CN219462240U - Oxygen inhalation nasal catheter for patient with facial burn - Google Patents

Abstract

The utility model belongs to the technical field of medical treatment, and particularly relates to an oxygen inhalation nasal catheter for a patient with facial burn, which comprises a connecting pipe, wherein one end of the connecting pipe is connected with an oxygen bottle, and the other end of the connecting pipe is connected with the nasal catheter; the nasal catheter comprises a pi-shaped catheter, two oxygen delivery pipes and an adjusting buckle, wherein two ends of the pi-shaped catheter are respectively communicated with the two oxygen delivery pipes, the other ends of the two oxygen delivery pipes are connected with connecting pipes, the adjusting buckle is slidably arranged on the two oxygen delivery pipes, and the two oxygen delivery pipes can absorb wound surface seepage of a patient suffering from facial burn; solves the problems that the prior nasal catheter is easy to slip off from the face when worn too loose and easy to generate indentation when too tight.

Description

Oxygen inhalation nasal catheter for patient with facial burn

Technical Field

The utility model belongs to the technical field of medical treatment, and particularly relates to an oxygen inhalation nasal catheter for a patient with facial burn.

Background

The oxygen inhalation nasal catheter is very popular in clinical application, the structure of the existing oxygen inhalation nasal catheter comprises a connecting pipe with an air inlet end connected with an oxygen bottle, the air outlet end of the connecting pipe is provided with a nasal catheter, the two ends of the nasal catheter are connected with the air outlet end of the connecting pipe, two air outlet ends corresponding to nasal cavities are arranged on the nasal catheter, oxygen is discharged from the oxygen bottle and enters the nasal catheter through the connecting pipe, oxygen is discharged from the air outlet ends and enters the nasal cavity of a patient, and oxygen inhalation requirements of the patient are met.

The following problems exist when using existing oxygen inhalation nasal catheters in the treatment of patients with facial burns: the existing nasal catheter is generally made of silica gel, and because seepage can be generated at the wound surface of the face of a patient, when the seepage is excessive, the nasal catheter easily slides off the face of the patient, and if the nasal catheter is tightly regulated to be closely attached to the face of the patient, the nasal catheter can generate indentation on the wound surface, so that wound surface recovery is not facilitated.

Disclosure of Invention

The utility model aims to provide an oxygen inhalation nasal catheter for a patient with facial burn, which solves the problems that the traditional nasal catheter is easy to slip off from the face when worn too loose and easy to generate indentation when too tight.

In order to solve the technical problems, the utility model provides the following technical scheme:

an oxygen inhalation nasal catheter for a patient with facial burn comprises a connecting pipe, wherein one end of the connecting pipe is connected with an oxygen bottle, and the other end of the connecting pipe is connected with the nasal catheter; the nasal catheter comprises a pi-shaped catheter, two oxygen delivery pipes and an adjusting buckle, wherein two ends of the pi-shaped catheter are respectively communicated with the two oxygen delivery pipes, the other ends of the two oxygen delivery pipes are connected with a connecting pipe, the adjusting buckle is slidably arranged on the two oxygen delivery pipes, and the two oxygen delivery pipes can absorb wound surface seepage of a patient suffering from facial burn.

The technical principle of the scheme is as follows:

the pi-shaped catheter is worn on the nasal cavity of a patient, so that the two oxygen delivery tubes respectively bypass two ears of the patient, the tightness degree of the nasal catheter is adjusted through the adjusting buckle, the two oxygen delivery tubes are attached to but not tightly pressed on the face of the patient, and after the wound surface of the patient with the face burn is permeated, the oxygen delivery tubes absorb the permeated liquid, so that the two oxygen delivery tubes are prevented from sliding off the face of the patient, and oxygen inhalation of the patient is prevented from being influenced.

The beneficial technical effects of this scheme are:

compared with the prior art, the nasal catheter can be effectively prevented from being worn too loose, the nasal catheter can slide off the face of the patient due to the seepage of the wound surface, the problem that the nasal catheter is worn too tightly to generate indentation can be solved, and wound recovery of patients with facial burns is facilitated.

Further, the oxygen supplying pipe comprises a water absorbing pipe which is used for absorbing wound surface seepage of a patient with facial burn, and the water absorbing pipe comprises a non-woven fabric surface layer, a water absorbing layer and a bottom layer film.

The beneficial effects are that: by arranging the water absorption layer to absorb wound surface seepage, the nasal catheter is prevented from sliding off the face of the patient, and oxygen inhalation of the patient is prevented from being influenced.

Further, the oxygen supplying pipe further comprises an air pipe, the water absorbing pipe is sleeved outside the air pipe, the adjusting buckle is slidably arranged on the water absorbing pipe, and the air pipe is detachably arranged on the connecting pipe.

The beneficial effects are that: the oxygen conveying function is realized through the inner air pipe, the function of absorbing wound surface seepage is realized through the outer water suction pipe, the structure is simple, and the use effect is good; when the wound surface liquid is absorbed too much or the wound surface liquid is used for a long time, the water suction pipe can be detached and replaced, the face of a patient is kept clean, and the wound surface recovery is facilitated.

