CN218652679U - Artificial air passage and output pressure adjusting device thereof - Google Patents

Abstract

The utility model provides an output pressure adjusting device of artifical air flue, include: the air outlet pipeline is used for communicating an air outlet port of the air pump with an air output part of the artificial air passage, and an air pressure monitoring module is arranged in the air outlet pipeline; the air pressure monitoring module is at least indirectly in signal connection with the air pump; the gas output part is used for pressurizing the gas input by the gas output part through the gas outlet pipeline to a preset size; the air pressure monitoring module monitors the air pressure in the air outlet pipeline; the output pressure adjusting device also comprises a control module which is in signal connection with the air pressure monitoring module and the air pump and is used for comparing the measured air pressure with a preset pressure, and when the measured air pressure in the air outlet pipeline is smaller than the preset pressure, the control module controls the air pump to maintain or increase the rotating speed or output power so as to input air into the air outlet pipeline; and when the measured gas pressure is greater than the preset pressure, controlling the air pump to reduce the rotating speed or output power until the measured gas pressure is equal to the preset pressure.

Description

Artificial air passage and output pressure adjusting device thereof

Technical Field

The utility model discloses artifical air flue technical field especially relates to an output pressure adjusting device of artifical air flue, artifical air flue.

Background

In modern clinic, the ICU establishes an artificial airway for mechanical ventilation, which is an important means for rescuing critically ill patients and an important auxiliary means for improving respiration in clinic, but the rationality and stability of the setting of mechanical ventilation parameters directly affect the curative effect and the rehabilitation process of the patients, and particularly, the stability of the pressure of an airway gas output component in the mechanical ventilation process directly determines the therapeutic effect of the patients and can directly reduce the incidence of ventilator-associated pneumonia.

In the past, most of artificial airways adopt an injector to inject gas with certain pressure into a tracheal cannula, and a doctor feels the pressure of a gas output part, but the mode can not monitor the pressure change in real time and can not ensure constant air pressure when the tracheal cannula has micro motion. Other artificial airways output airflow to an air output part through a trachea cannula in one way through a diaphragm pump, a pressure sensor in the trachea cannula monitors pressure change in an air path, and an electromagnetic valve is arranged on a channel of the air output part and is adjusted to reach a preset pressure range through opening or closing of the electromagnetic valve. Specifically, when the pressure of the gas output part is higher than a preset value, the electromagnetic valve is opened to discharge gas, when the pressure of the gas output part is lower than the preset value, the electromagnetic valve is closed, and the target preset value is achieved through closed-loop control of the diaphragm pump, the pressure sensor and the electromagnetic valve. However, the stability of the pressure of the gas output part is poor, and as long as the gas output part generates micro motion or the gas path leaks, the pressure in the gas output part changes, so that the solenoid valve discharges gas and is difficult to maintain within a constant preset value range, thereby causing the gas path wall and the intubation tube to be not well matched to leak gas, and being difficult to achieve the effect of closing the gas path in real time.

SUMMERY OF THE UTILITY MODEL

The utility model provides an output pressure adjusting device of artifical air flue, artifical air flue to reduce gas pressure fluctuation, avoid appearing leaking gas with the air flue wall, reach airtight effect. By "gas delivery means" is understood here a means of delivering gas to the patient via the artificial airway, which may be a breathing mask or an airbag.

