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CN-122016256-A - Atmosphere lamp detecting system

CN122016256ACN 122016256 ACN122016256 ACN 122016256ACN-122016256-A

Abstract

The invention discloses an atmosphere lamp detection system which comprises a test base, a detection mechanism and a fixing mechanism, wherein the detection mechanism comprises a triaxial moving device, a plurality of spectrometers and a plurality of lighting angle adjusting mechanisms, the lighting angle adjusting mechanisms are arranged on the triaxial moving device, the spectrometers are arranged on the lighting angle adjusting mechanisms, the lighting angle adjusting mechanisms comprise a connecting base, a first driving cylinder and a mounting rod, the mounting rod is hinged with the output end of the first driving cylinder, the mounting rod is rotatably connected with the connecting base and fixedly connected with the spectrometers, and the mounting rod is driven by the first driving cylinder to swing so as to independently adjust the lighting angle of the spectrometers. According to the invention, the lighting angle adjusting mechanism is arranged, and the lighting angle adjusting mechanism adjusts the angle of the spectrometer so as to adapt to the light emitting angle of the atmosphere lamp and the contour trend of the atmosphere lamp, and the spectrometer and the atmosphere lamp are accurately adapted, so that the spectrometer can acquire more complete and accurate spectrum data.

Inventors

  • ZHU SIBIN
  • SU JIANWEN

Assignees

  • 广州安通林灯具有限公司

Dates

Publication Date
20260512
Application Date
20260312

Claims (10)

  1. 1. The atmosphere lamp detection system is characterized by comprising a test base, a detection mechanism and a fixing mechanism; the fixing mechanism is arranged on the test base and comprises a rotary table and a plurality of detection tools arranged on the rotary table, and the rotary table rotates to enable the detection tools to rotate to the position below the detection mechanism one by one; the detection mechanism comprises a triaxial moving device, a plurality of spectrometers and a plurality of lighting angle adjusting mechanisms, wherein the lighting angle adjusting mechanisms are arranged on the triaxial moving device, one spectrometer is arranged on one lighting angle adjusting mechanism, and the lighting positions of the spectrometers are simultaneously adjusted or sequentially adjusted above the fixing mechanism under the driving of the triaxial moving device; The lighting angle adjusting mechanism comprises a connecting seat, a first driving cylinder and a mounting rod, wherein one end of the mounting rod is hinged with the output end of the first driving cylinder, the middle area of the mounting rod is rotationally connected with the connecting seat, and the other end of the mounting rod is fixedly connected with the spectrometer; The installation rod is driven by the first driving cylinder to swing by taking the connection part of the installation rod and the connecting seat as the circle center, so as to autonomously adjust the lighting angle of the spectrometer attaching to the atmosphere lamp trend.
  2. 2. The atmosphere lamp detection system according to claim 1, wherein an angle stopper is provided at one side of the connection base, the angle stopper includes a first sub-board and a second sub-board, and the first sub-board and the second sub-board are connected to each other to form an obtuse angle; the first fixing pin is inserted on the first sub-board, and the second fixing pin is inserted on the second sub-board.
  3. 3. The atmosphere lamp detection system according to claim 1, wherein the three-axis moving means includes a plurality of Z-axis moving portions, a plurality of Y-axis moving portions, and an X-axis moving portion, a plurality of the Y-axis moving portions being movably mounted on the X-axis moving portion, one of the Z-axis moving portions being movably mounted on one of the Y-axis moving portions, a plurality of the Y-axis moving portions being moved closer to or farther from each other along the X-axis moving portion; the spectrometer is installed on the Z-axis moving part based on the lighting angle adjusting mechanism.
  4. 4. The ambient light detection system of claim 3, wherein the X-axis moving section comprises a mounting frame, a plurality of moving rails arranged in parallel, and a plurality of first driving assemblies; The plurality of first driving components are arranged on the same side of the plurality of moving guide rails, and the first driving components are arranged in parallel with the moving guide rails; The top of any one of the first driving components is provided with a first sliding block, a plurality of Y-axis moving parts are arranged on the moving guide rail, and one first sliding block is fixedly connected with one Y-axis moving part; The first sliding block is driven by the first driving assembly to move along the length direction of the first driving assembly, and the Y-axis moving part is driven to move along the moving guide rail.
  5. 5. The ambient light detection system of claim 4, wherein any one of the Y-axis moving parts comprises a moving base and a second driving assembly provided on the moving base; One side of the movable base is fixedly connected with the first sliding block, and the bottom of the movable base is movably connected with the movable guide rail based on a connecting block; The top of the second driving assembly is provided with a second sliding block which is fixedly connected with one Z-axis moving part; the second slider is driven to move along the length direction of the second driving assembly by the second driving assembly, and the Z-axis moving part is driven to move.
  6. 6. The ambient light detection system of claim 5, wherein any one of the Z-axis moving portions includes a stationary base and a third drive assembly disposed on the stationary base; The third driving assembly is provided with a third sliding block, and the third sliding block is driven by the third driving assembly to move along the height direction of the third driving assembly; The lighting angle adjusting mechanism is fixed on the third sliding block, and is driven by the third sliding block to move along the height direction of the third driving assembly.
  7. 7. The atmosphere lamp detection system according to claim 1, wherein a plurality of detection tools are arranged on the turntable, each detection tool is detachably mounted on the turntable, and an isolation mechanism is arranged between two adjacent detection tools; The detection tool comprises a tool base, a tool clamp and a plurality of clamping mechanisms arranged on the tool base, wherein the clamping mechanisms are distributed around the tool clamp.
  8. 8. The atmosphere lamp detection system according to claim 7, wherein the isolation mechanism comprises an isolation base and an isolation plate, one end of the isolation base is fixedly connected with the output end of the rotating motor, and the isolation plate is mounted on the isolation base.
  9. 9. The atmosphere lamp detection system according to claim 1, wherein a rotary motor is provided at the bottom of the turntable, an output end of the rotary motor passes through the center of the turntable, and the turntable is driven by the rotary motor to rotate to switch the detection tool.
  10. 10. The atmosphere lamp detection system of claim 1, wherein a plurality of trapezoidal bosses are provided at the bottom of the turntable, and a plurality of the trapezoidal bosses are abutted with a plurality of support bars provided at the test base.

