KR20230070645A - Oxyzen Supply Apparatus Installation Method - Google Patents

Abstract

The present invention relates to a method for installing a structure of an oxygen supply apparatus, capable of creating a pleasant indoor air environment. The method for installing a structure of an oxygen supply apparatus can efficiently supply oxygen by installing an oxygen supply apparatus as a module to correspond to a property of an indoor space. According to a desirable embodiment of the present invention, the method for installing a structure of an oxygen supply apparatus, capable of creating a pleasant indoor air environment, includes: an indoor space information obtaining step of obtaining information about an area or the number of rooms in the indoor space to which oxygen is supplied; a gas separation membrane selecting step of determining the installation number of gas separation membrane modules supplying the oxygen according to the information on the indoor space obtained by the indoor space information obtaining step; a main body unit installing step of installing a main body unit of the oxygen supply apparatus including a gas separation membrane module loading unit capable of installing one or more gas separation membrane modules in a pipe of an air conditioning system in a structure including the indoor space to which the oxygen is supplied; and a gas separation membrane installing step of installing the gas separation membrane in the gas separation membrane module loading unit.

Description

Building installation method for oxygen supply device capable of creating a pleasant indoor atmospheric environment {Oxyzen Supply Apparatus Installation Method}

The present invention relates to an installation method, and more particularly, to an oxygen supply device building installation method capable of creating a pleasant indoor atmospheric environment.

Looking at the city-oriented lifestyle and modern living patterns, it is reported that more than 90% of the time is spent indoors, which affects not only outdoor but also indoor air pollution, as well as human health, safety, productivity and comfort. It is confirmed as Over the past five years, environmental diseases (allergic rhinitis, atopy, asthma, etc.) have increased by about 17%. Environmental problems are growing.

Accordingly, a technology for supplying oxygen has been disclosed in order to create a pleasant air environment indoors.

That is, oxygen generators have been mainly used for medical purposes in hospitals, etc., but interest in oxygen generators is rapidly increasing in line with the problems caused by environmental pollution and the demand of modern people who want to live in a clean environment. In particular, by supplying oxygen to the indoor space of an office or home, it is widely used to help recover from fatigue accumulated in daily life and activate cells.

In particular, if sufficient oxygen is not supplied to the body of a growing child or an adolescence student with active brain activity, they will suffer from reduced physical growth, memory loss, reduced learning ability, and chronic fatigue. Therefore, in order to improve the learning ability of adolescents, it is desirable to continuously supply a clean environment and clean air containing a large amount of oxygen.

In addition, when sufficient oxygen is not supplied to an elderly person in old age, aging of the body proceeds rapidly, and health is greatly weakened by the chronic diseases mentioned above.

Accordingly, it is required to supply pure oxygen into the living space where people live, prevent various physical diseases caused by lack of oxygen, and provide a comfortable living space at the same time.

Korean Patent Registration No. 10-2041778 (Oxygen passage supply device for fire escape routes) Korean Patent Publication No. 2003-0020051 (Oxygen supply system for learners and workers)

Therefore, the present invention has been proposed in consideration of the above matters, and the present invention is linked to a building air conditioning system for indoor spaces such as apartments and offices, and is tailored to the shape of the building, characteristics of each room, indoor air pollution, and indoor user status. It is intended to provide an integrated indoor air quality management system for buildings that can create a pleasant indoor air environment by supplying oxygen.

Oxygen supply device building installation method capable of creating a comfortable indoor atmospheric environment according to a preferred embodiment of the present invention includes an indoor space information acquisition step of acquiring information on the number or area of rooms in an indoor space where oxygen is supplied, and the indoor space information acquisition step. A gas separation membrane selection step of determining the number of gas separation membrane modules to be installed for supplying oxygen according to the indoor space information obtained according to the above, and one or more gas separation membrane modules can be installed in the air conditioning system piping of a building including an indoor space to which oxygen is supplied A main body installation step of installing a main body of an oxygen supply device including a gas separation membrane module loading section and a gas separation membrane installation step of installing the gas separation membrane on the gas separation membrane module loading section are included.

Here, the oxygen supplying device further includes a control unit for controlling the operation of the oxygen supplying device, and the control unit sets a target oxygen concentration of the oxygen supplying space to 22%, and supplies oxygen up to the set oxygen concentration. In order to supply oxygen, when the number X of rooms in the oxygen supply space where oxygen is supplied, the number N of the gas separation membrane modules, and the oxygen supply time are Y, the oxygen supply time Y is controlled according to the following formula.

