CN214259798U - Inboard-fastened combined non-medical micro-pressure oxygen chamber - Google Patents

Abstract

The utility model relates to an inboard non-medical minute-pressure oxygen cabin of combination formula of fastening, compressed air supply system and touch control system in the cabin body, control cabinet and the control cabinet. The cabin body is formed by fastening metal plate monomers on the inner side of the cabin body through bolts; sealing strips are arranged between the metal plate single bodies; the cabin body is provided with a cabin door; the cabin body is provided with a manual exhaust valve. The compressed air supply system is arranged in the console; the touch control system is arranged on the upper surface of the console and inside the oxygen cabin; the compressed air supply system, the touch control system and the console are connected with the cabin body through hoses. The utility model discloses form through the bolt, at the inboard fastening connection in the cabin body between the panel beating monomer of the cabin body, its on-the-spot equipment of being convenient for, the transportation of being convenient for, and owing to adopt the wall that the installation place can be hugged closely to the method of inboard fastening to install, need not to reserve installation space to can utilize the space furthest, be fit for family and commercial office and use.

Description

Inboard-fastened combined non-medical micro-pressure oxygen chamber

Technical Field

The utility model relates to an inboard combined type micro-pressure oxygen cabin. In particular to the technical field of a pressurized oxygen chamber.

Background

Oxygen in the human body is classified into bound oxygen and dissolved oxygen, and dissolved oxygen is different from bound oxygen and does not bind hemoglobin, so that dissolved oxygen has a small volume and can smoothly pass even through a narrow capillary vessel. Under the pressure-increasing environment, the content of dissolved oxygen in a human body is increased, oxygen is conveyed to all corners of the body, and the lung can absorb more oxygen than pure oxygen breathed under normal air pressure. The pressure-increasing oxygen chamber utilizes the principle to increase the content of dissolved oxygen delivered to each corner of a human body, so that cells are activated and full of vitality, thereby improving the function of the human body and preventing and treating the hypoxic diseases.

At present, most of the pressurized oxygen chambers are high-pressure oxygen chambers with the pressure more than 1.3 times of the standard atmospheric pressure, and have the following defects: 1. the high-pressure oxygen chamber belongs to medical equipment, is used for treating hypoxic diseases, carbon monoxide poisoning, cardiovascular and cerebrovascular diseases and the like of patients in hospitals, and cannot meet the requirement of people on daily oxygen therapy. With the increase of the demand of people for daily oxygen therapy, the demand of people for non-medical micro-pressure oxygen chambers with the pressure below 1.3 times of the standard atmospheric pressure is increasing; 2. the cabin body of the hyperbaric oxygen cabin is mostly in a capsule shape, the whole hyperbaric oxygen cabin is not detachable, and the hyperbaric oxygen cabin has the advantages of large volume, heavy weight, inconvenient transportation and narrow internal space, so that people are easy to feel claustrophobic; 3. the switch of hatch door is assisted with auxiliary component such as lock more, and sealed effect is not good, and the hatch door can not self-closing during the pressure boost, and the hatch door can not open automatically after the pressure boost stops.

Disclosure of Invention

The utility model relates to a non-medical minute-pressure oxygen cabin of combination formula of inboard fastening, its aim at overcome the demand that can't satisfy people's daily oxygen therapy that prior art exists, overcome the transportation inconvenient, overcome prior art to the waste in space, overcome the narrow and small easy people of cabin body space and feel feared, overcome cabin body size model singleness, cabin body size can not change, overcome the cabin door and seal the shortcoming such as effectual, the cabin door can not be opened automatically after the oxygen therapy finishes. Because the panel beating monomer of oxygen cabin forms through the mode combination of inboard fastening for the installation of oxygen cabin need not reserve installer installation space, can utilize the space to the furthest, still has the transportation simultaneously, and the installation is swift, the cabin body can be according to the size and the usage in space and select advantage such as the cabin body and the shape of different sizes, makes the people feel light comfortable in minute-pressure oxygen cabin, is fit for non-medical daily use such as family and official working.

The purpose of the utility model is realized like this:

the utility model provides an inboard combination formula non-medical minute-pressure oxygen cabin of fastening comprises compressed air supply system, touch control system in cabin body, control cabinet and the control cabinet which characterized in that: the cabin body is formed by combining metal plate monomers; adjacent metal plate single bodies are fastened on the inner side of the cabin body through inner bolts; sealing strips are glued between adjacent metal plate monomers; the cabin body is provided with a manual exhaust valve; the cabin body is provided with a cabin door. Outside the oxygen cabin, there is an independent console, and the inside of console is equipped with the compressed air supply system, and the upper surface of console and the inside touch control system that is provided with of the oxygen cabin body. The control console, the compressed air supply system and the touch control system are connected with the cabin body through hoses.

Further, the outer shape of the cabin body is square or other shapes.

Further, be provided with the sealing strip between the monomer panel beating, the sealing strip adopts EPDM rubber or EVA rubber material, can effectively prevent the air leakage.

Furthermore, the cabin door is positioned on the inner side of the cabin body and is connected with the cabin body through a hinge; the hatch door is opened and closed through the pressure difference between the inside and the outside of the cabin body, when the pressure inside the cabin body is larger than the external pressure, the hatch door is closed, and when the pressure inside the cabin body is equal to the external pressure, the hatch door is opened.

