Data acquisition method for injector, data acquisition structure and injector
A data acquisition and syringe technology, applied in the field of medical devices, can solve the problems of dose scale storage or recording, failure to meet people's data requirements and quality of life requirements, and inability to track and analyze patients' injection conditions
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Embodiment 1
[0111] On the one hand, if figure 1 As shown, a syringe data collection method is provided, comprising the following steps:
[0112] The color recognition sensor receives the reflected light of the color block;
[0113] The microprocessor determines the color category of the color block according to the intensity of the reflected light received by the color recognition sensor;
[0114] The microprocessor generates actual scale data corresponding to the color category.
[0115] In another aspect, a data acquisition structure for an injector is provided, including:
[0116] a color block, the color block can reflect light to form reflected light;
[0117] A color recognition sensor, the color recognition sensor can receive the reflected light of the color block during the dose scale adjustment process;
[0118] A microprocessor, the microprocessor is signally connected to the color recognition sensor, and the microprocessor determines the actual scale data of the dose accord...
Embodiment 2
[0121] Such as Figures 2 to 5 As shown, on the one hand, a method for collecting data for a syringe is provided, comprising the following steps:
[0122] The color recognition sensor 8 receives the reflected light of the color block 7;
[0123] The microprocessor determines the color category of the color block 7 according to the intensity of the reflected light received by the color recognition sensor 8;
[0124] The microprocessor generates actual scale data corresponding to the color category.
[0125] In this embodiment, after the color recognition sensor 8 receives the reflected light of the color block 7, the following steps are further included:
[0126] The color recognition sensor 8 transmits the intensity information of the reflected light to the microprocessor.
[0127] In this embodiment, the reflected light of a color block 7 is received by one color recognition sensor 8; the microprocessor determines the color value of the color block 7 according to the inten...
Embodiment 3
[0150] The difference between this embodiment and embodiment two is:
[0151] In this embodiment, the dosage scale that needs to be represented is 61 scale data from 0 to 60, the number of color values of the color blocks is 7, and the color blocks with different color values are arranged in sequence according to the preset order and repeating, so that the number of the color blocks reaches 61, and each of the color blocks arranged in sequence corresponds to one scale data. In this embodiment, one color category corresponds to more than two actual scale data, and the color values of the color blocks corresponding to different dose positions may be the same, that is, the number of color blocks with different color values is smaller than that of different dose positions The number of scale data, therefore, this embodiment needs to generate the actual scale data through incremental calculation.
[0152] In this embodiment, the actual scale data corresponding to the color...
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