CN114028680A

CN114028680A - Oxygen-making and atomizing all-in-one machine for treating respiratory diseases

Info

Publication number: CN114028680A
Application number: CN202111584118.XA
Authority: CN
Inventors: 丁松林; 梁锐; 李昌才; 冷宇航; 段志伟; 吕涛; 张静
Original assignee: Hefei Kangjuren Intelligent Technology Co ltd
Current assignee: Hefei Kangjuren Intelligent Technology Co ltd
Priority date: 2021-12-22
Filing date: 2021-12-22
Publication date: 2022-02-11

Abstract

The invention discloses an oxygen generation and atomization integrated machine for treating respiratory diseases, and particularly relates to the technical field of oxygen generators. The invention can provide an effective protection for the respiratory tract and improve the using effect of the respiratory tract in the using process of patients with respiratory tract diseases, avoids secondary damage to the respiratory tract caused by cold oxygen and reduces the occurrence of complications, and is beneficial to the recovery of the patients.

Description

Oxygen-making and atomizing all-in-one machine for treating respiratory diseases

Technical Field

The invention relates to the technical field of oxygen generators, in particular to an oxygen generation and atomization integrated machine for treating respiratory diseases.

Background

The atomizer atomizes the test solution. The nebulizer is an important part of the atomization system, and its performance has a significant influence on the precision of the measurement and chemical interference. Therefore, the atomizer is required to have stable spraying, fine and uniform droplets, and high atomization efficiency.

The oxygen generator is a kind of machine for producing oxygen and its principle is that it utilizes air separation technology. The air is compressed at high density, then is subjected to gas-liquid separation at a certain temperature by utilizing the difference of condensation points of all components in the air, and is further rectified to obtain the air-conditioning filter.

When carrying out oxygen therapy and atomizing work simultaneously to the patient, produced an atomizing oxygen therapy all-in-one on the market, come the work of carrying out oxygen uptake and treatment to the patient in step, but the all-in-one on the current market does not possess the heating function, to the patient, when the patient's larynx inflammation or has serious respiratory disease, uses cold oxygen can cause a series of complications and cause the secondary injury, is unfavorable for patient's recovery.

Disclosure of Invention

In order to solve the technical problem, the invention provides an oxygen generation and atomization integrated machine for treating respiratory diseases, which comprises a machine body, wherein a transverse partition plate is arranged in the middle of the machine body, the interior of the machine body is divided into an upper area and a lower area, an air inlet assembly for sucking external air, a heating assembly for heating oxygen and an atomization assembly for atomizing medicaments are arranged in the upper area, an oxygen generation assembly for treating sucked air and generating oxygen is arranged in the lower area, and the air inlet assembly, the oxygen generation assembly, the heating assembly and the atomization assembly are sequentially connected.

In a preferred embodiment, the air inlet assembly comprises a compressor arranged at the top of the partition plate, an air inlet pipe and an air delivery pipe, the air inlet pipe is connected to the compressor, the air inlet pipe is further provided with a filter, the other end of the air inlet pipe penetrates through the machine body and extends to the outside of the machine body, and the other end of the air delivery pipe is bent towards one side and is connected with a three-way pipe.

In a preferred embodiment, the oxygen generation assembly comprises a fixed frame fixed at the bottom of the partition board, two molecular sieve beds and an oxygen tank are mounted inside the fixed frame, the two molecular sieve beds are symmetrically arranged on the inner walls of the two sides of the fixed frame through the oxygen tank, and the oxygen tank is fixed on the inner wall of the top of the fixed frame.

In a preferred embodiment, the two molecular sieve beds are communicated with an oxygen tank through a pipeline, and a first air pipe is connected to the molecular sieve beds, extends to the outside of the fixed frame after being bent towards one side, penetrates through the partition plate upwards, extends to the top of the partition plate, and is communicated with the other two connectors of the three-way pipe.

In a preferred embodiment, a second air pipe is connected to the bottom end of the oxygen tank, extends to the outside of the fixed frame body, upwards penetrates through the partition plate, extends to the top of the partition plate, and is connected with the atomizing assembly.

In a preferred embodiment, the atomization assembly comprises an atomizer mounted on the inner wall of the top of the machine body, the end part of the second air pipe is connected with the input end of the atomizer, and an air outlet pipe extending to the top of the machine body is arranged on the atomizer.

In a preferred embodiment, the heating assembly comprises a first heating box mounted on the inner wall of the machine body and a second heating box mounted on the partition plate, the second air pipe penetrates through the first heating box, and the joint of the second air pipe and the first heating box is sealed.

In a preferred embodiment, the second heating box is internally provided with heating pipes and filled with heat conduction oil, a circulation oil pipe for circulating the heat conduction oil between the first heating box and the second heating box is connected between the second heating box and the first heating box, and a circulation pump is fixed on the outer wall of the second heating box and connected with the circulation oil pipe to provide power for the circulation of the heat conduction oil.

