CN218980088U - Telescopic oxygen inhalation tube - Google Patents

Abstract

The utility model relates to a telescopic oxygen tube, which comprises an oxygen tube body, wherein the front end of the oxygen tube body is provided with an air receiving end connected with an air outlet of an oxygen inhaler, and the rear end of the oxygen tube body is provided with an oxygen inhalation port for a patient, and is characterized in that: the oxygen inhalation tube body is formed by sequentially butting a front fixing section, a telescopic section and a rear fixing section along the length direction; the telescopic section comprises a front compression clamping piece, a telescopic pipe and a rear compression clamping piece, and two pipe orifices of the telescopic pipe are respectively connected to the inner side surfaces of the front compression clamping piece and the rear compression clamping piece; the front compression clamping piece is provided with a front vent hole, and the rear end of the front fixing section is connected with the front vent hole; the rear compression clamping piece is provided with a rear vent hole, and the front end of the rear fixing section is connected with the rear vent hole; the front compression clamping piece and the rear compression clamping piece are provided with matched connecting pieces. The telescopic oxygen tube can be stretched as required, so that different oxygen inhalation requirements of patients are met, and the moving range of the patients during oxygen inhalation is improved.

Description

Telescopic oxygen inhalation tube

Technical Field

The utility model relates to the technical field of medical care equipment, in particular to a telescopic oxygen inhalation tube.

Background

In clinical care, some patients require long-term oxygen inhalation. At present, the air outlet of the oxygen inhalation machine is generally positioned at the head of a sickbed, and a patient sits on the sickbed or lies on the back and is connected with the air outlet through an oxygen inhalation pipe to inhale oxygen. The oxygen inhalation tube is usually 0.5-2 m, which can meet the oxygen inhalation requirement of patients, but for patients needing to get out of bed, the length of the oxygen inhalation tube also limits the moving range of the patients and can only move around the sickbed. If the patient needs to go up the toilet, even if the matched toilet in the ward is used, the oxygen inhalation tube is pulled out to interrupt oxygen inhalation for a period of time, so that a certain degree of inconvenience is caused to the patient.

Disclosure of Invention

The utility model aims to solve the problem of providing the telescopic oxygen inhalation tube which can be stretched according to the needs, so as to meet different oxygen inhalation requirements of patients and improve the movable range of the patients during oxygen inhalation. The technical scheme adopted is as follows:

the utility model provides a scalable oxygen uptake tube, includes oxygen uptake tube body, and the front end of oxygen uptake tube body is equipped with the gas receiving end of connecting the oxygen uptake machine gas outlet, and the rear end of oxygen uptake tube body is equipped with the oxygen uptake mouth that patient used, its characterized in that: the oxygen inhalation tube body is formed by sequentially butting a front fixing section, a telescopic section and a rear fixing section along the length direction; the telescopic section comprises a front compression clamping piece, a telescopic pipe and a rear compression clamping piece, and two pipe orifices of the telescopic pipe are respectively connected to the inner side surfaces of the front compression clamping piece and the rear compression clamping piece; the front compression clamping piece is provided with a front vent hole, and the rear end of the front fixing section is connected with the front vent hole; the rear compression clamping piece is provided with a rear vent hole, and the front end of the rear fixing section is connected with the rear vent hole; the front compression clamping piece and the rear compression clamping piece are provided with matched connecting pieces.

The front fixing section is used for connecting the telescopic oxygen inhalation tube to the air outlet of the oxygen inhaler through the air receiving end, and the rear fixing section is used for sleeving the oxygen inhalation port on the face of a patient to inhale oxygen.

When the oxygen inhalation device is used, the connecting piece between the front compression clamping piece and the rear compression clamping piece is loosened, the telescopic pipe is stretched to a proper length according to the needs of a patient, different oxygen inhalation requirements of the patient are met, and the movable range of the patient during oxygen inhalation is improved; when the oxygen inhalation tube is not required to be prolonged, after the front compression clamping piece and the rear compression clamping piece compress the telescopic tube, the front compression clamping piece and the rear compression clamping piece are connected and fixed through the connecting piece, so that the telescopic tube is ensured to be compact and not scattered after being compressed.

As a preferable scheme of the utility model, the telescopic tube comprises a film tube and a plurality of shaping rings, wherein each shaping ring is attached to the outer wall of the film tube at equal intervals along the axial direction of the film tube, and the shaping rings and the film tube are coaxially arranged. The telescopic pipe adopts the film pipe and sets up the design ring through equidistant in the outside of film pipe, makes the film pipe between two adjacent design rings receive the traction of certain degree and be in more even state to avoid the film pipe distortion to the twist form, moreover, adopt the film pipe as the main part of telescopic pipe, the film pipe is very thin, and compression stretch ratio is very high, makes the telescopic pipe can carry out the extension of bigger degree, has bigger compression stretch ratio than general ripple telescopic pipe. The film tube is sleeved outside the stainless steel tube with the same inner diameter by ultrasonic heat sealing, and the film tube is sealed outside the film tube by penetrating the film tube one by one through the film tube and sequentially passing through ultrasonic sealing equipment.

