CN214435778U

CN214435778U - Anti-blocking oxygen inhalation tube for cardiology department nursing

Info

Publication number: CN214435778U
Application number: CN202023080251.5U
Authority: CN
Inventors: 周萍
Original assignee: JIANHU PEOPLE'S HOSPITAL
Current assignee: JIANHU PEOPLE'S HOSPITAL
Priority date: 2020-12-18
Filing date: 2020-12-18
Publication date: 2021-10-22
Anticipated expiration: 2030-12-18

Abstract

The utility model provides an anti-blocking oxygen inhalation tube for cardiology department nursing, which comprises a connecting tube, wherein the two ends of the connecting tube are respectively connected with a left air inlet tube and a right air inlet tube, the top of the connecting tube is respectively connected with a left nasal obstruction tube and a right nasal obstruction tube, the left nasal obstruction tube comprises an inner tube, the outer part of the inner tube is sleeved with an outer tube, the two ends of the inner tube are respectively provided with an inner air inlet and an inner air outlet, one end of the outer tube is provided with an outer air inlet, the outer air inlet is connected with the inner air inlet through the air inlet tube, the end surface of the outer tube is provided with a plurality of outer air outlets, a baffle is arranged inside the outer air outlets, the baffle is connected with a piston through a support rod, the piston is connected with the end surface of the inner tube in a sliding way, the inner tube and the outer tube are provided with a plurality of outer air outlets and a baffle and a piston connected with the baffle, when one of the outer air outlets is blocked, the piston is driven by pressure to drive the baffle to move, the adjacent air outlets are exposed, so that the normal supply of oxygen is ensured.

Description

Anti-blocking oxygen inhalation tube for cardiology department nursing

Technical Field

The utility model relates to an oxygen tube especially relates to a intracardiac branch of academic or vocational study nursing is with preventing stifled oxygen tube.

Background

In the cardiology department, i.e. the cardiovascular department, in the clinical treatment of the cardiology department, patients with cardiovascular and cerebrovascular diseases often need oxygen inhalation therapy to relieve the oxygen deficiency state of the organism, wherein the oxygen inhalation tube is a common medical apparatus.

At present, most of clinical medical treatment is to insert a nasal obstruction tube connected with an oxygen inhalation tube into the nasal cavity of a patient for oxygen supply operation, but in the oxygen supply process, the nasal obstruction tube is easy to fall off, so that the normal oxygen inhalation treatment of the patient is influenced, therefore, the fixation of the nasal obstruction tube for oxygen supply is very important, and the secretion in the nose is easy to block the nasal obstruction tube when the oxygen inhalation treatment is carried out on the patient, so that the normal operation of the oxygen inhalation treatment is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a nursing of intracardiac branch of academic or vocational study is with preventing stifled oxygen tube has solved when current oxygen uptake treatment secretion of nose inside easily causes the jam to the nasal obstruction pipe to influence the normal clear of oxygen uptake treatment.

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

the utility model provides an anti-blocking oxygen inhalation tube for cardiology department nursing, which comprises a connecting tube, wherein two ends of the connecting tube are of an open structure, two ends of the connecting tube are respectively connected with a left inlet tube and a right inlet tube, the left inlet tube and the right inlet tube are both connected with one end of an outlet tube, the other end of the outlet tube is connected with an oxygen generator, the top of the connecting tube is provided with a left air outlet hole and a right air outlet hole, the left air outlet hole and the right air outlet hole are respectively connected with a left nasal obstruction tube and a right nasal obstruction tube, the left nasal obstruction tube and the right nasal obstruction tube are consistent in structure, the left nasal obstruction tube comprises an inner tube, an outer tube is sleeved outside the inner tube, two ends of the inner tube are respectively provided with an inner air inlet and an inner air outlet, one end of the outer tube is provided with an outer air inlet, the outer air inlet is connected with the inner air inlet through an air inlet tube, the end surface of the outer tube is provided with a plurality of outer air outlets, a baffle is arranged inside the outer air outlets, the baffle passes through branch connection piston, piston sliding connection inner tube terminal surface, the baffle is placed in the hole, the hole sets up inside outer tube terminal surface, go out gas port both ends terminal surface and be equipped with the through-hole, the through-hole links to each other with the hole.

Preferably, the end face of one end of the supporting rod is flush with one end of the outer air outlet facing the inner pipe.

Preferably, the outer air outlets are symmetrically arranged on the end face of the outer pipe, and the number of the outer air outlets is 8.

Preferably, a plurality of moving holes are formed in the end face of the outer pipe on one side of the outer air inlet, the moving holes are movably connected with the plug, and the moving holes are connected with the moving rod in a sliding mode. Through setting up the movable rod, be convenient for from outside removal piston with baffle reset.

Preferably, the baffle is towards outside one end terminal surface and inner bore inner wall contact, the inner bore is towards inner tube one end terminal surface and is open structure.

