Recycling Plants

Linia de reciclare capsulelor de cafea de aluminio

Linia de reciclare capsulelor de cafea de aluminio pentru separare capsule de cafea espresso, recuperarea plasticului și a metalelor de aluminiu și pulbere reutilizabilă ca îngrășământ

Mori cu ciocane HM

Granulatoare de lame

Benzile transportoare

Description

Linia de reciclare capsulelor de cafea espresso de aluminio, are ca scop recuperarea piesei de plastic, fractia metalica, formata in general din folie de aluminiu si pudra de cafea reutilizabila ca ingrasamant in agricultura. Capsulele de cafea se extind rapid pe piețele care necesită industriei de reciclare să își adapteze capacitatea de producție și recuperare. Capacitatea de productie a liniilor de reciclare a capsulelor de cafea variaza in functie de solicitarile utilizatorului final si de tipul de materiale care trebuie tratate.

‍

Mai multe fabrici de reciclare proiectate și fabricate de Stokkermill Recycling Machinery:

• Echipamente electrice și electronice și linii de rafinare (DEEE)

• Instalatii si linii de prelucrare/rafinare a aluminiului

• Stații/linii de tratare a vehiculelor scoase din uz (ELV).

• Linii de tratament hard-disk

• Instalații și linii de reciclare a tonerului

• Instalatii si linii de reciclare a panourilor solare

• Liniile și liniile de tratare a pufurilor

• Instalații și linii de reciclare a cablurilor

• Instalații și linii de procesare a cardurilor electronice PCB

• Instalatii si linii de reciclare a capsulelor de cafea

• Instalatii de concasare a reziduurilor si linii de tratare

Frequently asked questions

What arethe key technologies used in a solar panel recycling plant to separatematerials?

Stokkermill solar panel recycling plant uses a combination of mechanical processes, such as crushing, shredding, and grinding, followed by air classification, vibrating screens, and magnetic separation to separate materials like silicon, glass, aluminum, and plastics. These processes ensure that each material is recovered with high purity and minimal contamination.

How does a solar panel recycling plant handle the recovery of silicon from panels?

In Stokkermill solar panel recycling plant, silicon is typically recovered through a multi-step process. After the panels are shredded and crushed, the silicon is separated from the other materials using chemical processes or thermal treatment. This recovery process is designed to maximize the yield of high-quality silicon that can be reused in new solar panels or other industries.

What is the role of glass recycling in a solar panel recycling plant?

Glass is one of the most significant components of a solar panel, and the Stokkermill solar panel recycling plant is designed to recover it efficiently. Glass is separated from the panel after the silicon and metal components are removed. The recovered glass is cleaned, processed, and repurposed for use in the production of new solar panels or as raw material for other industries such as construction or automotive.

What technologies are used for glass recovery in solar panels at a solar panel recycling plant?

Glass in solar panels is separated through an advanced mechanical process that includes crushing, vibration, and density-based separation. The Stokkermill solar panel recycling plant also uses high-frequency vibration technologies to optimize the recovery of pure glass, which is then cleaned and reused in the production of new solar panels or in other industrial applications.

USE CASES

More information...

Technical Specifications — LCD Screen Recycling Line

General Data

Brand: Stokkermill
Model: LCD screen recycling line
Total weight: 2,435.7 kg

Main Dimensions

Total length: 5,855 mm
Maximum width: 4,780 mm
Maximum height: 3,550 mm
Worktop height: 1,100 mm
Walkway width: 2,510 mm
Stair width: 800 mm
Walkway depth: 2,270 mm
Footprint: ≈ 5.86 m × 4.78 m

Structure

Welded steel base frame (painted)
Walkway with safety guardrails on three sides
Access stairs with double handrail
Protective hood for cutting/press area
Side doors and inspection panels

Main Components

Cutting hood (code 061 016 A05 00)
Base frame (code 061 016 A06 00)
Walkway (code 061 016 A07 00)
Upper press assembly (code 061 016 A04 00)
Removable front/side covers for maintenance
Polyurethane hoses Ø 60 mm for suction/discharge

Accessories & Hardware

Fasteners UNI EN 24017 (M6, M8, M10, M16)
Washers UNI 6592 / UNI 6593
Self-locking nuts UNI 7473
Hinges ELESA CFH.50 CH-8
Latches Pizzato KEY F2

Functional Features

Machine for LCD shearing/pressing
Closed structure with operator safety protections
Top loading and rear discharge
Ready for external suction plant connection
Raised operator station for manual or semi-automatic feed

Safety

Anti-fall guardrails compliant with CE directives
Side doors with safety interlocks
Metal and mesh protections in access areas
Compliant with CE machinery safety regulations

Replace the image URLs above with your Webflow Asset URLs (render + two technical drawings).

Linia de reciclare capsulelor de cafea de aluminio

USE CASES

More information...

Technical Specifications — LCD Screen Recycling Line

General Data

Main Dimensions

Structure

Main Components

Accessories & Hardware

Functional Features

Safety

Single shaft shredders

Twin shaft shredders

Four shaft shredders

Compact granulators

Turbo granulators

Complete plants

Densimetric separators

Magnetic separators

Optical separators

Cable strippers

Conveyor belts

Dust filters

Hammer mills

Impact mills

Delamination mills

Aluminium motor presses

Electric motor crushers

Compacting presses

Plant for solar and PV panels

Plant for metals refining

Plant for LCD-screens

Plant for electric motors

Plant for WEEE

Plant for PCB

Plant for toner cartridges

Plant for aluminium

Plant for coffee capsules

Plant for ELV

Plant for copper cables