CN210902983U - Nasopharynx breather pipe with gas sampling and body temperature monitoring - Google Patents

Abstract

The utility model discloses a nasopharynx breather pipe with gaseous sampling and body temperature monitoring, including respiratory tube, breathing passageway, body temperature sensor wire, body temperature sensor passageway, body temperature sensor wire plug, body temperature sensor probe, carbon dioxide acquisition pipe and carbon dioxide acquisition passageway, the respiratory tube includes breathing passageway, body temperature sensor passageway and carbon dioxide acquisition passageway. The utility model discloses set up respiratory tube, breathing passage, body temperature sensor wire, body temperature sensor passageway, body temperature sensor wire plug, body temperature sensor probe, carbon dioxide acquisition pipe and carbon dioxide acquisition passageway, can carry out gaseous sampling and body temperature monitoring to the patient when the nasopharynx breather pipe acts on, and do not influence each other and interfere, can effectively save medical personnel operating procedure and time to can maintain patient nasopharynx way unobstructed, reduce the injury that causes the patient, consequently, the utility model discloses convenient to use, easy operation, security height.

Description

Nasopharynx breather pipe with gas sampling and body temperature monitoring

The utility model relates to the technical field of medical equipment, specifically a nasopharynx breather pipe with gas sampling and body temperature monitoring.

Background

The nasopharynx breather pipe is one of the most commonly used methods for solving obstruction of a breathing airway caused by various reasons in clinic, keeping the respiratory tract unobstructed is also the key for treating critical patients, the nasopharynx breather pipe is used for inserting a breathing pipe body into the root of a tongue through a front nasal hole, relieving the obstruction of the respiratory tract of the nasopharynx, ensuring the unobstructed property of the nasopharynx, reducing air flow resistance, improving the breathing condition of patients, facilitating the suction of the upper respiratory tract and achieving the purpose of establishing an artificial airway.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a nasopharynx breather pipe with gaseous sampling and body temperature monitoring to solve the problem that provides among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a nasopharynx breather pipe with gaseous sampling and body temperature monitoring, includes respiratory tube, breathing passage, body temperature sensor wire, body temperature sensor passageway, body temperature sensor wire plug, body temperature sensor probe, carbon dioxide acquisition pipe and carbon dioxide acquisition passage, the respiratory tube is including breathing passage, body temperature sensor passageway and carbon dioxide acquisition passage, and carbon dioxide acquisition passage and carbon dioxide acquisition pipe intercommunication, the bottom of body temperature sensor passageway is provided with the body temperature sensor probe, and the wiring end of body temperature sensor probe passes through body temperature sensor wire and body temperature sensor wire plug connection.

Preferably, one end of the carbon dioxide collection tube, which is far away from the breathing tube, is communicated with a luer connector, and one end of the luer connector, which is far away from the carbon dioxide collection tube, is communicated with a filter.

Preferably, the top of the breathing tube is placed into the nasopharynx of the patient to establish the artificial airway and is connected with the breathing equipment.

Preferably, the body temperature sensor lead plug is electrically connected with an external matched indicating device.

Preferably, the cavity volume of the breathing channel is 2-4 times of the cavity volume of the carbon dioxide acquisition channel, and the cavity volume of the breathing channel is 4-6 times of the cavity volume of the body temperature sensor channel.

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

the utility model is provided with a respiratory tube, a breathing passage, a body temperature sensor wire, a body temperature sensor passage, a body temperature sensor wire plug, a body temperature sensor probe, a carbon dioxide collecting tube and a carbon dioxide collecting passage, medical staff puts the respiratory tube into the nasopharynx passage of a patient to establish an artificial airway and connect the respiratory device, continuous oxygen supply is carried out through the breathing passage of the respiratory tube, the ventilation volume is large, the smoothness of respiration of the patient can be ensured, the carbon dioxide collecting tube is connected with the upper end of the carbon dioxide collecting passage, the medical staff can sample and detect the expired gas of the patient through the external carbon dioxide collecting tube as required, the body temperature sensor wire enters the inner side of the respiratory tube through the body temperature sensor passage and extends to the tail end of the respiratory tube along the body temperature sensor passage, the body temperature sensor probe is positioned at the tail end of the body temperature sensor passage, can be used to the continuous monitoring of patient's body temperature, simultaneously, this pipeline can be when the nasopharynx breather pipe plays a role, carry out gas sampling and body temperature monitoring to the patient, and not influence each other and interfere, can effectively save medical personnel operating procedure and time, and can maintain patient's nasopharynx way unobstructed, reduce the injury that causes the patient, therefore, the utility model discloses convenient to use, easy operation, security are high, and the product can effectively prevent cross infection for disposable medical instrument, and what adopt is internal measuring mode, has improved the measurement precision, and accurate effectual body temperature monitoring will help guaranteeing patient vital sign's stability, and the real-time supervision of body temperature is favorable to medical personnel in the art in time to adjust the treatment, maintains the coordination of patient's internal environment.

