Two-stage continuously adjustable concentrating photo-thermal device

Abstract

The present invention relates to a two-stage continuously adjustable concentrating photo-thermal device. The device comprises a first-stage regulation module, a light source module, a concentrating module, a first-class lens barrel, a second-stage regulation module, a second-class lens barrel and a light exit module. One end of the first-stage regulation module is connected with one end of the first-class lens barrel, and the light source module is arranged in the first-stage regulation module and drives the light source module to perform axial motion in the first-stage regulation module. The concentrating module is arranged in the first-class lens barrel, the second-class lens barrel is arranged at the side wall of the first-class lens barrel, the light exit module is arranged in the second-class lens barrel, light ray reflected by the concentrating module enters the second-class lens barrel and exits from the light exit module, and the second-stage regulation module is arranged at the side wall of the second-class lens barrel and drives the light exit module to lift the motion. The two-stage continuously adjustable concentrating photo-thermal device separates the light source module from a heated object to protect the light source well and prolong the life of the light source, the first-stage regulation module and the second-stage regulation module are coordinated with each other to realize continuous regulation, and the light source energy is focused through the concentrating module to improve the light source utilization rate.

Description

technical field [0001] The invention relates to the field of concentrating light and heat, in particular to a two-stage continuously adjustable concentrating light and heat device. Background technique [0002] With the development of science and technology and the progress of modern material preparation technology, the requirements for heating temperature and heating rate are getting higher and higher. It is difficult for the traditional resistance heating furnace to meet the requirements of actual scientific research and manufacturing. [0003] In the fields of fuel combustion, gasification, pyrolysis, etc., in order to establish accurate prediction models, it is necessary to obtain particle heating rates as high as 10 during the heating process. 2 ~10 5 ℃ / s, while the temperature rise rate of traditional resistance heating devices generally does not exceed 50°C / s, which is difficult to meet the temperature rise requirements and is extremely time-consuming and energy-cons...

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Problems solved by technology

Although it meets the requirements of some production research to a certain extent, there are still some deficiencies: First, the limit temperature is limited by the heat transfer mode of the first-level direct light source, which is lower than the temperature limit of many traditional resistance furnaces, and still cannot Meet the needs of many practical applications; second, the light source and heat source are in the furnace body, which affects the service life and optical performance of the light source on the one hand, and increases the manufacturing

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