According to a first aspect of the present application, there is provided an output pressure regulating device of an artificial airway, comprising: the air pump comprises an air pump with an air inlet port and an air outlet port, an air inlet pipeline communicated with the air inlet port, and an air outlet pipeline communicated with the air outlet port, wherein the air outlet pipeline communicates the air outlet port of the air pump with a gas output part of the artificial air passage, and an air pressure monitoring module is arranged in the air outlet pipeline; the air pressure monitoring module is at least indirectly in signal connection with the air pump; the air pump is used for sucking air through the air inlet pipeline through the air inlet port and inputting the air to the air outlet pipeline through the air outlet port; the gas output part is used for pressurizing the gas input by the gas output part through the gas outlet pipeline to a preset size; the air pressure monitoring module is used for continuously monitoring the air pressure in the air outlet pipeline; the output pressure adjusting device also comprises a control module which is in signal connection with the air pressure monitoring module and the air pump; the control module is used for comparing the gas pressure measured by the gas pressure monitoring module with a preset pressure, and when the measured gas pressure in the gas outlet pipeline is smaller than the preset pressure, the control module controls the gas pump to maintain or increase the rotating speed or the output power so as to input gas into the gas outlet pipeline; when the gas pressure in the gas outlet pipeline measured by the gas pressure monitoring module is greater than the preset pressure, the control module controls the gas pump to reduce the rotating speed or output power until the measured gas pressure is equal to the preset pressure.

In one embodiment, the gas outlet pipeline is further provided with a gas outlet hole, and the gas outlet hole is used for discharging gas outwards while inputting gas into the gas outlet pipeline so as to maintain the gas pressure in the gas outlet pipeline as a preset pressure.

In one embodiment, the method further comprises: a gas block, the gas block comprising: an exhaust gas pipeline and a gas resistance body, wherein one end of the exhaust gas pipeline is communicated with the gas outlet pipelineThe air resistance body is arranged at the other end of the exhaust gas pipeline, and an exhaust hole is formed in the air resistance body and used for exhausting gas outwards while inputting gas into the gas outlet pipeline so as to maintain the gas pressure in the gas outlet pipeline as preset pressure. The pressure control is better by adding the air resistance small hole, so that the supercharging curve of the supercharging device is relatively smooth and is not easy to overshoot. In addition, the resolution of the regulation pressure of the supercharging device also becomes higher, for example: when no vent hole is available, the pressure of 10 milliW can be controlled to reach 10cmH ₂ O, after increasing, it took 15 mW to control 10cmH ₂ O, for the control, from 10 to 15, the resolution increases by 50%, and the control becomes more accurate.

In one embodiment, the method further comprises: a filter assembly connected in the air intake conduit upstream of the air intake port for filtering the drawn gas.

In one embodiment, the method further comprises: and the power adjusting module is connected with the air pump and used for adjusting the output power of the air pump so as to adjust the air pressure output by the air pump.

In one embodiment, the method further comprises: and the switch is connected with the air pump and used for controlling the air pump to be started or closed.

In one embodiment, the air pressure monitoring module is designed as a pressure sensor.

In one embodiment, the air pump is designed as a piezo pump or as a turbo pump.

In one embodiment, the gas output component is an airbag or a respiratory mask.

According to a second aspect of the present application, there is provided an artificial airway comprising: a gas output component and an output pressure regulating device of the artificial airway.

The application provides an output pressure adjusting device of artifical air flue, through the effect of air pump, can be less than in time input gas when predetermineeing pressure at the pipeline internal pressure size of giving vent to anger, in time exhaust gas when giving vent to anger pipeline internal pressure size and be greater than predetermineeing pressure to the gas pressure who maintains in the pipeline of giving vent to anger keeps invariable preset pressure size. If the gas output component has a micro-motion state or a micro-leakage state, the air pump can timely adjust the operation of the air pump according to the real-time feedback of the air pressure monitoring module so as to maintain the pressure of the gas output component within a normal range, the output pressure adjusting device of the artificial air channel is not limited by the fact that the gas output component must be kept static or the gas output component must have good air tightness so as to keep the pressure of the gas output component constant when in use, the influence of interference of external factors on the gas output component is effectively compensated, and the gas pressure in the gas output component can rapidly reach a preset pressure and keep a long-time stable state.

Drawings

FIG. 1 is a schematic diagram of an output pressure regulating device of an artificial airway provided by the present application;

FIG. 2 is a schematic diagram illustrating a first embodiment of a strong pressure regulating device for an artificial airway;

fig. 3 is a schematic diagram of a strong pressure regulating device of an artificial airway according to the present application.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The application provides an artificial airway, an output pressure adjusting device of the artificial airway, wherein, the function of the gas output component of the artificial airway is to insert a tracheal catheter with the gas output component into the airway of a human body, so that the airway and the airway of the human body provide a non-leakage condition when a control respirator or auxiliary respiration is carried out, and vomit and the like are prevented from flowing into the airway along the pores between the airway wall and the airway wall of the airway of the human body.

