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CN-121971253-A - Monitoring cabin

CN121971253ACN 121971253 ACN121971253 ACN 121971253ACN-121971253-A

Abstract

The embodiment of the application provides a monitoring cabin, which comprises a containing cabin and an oxygen supply system, wherein the oxygen supply system comprises a first oxygen supply component and a second oxygen supply component, the first oxygen supply component comprises a first switch valve and a first oxygen supply pipeline, when the first switch valve is opened, an external oxygen source can supply oxygen into the monitoring cabin through the first oxygen supply component, the second oxygen supply component comprises a second switch valve and a second oxygen supply pipeline, when the second switch valve is opened, the external oxygen source can supply oxygen into the monitoring cabin through the second oxygen supply component, and when the first switch valve is opened, the oxygen flow rate of the first oxygen supply pipeline is larger than the oxygen flow rate of the second oxygen supply pipeline when the second switch valve is opened, and the oxygen flow rate is the flow rate of oxygen supplied to the containing cabin. The oxygen supply system can be based on the first oxygen therapy pipeline and the second oxygen therapy pipeline to the oxygen therapy in the guardianship cabin with different oxygen flow rates, and the through-flow capacity is strong, can be with higher oxygen flow rate to the oxygen therapy in the guardianship cabin, realizes the quick promotion of guardianship cabin internal oxygen concentration in the short time.

Inventors

  • LIU TIEZHU
  • ZHANG KE
  • CHEN WENFU
  • ZENG LINGBO
  • WANG SHENGXI

Assignees

  • 深圳迈瑞动物医疗科技股份有限公司

Dates

Publication Date
20260505
Application Date
20251230

Claims (16)

