CN110064486B - Decoration garbage recycling process - Google Patents

Abstract

The invention discloses a decoration garbage recycling process, which comprises the steps of sorting and crushing decoration garbage, magnetic separation and screening, breaking and magnetic separation, screening sand making and screening finished products to obtain finished sand, feeding materials with larger particle sizes into a transfer bin and crushing, reducing abrasion of a crusher, improving the treatment efficiency, and enabling the particle sizes of the materials to reach standard values after the crusher is crushed so as to facilitate conveying and screening. And the material is sent into a positive pressure light material separator to separate out light materials, and other impurities are separated out through a manual picking table to ensure the cleanness of the partial raw materials, and appropriate dust removal and dust fall measures are set in each crushing, screening and material transferring link to ensure the environmental protection of the process.

Description

Decoration garbage recycling process

Technical Field

The invention belongs to the field of decoration garbage recovery, and particularly relates to a decoration garbage recovery process.

Background

In recent years, with the rise of the real estate industry, a large amount of decoration garbage is generated when many people decorate houses, and how to recycle the decoration garbage becomes a difficult problem in the current society.

Disclosure of Invention

The invention provides a decoration garbage recycling process, which overcomes the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is that

A decoration garbage recycling process is characterized by comprising the following steps:

sorting and crushing: picking up materials with the particle size larger than 200mm in the decoration garbage raw materials through a manipulator, conveying the materials to a first transfer bin, performing impact crushing, and conveying the materials with the particle size smaller than 200mm to a crusher for crushing;

magnetic separation and screening: magnetically separating the crushed materials through an iron remover, separating magnetic iron metal, then feeding the materials into a drum screen for screening, feeding the materials with the particle size of less than 40mm screened by the drum screen into a relaxation screen for screening, screening the materials with the particle size of less than 5mm and the materials between 5mm and 40mm by the relaxation screen, uniformly humidifying the materials with the particle size of less than 5mm, and then feeding the materials into a finished product bin;

breaking and magnetic separation: screening materials with the particle size of 5mm and 40mm by a tension screen, feeding the materials into a positive pressure light material separator, separating the light materials, feeding the materials into a second transfer bin, screening the materials with the particle size of more than 40mm by a drum screen, feeding the materials into the positive pressure light material separator, separating the light materials, feeding the materials into a first transfer bin after impurities are separated by a manual picking platform, performing reverse impact breaking, uniformly feeding the materials in the first transfer bin into a reverse impact breaker, performing magnetic separation by an iron remover, and further separating magnetic iron metals;

screening and sand making: the materials after being magnetically separated by the iron remover enter a screening machine, the materials with the particle size smaller than 40mm are screened out by the screening machine and sent into a second transfer bin, the materials with the particle size larger than 40mm return to the first transfer bin and are subjected to impact breaking again, the materials in the second transfer bin are fed into a grading sand making machine, the grading sand making machine is used for screening the materials with the particle size smaller than 40mm, the screened materials with the particle size smaller than 5mm are uniformly humidified and sent into a finished product bin;

screening finished products: and the materials with the particle size larger than 5mm are magnetically separated by an iron remover, returned to the grading sand making machine and sieved again to obtain finished products, and the finished products are conveyed into a finished product bin.

In a preferred embodiment, the graded sand maker separates stone powder and stores the stone powder in a separate powder tank.

Compared with the prior art, it has the following advantages:

according to the recovery process, the materials with larger particle sizes are sent into the transfer bin and crushed, so that the abrasion of the pulper is reduced, the treatment efficiency is improved, and the particle sizes of the materials reach the standard value after the pulper is pulped, so that the materials are convenient to convey and screen. And the material is sent into a positive pressure light material separator to separate out light materials, and other impurities are separated out through a manual picking table to ensure the cleanness of the partial raw materials, and appropriate dust removal and dust fall measures are set in each crushing, screening and material transferring link to ensure the environmental protection of the process.

Drawings

The invention is further illustrated by the following figures and examples.

FIG. 1 is a process flow diagram of the present invention.

