CN213642672U - Tracheostomy cannula oxygen mask - Google Patents

Abstract

The utility model discloses an oxygen uptake cover that patient used is cut to trachea relates to the medical instrument field, solves current oxygen inhalation mask and leaks easily, not only influences treatment, still causes the problem of potential safety hazard. The utility model adopts the technical proposal that: the tracheostomy oxygen mask comprises a mask body, wherein the annular edge of the mask body is matched with the shape of the neck of a human body, and a lace is arranged at the edge of the mask body; the cover body sets up the connecting pipe, and the connecting pipe runs through the cover body, and the one end that the connecting pipe is located the cover body inside is autogenous cutting pipe nipple, and the connecting pipe is located the outside one end coupling hose of the cover body, and the tee bend is connected to the other end of hose, and oxygen uptake pipe and oxygen discharge pipe are connected respectively to two branch pipes of tee bend. The autogenous cutting intubate of patient links to each other closely with autogenous cutting intubate connects, and the cover body is fixed in the neck with whole incision complete encirclement and through the frenulum, guarantees safety and treatment. The hose is provided with a sputum suction branch pipe to facilitate sputum suction. The tracheostomy oxygen mask is used for high-pressure oxygen therapy and normal-pressure saturated oxygen therapy of a patient undergoing tracheostomy.

Description

Tracheostomy cannula oxygen mask

Technical Field

The utility model relates to the field of medical equipment, specifically a be fit for autogenous cutting intubate patient and use when hyperbaric oxygen treatment and the saturated oxygen uptake treatment of ordinary pressure oxygen uptake cover.

Background

At present, when a tracheotomy patient takes oxygen for hyperbaric oxygen therapy, oxygen is generally supplied in an open manner through an oxygen tube or is taken through a hood. The open oxygen supply utilizes an oxygen supply device in a pressurizing cabin to place an oxygen suction pipe interface at the opening of an air pipe for supplying oxygen. The disadvantage of this approach is that the oxygen inhaled by the patient mixes with a large volume of air, which is insufficient for therapeutic purposes; and oxygen is discharged in the cabin, so that the oxygen concentration in the cabin is increased, and potential safety hazards are caused. For the oxygen inhalation of the hood, the head and the shoulders of the patient are all covered by the hood, the use comfort is poor, the emergency of the patient cannot be treated in time, and the contact part of the hood and the patient is easy to leak air, so that the air in the cabin enters the hood, and the treatment effect is influenced; meanwhile, the exhausted oxygen is exhausted into the cabin, so that the oxygen concentration in the cabin is increased, and the risk in the treatment process is increased.

In addition, tracheotomy patients often need negative pressure sputum aspiration during the oxygen inhalation process. Because the existing oxygen inhalation pipeline is not provided with a negative pressure sputum suction interface generally, the sputum suction is generally performed in an open type clinically, when a patient needs to suck sputum, the patient moves away from the oxygen inhalation device first and then performs negative pressure sputum suction, sputum splashing is easily caused in the sputum suction process, and the risk of cross infection in a hospital is increased.

SUMMERY OF THE UTILITY MODEL

The utility model provides an oxygen mask for tracheotomy patients, which solves the problem that the prior oxygen inhalation device is easy to leak, not only influences the treatment effect, but also causes the potential safety hazard.

The utility model provides a technical scheme that its technical problem adopted is: the autogenous cutting intubate oxygen mask, including the cover body, the shape of the cyclic annular edge of the cover body is adapted to the shape of the human neck, the edge of the cover body sets up the frenulum, the cyclic annular edge of the cover body also sets up a ring of soft cushions or cyclic annular edge sets up the soft skirt body; the cover body sets up the connecting pipe, and the connecting pipe runs through the cover body and seals between the outside of connecting pipe and the cover body, and the one end that the connecting pipe is located the cover body inside is autogenous cutting pipe nipple, and the connecting pipe is located the outside one end coupling hose of the cover body, and the tee bend is connected to the other end of hose, and oxygen uptake pipe and oxygen discharge pipe are connected respectively to two branch pipes of tee bend.

Specifically, the method comprises the following steps: the cover body is in the shape of a semi-ellipsoid, a segment or a cone, and the connecting pipe is positioned at the top ends of the semi-ellipsoid, the segment and the cone.

Specifically, the method comprises the following steps: the cover body and the connecting pipe are made of transparent plastics.

Further, the method comprises the following steps: the frenulum is just two for the elastic webbing, and two frenulums set up respectively in the relative both sides of cyclic annular edge.

Specifically, the method comprises the following steps: a magic tape is arranged between the two laces.

Further, the method comprises the following steps: the hose is connected with a sputum suction branch pipe near the connecting pipe, and the end part of the sputum suction branch pipe is provided with a sealing cover.

Further, the method comprises the following steps: the axial direction of the sputum suction branch pipe is coincided with the axial direction of the connecting pipe.

Specifically, the method comprises the following steps: the sealing cover is a soft plug, and the soft plug is connected with the sputum suction branch pipe through a rope.

