CN212491070U

CN212491070U - High-flow respiration humidification tank with atomization function

Info

Publication number: CN212491070U
Application number: CN202021996738.5U
Authority: CN
Inventors: 黄育明; 徐结兵; 于海滨; 赵军; 谢利颖
Original assignee: Vincent Medical Manufacturing Co ltd; Vincent Medical Dongguan Technology Co Ltd
Current assignee: Vincent Medical Manufacturing Co ltd; Vincent Medical Dongguan Technology Co Ltd
Priority date: 2020-09-11
Filing date: 2020-09-11
Publication date: 2021-02-09
Anticipated expiration: 2030-09-11

Abstract

The utility model discloses a humidifying jar is breathed to high flow with atomizing function, it includes: a humidifying tank body; the breathing loop is communicated with the humidification tank body; an atomization structure in communication with the breathing circuit. The humidification tank body is used for humidifying and/or warming gas (such as oxygen), the atomization structure is used for atomizing medicine, and the breathing circuit is used for simultaneously connecting the atomization structure and the humidification tank body to a patient end; by additionally arranging the atomization structure, the high-flow respiration and humidification tank with the atomization function provided by the embodiment has the atomization structure and the humidification structure at the same time, namely the high-flow respiration and humidification tank with the atomization function has the functions of warming, humidifying and atomizing at the same time; through inciting somebody to action atomizing structure and humidifying jar body all connect in breathe the return circuit, and then effectually avoid relapse dismouting breathing line, reduced patient's risk and medical personnel's work load.

Description

High-flow respiration humidification tank with atomization function

Technical Field

The utility model relates to the technical field of medical equipment, what especially relate to is a humidifying jar is breathed to high flow with atomizing function.

Background

The existing humidification tank and atomization structure are common respiratory therapy equipment, water is stored in the humidification tank, and gas (such as oxygen) delivered to a patient is guided into the humidification tank for humidification and warming, so that the respiratory tract of the patient is moistened; the atomizer atomizes the medicine, and then directly carries out administration treatment to the respiratory tract of a patient.

However, in the prior art, when a patient needs to supply oxygen, the oxygen is often humidified and warmed through a humidification tank; and when the patient need carry out the fog inhalation in the oxygen suppliment, but need take the humidifying jar pipeline (oxygen suppliment pipeline promptly) apart, then insert the patient end with the atomizer, just can accomplish the fog inhalation to the patient, and the fog inhalation is a process that lasts again, and this increases patient safety risk promptly, has increased medical personnel's work load again (tear humidifying jar pipeline open earlier, then insert the atomizer, tear the atomizer open again, then insert the humidifying jar again).

Therefore, how to provide a humidification tank with humidification and atomization functions becomes a technical problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned prior art not enough, an object of the utility model is to provide a humidifying jar is breathed to high flow with atomizing function, aim at solving the problem that current humidifying jar can not have humidifying and atomizing function concurrently.

The utility model provides a technical scheme that technical problem adopted as follows: the utility model provides a humidifying jar is breathed to high flow with atomizing function, it includes:

a humidifying tank body;

the breathing loop is communicated with the humidification tank body;

an atomization structure in communication with the breathing circuit.

Furthermore, the high-flow respiratory humidification tank with the atomization function is also provided with a three-way pipe for connecting the atomization structure to the respiratory loop;

the three-way pipe comprises a first connector, a second connector and a third connector which are communicated with each other;

the first interface and the second interface are arranged in a straight line shape, and the third interface is vertically connected to the joint of the first interface and the second interface; or the first interface, the second interface and the third interface are vertically connected with each other.

Further, the breathing circuit comprises a tank air inlet;

the first interface is connected with oxygen supply equipment, the second interface is connected with the air inlet of the tank body, and the third interface is connected with the atomization structure.

Further, the breathing loop comprises a tank air outlet;

the first interface is connected with the patient end, the second interface is connected with the air outlet of the tank body, and the third interface is connected with the atomization structure.

Further, the breathing loop comprises a tank air outlet and a breathing pipe;

one end of the breathing tube is connected with the air outlet of the tank body, the other end of the breathing tube is connected with the second interface, the first interface is connected with the patient end, and the third interface is connected with the atomization structure.

Furthermore, the breathing pipe and the three-way pipe are detachably connected or integrally formed.

Further, the inner surface of the breathing tube is provided as a smooth surface.