Description

Atmosphere lamp detecting system Technical Field The invention relates to the technical field of atmosphere lamp detection, in particular to an atmosphere lamp detection system. Background In the production and research and development processes of an atmosphere lamp, accurate detection of the optical performance of the atmosphere lamp is an important link. At present, when a common atmosphere lamp detection system detects spectrum data, the problem of insufficient detection precision often exists. Most of the existing detection systems adopt a spectrometer with a fixed installation mode, and the position and the angle of the spectrometer are preset and cannot be flexibly adjusted. Because the spectrometer angle is fixed, can't carry out the adaptation according to the actual angle of light emergence of atmosphere lamp and contour trend and adjust, lead to in the testing process, the spectrometer can not reach best matching state with the light that the atmosphere lamp sent. And partial light rays can not enter the lighting window due to angle deviation, so that spectrum data acquisition is incomplete, and the accuracy of the data is affected. Disclosure of Invention The invention aims to overcome the defects of the prior art, and provides an atmosphere lamp detection system, wherein the lighting angle adjusting mechanism is arranged to adjust the angle of a spectrometer so as to adapt to the light emitting angle of an atmosphere lamp to the contour trend of the atmosphere lamp, so that the lighting window of the spectrometer and the light rays emitted by the atmosphere lamp are accurately adapted to achieve the optimal matching state, and the spectrometer can acquire more complete and accurate spectrum data. The invention provides an atmosphere lamp detection system, which comprises a test base, a detection mechanism and a fixing mechanism, wherein the test base is provided with a first detection mechanism and a second detection mechanism; the fixing mechanism is arranged on the test base and comprises a rotary table and a plurality of detection tools arranged on the rotary table, and the rotary table rotates to enable the detection tools to rotate to the position below the detection mechanism one by one; the detection mechanism comprises a triaxial moving device, a plurality of spectrometers and a plurality of lighting angle adjusting mechanisms, wherein the lighting angle adjusting mechanisms are arranged on the triaxial moving device, one spectrometer is arranged on one lighting angle adjusting mechanism, and the lighting positions of the spectrometers are simultaneously adjusted or sequentially adjusted above the fixing mechanism under the driving of the triaxial moving device; The lighting angle adjusting mechanism comprises a connecting seat, a first driving cylinder and a mounting rod, wherein one end of the mounting rod is hinged with the output end of the first driving cylinder, the middle area of the mounting rod is rotationally connected with the connecting seat, and the other end of the mounting rod is fixedly connected with the spectrometer; The installation rod is driven by the first driving cylinder to swing by taking the connection part of the installation rod and the connecting seat as the circle center, so as to autonomously adjust the lighting angle of the spectrometer attaching to the atmosphere lamp trend. Preferably, an angle limiting block is arranged on one side of the connecting seat, the angle limiting block comprises a first sub-board and a second sub-board, and the first sub-board and the second sub-board are connected with each other to form an obtuse angle; the first fixing pin is inserted on the first sub-board, and the second fixing pin is inserted on the second sub-board. Preferably, the three-axis moving device comprises a plurality of Z-axis moving parts, a plurality of Y-axis moving parts and an X-axis moving part, wherein the plurality of Y-axis moving parts are movably mounted on the X-axis moving part, one of the Z-axis moving parts is movably mounted on one of the Y-axis moving parts, and the plurality of Y-axis moving parts are mutually close to or far from each other along the X-axis moving part; the spectrometer is installed on the Z-axis moving part based on the lighting angle adjusting mechanism. Preferably, the X-axis moving part comprises a mounting frame, a plurality of moving guide rails arranged in parallel and a plurality of first driving components; The plurality of first driving components are arranged on the same side of the plurality of moving guide rails, and the first driving components are arranged in parallel with the moving guide rails; The top of any one of the first driving components is provided with a first sliding block, a plurality of Y-axis moving parts are arranged on the moving guide rail, and one first sliding block is fixedly connected with one Y-axis moving part; The first sliding block is driven by the first driving assembly to move a