CN210933307U - Continuous oxygen inhalation and respiratory monitoring oxygen mask for tracheotomy patient - Google Patents

Abstract

The utility model relates to a continuous oxygen inhalation and respiratory monitoring oxygen mask for tracheotomy of tracheotomy patient, which comprises an outer cover and an inner cover; the inner cover is arranged in the middle of the outer cover, and the bottoms of the inner cover and the outer cover are superposed into an integral structure; a water bag belt is arranged around the opening of the outer cover; a first interface is arranged on the surface of the outer cover close to the opening; two sides of the middle part of the outer cover are provided with small holes; the two sides of the opening of the outer cover are also provided with a buckle belt and a buckle; the center of the bottom of the inner cover is provided with an opening; a second interface is arranged on the edge of the opening; the first interface and the second interface are respectively connected with the inner parts of the outer cover and the inner cover; the first interface and the second interface are both international standardized interfaces. Its advantages are: can utilize anesthesia machine and gas receiving arrangement to carry out the oxygen suppliment that lasts and monitor patient's end-tidal carbon dioxide and respiratory frequency respectively when bronchofiberscope inspection to improve the security that patient examined greatly.

Description

Continuous oxygen inhalation and respiratory monitoring oxygen mask for tracheotomy patient

Technical Field

The utility model belongs to the technical field of the medical appliances technique and specifically relates to a autogenous cutting patient goes fiber bronchoscopy and lasts oxygen uptake and monitoring breathing oxygen mask.

Background

In clinical work, for many severe patients, severe respiratory diseases are often encountered, and in the treatment process, tracheotomy is often required to be performed for sputum suction, long-term respiratory support of a breathing machine and the like. In the inspection process, the bronchofiberscope body all has certain irritability to trachea and bronchus, cause bad nerve reflex a bit of very much seriously even, arouse serious complication, if implement anesthesia technique and inspect, the respiratory inhibitory action of its medicine probably causes patient's oxygen deficiency and danger, in addition patient's trachea opens the back and can only rely on tracheal cannula business turn over to breathe, and this passageway is again taken up the inspection by the bronchofiberscope simultaneously, present clinical lack satisfies its medical instrument that not only sustainable oxygen uptake can also effectively inspect simultaneously. Therefore, the invention provides a product which can carry out bronchoscopy on a tracheotomy patient, can continuously inhale oxygen and monitor respiration, and improves the safety of the patient.

Chinese patent documents: CN201620522555.7, application date 2016.06.01, patent names: an oxygen mask special for a tracheotomy patient. The oxygen mask body comprises a side wall and a top cover, the side wall is a through rectangular, waist-shaped or oval annular structure, the top end of the side wall is sealed by the top cover, and the bottom end of the side wall is of an inward-concave arc structure; the top cover is provided with an oxygen input pipe and a sputum suction hole, the oxygen input pipe and the sputum suction hole are both communicated with the oxygen mask body, and a sealing rubber plug is arranged in the sputum suction hole; fixing rings are arranged at the two ends of the oxygen mask body in the width direction, and fixing straps with adjustable lengths are movably connected to the fixing rings; can effectively prevent the air leakage phenomenon and is convenient for the sputum suction operation. However, there is no report on continuous oxygen inhalation and respiratory oxygen monitoring for bronchofiberscope examination of tracheostomy patients, which is that the inner and outer covers are respectively provided with a pipeline for connecting the anesthesia machine and the gas receiving device, and an opening for bronchofiberscope examination, so that the anesthesia machine and the gas receiving device can be used for respectively carrying out continuous oxygen supply and monitoring end-expiratory carbon dioxide and respiratory frequency of the patients during bronchofiberscope examination, thereby greatly improving the safety of the patient examination.

