CN211410541U - Medical internal medicine is with supplementary respiratory device - Google Patents

Abstract

The utility model relates to a breathe internal medicine technical field, in particular to medical science internal medicine is with supplementary respiratory device, including the humidification bottle, sealing connection has the intubate of admitting air and the intubate of giving vent to anger on the humidification bottle, the intubate of admitting air is connected with the gas mixing chamber, gas mixing chamber intercommunication has oxygen production device and air intake pipe, the last check valve that is provided with flow direction gas mixing chamber in the air intake pipe, the intubate intercommunication of giving vent to anger has the disinfection chamber, disinfection intracavity portion is provided with the aseptic cotton that is stained with the alcohol, the disinfection chamber intercommunication has the tee bend flow divider, an exit linkage of tee bend flow divider has simulation respiratory device, simulation respiratory device intercommunication has three way connection, another export and the three way connection intercommunication of tee bend flow divider, the three way connection intercommunication has the hose, hose connection has the stereop. The cross infection that can avoid the layman to carry out artificial respiration and bring in this application is convenient for to the humidification that carries out of respiratory oxygen, and is more comfortable when letting the patient breathe.

Description

Medical internal medicine is with supplementary respiratory device

Technical Field

The utility model relates to a breathe internal medicine technical field, in particular to medical internal medicine is with supplementary respiratory device.

Background

At present, in clinical practice, a patient with a serious cardiology department needs to wear an oxygen mask to inhale oxygen, once the patient has dyspnea, medical personnel need to remove the oxygen mask, and then the medical personnel and the patient directly carry out mouth-to-mouth artificial respiration, so that the operation easily causes the hidden danger of cross infection and is not beneficial to the health of the personnel of the doctor and the patient; in addition, the oxygen gas is dry when being directly used, the patient feels uncomfortable after inhaling the oxygen gas, and the oropharyngeal secretions of the patient are easy to dry and knot, so that the airway is easy to block.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is a medical internal medicine is with supplementary respiratory device, the device can avoid the cross infection that artificial respiration caused in the use, can avoid respiratory oxygen dry, lets the patient breathe more comfortable, and then can reduce the accident probability that patient's air flue blockked up.

In order to solve the technical problem, the utility model discloses a scheme does:

the utility model provides a medical science internal medicine is with supplementary respiratory device, includes the humidification bottle, sealing connection has the intubate of admitting air and the intubate of giving vent to anger on the humidification bottle, the intubate of admitting air is connected with the gaseous mixing chamber, gaseous mixing chamber intercommunication has oxygen production device and air intake pipe, the last flow direction that is provided with of air intake pipe the check valve in gaseous mixing chamber, the intubate intercommunication of giving vent to anger has the disinfection chamber, disinfection intracavity portion is provided with the aseptic cotton that is stained with the alcohol, the disinfection chamber intercommunication has the tee bend flow divider, an exit linkage of tee bend flow divider has simulation respiratory device, simulation respiratory device intercommunication has three way connection, another export of tee bend flow divider with the three way connection intercommunication, the three way connection intercommunication has the hose, the hose connection has the stereoplasm intubate, stereoplasm intubate sealing connection has respirator.

The air inlet insertion pipe extends to the bottom of the humidifying bottle, the air outlet insertion pipe extends to the upper part of the interior of the humidifying bottle, and humidifying water from 1/3 to 2/3 is contained in the humidifying bottle.

The oxygen generating device is an oxygen bottle or an oxygen bag.

The air inlet pipe is also provided with a dust filter chamber, and a dust filter screen is arranged in the dust filter chamber.

The simulation respiratory device is including breathing the cavity, and breathe the inside top fixed connection's of cavity miniature rotating electrical machines, and the cam that sets up on the miniature rotating electrical machines output shaft, and articulated connecting rod on the cam, and connecting rod bottom articulated push rod, and push rod bottom fixed connection's block rubber, and the shrink film that the block rubber downside set up, the shrink film with breathe cavity inner wall middle part sealing connection, tee bend flow divider and three way connection respectively with breathe cavity lateral wall bottom intercommunication, miniature rotating electrical machines disposes the power and opens and stop the control key.

