A Four-Dimensional Spatial Position Adjustable Isolated Eyeball Test Bracket Device

Abstract

The invention provides a four-dimensional spatial position-adjustable experimental in-vitro eyeball detection bracket device. The four-dimensional spatial position-adjustable experimental in-vitro eyeball detection bracket device comprises a fixed pedestal mounted on a plurality of height-adjusting pedestals and capable of adjusting the up-and-down position, and a forwardly-moving platform and a forwardly-moving adjusting handle which are mounted on the fixed pedestal and can adjust the back-and-front position, wherein a transversely-moving platform and a transversely-moving adjusting handle are mounted on the forwardly-moving platform and can adjust the left-and-right position; a turning platform and a turning adjusting handle are mounted on the transversely-moving platform and can adjust the turning angle; an eyeball holding cabin and an eyeball tray with an in-vitro eyeball are mounted on the turning platform; protector adjusting handles on the two sides of the eyeball holding cabin are adjusted to constrain the in-vitro eyeball on the eyeball tray; a liquid spraying device at the top of the eyeball holding cabin can regularly moisten the in-vitro eyeball and quantitatively spray the in-vitro eyeball, so that the in-vitro eyeball can keep a normal physical environment and a normal drug test. The four-dimensional spatial position-adjustable experimental in-vitro eyeball detection bracket device has the benefits that the experimental detection bracket device which can move and turn the four-dimensional space of the in-vitro eyeball up and down, left and right and back and front and can moisten and spray the in-vitro eyeball at any time is developed, and the difficulties that the in-vitro eyeball is difficult to store and the experimental detection is difficult are overcome.

Description

technical field

[0001] The invention relates to a four-dimensional spatial position adjustable isolated eyeball experiment detection bracket device. Background technique

[0002] In modern ophthalmology and toxicology research, human or animal isolated eyeballs are often used for in-depth research. During the research process, equipment such as slit lamps, fundus instruments, and ophthalmoscopes are needed to conduct experiments on the isolated eyeballs from different positions. Detection, especially for chemicals in the development of toxicology, often requires corresponding toxicological experiments in the identification and scientific research of eye irritation. In the past, most of the experiments were carried out with live animals, but now less and less live animal experiments are used. , pay more attention to the use of alternatives and isolated animal organs such as isolated eyeballs to conduct experiments on alternative methods such as corrosion, turbidity, permeabil...

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