The present invention relates to a portable and foldable oxygen chamber, and more particularly, relates to a portable and foldable hyperbaric oxygen chamber that may be reduced in volume and conveniently carried and kept by including a tube capable of accommodating a patient and a body part which protects the tube and is divided into multiple cylindrical bodies formed in a longitudinal direction and inserted into and overlapped with one another.
A hyperbaric oxygen chamber is major equipment used for hyperbaric oxygen therapy in which a patient breathes 100% pure oxygen for one to two hours in a state where an atmospheric pressure is higher than general breathing environment, and is used to enhance therapy effect and quality by effectively providing oxygen to tissue cells damaged by an external injury, an infection, edema, or the like.
A hard chamber has been used for hyperbaric oxygen therapy described above, which is designed to withstand pressures of 2 to 10 pounds per square inch (psi) by using aluminum alloy.
However, a hard chamber presents a problem of confined usage places such as a hospital, a military camp, and the like due to a significantly large volume. In other words, even though various therapy methods using the hyperbaric oxygen chamber have been disclosed, there has been a problem in that the hyperbaric oxygen chamber cannot be utilized for personal uses at home since the hyperbaric oxygen chamber is too heavy and large for domestic use.
A hyperbaric oxygen soft chamber has been developed to solve the above-mentioned problem, which is designed to withstand pressures of 2 to 4 psi using a soft polyurethane material which is easily carried and kept. However, while the soft chamber has advantages in that it is made of the soft material and easily carried, it also has several disadvantages in that it may not withstand high pressures compared to the hard chamber and thus make therapy ineffective and is vulnerable to damage resulting from impact due to characteristics of the soft chamber utilized for personal and domestic uses and thus is exposed to danger of a hyperbaric oxygen explosion or the like.
Patent Literature 1 relates to a high pressure oxygen tube, and more particularly, relates to a high pressure oxygen tube which includes a lower part supporting tube and a chamber having a space capable of accommodating a patient. This high pressure oxygen tube is distinguished by the expansion of the lower part supporting tube and the chamber with the hyperbaric oxygen injection. The high pressure oxygen tube is provided with entrance and exit means on the outside, making it convenient for the patient to enter and exit. However, the entrance and exit means is provided as a zipper and hyperbaric oxygen in the chamber may leak, which makes the tube vulnerable to the danger of the explosion or the like.
Patent Literature 2 relates to an oxygen capsule for dormancy which is characterized in that an airtight capsule is provided to prevent contact with outside air, a required amount of oxygen is supplied to the inside of the capsule from an oxygen generator, using an oxygen concentration controller in the capsule while carbon dioxide, dust, a smell, and the like generated from a user are removed through a high efficiency particulate air (HEPA) filter and a carbon filter, and a tuning cooler is provided to control temperature and humidity in the capsule increased due to carbon dioxide.
However, similarly to Patent Literature 1, Patent Literature 2 has had a problem of leakage of oxygen through an entrance since a capsule door corresponding to entrance and exit means is provided to simply function only as the entrance.
Patent Literature 3 relates to a ball-type high concentration oxygen capsule, and more particularly, relates to a ball-type high concentration oxygen capsule, which is a ball-type high concentration oxygen capsule having a shape of a tire tube and supplied with high concentration oxygen provided from an oxygen supply device such as an oxygen generator or a compressor, capable of treating a skin condition and healing a wound on a skin of a patient at an early stage through hyperbaric oxygen therapy in which the patient is seated inside the oxygen capsule and continuously breathes high concentration oxygen for a certain period of time, assisting in recovery from fatigue and promotion of health in a hospital, a sauna, a jimjilbang, a rest area, a beauty shop, or a barber shop, and increasing a concentration of oxygen inhaled in the capsule from 27 to 30% to almost 100% not only when an inhaler is not worn, but also when the inhaler is worn by including the inhaler in a main body of a cover. Patent Literature 3 has problems because the oxygen capsule uses only a capsule configured as a tube and thus is exposed to danger of a hyperbaric oxygen explosion when the tube is damaged by the external impact or the like, and uses an external zipper and an internal zipper as entrance and exit means of the tube and thus may not prevent hyperbaric oxygen from leaking through the zippers.
