FLOWX Engineer 86-21-54150349
Before starting to know how to design actuator, we should know a kind of invention, which connects with an blended way for forming a cavity in a surface of a tissue of an animal consisting of these things: a) a controller board related to an energy source for driving at least one orator; b) a fluid reservoir in fluid interaction with said tissue; and c) a tissue interface layer, said tissue interface layer including said at least one pronator, said orator in contact with said tissue for forming said cavity.
Another presentation of the current inventive subject matter is directed to an integrated oration device comprising: a) a oration device including: i) an external body like a top of oration tool, said outer body including a cavity; ii) a controller board consisting of driving electronics and a battery, said controller board being positioned within said cavity; and iii) , said tissue interface layer containing one pronator at least, and said tissue interface layer revolving the bottom of said oration device; and b) a reservoir patch, said reservoir patch being applied to said prorated area of said tissue membrane after oration.
A still further embodiment of the present inventive subject matter is directed to a proration system comprising: a) a pronator array comprising at least one pronator; and b) an actuator comprising: i) an outside defining a top of said actuator, said outer body containing a cavity; ii) a controller board consisting driving electronics and a battery, said controller board being positioned within said cavity; and iii) an interface connection port for receiving said pronator array. Through this way of design, we can know that for the learners who want to learn how to design actuator depend on the designers’ creativity and understand the electric actuators .
An even further embodiment of the present inventive subject matter is led to an method of monitoring an analyst extracted from a patient and sending out a permanent composition to said patient, comprising the steps of: a) contacting a proration device to a tissue membrane of said patient, said proration device comprising: i) an outer body defining a top of said integrated proration device, said outer body containing a cavity; ii) a controller board comprising driving electronics and a battery, said controller board being positioned within said cavity; iii) a first reservoir comprising a top, side walls and a bottom, said top comprising a thin film top plate abutting a bottom of said controller board and fitting within said cavity; and iv) a tissue interface layer for relating said tissue membrane, said tissue interface layer containing at least one pronator array and a second reservoir, and said tissue interface layer forming the bottom of said first reservoir and of said integrated proration device; which is the very important way to learn how to design actuator b) actuating proration of said tissue membrane using said at least one proration array in said proration device; c) extracting an analysts from said micro orated tissue membrane by way of said at least one micro pore array; d) analyzing said analyst to decide concentration of same within said tissue membrane; and e) sending out a per meant composition to said tissue membrane by way of said at least one micro pore array.
All of these designing ideas about how to design actuator shouldn’t be ignored and stressed instead.