CN213158577U - A gas cutting oxidation atomization integrated device - Google Patents

Abstract

The utility model discloses an integrated device for gas cutting, oxidation and atomization, which relates to the field of medical devices, comprising an oxygen port and an atomization tank. The atomizing tank is close to the oxygen port, the atomizing tank is vertically arranged, and the atomizing tank is provided with a vertically arranged partition to separate the atomizing tank into an atomizing cavity and an exhaust cavity. There is a gap between the plate and the top of the atomizing tank to communicate the atomizing chamber and the exhaust chamber, the atomizing chamber in the atomizing tank is communicated with the oxygen port, and the exhaust chamber in the atomizing tank is connected with the suction port of the patient. The atomizing tank is close to the oxygen port, which can avoid the large shaking of the atomizing tank during the movement of the patient. The atomizing tank is installed vertically, and the partition in the atomizing tank is also installed vertically, which can prevent the atomizing tank from shaking. Drug spillage.

Description

Autogenous cutting oxidation atomizing integrated device

Technical Field

The utility model relates to the technical field of medical equipment, particularly, indicate an autogenous cutting oxidation atomizing integrated device.

Background

Tracheotomy is a common operation for relieving dyspnea caused by laryngeal dyspnea, respiratory dysfunction or retention of lower respiratory secretions by cutting a neck trachea, and placing a metal tracheal cannula and a silica gel cannula.

The tracheotomy patient needs to input oxygen and medicines into the air suction port of the patient by means of the atomizer after the operation is completed, the existing atomizer is close to the air suction port of the patient, the atomizer can shake in the process of rotating or moving the head of the patient, and therefore the medicines in the atomizer are left.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at overcoming the not enough of prior art, provide an autogenous cutting oxidation atomizing integrated device to solve the problem that the medicament in the current autogenous cutting atomizing device atomizer tank is lost easily and spills.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides an autogenous cutting oxidation atomizing integrated device, including oxygen mouth, atomizer tank, the oxygen mouth is used for exporting patient's breathing used oxygen, the atomizer tank with oxygen mouth intercommunication and atomizer tank are close to the oxygen mouth, the vertical setting of atomizer tank, the baffle that has vertical setting in the atomizer tank is with will for atomizing chamber and exhaust chamber in the atomizer tank, the liquid medicine is equipped with in the atomizing chamber, the baffle with the top of atomizer tank has the clearance so that atomizing chamber and exhaust chamber intercommunication, atomizing chamber in the atomizer tank with oxygen mouth intercommunication, exhaust chamber in the atomizer tank is connected with patient's induction port.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Further, the atomizing chamber of the atomizing tank is communicated with the oxygen port through an air inlet pipe, and the air inlet pipe is positioned on the side wall of one side of the atomizing chamber and is provided with an air outlet.

Further, the air outlet has a plurality ofly, and a plurality ofly the air outlet is around the circumference setting of intake pipe.

Further, a dosing port is formed in the surface of the atomization tank and communicated with the atomization cavity.

Further, the atomizing jar surface is provided with the pencil, add the medicine mouth and be located add the pencil and keep away from the one end of atomizing jar, be provided with the rubber buffer on adding the medicine mouth.

Further, the device also comprises a humidification bottle, wherein one end of the humidification bottle is connected with the oxygen port, and the other end of the humidification bottle is connected with the atomization tank.

Further, a flow meter for monitoring oxygen flow is arranged between the humidification bottle and the oxygen port.

Furthermore, the exhaust chamber of atomizer jar is connected with the breathing pipe, the breathing pipe is used for with patient's induction port intercommunication, the breathing pipe is kept away from the one end of atomizer jar is provided with the detachable face guard of breathing in.

Furthermore, be connected with two fixing straps on the face guard of breathing in, two fixing strap passes through the magic and pastes the connection.

Further, the atomization tank is disposed below the oxygen port.

Compared with the prior art, the utility model discloses the beneficial effect who has is:

the utility model provides an atomizing intracavity of atomizing jar is equipped with the medicine, and the atomizing jar is connected with the oxygen mouth, and the oxygen mouth can export oxygen in the atomizing jar so that the medicine in oxygen and the atomizing chamber mixes, can enter into patient's induction port again behind the exhaust chamber after oxygen and the medicine mix the atomizing to reached and provided the purpose of atomizing oxygen and medicine for patient. The atomizing jar is close to the oxygen gas port, can avoid patient to remove the in-process and cause the atomizing jar to rock by a wide margin, the vertical setting of atomizing jar to baffle in the atomizing jar is also vertical setting, thereby can prevent that the atomizing jar from rocking and causing the medicine to lose and spill.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

fig. 2 is a schematic view of the gas outlet of the present invention.

