CN219332864U - Humidification type oxygen inhalation nursing device - Google Patents

Abstract

The utility model discloses a humidifying oxygen inhalation nursing device which comprises a humidifying bottle for containing distilled water, wherein an air delivery pipe is arranged in the humidifying bottle, a partition plate is fixed at the bottom of the air delivery pipe, a plurality of J-shaped pipes are fixed in the partition plate at equal intervals along the circumference of the partition plate, two ends of each J-shaped pipe are respectively communicated with the inside of the air delivery pipe and the inside of the humidifying bottle, a grid net is further fixed at the bottom of the air delivery pipe, and the grid net is positioned above the J-shaped pipes. Oxygen is subdivided after J-shaped pipe, is less bubble and gets into in the aquatic, owing to exist great interval between the gas outlet of a plurality of J-shaped pipes for the interval between a plurality of little bubbles is great, and when the bubble was floated in water, the existence of interval avoided taking place to fuse between it, and the bubble runs into the grid mesh and can be refined again when water come-up, forms more less bubbles, makes oxygen can more abundant by humidifying, owing to the bubble is less, and broken sound is also less when the bubble leaves the surface of water, thereby has reduced the noise.

Description

Humidification type oxygen inhalation nursing device

Technical Field

The utility model relates to the technical field of oxygen inhalation nursing, in particular to a humidifying oxygen inhalation nursing device.

Background

For some patients with dyspnea caused by basic diseases or weak after operation, the patients are usually required to breathe more easily by means of oxygen inhalation nursing, and in the oxygen inhalation process, oxygen flow needs to pass through a humidifying bottle so as to reduce the irritation of dry oxygen to respiratory mucosa.

Although the oxygen plays a role in humidifying after passing through the humidifying bottle, after entering into water through the gas transmission pipe, the oxygen is larger in bubbles, on one hand, the humidifying effect is not ideal, on the other hand, the larger bubbles leave the water surface and then break up to be loud, so that the rest of a patient is influenced, in addition, the existing nasal obstruction and nasal catheter oxygen inhalation method is to insert the air outlet pipe into the nasal cavity, wind the hose around the rear side of the ear of the patient and then move the hose to the neck, and the hose is bound through the sliding sleeve, but when the sliding sleeve is tightly fastened with the hose clamp, the sliding sleeve is required to be attached to the lower jaw, discomfort is caused to the patient, and if the sliding sleeve is not attached to the lower jaw, the air outlet pipe is easy to move out of the nasal cavity of the patient when the patient rotates the head.

Disclosure of Invention

Object of the utility model

Therefore, the present utility model provides a humidifying oxygen inhalation nursing device to improve oxygen humidifying effect and reduce noise, and further to improve stability of arrangement, and prevent the air outlet tube from moving out of the nasal cavity when the patient rotates the head.

(II) technical scheme

In order to achieve the technical purpose, the utility model provides a humidifying oxygen inhalation nursing device which comprises:

the humidifying bottle comprises a humidifying bottle for containing distilled water, wherein an air conveying pipe is arranged in the humidifying bottle, a partition plate is fixed at the bottom of the air conveying pipe, a plurality of J-shaped pipes are fixed in the partition plate at equal intervals along the circumference of the partition plate, two ends of each J-shaped pipe are respectively communicated with the inside of the air conveying pipe and the inside of the humidifying bottle, a grid net is further fixed at the bottom of the air conveying pipe and located above the J-shaped pipes, a connecting cover is arranged above the air conveying pipe, a hose is arranged on the outer side of the connecting cover, a connecting hose is fixedly arranged on the hose and communicated with the hose, two air outlet pipes are fixedly arranged on the connecting hose and communicated with the hose, and a binding mechanism for binding the air outlet pipes in the nasal cavity of a patient is arranged on the hose.

Preferably, the top of humidification bottle is provided with the bottle lid, and the bottom of bottle lid is fixed with annular cover, humidification bottle and annular cover threaded connection, the gas-supply pipe runs through the bottle lid and is fixed mutually with the bottle lid to J type pipe, the grid net of gas-supply pipe bottom extend to the bottom of humidification bottle.

Preferably, the top of gas-supply pipe and connecting cover threaded connection, and gas-supply pipe and connecting cover are linked together, gas quick plug and flow control valve are still installed to the outside of connecting cover, and the flowmeter is still installed at the top of connecting cover.