Owing to adopted above-mentioned better technical scheme, so the utility model has the advantages of it is following and positive effect:

1. the utility model relates to an inboard combination formula minute-pressure oxygen cabin of fastening because form by the combination of monomer panel beating, have transportation convenience, install swift advantage, even narrow passageway or take advantage of elevator etc. also all can transport.

2. Because the metal plate monomers are connected in an inner side fastening mode, the oxygen cabin can be arranged close to an existing building when the oxygen cabin is installed, an installation working space (namely a dead angle) does not need to be reserved between the oxygen cabin and the building for installation personnel when the oxygen cabin is arranged, the floor area of the oxygen cabin is reduced, no dead angle space which cannot be utilized exists between the oxygen cabin and the building, and the space can be utilized to the maximum extent.

3. EPDM rubber or EVA rubber sealing materials are implanted between the monomer metal plates, so that air leakage can be effectively prevented, and the sealing performance of the oxygen chamber is further enhanced.

4. The cabin door can be opened and closed through the pressure difference between the inside and the outside of the cabin body, the automatic sealing of the cabin door can be realized without auxiliary components, the convenience is realized, and the problem of poor sealing performance of the cabin door is solved.

Drawings

FIG. 1: the utility model discloses a connection schematic diagram of each part of inboard fastening combination formula non-medical minute-pressure oxygen cabin

FIG. 2 is a drawing: the utility model relates to an assembly schematic diagram of a cabin body of a combined non-medical micro-pressure oxygen cabin with a fastened inner side;

wherein: 1. a cabin body; 2. a metal plate monomer; 3. a compressed air supply system; 4. a touch control system; 5. a console; 6. a sealing strip; 7. a fastener; 8. a cabin door; 9. A manual exhaust valve; 10. a hose.

Detailed Description

The present invention is described in detail below with reference to the attached drawings and embodiments, but the present invention is not limited to the embodiments, and all similar structures and similar variations thereof that adopt the present invention are included in the scope of the claims of the present invention.

Fig. 1 and fig. 2 show an inside-fastened non-medical combined micro-pressure oxygen chamber, which is composed of a chamber body 1, a control console 5, a compressed air supply system 3 and a touch control system 4. Wherein, the cabin body 1 is formed by combining single metal plates 2; the adjacent single metal plates 2 are fastened on the inner side of the cabin body 1 by fasteners 7; a sealing strip 6 is glued between the adjacent single metal plates; the cabin body 1 is provided with a manual exhaust valve 9; the cabin 1 is provided with a cabin door 8. The compressed air supply system 3 is arranged inside the console 5; the touch control system 4 is arranged on the upper surface of the console 5; the compressed air supply system 3, the touch control system 4 and the control console 5 are connected to the cabin 1 by means of hoses 10.

In order to further improve the service performance of the non-medical combined type micro-pressure oxygen chamber with the inner side fastened, when the chamber body 1 is square, the utilization rate of the space in the chamber body 1 can be effectively improved; the cabin 1 may be provided with other shapes to adapt to the space conditions of the installation site. The connection method of fastening the inner sides of the connection single metal plates 2 is adopted, so that the sealing performance of the cabin body 1 can be enhanced, the installation space does not need to be reserved, and the space is utilized to the maximum extent. A sealing strip 6 is used between adjacent sheet metal units 2 to prevent air leakage due to an increase in pressure in the oxygen compartment. The sealing strip 6 is made of EPDA or EVA materials, so that the sealing performance of the oxygen chamber can be further enhanced.

When the non-medical combined micro-pressure oxygen chamber with the inner side fastened as shown in the attached drawing 1 is used, the compressed air supply system 3 is started by controlling the touch control system 4, so that the chamber door 8 and the chamber body 1 are kept attached, the pressure in the chamber body 1 starts to increase, when the internal pressure of the chamber body 1 is greater than the external pressure, the chamber door 8 is closed, and when the internal pressure of the chamber body 1 reaches a set value, the pressurization is stopped; when the oxygen chamber is used, the touch control system 4 is controlled to decompress the chamber body 1, and the manual exhaust valve 9 can be opened to achieve the purpose of rapid decompression; when the internal pressure of the cabin 1 is equal to the external pressure, the hatch 8 opens.

Claims (2)

1. The utility model provides an inboard combination formula non-medical minute-pressure oxygen cabin of fastening, by the cabin body, the compressed air supply system in the control cabinet and the touch control system constitute which characterized in that: the cabin body is square and is formed by splicing and combining metal plate monomers; adjacent metal plate monomers are fastened and connected on the inner side of the cabin body by bolts; sealing strips are glued between adjacent metal plate monomers; the cabin body is provided with a manual exhaust valve; the cabin body is provided with a cabin door, the cabin door is positioned on the inner side of the cabin body and is connected with the cabin body through a hinge, the cabin door realizes the opening and closing of the cabin door through the pressure difference between the inside and the outside of the cabin body, when the internal pressure of the cabin body is greater than the external pressure, the cabin door is closed, and when the internal pressure of the cabin body is equal to the external pressure, the cabin door is opened; the compressed air supply system is arranged in the console, and the touch control system is arranged on the upper surface of the console and in the oxygen cabin; the compressed air supply system, the touch control system and the console are connected with the cabin body through hoses.

2. The internally-fastened modular non-medical micropressure oxygen chamber according to claim 1, characterized in that: the sealing strip is embedded between the adjacent monomer metal plates, and the sealing strip is made of EPDM materials or EVA materials, so that air leakage can be effectively prevented.

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