In summary, there is a need for a continuous oxygen inhalation and respiratory monitoring mask for bronchofiberscope examination of tracheotomy patients, which is characterized in that a pipeline for connecting an anesthesia machine and a gas receiving device is respectively arranged on an inner housing and an outer housing, and an opening for bronchofiberscope examination is arranged on the inner housing and the outer housing, so that the anesthesia machine and the gas receiving device can be used for continuously supplying oxygen to the patients and monitoring the end-tidal carbon dioxide and respiratory rate of the patients during bronchofiberscope examination, and the safety of the patient examination is greatly improved.

Disclosure of Invention

The utility model aims at providing a pipeline through being equipped with connection anesthesia machine and gas receiving arrangement respectively on the dustcoat including to and supply bronchofiberscope inspection's trompil, can utilize anesthesia machine and gas receiving arrangement to carry out the oxygen suppliment that lasts and monitor patient's end-tidal carbon dioxide and respiratory frequency respectively to the patient when bronchofiberscope inspection, thereby improve the autogenous cutting patient of patient's security of inspection greatly and walk bronchofiberscope inspection and continue oxygen uptake and monitoring breathing oxygen mask.

In order to achieve the purpose, the utility model adopts the technical proposal that:

an oxygen mask for continuously inhaling oxygen and monitoring respiration for bronchofiberscope examination of an tracheotomy patient, which comprises an outer mask and an inner mask; the inner cover is arranged in the middle of the outer cover, and the bottoms of the inner cover and the outer cover are superposed into an integral structure; a water bag belt is arranged around the opening of the outer cover; a first interface is arranged on the surface of the outer cover close to the opening; a cap is connected to the first interface; two sides of the middle part of the outer cover are provided with small holes; the two sides of the opening of the outer cover are respectively provided with a buckle belt and a buckle; the center of the bottom of the inner cover is provided with an opening, and the edge close to the opening is provided with a second interface; the second interface penetrates through the surfaces of the outer cover and the inner cover; the first interface and the second interface are respectively connected with the inner parts of the outer cover and the inner cover; the first interface and the second interface are both international standardized interfaces.

As a preferable technical scheme, the water bag belt arranged on the periphery of the opening of the outer cover is 1 cm-3 cm in diameter after being filled with liquid.

As a preferable technical scheme, the fastening belts arranged at the two sides of the opening of the outer cover are elastic fastening belts.

As a preferable technical scheme, the inner cover is in a conical column section pipeline shape with the diameter of 2 cm-5 cm and the length of 1.5 cm-4.5 cm, and the pipeline is large in top diameter and small in bottom diameter.

As a preferred technical scheme, after the outer cover is fixed with the neck of a patient, the inner cover is opposite to the tracheotomy opening of the patient, and the top of the inner cover is 1 cm-3 cm away from the tracheotomy opening.

As a preferred technical scheme, the opening arranged at the middle position of the bottom of the inner cover is a one-way valve opening, and the diameter of the opening is matched with the diameter of a clinically common bronchofiberscope.

As a preferable technical scheme, the oxygen mask further comprises a hollow threaded interface and a rotating cap.

As a preferred technical scheme, the hollow threaded interface is arranged in the middle of the outer surface of the bottom of the outer cover, and a threaded matching connection structure is arranged between the hollow threaded interface and the rotating cap.

The utility model has the advantages that:

1. utilize the design of going up the water pocket area around the dustcoat opening, when the oxygen mask dustcoat is in patient's tracheotomy position, because sunken unevenness of people's neck skin wrinkle, through pour into certain water back and seal in the water pocket, because the water of gravity can flow into low department, thereby increase the seal of oxygen mask and patient's neck, and multiplicable patient's comfort level and the oppression damage that reduces hard material.

2. The buckle belt and the buckle button arranged at the two sides of the opening of the outer cover are elastic buckle belts, so that the oxygen mask body can be effectively fixed at the position of the neck of a patient to prevent the oxygen mask body from falling off, and the safety of the patient is ensured; the small holes arranged at the two sides of the middle part of the outer cover can prevent the conditions that the breathing of the patient is difficult and the normal examination is influenced due to the overlarge gas pressure in the cover.

