CN113749884A - Three-dimensional single micro-pressure oxygen cabin - Google Patents

Abstract

The invention discloses a three-dimensional single micro-pressure oxygen cabin, which comprises a three-dimensional cabin body, wherein an oxygen generating device and a pressurizing device are connected to the three-dimensional cabin body; the three-dimensional cabin body is provided with a sealable cabin door which can be opened and closed inside and outside, and the three-dimensional cabin body is provided with an emergency pressure relief system which can be started inside and outside; a seat is fixedly arranged in the three-dimensional cabin body; the cabin body is simple and three-dimensional in structure, can accommodate one person to enter into a high-pressure or micro-pressure environment for oxygen inhalation, and meets the requirements of single oxygen inhalation personnel for oxygen therapy assistance, sub-health oxygen supply, beauty oxygen supplementation, mental labor oxygen inhalation and health care oxygen inhalation.

Description

Three-dimensional single micro-pressure oxygen cabin

Technical Field

The invention relates to the technical field of oxygen generating instruments, in particular to a three-dimensional single micro-pressure oxygen cabin.

Background

Along with the influence of environment, reached winter, some areas haze is serious, influences people's respiratory, in addition, high altitude area, high strength mental worker and so on some crowds all can have great oxygen uptake demand. So people pay more and more attention to oxygen inhalation at present, most of the existing oxygen inhalation is carried out in a micro-pressure oxygen chamber treatment in a formal medical institution or at home by using an oxygen inhalation machine; on one hand, the oxygen inhalation is inconvenient to be carried out in a regular medical institution, on the other hand, the cost is high, the cost is not low for a common family, and in addition, the back and forth of the old people with inconvenient actions is also inconvenient. The oxygen machine can only relieve temporary oxygen deficiency, cannot improve oxygen supply for a long time and has poor effect.

The micro-pressure oxygen chamber is a health care treatment device for various anoxia, and the high-pressure oxygen is suitable for the following diseases: poisoning with harmful gas such as coal gas, hydrogen sulfide or biogas, cerebral thrombosis, cerebral hemorrhage, cerebral trauma, neuritis, angiitis, diabetic gangrene, ulcer difficult to heal, fetal dysplasia, neonatal asphyxia, acute air embolism, decompression sickness, altitude sickness, sudden deafness, Meniere's syndrome or vertigo. Most of the existing oxygen chamber systems are medical hyperbaric oxygen chambers and soft oxygen chambers, and no micro-hyperbaric oxygen chamber system customized for single oxygen inhalation needs exists.

Present large-scale oxygen cabin is airtight shape, and internal structure is high technological content, but to the user, still relatively simple and crude, and not only vision space is airtight, and lacks the amusement facilities, and the body and mind are difficult to relax, and treatment is relatively poor.

Disclosure of Invention

In view of the above-mentioned drawbacks and deficiencies, the present invention provides a three-dimensional single micro-pressure oxygen chamber.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

a three-dimensional single micro-pressure oxygen cabin comprises a three-dimensional cabin body, wherein an oxygen generating device and a pressurizing device are connected to the three-dimensional cabin body; the three-dimensional cabin body is provided with a sealable cabin door, the cabin door is arranged on the cabin body through a rotating shaft, and the closed end of the cabin door is provided with a mechanical door bolt capable of being opened and closed inside and outside; the cabin door can be opened inside and outside, and a pressure slow release device convenient to install and place is arranged outside the three-dimensional cabin body; a seat is fixedly arranged in the three-dimensional cabin body.

The three-dimensional cabin body is of an elliptic cylindrical structure, a cylindrical structure or a square structure.

The thickness of the three-dimensional cabin body is 60cm-120 cm.

The three-dimensional cabin body is made of steel, transparent cabin covers are arranged on the front side and the back side of the cabin body in a sealing mode, and the cabin doors are fixed on the cabin body and form a sealing body with the transparent cabin covers.

The transparent hatch cover is a cover body made of transparent high polymer materials.

The mechanical door bolt comprises an upper bolt and a lower bolt, the tail end of the upper bolt is connected with the top end of the lower bolt through a V-shaped connecting rod, the upper bolt and the lower bolt are controlled to be opened and closed reversely from top to bottom, and the top end of the upper bolt and the tail end of the lower bolt are respectively matched with plug-in units arranged in the three-dimensional cabin body.

