RU2053837C1 - Mixer - Google Patents

Abstract

FIELD: construction. SUBSTANCE: housing is pressure-tight. Hoses are arranged in face parts of the housing. One end of the hose is secured to the reverse driving drum. The other end is secured over periphery of the housing to define a space filled with compressed working agent. EFFECT: enhanced quality and efficiency of mixing. 1 dwg

Description

 The invention relates to mixing equipment and can be used in the construction, chemical, petrochemical, food, pharmaceutical and other industries.

 A known fluid mixer containing a mixing chamber with control elements on which the blades are mounted.

 Disadvantages: high energy consumption for mixing mechanism drive, high emulsification and aeration of the mixture.

 As a prototype, a device for mixing liquid in a tank was selected, which contains a tank with air supply manifolds placed on the sides, to which elastic sleeves with perforation for air passage and with a spiral spring inside which roll the sleeve in a spiral are staggered.

 The disadvantages of the prototype: high aeration of the mixture, the inability to mix bulk components, high consumption of compressed air.

 The purpose of the invention is to improve the quality of mixing and reduce energy consumption.

 This goal is achieved by the fact that in the mixer, which includes a cylindrical body, in communication with systems for supplying components and removal of the finished mixture and containing a working mixing element, made in the form of sleeves with a mechanism for moving them, according to the invention, the sleeves are placed in the end parts of the housing, wound at one end on reversible drive drums, and the other ends are turned inside out and with a bent edge are hermetically fixed along the perimeter of the housing with the formation of movable cavities filled with compressed fluid .

 By reversing the rotation of the drums, the sleeves are alternately wound off the drums, the fluid expands and moves the sleeves along the body, increasing the cavity in the fluid. When winding the sleeves on the drum, the fluid cavities decrease, the latter are compressed, the sleeves are shifted to the reversible drive drums. Repeated movement of the sleeves along the body ensures the movement of the components of the mixture.

 A comparative analysis of the proposed solution with the prototype showed that the proposed solution is distinguished by the constructive implementation of the mixing mechanism in the form of a pair of reversibly moved sleeves, the sealed cavities of which are filled with compressed fluid. This allows us to conclude that the proposed solution meets the criteria of the invention of "novelty."

 A comparative analysis of the proposed solution with other solutions known in this field did not allow to reveal a similar set of features, which allows us to conclude that the proposed solution meets the criterion of "significant differences".

 The drawing schematically shows the inventive device in cross section.

 The mixer comprises a housing 1, in communication with systems 2 for supplying components and with a system 3 for withdrawing the finished mixture. In the end parts of the housing 1, reversible drive drums 4 are installed, on which sleeves are wound at one end 5. Their other ends are turned inside out and with a curved edge are fixed along the perimeter of the housing 1 with the formation of cavities 6 filled with compressed fluid.

 The device operates as follows. Systems 2 in the housing 1 serves the components of the mixture. Alternately, the reversible drive drums 4 are rotated clockwise or counterclockwise. When the drum 4 rotates in one direction, the sleeve 5 is wound off the drum 4, the compressed fluid in the cavity 6 expands, increasing the volume of the latter and moving the sleeve 5 along the housing 1 to the opposite sleeve. When the drum 4 is rotated in the opposite direction, the sleeve 5 is wound on it, the cavity 6 is reduced, the fluid is compressed, the sleeve 5 as if goes into the end part of the housing 1. The sleeves 5 can move towards each other or one after another, providing mixing of the mixture components. Repeated repetition of the reciprocating movements of the sleeves 5 provides a high-quality movement of the components with a soft impact on them, eliminates aeration and emulsification. The finished mixture is discharged after a certain number of sleeve movements 5.

 Using the proposed solution allows to reduce the energy consumption for the drive of the mixing organ, allows you to mix components of different consistencies (solid, liquid, gaseous).

Claims (1)

 MIXER comprising a housing, a mixing mechanism made in the form of a sleeve, characterized in that, in order to improve the quality of mixing and reduce energy consumption, the housing is sealed, the sleeves are located in the end parts of the housing, one end of the sleeve is mounted on a reversing drive drum, and the second end fixed along the perimeter of the housing with the formation of a cavity filled with a compressed working agent, the housing is made with nozzles for supplying components and removal of the finished mixture, nozzles for supplying components are placed on the top the wall of the housing, and nozzles for draining the mixture on the bottom wall of the housing.

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