KR20050075774A - A system regulating oxygen content and it's method - Google Patents

Abstract

The present invention relates to an oxygen concentration control system and an oxygen concentration control method, comprising: a key switch input unit (1) for inputting an oxygen concentration required; A microcomputer 2 for controlling each unit according to input information of the key switch input unit 1 and outputting a display signal; A first controller (3) for controlling the solenoid valve or the stepping motor in response to the control signal of the microcomputer (2); A second controller 4 for controlling the pumping motor according to the control signal of the microcomputer 2 and a third controller 5 for controlling the operation of the fan according to the control signal of the microcomputer 2; A stroke display section 6 which displays the corresponding solenoid valve or stepping motor in operation; The display unit 7 and the oxygen generator 8 which display various states of the system such as the concentration of oxygen can be used immediately when needed without storing the generated oxygen in the oxygen storage tank and can easily adjust the concentration of oxygen. It can be set to any range, and there is no oxygen storage tank, the device is compact and there is no inconvenience to be recharged at any time. Oxygen concentration control system and oxygen concentration control method that has the advantage to be accurate.

Description

Oxygen Concentration Control System and Oxygen Concentration Control Method {A SYSTEM REGULATING OXYGEN CONTENT AND IT'S METHOD}

The present invention relates to an oxygen concentration control system and an oxygen concentration control method, and more specifically, to control the solenoid valve or stepping motor with a microcomputer to supply oxygen in the air to the oxygen generated in the oxygen generator to arbitrarily adjust the concentration of oxygen. It relates to an oxygen concentration control system and an oxygen concentration control method that can easily adjust the concentration.

In general, the oxygen generator is a device for separating and concentrating oxygen in the atmosphere, which may be used for industrial purposes and for home use. The operating principle of the oxygen generator is to adsorb predetermined gas molecules by an adsorbent called zeolite. Use Nitrogen, which occupies about 80% of the atmosphere, is better adsorbed to the zeolite than oxygen, so when air is introduced into the adsorption bed filled with the adsorbent, the nitrogen is adsorbed and the gas with reduced nitrogen is discharged to the outlet of the upper bed. As a result, oxygen is obtained as the main component of the emitted gas.

The above nitrogen adsorption process is a process in which only nitrogen is adsorbed by passing a pressurized gas through a predetermined adsorbent and the remaining gas is passed to separate oxygen from the air. Should be removed (removed) from it to restore its original performance. This process is a desorption process by recirculating a portion of the gas passing through the adsorbent at a low pressure to desorb by washing the adsorbent to restore the adsorption capacity.

Such an oxygen generator includes a gas generator disclosed in Japanese Patent Application Laid-Open No. 6-91927. In this device, the adsorption tank (bed) that adsorbs nitrogen in the air is composed of a single cylinder and there is a limit in the capacity of the oxygen storage tank.

In addition, conventional oxygen generators used for home or personal use only have a function of generating oxygen, and the concentration of oxygen is specified as about 40%, and there is a problem in that there is no function of adjusting the concentration of oxygen.

It is an object of the present invention to provide an oxygen concentration control system and an oxygen concentration control method which is used immediately when needed without storing oxygen generated in the oxygen storage tank as invented to solve the drawbacks and problems of the conventional oxygen generator. .

It is another object of the present invention to provide an oxygen concentration control system and an oxygen concentration control method, in which there is no oxygen storage tank, the device is compact, and there is no inconvenience to be recharged at any time.

Still another object of the present invention is to control the solenoid valve or stepping motor with a microcomputer while being convenient for home or personal use, and supplying oxygen in the air to oxygen generated from the oxygen generator to adjust the concentration of oxygen and oxygen. It is to provide a concentration control method.

Oxygen concentration control system of the present invention for achieving the above object is a key switch input unit (1) for inputting the required oxygen concentration; A microcomputer 2 for controlling each unit according to input information of the key switch input unit 1 and outputting a display signal; A first controller (3) for controlling the solenoid valve or the stepping motor in response to the control signal of the microcomputer (2); A second controller 4 for controlling the pumping motor according to the control signal of the microcomputer 2 and a third controller 5 for controlling the operation of the fan according to the control signal of the microcomputer 2; A stroke display section 6 which displays the corresponding solenoid valve or stepping motor in operation; The display unit 7 and the oxygen generator 8 for displaying various states of the system, such as the concentration of oxygen, characterized in that it is easy to adjust the concentration of oxygen.

The oxygen generator 8 includes a plurality of solenoid valves SV1 to SV4, a plurality of pumping motors M1 to M4, a fan F1 to F4, and an oxygen generator 11, or a stepping motor SM and a fan. (F), an oxygen generator 11 and a stepping motor control unit 12.