[Patent Literature 1]
Korean registered patent No. 10-0777358
[Patent Literature 2]
Korean registered utility model No. 20-0461141
[Patent Literature 3]
Korean registered patent No. 10-0822876
An objection of the present invention is to provide an oxygen chamber configured to be foldable so as to be easily used at home, and another object of the present invention is to provide a portable and foldable hyperbaric oxygen chamber designed to be easily carried and kept by including a foldable body part and to withstand hyperbaric oxygen.
To achieve the above-mentioned goals, the present invention provides a portable and foldable hyperbaric oxygen chamber including a tube, a body part, an oxygen controller, an oxygen injection pipe, and an oxygen inlet. More particularly, the portable and foldable hyperbaric oxygen chamber includes a tube securing a space capable of accommodating a user and a body part protecting the tube. The body part is divided into multiple cylindrical bodies formed along a longitudinal direction and inserted into and overlapped with one another, and includes a body entrance and the oxygen controller on one lateral face. The tube includes the oxygen inlet connected to the oxygen injection pipe entering from an outside on one lateral face.
According to the present invention, a portable and foldable hyperbaric oxygen chamber is a chamber including a tube and a body part, and effective in more safely performing hyperbaric oxygen therapy by being configured in a double chamber structure that covers and protects the chamber with the body part from hyperbaric oxygen and the impact on the tube which are not bearable for the tube alone.
In addition, the body part includes multiple cylindrical bodies formed along a longitudinal direction, and multiple cylindrical bodies are inserted into and overlapped with one another such that the chamber may be easily carried and kept when the chamber is not used.
Moreover, a tube entrance provided on one lateral face of the tube includes external and internal zippers and thus is effective in preventing the easy leakage of hyperbaric oxygen in the tube.
Hereinafter, an embodiment of the present invention will be described in detail with reference to the attached drawings. In this instance, a size or a shape of a component may be exaggeratedly illustrated in the drawings for clarity and the convenience of the description. In addition, a term particularly defined based on a configuration and the effect of the present invention may vary in accordance with intention or convention of a user or an operator. The term should be defined based on description across the entire specification. Further, the spirit of the present invention is not limited to the proposed embodiment, and those skilled in the art and those who understand the spirit of the invention may easily implement another embodiment within the scope of the same spirit. This is also included in the scope of the present invention.
The portable and foldable hyperbaric oxygen chamber according to the present embodiment may include a body part 100, a body entrance 200, a tube 300, a body entrance 400, an oxygen generator 500, an oxygen injection pipe 510, an oxygen inlet 530, and an oxygen controller 600.
According to the present embodiment, the body part 100 may be provided as a cylindrical body part made of an aluminum alloy material, and the tube 300 may be provided as a cylindrical tube made of a polyurethane material. However, the present invention is not limited thereto.
Referring to
Referring to
Referring to
In other words, oxygen generated from the oxygen generator 500 is injected into the tube 300 through the oxygen injection pipe 510 and the oxygen passage entrance 520, and hyperbaric oxygen in the tube 300 is prevented from leakage since the inner peripheral surfaces of the oxygen inlet 530 and the oxygen passage entrance 520 correspond to the outer peripheral surface of the oxygen injection pipe 510.
Referring to
In the present embodiment, referring to
In other words, the body part 100 includes the body A 110, the body C 130, and the body B 120 arranged in order. Thus, when the body part 100 is folded, the body C 130 is included in and overlapped with the body A 110, and the body B 120 is included in and overlapped with the body C 130. When the body part 100 is completely folded, a volume of the body part 100 decreases, which allows the user to easily carry and keep the chamber 10.
