JPH0431076Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a living room enriched with a trace amount of oxygen gas, which maintains an oxygen concentration of 21% to 25% in a living space such as a house, office, or hospital.

[Conventional technology]

2. Description of the Related Art Conventionally, so-called oxygen inhalation has been practiced in which the human body absorbs oxygen gas at a concentration higher than that in the atmosphere. This oxygen inhalation is usually intended for sick people, and generally, as shown in Figure 2A,
The atmosphere inside the tent 21 is enriched with oxygen by using an oxygen mask 20 or by using an oxygen tent 21 as shown in FIG.
High concentrations of oxygen ranging from % to 100% have been used.

In addition, oxygen inhalation may be performed to recover from fatigue after extreme exercise, but even in this case, the oxygen mask 20 is used, and the oxygen gas supplied is of high concentration. .

[The problem that the idea aims to solve]

As described above, the purpose of conventional oxygen inhalation is temporary or relatively short-term when there is a lack of oxygen, which is a matter of life or death, or when the amount of oxygen consumed increases due to extreme exercise or the like. Therefore, oxygen inhalation means such as an oxygen mask 20 or an oxygen tent 21 may be used, but it is used for the purpose of so-called healthy people maintaining their health while maintaining their normal lives, or for the purpose of recovering from fatigue, preventing aging, or sick people in the process of recovery. There are many inconveniences when collecting oxygen.

For example, using an oxygen mask causes discomfort, and using a tent restricts movement. Furthermore, the use of high-concentration oxygen gas is not preferable under normal living conditions due to the risk of fire and the like.

This invention proposes that living in an oxygen-enriched atmosphere with an oxygen concentration of 21% to 25%, which is slightly higher than that of normal air, will be effective in maintaining health, recovering from fatigue, and preventing aging without causing oxygen toxicity. This proposal was made based on the knowledge that there is a risk of fire and that there is no risk of fire.
This provides a living room enriched with a trace amount of oxygen gas suitable for maintaining health, recovering from fatigue, preventing aging, or for treatment.

[Means to solve the problem]

The present invention provides an oxygen gas outlet that supplies oxygen gas from an oxygen supply source such as an oxygen gas filling container or an oxygen gas generator into a living space while controlling the oxygen gas supply control device using an oxygen gas supply control device. Alternatively, a sensor is installed on the furniture and furnishings and detects the oxygen concentration in the living space and controls the oxygen gas supply control device to maintain the oxygen concentration in the living space at 21% to 25%. , is characterized in that it is disposed near the exhaust end of the air flow within the living space.

〔Example〕

An embodiment of the oxygen gas trace enrichment device according to the present invention will be described below with reference to the drawings.

In FIG. 1, reference numeral 1 indicates a living space where oxygen gas is supplied and an oxygen-enriched atmosphere is created, and the target living space is any living area such as a room. It is a dark bedroom.

Reference numeral 3 denotes an oxygen supply source, which is not limited to the illustrated oxygen gas filled container, but may be any suitable device such as a device that chemically or physically generates oxygen gas. This oxygen supply source 3 can be installed either outdoors or indoors, and when installed in the living space 1, it may be soundproofed.

The oxygen supply source 3 is connected to the living space 1 through a pipe 4.
It is connected to an oxygen gas outlet 5 disposed in a partition wall, for example, a ceiling. The oxygen gas outlet 5 can also be used as an air conditioning outlet of an air conditioner installed near a partition wall of the living space 1. Further, an oxygen gas outlet 6 may be separately provided on the back side of the bed 2, etc., and may be connected to a pipe 7 branched from the pipe 4. These oxygen gas outlets 5 and 6 can be provided on partition walls other than the ceiling, furniture other than the bed 2, and the like.

Next, 8 is a sensor for detecting the oxygen concentration in the living space 1, and is arranged near the exhaust end of the air flow in the living space 1, for example, at an air conditioning suction port 9, etc. This sensor 8 measures the oxygen concentration in the living space 1.
In order to maintain it at 21% to 25%, the oxygen concentration in the living space 1 is detected and the detection signal is sent to the oxygen gas supply control device 10, and the sensor 8 detects the oxygen concentration above the desired value. Then, the oxygen gas supply control device 10 is activated, the electromagnetic valve 11 attached to the oxygen gas filling container serving as the oxygen supply source 3 is closed, and the supply of oxygen gas is cut off. Therefore, the atmosphere within the living space 1 is always maintained at an oxygen concentration of 21% to 25%.

Furthermore, an air inlet and an outlet for exhaust/ventilation may be provided on the partition walls of the living space 1, and an air cleaner may be provided at the air inlet to filter or wash away toxic microorganisms, dust, etc. good. Furthermore, if air conditioning equipment is installed, floor-type hot water heating is preferable for heating.

It goes without saying that the present invention can be applied to sports and recreational settings.

[Effect of idea]

As is clear from the above description, the present invention provides an oxygen gas outlet that supplies oxygen gas from an oxygen supply source into a living space while controlling it with an oxygen gas supply control device, on or near a partition wall, or on a piece of furniture. A sensor for detecting the oxygen concentration in the living space and controlling the oxygen gas supply control device to maintain the oxygen concentration in the living space at 21% to 25% is installed in the living space. Since it is placed near the exhaust end of the air flow in the space, the oxygen gas outlet and sensor do not get in the way, making it possible to use a wide space in the living space. The installed sensor accurately detects the oxygen concentration in the living space to ensure the oxygen concentration in the living space.
Since it can be maintained at 21% to 25%, it is suitable for maintaining health during normal human life, recovering from fatigue, preventing aging, and for treatment.It is especially safe to perform during sleep at night, and compared to conventional Unlike oxygen masks or tents, it does not restrict movement and therefore causes no discomfort, and since the oxygen concentration is reliably maintained at 21% to 25%, there is no inconvenience such as oxygen poisoning. It also has the advantage of not requiring any special consideration regarding dangers such as fire.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing an embodiment of the oxygen gas enrichment device of the present invention, and FIG. 2 is an explanatory diagram showing an example of a conventional oxygen gas enrichment device, where A is an oxygen mask. B is due to oxygen tent. 1...Living space, 2...Bed, 3...Oxygen supply source, 5, 6...Oxygen gas outlet, 8...Sensor, 9...Suction port for air conditioning, 10...Oxygen gas supply control device , 11... Solenoid valve.

Claims (1)

[Scope of utility model registration request] An oxygen gas outlet that supplies oxygen gas from an oxygen supply source such as an oxygen gas filling container or an oxygen gas generator to the living space while being controlled by an oxygen gas supply control device is installed on or near a partition wall or on furniture. At the same time, a sensor for detecting the oxygen concentration in the living space and controlling the oxygen gas supply control device to maintain the oxygen concentration in the living space at 21% to 25% is installed in the living space. A living room enriched with a trace amount of oxygen gas, characterized in that it is arranged near the exhaust end of the air flow.