3. Locate the first interface that the dustcoat surface is close to the open position and can externally connect anesthesia machine, screw thread interface or oxygen uptake pipe and take the cap and cover convenient to use to sustainable carries out the oxygen supply of higher concentration to the patient, avoids the oxygen deficiency.

4. When patient's expired gas was followed tracheotomy opening exhalation, the gas just can be collected to the inner cover, through including the external gas receiving device of second interface on cover bottom limit, alright monitor patient's end-tidal carbon dioxide and breath evaluation rate to guarantee patient's safety.

5. Locate the trompil of the middle position in inner cover bottom and the bronchofiberscope diameter phase-match that clinically commonly used, when the entering inspection of the bronchofiberscope of being convenient for, prevent gas leakage, the continuous oxygen suppliment of the first interface of rethread and the continuous monitoring to end-tidal carbon dioxide and respiratory frequency of second interface, security when alright improve patient's bronchofiberscope inspection greatly.

6. The way that the hollow threaded interface is matched with the rotating cap provided with the holes with different diameters is convenient for using the bronchofiberscopes with different diameters to check the tracheostomy patient.

Drawings

FIG. 1 is a schematic three-dimensional surface view of the continuous oxygen inhalation and respiratory monitoring oxygen mask for bronchofiberscope examination of tracheostomy patients.

Fig. 2 is a schematic bottom perspective view of the continuous oxygen inhalation and respiratory monitoring oxygen mask for bronchofiberscope examination of tracheostomy patients.

FIG. 3 is a schematic view of the bottom surface of another pneumotache patient bronchofiberscope of the present invention for continuously inhaling oxygen and monitoring respiration oxygen mask.

FIG. 4 is a schematic view of another rotary cap of the tracheotomy patient bronchofiberscope examination continuous oxygen inhalation and respiratory monitoring oxygen mask of the present invention.

Detailed Description

The invention will be further described with reference to the following examples and with reference to the accompanying drawings.

The reference numerals and components referred to in the drawings are as follows:

1. outer cover 11. water bag belt

12. First interface 121. Cap

13. Small hole 14. buckle belt

15. Button 2. inner cover

21. Opening 22. second interface

3. Hollow screw interface 31. rotary cap

Example 1

Please refer to fig. 1 and 2, fig. 1 is a surface schematic view of the continuous oxygen inhalation and respiratory oxygen monitoring mask for bronchofiberscope examination of tracheostomy patients, and fig. 2 is a bottom schematic view of the continuous oxygen inhalation and respiratory oxygen monitoring mask for bronchofiberscope examination of tracheostomy patients. A continuous oxygen uptake and monitoring respiration oxygen mask for tracheotomy of tracheotomy patient comprises an outer mask 1 and an inner mask 2; the inner cover 2 is arranged in the middle of the outer cover 1, and the bottoms of the inner cover and the outer cover are superposed into an integral structure; a water bag belt 11 is arranged around the opening of the outer cover 1; a first interface 12 is arranged on the surface of the outer cover 1 close to the opening; a cap 121 is connected to the first interface 12; two sides of the middle part of the outer cover 1 are provided with small holes 13; the two sides of the opening of the outer cover 1 are respectively provided with a buckle belt 14 and a buckle button 15; the center of the bottom of the inner cover 2 is provided with an opening 21, and the edge close to the opening 21 is provided with a second interface 22; the second port 22 penetrates through the surfaces of the outer cover 1 and the inner cover 2; the first port 12 and the second port 22 are respectively connected with the inner parts of the outer cover 1 and the inner cover 2; the first interface 11 and the second interface 22 are international standardized interfaces.