The V-shaped connecting rod is connected with a horizontal connecting rod, the horizontal connecting rod is matched with a transmission gear, the transmission gear is provided with a door handle, when the door handle is rotated, the transmission gear drives the horizontal connecting rod to move and drag the V-shaped connecting rod to move, so that the upper plug pin and the lower plug pin are pushed and pulled to move vertically, and the upper plug pin and the lower plug pin are inserted into or separated from the plug-in unit.

And a reinforcing plate rib is arranged on the transparent cabin cover.

And a pressure slow release device convenient to install and place is arranged outside the three-dimensional cabin body.

The pressure slow-release device is arranged on the side surface of the three-dimensional cabin body and specifically comprises a transport wheel for transportation and an air pressure rod for buffering and releasing.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides a three-dimensional single micro-pressure oxygen cabin, wherein the cabin body has a simple and three-dimensional structure, and can accommodate one person to enter into a high-pressure or micro-pressure environment for oxygen inhalation, so that the requirements of single oxygen inhalation personnel on oxygen therapy assistance, sub-health oxygen supply, beauty and oxygen supplementation, mental labor oxygen inhalation and health care oxygen inhalation are met.

Drawings

FIG. 1 is a schematic view of a three-dimensional single micro-pressure oxygen chamber according to the present invention;

FIG. 2 is a schematic structural diagram of a three-dimensional single micro-pressure oxygen chamber body according to the present invention;

FIG. 3 is a front view of a three-dimensional single micro-pressure oxygen chamber of the present invention;

FIG. 4 is a rear view of the three-dimensional single micro-pressure oxygen chamber of the present invention;

FIG. 5 is a schematic view of a mechanical latch of the three-dimensional single micro-pressure oxygen chamber of the present invention;

FIG. 6 is a top view of the mechanical bolt of the three-dimensional single micro-pressure oxygen chamber of the present invention.

In the figure, 1-a three-dimensional cabin body; 2-an oxygen generating device; 3-plug-in unit; 4-a cabin door; 5-door handle; 6-a transparent hatch; a reinforcing plate rib 7-mechanical bolt; 71-an upper bolt; 72-lower bolt; 73-a V-shaped connecting rod; 74-horizontal link; 75-transmission gear.

Detailed Description

The present invention will now be described in detail with reference to the drawings, wherein the described embodiments are only some, but not all embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, belong to the scope of the present invention.

The hyperbaric oxygen and the micro-hyperbaric oxygen have treatment effects on a plurality of diseases, can achieve good health care effects by adjusting pressure values, and can not generate uncomfortable feeling during treatment in the health care process. The health care is a health care method for inhaling pure oxygen with more than 1 atmospheric pressure in a hyperbaric oxygen chamber, under a proper hyperbaric environment, the oxygen concentration in the inhaled air is increased, the blood oxygen tension is increased, the blood oxygen content is increased, the oxygen content and the oxygen storage amount in tissues are correspondingly increased, the health care is a medical measure for effectively improving, relieving and correcting the oxygen deficiency state of the organism, and the aim of health care or treatment is fulfilled by improving the oxygen deficiency symptom of a human body caused by internal factors or external factors and making up the oxygen which is lost in the human body. However, at present, due to the cost problem, the family is difficult to purchase and use the hyperbaric oxygen chamber for inhalation, so that the popularization of the oxygen chamber is limited. Therefore, as shown in fig. 1, the invention provides a three-dimensional single micro-pressure oxygen chamber which can meet the requirement of people on oxygen absorption in a micro-pressure or high-pressure environment.

The method specifically comprises the following steps: the three-dimensional cabin body 1 is connected with an oxygen generating device 2 and a supercharging device 3; the three-dimensional cabin body 1 is provided with a sealable cabin door 4, the cabin door 4 can be opened and closed inside and outside at the same time, and a pressure slow release device convenient to install and place is arranged outside the three-dimensional cabin body 1; a seat is fixedly arranged in the three-dimensional cabin body 1.

As shown in fig. 2, 3 and 4, the three-dimensional cabin 1 has an elliptic cylindrical structure, a cylindrical structure or a square structure. Preferably, for maximum space utilization and optimum pressure bearing angle, an elliptical structure is most suitable, and the following description will take the shape as an example.