The first embodiment,

Referring to fig. 1 and 2, the output pressure regulating device of the artificial airway provided by the present embodiment includes: the air pump 10, the air inlet pipeline 20, the air outlet pipeline 30, the air output part 40, the air pressure monitoring module 50 and the control module 51.

The air pump 10 has an inlet port 11 and an outlet port 12, one end of the air inlet pipeline 20 is communicated with the inlet port 11 of the air pump 10, and the other end of the air inlet pipeline 20 is communicated with the external atmosphere. One end of the air outlet pipeline 30 is communicated with the air outlet port 12 of the air pump 10, the air output part 40 is communicated with the other end of the air outlet pipeline 30, and the air pressure monitoring module 50 is arranged on the air outlet pipeline 30. Wherein, in use, the outlet conduit 30 is inserted into a human airway.

The air pressure monitoring module 50 is at least indirectly in signal communication with the air pump 10. In a preferred embodiment, the air pressure monitoring module 50 is in wired or wireless communication with the air pump 10. The air pump 10 may pump air of the external atmosphere or oxygen supplied from the oxygen supply source through the air inlet port 11 through the air inlet line 20 and input the pumped air into the air outlet line 30 through the air outlet port 12. In a preferred embodiment, the air pump 10 is designed as a piezo pump or as a turbo pump. The gas output component 40 is used for pressurizing the gas input through the gas output pipeline 30 to a preset size, and it can be understood that the gas output component 40 pressurized to the preset size through the gas input through the gas output pipeline 30 can achieve a closed state with the airway wall of the human airway, so as to prevent vomit and the like from flowing into the respiratory tract along the pores between the airway wall of the human airway and the gas output pipeline 30.

In this embodiment, the air pump 10 is a pump capable of making air flow in two directions, the air outlet pipeline 30 and the air pump 40 form a closed structure, when the air pump starts to work, air is input into the closed structure through the air pump, when the rotation speed or power of the air pump is reduced, the air pressure in the closed structure is reduced, and the air in the closed structure is discharged through the air pump until the pressure required to be controlled by the air pump is reached.

The gas pressure monitoring module 50 is used for continuously monitoring whether the gas pressure in the gas outlet pipeline 30 is a preset pressure, and in a preferred embodiment, the gas pressure monitoring module 50 is designed as a pressure sensor. The control module 51 is in signal connection with the air pump 10 and the air pressure detection module 50. The control module 51 is used for comparing the gas pressure measured by the gas pressure detection module 50 with a preset pressure. When the air pressure monitoring module 50 monitors that the air pressure in the air outlet pipeline 30 is less than the preset pressure, the control module 51 controls the air pump 10 to maintain or increase the rotation speed or the output power to input air into the air outlet pipeline 30, so that the air pressure in the air outlet pipeline 30 reaches the preset pressure. When the air pressure monitoring module 50 monitors that the air pressure in the air outlet pipeline 30 is greater than the preset pressure, the control module 51 controls the air pump 10 to reduce the rotation speed or output power, and discharges the air from the air inlet port 11 of the air pump 10 until the air pressure monitoring module 50 monitors that the air pressure in the air outlet pipeline 30 is equal to the preset pressure. Wherein, the gas discharged from the inlet port 11 is discharged to the external atmosphere through the inlet pipeline 20, so as to balance the gas pressure in the outlet pipeline, and the gas pressure in the outlet pipeline 30 reaches the preset pressure.