Further, the atomizing structure includes:

an atomization box for containing a drug to be atomized;

the atomizing heating plate is arranged at the bottom of the atomizing box;

and the mist outlet is communicated with the breathing loop.

Further, the atomizing structure still includes the atomizing power, the one end of atomizing power with the atomizing heating plate electricity is connected, and the other end is provided with the power port, external power source is connected to the power port electricity.

Further, high flow breathes humidifying jar with atomizing function still includes control circuit, control circuit includes the identification chip, the identification chip is used for discerning whether humidifying jar body connects the atomizing structure, and control humidifying jar body and atomizing structure operate respectively.

Compared with the prior art, the utility model provides a humidifying jar is breathed to high flow with atomizing function, it includes: a humidifying tank body; the breathing loop is communicated with the humidification tank body; an atomization structure in communication with the breathing circuit. It is understood that the humidification canister body is used for humidifying and/or warming gas (such as oxygen), the atomization structure is used for atomizing medicine, and the breathing circuit is used for simultaneously connecting the atomization structure and the humidification canister body to a patient end; by additionally arranging the atomization structure, the high-flow respiration and humidification tank with the atomization function provided by the embodiment has the atomization structure and the humidification structure at the same time, namely the high-flow respiration and humidification tank with the atomization function has the functions of warming, humidifying and atomizing at the same time; through inciting somebody to action atomizing structure and humidifying jar body all connect in breathe the return circuit, and then effectually avoid relapse dismouting breathing line, and then the effectual work load that has reduced patient's risk and medical personnel.

Drawings

FIG. 1 is a schematic perspective view of a preferred high flow respiratory humidification canister with atomization provided in the present invention;

FIG. 2 is a schematic perspective exploded view of a preferred high flow respiratory humidification canister with aerosolization functionality according to the present invention;

FIG. 3 is a schematic diagram showing a variation of the three-dimensional structure of the preferred high flow volume humidification canister with atomization of the present invention;

fig. 4 is a schematic diagram of a preferred high flow volume breath humidification canister with aerosolization in accordance with the present invention;

FIG. 5 is another schematic diagram of a variation of the three-dimensional structure of the preferred high flow volume humidification canister with aerosolization provided in the present invention;

FIG. 6 is a schematic diagram of another exemplary embodiment of a high flow volume humidifying canister with aerosolization for three-dimensional explosion;

FIG. 7 is a schematic perspective view of a preferred atomization structure of a high flow volume breath humidification canister with atomization provided in the present invention;

FIG. 8 is a schematic view of another perspective of the preferred aerosolization structure of the high-flow respiratory humidification canister with aerosolization functionality of the present invention;

description of reference numerals:

10. a high flow respiratory humidification tank with an atomization function; 11. a humidifying tank body; 12. a breathing circuit; 13. an atomizing structure; 14. a three-way pipe; 121. a tank air inlet; 122. a tank body air outlet; 123. a breathing tube; 131. an atomization box; 132. atomizing the heating plate; 133. a mist outlet; 134. an atomizing power supply; 135. a power port; 136. a liquid injection port; 137. a sealing cover; 138. a connecting member; 139. an atomization box body; 141. a first interface; 142. a second interface; 143. and a third interface.

Detailed Description

The utility model provides a humidifying jar is breathed to high flow with atomizing function, for making the utility model discloses a purpose, technical scheme and effect are clearer, make clear and definite, and it is right to refer to the attached drawing and to lift the example below the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The existing humidification tank and atomization structure are common respiratory therapy equipment, water is stored in the humidification tank, and gas (such as oxygen) delivered to a patient is guided into the humidification tank for humidification and warming, so that the respiratory tract of the patient is moistened; the atomizer atomizes the medicine, and then directly carries out administration treatment to the respiratory tract of a patient. However, in the prior art, when a patient needs to supply oxygen, the oxygen is often humidified and warmed through a humidification tank; when a patient needs to perform atomization treatment while supplying oxygen, the humidification tank pipeline (namely the oxygen supply pipeline) needs to be disassembled, then the atomizer is connected to the patient end, and the atomization treatment of the patient can be completed; the utility model provides a humidification tank with humidification, heating and atomization functions, based on the technical problems that in the prior art, when a patient needs to perform atomization treatment while supplying oxygen, the high-flow respiratory humidification tank with atomization function and an atomizer pipeline need to be repeatedly disassembled and assembled, thereby increasing the safety risk of the patient and the workload of medical care personnel, the high-flow respiratory humidification tank with atomization function and the atomization structure are added on the respiratory loop, thereby leading the high-flow respiratory humidification tank with the atomization function to simultaneously have the humidification structure and the atomization structure, so that the high-flow respiratory humidification tank with the atomization function has the functions of heating, humidifying and atomizing simultaneously, and the humidification tank body and the atomization structure share the same respiratory pipeline, further avoiding repeated disassembly and assembly of the breathing pipeline, effectively reducing the risk of the patient and the workload of the medical staff, and particularly making detailed reference to the following embodiments.

