RU120021U1 - PLANT FOR SORTING MIXED WASTE - Google Patents

Abstract

 A plant for sorting mixed waste, including feeding and outputting conveyor belts, a sorting table connected to an electric motor, an optical recognition device operating in the near and / or visible range of the spectrum, mounted above the sorting table and connected to computer assessment tools, blowing nozzles associated with compressor and computer-controlled evaluation, bins for each type of waste, located opposite the blowing nozzles, characterized in that the sorting table made in the form of a circular truncated cone with a rough side surface, the length of which is 0.5-1.5 m, and the angle of inclination to the base is 15-45 °, while the side surface of the cone is the working surface of the sorting table and is made with perforation in the form of honeycombs , the size of which is 15-50 mm, it is equipped with radially located thresholds that prevent the waste from sliding during loading and moving, and in the lower part with a protrusion equal to 10-20 cm, which prevents the waste from falling off the sorting table, blowing nozzles mounted under the working surface of the sorting table along its entire width in rows from 5 to 25 perpendicular to the working surface, bins are located along the entire circumference of the sorting table in an amount of at least 5, in addition, under the working surface of the sorting table opposite the output conveyor there is a device for creating a flow air, providing complete cleaning of the surface of the sorting table and the removal of unsorted waste on a conveyor belt.

Description

The utility model relates to the field of public utilities and can be used for sorting solid household, industrial and commercial waste.

Known installation for sorting solid waste (MSW), including the supply and output conveyors, posts manual sorting. The installation case is made in the form of a polyhedron containing a cylindrical lower part and an upper part made in the form of a truncated cone with a through hole at the top. In the center of the casing there is a drive mechanism connected to the circular conveyor, a platform with workplaces is placed between the casing and the circular conveyor, and heat sinks are mounted at each workplace to output sorted waste through openings in the working platform, under which opposite each face of the lower part of the casing mobile bunkers, for the output of which each face is equipped with doors. To remove residual solid waste, each workplace is equipped with a device for supplying a signal to a discharge device, for ensuring air circulation, forced exhaust ventilation probes are installed in the upper part of the body, and the faces of the cylindrical part of the body are connected with adjustable gaps to ensure fresh air from the outside (see RF patent No. 2389565 dated 05/20/10, B09B 3/00, B03B 9/06).

A disadvantage of the known device is its low productivity due to the fact that a manual method of separating the specified fractions of waste is used. In addition, each portion of the MSW goes through several selection cycles, which increases the time the waste is present on the conveyor.

The closest device of the same purpose to the claimed invention according to the totality of features is a plant for sorting mixed waste, including feeding, accelerating and outputting conveyor belts. The accelerating conveyor is connected to an electric motor. Above the booster conveyor are optical recognition devices operating in the near and / or visible range of the spectrum and connected to computer assessment tools. At the drop site from the conveyor belt, there are blowing nozzles associated with the compressor and controlled by computer assessment tools. Bins for each type of waste are installed opposite the blowing nozzles (see patent EP No. 1023945 of 08/02/2000). This installation is taken as a prototype.

Signs of the prototype, coinciding with the essential features of the inventive installation - feed and output belt conveyors; sorting table connected to an electric motor; an optical recognition device operating in the near and / or visible range of the spectrum, mounted above the sorting table and connected to computer assessment tools; blowing nozzles associated with the compressor and controlled by computer assessment tools; bins for each type of waste, located opposite the blowing nozzles.

A disadvantage of the known device adopted for the prototype is that in the known device for the isolation of each type of waste requires a separate optical recognition device and sorting conveyor. Therefore, when sorting multicomponent waste, large production areas are required for installation.

The objective of the utility model is to create a facility for sorting mixed waste, which occupies small production areas and allows using the same optical recognition device to simultaneously sort the Nth amount of waste types, where N≥5.

The problem was solved due to the fact that in the known installation for sorting mixed waste, including feeding and output belt conveyors, a sorting table connected to an electric motor, an optical recognition device operating in the near and / or visible range of the spectrum, mounted above the sorting table and connected to computer assessment tools, blowing nozzles connected to a compressor and controlled by computer assessment tools, bins for each type of waste located opposite in blowing nozzles, the sorting table is made in the form of a circular truncated cone with a rough side surface, the length of which is 0.5-1.5 m, and the angle of inclination to the base is 15-45 °, while the side surface of the cone is the working surface of the sorting table and made with perforation in the form of honeycombs, the size of which is 15-50 mm, equipped with radially located thresholds that prevent the sliding of waste during loading and moving, and in the lower part with a protrusion equal to 10-20 cm, preventing the waste from falling from of the calibration table, blowing nozzles are installed under the working surface of the sorting table along its entire width in rows from 5 to 25 perpendicular to the working surface, bins are located along the entire circumference of the sorting table in an amount of at least 5, in addition, under the working surface of the sorting table opposite the output conveyor there is a device for creating an air flow, providing complete cleaning of the surface of the sorting table and the removal of unsorted waste on a conveyor belt.

