| CPC G01F 1/6847 (2013.01) [A61M 5/168 (2013.01)] | 9 Claims |
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1. A thermal mass flowmeter comprising:
a heating unit configured to heat at least a portion of a medium in a tube from an outside of the tube;
a first thermometer disposed at a first position that is a downstream side from the heating unit in a flow direction of the medium, the first thermometer being configured to measure temperature distribution according to a flow speed of the medium heated by the heating unit in the tube;
a second thermometer disposed at a second position that is a downstream side further than the first thermometer from the heating unit, the second thermometer being configured to measure temperature distribution according to the flow speed of the medium heated by the heating unit in the tube;
a controller configured to calculate a flow rate of the medium flowing through the tube using a phase difference between first measurement data measured by the first thermometer and second measurement data measured by the second thermometer;
a first body having a first retaining groove configured to fix at least one portion of a circumferential area of the tube; and
a second body having a second retaining groove configured to receive and fix another portion of the circumferential area of the tube opposite to the at least one portion of the circumferential area of the tube, the second body having a protruding portion protruding longer than a diameter of the tube,
wherein the protruding portion of the second body has an internal space configured to be open to an outside and the second retaining groove is defined in the internal space,
wherein the first body has a protruding portion configured to be inserted through the internal space of the second body toward the second retaining groove, the protruding portion of the first body having the first retaining groove,
wherein the first body is configured to be combined with the second body by insertion of the protruding portion of the first body through the internal space of the second body to cover the tube,
wherein an inner surface of the first retaining groove is configured to closely contact the at least one portion of the circumferential area of the tube and an inner surface of the second retaining groove is configured to closely contact the another portion of the circumferential area of the tube opposite to the at least one portion of the circumferential area of the tube, the first retaining groove and the second retaining groove thereby being configured to fix the at least one portion and the another portion of the circumferential area of the tube,
wherein the heating unit includes a laser emitter configured to emit a laser to be able to partially heat the medium in the tube, a lens configured to adjust a focus of the laser generated by the laser emitter to radiate the laser to a center of the tube through which the medium flows, and a beam block disposed opposite to the laser emitter with the tube therebetween to prevent the laser emitted from the laser emitter from leaking outside through the tube,
wherein the first thermometer includes:
a first infrared emitter configured to radiate first infrared light to the medium in the tube; and
a first infrared receiver disposed opposite to the first infrared emitter with the tube therebetween and configured to sense the first infrared light that has passed through the medium,
wherein the second thermometer includes:
a second infrared emitter configured to radiate second infrared light to the medium in the tube; and
a second infrared receiver disposed opposite to the second infrared emitter with the tube therebetween and configured to sense the second infrared light that has passed through the medium, and
wherein the first infrared emitter and the second infrared emitter are disposed at a side of the second retaining groove, and the first infrared receiver and the second infrared receiver are disposed at another side of the second retaining groove to be opposite to the first infrared emitter and the second infrared emitter.
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