Wherein the figures include the following reference numerals: 100-oxygen port, 200-atomization tank, 210-clapboard, 220-atomization chamber, 230-exhaust chamber, 240-medicine feeding pipe, 250-medicine feeding port, 300-air inlet pipe, 310-air outlet, 400-humidification bottle, 410-flowmeter, 420-regulating part, 500-air suction pipe, 510-air suction mask and 520-fixing bandage.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are merely exemplary of the invention and are not intended to be exhaustive. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1:

the utility model provides an autogenous cutting oxidation atomizing integrated device, as shown in fig. 1-2, including oxygen port 100, aerosol canister 200, oxygen port 100 is used for exporting the used oxygen of patient's breathing, aerosol canister 200 and oxygen port 100 intercommunication and aerosol canister 200 are close to oxygen port 100, aerosol canister 200 is vertical to be set up, the baffle 210 that has vertical setting in the aerosol canister 200 is in order to be separated for atomizing chamber 220 and exhaust chamber 230 in the aerosol canister 200, the liquid medicine is equipped with in the atomizing chamber 220, baffle 210 has the clearance with aerosol canister 200's top so that atomizing chamber 220 and exhaust chamber 230 communicate, atomizing chamber 220 and oxygen port 100 intercommunication in the aerosol canister 200, exhaust chamber 230 in the aerosol canister 200 is connected with patient's induction port.

The utility model provides an atomizing jar 200 is equipped with the medicine in the atomizing chamber 220, and atomizing jar 200 is connected with oxygen mouth 100, and oxygen mouth 100 can export in atomizing jar 200 so that oxygen mixes with the medicine in atomizing chamber 220, can enter into patient's induction port again after oxygen and medicine mix the atomizing in the exhaust chamber 230 to the mesh of providing atomizing oxygen and medicine for patient has been reached. The aerosol canister 200 is close to oxygen port 100, can avoid patient to remove the in-process and cause aerosol canister 200 to rock by a wide margin, and the vertical setting of aerosol canister 200 to baffle 210 in the aerosol canister 200 is also vertical setting, thereby can prevent that aerosol canister 200 from rocking and causing the medicine to lose and spill.

In this embodiment, the nebulization cavity 220 of the nebulization canister 200 is communicated with the oxygen port 100 through the air inlet tube 300, the air outlet 310 is opened on the side wall of the air inlet tube 300 on one side of the nebulization cavity 220, the air inlet tube 300 is supported by a material which has ductility and bendability and meets the medical and health standards, and the air outlet 310 opened on the side wall of the air inlet tube 300 can mix oxygen with the liquid medicine in the nebulization cavity 220. Specifically, the gas outlet 310 has a plurality of, and a plurality of gas outlets 310 are around the circumference setting of inlet tube 300, can accelerate the mixing rate of oxygen and the interior liquid medicine of atomizing chamber 220 through setting up a plurality of gas outlets 310, and gas outlets 310 are around the setting of inlet tube 300 and can make oxygen and liquid medicine mix more fully.

In this embodiment, the surface of the atomization tank 200 is provided with a dosing port 250, the dosing port 250 is communicated with the atomization chamber 220, the atomization tank 200 is integrally of a closed structure, and after the liquid medicine in the atomization chamber 220 is used up, the medicine can be added into the atomization chamber 220 through the dosing port 250.

In this embodiment, atomizing jar 200 surface is provided with pencil 240, add medicine mouth 250 and be located the one end that adds pencil 240 and keep away from atomizing jar 200, be provided with the rubber buffer on adding medicine mouth 250, add pencil 240 and outwards extend on atomizing jar 200 surface, when needing to add medicine in atomizing jar 200, insert through the syringe and accomplish the medicine step of adding in the rubber buffer that adds medicine mouth 250, the rubber buffer has played the effect that seals with medicine mouth 250 simultaneously, the opening that the syringe inserted and formed in the rubber buffer is very little.

In this embodiment, still include humidifying bottle 400, humidifying bottle 400 one end is connected with oxygen mouth 100, and humidifying bottle 400's the other end is connected with atomizing jar 200, and humidifying bottle 400's purpose is for making oxygen have certain humidity, to the patient that the phlegm does not easily coughed out, sets up humidifying bottle 400 and can strengthen the humidifying of air flue, is favorable to the discharge of sputum, reduces the air flue drying, forms phlegm gay.

