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CN-224231612-U - Integrated spectrum development wolfberry polysaccharide detection platform

CN224231612UCN 224231612 UCN224231612 UCN 224231612UCN-224231612-U

Abstract

The utility model discloses an integrated spectrum developing wolfberry polysaccharide detection platform which comprises a first support frame arranged on two sides of a detection platform, a second slide rail arranged on the first slide rail in a sliding manner, a second moving module arranged on the first slide rail in a sliding manner, a second spectrometer arranged on the first moving seat and a developing device, wherein the second spectrometer is connected with a data processing unit, an analysis program is arranged in the data processing unit, the data processing unit is connected with a control module, the control module is connected with the developing device, the second spectrometer is connected with a light source adjusting circuit, and the multifunctional spectrum developing platform not only can perform high-efficiency spectrum analysis on wolfberry polysaccharide, but also can perform real-time feedback on the developing characteristics of a sample.

Inventors

  • YUAN WENTAO
  • Mu Zijun

Assignees

  • 振兴永(宁夏)科技有限公司

Dates

Publication Date
20260512
Application Date
20250422

Claims (8)

  1. 1. The integrated spectrum developing wolfberry polysaccharide detection platform comprises a first support frame (1) and a first slide rail (2), wherein the first support frame (1) and the second slide rail (2) are respectively arranged on two sides of a detection platform, two ends of the first slide rail are respectively and vertically connected with two side parts of the first support frame (1), the integrated spectrum developing wolfberry polysaccharide detection platform is characterized in that a second moving module is arranged on the first slide rail (2) in a sliding mode, the second moving module comprises a first moving seat (3) arranged on the first slide rail (2) in a sliding mode, a second spectrometer (4) and a developing device (5) arranged on the first moving seat (3), the second spectrometer (4) is connected with a data processing unit (6), an analysis program is arranged in the data processing unit (6), the data processing unit (6) is connected with a control module (7), the control module (7) is connected with the developing device (5), and the second spectrometer (4) is connected with a light source adjusting circuit (8).
  2. 2. The integrated spectrum development matrimony vine polysaccharide testing platform according to claim 1, wherein the first movable seat (3) comprises a second base plate (31) horizontally arranged, a second driving wheel (32) arranged at the side end of the second base plate (31), a plurality of second support posts (33) arranged on the upper end face of the second base plate (31), a second radiating plate (34) horizontally arranged at the top ends of the second support posts (33), and third radiating plates (35) vertically arranged at the two ends of the second radiating plate (34), wherein the third radiating plate (35) is arranged between the two first sliding rails (2), and the second driving wheel (32) is arranged on the first sliding rails (2).
  3. 3. The integrated spectrum developing wolfberry polysaccharide detection platform according to claim 1 is characterized by further comprising a second support frame (9) which is respectively arranged on two sides of the detection platform, a second slide rail (10) with two ends which are respectively and vertically connected with the side parts of the two support frames (9), and a first moving module (11) which is arranged on the second slide rail (10), wherein a signal acquisition system is arranged on the first moving module (11), the signal acquisition system is connected with the data processing unit (6) or the developing device (5), and the distance between the first support frame (1) and the second support frame (9) is larger than 150 cm.
  4. 4. The integrated spectrum developing matrimony vine polysaccharide detection platform according to claim 3, wherein the signal acquisition system comprises a sample scanning device (111) arranged on the first moving module (11), the sample scanning device (111) is connected with the developing device (5) through the control module (7), and the sample scanning device (111) is connected with the control module (7) through a wire.
  5. 5. The integrated spectrum developing wolfberry polysaccharide detection platform according to claim 4, wherein the signal acquisition system further comprises a first camera (112) and a wireless transmission module (113), wherein the first camera (112) is arranged on the first mobile module (11), the first camera is connected with the wireless transmission module (113), the wireless transmission module (113) transmits wireless signals to a wireless receiving module (12), the wireless receiving module (12) is arranged on the second mobile module, and the wireless receiving module (12) is connected with the data processing unit (6).
  6. 6. The integrated spectrum developing matrimony vine polysaccharide detection platform according to claim 1, wherein the light source adjusting circuit (8) is used for adjusting light source intensity and wavelength to optimize spectrum analysis effect.
  7. 7. The integrated spectrum developing medlar polysaccharide detection platform according to claim 3, wherein the first moving module (11) comprises a horizontal plate, a power wheel, a vertical column and a mounting plate, the horizontal plate is arranged at the bottom end of the horizontal plate, the vertical column is vertically arranged at the upper end face of the horizontal plate, the mounting plate is horizontally arranged at the top end of the vertical column, and the power wheel is movably arranged on the second sliding rail (10).
  8. 8. The integrated spectrum developing matrimony vine polysaccharide detection platform according to claim 5, wherein the analysis program in the data processing unit (6) compares the received image data with the standard spectrum data input in advance, and controls the control module (7) to adjust the motion of the driving wheel II (32) and the developing device (5) to work according to the comparison result.