Preferably, the outer side of the connecting cover is fixed and communicated with an air duct, the hose is arranged on the air duct, and the air duct is communicated with the hose.

Preferably, an elastic headband is fixed on the outer side of the connecting hose, a positioning block is fixed on the outer side of the hose, and the end portion of the hose penetrates through the positioning block and is in sliding fit with the positioning block.

Preferably, the binding mechanism comprises a first cylinder and a second cylinder which are connected to the outer side of the hose in a sliding manner, and elastic ear belts are fixed on the outer sides of the first cylinder and the second cylinder together.

Preferably, an annular rubber sleeve is fixed on one side of the first cylinder close to the second cylinder, an annular extrusion sleeve is fixed on one side of the second cylinder close to the first cylinder, and the annular extrusion sleeve can slide on the outer side of the annular rubber sleeve and is used for extruding the annular rubber sleeve.

From the above technical scheme, the application has the following beneficial effects:

1: oxygen is subdivided after J-shaped tube, is less bubble and gets into in the aquatic, because a plurality of J-shaped tubes are equidistant distribution along the circumference of baffle, then there is great interval between the gas outlet of a plurality of J-shaped tubes, the interval between a plurality of tiny bubbles is great, when the bubble was floated in water, the existence of interval avoided the fusion between them, the bubble can be refined again when the water is floated to meet the grid net, more less bubbles of formation, thereby make oxygen can more abundant humidification, moreover because the bubble is less, broken sound is also just less when the bubble leaves the surface of water, thereby the noise has been reduced.

2: when first cylinder, second cylinder need be removed, pulling first cylinder, second cylinder for first cylinder, second cylinder phase separation, annular rubber sleeve no longer laminating hose this moment, then remove first cylinder, second cylinder to suitable position, be close to first cylinder, second cylinder, make annular extrusion cover establish outside annular rubber cover, annular rubber cover that annular extrusion cover extrusion annular rubber cover made laminating mutually with the hose, then first cylinder, second cylinder can not slide at will on the hose, then wear elastic ear strap on the ear, wear the elasticity bandeau on the head, thereby it is more stable to make the gas pipe, avoid the patient when rotating the head, the outlet duct takes place the skew.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a humidifying oxygen inhalation care device according to the present utility model;

FIG. 2 is a schematic diagram of a front cross-sectional structure of a humidification bottle according to the present utility model;

FIG. 3 is a schematic top view of a gas pipe according to the present utility model;

FIG. 4 is a schematic view of the structure of the hose and patient's head according to the present utility model;

fig. 5 is a schematic cross-sectional structure of a first cylinder and a second cylinder according to the present utility model.

Description of the drawings: 1. a humidifying bottle; 2. a bottle cap; 3. an annular sleeve; 4. a gas pipe; 5. a partition plate; 6. a J-tube; 7. a grid mesh; 8. a connection cover; 9. a gas quick plug; 10. a flow regulating valve; 11. a flow meter; 12. an air duct; 13. a hose; 14. a connecting hose; 15. an air outlet pipe; 16. an elastic headband; 17. a first cylinder; 18. a second cylinder; 19. an elastic ear strap; 20. a positioning block; 21. an annular rubber sleeve; 22. an annular extrusion sleeve.

Detailed Description

The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses. It should be understood that throughout the drawings, the same or similar reference numerals indicate the same or similar parts and features. The drawings merely schematically illustrate the concepts and principles of embodiments of the disclosure and do not necessarily illustrate the specific dimensions and proportions of the various embodiments of the disclosure. Specific details or structures may be shown in exaggerated form in particular figures to illustrate related details or structures of embodiments of the present disclosure.

Referring to fig. 1-5:

example 1

The utility model provides a humidification type oxygen uptake nursing device, including the humidification bottle 1 that is used for holding distilled water, the inside of humidification bottle 1 is provided with air pipe 4, and the bottom of air pipe 4 is fixed with baffle 5, equidistant a plurality of J type pipes 6 of being fixed with along its circumference in the baffle 5, and the both ends of J type pipe 6 are linked together with inside the air pipe 4 respectively, humidification bottle 1 is inside, the bottom of air pipe 4 still is fixed with grid net 7, and grid net 7 is located J type pipe 6 top, the top of air pipe 4 is provided with connecting cover 8, and the outside of connecting cover 8 is provided with hose 13, fixed and the intercommunication has coupling hose 14 on the hose 13, and fixed and the intercommunication has two outlet duct 15 on the coupling hose 14, be provided with the constraint mechanism that is used for restricting outlet duct 15 in the patient's nasal cavity on the hose 13.