Specifically, the thickness of the three-dimensional cabin body 1 is 60cm-120cm, and the length is as follows: 140cm-200cm, height: 120cm-200 cm. The cabin body 1 is of a frame type structure, the periphery of the frame type structure is hermetically welded through steel plates, transparent cabin covers 6 are hermetically arranged on the front face and the back face of the cabin body, and the cabin doors 4 are arranged on the transparent cabin covers 6.

The three-dimensional single micro-pressure oxygen chamber is of a semi-rigid structure, allows elastic deformation, greatly reduces the cost, adopts an arc transition non-stress concentration for a compression structure, ensures the strength by thickening a small arc, and allows elastic deformation by reducing the thickness by pressing a large arc or a plane so as to reduce the cost. The two sides are transparent, the visual field is wide and not oppressive, and the two sides are made of high polymer transparent materials such as PC or PE and the like. The oxygen concentration of the oxygen generator is controlled below 45%, oxygen-free poisoning is avoided, static fire risk does not exist, the pressure is controlled by an electric controller, multiple control means such as a spring, a gravity pressure release valve and the like are controlled below 1.5 atmospheric pressure to prevent decompression symptoms in case of sudden pressure release, and the cabin door is automatically opened to prevent oxygen deficiency in case of power failure, sleeping or other emergency states.

The transparent hatch cover 6 is a cover body made of transparent high polymer materials, preferably, a PE plastic material is mainly adopted, the PE plastic is polyethylene plastic, and has corrosion resistance and electrical insulation (particularly high-frequency insulation), and the low-pressure polyethylene is suitable for manufacturing corrosion-resistant parts and insulating parts; the high-pressure polyethylene is suitable for manufacturing films and the like; the ultra-high molecular weight polyethylene is suitable for manufacturing shock-absorbing, wear-resisting and transmission parts. The ultrahigh molecular weight material has high strength and good pressure resistance

As shown in fig. 5 and 6, the hatch 4 is mounted on the cabin 1 through a rotating shaft, and a mechanical bolt 7 which can be opened inside and outside is mounted at the closed end of the hatch 4.

Specifically, the mechanical door bolt 7 includes an upper bolt 71 and a lower bolt 72, the end of the upper bolt 71 is connected with the top end of the lower bolt 72 through a V-shaped connecting rod 73, the upper bolt 71 and the lower bolt 72 are controlled to be opened and closed in the up-down direction, and the top end of the upper bolt 71 and the end of the lower bolt 72 are respectively matched with the plug-in components 3 installed on the three-dimensional cabin 1. The V-shaped connecting rod 73 is connected with a horizontal connecting rod 74, the horizontal connecting rod 74 is matched with a transmission gear 75, the transmission gear 75 is provided with a door handle 5, when the door handle 5 is rotated, the transmission gear 75 drives the horizontal connecting rod 74 to move and drag the V-shaped connecting rod 73 to move, so that the upper bolt 71 and the lower bolt 72 are pushed and pulled to move vertically, and the upper bolt 71 and the lower bolt 72 are inserted into or separated from the plug-in unit 3.

In order to increase the strength of the transparent hatch 6 and reduce the deformation of the transparent hatch when the strength is increased, the transparent hatch 6 is provided with a reinforcing plate rib 61, and the deformation amount can be effectively controlled.

Because the cabin body is in a pressure state when in work, the cabin door can not be opened, so the cabin door can not be opened smoothly when in emergency, and the emergency pressure release system comprises: an emergency button, and a pressure release system, which can rapidly release the pressure to open the hatch door 4 within 10 seconds when an emergency occurs.

In the invention, when the cabin body works, the concentration of oxygen is about 30 percent; the pressure is 1.3-1.5 atmospheres;

it should be noted that, in the present invention, more comfortable human-friendly accessories can be configured in the cabin body according to the needs of the user, such as massage chairs, televisions, tables, etc. The configuration can be flexibly changed all the time based on actual requirements, and any change is within the protection scope of the invention.

The working process of the invention is as follows:

when oxygen inhalation is needed, the oxygen generation and pressure rise device is started, and after the set parameters are reached, a user enters the cabin body, and the cabin door 4 is closed through the handle to inhale oxygen. When an emergency occurs, the pressure is released through the emergency pressure release system, and the cabin door (4) is opened, so that the danger is avoided.