The invention has the technical effects and advantages that:

the invention can provide an effective protection for the respiratory tract and improve the using effect of the respiratory tract in the using process of patients with respiratory tract diseases, avoids secondary damage to the respiratory tract caused by cold oxygen and reduces the occurrence of complications, and is beneficial to the recovery of the patients.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Description of reference numerals: 1 organism, 2 baffles, 3 subassembly, 4 heating element, 5 oxygen generation subassemblies, 6 compressors, 7 intake pipes, 8 gas-supply pipes, 9 tee pipes, 10 fixed frame bodies, 11 molecular sieve beds, 12 oxygen tanks, 13 first gas pipes, 14 second gas pipes, 15 atomizers, 16 gas outlet pipes, 17 first heating boxes, 18 second heating boxes, 19 heating pipes, 20 circulating oil pipes, 21 circulating pumps, 22 filters, 23 atomization subassemblies

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

An oxygen generation and atomization all-in-one machine for treating respiratory diseases, as shown in figure 1, comprises a machine body 1, wherein a transverse partition plate 2 is arranged in the middle of the machine body 1, and the interior of the machine body 1 is divided into an upper area and a lower area, and is characterized in that an air inlet component 3 for sucking external air, a heating component 4 for heating oxygen and an atomization component 23 for atomizing medicaments are arranged in the upper area, an oxygen generation component 5 for processing the sucked air and generating oxygen is arranged in the lower area, and the air inlet component 3, the oxygen generation component 5, the heating component 4 and the atomization component 23 are sequentially connected.

When using, outside gas rushes into 3 departments of air inlet assembly and enters into the inside of organism 1, has advanced the processing back of making oxygen subassembly 5, heating element 4 and atomization component 23 in proper order, and convenience of customers absorbs, owing to set up heating element 4, can heat user's inspiratory oxygen, improves user's use and experiences.

The air inlet assembly 3 comprises a compressor 6 arranged at the top of the partition plate 2, an air inlet pipe 7 connected to the compressor 6 and an air delivery pipe 8, a filter 22 is further arranged on the air inlet pipe 7, the other end of the air inlet pipe 7 penetrates through the machine body 1 and extends to the outside of the machine body 1, and the other end of the air delivery pipe 8 is bent towards one side and is connected with a three-way pipe 9.

Further, the external air inlet mode is specifically as follows: the compressor 6 sucks the outside air from the air inlet pipe 7 into the machine body 1, and then the air enters the compressor 6 after being filtered by the filter 22, and then enters the air delivery pipe 8 from the compressor 6 and is delivered to other components in the machine body 1 for subsequent treatment.

The oxygen generation assembly 5 comprises a fixed frame body 10 fixed at the bottom of the partition board 2, two molecular sieve beds 11 and an oxygen tank 12 are installed inside the fixed frame body 10, the two molecular sieve beds 11 are symmetrically arranged on the inner walls of the two sides of the fixed frame body 10 through the oxygen tank 12, and the oxygen tank 12 is fixed on the inner wall of the top of the fixed frame body 10;

the two molecular sieve beds 11 are communicated with an oxygen tank 12 through a pipeline, a first air pipe 13 is further connected to each molecular sieve bed 11, the first air pipe 13 bends towards one side and then extends to the outside of the fixed frame 10, upwards penetrates through the partition plate 2 and extends to the top of the partition plate 2 to be communicated with the other two connectors of the three-way pipe 9.

On the basis, when the air filtered by the filter 22 is continuously conveyed at the air conveying pipe 8, the air is conveyed to the three-way pipe 9, the air is sequentially conveyed into the two first air pipes 13 of the child from the three-way pipe 9, and the air is conveyed into the two molecular sieve beds 11 from the first air pipes 13 for treatment, and then the generated oxygen is conveyed into the oxygen tank 12 for storage through a pipeline.

The bottom end of the oxygen tank 12 is connected with a second air pipe 14, and the second air pipe 14 extends to the outside of the fixed frame 10, upwards penetrates through the partition plate 2, extends to the top of the partition plate 2, and is connected with an atomization assembly 23;

further, when oxygen is required by the user, the air in the oxygen tank 12 is delivered from the second air pipe 14 to the atomizing assembly 23 for subsequent processing.

Atomization component 23 is including installing atomizer 15 on organism 1 top inner wall, second trachea 14 tip is connected with atomizer 15 input, be provided with the outlet duct 16 that extends to organism 1 top on the atomizer 15.

On the basis, the user can add the required medicament into the atomizer 15 for atomization, and the atomized medicament is mixed with the delivered oxygen for the user to suck.

The heating assembly 4 comprises a first heating box 17 arranged on the inner wall of the machine body 1 and a second heating box 18 arranged on the partition board 2, the second air pipe 14 penetrates through the first heating box 17, and the joint of the second air pipe 14 and the first heating box 17 is sealed.