Specifically, the method comprises the following steps: the length of the part of the connecting pipe positioned in the cover body is 1.5cm, the length of the hose is 15cm, and the distance between the joint of the sputum suction branch pipe and the hose and one end of the connecting pipe positioned outside the cover body is 5 cm.

The utility model has the advantages that: the cover body of autogenous cutting intubate oxygen uptake cover can directly place in trachea incision patient's neck, and autogenous cutting intubate closely links to each other with autogenous cutting intubate joint, and the cover body is completely enclosed whole incision and is fixed in the neck through the frenulum, avoids oxygen to leak, can satisfy silica gel autogenous cutting intubate and metal autogenous cutting intubate patient user demand, guarantees that the patient effectively inhales high-purity oxygen, guarantees safety and treatment. The tracheostomy oxygen mask has the advantages of simple structure, convenient operation, soft, light and bendable hose, and can be placed at a proper position at will without holding the tracheostomy oxygen mask by hands to keep a posture, thereby reducing the workload of accompanying personnel.

The annular edge of the cover body is provided with a soft cushion or a soft skirt body, so that the phenomenon that the skin of a patient is pressed by the annular edge to cause discomfort is avoided. The lacing is arranged on the two opposite sides of the annular edge, so that the tightness of the cover body and the neck of the patient can be conveniently adjusted. The hose is connected with the sputum suction branch pipe, a patient only needs to open the sealing cover on the sputum suction branch pipe to suck sputum when sucking the sputum, and the sputum suction branch pipe is sealed after the sputum suction is finished, so that the infection risk in the cabin is reduced, and the stimulation of the patient due to the traction of the pipeline is also relieved.

Drawings

Fig. 1 is a schematic view of the tracheostomy oxygen mask of the present invention in use.

Reference numerals: the mask comprises a mask body 1, a tying belt 2, a connecting pipe 3, a hose 4, a tee joint 5, a cushion 6, a sputum suction branch pipe 7, a sealing cover 8, an oxygen suction pipe 9 and an oxygen discharge pipe 10.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in figure 1, the utility model discloses autogenous cutting intubate oxygen uptake cover, including the cover body 1, the cover body 1 is used for enclosing patient's gas incision completely, and the cover body 1 can be semiellipsoid, segmental body or cone shape, perhaps other irregular shapes that nevertheless can form the cavity. The edge of the mask body 1 is annular and is therefore called the ring edge, which is intended to fit the neck of a person, so that the shape of the ring edge is adapted to the shape of the neck of a person. The edge of the cover body 1 is provided with a lace 2, the lace 2 is used for fixing the cover body 1 on the neck of a patient, and the tightness between the annular edge and the neck can be adjusted. The lace 2 can be one or more, preferably, elastic materials are selected, for example, two lace 2 positions are respectively arranged on two opposite sides of the annular edge, and the two lace 2 can be directly bound, or a thread gluing is arranged between the two lace 2. In order to reduce the discomfort caused by the compression of the annular edge to the neck, a circle of soft cushion 6 is arranged at the annular edge of the cover body 1, and the soft cushion 6 can be directly adhered to the annular edge. Alternatively, the cover 1 is made of plastic with certain hardness, and the edge of the cover 1 is provided with a skirt-shaped soft material, that is, the annular edge is provided with a soft skirt.

The cover body 1 sets up connecting pipe 3, and connecting pipe 3 runs through the cover body 1 and seals between the outside of connecting pipe 3 and the cover body 1, and the one end that connecting pipe 3 is located the cover body 1 inside is autogenous cutting pipe joint, and connecting pipe 3 is located the cover body 1 outside one end coupling hose 4, and tee bend 5 is connected to the other end of hose 4, and oxygen uptake pipe 9 and oxygen discharge pipe 10 are connected respectively to two branch pipes of tee bend 5.

The connecting pipe 3 is preferably arranged at the center of the top of the cover body 1, the connecting pipe 3 and the cover body 1 can be integrated, or an opening is arranged on the cover body 1, the connecting pipe 3 is arranged at the opening, and the connecting pipe 3 and the opening are sealed. The connecting tube 3 is made of a plastic material having a certain hardness. The autogenous cutting intubate of connecting pipe 3 connects actually for the conversion interface for connect patient's autogenous cutting intubate, can satisfy silica gel autogenous cutting intubate patient user demand. If the exposed incision of the autogenous cutting cannula is very short, the autogenous cutting cannula can not be connected with the autogenous cutting cannula joint of the connecting pipe 3, for example, for a metal patient with the autogenous cutting cannula, the metal autogenous cutting cannula is only exposed by about 1cm and can not be connected by using the joint, and because the annular edge and the neck of the human body can be sealed, the metal autogenous cutting cannula can not be connected with the connecting pipe 3 and can also meet the oxygen inhalation demand. The tracheostomy tube connector can be made into a special connector, preferably a flexible connector, so that the air tightness of the connection is ensured, and the patient can be ensured to effectively inhale high-purity oxygen. In order to facilitate observation of the connection condition of the tracheostomy tube and observation of the incision of the patient, the cover body 1 and the connecting tube 3 are preferably made of transparent plastic. In addition, the flexible tube 4, the three-way pipe 5, the oxygen inhalation pipe 9 and the oxygen discharge pipe 10 are also preferably made of transparent materials. Typically, the length of the tracheostomy tube connector within the housing 1 is about 1.5cm, with a 2cm gap between the tracheostomy tube connector and the annular rim; the length of the hose 4 is about 15cm, and the hose 4 is made of food-grade plastic materials.

