Introduction: This shear emulsifier uses high-power motor as power, safe and reliable design, low noise, and stepless speed regulation design can choose the required speed. The unique high-shear mixing and emulsification function ensures that the workpiece can withstand hundreds of thousands of shears per minute, solving the mixing problems that cannot be solved by general mixers, including cosmetic emulsions, pharmaceutical industry, food processing, chemical industry, The need for a variety of applications, including industrial coatings, can replace colloidal ball mills, sand mills, etc. in some applications. This machine is equipped with three different types of stator working heads (small hole, medium hole, and round hole). The customer can use it according to different needs, which can triple the effect of the experimental medium in the liquid, strong impact and pressure loss expansion. Refined and more evenly mixed with each other to prevent or reduce stratification with the liquid to achieve the best homogenization and emulsification. The dispersion process of the shear emulsifier is based on the principle of cutting the rotor and the stator. The experimental equipment is driven by a high-speed motor to shear the emulsified working head, which promotes the rotor to perform high-speed circumferential movement. The high-speed rotating rotor and the precision-matched stator form a high-frequency, strong circumferential tangential speed, angular velocity and other comprehensive kinetic energy, which promotes the experimental material to be sucked into the rotor area from the bottom of the experimental vessel and from the stator hole under the action of huge centrifugal force. Pull out. The stator and rotor form a strong, reciprocating hydraulic shear, friction, centrifugal extrusion, and liquid flow collision in a reasonably narrow gap. The experimental materials are circulated and reciprocated in the container, and subjected to shearing, tearing, impacting and mixing up to tens of thousands of times per minute to achieve shear emulsification effect, which is about one thousand times higher than ordinary stirring. Technical Parameters: Product model: TYJRJ300-I Output power (w): 300 Input power (w): 510 Shift range: 200-11000 (r/min) Speed control mode: stepless speed regulation Dimensions (mm): 360x260x760 Working head diameter (mm): 70 Maximum throughput (L): 40
Introduction: This shear emulsifier uses high-power motor as power, safe and reliable design, low noise, and stepless speed regulation design can choose the required speed. The unique high-shear mixing and emulsification function ensures that the workpiece can withstand hundreds of thousands of shears per minute, solving the mixing problems that cannot be solved by general mixers, including cosmetic emulsions, pharmaceutical industry, food processing, chemical industry, The need for a variety of applications, including industrial coatings, can replace colloidal ball mills, sand mills, etc. in some applications. This machine is equipped with three different types of stator working heads (small hole, medium hole, and round hole). The customer can use it according to different needs, which can triple the effect of the experimental medium in the liquid, strong impact and pressure loss expansion. Refined and more evenly mixed with each other to prevent or reduce stratification with the liquid to achieve the best homogenization and emulsification. The dispersion process of the shear emulsifier is based on the principle of cutting the rotor and the stator. The experimental equipment is driven by a high-speed motor to shear the emulsified working head, which promotes the rotor to perform high-speed circumferential movement. The high-speed rotating rotor and the precision-matched stator form a high-frequency, strong circumferential tangential speed, angular velocity and other comprehensive kinetic energy, which promotes the experimental material to be sucked into the rotor area from the bottom of the experimental vessel and from the stator hole under the action of huge centrifugal force. Pull out. The stator and rotor form a strong, reciprocating hydraulic shear, friction, centrifugal extrusion, and liquid flow collision in a reasonably narrow gap. The experimental materials are circulated and reciprocated in the container, and subjected to shearing, tearing, impacting and mixing up to tens of thousands of times per minute to achieve shear emulsification effect, which is about one thousand times higher than ordinary stirring.