Distinctive features of the claimed utility model - the sorting table is made in the form of a circular truncated cone with a rough lateral surface, the length of which is 0.5-1.5 m, and the angle of inclination to the base is 15-45 °; the lateral surface of the cone is the working surface of the sorting table and is made with perforation in the form of honeycombs, the size of which is 15-50 mm; the working surface of the sorting table is equipped with radially located thresholds that prevent the waste from crawling during loading and moving, and in the lower part with a protrusion equal to 10-20 cm, preventing waste from falling from the sorting table; blowing nozzles are installed under the working surface of the sorting table along its entire width in rows from 5 to 25 perpendicular to the working surface; bins are located along the entire circumference of the sorting table in an amount of at least 5; under the working surface of the sorting table opposite the output conveyor there is a device for creating an air flow, which provides complete cleaning of the surface of the sorting table and the removal of unsorted waste on the belt output conveyor.

Distinctive features of the utility model in combination with the known ones allow using the same optical recognition device to simultaneously sort the N-th amount of waste types, where N≥5 and place it in relatively small rooms.

The proposed installation is illustrated by the drawings shown in figures 1-3.

In Fig.1 shows a diagram of the proposed installation, top view.

Figure 2 is a section aa.

Figure 3 is a section bB.

Installation for sorting mixed waste (figure 1) includes a feed 1 and output 2 belt conveyors, sorting table 3. Under the sorting table 3 in its center is placed an electric motor 4 (figure 2), which ensures rotation of the sorting table 3 with a constant predetermined speed. Sorting table 3 is made in the form of a circular truncated cone with a rough lateral surface, the length of which is 0.5-1.5 m, and the angle of inclination to the base of 15-45 °. The lateral surface of the cone is the working surface of the sorting table 3.

The working surface of the sorting table 3 is equipped with radially located thresholds 5, preventing the creep of the waste in the process of loading and moving. A protrusion 6 of 10-20 cm is made in the lower part of the working surface to prevent waste falling from the sorting table 3. If the protrusion 6 is less than 10 cm, waste may fall from the sorting table, and when the protrusion is more than 20 cm, it is difficult to clean the working surface with a device for creating air flow 7. A device for creating an air flow 7 is located under the working surface of the sorting table 3 opposite the output conveyor 2 and provides complete cleaning of the surface of the sorting table 3 and the removal of non-sorting waste to the conveyor belt 2.

Above the sorting table 3, an optical recognition device 8 is installed, operating in the near and / or visible range of the spectrum, and connected to computer-based evaluation tools 9 (Fig. 3).

Under the working surface of the sorting table 3, blowing nozzles 10 are arranged along its entire width, arranged in rows from 5 to 25 perpendicular to the working surface and controlled by computer-aided assessment tools 9. When installing blowing nozzles 10 in less than 5 rows, it is difficult to separate wide and heavy fractions, increasing rows of more than 25 is impractical due to excessive air consumption. The accumulation and supply of compressed air to the blowing nozzles 10 provides a compressor 11.

Opposite the blowing nozzles 10 along the entire circumference of the sorting table 3 are located at least 5 bins 12 (Fig. 1) for each type of waste. The working surface of the sorting table 3 is made with perforation in the form of honeycombs, the size of which is 15-50 mm The honeycomb size of 15 mm or more is determined by the size of the nozzles 10, with a honeycomb size of more than 50 mm, part of the material can be sieved, which is not desirable.

Installation works as follows.

Mixed waste after preliminary sorting by the feeding conveyor 1 is fed to a circular sorting table 3, equipped with a protrusion 6, preventing waste from falling from the sorting table and thresholds 5 preventing the waste from slipping during the movement of the sorting table 3. At the same time, include an electric motor 4 and an optical recognition device 8. Waste, moving on a rotating sorting table 3, pass under the optical recognition device 8, the data received from the optical recognition device 8, on sent to the computer means of assessment 9, where the calculation of the necessary time for the passage of all the specified types of waste to their respective bins 12. The separation occurs by applying a signal from the computer means of assessment 9 to the blowing nozzles 10 at the time when the specified type of waste is located opposite the corresponding hopper 12 to the center above the blowing nozzles 10. The production of compressed air for the blowing nozzles 10 produces a compressor 11. Unsorted waste is discharged to the discharge conveyor 2 with Air flow device 7.

The advantage of the proposed installation is that it occupies a small production area and allows using the same optical recognition device to simultaneously sort the Nth amount of waste types, where N≥5.

Claims (1)

A plant for sorting mixed waste, including feeding and outputting conveyor belts, a sorting table connected to an electric motor, an optical recognition device operating in the near and / or visible range of the spectrum, installed above the sorting table and connected to computer assessment tools, blowing nozzles associated with compressor and computer-controlled evaluation tools, bins for each type of waste, located opposite the blowing nozzles, characterized in that the sorting table made in the form of a circular truncated cone with a rough lateral surface, the length of which is 0.5-1.5 m, and the angle of inclination to the base of 15-45 °, while the lateral surface of the cone is the working surface of the sorting table and is made with perforation in the form of honeycombs , the size of which is 15-50 mm, it is equipped with radially located thresholds that prevent the waste from slipping in the process of loading and moving, and in the lower part with a protrusion equal to 10-20 cm, preventing the waste from falling from the sorting table, blowing nozzles are mounted under the working surface of the sorting table along its entire width in rows from 5 to 25 perpendicular to the working surface, the bins are located along the entire circumference of the sorting table in an amount of at least 5, in addition, under the working surface of the sorting table opposite the output conveyor there is a device for creating a flow air, providing complete cleaning of the surface of the sorting table and the removal of unsorted waste on a conveyor belt.