As a further preferable mode of the utility model, the material of the film tube is a cold drawn film. The film tube is made of a cold drawn film, and the cold drawn film has strong tensile rebound capability and strong wrinkle resistance, so that the manufactured telescopic tube has good telescopic performance.

As a further preferable scheme of the utility model, the thickness of the shaping rings is 0.5-1.0 mm, and the length of the film tube between two adjacent shaping rings is 4-6 cm.

As a preferable scheme of the utility model, annular heat sealing parts are arranged at the front end and the rear end of the telescopic pipe, and the annular heat sealing parts are in heat sealing with the inner side surfaces of the front compression clamping piece and the rear compression clamping piece.

As a preferable mode of the utility model, the rear end of the front fixing section is detachably connected with the front vent hole in a plug-in connection mode, and the front end of the rear fixing section is detachably connected with the rear vent hole in a plug-in connection mode.

As a preferable scheme of the utility model, the outer edge of the front compression clamping piece is provided with a front connecting part extending backwards, the outer edge of the rear compression clamping piece is provided with a rear connecting part extending forwards, and the front connecting part and the rear connecting part are connected in a matched mode through the connecting piece.

As a further preferable scheme of the utility model, the connecting piece comprises a clamping groove and a buckle which are respectively arranged on the front connecting part and the rear connecting part, and the front connecting part and the rear connecting part are buckled into a cylinder shape through the clamping groove and the buckle.

Compared with the prior art, the utility model has the following advantages:

the oxygen inhalation tube body of the telescopic oxygen inhalation tube is formed by sequentially butting the front fixing section, the telescopic section and the rear fixing section along the length direction, when the telescopic oxygen inhalation tube is used, a connecting piece between the front compression clamping piece and the rear compression clamping piece is loosened, the telescopic tube is stretched to a proper length according to the needs of a patient, different oxygen inhalation requirements of the patient are met, and the movable range of the patient during oxygen inhalation is improved; when the oxygen inhalation tube is not required to be prolonged, after the front compression clamping piece and the rear compression clamping piece compress the telescopic tube, the front compression clamping piece and the rear compression clamping piece are connected and fixed through the connecting piece, so that the telescopic tube is ensured to be compact and not scattered after being compressed.

Drawings

FIG. 1 is a schematic view of a structure of a preferred embodiment of the present utility model in use;

FIG. 2 is a schematic view showing a structure of the present utility model in a non-use state;

wherein each of the marks is as follows: 1-a front fixing section, 11-an air receiving end; 2-telescopic sections, 21-front compression clamping pieces, 211-front connecting parts, 212-clamping grooves, 213-front vent holes, 22-telescopic pipes, 220-annular heat sealing parts, 221-thin film pipes, 222-shaping rings, 23-rear compression clamping pieces, 231-rear connecting parts, 232-buckles and 233-rear vent holes; 3-rear fixing section, 31-oxygen inhalation port.

Detailed Description

The preferred embodiments of the present utility model will be further described with reference to the accompanying drawings.

As shown in fig. 1 and 2, a telescopic oxygen tube comprises an oxygen tube body, wherein the oxygen tube body is formed by sequentially butting a front fixing section 1, a telescopic section 2 and a rear fixing section 3 along the length direction, and the telescopic section 2 comprises a front compression clamping piece 21, a telescopic tube 22 and a rear compression clamping piece 23; the outer edge of the front compression clamping piece 21 is provided with a front connecting part 211 extending backwards, the outer edge of the rear compression clamping piece 23 is provided with a rear connecting part 231 extending forwards, the front connecting part 211 and the rear connecting part 231 are connected in a matched mode through a connecting piece, the connecting piece comprises a clamping groove 212 and a clamping buckle 232 which are respectively arranged on the front connecting part 211 and the rear connecting part 231, and the front connecting part 211 and the rear connecting part 231 are buckled into a cylinder through the clamping groove 212 and the clamping buckle 232; the front compression clamping piece 21 is provided with a front vent hole 213, the rear end of the front fixing section 1 is detachably connected with the front vent hole 213 in a plug-in connection manner, and the front end of the front fixing section 1 is provided with a gas receiving end 11 connected with a gas outlet of the oxygen inhaler; the rear compression clamping piece 23 is provided with a rear vent hole 233, the front end of the rear fixing section 3 is detachably connected with the rear vent hole 233 in a plug-in connection manner, and the rear end of the rear fixing section 3 is provided with an oxygen inhalation port 31 for a patient; annular heat sealing parts 220 are arranged at the front end and the rear end of the telescopic tube 22, and the annular heat sealing parts 220 are in heat sealing with the inner side surfaces of the front compression clamping piece 21 and the rear compression clamping piece 23.

When in use, the connecting piece between the front compression clamping piece 21 and the rear compression clamping piece 23 is loosened, the telescopic pipe 22 is stretched to a proper length according to the needs of a patient, different oxygen inhalation requirements of the patient are met, and the movable range of the patient during oxygen inhalation is improved; when the oxygen inhalation tube is not required to be prolonged, after the front compression clamping piece 21 and the rear compression clamping piece 23 compress the telescopic tube 22, the front compression clamping piece 21 and the rear compression clamping piece 23 are connected and fixed through the connecting piece, so that the telescopic tube 22 is ensured to be compact and not to be scattered after being compressed.

