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CN-224207878-U - Mixing arrangement of high viscosity material

CN224207878UCN 224207878 UCN224207878 UCN 224207878UCN-224207878-U

Abstract

The utility model provides a mixing arrangement of high viscosity material, includes stirred tank, still includes elevated tank, circulation pipeline, the elevated tank is located stirred tank's top, the upper reaches end of circulation pipeline links to each other with stirred tank's bottom, and circulation pipeline's low reaches end links to each other with stirred tank's top, is provided with the circulating pump on the circulation pipeline, be provided with spiral deflector in the circulation pipeline, spiral deflector's peripheral diameter suits with circulation pipeline's internal diameter, the elevated tank links to each other with circulation pipeline through a inlet pipe, and the low reaches end of this inlet pipe extends into in the inner space of spiral deflector from spiral deflector's the upper reaches end. The utility model has simple structure and convenient use, and is convenient for evenly mixing the additive and the high-viscosity material.

Inventors

  • WU XIUPING
  • WU SHAOBO
  • Bai Kongmei
  • Pu Yunyi
  • HUANG YUANJUN
  • Zheng Liuqian
  • CHEN XUE
  • LI NA
  • TAO HONGYU

Assignees

  • 重庆斯泰克瑞登梅尔材料技术有限公司

Dates

Publication Date
20260508
Application Date
20250603

Claims (6)

  1. 1. The mixing device for the high-viscosity materials comprises a stirring kettle (1), and is characterized by also comprising a high-level tank (2) and a circulating pipeline (3), The elevated tank (2) is positioned above the stirring kettle (1), the upstream end of the circulating pipeline (3) is connected with the bottom of the stirring kettle (1), the downstream end of the circulating pipeline (3) is connected with the top of the stirring kettle (1), the circulating pipeline (3) is provided with a circulating pump (4), A spiral guide strip (5) is arranged in the circulating pipeline (3), the peripheral diameter of the spiral guide strip (5) is matched with the inner diameter of the circulating pipeline (3), The elevated tank (2) is connected to the circulation line (3) via a feed pipe (6), the downstream end of the feed pipe (6) extending from the upstream end of the spiral guide strip (5) into the interior space of the spiral guide strip.
  2. 2. The mixing device for high-viscosity materials according to claim 1, wherein the circulating pipeline (3) comprises a horizontal extension section (31), and two ends of the horizontal extension section (31) are detachably connected with the butt joint pipeline through flange plates.
  3. 3. The mixing device for high-viscosity materials according to claim 2, wherein a limiting ring table (32) is arranged at the downstream end of the horizontal extension section (31), and the spiral guide strip (5) is matched with the limiting ring table (32) to form limiting.
  4. 4. The mixing device for high-viscosity materials according to claim 1, wherein the feeding pipe (6) is formed by connecting an L-shaped pipe section (61) and a vertical pipe section (62), the horizontal section of the L-shaped pipe section (61) is arranged on the horizontal extension section (31) of the circulating pipeline and extends into the inner space of the spiral guide strip (5), and the vertical section penetrates out of the horizontal extension section (31) of the circulating pipeline and is connected with the overhead tank (2) through the vertical pipe section (62).
  5. 5. A mixing device for high-viscosity materials according to claim 4, characterized in that the vertical pipe section (62) is provided with a valve (7).
  6. 6. The mixing device for high-viscosity materials according to claim 2, characterized in that the circulation pump (4) is located upstream of the horizontal extension (31).

Description

Mixing arrangement of high viscosity material Technical Field The utility model relates to the field of chemical industry, in particular to a mixing device for high-viscosity materials. Background For fluid materials, mixing is typically performed in the form of stirring. For high-viscosity fluid materials, the traditional stirring and mixing method is generally difficult to achieve the aim of uniform mixing, and when a small amount of liquid such as a pH regulator and the like are required to be added, the difficulty of full mixing is greater, the mixing time is required to be prolonged, and the consumption of electric energy, heat energy and the like is increased. Therefore, designing a device that can mix high viscosity materials with high efficiency is a problem to be solved by those skilled in the art. Disclosure of Invention The utility model aims at overcoming the defects of the prior art, and provides a mixing device for high-viscosity materials, which has the advantages of simple structure, convenient use and convenient mixing of additives and the high-viscosity materials. The technical scheme is that the mixing device for the high-viscosity materials comprises a stirring kettle, a high-level groove and a circulating pipeline, wherein the high-level groove is positioned above the stirring kettle, the upstream end of the circulating pipeline is connected with the bottom of the stirring kettle, the downstream end of the circulating pipeline is connected with the top of the stirring kettle, a circulating pump is arranged on the circulating pipeline, a spiral guide strip is arranged in the circulating pipeline, the peripheral diameter of the spiral guide strip is matched with the inner diameter of the circulating pipeline, the high-level groove is connected with the circulating pipeline through a feeding pipe, and the downstream end of the feeding pipe extends into the inner space of the spiral guide strip from the upstream end of the spiral guide strip. The circulating pipeline comprises a horizontal extension section, and two ends of the horizontal extension section are detachably connected with the butt joint pipeline through flange plates. The downstream end of the horizontal extension section is provided with a limiting ring table, and the spiral guide strip is matched with the limiting ring table to form limiting. The feeding pipe is formed by connecting an L-shaped pipe section and a vertical pipe section, wherein the horizontal section of the L-shaped pipe section is arranged on the horizontal extension section of the circulating pipeline and extends into the inner space of the spiral guide strip, and the vertical section penetrates out of the horizontal extension section of the circulating pipeline and is connected with the elevated tank through the vertical pipe section. And a valve is arranged on the vertical pipe section. The circulation pump is located upstream of the horizontal extension. The technical scheme has the following beneficial effects: 1. the mixing device of the high-viscosity materials comprises a stirring kettle, a high-level tank and a circulating pipeline, wherein the stirring kettle is used for stirring and mixing the high-viscosity materials and a small amount of added liquid additives, such as pH regulator, such as liquid alkali, ammonia water and the like, the high-level tank is used for containing the liquid additives, and the circulating pipeline is used for circulating the high-viscosity materials in the stirring kettle in the external environment. The elevated tank is located above the stirred tank, i.e. the liquid additive loaded in the elevated tank may enter the stirred tank under the action of gravity. The upper stream end of the circulating pipeline is connected with the bottom of the stirring kettle, the lower stream end of the circulating pipeline is connected with the top of the stirring kettle, the circulating pipeline is provided with a circulating pump, and high-viscosity materials in the stirring kettle return to the top of the stirring kettle from the bottom of the stirring kettle through the circulating pipeline under the action of the circulating pump. The circulating pipeline is internally provided with a spiral guide strip, the peripheral diameter of the spiral guide strip is adapted to the inner diameter of the circulating pipeline, and when the circulating high-viscosity material flows through the spiral guide strip in the circulating pipeline, the high-viscosity material is acted by the spiral guide strip and circumferentially rotates to form vortex-shaped fluid. The high-level tank is connected with the circulating pipeline through a feeding pipe, the downstream end of the feeding pipe extends into the inner space of the spiral guide strip from the upstream end of the spiral guide strip, and a small amount of added liquid additive is mixed with vortex-shaped fluid, so that the mixing effect and mixing efficiency of the mixed liquid additive and