RU2742432C2 - Device, which comprises block-container or sarcophagus, and method of their production - Google Patents

Abstract

FIELD: recycling industrial and domestic wastes.

SUBSTANCE: primary sorting of wastes is performed into at least two groups. In one group of wastes, their plastic component is removed with subsequent separation into six groups: high-density polyethylene, low-density polyethylene, polyethylene terephthalate, polyvinyl chloride, polypropylene and polystyrene. Part of at least one of said five groups, except for a group of polystyrenes, is processed into a container having a hollow cup-like shape, and to any of the remaining wastes, a polystyrene group is added. Obtained mixture is milled, compacted, folded into the obtained container and sealed to form a block container. Part of at least one of said five groups, except for a group of polystyrenes, is processed into a sarcophagus housing having a hollow cup-shaped shape, and to any of the remaining wastes, a polystyrene group is added. Obtained mixture is ground, compacted, folded into the obtained housing and sealed to produce a sarcophagus.

EFFECT: complete utilization of the whole mass of wastes is provided.

8 cl

Description

The claimed technical solution relates to devices that contain a block container and a mini-sarcophagus from industrial and domestic waste and a method for obtaining a block container and a mini-sarcophagus from industrial and domestic waste, including solid domestic waste, construction waste, industrial waste, and can be used for liquidation, in particular landfills.

Known methods of waste disposal by burying them under a layer of soil (in quarries, ravines, karst cavities or on specially prepared landfills). Such methods, while ensuring external cleanliness (in comparison with open landfills), are characterized by increased costs and really do not allow the possibility of economic use of the occupied territories for at least 20-50 years. In addition, the waste buried in this way should be recognized as lost for further use, even if, over time, needs and new technological possibilities for their processing appear. It is known that plastic and other synthetic materials, which sometimes make up the lion's share of industrial and household waste, practically do not decompose in the ground, causing colossal damage to all living and non-living things for hundreds of kilometers around the places of organized garbage dumps. Several decades ago, developed countries realized that it was impossible to arrange disposal of plastic waste on their territory, which gave an impetus for the so-called "waste emigration".

Among the known methods of disposal of household waste include modern schemes for their processing, based on the previous multicomponent sorting. The resulting secondary resources are transferred to consumers for use as a fuel of raw materials or additives to the main raw materials required in the manufacture of new products. Waste residues that cannot be sorted in this method are subject to compaction and burial under the soil layer.

The known "Method of obtaining compositions for road and hydraulic engineering" [patent RU No. 2026323, IPC В03В 9/00]. The proposed method and line for its implementation are aimed at eliminating the above disadvantages. The method provides for the possibility of conducting a comprehensive primary sorting by size with the disposal of all components mixed waste, including fine fraction, with the release of the organic part from it, conversion into organic fertilizer, and a mixture of hydroxides of "heavy metals" sent for processing. The disadvantage of this technical solution is the impossibility of using the entire mass of household waste.

There is also known "Method for the safe disposal of household waste [patent RU No. 2310525, IPC В03В 9/00, С04В 18/00], including sorting waste directly in the area of road construction and their subsequent processing. Five groups of waste are sorted from domestic waste: into the first group waste includes organic and food waste; the second group of waste includes wood, chipboard; the third group of waste includes textiles, paper, laminate, cardboard, foam; the fourth group includes rubber, reinforcing materials, polyethylene, glass, ceramics; other waste is formed in the fifth group of waste. Further processing of waste is carried out in groups, while the components of the first group are subjected to accelerated composting, filled with mineral fertilizers, mixed with plant seeds, granulated and used in the formation of road embankments, slopes and areas adjacent to the road; the components of the second group are crushed, added as a filler in concrete mixtures up to 1 0%, of which power and contour modules are formed for curbs, road edges, drain elements and ditches; components of the third group are crushed, mixed with sand and lime at the following ratio of components: sand - 80%, lime - 10%, household waste of the third group - 10%; then, from the resulting mixture by pressing with heating to 150 ° C, lining elements are formed for asphalt concrete pavements; the components of the fourth group are also crushed and added in an amount of up to 5% by weight to the asphalt concrete pavement simultaneously with the introduction of conventional mineral components, and the excess components of this group are evenly placed in the upper layers of the road embankment; waste of the fifth group is used in the roadbed when forming the lower layer.