It should be noted that, because the plurality of J-shaped pipes 6 are equally spaced along the circumference of the partition plate 5, a certain space exists between the air outlets of the plurality of J-shaped pipes 6, when oxygen passes through the J-shaped pipes 6, the oxygen is thinned into a plurality of smaller bubbles, and because the space exists between the air outlets on the J-shaped pipes 6, when the bubbles float up in water, the fusion between the air outlets is avoided due to the space.

In addition, the top of humidification bottle 1 is provided with bottle lid 2, and the bottom of bottle lid 2 is fixed with annular cover 3, humidification bottle 1 and annular cover 3 threaded connection, gas-supply pipe 4 runs through bottle lid 2 and is fixed mutually with bottle lid 2 to J-shaped pipe 6, the grid net 7 of gas-supply pipe 4 bottom extend to the bottom of humidification bottle 1, and the outside of coupling hose 14 is fixed with elastic head 16, and the outside of hose 13 is fixed with locating piece 20, and the tip of hose 13 runs through locating piece 20 and sliding fit in locating piece 20.

Example two

On the basis of the first embodiment, the top of the gas pipe 4 is in threaded connection with the connecting cover 8, the gas pipe 4 is communicated with the connecting cover 8, the outer side of the connecting cover 8 is also provided with a gas quick plug 9 and a flow regulating valve 10, and the top of the connecting cover 8 is also provided with a flow meter 11.

It should be noted that, through the setting of the flow regulating valve 10, the oxygen flow can be regulated according to the requirement, and through the setting of the flow meter 11, the specific oxygen flow after regulating the oxygen flow can be intuitively observed, so that the oxygen flow can be more accurately regulated to a specific value.

Wherein, the outside of connecting cover 8 is fixed and is linked together and has air duct 12, and hose 13 installs on air duct 12, and air duct 12 and hose 13 are linked together, restraint mechanism includes two sliding connection in the outside first cylinder 17 and the second cylinder 18 of hose 13, and the outside of first cylinder 17 and second cylinder 18 is fixed with elastic ear area 19 jointly, the one side that first cylinder 17 is close to second cylinder 18 is fixed with annular rubber cover 21, the one side that second cylinder 18 is close to first cylinder 17 is fixed with annular extrusion cover 22, annular extrusion cover 22 slidable is in annular rubber cover 21 outside and is used for extrusion annular rubber cover 21.

It should be noted that, the outside that annular rubber sleeve 21 is close to annular extrusion sleeve 22 is the inclined plane setting, and annular extrusion sleeve 22 is close to the inner wall of air duct 12 and is also the inclined plane setting, and the inclined plane on annular rubber sleeve 21 agrees with the inclined plane in the annular extrusion sleeve 22, and the annular extrusion sleeve 22 cover of being convenient for establishes on annular rubber sleeve 21, and annular extrusion sleeve 22 is when establishing annular rubber sleeve 21 for the cover, and annular rubber sleeve 21 and hose 13 are not laminated, and after annular extrusion sleeve 22 cover was established on annular rubber sleeve 21, annular rubber sleeve 21 and hose 13 are laminated.