[Equation 1]

The oxygen supply device further includes a user information analysis unit wearable by a user and acquiring at least one body information of the user's temperature, heart rate, and amount of sweating.

The oxygen supply device may further include an image irradiation means for guiding a user to an oxygen inhalation range of oxygen supplied from the oxygen supply device to the indoor space through an image.

The oxygen supply device is provided with an oxygen supply adapter capable of directly supplying oxygen supplied to the indoor space from the oxygen supply device to the user.

Oxygen supply device building installation method capable of creating a pleasant indoor atmospheric environment according to the present invention is integrally formed with the oxygen supply device in the ventilation system of the building, and the oxygen supply device can be installed as a module according to the characteristics of the indoor space to be supplied, It has the advantage of being able to supply efficiently.

1 is a reference view showing a state in which an oxygen supply device provided in a building installation method for an oxygen supply device capable of creating a comfortable indoor atmospheric environment according to a preferred embodiment of the present invention is built into a building air conditioning system.
2 and 3 are reference views illustrating the state of supplying oxygen to an indoor space through the oxygen supply device building installation method capable of creating a pleasant indoor atmospheric environment according to a preferred embodiment of the present invention.

Before describing the embodiments according to the present invention in detail, the present invention is not limited to the configurations shown in the following detailed description or accompanying drawings and can be used or carried out in various ways.

Also, it should be understood that the expressions or terminology used herein are for descriptive purposes only and should not be regarded as limiting.

That is, expressions such as "mounted", "installed", "connected", "connected", "supported", "coupled", etc., used herein, do not indicate or limit to indicate something else. However, it is used as a broad expression that includes both direct and indirect mounting, installation, connection, connection, support, and coupling. The expressions "connected", "connected", and "coupled" are not limited to physical or mechanical connections, connections, or couplings.

And in this specification, terms indicating directions such as top, bottom, downward, upward, rear, bottom, front, rear, etc. are used to describe the drawings, but these terms are relative to the drawings for convenience (normally viewed). when) is indicated. These directional terms are not to be taken as literally limiting or limiting the invention in any way.

In addition, terms such as "first", "second", and "third" used in this specification are only for description and should not be considered as meaning relative importance.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The oxygen supply device building installation method (hereinafter referred to as "oxygen supply device building installation method") capable of creating a comfortable indoor atmospheric environment according to a preferred embodiment of the present invention includes an indoor space information acquisition step (S10), a gas separation membrane selection step ( S20), body part installation step (S30), and gas separation membrane installation step (S40).

First, the indoor space information acquisition step (S10) is a step of acquiring information on the number or area of rooms in an indoor space where oxygen is supplied.

The gas separation membrane selection step (S20) is a step of determining the installed number of gas separation membrane modules supplying oxygen according to the indoor spatial information acquired in the indoor spatial information acquisition step.

The indoor spatial information includes the number of indoor rooms where oxygen is supplied or the spatial area of the rooms.

Therefore, the required number of gas separation membrane modules is determined by comparing the optimal oxygen supply amount that can be supplied by one gas separation membrane module with indoor space information.

Next, in the main body unit installation step (S30), the main body of the oxygen supply device 100 includes a gas separation membrane module loading unit capable of installing one or more gas separation membrane modules in the air conditioning system piping of a building including an indoor space where oxygen is supplied. This is the stage of installing wealth.

Finally, the gas separation membrane installation step (S40) is a step of installing the gas separation membrane on the gas separation membrane module loading part.

Hereinafter, components including the oxygen supply device 100 necessary for the oxygen supply device building installation method and their operation will be described in detail.

It includes an oxygen supply device 100, a living space analyzer, a user information analyzer, an image irradiator, and an oxygen supply adapter 360.

Hereinafter, components of the oxygen supply device 100 will be described in detail.

The oxygen supply device 100 includes a main body 300, a gas separation membrane module 320, and a gas separation membrane module mounting unit 326.

First, the body part 300 is provided in the air conditioning pipe 200 of the air conditioning system for supplying outside air to the interior of the building or supplying cold air or warm air for heating and cooling.

The main body portion 300 is provided in a modular form, and as shown in FIG. 1 , may be configured as an insertion type to closely adhere to the air conditioning pipe 200 .

Alternatively, depending on the user's choice, it may be fastened between fastening parts for connecting the air conditioning pipes 200 to each other, or a part of the air conditioning pipes 200 may be cut and inserted into the cut air conditioning pipes 200 to be hermetically fixed. .