In this embodiment, a flow meter 410 for monitoring the oxygen flow and an adjusting part 420 for controlling the oxygen flow are arranged between the humidification bottle 400 and the oxygen port 100, and the oxygen flow can be adjusted to the degree most suitable for the patient according to the requirement of the patient by the cooperation of the flow meter 410 and the adjusting part 420.

In this embodiment, the exhaust chamber 230 of the aerosol canister 200 is connected to an air suction pipe 500, the air suction pipe 500 is used for communicating with the air suction port of the patient, a detachable air suction mask 510 is disposed at an end of the air suction pipe 500 away from the aerosol canister 200, and some tracheotomy patients are provided with artificial noses at the throat, and the purpose of providing the aerosol oxygen medicine for the tracheotomy patients is achieved by connecting the air suction pipe 500 with the artificial noses. The setting up the face guard 510 of breathing in can make the face guard with patient's neck cladding, makes the utility model discloses the effect of output oxygen and medicine is better.

In this embodiment, the mask is connected with two fixing straps 520, the two fixing straps 520 are connected by a hook and loop fastener, of course, the fixing straps 520 can also be supported by elastic materials, and the fixing straps 520 are integrally sleeved on the neck of the patient.

In the present embodiment, since the aerosol can 200 is disposed below the oxygen port 100, the chemical liquid in the aerosol can 200 can be further prevented from being scattered.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention.

Claims (10)

1. An integrated device for autogenous cutting, oxidation and atomization, which is characterized by comprising an oxygen port (100) and an atomization tank (200), the oxygen port (100) is used for outputting oxygen used by the breath of a patient, the atomization tank (200) is communicated with the oxygen port (100) and the atomization tank (200) is close to the oxygen port (100), the atomization tank (200) is vertically arranged, a partition plate (210) which is vertically arranged is arranged in the atomization tank (200) to divide the atomization tank (200) into an atomization cavity (220) and an exhaust cavity (230), the atomization cavity (220) is filled with liquid medicine, a gap is formed between the partition plate (210) and the top of the atomization tank (200) to enable the atomization cavity (220) to be communicated with the exhaust cavity (230), an atomization cavity (220) in the atomization tank (200) is communicated with the oxygen port (100), an exhaust cavity (230) in the aerosol canister (200) is connected to the patient's inhalation port.

2. The integrated gas cutting, oxidizing and atomizing device according to claim 1, wherein the atomizing chamber (220) of the atomizing tank (200) is communicated with the oxygen port (100) through an air inlet pipe (300), and an air outlet (310) is formed in a side wall of the air inlet pipe (300) on one side of the atomizing chamber (220).

3. The integrated gas-cutting, oxidizing and atomizing device according to claim 2, wherein the gas outlet (310) is provided in plurality, and the plurality of gas outlets (310) are arranged around the circumference of the gas inlet pipe (300).

4. The integrated device for tracheostomy, oxidation and atomization according to claim 3, characterized in that a dosing opening (250) is formed in the surface of the atomization tank (200), and the dosing opening (250) is communicated with the atomization cavity (220).

5. The autogenous cutting, oxidizing and atomizing integrated device of claim 4, characterized in that, atomizing jar (200) surface is provided with dosing pipe (240), dosing port (250) are located dosing pipe (240) keep away from the one end of atomizing jar (200), be provided with the rubber buffer on dosing port (250).

6. The integrated device for air-cutting, oxidizing and atomizing as claimed in claim 1, further comprising a humidification bottle (400), wherein one end of the humidification bottle (400) is connected with the oxygen port (100), and the other end of the humidification bottle (400) is connected with the atomizing tank (200).

7. The integrated device of claim 6, wherein a flow meter (410) for monitoring oxygen flow is arranged between the humidification bottle (400) and the oxygen port (100).

8. The integrated device for tracheostomy, oxidation and atomization according to claim 1, characterized in that the exhaust cavity (230) of the aerosol canister (200) is connected with an air suction tube (500), the air suction tube (500) is used for communicating with the air suction opening of a patient, and a detachable air suction mask (510) is arranged at one end of the air suction tube (500) far away from the aerosol canister (200).

9. The integrated device for air-cutting, oxidizing and atomizing as claimed in claim 8, wherein two fixing straps (520) are connected to the air suction mask (510), and the two fixing straps (520) are connected by a magic tape.

10. The integrated apparatus of claim 1, wherein the atomization tank (200) is disposed below the oxygen port (100).

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