It should be noted that: the water bag belt 12 arranged around the opening of the outer cover 1 is 1 cm-3 cm in diameter after being filled with liquid; by utilizing the design of the water bag belt 12 on the periphery of the opening of the outer cover 1, when the oxygen mask outer cover 1 covers the tracheotomy part of a patient, because wrinkles on the neck skin of the patient are sunken and uneven, a certain amount of water is injected into the water bag 12 and then is sealed, and because the water is used under the action of gravity, the water flows to the lower part, so that the tightness between the oxygen mask and the neck of the patient is improved, the comfort of the patient is improved, and the compression injury caused by hard materials is reduced; the small holes 13 arranged at the two sides of the middle part of the outer cover 1 can prevent the conditions that the breathing of the patient is difficult and the normal examination is influenced due to overlarge gas pressure in the cover; the buckle belt 14 and the buckle button 15 which are arranged on the two sides of the opening of the outer cover 1 are elastic buckle belts, so that the oxygen mask body can be effectively fixed on the neck of a patient to prevent the oxygen mask body from falling off, and the safety of the patient is ensured; the first interface 21 arranged on the surface of the outer cover 1 and close to the opening can be externally connected with an anesthesia machine, a threaded interface or an oxygen uptake pipe and is provided with a cap 121 for convenient use, so that high-concentration oxygen supply can be continuously carried out on a patient, and oxygen deficiency is avoided; the inner cover 2 is in a conical column section pipeline shape with the diameter of 2 cm-5 cm and the length of 1.5 cm-4.5 cm, and the pipeline is large in top diameter and small in bottom diameter; after the outer cover 1 is fixed with the neck of a patient, the inner cover 2 is opposite to the tracheotomy opening of the patient, and the top of the inner cover 2 is 1 cm-3 cm away from the tracheotomy opening; when the expired air of the patient is exhaled from the tracheotomy opening, the inner cover 2 can collect the air, and the second interface 22 on the bottom edge of the inner cover 2 is externally connected with an air receiving device, so that the end-tidal carbon dioxide and the respiration evaluation rate of the patient can be monitored, and the safety of the patient is ensured; the circumference of the opening 21 arranged at the center of the bottom of the inner cover 2 is of a one-way valve structure; the diameter of the opening 21 is matched with the diameter of a bronchofiberscope which is commonly used clinically, so that a closed space is formed when the bronchofiberscope enters the examination, air leakage is prevented, and the continuous oxygen supply of the first interface 11 and the continuous monitoring of the second interface 22 on the end-expiratory carbon dioxide and the respiratory frequency can greatly improve the safety of a patient during the bronchofiberscope examination.

Example 2

Please refer to fig. 3 and 4, fig. 3 is a bottom schematic view of another continuous oxygen inhalation and respiratory oxygen monitoring mask for bronchofiberscope examination of tracheostomy patients, and fig. 4 is a schematic view of various rotary caps of the continuous oxygen inhalation and respiratory oxygen monitoring mask for bronchofiberscope examination of tracheostomy patients. The embodiment is basically the same as the embodiment 1, except that a hollow threaded interface 3 is arranged at the center of the outer surface of the bottom of the outer cover 1 in the embodiment; the hollow threaded interface 3 is communicated with the inner parts of the outer cover 1 and the inner cover 2; the hollow threaded connector 3 is also provided with a detachable rotating cap 31; the rotating cap 31 is in threaded fit connection with the hollow threaded interface 3; the number of the rotating caps 31 is multiple, and the middle part of each rotating cap 31 is respectively provided with a one-way valve opening 21 matched with the diameters of several clinically common bronchofiberscopes; the use of the hollow threaded interface 3 and the rotating cap 31 with the holes 21 of different diameters facilitates the use of bronchofiberscopes of different diameters to examine the tracheostomy patient.