As shown in FIG. 1, the main body 300 is provided with an oxygen supply module that separates air introduced from the inlet 324 into nitrogen and oxygen, and then discharges the separated oxygen to an outlet opposite the inlet.

The oxygen supply module may be provided in various forms, but is preferably provided as a gas separation membrane module 320 .

The gas separation membrane module 320 separates atmospheric gases containing oxygen and nitrogen as main components passing through the inside of the hollow fiber membrane into oxygen and gases other than oxygen, oxygen is supplied to the user through the outlet, and nitrogen is discharged to the outside. It is composed so that

The gas separation membrane module 320 includes a fan-shaped driving unit 330 for changing the pressure inside the gas separation membrane module to separate oxygen from supplied gas and a communication pipe 340 communicating the gas separation membrane module and the driving unit 330. includes

The drive unit 330 may be installed outside a building air conditioning system device such as an air conditioner outdoor unit and communicate with the gas separation membrane module 320 in order to increase installation convenience according to a user's selection.

Next, the oxygen supply device 100 has a gas separation membrane module mounting unit 326 in which one or more gas separation membrane modules 320 are installed in parallel according to the area of the oxygen supply space of the building where cows are supplied inside the body unit 300. ).

In the indoor oxygen supply space of the building, as shown in FIG. 2 , oxygen may be supplied to several rooms from one air conditioning pipe 200 or the size of the rooms to be supplied may vary.

In this way, when oxygen is supplied to several rooms or when only one gas separation membrane module 320 is installed when oxygen is supplied to a room with a large size, the operating pressure of the driving unit 330 must be increased to increase oxygen supply, but in this case, the driving unit ( 330), there is a limit to the increase in operating pressure, and an excessive increase in operating pressure may cause failure of the driving unit 330 or loud noise.

Accordingly, the gas separation membrane module 320 having a large capacity may be installed in advance, but in this case, manufacturing and installation costs increase.

Accordingly, according to the present invention, one or more gas separation membrane modules 320 are installed in parallel in the gas separation membrane module mounting unit 326 according to the area of the oxygen supply space of the building to be supplied, so that the user's oxygen supply device 100 is installed and oxygen Supply efficiency can be improved.

Next, the oxygen supply device 100 further includes a control unit for controlling the operation of the oxygen supply device 100 .

The control unit sets the target oxygen concentration of the oxygen supply space to 22% so as to supply optimal oxygen to the user, and controls the operation of the oxygen supply device 100 to supply oxygen up to the set oxygen concentration. Control.

First, set the number of rooms 400 in the oxygen supply space where oxygen is supplied to X, the number of gas separation membrane modules 320 to N, and the oxygen supply time to Y, and control the oxygen supply time Y according to the following formula .

[Equation 1]

0.0114 is an oxygen supply coefficient for supplying optimal oxygen according to the diameter and length of the gas separation membrane in the gas separation membrane module 320 and the number of gas separation membranes included in the gas separation membrane module 320, and if it is less than 0.0114, the target oxygen concentration It takes a long time to reach 22% phosphorus, and if it is greater than 0.0114, the time to reach the target oxygen concentration of 22% becomes shorter, but a load may occur on the gas separation membrane module 320, so the optimal oxygen supply coefficient is preferably 0.0114. do.

Through this, the oxygen supply device 100 has an effect of supplying optimal oxygen according to the characteristics of the space where oxygen is supplied.

Next, the oxygen supply device 100 further includes a thermoelectric module for controlling the temperature of oxygen supplied to the air outlet.

There is an advantage in supplying oxygen having an optimal temperature depending on the season by increasing or decreasing the temperature of oxygen supplied through the thermoelectric module unit.

Next, the oxygen supply device 100 further includes an image irradiation means 350 for guiding an optimal intake range of oxygen supplied to the user in a room where oxygen is supplied.

Accordingly, the user may be guided through the image 370 of the optimal oxygen inhalation range of the oxygen 380 supplied from the oxygen supply port of the room 400 where oxygen is supplied.

The oxygen supply port may change the direction in which oxygen is discharged to the front, back, left, or right according to the user's selection.

Alternatively, depending on the user's selection, the user information analyzer 12 worn by the user 10 may be recognized and the direction in which oxygen is discharged may be changed according to the movement of the user information analyzer 12 .

Similarly, the image irradiation unit 350 may also change the direction in which the image is irradiated to front, rear, left, or right.