Compared with the prior art, the beneficial effects of the utility model are that:

in the application process, a patient lies on a sickbed, the breathing mask is buckled on the oral cavity of the patient, the oxygen generating device is properly started, the three-way shunt valve is opened to one end communicated with the three-way joint, and oxygen auxiliary breathing is carried out on the patient; when people need to breathe together in an emergency, the patient is put on the breathing mask, the hard intubation tube is adjusted, the elastic pressure house plate below the hard intubation tube is pressed on the tongue of the patient, the smoothness of the pharynx of the patient is ensured, then the three-way shunt valve is opened to the simulated breathing device to be communicated, and the simulated breathing device is opened, so that the artificial breathing can be carried out on the patient instead of medical staff; because carry out artificial respiration to the patient through simulation respiratory device in this application, avoided the other person to carry out the cross infection that artificial respiration brought, guaranteed patient breathing safety. Moreover, due to the existence of the humidifying bottle, the humidifying bottle is convenient for humidifying the respiratory oxygen, so that the patient is more comfortable when breathing, and the accident probability of the airway blockage of the patient can be reduced.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a cross-sectional view of a simulated breathing apparatus of the present invention;

fig. 3 is a cross-sectional view of the breathing mask of the present invention.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1-3, an auxiliary breathing device for medical department of medicine, includes humidification bottle 1, sealing connection has the intubate 2 and the intubate 3 of giving vent to anger of admitting air on humidification bottle 1, is mainly convenient for carry out the humidification to the gas of breathing, and is more comfortable when letting the patient breathe.

The air inlet cannula 2 is connected with an air mixing cavity 4, and the air mixing cavity is mainly used for adding air, so that a patient can breathe more comfortably.

The gas mixing chamber 4 intercommunication has oxygen to produce device 5 and air intake pipe 7, be provided with the flow direction on the air intake pipe 7 the check valve 8 of gas mixing chamber 4, the setting of check valve mainly avoids oxygen to flow to the external world through air intake pipe 7, leads to the waste of oxygen.

The air outlet intubation 3 is communicated with a disinfection cavity 9, disinfection cotton stained with alcohol is arranged in the disinfection cavity 9, the disinfection cavity 9 is communicated with a three-way diverter valve 10, and one outlet of the three-way diverter valve 10 is connected with a simulated breathing device 11;

the disinfection cavity 9 is mainly used for disinfecting oxygen mixed with outside air, so that cleanness and sanitation of a patient during breathing are guaranteed; the three-way flow divider 10 is mainly used for changing the flow direction of air and facilitating switching and adjustment between a manual breathing mode and a conventional oxygen inhalation mode.

The simulated respiration device 11 is communicated with a three-way joint 12, the other outlet of the three-way flow divider 10 is communicated with the three-way joint 12, and the three-way joint 12 is communicated with a hose 13; the hose 13 is more convenient for the bending steering operation.

The hose 13 is connected with a hard cannula 14, and the hard cannula 14 is connected with a breathing mask 15 in a sealing way.

The hard cannula 14 is mainly convenient to be inserted into the breathing mask 15, so that the breathing of the patient is convenient; in actual design process, 15 tops of respiratory mask are provided with the intubate through-hole, and the surface of stereoplasm intubate 14 is provided with the sealed gum cover that matches with the intubate through-hole, and stereoplasm intubate 14 is provided with the elasticity that is used for pressing the house for the patient presses the house board to be convenient for press the house operation for the patient when needing, avoid patient's tongue to curl up the influence and breathe. Moreover, a mask strap for fixing is provided on the breathing mask 15 for the convenience of wearing by the patient.

The air inlet cannula 2 extends to the bottom of the humidifying bottle 1, the air outlet cannula 3 extends to the upper part of the interior of the humidifying bottle 1, and the humidifying bottle 1 is filled with humidifying water from 1/3 to 2/3.

This setting is mainly the humidification of the oxygen of being convenient for, and is more comfortable when letting the patient breathe, and then can reduce the accident probability that patient's air flue blockked up.

The oxygen generating device 5 is an oxygen bottle or an oxygen bag.

The air inlet pipe 7 is further provided with a dust filter cavity 16, and a dust filter screen is arranged inside the dust filter cavity 16. This setting is mainly be convenient for to the filtration of dust in the air, guarantees the clean health of the air that gets into this application respiratory device. In the actual application process, in order to ensure that the air can enter the gas mixing cavity 4 more normally, a pressure pump can be connected to the air inlet pipe 7, so that the air can enter normally.

Simulation respiratory device 11 is including breathing cavity 17, and breathe inside top fixed connection's of cavity 17 miniature rotating electrical machines 18, and the cam 19 that sets up on the miniature rotating electrical machines 18 output shaft, and articulated connecting rod 20 on the cam 19, and connecting rod 20 bottom articulated push rod 21, and push rod 21 bottom fixed connection's block rubber 22, and shrink film 23 that block rubber 22 downside set up, shrink film 23 with breathe cavity 17 inner wall middle part sealing connection, tee bend flow divider 10 and tee bend 12 respectively with breathe cavity 17 lateral wall bottom intercommunication, miniature rotating electrical machines 18 disposes the power and opens and stop the control key.

