Bronchial body position drainage method
A postural drainage and bronchial technology, which is applied in the field of medical school and clinical teaching instruments, can solve the problems of inability to dynamically observe the drainage process and poor drainage effect, and achieve the effects of good drainage effect, enhanced realism, and convenient posture adjustment.
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Embodiment 1
[0042] A model of bronchial postural drainage, which is used to simulate and demonstrate the process of tracheal postural drainage to students and patients. It includes a lung model 3. A trachea 2 is arranged inside the lung model 3. The trachea 2 includes a main trachea 21 and a plurality of bronchi 22 connected to the main trachea 21. The bronchi 22 can further branch into multiple groups of trachea. In order to facilitate observation of the drainage process, both the lung model 3 and the trachea 2 can be made of transparent materials. The bottom of the lung model 3 is connected with a ball joint structure 5 through the rod body, and the ball joint structure 5 is connected to the base 6 through the rod body; one set of ball joint structures 5 can also be set up, and multiple sets can be set up. If multiple sets are set up, it can be used in a larger space Adjust and rotate the lung model 3 within the range to achieve better drainage.
[0043] The purulent sputum model 4 is ...
Embodiment 2
[0047] On the basis of the first embodiment, the tube wall 221 and the stopper 222 of the trachea 2 are adjusted. That is, on the tube wall 221 of the trachea 2, a plurality of limit adsorption areas 223 are distributed along the direction of the trachea 2, and the pus and sputum model 4 is a simulated ball 225, which can be adsorbed and closely attached to the limit adsorption area 223.
[0048] Both the limiting adsorption area 223 and the simulated ball 225 can be set as magnets, and the magnetic properties of the two are opposite. When the simulated ball 225 moves to the limit adsorption area 223, the simulated ball 225 will be adsorbed and adhered to the limit adsorption area 223 under the action of magnetic force; Detach from the limit adsorption area 223 to realize expectoration.
Embodiment 3
[0050] On the basis of Embodiment 2, the limit adsorption area 223 and the simulation ball 225 are no longer set to be magnetic, but the limit adsorption area is set to be ferrous, and the simulation ball 225 is set to be magnetic, so that the simulation ball 225 can be Absorb and stick to the limit adsorption area 223 . That is, on the pipe wall 221 of the trachea 2, an iron powder glue coating is pasted or sprayed on a predetermined position, and the iron powder glue coating is formed by adding iron powder into the glue according to a certain proportion and stirring it evenly, and then applying it on the pipe wall 221. The content of iron powder can be configured according to the size of the adsorption force. A magnet is set on the simulated ball 225, and when the simulated ball 225 moves to a limit adsorption area 223 in the air pipe 2, the simulated ball 225 will be adsorbed and cling to the limit adsorption area under the action of the magnetic adsorption force of magneti...
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