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CN-121972273-A - Special vertical grinding equipment of ceramic magma material production for energy-saving building

CN121972273ACN 121972273 ACN121972273 ACN 121972273ACN-121972273-A

Abstract

The invention discloses energy-saving vertical grinding equipment special for producing ceramic raw slurry materials for buildings, which comprises a feeding module with a coarse powder slurry output end, a grinding module and a second slurry tank, wherein the grinding module comprises a vertical grinding machine, the vertical grinding machine comprises a vertical grinding cylinder and a spiral lifting shaft positioned in the cylinder, the lower side of the grinding cylinder is provided with a slurry input end, the upper side of the grinding cylinder is provided with a slurry output end, the spiral lifting shaft is connected with a spiral power device, the coarse powder slurry output end is connected with the slurry input end, and the second slurry tank is connected with the slurry output end. When the vertical grinding machine works, the coarse powder slurry is vertically ground, the light slurry is stirred and excited, overflows from the slurry output end and finally flows into the second slurry tank. In the whole process, the slurry is dynamically input and output, so that the continuity of other production procedure links is not influenced, the waiting time of a system machine is reduced, the working efficiency is improved, and the energy-saving effect is good.

Inventors

  • YANG MAO
  • LIU JIAFANG
  • LV YONGZHAN
  • PAN WEITAO

Assignees

  • 佛山市新太机电有限公司

Dates

Publication Date
20260505
Application Date
20260310

Claims (8)

  1. 1. The special vertical grinding equipment for producing the ceramic raw slurry material for the energy-saving building is characterized by comprising the following components: a feeding module having a coarse powder slurry output end; Grinding module comprising a vertical grinder (100), the vertical grinder (100) comprising: A grinding cylinder (101) which is integrally and vertically arranged; A slurry input end (102) which is arranged at the lower side of the grinding cylinder (101); a spiral lifting shaft (103) comprising a shaft bar (1031) with a central axis coaxial with the grinding cylinder (101), and lifting blades (1032) spirally arranged around the shaft bar (1031), the lifting blades (1032) being used for rotationally lifting slurry at the bottom of the grinding cylinder (101) to the upper side of the inside of the grinding cylinder (101); A slurry output end (104) which is arranged on the upper side of the grinding cylinder (101) and is higher than the uppermost end of the lifting blade (1032); the spiral power device is connected with the spiral lifting shaft (103) and drives the spiral lifting shaft (103) to rotate; A second slurry tank (300); The coarse powder slurry output end is connected with the slurry input end (102), and the second slurry tank (300) is connected with the slurry output end (104).
  2. 2. The energy-saving vertical grinding equipment special for producing ceramic raw slurry materials for buildings according to claim 1, wherein the upper part of the grinding cylinder (101) is closed by an upper cover plate, the side edge of the upper cover plate is provided with a grinding ball adding port (105), and the grinding ball adding port (105) is obliquely opposite to the central axis of the grinding cylinder (101).
  3. 3. The energy-saving vertical grinding equipment special for producing ceramic raw slurry materials for buildings according to claim 1, wherein the slurry output end (104) is horizontally arranged.
  4. 4. The energy-saving vertical grinding equipment special for producing ceramic raw slurry materials for buildings according to claim 1, wherein the inner side wall of the grinding cylinder (101) and the inner wall of the cylinder bottom are covered with rubber lining plates (106).
  5. 5. The energy-saving vertical grinding equipment special for producing ceramic raw slurry materials for buildings according to claim 1, wherein the vertical grinding machine (100) further comprises a first overhaul port (107) and a second overhaul port (108), the first overhaul port (107) is horizontally arranged on the side of the lower part of the grinding cylinder (101) in an axial line, the second overhaul port (108) is arranged at the slurry input end (102), and the opening of the second overhaul port (108) is inclined upwards.
  6. 6. The energy-saving vertical grinding equipment special for producing ceramic raw slurry materials for buildings according to claim 1, wherein the spiral power device comprises: a cylinder seat (200) which is vertically cylindrical as a whole and is arranged above the grinding cylinder (101); the speed reducing motor is positioned above the cylinder seat (200), and the power output end of the speed reducing motor faces downwards; the coupler assembly is arranged in the cylinder seat (200) and is used for connecting the power output end of the speed reducing motor with the upper end of the shaft rod (1031).
  7. 7. The energy-saving vertical grinding equipment special for producing ceramic raw slurry materials for buildings according to any one of claims 1 to 6, wherein a feeding module is used as an opposite front side, a second slurry tank (300) is used as an opposite rear side, the grinding module comprises more than two vertical grinding machines (100) which are sequentially connected in series from front to back, a slurry output end (104) of the front vertical grinding machine (100) is connected with a slurry input end (102) of the rear vertical grinding machine (100) through a slurry buffer tank (301), a slurry input end (102) of the vertical grinding machine (100) at the front end of the grinding module is connected with a coarse powder slurry output end, and a slurry output end (104) of the vertical grinding machine (100) at the rear end of the grinding module is connected with the second slurry tank (300).
  8. 8. The energy-saving vertical grinding equipment special for producing ceramic raw slurry materials for buildings according to claim 7, wherein the feeding module comprises a feeding machine (400), a horizontal ball mill (402) and a first slurry tank (302), the feeding machine (400) is connected with a feed inlet of the horizontal ball mill (402) through a conveying belt (401), a discharge outlet of the horizontal ball mill (402) is connected with the first slurry tank (302), and the grinding module obtains slurry from the first slurry tank (302).