  1. 1. A monitoring unit comprising a housing for housing an animal and an oxygen supply system for providing oxygen to the housing, the oxygen supply system comprising: The first oxygen delivery assembly comprises a first switch valve and a first oxygen delivery pipeline, wherein one end of the first oxygen delivery pipeline is connected with an external oxygen source, and the other end of the first oxygen delivery pipeline is communicated with the accommodating cabin; The second oxygen delivery assembly comprises a second switch valve and a second oxygen delivery pipeline, wherein one end of the second oxygen delivery pipeline is connected with the external oxygen source, and the other end of the second oxygen delivery pipeline is communicated with the accommodating cabin; the oxygen flow rate of the first oxygen transmission pipeline is larger than that of the second oxygen transmission pipeline when the first switch valve is opened, and the oxygen flow rate is the flow rate of inputting oxygen into the accommodating cabin.
  2. 2. The shelter of claim 1, wherein the first switch valve has a larger aperture when open than the second switch valve, and/or The first oxygen therapy pipeline is provided with a first flow restrictor, the second oxygen therapy pipeline is provided with a second flow restrictor, and the air resistance of the first flow restrictor is smaller than that of the second flow restrictor.
  3. 3. The monitoring unit of claim 1, wherein, the monitoring unit further comprises a control assembly for: And acquiring the oxygen concentration in the monitoring cabin, and controlling at least the first switch valve to be opened, or controlling the first switch valve to be closed and controlling the second switch valve to be closed, or controlling the first switch valve to be closed and controlling the second switch valve to be opened according to the difference value between the oxygen concentration in the monitoring cabin and the target concentration.
  4. 4. The monitoring unit of claim 3, wherein the control assembly is further configured to determine whether an external oxygen source connected to the oxygen supply system is a first gas source or a second gas source, the first gas source having an oxygen pressure greater than an oxygen pressure of the second gas source; The control assembly is used for controlling at least the first switch valve to be opened, controlling the first switch valve to be closed and controlling the second switch valve to be closed or controlling the first switch valve to be closed and controlling the second switch valve to be opened according to the difference value between the oxygen concentration in the monitoring cabin and the target concentration when the external oxygen source comprises a first air source.
  5. 5. The shelter of claim 4, wherein the control assembly is further configured to control the first switch valve to close and the second switch valve to open when the external oxygen source is a second gas source.
  6. 6. The monitoring unit of any of claims 3-5, wherein the control assembly is configured to: if the oxygen concentration in the monitoring cabin is smaller than the target concentration and the difference value between the target concentration and the oxygen concentration is larger than a preset threshold value, the first switch valve is controlled to be opened and the second switch valve is controlled to be opened; And if the oxygen concentration in the monitoring cabin is smaller than the target concentration and the difference value between the target concentration and the oxygen concentration is smaller than the preset threshold value, controlling the first switch valve to be closed and controlling the second switch valve to be opened.
  7. 7. The monitoring unit of claim 6, wherein the control assembly is further configured to: And if the oxygen concentration in the monitoring cabin is greater than or equal to the target concentration, controlling the first switch valve to be closed and controlling the second switch valve to be closed.
  8. 8. The monitoring unit of claim 6, wherein the control assembly is further configured to: after the first switching valve is controlled to be opened and the second switching valve is controlled to be opened for a preset time period, the first switching valve is controlled to be closed and the second switching valve is controlled to be opened.
  9. 9. The monitoring unit of claim 8, wherein the control assembly is further configured to determine the predetermined duration based on a difference between the target concentration and the oxygen concentration; The preset duration and the difference between the target concentration and the oxygen concentration are positively correlated.
  10. 10. The monitoring unit of any of claims 3-5, wherein the control assembly is further configured to obtain a control mode of the oxygen supply system, the control mode comprising a first control mode and a second control mode; In the first control mode, the control component is used for controlling the first switch valve to be opened and controlling the second switch valve to be opened if the oxygen concentration in the monitoring cabin is smaller than the target concentration and the difference value between the target concentration and the oxygen concentration is larger than a preset threshold value, controlling the first switch valve to be closed and controlling the second switch valve to be closed until the first switch valve is opened and the second switch valve is controlled to be opened for a preset duration and controlling the first switch valve to be closed and the second switch valve to be closed when the oxygen concentration in the monitoring cabin is larger than or equal to the target concentration, and/or controlling the first switch valve to be closed And in the second control mode, the control component is used for controlling the first switch valve to be opened and controlling the second switch valve to be opened if the oxygen concentration in the monitoring cabin is smaller than the target concentration and the difference value between the target concentration and the oxygen concentration is larger than a preset threshold value, controlling the first switch valve to be closed and controlling the second switch valve to be opened until the first switch valve is opened and controlling the second switch valve to be opened for a preset time period and the oxygen concentration in the monitoring cabin is smaller than the target concentration, or controlling the first switch valve to be closed and controlling the second switch valve to be closed until the oxygen concentration in the monitoring cabin is larger than or equal to the target concentration.
  11. 11. The monitoring unit of any one of claims 1-5, further comprising interaction means for setting an oxygen supply mode of the oxygen supply system, the oxygen supply mode comprising a rapid oxygen supply mode and an economic oxygen supply mode; In the rapid oxygen supply mode, the first switch valve and the second switch valve are both opened, or the first switch valve is opened and the second switch valve is closed, and in the economic oxygen supply mode, the second switch valve is opened and the first switch valve is closed.
  12. 12. The pod of claim 11, wherein the interaction means comprises one or more of a physical control, a virtual control, a microphone, a camera.
  13. 13. The monitoring unit of any of claims 3-5, wherein the control assembly is further configured to: If the cabin door of the monitoring cabin is opened, controlling the first switch valve to be closed and controlling the second switch valve to be closed, and And if the cabin door of the monitoring cabin is closed, controlling the first switch valve and/or the second switch valve to be opened.
  14. 14. The monitoring unit of any of claims 3-5, wherein the control assembly is further configured to: if the ventilation component of the monitoring cabin ventilates, controlling the first switch valve to be closed and controlling the second switch valve to be closed, and And if the ventilation assembly of the monitoring cabin stops ventilation, controlling the first switch valve and/or the second switch valve to be opened.
  15. 15. The monitoring unit of any one of claims 1-5, further comprising an interaction device, wherein the interaction device outputs a prompt message when at least the first switch valve is opened, the prompt message being used to prompt that the oxygen supply system is in a rapid oxygen supply state.
  16. 16. The monitoring unit of claim 15, wherein the hint information includes a rapid oxygen supply identifier; The interaction device comprises a display, wherein the display is at least used for displaying the oxygen concentration in the monitoring cabin, and the rapid oxygen supply identification is displayed under the condition that at least the first switch valve is opened.