At present, the Chinese medicinal composition is obtained through practical application, and has certain help on acute carbon monoxide poisoning encephalopathy, acute air embolism, certain harmful gas poisoning (liquefied gas, hydrogen sulfide, gasoline and the like), asphyxia (drowning, electric shock, self-constriction), retinal artery embolism, acute brain dysfunction after cardio-pulmonary resuscitation, crush injury and crush syndrome, acute peripheral circulation disorder, severe spinal cord injury and the like through high-pressure oxygen inhalation. In particular, hyperbaric oxygen therapy provides a new scientific and effective adjuvant therapy method for the treatment of the brain trauma, and has great practical significance for improving the prognosis of patients with the brain trauma, increasing the cure rate and reducing the disability rate. The single three-dimensional single micro-pressure oxygen cabin provided by the invention is suitable for families, has low cost, saves space and is suitable for family popularization and application.

It will be appreciated by those skilled in the art that the above embodiments are merely preferred embodiments of the invention, and thus, modifications and variations may be made in the invention by those skilled in the art, which will embody the principles of the invention and achieve the objects and objectives of the invention while remaining within the scope of the invention.

Claims (10)

1. A three-dimensional single micro-pressure oxygen cabin is characterized by comprising a three-dimensional cabin body (1), wherein an oxygen generating device (2) and a pressurizing device are connected to the three-dimensional cabin body (1); a sealable cabin door (4) is installed on the three-dimensional cabin body (1), the cabin door (4) is installed on the cabin body (1) through a rotating shaft, a mechanical door bolt (7) capable of being opened and closed inside and outside is installed at the closed end of the cabin door (4), the cabin door (4) can be opened inside and outside, and a pressure slow release device convenient to install and place is installed outside the three-dimensional cabin body (1); a seat is fixedly arranged in the three-dimensional cabin body (1).

2. A three-dimensional single micro-pressure oxygen chamber according to claim 1, wherein the three-dimensional chamber body (1) has an elliptic cylindrical structure, a cylindrical structure, or a square structure.

3. The three-dimensional single micro-pressure oxygen chamber as claimed in claim 2, wherein the thickness of the three-dimensional chamber body (1) is 60cm-120 cm.

4. The three-dimensional single micro-pressure oxygen cabin according to claim 1, wherein the three-dimensional cabin body (1) is made of steel, transparent cabin covers (6) are hermetically installed on the front surface and the back surface of the cabin body, and the cabin door (4) is fixed on the cabin body (1) and forms a sealing body with the transparent cabin covers (6).

5. The stereoscopic single micro-pressure oxygen cabin according to claim 4, wherein the transparent cabin cover (6) is a cover body made of transparent high polymer material.

6. The three-dimensional single micro-pressure oxygen chamber as claimed in claim 1, wherein the mechanical door bolt (7) comprises an upper bolt (71) and a lower bolt (72), the end of the upper bolt (71) is connected with the top end of the lower bolt (72) through a V-shaped connecting rod (73) to control the upper bolt (71) and the lower bolt (72) to open and close reversely up and down, and the top end of the upper bolt (71) and the end of the lower bolt (72) are respectively matched with the plug-in unit (3) installed on the three-dimensional chamber body (1).

7. The stereoscopic single micro-pressure oxygen chamber as claimed in claim 6, wherein the V-shaped connecting rod (73) is connected with a horizontal connecting rod (74), the horizontal connecting rod (74) is matched with a transmission gear (75), the transmission gear (75) is provided with a door handle (5), when the door handle (5) is rotated, the transmission gear (75) drives the horizontal connecting rod (74) to move and drag the horizontal connecting rod (74) to the V-shaped connecting rod (73) to move, so that the upper latch (71) and the lower latch (72) are pushed and pulled to move vertically, and the upper latch (71) and the lower latch (72) are inserted into or separated from the insert (3).

8. A stereoscopic single person micro-pressure oxygen cabin according to claim 4, characterized in that a reinforcing plate rib (61) is installed on the transparent cabin cover (6).

9. The stereoscopic single micro-pressure oxygen cabin according to claim 1, wherein a pressure slow release device convenient for installation and placement is installed outside the stereoscopic cabin body (1).

10. The stereo single micro-pressure oxygen cabin according to claim 9, wherein the pressure slow-release device is installed at the side of the stereo cabin body (1), and comprises a transport wheel for transportation and a gas pressure rod (6) for buffering and releasing.

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