The utility model discloses a autogenous cutting patient goes fiber bronchoscopy and lasts oxygen uptake and monitor breathing oxygen mask, utilize the design of the water pocket area around the dustcoat opening, when the oxygen mask dustcoat cover is in patient's trachea incision position, because people's neck skin wrinkle is sunken uneven, through pouring into a certain water in the water pocket and seal, because the gravity can flow to the low place with the water, thereby increase the seal of oxygen mask and patient's neck, and can increase patient's comfort level and reduce the oppression damage of hard material; the buckle belt and the buckle button arranged at the two sides of the opening of the outer cover are elastic buckle belts, so that the oxygen mask body can be effectively fixed at the position of the neck of a patient to prevent the oxygen mask body from falling off, and the safety of the patient is ensured; the first interface arranged on the surface of the outer cover and close to the opening can be externally connected with an anesthesia machine, a threaded interface or an oxygen uptake pipe and is provided with a cap cover for convenient use, so that oxygen with higher concentration can be continuously supplied to a patient, and oxygen deficiency is avoided; when the expired air of the patient is exhaled from the tracheotomy opening, the inner cover can collect the air, and the end-tidal carbon dioxide and the respiratory frequency of the patient can be monitored by externally connecting the second interface on the bottom edge of the inner cover with an air receiving device, so that the safety of the patient is ensured; the opening arranged in the middle of the bottom of the inner cover is matched with the diameter of a bronchofiberscope which is commonly used clinically, so that the bronchofiberscope can be checked conveniently, air leakage is prevented, and the safety of a patient during bronchofiberscope examination can be greatly improved by continuously supplying oxygen through the first interface and continuously monitoring the end-tidal carbon dioxide and the respiratory frequency through the second interface; the way that the hollow threaded interface is matched with the rotating cap provided with the holes with different diameters is convenient for using the bronchofiberscopes with different diameters to check the tracheostomy patient.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and additions can be made without departing from the principles of the present invention, and these improvements and additions should also be regarded as the protection scope of the present invention.

Claims (8)

1. A continuous oxygen uptake and monitoring respiration oxygen mask for tracheotomy of tracheotomy patient is characterized in that the oxygen mask comprises an outer mask and an inner mask; the inner cover is arranged in the middle of the outer cover, and the bottoms of the inner cover and the outer cover are superposed into an integral structure; a water bag belt is arranged around the opening of the outer cover; a first interface is arranged on the surface of the outer cover close to the opening; a cap is connected to the first interface; two sides of the middle part of the outer cover are provided with small holes; the two sides of the opening of the outer cover are respectively provided with a buckle belt and a buckle; the center of the bottom of the inner cover is provided with an opening, and the edge close to the opening is provided with a second interface; the second interface penetrates through the surfaces of the outer cover and the inner cover; the first interface and the second interface are respectively connected with the inner parts of the outer cover and the inner cover; the first interface and the second interface are both international standardized interfaces.

2. The oxygen mask as claimed in claim 1, wherein the diameter of the water bag strip around the opening of the outer mask is 1cm to 3cm after being filled with liquid.

3. The mask according to claim 1, wherein the straps disposed on opposite sides of the mask opening are elastic straps.

4. The oxygen mask as claimed in claim 1, wherein the inner mask is in the shape of a pipe with a conical section having a diameter of 2cm to 5cm and a length of 1.5cm to 4.5cm, and the pipe has a large diameter at the top and a small diameter at the bottom.

5. The oxygen mask as claimed in claim 2 or 3, wherein the inner mask is positioned to face the tracheotomy opening of the patient's trachea after the outer mask is fitted around the patient's neck, and the top of the inner mask is spaced from the tracheotomy opening by 1cm to 3 cm.

6. The oxygen mask as claimed in claim 4, wherein the opening at the center of the bottom of the inner mask is a one-way flap opening with a diameter matching the diameter of a clinically used bronchofiberscope.

7. The mask according to claim 1, further comprising a hollow nipple and a swivel cap.

8. The oxygen mask as claimed in claim 7, wherein the hollow screw interface is disposed at the center of the outer surface of the bottom of the mask, and the hollow screw interface and the rotary cap are connected by a screw fit.

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