The simulated respiration device 11 is mainly used for simulating artificial respiration and replacing artificial respiration for patients, thereby effectively reducing cross infection. When the simulated respiration device 11 is actually used, the three-way flow divider 10 is adjusted to the simulated respiration device 11 for communication, then the micro rotating motor 18 is started, the micro rotating motor 18 drives the cam 19 to rotate, the cam 19 rotates the connecting rod 20 and drives the push rod 21 to move up or down, so that the shrink film 23 is driven to shrink, the gas storage space inside the respiration cavity 17 is changed, so that the respiration cavity 17 inhales or exhausts, a system similar to artificial respiration is formed, and the respiration mask 15 is buckled on the oral cavity of a patient, so that the operation similar to artificial respiration can be conveniently carried out on the patient.

In the actual application process, a patient lies on a sickbed, the breathing mask 15 is buckled on the oral cavity of the patient, the oxygen generating device 5 is properly started, the three-way flow divider 10 is opened to one end communicated with the three-way joint 12, and oxygen-assisted breathing is carried out on the patient; when people need to breathe together in an emergency, the patient is put on the breathing mask 15, the hard intubation tube 14 is adjusted, the elastic pressure house plate below the hard intubation tube 14 is pressed on the tongue of the patient, the smoothness of the pharynx of the patient is ensured, then the three-way flow divider 10 is opened to the simulated breathing device 11 for communication, and the simulated breathing device 11 is opened, so that the artificial breathing of the patient can be replaced by medical staff; because carry out artificial respiration to the patient through simulation respiratory device 11 in this application, avoided the other person to carry out the cross infection that artificial respiration brought, guaranteed patient breathing safety. Moreover, due to the existence of the humidifying bottle 1, the humidifying device is convenient for humidifying the respiratory oxygen, so that the patient is more comfortable when breathing, and the accident probability of the airway blockage of the patient can be reduced.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles and spirit of the invention, and the scope of the invention is to be accorded the full scope of the claims.

Claims (5)

1. The utility model provides a medical internal medicine is with supplementary respiratory device which characterized in that: comprises a humidifying bottle (1), an air inlet insertion pipe (2) and an air outlet insertion pipe (3) are hermetically connected on the humidifying bottle (1), the air inlet insertion pipe (2) is connected with a gas mixing chamber (4), the gas mixing chamber (4) is communicated with an oxygen generation device (5) and an air inlet pipe (7), a one-way valve (8) flowing to the gas mixing chamber (4) is arranged on the air inlet pipe (7), the air outlet insertion pipe (3) is communicated with a disinfection chamber (9), disinfection cotton stained with alcohol is arranged in the disinfection chamber (9), the disinfection chamber (9) is communicated with a three-way flow divider (10), one outlet of the three-way flow divider (10) is connected with a simulated breathing device (11), the simulated breathing device (11) is communicated with a three-way joint (12), and the other outlet of the three-way flow divider (10) is communicated with the three-way joint (12), the three-way joint (12) is communicated with a hose (13), the hose (13) is connected with a hard insertion tube (14), and the hard insertion tube (14) is hermetically connected with a breathing mask (15).

2. The assisted breathing apparatus for medical science according to claim 1, characterized in that: the air inlet cannula (2) extends to the bottom of the humidifying bottle (1), the air outlet cannula (3) extends to the upper part of the interior of the humidifying bottle (1), and humidifying water from 1/3 to 2/3 is contained in the humidifying bottle (1).

3. The assisted breathing apparatus for medical science according to claim 1, characterized in that: the oxygen generating device (5) is an oxygen bottle or an oxygen bag.

4. The assisted breathing apparatus for medical science according to claim 1, characterized in that: the air inlet pipe (7) is further provided with a dust filter chamber (16), and a dust filter screen is arranged inside the dust filter chamber (16).

5. The assisted breathing apparatus for medical science according to claim 1, characterized in that: simulation respiratory device (11) are including breathing cavity (17), and breathe inside top fixed connection's of cavity (17) miniature rotating electrical machines (18), and cam (19) that set up on miniature rotating electrical machines (18) output shaft, and articulated connecting rod (20) are gone up in cam (19), and connecting rod (20) bottom articulated push rod (21), and push rod (21) bottom fixed connection's rubber block (22), and shrink film (23) that rubber block (22) downside set up, shrink film (23) with breathe cavity (17) inner wall middle part sealing connection, tee bend flow divider (10) and tee bend (12) respectively with breathe cavity (17) lateral wall bottom intercommunication, miniature rotating electrical machines (18) dispose the power and open and stop the control key.

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