CN218739782U - Oropharynx breather pipe with inhale phlegm and carbon dioxide monitoring function - Google Patents

Abstract

The utility model discloses an oropharynx breather pipe with inhale phlegm and carbon dioxide monitoring function, including breather pipe and dog, its characterized in that: the utility model discloses a breather pipe, including breather pipe, stopper, breather pipe inner wall both sides be provided with inhale the phlegm pipe to be provided with respectively inhaling the phlegm mouth, connecting and attracting the pipe interface at inhaling the phlegm pipe both ends, the stopper set up on the breather pipe top to be provided with the bite-block in the relative both sides of stopper, the breather pipe top be provided with the carbon dioxide sampling tube, run through the breather pipe with the carbon dioxide sampling tube to carbon dioxide sampling tube one end in the breather pipe is provided with the carbon dioxide sample mouth. The utility model discloses with the breather pipe with inhale the whole setting of phlegm pipe, can insert patient's throat simultaneously inhaling the phlegm pipe when inserting oropharynx breather pipe, avoid the secondary to insert to inhale the phlegm pipe and cause the misery to the patient, inhale the outside negative pressure of connection suction pipe interface connection on the phlegm pipe and inhale phlegm equipment, can be fast with patient's sputum suction, all be provided with in breather pipe inner wall both sides and inhale the phlegm pipe, can improve and inhale phlegm efficiency.

Description

Oropharynx breather pipe with inhale phlegm and carbon dioxide monitoring function

Technical Field

The utility model relates to the field of medical treatment technology, specifically an oropharynx breather pipe with inhale phlegm and carbon dioxide monitoring function.

Background

The oropharyngeal airway is also called oropharyngeal airway, is a non-tracheal catheter non-invasive airway, can prevent tongue from falling backward, rapidly open airway and establish temporary artificial airway. For anesthetized patients or comatose patients, the tongue and epiglottis may fall backwards into the posterior pharyngeal wall due to the relaxation of the floor of the mouth and pharyngeal muscles that support the tongue to maintain the upper respiratory tract unobstructed, resulting in obstruction of the upper respiratory tract. When correctly inserted into the oropharyngeal airway, the front end of the device can lift the tongue and the epiglottis from the posterior pharyngeal wall, thereby achieving the purpose of preventing or treating the upper respiratory obstruction. Compared with other methods for maintaining the upper respiratory tract unobstructed (such as lifting the chin, holding the mandible and tracheal intubation), the stability of the cervical vertebra of the patient is not affected by inserting the oropharyngeal airway, so the oropharyngeal airway is very widely applied and simple to operate. However, in the medical treatment process using the oropharyngeal airway at present, the oropharyngeal airway is usually fixed to the face of a person by using an adhesive tape, so that the airway is not convenient to fix, after the airway is placed in the mouth of a patient, a clamping structure is not provided, the situation that the oropharyngeal airway falls off from the mouth of the patient generally appears clinically, and meanwhile, the phenomenon that the patient is easily subjected to secondary damage by inserting the oropharyngeal airway first and then inserting the sputum suction tube is also caused, so that the pain of the patient is increased. Patients with pseudobulbar paralysis, dysphagia and atonic cough, patients who are bedridden for a long time and have lung infection without intubation and trachea incision are easy to damage nasal mucosa due to repeated stimulation of sputum suction through nasal cavities, patients with oral sputum suction are easy to bite the sputum suction tube and are not in conflict, and if the patients can place an oropharynx airway with a suction function, the sputum suction operation method is simple, convenient and effective. Meanwhile, the existing oropharynx air duct is found to have no carbon dioxide monitoring function, and the breathing function of the patient can be effectively reflected by the intuitive carbon dioxide monitoring of the patient who is not completely awake after anesthesia, unconscious and the like, so that medical workers can find the change of the state of an illness of the patient in time and make corresponding treatment in time, and the medical safety is greatly improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the difficult fixed of existing oropharynx breather pipe existence, do not have and inhale phlegm and carbon dioxide monitoring function, easily cause the problem of secondary damage to the patient, provide a simple structure, oropharynx breather pipe fixed convenient, fixed efficient, have inhale phlegm and carbon dioxide monitoring function, be difficult for causing secondary damage to the patient have inhale phlegm and carbon dioxide monitoring function's oropharynx breather pipe.

The utility model provides a technical scheme that technical problem taken does:

the utility model provides an oropharynx breather pipe with inhale phlegm and carbon dioxide monitoring function, includes breather pipe and dog, its characterized in that: breather pipe inner wall both sides be provided with inhale the phlegm pipe to be provided with respectively inhaling phlegm mouth, connecting and attracting the pipe interface inhaling the phlegm pipe both ends, the dog setting on the breather pipe top to be provided with the bite-block in the relative both sides of dog, set up the dog to oval structure, avoid the dog to have the edges and corners to cause the damage to the patient, breather pipe top be provided with the carbon dioxide sampling tube, run through the breather pipe with the carbon dioxide sampling tube to carbon dioxide sampling tube one end in the breather pipe is provided with the carbon dioxide sampling mouth.