Through the technical scheme, the utility model discloses beneficial effect: through setting up inner tube and outer tube to be equipped with a plurality of gas ports and baffle and the piston that links to each other with the baffle of going out on the outer tube, when one of them gas port of going out was blocked up, drive the piston and then drive the baffle and remove through pressure, expose leading the gas port of going out, and then guarantee the normal supply of oxygen.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of a left nasal prong structure;

FIG. 3 is an enlarged view of a portion of FIG. 2;

fig. 4 is a perspective view of the left nasal prong.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

According to the anti-blocking oxygen inhalation tube for cardiology department nursing shown in the figure, the anti-blocking oxygen inhalation tube comprises a connecting tube 1, two ends of the connecting tube 1 are of an open structure, two ends of the connecting tube 1 are respectively connected with a left air inlet tube 2 and a right air inlet tube 3, the left air inlet tube 2 and the right air inlet tube 3 are both connected with one end of an air outlet tube 4, the other end of the air outlet tube 4 is connected with an oxygen generator, a left air outlet hole and a right air outlet hole are arranged at the top of the connecting tube 1, the left air outlet hole and the right air outlet hole are respectively connected with a left nasal obstruction tube 5 and a right nasal obstruction tube 6, the left nasal obstruction tube 5 and the right nasal obstruction tube 6 are consistent in structure, the left nasal obstruction tube 5 comprises an inner tube 7, an outer tube 8 is sleeved outside the inner tube 7, two ends of the inner tube 7 are respectively provided with an inner air inlet 10 and an inner air outlet 13, one end of the outer tube 8 is provided with an outer air inlet 9, the outer air inlet 9 is connected with the inner air inlet 10 through an

air inlet

11, 8 terminal surfaces of outer tube are equipped with a plurality of gas ports 13 of going out, it is equipped with baffle 17 to go out inside gas port 13, baffle 17 passes through branch 18 and connects

piston

14, 7 terminal surfaces in piston 14 sliding connection inner tube, baffle 17 is placed in hole 19, hole 19 sets up inside 8 terminal surfaces of outer tube, it is equipped with through-hole 20 to go out gas port 13 both ends terminal surface, through-hole 20 links to each other with hole 19.

Preferably, one end of the strut 18 is flush with the end of the outer air outlet 13 facing the inner pipe 7.

Preferably, the outer air outlets 13 are symmetrically arranged on the end surface of the outer tube 1, and the number of the outer air outlets 13 is 8.

Preferably, a plurality of moving holes 15 are formed in the end surface of the outer pipe on the side of the outer air inlet 13, the moving holes 15 are movably connected with plugs 16, and the moving holes 15 are slidably connected with moving rods. Through setting up the movable rod, be convenient for from outside removal piston with baffle reset.

Preferably, the baffle 17 is contacted with the inner wall of the inner hole 19 towards the end surface of the outer side, and the end surface of the inner hole 19 towards the end of the inner pipe is of an open structure.

When the oxygen supply device is used specifically, the air outlet pipe 4 is connected with an oxygen generator, the left nasal obstruction pipe 5 and the right nasal obstruction pipe 6 are respectively inserted into left and right nostrils, oxygen passes through the air outlet pipe 4, enters the connecting pipe 1 through the left air inlet pipe 2 and the right air inlet pipe 3, and respectively enters the left nasal obstruction pipe 5 and the right nasal obstruction pipe 6 through the connecting pipe 1, enters the outer air inlet 9 of the left nasal obstruction pipe 5, enters a space between the outer pipe 8 and the inner pipe 7 through the air inlet pipe 11, the inner air inlet 10, the inner pipe 7 and the inner air outlet 12, and enters the nostrils through the outer air outlet 13, when the outer air outlet 13 is blocked, the pressure between the outer pipe 8 and the inner pipe 7 is increased due to the fact that the gas cannot flow out, the piston 14 is pushed to move, the adjacent outer air outlet 13 is exposed, and the supply of the oxygen is guaranteed.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims

1. The utility model provides a intracardiac branch of academic or vocational study nursing is with preventing stifled oxygen tube which characterized in that: the oxygen generator comprises a connecting pipe, wherein two ends of the connecting pipe are of an open structure, two ends of the connecting pipe are respectively connected with a left air inlet pipe and a right air inlet pipe, the left air inlet pipe and the right air inlet pipe are both connected with one end of an air outlet pipe, the other end of the air outlet pipe is connected with an oxygen generator, the top of the connecting pipe is provided with a left air outlet hole and a right air outlet hole, the left air outlet hole and the right air outlet hole are respectively connected with a left nasal plug pipe and a right nasal plug pipe, the left nasal plug pipe and the right nasal plug pipe are consistent in structure, the left nasal plug pipe comprises an inner pipe, the outer part of the inner pipe is sleeved with an outer pipe, two ends of the inner pipe are respectively provided with an inner air inlet and an inner air outlet, one end of the outer pipe is provided with an outer air inlet, the outer air inlet is connected with the inner air inlet through an air inlet pipe, the end surface of the outer pipe is provided with a plurality of outer air outlets, the baffle is arranged inside the outer air outlets, the baffle is connected with a piston through a support rod, the piston is connected with the end surface of the inner pipe in a sliding way, the baffle is placed in the hole, the hole sets up inside outer tube terminal surface, go out gas port both ends terminal surface and be equipped with the through-hole, the through-hole links to each other with the hole.

2. The anti-blocking oxygen tube for cardiology department nursing according to claim 1, wherein: the end surface of one end of the supporting rod is flush with one end of the outer air outlet facing the inner pipe.

3. The anti-blocking oxygen tube for cardiology department nursing according to claim 1, wherein: the outer air outlets are symmetrically arranged on the end surface of the outer pipe, and the number of the outer air outlets is 8.

4. The anti-blocking oxygen tube for cardiology department nursing according to claim 1, wherein: the outer pipe end face on one side of the outer air inlet is provided with a plurality of moving holes, the moving holes are movably connected with the plugs, and the moving holes are connected with the moving rods in a sliding mode.

5. The anti-blocking oxygen tube for cardiology department nursing according to claim 1, wherein: the baffle is towards outside one end terminal surface and is contacted with the hole inner wall, hole one end terminal surface towards the inner tube is open structure.