Medical Infusion Bottle Breakage Cleaning And Recycling Line

Application:

The disposable medical infusion bottle crushing washing recycling line is a highly efficient resource recovery system designed for processing uncontaminated, post-use recyclable plastics such as PP infusion bottles and PE infusion bags generated by medical institutions. Through an automated process of "sorting - crushing - friction washing -float washing - air separation - silicone separating - granulation," these plastics are converted into high-quality recycled PP granules and recycled composite PE granules. Ultimately, these granules can be used in building materials, industrial, and household plastic products, in addition to food and pharmaceutical packaging, thereby achieving closed-loop management of medical recyclables, resource recycling, and environmental protection.

Process:

Manual sorting → Crushing → Friction washing → Sink float washing--Drying → Air separating → Silicone/rubber separating

Features:

1. Interlocked control between each mechanical unit ensures excellent safety and stability, and a high degree of automation across the entire line.

2. The crusher adopts a large rotary diameter and highly wear-resistant materials, increasing production capacity by 10-15% under comparable operating conditions, addressing capacity bottlenecks across the entire production line and improving crushing efficiency.

3. The vertical friction washer adopts a split design of bearings and seals, which solves easy bearing damage and easy blockage of the discharge port.

4. The sink float separation tank features a sloped feed design, improving sink-float separation and washing performance. While the market typically requires two sink float separation tanks, only one tank is needed to separate submersible silicone rubber stoppers and clean the material, achieving the desired effect while reducing energy consumption and the cost of additional machine cost.

5. The Zigzag negative four-channel air separator accurately calculates wind force, air volume, and cross-sectional area to break up and separate the material four times, achieving the desired separation between bottle mouths and bottle bodies with a single machine.