Preferably, the breather pipe with inhale the phlegm pipe and set up to integrated into one piece structure, with the breather pipe with inhale the whole setting of phlegm pipe, can insert the patient throat simultaneously with inhaling the phlegm pipe when inserting oropharynx breather pipe, avoid the secondary to insert to inhale the phlegm pipe and cause the misery to the patient, inhale the phlegm equipment is inhaled to the outside negative pressure of connection suction pipe interface connection on the phlegm pipe, can be fast with patient's sputum suction, all be provided with in breather pipe inner wall both sides and inhale the phlegm pipe, can improve and inhale phlegm efficiency.

Preferably, the bite-block of dog on be provided with anti-skidding groove, insert the oropharynx breather pipe patient throat after, patient's tooth is stung on the bite-block, can avoid the oropharynx breather pipe to be taken place by the condition of ejecting, changed current adhesive tape and alternately pasted and carry out the mode of fixing at the cheek to the oropharynx breather pipe, can avoid patient's tooth to take place to slide on the bite-block through anti-skidding groove, further improve the stability of oropharynx breather pipe in the course of the work.

Preferably, dog side adjacent with the bite-block on be provided with the fixed block, be provided with the elastic cord between fixed block and fixed block, and be provided with on the elastic cord and adjust and detain, swing joint between elastic cord and the fixed block, be convenient for dismantlement or equipment between elastic cord and the fixed block, insert the oropharynx breather pipe behind the patient's throat, overlap the elastic cord at the patient's head, adjust the elasticity degree of elastic cord through adjusting the knot according to patient's head circumference, can improve the stability of elastic cord at the patient's head, strengthen the stability of oropharynx breather pipe, also can reduce the elastic cord and feel to the oppression of patient, fix the elastic cord at the patient's head to oropharynx breather pipe, the mode that current adhesive tape is alternately pasted and is fixed is carried out at the cheek to oropharynx breather pipe has been changed, not only improve the stability of oropharynx breather pipe in inserting and the use, and also can improve the insertion efficiency of oropharynx breather pipe.

Preferably, the carbon dioxide sampling tube in the breather pipe outside serve and be provided with carbon dioxide monitoring tube, be connected carbon dioxide monitoring tube and display, the carbon dioxide of patient mouth exhalation is discharged through the breather pipe, carbon dioxide sampling tube contacts the carbon dioxide of patient exhalation, can reflect the carbon dioxide of patient exhalation on the display, the doctor of being convenient for understands the carbon dioxide condition of patient exhalation directly perceivedly, can carry out accurate prejudgement to the state of an illness of patient to can carry out accurate treatment to the patient.

The utility model provides an oropharynx breather pipe with inhale phlegm and carbon dioxide monitor function possesses following beneficial effect:

1. the ventilation pipe and the sputum suction pipe are integrally arranged, the sputum suction pipe can be simultaneously inserted into the throat of a patient when the oropharyngeal ventilation pipe is inserted, so that the patient is prevented from suffering from pain caused by secondary insertion of the sputum suction pipe, the sputum suction pipe connecting port on the sputum suction pipe is connected with external negative pressure sputum suction equipment, the sputum of the patient can be quickly sucked out, the sputum suction pipes are arranged on the two sides of the inner wall of the ventilation pipe, and the sputum suction efficiency can be improved;

2. after the oropharynx breather pipe is inserted into the throat of a patient, the elastic band is sleeved on the head of the patient, the degree of tightness of the elastic band is adjusted through the adjusting buckle according to the circumference of the head of the patient, so that the stability of the elastic band on the head of the patient can be improved, the stability of the oropharynx breather pipe can be enhanced, the oppression of the patient by the elastic band can be reduced, the elastic band is fixed on the head of the patient to fix the oropharynx breather pipe, the mode that the existing adhesive tape is crossed and stuck on the cheek to fix the oropharynx breather pipe is changed, the stability of the oropharynx breather pipe in the inserting and using processes is improved, and the inserting efficiency of the oropharynx breather pipe can also be improved;

3. be connected carbon dioxide monitoring tube and display, the carbon dioxide of patient mouth exhalation is discharged through the breather pipe, and carbon dioxide sampling pipe contacts the carbon dioxide of patient exhalation, can reflect the carbon dioxide of patient exhalation on the display, and the doctor of being convenient for directly perceived understanding the carbon dioxide condition of patient exhalation can carry out accurate prejudgement to patient's the state of an illness to can carry out accurate treatment to the patient.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of a part of the structure of the present invention, illustrating the connection structure of the vent pipe and the stopper.

In the figure: 1. the device comprises a vent pipe, 2 parts of a stop block, 3 parts of a sputum suction pipe, 4 parts of a sputum suction port, 5 parts of a connecting suction pipe port, 6 parts of a tooth pad, 7 parts of a fixing block, 8 parts of a carbon dioxide sampling pipe, 9 parts of an anti-skidding groove, 10 parts of an elastic band, 11 parts of an adjusting buckle, 12 parts of a carbon dioxide sampling port and 13 parts of a carbon dioxide monitoring pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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.