The disadvantages of prior art inventions include: low-tech materials obtained for use in construction, the complexity of the sorting process due to the presence of different-component groups of waste containing organic and inorganic components, which in turn differ not only in chemical composition, but also have different physical indicators - hard, very hard, soft, etc.

The technical solution is based on the task of obtaining a new, reliable and low-cost block-container and mini-sarcophagus, increasing the manufacturability of the method, which allows achieving high consumer properties of the resulting product. An additional result is waste disposal.

The problem is solved by the method of obtaining a block container for construction from industrial and domestic waste, including the primary sorting of industrial and domestic waste into at least two groups, while their plastic component is removed into one of the groups of said waste, followed by its division into six groups: high polyethylene density, low density polyethylene, polyethylene terephthalate, polyvinyl chloride, polypropylene and polystyrene, and part of at least one of the five groups, except for the polystyrene group, is processed into a container, unlimited by a certain modification, and a group of polystyrenes is added to any of the other industrial and household waste, moreover, the resulting mixture is crushed, compacted, put into the resulting container and sealed to form a block container. The processing into a container is carried out by injection molding or by rotational molding.

Also, the problem is solved by a block container for construction from industrial and domestic waste, which consists of a sealed housing, unlimited by a certain modification, made from a plastic component of industrial and domestic waste, selected from at least one of five groups: high density polyethylene, low density polyethylene , polyethylene terephthalate, polyvinyl chloride and polypropylene, while the sealed housing contains any shredded and compacted component of the group of industrial and household waste with a group of plastic component of industrial and household waste, which is made up of polystyrenes. Block container body The body is cast, injection molded or rotational molded.

Another option for solving the problem is a method of obtaining a mini-sarcophagus from industrial and domestic waste, including the primary sorting of industrial and domestic waste into at least two groups, while their plastic component is removed into one of the groups of these waste, followed by dividing it into six groups: high polyethylene density, low density polyethylene, polyethylene terephthalate, polyvinyl chloride, polypropylene and polystyrene, and part of at least one of these five groups, except for the polystyrene group, is processed into a mini-sarcophagus body, unlimited by a certain modification, and to any of the rest of Industrial and household waste a group of polystyrenes is added, and the resulting mixture is crushed, compacted, folded into the resulting housing and sealed to obtain a mini-sarcophagus. Processing into the body of a mini-sarcophagus is performed by injection molding or by rotational molding. Also, the problem is solved by a mini-sarcophagus made of industrial and domestic waste, which consists of a sealed housing, not limited to a specific shape, made of a plastic component of industrial and domestic waste, selected from at least one of five groups: high density polyethylene, low density polyethylene, polyethylene terephthalate, polyvinyl chloride and polypropylene, while the sealed housing contains a crushed and compacted component of any group of industrial and household waste with a group of plastic component of industrial and household waste, which consists of polystyrenes. Mini sarcophagus body The body is cast, formed by injection molding or rotational molding.

The invention is carried out as follows.

Household and / or industrial waste is delivered to the waste recycling plant, primary sorting is carried out mechanically or manually. The waste is mainly sorted into two groups. One group includes plastic waste, the other contains the rest of the waste, namely: glass, printed materials, cardboard and cardboard products, organic residues, food waste, hazardous waste (batteries, etc.). The plastic part of the waste is re-sorted with the receipt of 6 groups of waste that require further processing. They include: high density polyethylene (HDPE), low density polyethylene (LDPE), polyethylene terephthalate (PET, PETE or polyester), polyvinyl chloride (PVC-PVC), polypropylene (PP), polystyrene (PS). The plastic component with at least one of the five groups, in addition to the polystyrene (PS) group, is further processed, where it is processed into containers by injection molding or rotational molding, the applicants have given the containers a special name - trash blocks. Depending on climatic conditions and intended purpose (use in the construction of structures, fences or road construction) containers for trash blocks can be produced with one of five groups, or with the involvement of other groups from this list and have various modifications.

Injection molding of polymers is a technological process of manufacturing products in which liquid plastic is injected under pressure into a metal mold, where it is evenly distributed over it and solidifies. This is the most common method for multi-batch production of plastic products. Injection molding of plastics is carried out on special injection molding machines - injection molding machines (TPA). Almost any plastic product can be made using this method. However, there are no restrictions on the size or number of parts. Trash blocks can also be obtained by rotational molding. This processing method makes it possible to obtain hollow products of various shapes and sizes from thermoplastic materials that are used in the form of powders or pastes (plastisols). The rotational molding process is simple and involves three main steps. On the first one, a certain amount of polymer material is loaded into the cold mold, which is a hollow bowl-shaped structure. Further (stage II): the closed mold is placed in the heating chamber, where the formation process takes place. In this case, with the help of appropriate devices, the form is brought into rotation along two axes. When rotating at a relatively low frequency, the molten polymer is distributed along the walls of the mold.