In addition, the oxygen concentration adjusting method of the present invention includes the oxygen concentration setting step of setting the concentration of oxygen required by the key switch input unit (1); A signal transmission step of sending a command signal to the first to third control units 3 to 5 by the microcomputer 2 according to the oxygen concentration setting step of the oxygen concentration setting step; Performing an oxygen concentration adjustment administration step of controlling the concentration of oxygen by operating the pumping motor, the solenoid valve and the fan of the corresponding stroke under the control of the first to third control units 3 to 5; An oxygen releasing step of releasing the adjusted oxygen concentration; A stroke display step of displaying the stroke in operation; And a display step of displaying various states of the system.

In addition, the oxygen concentration adjusting method of the present invention includes the oxygen concentration setting step of setting the concentration of oxygen required by the key switch input unit (1); A signal transmission step of sending a command signal to the first to third control units 3 to 5 by the microcomputer 2 according to the oxygen concentration setting step of the oxygen concentration setting step; The stepping motor controller 12 controls the stepping motor SM by the first controller 3, the second controller 4 is the pumping motor M, and the third controller 5 is operated by the fan F. Oxygen concentration control step of controlling the concentration of oxygen by controlling the; An oxygen releasing step of releasing the adjusted oxygen concentration; An operation step display step of displaying an operation state of the stepping motor in operation step by step; And a display step of displaying various states of the system.

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

1 is a configuration diagram of the oxygen concentration control system of the present invention, Figure 2 is a view showing an embodiment of the oxygen generating apparatus according to the present invention, Figure 3 is an operating flow chart of the oxygen concentration control system when operating the oxygen generating device of FIG. As a user, the user who wants to operate the oxygen concentration control system of the present invention first sets the concentration of oxygen required by the key switch input unit 1 in the first step (step S1).

Then, the oxygen concentration control stroke is automatically selected and operated according to the oxygen concentration set in the first step (step S1) (second step; step S2), and the oxygen concentration control stroke is the solenoid valve shown in FIG. The operation of the SV1) and the pumping motor M1 is one stroke, and four strokes are shown in FIG. 2, but the number of such strokes can be added or subtracted as necessary.

In this manner, one or more selected strokes are automatically operated according to the oxygen concentration set in the first step (step S1) (second step; step S2). That is, according to the command signal of the microcomputer 2, the first control unit 3, the second control unit and the third control unit operate the solenoid valve, the pumping motor and the fan, respectively, so that air is input to the oxygen generator 11 ( Step 2; step S2).

By the operation of the selected stroke to the oxygen generated by the oxygen generator 11 by the execution of the second step (S2 step), oxygen in the air is mixed to adjust the concentration of oxygen.

For example, assuming that the oxygen generated in the oxygen generator 11 is 3 l at a concentration of 40%, one stroke is operated to mix 1 l of 21% oxygen in the air with 3l of 40% oxygen. 4L). In other words,

If two strokes work in this way, that is,

When the four strokes operate as shown in Equations 1 and 2 above, it becomes 29.14% (7 L), and thus the oxygen concentration is controlled in the range of 29.14% to 40%.

In the above description, the concentration control range is a case where one stroke is operated to apply some 1 L of oxygen at a concentration of 21% in air, and 2 L of oxygen at a concentration of 21% is applied as in Equations 1 and 2 above. The method can be adjusted in the range of 26.18% to 40%.

Therefore, it is possible to control the oxygen concentration in various ranges according to the number of strokes to be operated and the amount of oxygen in the air to be applied.

As described above, the oxygen concentration is controlled by the operation of the selected stroke in the second step (S2 step), the oxygen concentration is adjusted in the third step (S3 step) and released, and various operation states of the system are displayed. 7), the concentration of oxygen released by the oxygen concentration sensor (not shown) is shown on the display unit 7. As shown in FIG.

Figure 4 is a view showing another embodiment of the oxygen generating device according to the present invention, Figure 5 is an operating flow chart of the oxygen concentration control system when operating the oxygen generator of Figure 4, to operate the oxygen concentration control system of the present invention The user first sets the oxygen concentration to the key switch input unit 1 in the first step (S1 step).

According to the oxygen concentration set in the first step (step S1), the stepping motor control unit 12 automatically operates the selected step by controlling the stepping motor SM in the first to fourth steps (second step; S2). step). That is, the stepping motor controller 12 controls the stepping motor SM by the first controller 3 according to the command signal of the microcomputer 2, and the second controller 4 controls the pumping motor M and the third. The controller 5 controls the operation of the fan F to operate the pumping motor M, the stepping motor SM, and the fan F so that oxygen in the air is input to the oxygen generator 11 (secondary). Step; S2 step).