Detailed Description

Example (b):

referring to fig. 1, a decoration garbage recycling process includes the following steps:

sorting and crushing: picking up large raw materials, namely materials with the particle size larger than 200mm, in the decoration garbage raw materials through a manipulator, conveying the materials to a first transfer bin, performing impact breaking, and conveying the materials with the particle size smaller than 200mm to a crusher for crushing;

magnetic separation and screening: magnetically separating the crushed materials through an iron remover, separating magnetic iron metal, then feeding the materials into a drum screen for screening, feeding the materials with the particle size of less than 40mm screened by the drum screen into a relaxation screen for screening, screening the materials with the particle size of less than 5mm and the materials between 5mm and 40mm by the relaxation screen, uniformly humidifying the materials with the particle size of less than 5mm, and then feeding the materials into a finished product bin;

breaking and magnetic separation: screening materials with the grain size of 5mm to 40mm by a tension screen, feeding the materials into a positive pressure light material separator, separating the light materials, feeding the materials into a second transfer bin, screening the materials with the grain size of more than 40mm by a drum screen, feeding the materials into another positive pressure light material separator, separating the light materials, feeding the materials into a first transfer bin after impurities are separated by a manual picking table, performing reverse impact breaking, uniformly feeding the materials in the first transfer bin into a reverse impact breaker, performing magnetic separation by an iron remover, and further separating magnetic iron metals;

screening and sand making: the materials after being magnetically separated by the iron remover enter a screening machine, the materials with the particle size smaller than 40mm are screened out by the screening machine and sent into a second transfer bin, the materials with the particle size larger than 40mm return to the first transfer bin and are subjected to impact breaking again, the materials in the second transfer bin are fed into a grading sand making machine, the grading sand making machine is used for screening the materials with the particle size smaller than 40mm, the screened materials with the particle size smaller than 5mm are uniformly humidified and sent into a finished product bin;

screening finished products: and (3) magnetically separating the materials with the particle size larger than 5mm again through the iron remover (preventing the magnetic iron metal from repeatedly crushing in a sand making closed loop to cause extra abrasion on the belt grading sand making machine), returning to the belt grading sand making machine, screening out finished products again, and sending the finished products into a finished product bin.

The belt grading sand making machine separates stone powder and stores the stone powder in a separate powder tank.

According to the recovery process, the materials with larger particle sizes are sent into the transfer bin and crushed, so that the abrasion of the pulper is reduced, the treatment efficiency is improved, and the particle sizes of the materials reach the standard value after the pulper is pulped, so that the materials are convenient to convey and screen. And the material is sent into a positive pressure light material separator to separate out light materials, and other impurities are separated out through a manual picking table to ensure the cleanness of the partial raw materials, and appropriate dust removal and dust fall measures are set in each crushing, screening and material transferring link to ensure the environmental protection of the process.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims (2)

1. A decoration garbage recycling process is characterized by comprising the following steps:

sorting and crushing: picking up materials with the particle size larger than 200mm in the decoration garbage raw materials through a manipulator, conveying the materials to a first transfer bin, performing impact crushing, and conveying the materials with the particle size smaller than 200mm to a crusher for crushing;

magnetic separation and screening: magnetically separating the crushed materials through an iron remover, separating magnetic iron metal, then feeding the materials into a drum screen for screening, feeding the materials with the particle size of less than 40mm screened by the drum screen into a relaxation screen for screening, screening the materials with the particle size of less than 5mm and the materials between 5mm and 40mm by the relaxation screen, uniformly humidifying the materials with the particle size of less than 5mm, and then feeding the materials into a finished product bin;

breaking and magnetic separation: screening materials with the particle size of 5mm and 40mm by a tension screen, feeding the materials into a positive pressure light material separator, separating the light materials, feeding the materials into a second transfer bin, screening the materials with the particle size of more than 40mm by a drum screen, feeding the materials into the positive pressure light material separator, separating the light materials, feeding the materials into a first transfer bin after impurities are separated by a manual picking platform, performing reverse impact breaking, uniformly feeding the materials in the first transfer bin into a reverse impact breaker, performing magnetic separation by an iron remover, and further separating magnetic iron metals;

screening and sand making: the materials after being magnetically separated by the iron remover enter a screening machine, the materials with the particle size smaller than 40mm are screened out by the screening machine and sent into a second transfer bin, the materials with the particle size larger than 40mm return to the first transfer bin and are subjected to impact breaking again, the materials in the second transfer bin are fed into a grading sand making machine, the grading sand making machine is used for screening the materials with the particle size smaller than 40mm, the screened materials with the particle size smaller than 5mm are uniformly humidified and sent into a finished product bin;

screening finished products: and (3) magnetically separating the materials with the particle size of more than 5mm by using an iron remover, returning to the grading sand making machine, screening out finished sand again, and sending into a finished product bin.

2. The decoration waste recycling process according to claim 1, wherein: the belt grading sand making machine separates stone powder and stores the stone powder in a separate powder tank.

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