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Measurement light path for transmittance and reflectance of building glass

A technology for measuring optical paths and architectural glass, applied in transmittance measurement, scattering characteristic measurement, measurement device, etc., can solve the problems of high cost, different replacement, affecting the speed of development, etc., to reduce production and maintenance costs, installation and debugging. The effect of simplifying and improving test efficiency

Pending Publication Date: 2018-11-02
南京德阳科技有限公司
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AI Technical Summary

Problems solved by technology

Since most spectrophotometers can only cover the visible light range, and there is no special transflective equipment for measuring glass samples, this greatly affects the speed of the development of this testing project in national testing units.
[0003] At present, optical testing equipment including imported equipment, when measuring the reflectivity of glass, because the detector is located on one side of the sample chamber, it cannot collect projected and reflected light at the same time. The reflective lens setting projects the test light into the detector, resulting in the need to replace different sample holders during the test, and the optical path design is complicated, the equipment production debugging and post-maintenance efficiency is low, and the cost is high

Method used

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  • Measurement light path for transmittance and reflectance of building glass
  • Measurement light path for transmittance and reflectance of building glass

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Embodiment Construction

[0014] An optical path for measuring the transmittance reflectance of architectural glass, including a glass sample holder 2 arranged in a sample chamber 1, on both sides of the glass sample holder are installed respectively a transmission entrance 3 for collecting the transmitted light of the glass sample and a A reflected light entrance 4 for collecting the reflected light of the glass sample; a rotatable transmitted light shielding sheet 31 is provided at the transmission entrance, and a rotatable reflected light shielding sheet 41 is provided at the reflected light entrance; both the transmitted light entrance and the reflected light entrance are It is connected to the detector through the optical fiber 5. The detectors include a photomultiplier tube detector 61 (test wavelength 220-900nm) and an indium gallium arsenide detector 62 (test wavelength 900-2600nm) for testing different wavelengths. The entrances of reflected light and transmitted light are connected in paralle...

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Abstract

The invention discloses a measurement light path for transmittance and reflectance of building glass. The measurement light path comprises a glass sample support arranged in a sample chamber, and a transmission inlet for collecting transmission light of a glass sample and a reflected light inlet for collecting reflected light of the glass sample are mounted on two sides of the glass sample supportrespectively; a rotatable transmission light shielding sheet is arranged at the transmission light inlet, and a rotatable reflected light shielding sheet is arranged at the reflected light inlet; thetransmission light inlet and the reflected light inlet are connected through a detector through optical fibers. The measurement light path can measure the transmittance and reflectance of glass simultaneously, the light path design is simplified, and the testing efficiency is improved.

Description

technical field [0001] The invention relates to a measuring optical path of architectural glass, in particular to a measuring optical path for transmittance and reflectance of architectural glass. Background technique [0002] In recent years, the country has continuously put forward higher requirements for energy conservation in projects. Building energy conservation has been regulated from the beginning of engineering design. Energy conservation of doors and windows is an important part of building energy conservation. The shading performance of door and window glass is tested. The shading performance of doors and windows is largely related to the shading coefficient of door and window glass. The architectural design and acceptance specifications in various regions have gradually incorporated the shading coefficient of glass into the design and acceptance indicators. The determination of the shading coefficient of glass is mainly by measuring the transmission and reflecti...

Claims

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Application Information

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IPC IPC(8): G01N21/59G01N21/55G01N21/01
CPCG01N21/01G01N21/55G01N21/59G01N2021/0112
Inventor 陈松
Owner 南京德阳科技有限公司
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