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CN-224231411-U - Titanium white powder hydrolysis sampling detection device

CN224231411UCN 224231411 UCN224231411 UCN 224231411UCN-224231411-U

Abstract

The utility model discloses a titanium white hydrolysis sampling detection device which comprises a bottom plate and a power supply, wherein a protective box is arranged on the upper surface of the bottom plate, a sealing cover plate is clamped on the upper surface of the protective box, a stirring mechanism is arranged in the sealing cover plate and comprises a through hole, a gear motor is arranged on the upper surface of the sealing cover plate, an acid-resistant alloy stirring shaft is arranged at the output end of the gear motor, an acid-resistant alloy stirring paddle which is symmetrical is fixedly connected with the bottom end of the acid-resistant alloy stirring shaft, a heating seat is arranged on the inner wall of the protective box, a detection cup is arranged on the upper surface of the heating seat, and a sealing ring is fixedly connected with the bottom surface of the sealing cover plate. The pH value that this device utilized the PH sensor to the titanium white powder after the hydrolysis detects, utilizes turbidity sensor to detect the solid content after the titanium white powder hydrolysis, can heat the titanium white powder hydrolysis through the heating seat, improves the detection efficiency to the titanium white powder hydrolysis.

Inventors

  • FANG SHUPO
  • LI YINGWEI
  • LI BENXIAN
  • FANG ZHEN
  • ZHANG JIE
  • CHU FUJIAN

Assignees

  • 富民龙腾钛业有限责任公司

Dates

Publication Date
20260512
Application Date
20250527

Claims (6)

  1. 1. The titanium white hydrolysis sampling detection device is characterized by comprising a bottom plate (1) and a power supply (11), wherein a protective box (3) is arranged on the upper surface of the bottom plate (1), a sealing cover plate (8) is clamped on the upper surface of the protective box (3), a stirring mechanism (2) is arranged in the sealing cover plate (8), the stirring mechanism (2) comprises a through hole (201), a gear motor (202) is arranged on the upper surface of the sealing cover plate (8), an acid-resistant alloy stirring shaft (203) is arranged at the output end of the gear motor (202), an acid-resistant alloy stirring paddle (204) which is symmetrical is fixedly connected with the bottom end of the acid-resistant alloy stirring shaft (203), a heating seat (4) is arranged on the inner wall of the protective box (3), a detection cup (7) is arranged on the upper surface of the heating seat (4), a sealing ring (12) is fixedly connected to the bottom surface of the sealing cover plate (8), and a PH sensor (9) and a turbidity sensor (10) are arranged on the bottom surface of the sealing cover plate (8).
  2. 2. The titanium white hydrolysis sampling detection device according to claim 1, wherein a safety door (13) is arranged on the front face of the protective box (3), and a safety lock (14) is arranged on the outer surface of the safety door (13).
  3. 3. The titanium white hydrolysis sampling detection device according to claim 2, wherein a controller (15) is arranged on the front face of the safety door (13), and a display screen (16) is arranged on the front face of the controller (15).
  4. 4. The titanium white hydrolysis sampling detection device according to claim 1, wherein symmetrical observation grooves (19) are formed in the outer surface of the protective box (3), transparent observation plates (20) are arranged on the inner walls of the two observation grooves (19), four supporting legs (17) are fixedly connected to the bottom surface of the bottom plate (1), and an anti-slip base (18) is arranged at the bottom end of each supporting leg (17).
  5. 5. The titanium white hydrolysis sampling detection device according to claim 2, wherein the power supply (11) is connected with the controller (15) through a wire, and the controller (15) is respectively connected with the PH sensor (9) and the turbidity sensor (10) through wires.
  6. 6. The titanium white hydrolysis sampling detection device according to claim 5, wherein the controller (15) is connected with the data storage device (6) through a wire, the controller (15) is connected with the gear motor (202) through a wire, the controller (15) is connected with the display screen (16) through a wire, and the power supply (11) is connected with the protection wire (5) through a wire.

