Dissolving degree detector for continuously detecting multiple component medicine
A dissolution and detector technology, applied in the direction of instruments, measuring devices, scientific instruments, etc., can solve the problems of single wavelength, measurement lag, etc., and achieve the effect of reducing light scattering, reducing measurement errors, and increasing accuracy
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Embodiment 1
[0016] Example 1 The overall structure of the dissolution tester of the present invention for continuous determination of multi-component drugs.
[0017] See figure 1 , the overall structure of the present invention includes a sample introduction system 1 , an optical path system 2 , a spectroscopic detection system 3 , a computer system 4 and a round bottom beaker 19 .
[0018] The sampling tube 5 extracts the liquid medicine from the round-bottom beaker 19 of the dissolution apparatus, the liquid medicine flows through the sample introduction system 1, and the light emitted by the light source 10 is injected into the six channels of the sample introduction system 1 from the incident optical fiber 12 in the optical path system 2. A channel in the channel flow cell 8 is injected into the outgoing optical fiber 13 in the optical path system 2 after reacting with the liquid medicine in the flow cell 8 . After the light is emitted from the outgoing optical fiber 13, it is conver...
Embodiment 2
[0019] Example 2 The sample introduction system of the dissolution tester for continuous determination of multi-component drugs according to the present invention.
[0020] The sample introduction system 1 can be composed of six sampling tubes 5 , a six-channel peristaltic pump 7 , a stepper motor 9 , and a six-channel flow cell 8 . Among them, six sampling tubes 5 respectively extract liquid medicine from six round-bottom beakers 19 of the dissolution apparatus, pass through the peristaltic pump 7 , and enter corresponding channels in the six-channel flow cell 8 . The stepping motor 9 controls the movement of the six-channel flow cell 8 so that the six channels pass through the optical system 2 in sequence. Because the working principles of the six channels are exactly the same, figure 2 Only one of the channels is shown in the figure.
[0021] exist figure 2 Among them, one end has a sampling tube 5 with a microporous membrane, and one end with a micronull membrane dire...
Embodiment 3
[0022] Example 3 The optical path system of the dissolution detector for continuous determination of multi-component drugs of the present invention.
[0023] See image 3 , the optical path system 2 of the dissolution detector for continuous determination of multi-component drugs is composed of a light source 10 , a convex lens 11 , an incident optical fiber 12 , and an outgoing optical fiber 13 . The light emitted by the light source 10 is converged by the convex lens 11 and enters the incident optical fiber 12, and then enters one channel of the six-channel flow cell. After the light interacts with the liquid medicine in the channel, it is injected into the outgoing optical fiber 13, and then exported by the outgoing optical fiber 13 for detection.
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