Gravity-Free Single-Axis Stirrer

I. Working Principle of the Gravity-Free Mixer

Gravity-free mixer equipped with two parallel shafts rotating in opposite directions simultaneously, each shaft carrying a cruciform paddle, driven synchronously by the drive unit.

Under the action, the two cross-blade shafts' operating trajectories form an intersecting relationship and are misaligned. The drive unit drives the blade shafts to rotate rapidly, rotating

The paddle blades generate centrifugal force, effectively throwing the material upwards into the interior of the drum, reaching the peak of the parabola before falling down (the peak of the parabola is also referred to as)

Instantly achieving zero-gravity state), the material is then driven by the paddle blades, reciprocating and mixing within the cylinder, while also being mixed and sheared by the intermeshing space of the twin shafts.

Separation, ensuring uniform mixing of materials.

Section 2: Gravity-Free Blender Introduction

1. Material Selection Plan
   Mixers can be customized with carbon steel, manganese steel, 304 stainless steel, 316L stainless steel, and other steel materials, and different materials are also available.

Combine usage; when selecting equipment materials, differentiate between parts that come into contact with materials and parts that do not; within the blender, targeted additions like anti-

Functional coatings or protective layers with features such as anti-fouling, anti-adhesive, isolation, and wear resistance; surface treatments for stainless steel include sandblasting, brushed finish, polishing, and mirror finish, etc.

Available in various styles, suitable for different parts of use.

2. Drive Configuration
Mixers are configured with drives of different capacities, powers, and output speeds based on material properties, start-up methods, and mixing techniques. The twin-shaft gravity-free mixers, due to the interlocking relationship of the internal blades, require a dual-shaft drive with synchronization capability. Shengli Company introduces four drive combinations suitable for various capacity requirements: twin-gearbox synchronous, single-gearbox dual-output, twin-planet gear synchronous, and bridge chainwheel chain drive.
The Sk series dual gear box synchronous assembly is configured for gravity-free mixer setups.

3. Mixing Device
The gravity-free mixer can adjust the double-axis paddle blades adaptively according to the properties of different materials.
Additional features such as wear-resistant mixing blades, spray mixing blades, and serrated mixing blades can be equipped on the gravity-free blender. These can include a crushing shaft inside the drum to break up materials in conjunction with the mixing flow.

4. Material Feeding Device
Standard configuration includes gravity-free mixer with double-door flip-top large opening discharge valve, curved flip-top valve, perfectly fitting the drum's curved surface to ensure thorough mixing with no dead spots and even material blending.

5. Dynamic shaft seal
Common sealing modes for mixers: filling seal, integrated gas seal, and mechanical seal.
Main shaft seals for solving particle, powder, micron-grade powder, liquid, and slurry states.

Section 2: Selection of Gravity-Free Blenders

1. Determine the volume of each batch of mixed materials, ranging from 0.1 to 20 cubic meters, and select the appropriate equipment size.
2. Select equipment material: materials are divided into contact and non-contact parts with materials, while other equipment components maintain the original material.
Material selection is based on material properties, working conditions, hygiene levels, and other factors. Common options include carbon steel.

304/316L Stainless Steel
After material selection, determine the surface treatment requirements as per specifications.
3. Determine the driving capacity based on the material's specific gravity, fluidity, and other properties, as well as the startup standards.
Standard Start-up Ratings: Full Load Start, No Load Start.
4. Based on actual process conditions, add auxiliary function components such as liquid spray, heating/cooling, etc.
5. Specify the opening requirements for design equipment, such as feed openings, cleaning ports, exhaust holes, etc.
6. Select the feeding mode and drive type, which includes manual, pneumatic, and electric.
Friendly Reminder: The selection of equipment is a crucial step. Please provide detailed information about the materials and process arrangements for ease of selection.
Our staff provides technical services to you.