematic sectional view of the container 13 containing a solvent and being supplied to the dissolving apparatus. Solvent 17 is 13
It is accommodated up to the level shown in c. Then, as described above, the volume of the solution 18 generated by dissolving the expanded polystyrene with the solvent is increased, and is accommodated up to the level 13d indicated by the phantom line. In the container 13, a space 131 is formed on the solution 18 so as to satisfy safety standards. Therefore,
As is clear from FIG. 1, the container 13 containing the solution 18 can be safely transported to a foamed polystyrene regenerating device to be described later after being removed from the foamed polystyrene dissolving device 101 in the direction of the arrow 102 in FIG. Thus, since the container 13 may be attached to and detached from the foamed polystyrene dissolving apparatus 101 during the supply of the solvent and after the accommodation of the solution, each operation is facilitated. The container 13 is preferably made of translucent plastic, and it is preferable to mark the positions of the two liquid levels.

The inner volume of the container 13 is usually 5 to 30 l, depending on the capacity of the apparatus 101 for dissolving the expanded polystyrene.
It is good to choose within the range of, and 15-201 is suitable. In accordance with this, the capacity of the solvent is preferably in the range of 7 to 201. A container 13 containing a polystyrene solution having a concentration of 30%
It is recommended that the internal volume be less than 201, because the limit of 201 (approximately 16 kg) for human transport by one person. The solvent 17
Although the volume ratio of the solution 18 to the solution 18 is about 1: 1.5, the capacity for one treatment in the foamed polystyrene dissolving apparatus 101 is designed at the maximum value, and the solvent storage and the container 13 are designed to have the corresponding size. If a dual-purpose container that also serves as a solution container is used, the effect is large (this will be described later). The foamed polystyrene dissolving apparatus 101 shown in FIG. 1 is disposed in a ship, and as described above, the foamed polystyrene molded body is dissolved by supplying a solvent from the vessel 13, and the same vessel 13 is placed in the solution 18.
And transferred to a polystyrene regeneration device. One polystyrene recycling device can be provided for a plurality or a large number of the polystyrene dissolving devices in FIG.

FIG. 6 is a process flow chart showing the processing steps in the polystyrene recycling apparatus. Container 13 containing a fixed amount of polystyrene solution to liquid level 13d in FIG.
The solution 18 is supplied from the dissolution container 13A to the solution adjusting tank 41, and has a uniform composition. The homogenized polystyrene solution passes through a strainer 42 having a coarse filter function by driving a gear pump 43, and is heated by a heater 44 to lower the viscosity. Next, the polystyrene solution is sent to a filter 45 and filtered, and separated by a separator 46 into polystyrene and a solvent. The separator 46 may be heated by the steam from the boiler 50. This separated polystyrene is
Driven by the gear pump 47, it is cooled through the cooler 48, is pelletized by the pelletizer 49, is conveyed as regenerated pellets 52 to another factory, where it is regenerated as a molded product of polystyrene or a polystyrene container.

On the other hand, the vapor of the solvent separated by the separator 46 is liquefied by the condenser 55 by driving the vacuum pump 56 and recovered as the solvent (for example, regenerated limonene) 17.
The solvent 17 in the solvent tank 57 is stored in the empty container 13 after discharging the polystyrene solution to the solution adjusting tank 41 as described above. d-Limonene has the effect of dissolving polystyrene at room temperature and inhibiting oxidative decomposition by not decomposing polystyrene even by heating at about 225 ° C. Therefore, in FIG. 6, the polystyrene is not decomposed at all by the heating by the heater 44 or the heating by the separator 46, and can be regenerated as a polystyrene with a high molecular weight.

[0035]

As shown in the above embodiments, the present invention is particularly suitable for recycling plastic waste. Conventionally, the recycling of waste materials has not solved the economic problem of cost due to land transportation, and the recycling technology has been unprofitable. Therefore, most of the waste materials have been incinerated or landfilled. The present invention solves the conventional problems in order to reduce the transportation cost since the transportation is by water using buoyancy. Also, the present invention does not require the presence of unique land for processing or regeneration equipment. Still further, the present invention promotes recycling of waste materials at an international level.

