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CN-224231613-U - Analyzer for tracking quality of catalyst tablet potassium in fluazinam production process

CN224231613UCN 224231613 UCN224231613 UCN 224231613UCN-224231613-U

Abstract

The utility model belongs to the technical field of catalyst tablet potassium quality tracking in a fluazinam production process, and discloses an analyzer for catalyst tablet potassium quality tracking in the fluazinam production process, which comprises a base and a fluazinam reaction container, wherein the fluazinam reaction container is arranged on one side of the upper end surface of the base, one side of the fluazinam reaction container is connected with a tracking analyzer, and the tracking analyzer mainly comprises a sample injection system, an analysis detection system, a data processing and display system and a control system. The device accurately tracks the quality change of the catalyst tablet potassium in the reaction process in real time, and has important significance for optimizing the production process, improving the product quality and reducing the production cost.

Inventors

  • XU JIANPING
  • GU WEIWEN

Assignees

  • 吴忠领航生物药业科技有限公司

Dates

Publication Date
20260512
Application Date
20250428

Claims (5)

  1. 1. The analyzer for tracking the quality of catalyst tablet potassium in the fluazinam production process comprises a base (1) and a fluazinam reaction container (2) and is characterized in that the fluazinam reaction container (2) is installed on one side of the upper end face of the base (1), a tracking analyzer (3) is connected to one side of the fluazinam reaction container (2), and the tracking analyzer (3) mainly comprises a sample injection system, an analysis and detection system, a data processing and display system and a control system.
  2. 2. The analyzer for tracking the quality of catalyst tablet potassium in the production process of fluazinam according to claim 1, wherein the sample injection system comprises a sample injection tube I (4) and a sample injection pump (5), one end of the sample injection tube I (4) extends into the fluazinam reaction vessel (2), and the sample injection pump (5) is connected with the other end of the sample injection tube I (4).
  3. 3. The analyzer of claim 2, wherein the analysis and detection system comprises a spectrum analyzer (11) and an electrochemical analyzer (12), one side of the sample injection pump (5) is connected with a sample injection tube II (6), the other end of the sample injection tube II (6) is connected with the spectrum analyzer (11), one side of the sample injection tube II (6) is connected with a sample injection tube III (7), and the other end of the sample injection tube III (7) is connected with the electrochemical analyzer (12).
  4. 4. The analyzer for tracking the quality of catalyst sheet potassium in the production process of fluazinam according to claim 3, wherein the data processing and displaying system comprises a microprocessor (8) and a display screen (9), the microprocessor (8) is electrically connected with a spectrum analyzer (11) and an electrochemical analyzer (12), and the microprocessor (8) is electrically connected with the display screen (9).
  5. 5. The analyzer for tracking the quality of catalyst sheet potassium in the production process of fluazinam according to claim 4, wherein the control system comprises a controller (10), and the controller (10) is electrically connected with the sample injection pump (5), the spectrum analyzer (11) and the electrochemical analyzer (12).

Description

Analyzer for tracking quality of catalyst tablet potassium in fluazinam production process Technical Field The utility model belongs to the technical field of catalyst tablet potassium quality tracking in the fluazinam production process, and particularly relates to an analyzer for catalyst tablet potassium quality tracking in the fluazinam production process. Background The fluazinam is an important fine chemical product, has wide application prospect in a plurality of fields such as medicines, pesticides and the like, and is important for improving the reaction efficiency and the product quality in the production process of the fluazinam. At present, an analytical instrument special for tracking the quality of catalyst tablets in the fluazinam production process is lacking in the market, most of the existing analytical methods are complex in operation and long in time consumption, on-line real-time monitoring cannot be realized, and the requirement of industrial production is difficult to meet. Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to provide an analyzer for tracking the quality of potassium catalyst tablets during the production of fluazinam, which is more practical. Disclosure of utility model In order to solve the technical problems, the utility model provides an analyzer for tracking the quality of catalyst tablet potassium in the fluazinam production process, which is realized by the following specific technical means: The analyzer for tracking the quality of catalyst tablet potassium in the fluazinam production process comprises a base and a fluazinam reaction container, wherein the fluazinam reaction container is installed on one side of the upper end face of the base, one side of the fluazinam reaction container is connected with a tracking analyzer, and the tracking analyzer mainly comprises a sample injection system, an analysis detection system, a data processing and display system and a control system. Furthermore, the sample injection system comprises a sample injection pipe I and a sample injection pump, wherein one end of the sample injection pipe I extends into the fluazinam reaction container, and the sample injection pump is connected with the other end of the sample injection pipe I. Further, the analysis and detection system is composed of a spectrum analyzer and an electrochemical analyzer, one side of the sample injection pump is connected with a sample injection pipe II, the other end of the sample injection pipe II is connected with the spectrum analyzer, one side of the sample injection pipe II is connected with a sample injection pipe III, and the other end of the sample injection pipe III is connected with the electrochemical analyzer. Further, the data processing and displaying system comprises a microprocessor and a display screen, wherein the microprocessor is electrically connected with the spectrum analyzer and the electrochemical analyzer, and the microprocessor is electrically connected with the display screen. Further, the control system comprises a controller, and the controller is electrically connected with the sample injection pump, the spectrum analyzer and the electrochemical analyzer. Compared with the prior art, the utility model has the following beneficial effects: The spectrum analyzer utilizes a light source to emit light with specific wavelength to irradiate a reaction liquid sample, the spectrum analyzer receives and analyzes reflected or transmitted light signals, so that relevant information of catalyst potassium is obtained, an electrochemical analysis system is formed by the electrochemical analyzer through a working electrode, a reference electrode and a counter electrode, and the mass concentration of the catalyst potassium is further determined through measuring the current change between the working electrode and the reference electrode. Drawings Fig. 1 is a schematic perspective view of the present utility model. Fig. 2 is a schematic diagram of the main operation flow of the present utility model. In the figure, the correspondence between the component names and the drawing numbers is: 1. The system comprises a base, a fluazinam reaction container, a tracking analyzer, a sample injection pipe I, a sample injection pump I, a sample injection pipe II, a sample injection pipe 7, a sample injection pipe III, a microprocessor, a display screen 9, a controller 10, a spectrum analyzer 11, a spectrum analyzer 12 and an electrochemical analyzer. Detailed Description Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model. In the description of the present utility model, unless otherwise indicated, the meaning of "plurality" is two or more, and the terms "upper", "lower", "le