Drawings

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

fig. 2 is an enlarged schematic view of the a position of the present invention.

In the figure: 1. a breathing tube; 2. a breathing passage; 3. a body temperature sensor lead; 4. a body temperature sensor channel; 5. a body temperature sensor lead plug; 6. a body temperature sensor probe; 7. a filter; 8. a luer fitting; 9. a carbon dioxide collection tube; 10. a carbon dioxide collection channel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The respiratory tube 1, the respiratory channel 2, the body temperature sensor lead 3, the body temperature sensor channel 4, the body temperature sensor lead plug 5, the body temperature sensor probe 6, the filter 7, the luer connector 8, the carbon dioxide collection tube 9 and the carbon dioxide collection channel 10 are all universal standard parts or parts known by technicians in the field, and the structure and the principle of the device can be known by the technicians in the field through technical manuals or conventional experimental methods.

Referring to fig. 1-2, a nasopharynx breather pipe with gas sampling and body temperature monitoring comprises a breathing pipe 1, a breathing passage 2, a body temperature sensor wire 3, a body temperature sensor passage 4, a body temperature sensor wire plug 5, a body temperature sensor probe 6, a carbon dioxide collecting pipe 9 and a carbon dioxide collecting passage 10, wherein the top of the breathing pipe 1 is placed in the nasopharynx passage of a patient to establish an artificial airway and is connected with breathing equipment, the breathing pipe 1 comprises the breathing passage 2, the body temperature sensor passage 4 and the carbon dioxide collecting passage 10, the outer surface of the breathing pipe 1 is smooth to ensure smooth placement in the nasopharynx passage of the patient, the cavity volume of the breathing passage 2 is 2-4 times of the cavity volume of the carbon dioxide collecting passage 10, the cavity volume of the breathing passage 2 is 4-6 times of the cavity volume of the body temperature sensor passage 4, and the carbon dioxide collecting passage 10 is communicated with the, one end of the carbon dioxide collecting pipe 9, which is far away from the breathing pipe 1, is communicated with a luer connector 8, one end of the luer connector 8, which is far away from the carbon dioxide collecting pipe 9, is communicated with a filter 7 and is used for filtering exhaled gas, the bottom of the body temperature sensor channel 4 is provided with a body temperature sensor probe 6, a wiring terminal of the body temperature sensor probe 6 is connected with a body temperature sensor wire plug 5 through a body temperature sensor wire 3, medical staff puts the breathing pipe 1 into a nasopharynx passage of a patient to establish an artificial airway and is connected with breathing equipment, continuous oxygen supply is carried out through a breathing passage 2 of the breathing pipe 1, the ventilation volume is large, the patient can breathe smoothly, the upper end of the carbon dioxide collecting passage 10 is connected with the carbon dioxide collecting pipe 9, the medical staff can sample and detect the exhaled gas of the patient through the externally arranged carbon dioxide collecting pipe 9 as required, and extend to the end of the respiratory tube 1 along the body temperature sensor channel 4, the body temperature sensor probe 6 is positioned at the end of the body temperature sensor channel 4, and is close to the human body, after the external body temperature sensor lead plug 5 is connected with a matched indicating device, the device can be used for continuously monitoring the body temperature of the patient, simultaneously, the pipeline can carry out gas sampling and body temperature monitoring on the patient while the nasopharynx breather tube acts, and does not influence and interfere with each other, thereby effectively saving the operation steps and time of medical personnel, maintaining the smoothness of the nasopharynx passage of the patient, and reducing the injury to the patient, therefore, the utility model has convenient use, simple and easy operation and high safety, the product is a disposable medical appliance which can effectively prevent cross infection, and adopts an internal measurement mode, improves the measurement accuracy, and the accurate and effective body temperature monitoring can help to ensure the stability of the vital signs of the patient, the real-time monitoring of body temperature in the art is favorable to medical personnel in time to adjust the treatment, maintains the coordination of patient's internal environment, body temperature sensor wire plug 5 and external phase-match indicating device electric connection.