Further, as specific effects, (1) energy required for moving waste and reprocessed products can be largely saved, so that resource saving (for fossil fuels), suppression of CO ₂ emissions and fuel economy can be realized. (2) The travel time by the ship can be effectively used as the reproduction / processing time, so that time can be saved. (3) A large-sized processing / reproduction device can be loaded for transportation by the ship. 4) Since the crossing of wastes is possible, it meets the needs of countries that emit large amounts of waste materials and countries that want recycled materials. (5)
And contribute to the global recycling trend.

[Brief description of the drawings]

FIG. 1 is a sectional view of a foamed polystyrene dissolving apparatus used in the present invention.

FIG. 2 is an enlarged sectional view of a solution inlet and a valve of the same device.

FIG. 3 is an enlarged sectional view of a solution discharge port of the apparatus.

FIG. 4 is an enlarged sectional view of a solvent supply section of the apparatus.

FIG. 5 is a sectional view of a container 13 used in the apparatus.

FIG. 6 is a process flow diagram of a system for regenerating a solution contained in the container.

[Explanation of symbols]

 1 ... Housing (reduced container) 2 ... Input opening 3 ... Solvent supply section 6 ... Crushing wheel 7 ... Dissolution area 8b ... Solution outlet 10 Stirring blade 11 Reservoir 13 Container 13a Solution inlet 13b Solution outlet 13c Tubular body 13d Inward flange 15: foamed polystyrene molded body 16: foamed polystyrene small piece 17: solvent 18: solution 101: foamed polystyrene dissolving device

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) B09B 3/00 B09B 3/00 301P 301W 301Z B29B 17/00 ZAB C02F 11/00 C 5/00 11/12 Z B29B 17/00 C08J 11/08 C02F 11/00 C04B 16/08 11/12 18/00 C08J 11/08 B29K 25:00 // C04B 16/08 67:00 18/00 C08L 25:00 B29K 25: 00 67:00 67:00 B09B 3/00 ZABZ C08L 25:00 5/00 A 67:00 CQRL MZ 3/00 303A 303E 303H 303M 303Z F term (reference) 4D004 AA01 AA02 AA07 AA09 AA18 AA22 AA23 AA26 AA31 AA46 AA48 AA50 AC05 BA07 CA04 CA07 CA09 CA13 CA14 CA34 CA40 CA41 CA42 CB12 CB13 CB16 CB42 CB50 CC04 4D059 AA00 BD00 BE00 BK08 BK09 BK10 BK11 4D067 DD04 DD07 DD 17 GA08 GA10 GA11 GA16 GA19 GB05 4F301 AA15 AA25 BF09 BF11 BF26 BF27 CA12 CA33

Claims (28)