Further, the pi-shaped catheter comprises two oxygen outlet ends, and the two oxygen outlet ends are made of skin-friendly silica gel materials.

The beneficial effects are that: if a patient has nasal burn, discomfort such as congestion in the nasal cavity can be caused, the oxygen outlet end of the existing nasal catheter is usually made of rubber materials, the skin affinity is poor, and uncomfortable feeling is brought to the patient; the skin-friendly silica gel material has good softness and comfortable touch feeling, and can reduce the wearing discomfort of patients.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the sectional structure in the direction A-A in FIG. 1.

Detailed Description

The following is a further detailed description of the embodiments:

reference numerals in the drawings of the specification include: the device comprises a connecting pipe 1, a pi-shaped catheter 2, an oxygen outlet end 21, an oxygen delivery pipe 3, an air pipe 31, a water suction pipe 32 and an adjusting buckle 4.

As shown in fig. 1 and 2,

the utility model provides an oxygen uptake nasal catheter for facial burn patient, includes connecting pipe 1 and nasal catheter, and the one end and the oxygen bottle of connecting pipe 1 are connected, and the other end of connecting pipe 1 passes through the connector and is connected with nasal catheter, and the connector includes three connector, and three connector communicates each other, and connecting pipe 1 can dismantle the connection in a connector.

The nasal catheter comprises a pi-shaped catheter 2, an oxygen delivery pipe 3 and an adjusting buckle 4, wherein the pi-shaped catheter 2 comprises two oxygen outlet ends 21, the two oxygen outlet ends 21 are used for extending into the nasal cavity of a patient to deliver oxygen to the patient, and the two oxygen outlet ends 21 are made of skin-friendly silica gel, so that the nasal cavity comfort of the patient is improved; the two oxygen delivery pipes 3 comprise air pipes 31, one ends of the two air pipes 31 are detachably connected to the left end and the right end of the pi-shaped catheter 2 respectively, and the other ends of the two air pipes 31 are detachably connected to two connecting ports of the connecting head far away from the connecting pipe 1; the two air pipes 31 are sleeved with a water absorption pipe 32, the water absorption pipe 32 comprises a non-woven fabric surface layer, a water absorption layer and a bottom film from outside to inside, and the water absorption layer can be made of medical sponge or absorbent cotton; the adjusting buckles 4 are slidably arranged on the two water suction pipes 32, and the adjusting buckles 4 are used for adjusting the tightness degree of the oxygen delivery pipe 3.

The specific implementation is as follows:

the pi-shaped catheter 2 is worn on the nose of a patient, so that two oxygen outlet ends 21 extend into the nasal cavity of the patient, two oxygen delivery pipes 3 respectively bypass two ears of the patient, then the adjusting buckle 4 is slid, so that the two water suction pipes 32 are attached but not pressed against the face of the patient, and the oxygen bottle is opened to deliver oxygen to the patient; when the wound surface of the face of the patient generates seepage, the water absorption layer of the water absorption pipe 32 absorbs the seepage, so that the oxygen pipe 31 is prevented from sliding off, and when the water absorption pipe 32 absorbs the seepage too much or the service time is too long, the water absorption pipe 32 can be detached from the air pipe 31 and replaced by a new water absorption pipe 32 so as to keep the face of the patient clean, and the wound surface recovery is facilitated.

The foregoing is merely exemplary of the present utility model, and specific technical solutions and/or features that are well known in the art have not been described in detail herein. It should be noted that, for those skilled in the art, several variations and modifications can be made without departing from the technical solution of the present utility model, and these should also be regarded as the protection scope of the present utility model, which does not affect the effect of the implementation of the present utility model and the practical applicability of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (4)

1. The utility model provides an oxygen uptake nasal catheter for facial burn patient, includes the connecting pipe, and the one end and the oxygen bottle of connecting pipe are connected, and the other end and the nasal catheter of connecting pipe are connected, its characterized in that: the nasal catheter comprises a pi-shaped catheter, two oxygen delivery pipes and an adjusting buckle, wherein two ends of the pi-shaped catheter are respectively communicated with the two oxygen delivery pipes, the other ends of the two oxygen delivery pipes are connected with a connecting pipe, the adjusting buckle is slidably arranged on the two oxygen delivery pipes, and the two oxygen delivery pipes can absorb wound surface seepage of a patient suffering from facial burn.

2. An oxygen inhalation nasal catheter for patients with facial burns as claimed in claim 1, wherein: the oxygen supply pipe comprises a water absorption pipe which is used for absorbing wound surface seepage of patients with facial burns and comprises a non-woven fabric surface layer, a water absorption layer and a bottom layer film.

3. An oxygen inhalation nasal catheter for patients with facial burns as claimed in claim 2, wherein: the oxygen supplying pipe further comprises an air pipe, the water absorbing pipe is sleeved outside the air pipe, the adjusting buckle is slidably arranged on the water absorbing pipe, and the air pipe is detachably arranged on the connecting pipe.

4. An oxygen inhalation nasal catheter for patients with facial burns as claimed in claim 1, wherein: the pi-shaped catheter comprises two oxygen outlet ends, and the two oxygen outlet ends are made of skin-friendly silica gel materials.