In order to facilitate the sputum suction of the tracheotomy patient, the position of the hose 4 close to the connecting pipe 3 is connected with a sputum suction branch pipe 7, and the end part of the sputum suction branch pipe 7 is provided with a sealing cover 8. The sealing cover 8 and the sputum suction branch pipe 7 can be in threaded connection, or the sealing cover 8 is a soft plug. In order to prevent the sealing cap 8 from falling, the sealing cap 8 is connected to the sputum suction manifold 7 or the hose 4 by a rope.

In order to facilitate the sputum suction through the sputum suction branch pipe 7, the position of the sputum suction branch pipe 7 on the hose 4 should be close to the connecting pipe 3, for example, 1/3 of the hose 4 is provided with a Y-shaped fork, which is the sputum suction branch pipe 7. The sputum suction branch pipe 7 is sealed by a sealing cover 8. When the patient has the sputum, open sealed lid 8 and inhale the sputum, prevent that the sputum from splashing the under-deck, cause the large tracts of land in the cabin to pollute, arouse with cabin therapentic personnel's discomfort, also make the patient obtain abundant treatment. The axial direction of the sputum suction branch pipe 7 is coincident with the axial direction of the connecting pipe 3, namely, the sputum suction branch pipe 7 and the connecting pipe 3 are approximately in a straight line in a natural state.

The waste gas exhaled by the patient is exhausted from the hyperbaric oxygen chamber through the oxygen exhaust pipe 10, the oxygen concentration in the hyperbaric oxygen chamber cannot rise, the safety of the hyperbaric oxygen chamber is ensured, and a safe treatment environment is created for the patient. After the treatment is finished, the tracheostomy oxygen mask is taken down and cleaned for the next use.

Claims (9)

1. Autogenous cutting intubate oxygen uptake cover, its characterized in that: the novel clothes cover comprises a cover body (1), wherein the shape of the annular edge of the cover body (1) is matched with the shape of the neck of a human body, a lace (2) is arranged on the edge of the cover body (1), and a circle of cushion (6) is arranged at the annular edge of the cover body (1) or a soft skirt body is arranged at the annular edge; the cover body (1) sets up connecting pipe (3), seals between the outside that the cover body (1) and connecting pipe (3) run through in connecting pipe (3) and the cover body (1), and connecting pipe (3) are located the inside one end of the cover body (1) and are autogenous cutting pipe joint, and connecting pipe (3) are located the outside one end coupling hose (4) of the cover body (1), and tee bend (5) are connected to the other end of hose (4), and oxygen uptake pipe (9) and oxygen discharge pipe (10) are connected respectively to two branch pipes of tee bend (5).

2. The tracheostomy tube oxygen mask of claim 1 wherein: the cover body (1) is in the shape of a semi-ellipsoid, a segment or a cone, and the connecting pipe (3) is positioned at the top ends of the semi-ellipsoid, the segment and the cone.

3. The tracheostomy tube oxygen mask of claim 1 wherein: the cover body (1) and the connecting pipe (3) are made of transparent plastic materials.

4. The tracheostomy tube oxygen mask of claim 1 wherein: the two laces (2) are elastic belts and are respectively arranged on two opposite sides of the annular edge.

5. The tracheostomy tube oxygen mask of claim 4 wherein: a magic tape is arranged between the two laces (2).

6. The tracheostomy tube oxygen mask of any one of claims 1 to 5, wherein: the position of the hose (4) close to the connecting pipe (3) is connected with a sputum suction branch pipe (7), and the end part of the sputum suction branch pipe (7) is provided with a sealing cover (8).

7. The tracheostomy tube oxygen mask of claim 6 wherein: the axial direction of the sputum suction branch pipe (7) is coincided with the axial direction of the connecting pipe (3).

8. The tracheostomy tube oxygen mask of claim 6 wherein: the sealing cover (8) is a soft plug, and the soft plug is connected with the sputum suction branch pipe (7) through a rope.

9. The tracheostomy tube oxygen mask of claim 6 wherein: the length of the part of the connecting pipe (3) positioned inside the cover body (1) is 1.5cm, the length of the hose (4) is 15cm, and the distance between the joint of the sputum suction branch pipe (7) and the hose (4) and one end of the connecting pipe (3) positioned outside the cover body (1) is 5 cm.

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