The heating device is characterized in that a heating pipe 19 is arranged inside the second heating box 18 and filled with heat conduction oil, a circulating oil pipe 20 for circulating the heat conduction oil between the first heating box 17 and the second heating box 18 is connected between the second heating box 18 and the first heating box 17, and a circulating pump 21 is fixed on the outer wall of the second heating box 18 and connected with the circulating oil pipe 20 to provide power for the circulation of the heat conduction oil.

On the basis, when the heating pipe 19 in the second heating box 18 works, the heat conducting oil in the second heating box 18 is heated, and after the heat conducting oil is heated to a certain temperature, the circulating pump 21 is controlled to circularly heat the heat conducting oil in the second heating box 18 between the first heating box 17 and the second heating box 18 through the circulating oil pipe 20.

Further, first trachea 13 can receive the parcel of the heating oil after the intensification in first heating cabinet 17 for heat in the conduction oil can transmit and heat up oxygen in first trachea 13, owing to for the heating mode of conduction oil parcel, the even and intensification of heating effect is rapid, can improve user's use and experience.

When oxygen after the intensification continues to carry in first trachea 13, can transmit to atomization component 23 department, carry out the atomizing and the mixture of medicament, convenience of customers absorbs, at the in-process that the disease that suffers from respiratory disease used, can provide an effectual protection of respiratory track and improve its result of use to it, avoid cold oxygen to cause secondary damage and reduce the emergence of complication to its respiratory track, be favorable to patient's recovery.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by one of ordinary skill in the art and related arts based on the embodiments of the present invention without any creative effort, shall fall within the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims

1. The utility model provides an system oxygen atomizing all-in-one for treating respiratory disease, includes the organism, has horizontal baffle at the organism mid-mounting, divide into two upper and lower regions with organism inside, its characterized in that is provided with in upper portion region with the inspiratory subassembly that admits air of outside air, carries out the heating element that heats and carries out atomizing subassembly to the medicament, is provided with in lower portion region and handles the system oxygen subassembly that makes oxygen to inspiratory air, admit air subassembly, system oxygen subassembly, heating element and atomizing subassembly and connect gradually.

2. An oxygen-generating and atomizing all-in-one machine for treating respiratory diseases according to claim 1, characterized in that: the air inlet assembly comprises a compressor, an air inlet pipe and an air delivery pipe, the compressor is installed at the top of the partition plate, the air inlet pipe and the air delivery pipe are connected to the compressor, a filter is further arranged on the air inlet pipe, the other end of the air inlet pipe penetrates through the machine body and extends to the outside of the machine body, and the other end of the air delivery pipe is bent towards one side and is connected with a three-way pipe.

3. An oxygen-generating and atomizing all-in-one machine for treating respiratory diseases according to claim 1, characterized in that: the system oxygen subassembly is including fixing the fixed frame body in the baffle bottom, the internally mounted of fixed frame body has two molecular sieve beds and an oxygen jar, two the molecular sieve bed passes through the oxygen jar symmetry and sets up on the both sides inner wall of fixed frame body, the oxygen jar is fixed on the inner wall at fixed frame body top.

4. An oxygen-generating and atomizing all-in-one machine for treating respiratory diseases according to claim 4, characterized in that: the two molecular sieve beds are communicated with the oxygen tank through a pipeline, the molecular sieve beds are further connected with first air pipes, the first air pipes are bent towards one side and then extend to the outside of the fixed frame body, and the first air pipes upwards penetrate through the partition plate and extend to the top of the partition plate to be communicated with the other two connectors of the three-way pipe.

5. An oxygen-generating and atomizing all-in-one machine for treating respiratory diseases according to claim 4, characterized in that: the oxygen cylinder bottom is connected with the second trachea, the second trachea extends to fixed framework outside back, upwards runs through the top that the baffle extends to the baffle, is connected with atomization component.

6. An oxygen-generating and atomizing all-in-one machine for treating respiratory diseases according to claim 5, characterized in that: atomization component is including installing the atomizer on organism top inner wall, second trachea tip is connected with the atomizer input, be provided with the outlet duct that extends to the organism top on the atomizer.

7. An oxygen-generating and atomizing all-in-one machine for treating respiratory diseases according to claim 5, characterized in that: the heating assembly comprises a first heating box arranged on the inner wall of the machine body and a second heating box arranged on the partition plate, a second air pipe penetrates through the first heating box, and the joint of the second air pipe and the first heating box is subjected to sealing treatment.

8. An oxygen-generating and atomizing all-in-one machine for treating respiratory diseases according to claim 7, characterized in that: the heating device is characterized in that heating pipes are arranged inside the second heating box and filled with heat conduction oil, a circulation oil pipe for circulating the heat conduction oil between the first heating box and the second heating box is connected between the second heating box and the first heating box, and a circulation pump is fixed on the outer wall of the second heating box and connected with the circulation oil pipe to provide power for circulation of the heat conduction oil.