Description

Titanium white powder hydrolysis sampling detection device Technical Field The utility model relates to the field of titanium dioxide detection, in particular to a titanium dioxide hydrolysis sampling detection device. Background Titanium dioxide is an important inorganic chemical product, has important application in the industries of paint, printing ink, paper making, plastic rubber, chemical fiber, ceramic and the like, and is white pigment with main component of titanium dioxide, the chemical name is titanium dioxide, the molecular formula is TiO2, which is a polycrystalline compound, the particles of which are regularly arranged, and has a lattice structure, the relative density of the titanium dioxide is minimum, and the production process of the titanium dioxide has two process routes of sulfuric acid method and chloridizing method. At present, titanium white powder hydrolysis sampling detection device needs the staff to stir, but the hydrolysate has strong corrosiveness, and the protectiveness is not enough, and is inconvenient moreover to carry out the heating hydrolysis to titanium white powder, reduces the hydrolytic detection efficiency to titanium white powder, and for this reason, we provide a titanium white powder hydrolysis sampling detection device and solve above-mentioned problem. Disclosure of utility model The utility model aims to provide a titanium dioxide hydrolysis sampling detection device, which aims to solve the problems in the background technology. In order to achieve the above purpose, the present utility model provides the following technical solutions: The utility model provides a titanium white powder hydrolysis sampling detection device, includes bottom plate and power, the last surface mounting of bottom plate has the protective housing, the upper surface joint of protective housing has sealed apron, sealed apron's inside is equipped with rabbling mechanism, rabbling mechanism includes the through-hole, sealed apron's last surface mounting has gear motor, acid-resistant alloy (mixing) shaft is installed to gear motor's output, acid-resistant alloy (mixing) shaft's bottom fixedly connected with symmetrical acid-resistant alloy stirring rake, the heating seat is installed to the inner wall of protective housing, the measuring cup has been placed to the upper surface of heating seat, sealed apron's bottom surface fixedly connected with sealing ring, PH sensor and turbidity sensor are installed to sealed apron's bottom surface. In a further embodiment, a safety door is arranged on the front face of the protective box, and a safety lock is arranged on the outer surface of the safety door. In a further embodiment, a controller is mounted on the front face of the safety door, and a display screen is arranged on the front face of the controller. In a further embodiment, symmetrical observation grooves are formed in the outer surface of the protective box, transparent observation plates are mounted on the inner walls of the two observation grooves, four supporting legs are fixedly connected to the bottom surface of the bottom plate, and an anti-slip base is mounted at the bottom ends of the supporting legs. In a further embodiment, the power supply is connected to a controller via wires, the controller being connected to a PH sensor and a turbidity sensor, respectively, via wires. In a further embodiment, the controller is connected with the data storage through a wire, the controller is connected with the gear motor through a wire, the controller is connected with the display screen through a wire, and the power supply is connected with the protection wire through a wire. Compared with the prior art, the utility model has the beneficial effects that: This device utilizes gear motor, acid-resistant alloy (mixing) shaft and acid-resistant alloy stirring rake's cooperation, can stir the titanium white powder, utilizes the PH sensor to detect the pH valve after the titanium white powder hydrolysis, utilizes turbidity sensor to detect the solid content after the titanium white powder hydrolysis, can heat the titanium white powder hydrolysis through the heating seat, can record detection data through the data storage ware, makes things convenient for the staff later stage to look over, improves the detection efficiency to the titanium white powder hydrolysis. Drawings Fig. 1 is a schematic diagram of a three-dimensional structure of a titanium white hydrolysis sampling detection device. FIG. 2 is a front cross-sectional view of a protective housing in a titanium white hydrolysis sampling detection device. Fig. 3 is a top view of the protective box in the titanium white hydrolysis sampling detection device. Fig. 4 is a system diagram of the titanium pigment hydrolysis sampling detection device. In the figure, 1, a bottom plate; 2, a stirring mechanism, 201, a through hole, 202, a gear motor, 203, an acid-resistant alloy stirring shaft, 204, an acid-resistant alloy stirring paddle, 3, a