Multi functional closed crushing platform
Basic concepts:
The multifunctional closed crushing platform is a device that integrates crushing and sealing functions, aiming to ensure that materials are in a dust-free and pollution-free environment during the crushing process.
Multifunctionality: Not only does it have the ability to crush materials, but it also integrates 6 types of crushing modules, including airflow, pin rod, cone, hammer, centrifugal, and grinding track, with a wide range of particle size control. The crushing components are commonly made of 304/316L stainless steel material, and can be sprayed with tungsten carbide, ceramic lining, PTFE lining, etc. under specific working conditions.
Sealing: Sealing is one of the important features of a multifunctional closed crushing platform. Through special design, the platform can ensure the isolation of materials from the external environment during the crushing process, effectively preventing dust leakage and material pollution. This airtightness is particularly important for handling materials that are volatile, easily contaminated, or harmful to human health.
Efficiency: Multi functional closed crushing platforms typically use high-speed motors and high-quality modules, combined with advanced crushing technology, to quickly crush materials to the desired size and shape. This efficiency not only improves production efficiency, but also reduces energy consumption and costs.
Application scope:
Suitable for small-scale crushing of 1-20kg, the research layout can be customized according to the user’s site, achieving D90:5-300um, which can meet various process requirements such as depolymerization, initial crushing, and ultrafine crushing. At the same time, it can be equipped with a grading device to control narrower particle size, commonly used for the crushing of solid battery materials (avoiding water and oxygen).
Characteristic advantages:
Adopting flexible or hard sealed design: isolating the powder from the operator, the material is not exposed to the air, making it more suitable for materials that are prone to moisture absorption or oxidation, improving the crushing experimental environment, and preventing dust spillage during frequent disassembly and assembly processes;
Nitrogen circulation design: Control the humidity and oxygen content of the crushing system, control low dew point and low oxygen content to prevent toxic or dangerous materials;
Continuous feeding and discharging can be achieved: using a screw feeder, continuous and stable feeding can be achieved, and the dust collector can also discharge continuously;
Modular customized design: complete assembly testing is conducted before leaving the factory (incoming material testing can be conducted before leaving the factory), and upon arrival at the user’s site, only the equipment needs to be in place and connected to the public works for use;
Low temperature integration (optional): The minimum intake temperature can reach -60~-100 ℃. Specially suitable for materials with low melting point, room temperature viscosity, heat sensitivity, and materials that require low-temperature embrittlement and crushing;
Suitable for various customer needs: freely switching between different crushing modules, customized positioning and storage of components, small overall equipment footprint, suitable for laboratory environments.
Applicable scenarios:
Research on the crushing process of enterprise R&D departments and research institutes;
The new application process requires multiple occasions with different particle sizes, and the multifunctional crushing platform is used for scientific research to crush materials of various particle sizes.
Addressing pain points:
During the crushing process, the incoming and outgoing materials are exposed, and the powder is scattered everywhere, resulting in the presence of powder on site;
Crushed materials have certain toxicity, and long-term contact with operators can lead to poisoning, allergies, etc;
The energy consumption of low-temperature liquid nitrogen crushing is difficult to control, and nitrogen cannot be discharged in an unorganized manner, requiring operation in a fume hood;
The equipment needs to be frequently turned on, and exposure operations may cause the laboratory to be unable to stand;
In order to meet different particle size requirements, various crushing equipment needed to be purchased in the past, and spare parts management was cumbersome.
Call Us or Fill the Form
- Jessie Yao
- +86-510-83390800
- +86 18921109791(Wechat)
- [email protected]
- C2, Quantum Industrial Park, Qianzhou Street, Huishan District, Wuxi City, Jiangsu, China

