Cytology compound effect simulation system based on automatic control

Abstract

The present invention relates to a cytology compound effect simulation system based on automatic control. The cytology compound effect simulation system based on the automatic control comprises a submagnetic experiment component, a control component, a low gravity experiment component, an outer shell, a cell culture environment control component and a control system; the submagnetic experiment component, control component and low gravity experiment component are arranged in the outer shell; the submagnetic experiment component is used to establish the submagnetic environment that meets the experiment requirements; the control component is used to establish the experiment environment; the low gravity experiment component is used to drive the submagnetic experiment component to rotate according to the experiment requirements to simulate the low gravity environment required by experiments; the cell culture environment control component is used to establish temperature and CO2 concentration conditions required for the cell experiments in a cell experiment area; and the control system is used to regulate the cell culture environment control component and the low gravity experiment component to work according to the experimental requirements. The cytology compound effect simulation system can establish the low-gravity and submagnetic compound environment with different levels, also realize the automatic control of the cell culture environment, and support the ground to carry out research on the cytology effect of the spatial low gravity and submagnetic compound environment.

Description

technical field [0001] The invention belongs to the technical field of cell biology, and in particular relates to an automatic control-based cytological compound effect simulation system. Background technique [0002] With the continuous deepening of space exploration, the cytological effects of space environment, especially the cytological compound effects of space environment have attracted more and more attention. However, due to the lack of opportunities for space real-time flight experiments and the extremely limited resource conditions of the experiments, it is necessary to carry out simulation research on related space composite effects on the ground to explore the mysteries of space and accumulate space knowledge for related disciplines. [0003] Carrying out research on cellular compound effects related to the space environment on the ground requires necessary simulation equipment as a support, but there is no research platform for cytological effects with complete ...

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Problems solved by technology

[0005] 1) The above-mentioned existing equipment cannot realize the different levels of low-gravity environment required by relevant space environment medical research

[0006] 2) Using the experimental mode of the above-mentioned independent equipment, it is impossible to effectively carry out experiments on the effects of low gravity environment and submagnetic environment simultaneously, which limits the research on the combined effects of low gravity and submagnetic environment on the ground.

[0007] 3) The above-mentioned existing equipment does not have an integrated cell culture environment automatic control system, and cannot independently maintain the conditions required for cell culture experiments, which restricts the long-term development of related experiments

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