As shown in fig. 1 and 2, the telescopic tube 22 includes a film tube 221 and a plurality of shaping rings 222, each shaping ring 222 is attached to the outer wall of the film tube 221 at equal intervals along the axial direction of the film tube 221, and the shaping rings 222 are coaxially arranged with the film tube 221; in this embodiment, the thickness of the shaping rings 222 is 0.8mm (0.5-1.0 mm), and the length of the film tube 221 between two adjacent shaping rings 222 is 5cm (4-6 cm). The telescopic tube 22 adopts the film tube 221 and the shaping rings 222 are arranged at equal intervals outside the film tube 221, so that the film tube 221 between two adjacent shaping rings 222 is pulled to a certain extent and is in a relatively flat state, thereby preventing the film tube 221 from being twisted into a twist shape. In this embodiment, the film tube 221 is made of a cold drawn film, which has a strong resistance to stretch and rebound, and a strong resistance to wrinkling, so that the manufactured telescopic tube 22 has a good telescopic performance; the film tube 221 can be sleeved outside the stainless steel tube with the same inner diameter by adopting ultrasonic heat sealing for the lamination between the shaping ring 222 and the film tube 221, and the shaping ring 222 is heat sealed outside the film tube 221 after penetrating into the shaping ring 222 one by one and sequentially passing through ultrasonic sealing equipment.

Taking the thickness of the shaping rings 222 as 0.8mm as an example, the thickness of the film tube 221 is calculated as 0.2mm, and the length of the film tube 221 between the two shaping rings 222 is 5cm, so that after the telescopic tube 22 of 10cm after compression is unfolded, the length of the front fixing section 1 and the rear fixing section 3 is added, the actual length is about 5m, the movable requirement of a patient in a ward can be completely met, and the requirement of the patient in a toilet for using the ward can also be met.

In addition, it should be noted that, in the specific embodiments described in the present specification, names of various parts and the like may be different, and all equivalent or simple changes of the structures, features and principles described in the conception of the present utility model are included in the protection scope of the present utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions in a similar manner without departing from the scope of the utility model as defined in the accompanying claims.

Claims (8)

1. The utility model provides a scalable oxygen uptake tube, includes oxygen uptake tube body, and the front end of oxygen uptake tube body is equipped with the gas receiving end of connecting the oxygen uptake machine gas outlet, and the rear end of oxygen uptake tube body is equipped with the oxygen uptake mouth that patient used, its characterized in that: the oxygen inhalation tube body is formed by sequentially butting a front fixing section, a telescopic section and a rear fixing section along the length direction; the telescopic section comprises a front compression clamping piece, a telescopic pipe and a rear compression clamping piece, and two pipe orifices of the telescopic pipe are respectively connected to the inner side surfaces of the front compression clamping piece and the rear compression clamping piece; the front compression clamping piece is provided with a front vent hole, and the rear end of the front fixing section is connected with the front vent hole; the rear compression clamping piece is provided with a rear vent hole, and the front end of the rear fixing section is connected with the rear vent hole; the front compression clamping piece and the rear compression clamping piece are provided with matched connecting pieces.

2. The retractable oxygen tube of claim 1 wherein: the telescopic pipe comprises a film pipe and a plurality of shaping rings, wherein each shaping ring is attached to the outer wall of the film pipe at equal intervals along the axial direction of the film pipe, and the shaping rings and the film pipe are coaxially arranged.

3. The retractable oxygen tube of claim 2 wherein: the material of the film tube is cold drawn film.

4. The retractable oxygen tube of claim 3, wherein: the thickness of the shaping rings is 0.5-1.0 mm, and the length of the film tube between two adjacent shaping rings is 4-6 cm.

5. The retractable oxygen tube of any one of claims 1 to 4, wherein: annular heat sealing parts are arranged at the front end and the rear end of the telescopic pipe, and the annular heat sealing parts are in heat sealing with the inner side surfaces of the front compression clamping piece and the rear compression clamping piece.

6. The retractable oxygen tube of any one of claims 1 to 4, wherein: the rear end of the front fixing section is detachably connected with the front vent hole in a plugging mode, and the front end of the rear fixing section is detachably connected with the rear vent hole in a plugging mode.

7. The retractable oxygen tube of any one of claims 1 to 4, wherein: the outer edge of the front compression clamping piece is provided with a front connecting part extending backwards, the outer edge of the rear compression clamping piece is provided with a rear connecting part extending forwards, and the front connecting part and the rear connecting part are connected in a matched mode through the connecting piece.

8. The retractable oxygen tube of claim 7 wherein: the connecting piece comprises a clamping groove and a buckle which are respectively arranged at the front connecting part and the rear connecting part, and the front connecting part and the rear connecting part are buckled into a cylinder through the clamping groove and the buckle.

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