Working principle: the air quick plug 9 is inserted on the oxygen delivery pipeline, the air outlet pipe 15 is inserted into the nasal cavity of a patient, the elastic head band 16 is brought on the head of the patient, then the first cylindrical barrel 17 and the second cylindrical barrel 18 are pulled firstly according to the distance from the ears of the patient to the nasal cavity, so that the first cylindrical barrel 17 and the second cylindrical barrel 18 are separated, the annular rubber sleeve 21 is not attached to the hose 13, the first cylindrical barrel 17 and the second cylindrical barrel 18 can be moved, the first cylindrical barrel 17 and the second cylindrical barrel 18 are moved to the proper positions, when the first cylindrical barrel 17 and the second cylindrical barrel 18 are close to each other, the annular extrusion sleeve 22 is sleeved outside the annular rubber sleeve 21, the annular extrusion sleeve 22 extrudes the annular rubber sleeve 21, the annular rubber sleeve 21 is attached to the hose 13, namely the first cylindrical barrel 17 and the second cylindrical barrel 18 cannot slide on the hose 13 at will, then the elastic ear strap 19 is sleeved on the ears, when oxygen is conveyed to the inside of the humidifying bottle 1 through the air conveying pipe 4, the oxygen is subdivided after passing through the partition plate 5 and the J-shaped pipe 6, the oxygen can enter the water inside the humidifying bottle 1 in a plurality of smaller bubbles, the space between the smaller bubbles is larger, the bubbles can be thinned again when encountering the grid mesh 7 in the water and form more smaller bubbles, then the bubbles continue to float upwards, and finally the oxygen is input to a patient from the hose 13, the connecting hose 14 and the air outlet pipe 15.

The exemplary implementation of the solution proposed by the present disclosure has been described in detail hereinabove with reference to the preferred embodiments, however, it will be understood by those skilled in the art that various modifications and adaptations can be made to the specific embodiments described above and that various combinations of the technical features, structures proposed by the present disclosure can be made without departing from the scope of the present disclosure, which is defined by the appended claims.

Claims (7)

1. The utility model provides a humidification type oxygen uptake nursing device, includes humidification bottle (1) that is used for holding distilled water, its characterized in that, the inside of humidification bottle (1) is provided with air pipe (4), and the bottom of air pipe (4) is fixed with baffle (5), equally spaced along its circumference is fixed with a plurality of J type pipes (6) in baffle (5), and the both ends of J type pipe (6) are linked together inside with air pipe (4) respectively, humidification bottle (1) inside, the bottom of air pipe (4) still is fixed with grid net (7), and grid net (7) are located J type pipe (6) top, the top of air pipe (4) is provided with junction cap (8), and the outside of junction cap (8) is provided with hose (13), be fixed with on hose (13) and the intercommunication have two outlet duct (15), be provided with on hose (13) and be used for restricting the constraint mechanism of outlet duct (15) in the nasal cavity of patient.

2. The humidifying oxygen inhalation care device according to claim 1 is characterized in that a bottle cap (2) is arranged at the top of the humidifying bottle (1), an annular sleeve (3) is fixed at the bottom of the bottle cap (2), the humidifying bottle (1) is in threaded connection with the annular sleeve (3), the gas pipe (4) penetrates through the bottle cap (2) and is fixed with the bottle cap (2), and a J-shaped pipe (6) and a grid net (7) at the bottom of the gas pipe (4) extend to the bottom of the humidifying bottle (1).

3. The humidifying oxygen inhalation care device according to claim 1, wherein the top of the gas pipe (4) is in threaded connection with the connecting cover (8), the gas pipe (4) is communicated with the connecting cover (8), the outer side of the connecting cover (8) is further provided with a gas quick plug (9) and a flow regulating valve (10), and the top of the connecting cover (8) is further provided with a flow meter (11).

4. The humidifying oxygen inhalation care device according to claim 1, wherein the outer side of the connecting cover (8) is fixedly communicated with an air duct (12), a hose (13) is installed on the air duct (12), and the air duct (12) is communicated with the hose (13).

5. The humidifying oxygen inhalation care device according to claim 1, wherein an elastic headband (16) is fixed on the outer side of the connecting hose (14), a positioning block (20) is fixed on the outer side of the hose (13), and the end portion of the hose (13) penetrates through the positioning block (20) and is in sliding fit with the positioning block (20).

6. The humidifying oxygen inhalation care device according to claim 1, wherein the restraint mechanism comprises a first cylinder (17) and a second cylinder (18) which are connected to the outer side of the hose (13) in a sliding manner, and elastic ear bands (19) are fixed to the outer sides of the first cylinder (17) and the second cylinder (18) together.

7. The humidifying oxygen inhalation care device according to claim 6, wherein an annular rubber sleeve (21) is fixed on one side of the first cylinder (17) close to the second cylinder (18), an annular extrusion sleeve (22) is fixed on one side of the second cylinder (18) close to the first cylinder (17), and the annular extrusion sleeve (22) is slidably arranged outside the annular rubber sleeve (21) and is used for extruding the annular rubber sleeve (21).

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