[Claims] 1. A ship having a function of processing used waste materials. 2. The ship according to claim 1, wherein the function of processing is waste material regeneration. 3. A function of processing includes a function of sorting waste materials, a function of crushing waste materials, a function of regenerating waste materials,
Function of molding recycled products and packing recycled products
The ship according to claim 1, wherein the ship has a plurality of functions. 4. A device for realizing the function according to claim 3, wherein (1) a crusher, (2) a dryer, (3) a pneumatic transport device, (4) a dissolver, (5) a tank, (6) magnetic separator,
(7) sorter, (8) crusher, (9) extruder, (10)
Pelletizer, (11) Feeder, (12) Computer, (1
3) sewing machine, (14) molding machine, (15) washing machine,
The ship according to claim 3, wherein the ship is one or more devices selected from (16) a dehydrator, (17) a dryer, (18) a cutter, and (19) a distiller. 5. The ship according to claim 1, wherein the waste material is industrial waste or general waste. 6. The ship according to claim 1, wherein the waste materials are agricultural film waste materials, building material waste materials, automobile parts waste materials, home appliance parts waste materials, or medical waste materials. 7. The waste material is plastic, chemical, fiber,
2. The ship according to claim 1, comprising one or more selected from glass, metal and sludge. 8. The ship according to claim 1, wherein the waste material is a PET bottle, a styrofoam packing material, a styrofoam fish box, a styrofoam tray, a bumper, a battery, a plastic pallet or a hose. 9. The ship according to claim 2, wherein the recycled product obtained by recycling the waste material is a plastic pellet, a fluff or a plastic molded product. 10. A method for treating used waste material, wherein a ship having a function of processing used waste material is used. 11. The processing method according to claim 10, wherein the used waste material processing function is waste material regeneration. 12. The used waste material processing function includes one or more of a function of sorting waste material, a function of crushing waste material, a function of recycling waste material, a function of forming a recycled product, and a function of packing a recycled product. 11. The processing method according to claim 10, wherein: 13. A device for realizing the function according to claim 12, comprising: (1) a crusher, (2) a dryer, (3) a pneumatic transport device, (4) a dissolver, (5) a tank, (6) magnetic separator, (7) separator, (8) crusher, (9) extruder, (1)
0) pelletizer, (11) feeder, (12) calculator,
(13) sewing machine, (14) molding machine, (15) washing machine, (16) dehydrator, (17) dryer, (18) cutter and (19) one or more devices selected from distillation machines. 13. The processing method according to claim 12, wherein: 14. The processing method according to claim 10, wherein the waste material is an industrial waste or a general waste. 15. The processing method according to claim 10, wherein the waste material is an agricultural film waste material, a building material waste material, an automobile part waste material, a home appliance part waste material, or a medical waste material. 16. The processing method according to claim 10, wherein the waste material comprises one or more selected from plastic, chemicals, fibers, glass, metal and sludge. 17. The processing method according to claim 10, wherein the waste material is a PET bottle, a styrofoam packing material, a styrofoam fish box, a styrofoam tray, a bumper, a battery, a plastic pallet or a hose. 18. The processing method according to claim 11, wherein the recycled product obtained by recycling the waste material is a plastic pellet, a fluff or a plastic molded product. 19. A processed waste material obtained by processing on a ship having a used waste material processing function. 20. A recycled waste product obtained by recycling on a ship having a used waste material recycling function. 21. A used waste material processing function is one or more of a function of sorting waste material, a function of crushing waste material, a function of recycling waste material, a function of forming a recycled product, and a function of packing a recycled product. 20. The processed waste material according to claim 19, wherein: 22. An apparatus for realizing the function according to claim 21, comprising: (1) a crusher, (2) a dryer, (3) a pneumatic transport device, (4) a melting machine, and (5) a tank. , (6) magnetic separator, (7) separator, (8) crusher, (9) extruder, (1)
0) pelletizer, (11) feeder, (12) calculator,
(13) sewing machine, (14) molding machine, (15) washing machine, (16) dehydrator, (17) dryer, (18) cutter and (19) one or more devices selected from distillation machines. 22. The processed waste material according to claim 21, wherein: 23. The processed waste material according to claim 19, wherein the waste material is an industrial waste or a general waste. 24. The processed waste material according to claim 19, wherein the waste material is agricultural film waste material, building material waste material, automobile part waste material, home appliance part waste material, or medical waste material. 25. The processed waste material according to claim 19, wherein the waste material comprises one or more selected from plastics, chemicals, fibers, glass, metals, and sludge. 26. The processed waste material according to claim 19, wherein the waste material is a PET bottle, a styrofoam packing material, a styrofoam fish box, a styrofoam tray, a bumper, a battery, a plastic pallet or a hose. 27. The recycled waste material is a plastic pellet,
The recycled waste material according to claim 20, which is a fluff or plastic molded product. 28. The processed waste material is a pile, a stick, a packing, a panel, a mat, a bonsai turntable, an octopus pot, a wheel stopper, a bench,
20. The processed waste material according to claim 19, which is a playground equipment, a ventilation panel, a truck bed board, a row board, or a fish reef.