In this embodiment, the preset pressure reached by the gas pressure in the gas outlet pipeline 30 is the pressure of the gas output component 40, and the gas output component can reach the preset pressure by reaching the preset pressure. Through the effect of the air pump, gas can be input in time when the pressure in the gas outlet pipeline 30 is smaller than the preset pressure, and gas is discharged in time when the pressure in the gas outlet pipeline 30 is larger than the preset pressure, so that the gas pressure in the gas outlet pipeline is kept constant at the preset pressure. If the gas output component has a micro-motion state or a micro-leakage state, the air pump can timely supplement air according to the real-time feedback of the air pressure monitoring module, the output pressure adjusting device of the artificial air channel is not limited by the fact that the gas output component must be kept static or the gas output component must have good air tightness to keep the pressure of the gas output component constant when in use, the influence of interference of external factors on the gas output component is effectively compensated, and the gas pressure in the gas output component can be rapidly enabled to reach the preset pressure and keep a long-time stable state.

In one embodiment, a vent hole is further disposed on the gas outlet line 30, and the vent hole is used for discharging gas to the outside while inputting gas to the gas outlet line 30, so as to maintain the gas pressure in the gas outlet line 30 at a preset pressure.

It should be noted that the aperture of the vent hole is small, and when gas is input into the gas outlet pipeline 30, the vent hole can discharge certain gas in real time, but the gas discharged through the vent hole does not affect the gas pressure in the gas outlet pipeline, and can also ensure the stability of the gas pressure in the gas outlet pipeline.

In another embodiment, as shown in fig. 1 and fig. 3, the output pressure regulating device of an artificial airway provided in this embodiment further includes: and the gas resistor 60 is arranged on the gas outlet pipeline 30 and used for discharging gas outwards while inputting gas into the gas outlet pipeline 30 so as to maintain the gas pressure in the gas outlet pipeline 30 as a preset pressure.

In this embodiment, the air resistor 60 includes: an exhaust gas pipeline 61 and a gas resistance body 61, wherein one end of the exhaust gas pipeline 61 is communicated with the gas outlet pipeline 30, and the gas resistance body 62 is arranged at the other end of the exhaust gas pipeline 61. Be equipped with the exhaust hole on the air-resistor body 61, the same aperture of this exhaust hole is little, and is the same, and when the in-process to giving vent to anger pipeline 30 input gas, the exhaust hole on the air-resistor body 61 also can discharge certain gas in real time, and the gas of combustion gas not only does not influence the interior gas pressure of giving vent to anger pipeline, can also keep giving vent to anger the stability of interior gas pressure of pipeline.

In the above embodiment, the exhaust gas pipe 61 can be led out from the human body airway to the outside of the human body, and the gas exhausted through the exhaust hole on the air resistor is prevented from being exhausted to the human body airway.

The output pressure regulating device of the artificial airway provided by the embodiment further comprises: and a filter assembly 70, wherein the filter assembly 70 is communicated with the other end of the air inlet pipeline 20, and the filter assembly 70 is used for filtering the sucked gas to prevent impurities from entering.

The output pressure regulating device of the artificial airway provided by the embodiment further comprises: the power adjusting module 80, the power adjusting module 80 is connected with the air pump 10, and the power adjusting module 80 is used for adjusting the output power of the air pump 10 to adjust the air pressure output by the air pump 10, so that the air output component 40 can form different preset sizes, thereby satisfying the use requirements of different patients.

The output pressure regulating device of the artificial airway provided by the embodiment further comprises: a switch 90, the switch 90 being connected to the air pump 10, the switch 90 being used to control the activation or deactivation of the air pump 10, i.e. to control the connection or disconnection between the air pump 10 and the power source, thereby controlling the activation or deactivation of the air pump 10.

Example II,

The present embodiment provides an artificial airway including: the gas output component and the output pressure regulating device of the artificial airway described in the first embodiment have been described in detail in the first embodiment, and thus, the details of all the functions and features of the output pressure regulating device are not repeated.