When in use, the breathing tube 1, the breathing channel 2, the body temperature sensor wire 3, the body temperature sensor channel 4, the body temperature sensor wire plug 5, the body temperature sensor probe 6, the carbon dioxide collecting tube 9 and the carbon dioxide collecting channel 10 are arranged, medical staff puts the breathing tube 1 into the nasopharynx of a patient to establish an artificial airway and connect breathing equipment, continuous oxygen supply is carried out through the breathing channel 2 of the breathing tube 1, the ventilation volume is large, the patient can be ensured to breathe smoothly, the upper end of the carbon dioxide collecting channel 10 is connected with the carbon dioxide collecting tube 9, the medical staff can sample and detect the expired gas of the patient through the external carbon dioxide collecting tube 9 according to requirements, the body temperature sensor wire 3 enters the inner side of the breathing tube 1 through the body temperature sensor channel 4 and extends to the tail end of the breathing tube 1 along the body temperature sensor channel 4, and the body temperature sensor probe, close to the human body, after the external body temperature sensor lead plug 5 is connected with the matched indicating equipment, can be used for continuously monitoring the body temperature of a patient, and simultaneously, the pipeline can play a role in the nasopharynx breather pipe, the gas sampling and the body temperature monitoring are carried out on the patient without mutual interference, the operation steps and time of medical personnel can be effectively saved, the smoothness of the nasopharyngeal tract of the patient can be maintained, the injury to the patient is reduced, therefore, the utility model has the advantages of convenient use, simple and easy operation and high safety, the product is a disposable medical appliance which can effectively prevent cross infection, and the mode of internal measurement is adopted, so that the measurement accuracy is improved, the accurate and effective body temperature monitoring can help to ensure the stability of the vital signs of the patient, and the real-time monitoring of the body temperature in the operation is beneficial to the medical care personnel to adjust the treatment measures in time and maintain the coordination of the internal environment of the patient.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a nasopharynx breather pipe with gaseous sampling and body temperature monitoring, includes respiratory tube (1), breathing passage (2), body temperature sensor wire (3), body temperature sensor passageway (4), body temperature sensor wire plug (5), body temperature sensor probe (6), carbon dioxide collection pipe (9) and carbon dioxide collection passageway (10), its characterized in that: respiratory tube (1) gathers passageway (10) including breathing passageway (2), body temperature sensor passageway (4) and carbon dioxide, and carbon dioxide gathers passageway (10) and carbon dioxide and gathers pipe (9) intercommunication, the bottom of body temperature sensor passageway (4) is provided with body temperature sensor probe (6), and the wiring end of body temperature sensor probe (6) passes through body temperature sensor wire (3) and is connected with body temperature sensor wire plug (5).

2. A nasopharyngeal airway with gas sampling and body temperature monitoring as in claim 1, wherein: one end of the carbon dioxide collection tube (9) far away from the respiratory tube (1) is communicated with a luer connector (8), and one end of the luer connector (8) far away from the carbon dioxide collection tube (9) is communicated with a filter (7).

3. A nasopharyngeal airway with gas sampling and body temperature monitoring as in claim 1, wherein: the top of the breathing tube (1) is placed into the nasopharynx of a patient to establish an artificial airway and is connected with breathing equipment.

4. A nasopharyngeal airway with gas sampling and body temperature monitoring as in claim 1, wherein: the body temperature sensor lead plug (5) is electrically connected with an external matched indicating device.

5. A nasopharyngeal airway with gas sampling and body temperature monitoring as in claim 1, wherein: the cavity volume of the breathing channel (2) is 2-4 times of the cavity volume of the carbon dioxide acquisition channel (10), and the cavity volume of the breathing channel (2) is 4-6 times of the cavity volume of the body temperature sensor channel (4).

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