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CN-224231395-U - Stone paper raw and other materials mixes effect analytical equipment

CN224231395UCN 224231395 UCN224231395 UCN 224231395UCN-224231395-U

Abstract

The utility model discloses a stone paper raw material mixing effect analysis device which comprises a stirring tank, wherein an analyzer is arranged on the outer side of the stirring tank. According to the utility model, after stirring is completed, the external driving device drives the expansion plate to move, after the cavity is filled with the content, the signal transmitter and the signal receiver are started, signal attenuation in different areas is detected through signal transmission and signal receiving comparison, finally, the analysis result of a mixing effect is obtained, then the expansion plate is reset, the content is pushed back into the tank body, and the problems that the existing stone paper raw material powder stirring tank is insufficient in detection and analysis result of the mixing effect, and the sampling analysis is troublesome in the current tank body for the detection result of the mixing effect of different layers of materials in the current tank body are solved.

Inventors

  • XUAN HAIHAN
  • YAN QIULING
  • XUAN WEI

Assignees

  • 山东金泰恒盛新材料科技有限公司

Dates

Publication Date
20260512
Application Date
20250604

Claims (10)

  1. 1. The stone paper raw material mixing effect analysis device comprises a stirring tank (1) and is characterized in that an analyzer (2) is arranged on the outer side of the stirring tank (1); The analyzer (2) is internally provided with a transparent cover (23) which is completely transparent, the transparent cover (23) is internally provided with a telescopic plate (25) capable of moving inside and outside, and the telescopic plate (25) can push the content of the stirring tank (1) back into the stirring tank (1) or release the content into the transparent cover (23); The outside of the transparent cover (23) is oppositely provided with a signal transmitter (26) and a signal receiver (27), and signals transmitted and received between the signal transmitter (26) and the signal receiver (27) can pass through the transparent cover (23) during detection.
  2. 2. The stone paper raw material mixing effect analysis device according to claim 1, wherein the stirring tank (1) comprises a tank body (11), a fixing belt (12) is arranged outside the tank body (11), and a vibrating machine (13) is uniformly arranged outside the fixing belt (12).
  3. 3. The stone paper raw material mixing effect analysis device according to claim 2, wherein the top of the tank body (11) is provided with a flange (16) for assembling with an overhead stirring device.
  4. 4. The stone paper raw material mixing effect analysis device according to claim 2, wherein the side surface of the tank body (11) is provided with a through groove (17).
  5. 5. The stone paper raw material mixing effect analysis device according to claim 4, wherein the analyzer (2) comprises a fixing frame (21), the front end of the fixing frame (21) is fixedly installed with the outer wall of the tank body (11), a notch corresponding to the through groove (17) is formed in the inner side of the fixing frame (21), the notch corresponds to the through groove (17), a clamping groove (22) is formed in the tail end of the fixing frame (21), and the transparent cover (23) is assembled in the clamping groove (22).
  6. 6. The stone paper raw material mixing effect analysis device according to claim 5, wherein a positioning piece (24) is arranged at the tail end of the fixing frame (21), and a notch is formed at the tail end of the positioning piece (24).
  7. 7. The stone paper raw material mixing effect analysis device according to claim 5, wherein the tail end of the expansion plate (25) is welded with a fixed claw, and the fixed claw penetrates through the notch.
  8. 8. The stone paper raw material mixing effect analysis device according to claim 5, wherein a hinge joint (28) is welded at the front end of the fixing frame (21).
  9. 9. The stone paper raw material mixing effect analysis device according to claim 8, wherein a discharge opening is formed in the bottom end of the tank body (11), a bottom bin cover (18) is hinged to the front end of the hinge joint (28), a screw joint button (15) is welded around the discharge opening at the bottom of the tank body (11), threads are formed in the screw joint button (15), a connecting claw (14) is fixed to the periphery of the bottom bin cover (18), and the inside of the discharge opening can be plugged by the top end of the bottom bin cover (18).
  10. 10. The stone paper raw material mixing effect analysis device according to claim 1, wherein the travel of the inner notch of the transparent cover (23) is larger than the maximum position of the outward movement of the expansion plate (25).