As shown in attached figures 1-2 and 1-2, an oropharyngeal airway with sputum aspiration and carbon dioxide monitoring functions comprises an airway 1 and a block 2, and is characterized in that: 1 inner wall both sides of breather pipe be provided with inhale phlegm pipe 3 to 3 both ends of inhaling phlegm pipe are provided with respectively and inhale phlegm mouth 4, connect suction tube interface 5, dog 2 set up on 1 top of breather pipe to be provided with bite-block 6 in 2 relative both sides of dog, set up dog 2 into oval structure, avoid dog 2 to have the edges and corners to cause the damage to the patient, 1 top of breather pipe be provided with carbon dioxide sampling tube 8, run through breather pipe 1 with carbon dioxide sampling tube 8 to 8 one ends of carbon dioxide sampling tube in breather pipe 1 are provided with carbon dioxide sampling mouth 12.

Preferably, breather pipe 1 with inhale phlegm pipe 3 and set up to the integrated into one piece structure, with breather pipe 1 with inhale phlegm pipe 3 whole settings, can insert patient's throat simultaneously with inhaling phlegm pipe 3 when inserting oropharynx breather pipe, avoid the secondary insertion to inhale phlegm pipe 3 and cause the misery to the patient, inhale the phlegm equipment is inhaled to the outside negative pressure of connecting suction pipe interface 5 connection on the phlegm pipe 3, can be fast with patient's sputum suction, all be provided with in 1 inner wall both sides of breather pipe and inhale phlegm pipe 3, can improve and inhale phlegm efficiency.

Preferably, bite-block 6 of dog 2 on be provided with non-slip groove 9, insert the oropharynx breather pipe patient's throat after, patient's tooth is stung on bite-block 6, can avoid the oropharynx breather pipe to be taken place by the condition of ejecting out, changed current adhesive tape and alternately pasted and carry out the mode fixed at the cheek to the oropharynx breather pipe, can avoid patient's tooth to take place to slide on bite-block 6 through non-slip groove 9, further improve the stability of oropharynx breather pipe in the course of the work.

Preferably, the side of the stop block 2 adjacent to the bite-block 6 is provided with a fixed block 7, an elastic band 10 is arranged between the fixed block 7 and the fixed block 7, an adjusting buckle 11 is arranged on the elastic band 10, the elastic band 10 is movably connected with the fixed block 7, the elastic band 10 is convenient to disassemble or assemble with the fixed block 7, the oropharynx air tube is inserted into the throat of a patient, the elastic band 10 is sleeved on the head of the patient, the tightness of the elastic band 10 is adjusted by the adjusting buckle 11 according to the circumference of the head of the patient, the stability of the elastic band 10 on the head of the patient can be improved, the stability of the oropharynx air tube can be enhanced, the oppression feeling of the elastic band 10 on the patient can be reduced, the elastic band 10 is fixed on the head of the patient, the mode that the existing adhesive tape is crossed and adhered on the cheek to fix the oropharynx air tube is changed, the stability of the oropharynx air tube in the inserting and using processes is improved, and the inserting efficiency of the oropharynx air tube can also be improved.

Preferably, the carbon dioxide sampling tube 8 in the 1 outside of breather pipe serve and be provided with carbon dioxide monitoring tube 13, be connected carbon dioxide monitoring tube 13 with the display, the carbon dioxide of patient mouth exhalation is discharged through breather pipe 1, carbon dioxide sampling tube 8 contacts the carbon dioxide of patient exhalation, can reflect the carbon dioxide of patient exhalation on the display, the doctor of being convenient for understands the carbon dioxide condition of patient exhalation directly perceived, can carry out accurate prejudgement to the state of an illness of patient to can carry out accurate treatment to the patient.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The utility model discloses the part that does not relate to all is the same with prior art or can adopt prior art to realize.

Claims (3)

1. The utility model provides an oropharynx breather pipe with inhale phlegm and carbon dioxide monitoring function, includes breather pipe and dog, its characterized in that: breather pipe inner wall both sides be provided with inhale the phlegm pipe to be provided with respectively inhaling phlegm mouth, connecting and attracting the pipe connector mouth inhaling the phlegm pipe both ends, the dog setting on the breather pipe top to be provided with the bite-block in the relative both sides of dog, the bite-block of dog on be provided with anti-skidding groove, the dog side adjacent with the bite-block on be provided with the fixed block, be provided with the elastic cord between fixed block and fixed block to be provided with on the elastic cord and adjust and detain, the breather pipe top be provided with the carbon dioxide sampling tube, run through the breather pipe with the carbon dioxide sampling tube to carbon dioxide sampling tube one end in the breather pipe is provided with the carbon dioxide sampling mouth.

2. The oropharyngeal airway with sputum aspiration and carbon dioxide monitoring capabilities of claim 1, wherein: the breather pipe and the sputum suction pipe are of an integrally formed structure.

3. The oropharyngeal airway with sputum aspiration and carbon dioxide monitoring capabilities of claim 1, wherein: and a carbon dioxide monitoring tube is arranged at one end of the carbon dioxide sampling tube outside the vent pipe.

Images