In summary, in the output pressure adjusting device of the artificial air passage and the artificial air passage provided in this embodiment, through the action of the air pump, air can be input in time when the pressure inside the air outlet pipeline is smaller than the preset pressure, and air can be exhausted in time when the pressure inside the air outlet pipeline is larger than the preset pressure, so as to maintain the constant preset pressure of the air pressure inside the air outlet pipeline. If the gas output component has a micro-motion state or a micro-leakage state, the air pump can timely supplement air according to the real-time feedback of the air pressure monitoring module, the output pressure adjusting device of the artificial air channel is not limited by the fact that the gas output component must be kept static or the gas output component must have good air tightness to keep the pressure of the gas output component constant when in use, the influence of interference of external factors on the gas output component is effectively compensated, and the gas pressure in the gas output component can be rapidly enabled to reach the preset pressure and keep a long-time stable state.

It is right to have used specific individual example above the utility model discloses expound, only be used for helping to understand the utility model discloses, not be used for the restriction the utility model discloses. To the technical field of the utility model technical personnel, the foundation the utility model discloses an idea can also be made a plurality of simple deductions, warp or replacement.

Claims (10)

1. An output pressure regulating device of an artificial airway, comprising: the artificial air passage air pressure monitoring device comprises an air pump with an air inlet port and an air outlet port, an air inlet pipeline communicated with the air inlet port, and an air outlet pipeline communicated with the air outlet port, wherein the air outlet pipeline communicates the air outlet port of the air pump with an air output part of an artificial air passage; the air pressure monitoring module is at least indirectly in signal connection with the air pump; the air pump is used for sucking air through the air inlet pipeline through the air inlet port and inputting the air to the air outlet pipeline through the air outlet port; the gas output part is used for pressurizing the gas input by the gas output part through the gas outlet pipeline to a preset size; the air pressure monitoring module is used for continuously monitoring the air pressure in the air outlet pipeline; the output pressure adjusting device also comprises a control module which is in signal connection with the air pressure monitoring module and the air pump; the control module is used for comparing the gas pressure measured by the gas pressure monitoring module with a preset pressure, and when the measured gas pressure in the gas outlet pipeline is smaller than the preset pressure, the control module controls the gas pump to maintain or increase the rotating speed or the output power so as to input gas into the gas outlet pipeline; when the gas pressure in the gas outlet pipeline measured by the gas pressure monitoring module is greater than the preset pressure, the control module controls the gas pump to reduce the rotating speed or output power until the measured gas pressure is equal to the preset pressure.

2. The output pressure regulating device of an artificial airway as claimed in claim 1 wherein the outlet conduit is further provided with a vent for venting gas to the outside while feeding gas to the outlet conduit to maintain the pressure of the gas in the outlet conduit at a predetermined pressure.

3. An artificial airway output pressure regulating device as claimed in claim 1 further comprising: a gas block, the gas block comprising: the exhaust gas pipeline comprises an exhaust gas pipeline and a gas resistor body, wherein one end of the exhaust gas pipeline is communicated with the gas outlet pipeline, the gas resistor body is arranged at the other end of the exhaust gas pipeline, an exhaust hole is formed in the gas resistor body and used for exhausting gas outwards while the gas outlet pipeline inputs the gas, and therefore gas pressure in the gas outlet pipeline is maintained as preset pressure.

4. An output pressure regulating device of an artificial airway according to any of claims 1 to 3 further including: a filter assembly connected in the air intake conduit upstream of the air intake port for filtering the drawn gas.

5. An output pressure regulating device of an artificial airway according to any of claims 1 to 3 further including: and the power adjusting module is connected with the air pump and used for adjusting the output power of the air pump so as to adjust the air pressure output by the air pump.

6. An artificial airway output pressure regulating device as claimed in any one of claims 1 to 3 further including: and the switch is connected with the air pump and used for controlling the air pump to be started or closed.

7. The artificial airway output pressure regulating device of claim 1, wherein the air pressure monitoring module is configured as a pressure sensor.

8. The output pressure regulating device of an artificial airway as claimed in claim 1, characterized in that the air pump is designed as a piezoelectric pump or a turbo pump.

9. An artificial airway output pressure regulating device as claimed in claim 1 wherein the gas output component is a balloon or a breathing mask.

10. An artificial airway including a gas output component and an output pressure regulating device of the artificial airway as claimed in any one of claims 1 to 9.

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