Referring to
In addition, the body B 120 includes a separation preventing projection 105 protruding from the outer peripheral surface at the one open part, and the body C 130 includes a separation preventing projection 105 protruding from the inner peripheral surface at the other one end. To be specific, the separation preventing projections 105 is provided to prevent the body B 120 inserted into the body C 130 from being separated, which is protruding in a direction where the body B 120 and the body C 130 face each other.
In other words, even when the body parts 100 of the body A 110, the body C 130, and the the body B 120 expand by being injected with hyperbaric oxygen and repel one another, they are not separated from one other since the separation preventing projection 105 is provided.
Referring to
Referring to
In other words, when hyperbaric oxygen is inserted into the tube 300, oxygen leakage is prevented twice by the external zipper 411 and the internal zipper 421. When the tube 300 expands, the inner skin 420 pushes the outer skin 410 outward due to hyperbaric oxygen. Then, the first protrusion 415 is connected with the second protrusion 425 to prevent hyperbaric oxygen leakage from the tube 300 and protect the external zipper 411 and the internal zipper 421.
Referring to
In other words, when the tube expands by being injected with hyperbaric oxygen, the external zipper 411 and the internal zipper 421 prevent oxygen leakage twice. Moreover, when the tube expands, the connection between the first ring 415′ and the second ring 425′ becomes stronger as tension generated due to the expansion of the tube increases. This is effective in preventing hyperbaric oxygen leakage from the tube 300, and protecting the external zipper 411 and the internal zipper 421.
Referring to
In other words, the caster 700 attachable to and detachable from the body A 110 may be used by being connected with the body A 110 when the chamber 10 is moved, and the chamber 10 may be used after removing the caster 700.
In other words, the portable and foldable hyperbaric oxygen chamber according to the present embodiment may be easily kept since the body part may be transformed by including the body A, the body B, and the body C inserted into and overlapped with one another and reduced in volume. In addition, when compared to a case in which only a tube corresponding to a soft chamber is used, the chamber further includes the body part corresponding to a hard chamber and thus may more safely perform hyperbaric oxygen therapy.
In addition, the tube includes an entrance including the external zipper and the internal zipper and thus is effective in preventing the leakage of hyperbaric oxygen in the tube, and preventing hyperbaric oxygen explosion corresponding to the most dangerous factor of the hyperbaric oxygen chamber. To be specific, hyperbaric oxygen explosion corresponding to the most dangerous factor of the hyperbaric oxygen chamber occurs when internal air of the hyperbaric oxygen chamber leaks during expansion and the air touches a spark from an electronic device or the like. The tube according to the present invention has a double structure of the external zipper and the internal zipper and thus may more effectively prevent hyperbaric oxygen leakage from the tube. In addition, the tube further includes protrusions and rings formed between the external zipper and the internal zipper and thus more effectively prevents oxygen leakage.
In other words, hyperbaric oxygen leakage in the tube is prevented by a multi-structure of the tube, the internal zipper, the protrusions (rings), the external zipper, the body part, and the body entrance. Thus, hyperbaric oxygen therapy may be more safely performed.
It is clearly understood by those skilled in the art that the present invention may be embodied in other particular forms in accordance with the spirit and essential characteristics of the present invention.
10: Chamber
100: Body part
105: Separation preventing projection
110: Body A
120: Body B
130: Body C
200: Body entrance
210: Guide rails
220: Cover
300: Tube
400: Tube entrance
410: Outer skin
420: Inner skin
411: External zipper
421: Internal zipper
415: First protrusion
425: Second protrusion
415′: First ring
425′: Second ring
500: Oxygen generator
510: Oxygen injection pipe
520: Oxygen passage entrance
530: Oxygen inlet
600: Oxygen controller
700: Caster
Number | Date | Country | Kind |
---|---|---|---|
10-2014-0148432 | Oct 2014 | KR | national |