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Split-type real-time monitoring device for respiratory oxygen consumption

A real-time monitoring, split-type technology, applied in the evaluation of respiratory organs, diagnostic recording/measurement, medical science, etc., can solve the problems of occupying monitoring slots, changing the sensitivity of the measuring device, affecting the accurate measurement of oxygen consumption, etc. The effect of drying, reducing labor intensity and improving measurement accuracy

Active Publication Date: 2019-12-31
ZHEJIANG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Among the new hypoxic devices above: the "respiratory oxygen consumption real-time monitoring device" can achieve normal pressure and constant pressure in a closed environment and realize real-time dynamic and automatic tracing of oxygen consumption and respiratory curves, but its existing defects are: The water tank and the monitoring tank are integrated and connected by channels. After a long time of storage, the water in the water storage tank will form water vapor and atomize into the monitoring tank to form water mist or form water droplets to adhere to the upper wall of the monitoring tank, occupying the monitoring tank. volume, which affects the accuracy of oxygen consumption measurement (the measured value of oxygen consumption is larger than the real value), and the blocking of light by water mist also affects the irradiation intensity of the photoresistor, which changes the sensitivity of the measuring device
If it is used repeatedly in a short period of time, a small amount of liquid will remain in the corner or right angle of the monitoring tank and cannot be discharged cleanly, which will affect the accurate measurement of oxygen consumption

Method used

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  • Split-type real-time monitoring device for respiratory oxygen consumption
  • Split-type real-time monitoring device for respiratory oxygen consumption
  • Split-type real-time monitoring device for respiratory oxygen consumption

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0040] Embodiment 1 A split-type respiratory oxygen consumption real-time monitoring device according to the present invention includes a split-type monitoring body, the split-type monitoring body includes a base and a monitoring board arranged in the monitoring area of ​​the split-type monitoring body, the base It includes a base laid horizontally and a light-transmitting water storage plate arranged on the surface of the base. The lower surface of the water storage plate is closely attached to the light-shielding plate laid on the surface of the base, and the light-shielding plate is not covered by the water storage plate Part of the pavement monitoring board 22 as the monitoring area;

[0041] The upper surface of the water storage plate is provided with a water storage guide groove 20 and a water storage tank 11 located at the first end A of the base, the water storage tank 11 is led to the second end B of the base through the water storage guide groove 20, and the water st...

Embodiment 2

[0054] Embodiment 2 A split-type respiratory oxygen consumption real-time monitoring device described in this embodiment includes a split-type monitoring body. The split-type monitoring body includes a base and a monitoring board. The base is composed of a base and a water storage plate. The storage The water board is a colorless and transparent plexiglass or acrylic board. The board body partly covers the shading board laid on the upper surface of the base. The uncovered area is the monitoring area. adjustable feet 16, and the water storage tank 11 and the monitoring area are arranged side by side along the length direction of the base; the thickness of the plate body is 1.5cm, and the depth of the water storage tank is 1cm; the length of the water storage tank is about 1 / of the length of the base 3. The length of the monitoring area is about 2 / 3 of the length of the base;

[0055] The water storage tank 11 is a right-angled trapezoidal groove, that is, the orthographic proj...

Embodiment 3

[0059] Embodiment 3 The difference between this embodiment and Embodiment 2 is that the serpentine oxygen consumption monitoring groove is a serpentine groove composed of four parallel straight grooves and a curved groove connecting two adjacent straight grooves. Arranged in a row along the length direction of the base, and the two curved grooves on the same side as the front end of the serpentine oxygen consumption monitoring groove correspond to communicate with the first drain port 9a and the second drain port 9b respectively.

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Abstract

The invention relates to a split-type real-time monitoring device for respiratory oxygen consumption, which comprises a split type monitoring body, the split-type monitoring body comprises a base anda monitoring plate arranged in a monitoring area of a split-type monitoring body, and the base comprises a horizontally-laid base and a light-transmitting water storage plate arranged on the surface of the base; the upper surface of the water storage plate is provided with a water storage guide groove and a water storage groove located in a first end of the base. A power interface, a breathing signal interface, an oxygen consumption interface and an air inlet are formed in the outer side surface of the base; a snake-shaped oxygen consumption monitoring groove is carved in the inner surface, facing the monitoring area, of a monitoring plate; the photoresistors are evenly laid on a shading plate in the length direction of the snake-shaped oxygen consumption monitoring groove and connected with a biological signal collecting and processing system through a resistance detection circuit, and the biological signal collecting and processing system outputs animal oxygen consumption data according to data of a sampling resistor. The device has the beneficial effects that the oxygen consumption rate in any time period in the oxygen deficit process can be collected, and the harm of limit oxygen consumption to animals is avoided; and the experimental precision is high.

Description

technical field [0001] The invention relates to a split type breathing oxygen consumption real-time monitoring device. Background technique [0002] Hypoxia is a very common pathological process in various clinical diseases. Hypoxia in vital organs such as the brain and heart is an important cause of death, and it is also a problem that must be studied in plateau life, mine tunnel operations, and aerospace flight. In the experiments of medical colleges and universities, various hypoxia experimental models are often replicated to simulate hypoxia, and the pathological processes that lead to abnormal changes in tissue metabolism, function and morphological structure are studied through simulated hypoxia experimental models, in order to Explain the pathological process of various clinical diseases, explore their effective treatment methods, etc. [0003] At present, in the hypoxia experiments of medical colleges and universities across the country, the hypoxia measuring device...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B5/083A61B5/08A61B5/113A01K1/03A01K29/00
CPCA01K1/031A01K29/005A61B5/08A61B5/0816A61B5/0833A61B5/1135A61B2503/40A61B2503/42
Inventor 梅汝焕方瑜王梦令于晓云高铃铃
Owner ZHEJIANG UNIV
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