Description

Integrated spectrum development wolfberry polysaccharide detection platform Technical Field The utility model belongs to the technical field of spectrum detection, and particularly relates to an integrated spectrum developing wolfberry polysaccharide detection platform. Background In the field of modern food and traditional Chinese medicine detection, efficient and accurate detection of active ingredients is a key for ensuring product quality and safety. The wolfberry polysaccharide as the main active component has antioxidant, immunoregulating and antiaging functions and is significant in the research and development of wolfberry detecting process. Currently, the detection method of the lycium barbarum polysaccharide mainly comprises High Performance Liquid Chromatography (HPLC), ultraviolet-visible spectroscopy (UV-Vis), infrared spectroscopy (IR) and the like. However, these methods generally have problems of complex operation, long time consumption, high cost, high equipment requirements and the like, and limit the popularization and promotion of the methods in practical application. In addition, the existing detection method generally needs a plurality of steps and equipment, is difficult to realize integration and rapid detection, and influences detection efficiency and accuracy. Therefore, the integrated medlar polysaccharide detection platform which is simple and convenient to operate, quick and accurate is developed, and the medlar polysaccharide detection platform has important practical significance and application prospect Disclosure of utility model The utility model aims to provide an integrated spectrum developing wolfberry polysaccharide detection platform, which solves the technical problems that wolfberry polysaccharide detection efficiency is low, operation is complex and quick and accurate analysis is difficult to realize in the prior art, and has the technical effects of high efficiency, convenience and accuracy. The integrated spectrum development wolfberry polysaccharide detection platform comprises a first support frame and a second slide rail, wherein the first support frame and the second slide rail are respectively arranged on two sides of a detection platform, two ends of the first slide rail are respectively and vertically connected with two side parts of the first support frame, a second moving module is arranged on the first slide rail in a sliding mode, the second moving module comprises a first moving seat arranged on the first slide rail in a sliding mode, a second spectrometer and a developing device are arranged on the first moving seat, the second spectrometer is connected with a data processing unit, an analysis program is arranged in the data processing unit, the data processing unit is connected with a control module, the control module is connected with the developing device, and the second spectrometer is connected with a light source adjusting circuit. The movable seat I comprises a bottom plate II horizontally arranged, a driving wheel II arranged at the side end of the bottom plate II, a plurality of support posts II arranged at the upper end face of the bottom plate II, a plurality of radiating plates II horizontally arranged at the top ends of the support posts II, and radiating plates III respectively vertically arranged at the two ends of the radiating plates II, wherein the radiating plates III are arranged between the two slide rails I, and the driving wheel II is arranged on the slide rails I. The device comprises a detection platform, a first support frame, a second slide rail and a first moving module, wherein the first support frame is respectively arranged on two sides of the detection platform, the two ends of the second slide rail are respectively and vertically connected with two side parts of the second support frame, the first moving module is arranged on the second slide rail, a signal acquisition system is arranged on the first moving module, and the signal acquisition system is connected with the data processing unit or the developing device; The distance between the first support frame and the second support frame is larger than 150 cm. The first moving module comprises a horizontal plate, a power wheel, a stand column and a mounting plate, wherein the horizontal plate is horizontally arranged, the power wheel is arranged at the bottom end of the horizontal plate, the stand column is vertically arranged on the upper end face of the horizontal plate, the mounting plate is horizontally arranged at the top end of the stand column, and the power wheel is movably arranged on the second sliding rail; The signal acquisition system comprises a sample scanning device arranged on the first moving module, the sample scanning device is connected with the developing device through the control module, and the sample scanning device is connected with the control module through a wire. The signal acquisition system further comprises a first camera and a wirel