As described above, the stepping motor SM is controlled by the stepping motor control unit 12 to adjust the oxygen supply passage in the air supplied to the oxygen generator 11 in each step to adjust the concentration of oxygen.

By the operation of the stepping motor SM of the selected step to the oxygen generated in the oxygen generator 11 by the execution of the second step (S2 step) oxygen in the air is mixed to adjust the concentration of oxygen.

In this way, the oxygen concentration is controlled by the operation of the stepping motor SM of the step selected in the second step (S2 step), the oxygen concentration control is completed in the third step (S3 step), and the various operations of the system are performed. The state is shown on the display unit 7, and the concentration of oxygen released by the oxygen concentration sensor not shown is shown on the display unit 7.

Oxygen concentration control system of the present invention that acts as described above has the advantage that can be used immediately when needed without storing the generated oxygen in the oxygen storage tank, and can easily control the concentration of oxygen in any range.

In addition, the device is compact because there is no oxygen storage tank, and there is no inconvenience to recharge frequently, and it is convenient to use for home or personal use, and the oxygen concentration is automatically set by the microcomputer by setting the required oxygen concentration while viewing the display state of the display unit. By controlling, there is an advantage that can accurately adjust the concentration of oxygen.

In addition, since the concentration of oxygen emitted from the display unit is displayed, the user can easily know the concentration of oxygen emitted.

1 is a configuration of the present invention concentration oxygen concentration control system.

2 is a view showing an embodiment of an oxygen generator according to the present invention.

Figure 3 is a flow chart of the operation of the oxygen concentration control system when operating the oxygen generating device of FIG.

4 is a view showing another embodiment of the oxygen generating device according to the present invention.

5 is an operation flowchart of an oxygen concentration control system when the oxygen generator of FIG. 4 operates.

<Explanation of symbols for main parts of drawing>

1: Keyswitch input part 2: Micom

3: first control unit 4: second control unit

5: 3rd control part 6: administration display part

7: display unit 8: oxygen generator

11: oxygen generator 12: stepping motor control unit

F, F1 ~ F4: Fan SV1 ~ SV4: Solenoid Valve

M1 ~ M4: Pumping motor SM: Stepping motor

Claims (5)

A key switch input unit 1 for inputting a required oxygen concentration; A microcomputer 2 for controlling each unit according to the input information of the key switch input unit 1 and outputting a display signal; A first controller (3) for controlling a solenoid valve or a stepping motor in response to a control signal of the microcomputer (2); A second controller 4 for controlling a pumping motor according to the control signal of the microcomputer 2; A third controller 5 for controlling the operation of the fan according to the control signal of the microcomputer 2; A stroke display section 6 which displays the corresponding solenoid valve or stepping motor in operation; A display unit 7 for displaying the concentration of oxygen and the operating state of the system; Oxygen generator 8 is made of an oxygen concentration control system, characterized in that it is easy to control the concentration of oxygen. The oxygen generator of claim 1, wherein the oxygen generator (8) comprises an oxygen generator (11), a pumping motor (M1 to M4), a solenoid valve (SV1 to SV4), and a fan (F1 to F4). Concentration control system. The oxygen concentration control system according to claim 1, wherein the oxygen generator (8) comprises an oxygen generator (11), a stepping motor (SM), a stepping motor control unit (12) and a fan (F). An oxygen concentration setting step of setting the concentration of oxygen required by the key switch input unit 1; A signal transmission step of sending a signal to the first to third control units 3 to 5 by the microcomputer 2 according to the oxygen concentration setting step of the oxygen concentration setting step; Performing an oxygen concentration adjustment administration step of controlling the concentration of oxygen by operating the pumping motor, the solenoid valve and the fan of the corresponding stroke under the control of the first to third control units 3 to 5; An oxygen releasing step of releasing the adjusted oxygen concentration; A stroke display step of displaying the stroke in operation; An oxygen concentration control method comprising a display step of displaying the concentration of oxygen released and the operating state of the system. An oxygen concentration setting step of setting the concentration of oxygen required by the key switch input unit 1; A signal transmission step of sending a signal to the first to third control units 3 to 5 by the microcomputer 2 according to the oxygen concentration setting step of the oxygen concentration setting step; The stepping motor controller 12 controls the stepping motor SM by the first controller 3, the second controller 4 is the pumping motor M, and the third controller 5 is operated by the fan F. Oxygen concentration control step of controlling the concentration of oxygen by controlling the; An oxygen releasing step of releasing the adjusted oxygen concentration; An operation step display step of displaying an operation state of the stepping motor in operation step by step; An oxygen concentration control method comprising a display step of displaying the concentration of oxygen released and the operating state of the system.