Referring to fig. 1 to 6, in a first embodiment of the present invention, a high flow respiratory humidification canister 10 with atomization is provided, which includes: a humidification tank body 11, a breathing loop 12 and an atomization structure 13; the breathing loop 12 is communicated with the humidification tank body 11; the nebulizing structure 13 communicates with the breathing circuit 12.

It is understood that the humidification canister body 11 is used for humidifying and/or warming gas (such as oxygen), the nebulizing structure 13 is used for nebulizing medicine, and the breathing circuit 12 is used for connecting the nebulizing structure 13 and the humidification canister body 11 to a patient end at the same time; by additionally arranging the atomization structure 13, the high-flow respiration and humidification tank 10 with the atomization function provided by the embodiment of the invention has the atomization structure 13 and the humidification structure at the same time, that is, the high-flow respiration and humidification tank 10 with the atomization function has the functions of warming, humidifying and atomizing at the same time; through inciting somebody to action atomizing structure 13 and humidifying jar body 11 all connect in breathing circuit 12, and then effectual dismouting breathing tube 123 way of avoiding relapseing, and then the effectual work load that has reduced patient's risk and medical personnel.

In some preferred embodiments, the high flow respiratory humidification canister with nebulization function 10 is further provided with a tee 14, the tee 14 being used to connect the nebulization structure 13 to the respiratory circuit 12; specifically, the tee pipe 14 includes a first port 141, a second port 142 and a third port 143 which are communicated with each other; the first interface 141 and the second interface 142 are arranged in a straight line, and the third interface 143 is vertically connected to a joint of the first interface 141 and the second interface 142; alternatively, the first interface 141, the second interface 142 and the third interface 143 are vertically connected to each other.

Can understand, through setting up three-way pipe 14, and then simple effectual will atomization structure 13 and humidifying tank body 11 are connected simultaneously on breathing circuit 12, and then effectual dismouting breathing pipe 123 way of avoiding relapseing, and then the effectual work load that has reduced patient's risk and medical personnel, and then reduced the high flow that has the atomizing function and breathed humidifying tank 10's cost, promoted the high flow that has the atomizing function and breathed humidifying tank 10's stability.

Referring again to fig. 1 and 2 in combination, in other preferred embodiments, the breathing circuit 12 includes a tank inlet 121; the first interface 141 is connected with an oxygen supply device, the second interface 142 is connected with the tank air inlet 121, and the third interface 143 is connected with the atomizing structure 13.

It can be understood that the tank body air inlet 121 is arranged on the humidification tank body 11, that is, the air inlet of the tank body of the high flow rate respiratory humidification tank 10 with the atomization function in the prior art; one interface of the three-way pipe 14 is connected with the atomizing structure 13, the other interface of the three-way pipe 14 is connected with an oxygen supply device (existing equipment, which is not described in detail in this embodiment), and the last interface is connected with the tank body air inlet 121. And then simple effectual will atomizing structure 13 and humidifying jar body 11 are connected simultaneously on breathing circuit 12 simultaneously, and then effectual dismouting breathing tube 123 way of avoiding relapseing, and then the effectual work load that has reduced patient risk and medical personnel, and then reduced the high flow that has the atomizing function and breathed humidifying jar 10's cost, promoted the high flow that has the atomizing function and breathed humidifying jar 10's stability.

Referring again to fig. 3 and 4 in combination, in other preferred embodiments, the breathing circuit 12 includes a tank outlet 122; the first interface 141 is connected with the patient end, the second interface 142 is connected with the canister air outlet 122, and the third interface 143 is connected with the atomizing structure 13.