The third stage III: consists in cooling the mold with the molded product, which can be done using cold air or water mist; while the mold continues to rotate for complete and uniform curing of the polymer over the entire surface of the mold. After cooling is complete, the mold is opened and the finished product is removed from it due to the shrinkage of the material, and when the product is cooled, the removal process does not cause complications:

http://www.polvmery.ru/letter.php?n_id=2674&cat_id=3&page_id=1;

http://belppg.com/technolog/p5.html;

http: //www.polymerbranch.eom/termoplast/view/6/19.html)

http://www.rpmufa.ru/index.php?pageid=press)

After the formation of trash blocks (containers), the rest of the waste with the addition of polystyrene (PS) group waste is crushed, compacted, put into the resulting containers and sealed.

The proposed method is quite technological, has a limited number of garbage processing operations, while it provides complete disposal, in particular landfills due to the processing of the entire waste array, in which one part of the waste is processed into trash blocks (containers), and the second part is filled with trash -blocks forming sealed mini-sarcophagi.

The blocks described above can be used in the field of road construction and construction in general, namely:

1) use in paving, replacing 3-4 layers of "cushion" (earth, sand, gravel and base layer) with trash blocks. This method of construction will not only significantly reduce the cost of concluding roads, but also simplify the process of laying the road surface;

2) build fences, parking lots on the basis of these blocks;

3) use as one of the foundation layers in the construction of hangars, factories, workshops, warehouses and other industrial structures;

4) apply in other construction and household work.

Claims (8)

1. A method of obtaining a block container for construction from industrial and domestic waste, including the primary sorting of industrial and domestic waste into at least two groups, while in one of the groups of these wastes, their plastic component is removed and then divided into six groups: high density polyethylene , low density polyethylene, polyethylene terephthalate, polyvinyl chloride, polypropylene and polystyrene, and part of at least one of these five groups, in addition to the polystyrene group, is processed into a container having a hollow bowl shape, and a group of polystyrenes is added to any of the rest of industrial and domestic waste , and the resulting mixture is crushed, compacted, folded into the resulting container and sealed to form a block container. 2. A method according to claim 1, characterized in that the processing into containers is performed by injection molding or by rotational molding. 3. A block-container for construction from industrial and domestic waste, which consists of a sealed body having a hollow bowl-shaped shape, made of a plastic component of industrial and domestic waste, selected from at least one of five groups: high density polyethylene, low density polyethylene , polyethylene terephthalate, polyvinyl chloride and polypropylene, while the sealed housing contains a crushed and compacted component of any group of industrial and household waste with a group of plastic component of industrial and household waste, which consists of polystyrenes. 4. A block container according to claim 3, characterized in that its body is cast, formed by injection molding or rotational molding. 5. A method for obtaining a sarcophagus from industrial and domestic waste, including the primary sorting of industrial and domestic waste into at least two groups, while in one of the groups of these wastes, their plastic component is removed and then divided into six groups: high density polyethylene, low density polyethylene , polyethylene terephthalate, polyvinyl chloride, polypropylene and polystyrene, and part of at least one of these five groups, in addition to the group of polystyrenes, is processed into a sarcophagus body having a hollow bowl shape, and a group of polystyrenes is added to any of the rest of industrial and household waste, and the obtained the mixture is crushed, compacted, folded into the resulting housing and sealed to obtain a sarcophagus. 6. The method according to claim 5, characterized in that the processing into the sarcophagus body is performed by injection molding or by rotational molding. 7. A sarcophagus made of industrial and domestic waste, which consists of a sealed body, having a hollow bowl-shaped form, made of a plastic component of industrial and domestic waste, selected from at least one of five groups: high density polyethylene, low density polyethylene, polyethylene terephthalate, polyvinyl chloride and polypropylene, while the sealed housing contains a crushed and compacted component of any group of industrial and domestic waste with a group of plastic component of industrial and domestic waste, which is made of polystyrene. 8. A sarcophagus according to claim 7, characterized in that its body is cast, formed by injection molding or rotational molding.