Description

Stone paper raw and other materials mixes effect analytical equipment Technical Field The utility model relates to the technical field of stone paper production, in particular to a stone paper raw material mixing effect analysis device. Background The stone paper is used as a novel environment-friendly material, and is mainly formed by mixing and stirring raw materials such as calcium carbonate, polyethylene and the like and then extruding and molding. In the stone paper production process, the stirring effect is directly related to the quality and performance of the final product. Mixing and stirring of stone paper usually adopts a powder stirring tank, and the stirring equipment can uniformly mix the powder with different components. However, the existing stone paper raw material powder stirring tank still has some remarkable problems in detecting the mixing effect after stirring, especially in the aspects of material level and mixing uniformity evaluation. Currently, the detection method of the mixing effect mainly depends on the traditional mode of visual inspection of sampling or analysis by equipment after sampling. Traditional visual inspection methods rely on human experience to determine the uniformity of mixing of materials, typically by sampling at the opening of a stirred tank and observing the appearance or color distribution of the material. Although the method is simple to operate and does not need complex equipment, the detection result depends on manual judgment, the subjectivity is high, and the material distribution conditions of different levels and different positions in the stirring process cannot be accurately estimated. Because stone paper raw material stirring tank is usually big in volume, the material can have the uneven or partial regional condition of stirring inadequately of upper and lower floor's material distribution in the stirring in-process, and the visual inspection can only provide rough whole judgement, is difficult to discern local inhomogeneous mixed problem. In order to improve the accuracy of the mixing effect, a part of factories adopt a method of equipment sampling detection, and follow-up analysis is carried out by extracting a certain amount of material samples. These devices typically analyze the sample using optical, ultrasonic, or electromagnetic techniques to assess the uniformity of the material. Although this method has higher accuracy than visual inspection, there are still some problems. Firstly, sampling has limitations, and only material information of a local area can be obtained generally, so that the mixing effect of materials in the whole stirring tank can not be comprehensively reflected. Secondly, the sampling process is cumbersome, involves multiple steps including sample extraction, processing, analysis, etc., and increases the complexity and time cost of the production process. In summary, after the stirring is completed, the existing stone paper raw material powder stirring tank generally obtains the detection and analysis result of the mixing effect through visual inspection by sampling or equipment detection after sampling, so that the detection result of the sampling and analysis on the mixing effect of materials at different levels in the current tank body is not accurate enough, the sampling and detection process is troublesome, and in view of the problems, the stone paper raw material mixing effect analysis device is particularly provided. Disclosure of utility model The utility model aims to provide a stone paper raw material mixing effect analysis device for solving the problems in the background technology. In order to achieve the aim, the utility model provides the technical scheme that the stone paper raw material mixing effect analysis device comprises a stirring tank, wherein an analyzer is arranged on the outer side of the stirring tank; the inside of the analyzer is provided with a transparent cover which is completely transparent, the inside of the transparent cover is provided with a telescopic plate which can move inside and outside, and the telescopic plate can push the content of the stirring tank back to the inside of the stirring tank or release the content of the stirring tank to the inside of the transparent cover; the outside of the transparent cover is oppositely provided with a signal transmitter and a signal receiver, and signals transmitted and received between the signal transmitter and the signal receiver can pass through the transparent cover during detection. Preferably, the stirring tank comprises a tank body, a fixing belt is arranged outside the tank body, and a vibrator is uniformly arranged outside the fixing belt. Preferably, the top of the tank is equipped with a flange for assembly with an overhead stirring device. Preferably, a through groove is formed in the side surface of the tank body. Preferably, the analyzer comprises a fixing frame, the front end of the fixing frame is fixedly arranged on the