Description

Special vertical grinding equipment of ceramic magma material production for energy-saving building Technical Field The invention relates to the field of special equipment for producing energy-saving building materials, in particular to special vertical grinding equipment for producing energy-saving building ceramic raw slurry materials. Background The ceramic material for construction generally needs the procedures of raw material preparation, powder preparation, molding, drying, glazing or decoration, high-temperature sintering, post-processing and the like. The preparation and pulverizing steps of the raw materials comprise preliminary crushing and impurity removal of raw materials such as kaolin, porcelain clay, feldspar and quartz, or extracting soil and stone mud blocks from a proper river soil area, crushing and impurity removal, mixing coarse powder materials prepared by the above methods into coarse powder slurry, namely slurry mixtures with different particle sizes, injecting the coarse powder slurry into a ball mill for grinding, grinding and crushing the coarse powder slurry into fine powder slurry with finer and more uniform particle sizes, namely ceramic raw slurry, and then inputting the fine powder slurry into the next molding step. The traditional ceramic raw slurry ball mill adopts a horizontal ball mill. The grinding ball is added into the cylinder, then the cylinder is sealed, the motor is used for driving the cylinder to rotate around the central axis at low speed, and the coarse powder slurry is repeatedly impacted and milled among the grinding ball, the grinding ball and the cylinder wall, so that the superfine slurry is formed. This process typically lasts more than 24 hours. The operator then stops the machine, opens the outlet of the cylinder, and leads out the ceramic raw slurry which has become superfine slurry. If the grain diameter and the fineness of the slurry do not meet the requirements, the slurry is injected into another horizontal ball mill, and the grinding operation is repeated until the output slurry is proper. However, in such a horizontal grinding mode, closed rolling and grinding are required, one batch of machines are in a state of independent operation and no longer receiving external slurry input, the grinding effect is required to be detected by leading out slurry after a single grinding period is finished, judgment is carried out by matching with experience, the effect reliability is not high, intuitiveness is not enough, and because the consumption of materials is large, one horizontal machine is rarely independently started, more horizontal grinding machines in batches and tens of horizontal grinding machines are simultaneously started for batch processing, and meanwhile, enterprises set a large number of slurry cache tanks and slurry tanks to solve the problem of storing ceramic raw slurry ground in batches. Therefore, the production system has large occupied area, low working efficiency and high overall energy consumption. Disclosure of Invention The invention aims to provide energy-saving vertical grinding equipment special for producing ceramic raw slurry materials for buildings, which solves one or more technical problems in the prior art and at least provides a beneficial selection or creation condition. In order to solve the technical problems, the invention adopts the following technical scheme: an energy-saving vertical grinding device special for producing ceramic raw slurry materials for buildings, comprising: a feeding module having a coarse powder slurry output end; a grinding module comprising a vertical grinder, the vertical grinder comprising: A grinding cylinder which is integrally and vertically arranged; the slurry input end is arranged at the lower side of the grinding cylinder; a spiral lifting shaft comprising a shaft rod with a central axis coaxial with the grinding cylinder and lifting blades spirally arranged around the shaft rod, wherein the lifting blades are used for rotationally lifting slurry at the bottom of the grinding cylinder to the upper side of the inside of the grinding cylinder; The slurry output end is arranged on the upper side of the grinding cylinder and is higher than the uppermost end of the lifting blade; The spiral power device is connected with the spiral lifting shaft and drives the spiral lifting shaft to rotate; A second slurry tank; The coarse powder slurry output end is connected with the slurry input end, and the second slurry tank is connected with the slurry output end. The coarse powder slurry grinding device has the advantages that during operation, coarse powder slurry which is primarily crushed and coarsely ground is output from the coarse powder slurry output end and is sent to the grinding module, the vertical grinding machine in the grinding module carries out vertical grinding on the coarse powder slurry, specifically, the coarse powder slurry is input into the grinding cylinder from the lower s