Therefore, the user can efficiently inhale oxygen while checking the inhalation range of colorless and odorless oxygen.

Here, the user information analyzer 12 is worn on the user's body and acquires one or more body information of the user's body temperature, heart rate, and amount of sweating.

Therefore, the information obtained in this way is transmitted to the control unit through the communication unit, and the control unit controls the operation of the oxygen supply device 100 according to the acquired information.

That is, when any one of the user's body temperature, heart rate, and amount of sweating increases, oxygen supply may be increased to induce the user's body characteristics to return to a normal range.

Next, the oxygen supply device 100 is living space information for acquiring any one or more of fine dust (PM10), carbon dioxide (CO2), volatile organic compounds (VOC), temperature and humidity information of the indoor space An analysis unit may be included to control the operation of the oxygen supply device 100 according to information acquired by the living space information analysis unit.

That is, the living space information analyzer acquires any one or more of indoor space fine dust (PM10), carbon dioxide (CO2), volatile organic compounds (VOC), temperature and humidity information, and transmits the information to the communication unit. When any one of the acquired indoor space information exceeds the reference value, the control unit may increase the supply of oxygen while circulating the indoor air to induce the environmental information value of the indoor space to return to the reference value or less.

Next, the oxygen supply device 100 of the present invention includes an oxygen supply adapter 360 that can directly provide oxygen supplied from the oxygen supply device 100 to a user.

The oxygen supply adapter 360 is configured to directly supply oxygen to the user by connecting a suction port through which the user can absorb oxygen by adsorbing on the face and a hose portion connected to the suction port on the wall of the room 400 where oxygen is supplied. can

Alternatively, depending on the user's choice, the oxygen supply adapter 360 may be connected to a bed or chair used by the user through a hose unit, and then oxygen may be discharged from the bed or chair.

The oxygen supply device building installation method according to a preferred embodiment of the present invention has the advantage of supplying a large amount of oxygen to users who intensively need oxygen supply through such a configuration.

Although preferred embodiments of the present invention have been described above, the present invention can use various changes, modifications, and equivalents. It is clear that the present invention can be equally applied by appropriately modifying the above embodiment. Therefore, the above description does not limit the scope of the present invention, which is defined by the limits of the following claims.

100: oxygen supply device 200: air conditioning piping 300: main body
320: gas separation membrane module 326: gas separation membrane module loading unit
350: image irradiation means 360: oxygen supply adapter

Claims (5)

an indoor space information acquisition step (S10) of acquiring information on the number or area of rooms in an indoor space where oxygen is supplied;
a gas separation membrane selection step (S20) of determining the installed number of gas separation membrane modules supplying oxygen according to the indoor spatial information obtained in the indoor spatial information acquisition step;
A main body part installation step of installing the main body part of the oxygen supply device 100 including a gas separation membrane module loading part capable of installing one or more gas separation membrane modules in an air conditioning system pipe of a building including an indoor space where the oxygen is supplied (S30) ; and
A gas separation membrane installation step (S40) of installing the gas separation membrane on the gas separation membrane module mounting portion; an oxygen supply device building installation method capable of creating a comfortable indoor atmospheric environment. The method of claim 1, wherein the oxygen supply device 100 further comprises a control unit for controlling the operation of the oxygen supply device 100, wherein the control unit sets a target oxygen concentration of the oxygen supply space to 22%. In order to supply oxygen up to the set oxygen concentration, when the number X of rooms in the oxygen supply space where oxygen is supplied, the number N of the gas separation membrane modules, and the oxygen supply time are Y, the oxygen supply time Y according to the following formula to control,
[Equation 1]

Oxygen supply device building installation method that can create a pleasant indoor atmospheric environment. According to claim 2,
The oxygen supply device is wearable by the user and includes a user information analysis unit that acquires one or more body information of the user's temperature, heart rate, and amount of sweat perspiration. Method. According to claim 2,
The oxygen supply device 100 further includes an image irradiation means 350 for guiding the user to the user through an image of the user's oxygen inhalation range of oxygen supplied from the oxygen supply device 100 to the indoor space, a pleasant indoor atmospheric environment. Oxygen supply device building installation method that can be created. According to claim 2,
The oxygen supplying device 100 is provided with an oxygen supplying adapter 360 capable of directly providing oxygen supplied to the indoor space from the oxygen supplying device 100 to the user, and oxygen capable of creating a comfortable indoor atmospheric environment. Supply device building installation method.

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