It can be understood that the tank body air outlet 122 is arranged on the humidification tank body 11, that is, the air outlet of the tank body of the high-flow respiration humidification tank 10 with the atomization function in the prior art; one interface of the three-way pipe 14 is connected with the atomization structure 13, the other interface of the three-way pipe 14 is connected with the patient end, and the last interface is connected with the gas outlet 122 of the tank body. And then simple effectual will atomizing structure 13 and humidifying jar body 11 are connected simultaneously on breathing circuit 12 simultaneously, and then effectual dismouting breathing tube 123 way of avoiding relapseing, and then the effectual work load that has reduced patient risk and medical personnel, and then reduced the high flow that has the atomizing function and breathed humidifying jar 10's cost, promoted the high flow that has the atomizing function and breathed humidifying jar 10's stability.

Referring again to fig. 5 and 6 in combination, in other preferred embodiments, the breathing circuit 12 includes a tank outlet 122 and a breathing tube 123; one end of the breathing tube 123 is connected to the air outlet 122 of the canister body, the other end of the breathing tube is connected to the second interface 142, the first interface 141 is connected to the patient, and the third interface 143 is connected to the atomizing structure 13.

It can be understood that the breathing tube 123 connects the high-flow respiratory humidification canister 10 with an atomization function to the end of a patient, the three-way tube 14 is arranged at the end of the breathing tube 123 far away from the humidification canister body 11, that is, the three-way tube 14 is arranged between the breathing tube 123 and the end of the patient, one interface of the three-way tube 14 is connected with the breathing tube 123, the other end of the three-way tube 14 is connected with the end of the patient, and the last end of the three-way tube is connected with the atomization structure 13, so that the atomization structure 13 and the humidification canister body 11 are simply and effectively connected to the simultaneous breathing loop 12, and further, the repeated disassembly and assembly of the breathing tube 123 are effectively avoided, further, the risk of the patient and the workload of medical staff are effectively reduced, further, the cost of the high-flow respiratory humidification canister 10 with an atomization function is reduced; meanwhile, the distance between the atomizing structure 13 and the patient is shortened, the medicine atomizing gas directly enters the patient end, and medicine waste caused by the fact that the mist stays on the inner wall of the breathing loop 12 is reduced.

In other preferred embodiments, the breathing tube 123 is removably connected to the tee 14; it can be understood that the breathing tube 123 is detachably connected with the three-way tube 14, so that the maintenance and repair of the high-flow respiratory humidification canister 10 with the atomization function are facilitated.

Further, the breathing tube 123 is integrally formed with the tee tube 14; it can be understood that the air tightness of the high-flow respiratory humidification canister 10 with the atomization function is effectively improved by integrally forming the breathing tube 123 and the three-way pipe 14.

In other preferred embodiments, the inner surface of the breathing tube 123 is provided as a smooth surface; it can be understood that the inner surface of the breathing tube 123 is set to be a smooth surface, so that the medicine is prevented from stagnating in the folded inner wall of the traditional breathing tube 123 after the water is condensed in the atomization process, and the medicine waste is avoided.

Further, the breathing tube 123 is provided as a bellows; it can be understood that by configuring the breathing tube 123 as a bellows tube, the breathing tube 123 can be stretched and warped, and the angle of the breathing tube 123 can be adjusted. Furthermore, the outer surface of the breathing tube 123 can be provided with a smooth surface, so that the breathing tube 123 is effectively prevented from winding various wires of other medical equipment, and dust is effectively prevented from being deposited on the outer surface of the breathing tube 123.

Referring again to fig. 7 and 8 in combination, in other preferred embodiments, the atomizing structure 13 includes: an atomizing box 131, an atomizing heating plate 132 and a mist outlet 133; the atomization box 131 is used for containing a medicine to be atomized; the atomizing heating disk 132 is arranged at the bottom of the atomizing box 131; the mist outlet 133 is in communication with the breathing circuit 12. It can be understood that when medicine atomizing is needed to be carried out, the medicine to be atomized is put into the atomizing box 131, then the atomizing structure 13 is operated, so that the medicine can be atomized, and then the medicine is communicated with the breathing loop 12 through the mist outlet 133, so that the patient can carry out atomization treatment under the condition that the breathing tube 123 is not detached. The atomizing structure 13 in the present embodiment may be provided as a conventional atomizing structure 13 such as a jet atomizer, an ultrasonic atomizer, or a vibration atomizer.

Further, the atomizing structure 13 further includes an atomizing power supply 134, one end of the atomizing power supply 134 is electrically connected to the atomizing heating plate 132, and the other end is provided with a power supply port 135, and the power supply port 135 is electrically connected to an external power supply; it should be noted that the external power supply includes a mains supply interface or a power supply interface on the ventilator; the power port 135 is electrically connected to a power interface of the ventilator or an external power source through a connecting wire.