Description

Monitoring cabin Technical Field The application relates to the technical field of medical equipment, in particular to a monitoring cabin. Background The monitoring unit is used for providing a comfortable environment for animals to recover after operation, and the control of the oxygen concentration in the environment is a key technical point. The oxygen concentration in the monitoring cabin is quickly increased to the target level, and the oxygenation state of animals is improved. The oxygen supply of the monitoring cabin in the related art is mainly formed by directly connecting the monitoring cabin with an external air source, the oxygen flow is determined by the external air source, when the pressure of the external air source is overlarge, the safety risk exists, and the monitoring cabin in the related art adjusts the oxygen inlet flow through a flowmeter, but the flow adjusting range of the flowmeter is smaller, the oxygen flow cannot be rapidly increased, and the requirement of rapid increase of the oxygen concentration of the monitoring cabin cannot be met. Disclosure of Invention The application provides a monitoring cabin, wherein an oxygen supply system of the monitoring cabin can deliver oxygen into the monitoring cabin at different oxygen flow rates, and can deliver oxygen into the monitoring cabin at higher oxygen flow rates. In a first aspect, an embodiment of the present application provides a monitoring unit comprising a housing for housing an animal and an oxygen supply system for providing oxygen to the housing, the oxygen supply system comprising: The first oxygen delivery assembly comprises a first switch valve and a first oxygen delivery pipeline, wherein one end of the first oxygen delivery pipeline is connected with an external oxygen source, and the other end of the first oxygen delivery pipeline is communicated with the accommodating cabin; The second oxygen delivery assembly comprises a second switch valve and a second oxygen delivery pipeline, wherein one end of the second oxygen delivery pipeline is connected with the external oxygen source, and the other end of the second oxygen delivery pipeline is communicated with the accommodating cabin; the oxygen flow rate of the first oxygen transmission pipeline is larger than that of the second oxygen transmission pipeline when the first switch valve is opened, and the oxygen flow rate is the flow rate of inputting oxygen into the accommodating cabin. The monitoring cabin comprises a containing cabin for containing animals and an oxygen supply system for supplying oxygen to the containing cabin, wherein the oxygen supply system comprises a first oxygen supply assembly and a second oxygen supply assembly, the first oxygen supply assembly comprises a first switch valve and a first oxygen supply pipeline, one end of the first oxygen supply pipeline is connected with an external oxygen source, the other end of the first oxygen supply pipeline is communicated with the containing cabin, when the first switch valve is opened, the external oxygen source can supply oxygen to the monitoring cabin through the first oxygen supply assembly, the second oxygen supply assembly comprises a second switch valve and a second oxygen supply pipeline, one end of the second oxygen supply pipeline is connected with the external oxygen source, the other end of the second oxygen supply pipeline is communicated with the containing cabin, when the second switch valve is opened, the external oxygen source can supply oxygen to the monitoring cabin through the second oxygen supply assembly, and when the first switch valve is opened, the oxygen flow rate of the first oxygen supply pipeline is larger than the oxygen flow rate of the second oxygen supply pipeline when the second switch valve is opened, and the oxygen flow rate of the oxygen supply cabin is equal to the flow rate of the oxygen supply cabin. The oxygen supply system in the embodiment of the application can supply oxygen into the monitoring cabin based on the first oxygen supply pipeline and the second oxygen supply pipeline at different oxygen flow rates, has strong through-flow capacity, can supply oxygen into the monitoring cabin at a higher oxygen flow rate, and can realize rapid increase of the oxygen concentration in the monitoring cabin in a shorter time. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure of embodiments of the application. Drawings In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in t