Furthermore, the atomization box 131 specifically comprises an atomization box body 139, a liquid injection port 136, a sealing cover 137 and a connecting piece 138; one end of the atomization box body 139 is connected with the atomization heating plate 132, the liquid injection port 136 is arranged at one end of the atomization box body 139, which is far away from the atomization heating plate 132, one end of the connecting piece 138 is connected with the atomization box body 139, the other end of the connecting piece 138 is connected with the sealing cover 137, the sealing cover 137 is used for sealing the liquid injection port 136, and the medicine to be atomized is injected into the atomization box body 139 through the liquid injection port 136, so that the medicine is prevented from volatilizing to the outside of the atomization box body 139 or being accidentally thrown; the seal cap 137 is prevented from being lost by providing the connecting member 138.

In other preferred embodiments, the high flow respiration humidification canister 10 with an atomization function further comprises a control circuit, the control circuit comprises an identification chip, and the identification chip is used for identifying whether the humidification canister body 11 is connected with the atomization structure 13, and controlling the humidification canister body 11 and the atomization structure 13 to operate respectively. The control circuit can automatically identify whether the atomization structure 13 is installed on the humidification tank body 11, so that manual operation of medical personnel is reduced, and operation control errors of the high-flow respiration humidification tank 10 with the atomization function are reduced; the control circuit is arranged along the humidification tank body 11, the breathing circuit 12 and the atomization structure 13 and is used for detecting the heating power and the temperature of the humidification tank body 11, the atomization structure 13 and the breathing circuit 12; furthermore, the identification chip can be set as a programmable memory (such as DS28E05), a singlechip or a processor, etc.; it should be noted that, when the atomization power supply 134 of the atomization mechanism is powered on, the electrical element inside the atomization structure 13 and the identification chip form a loop, so that the identification chip identifies the connection of the atomization structure 13, and then, the respective operations of the humidification tank body 11 and the atomization structure 13 are precisely controlled; specifically, when the identification chip identifies that the atomization structure 13 is connected, the humidification tank body 11 is stopped, and the temperature value of the breathing loop 12 is controlled to be lower than 37 ℃, so that the high temperature and the moisture are prevented from damaging the performance of the atomized medicine.

It is to be understood that the invention is not limited to the above-described embodiments, and that modifications and variations may be made by those skilled in the art in light of the above teachings, and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims

1. The utility model provides a humidifying jar is breathed to high flow with atomizing function which characterized in that includes:

a humidifying tank body;

the breathing loop is communicated with the humidification tank body;

an atomization structure in communication with the breathing circuit.

2. The high flow respiratory humidification canister with aerosolization functionality as in claim 1,

the high-flow respiratory humidification tank with the atomization function is also provided with a three-way pipe for connecting the atomization structure to the respiratory loop;

3. The high flow respiratory humidification canister with aerosolization functionality as in claim 2,

the breathing circuit comprises a tank air inlet;

4. The high flow respiratory humidification canister with aerosolization functionality as in claim 2,

the breathing loop comprises a tank body air outlet;

5. The high flow respiratory humidification canister with aerosolization functionality as in claim 2,

the breathing loop comprises a tank air outlet and a breathing pipe;

6. The high flow respiratory humidification canister with aerosolization functionality as in claim 5,

the breathing pipe and the three-way pipe are detachably connected or integrally formed.

7. The high flow respiratory humidification canister with aerosolization functionality as in claim 5,

the inner surface of the breathing tube is provided as a smooth surface.

8. The high flow breath humidification canister with aerosolization functionality according to any one of claims 1-7, wherein the aerosolization structure comprises:

an atomization box for containing a drug to be atomized;

the atomizing heating plate is arranged at the bottom of the atomizing box;

and the mist outlet is communicated with the breathing loop.

9. The high flow respiratory humidification canister with aerosolization functionality as in claim 8,

the atomization structure further comprises an atomization power supply, one end of the atomization power supply is electrically connected with the atomization heating plate, the other end of the atomization power supply is provided with a power port, and the power port is electrically connected with an external power supply.

10. The high flow respiratory humidification canister with aerosolization functionality as in claim 8,

the high-flow respiration humidification tank with the atomization function further comprises a control circuit, the control circuit comprises an identification chip, and the identification chip is used for identifying whether the humidification tank body is connected with the atomization structure or not and controlling the humidification tank body and the atomization structure to operate respectively.