KR100455680B1 - Apparatus for supplying oxygen - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an oxygen supply device, and more particularly, to an oxygen supply device that sucks air in the atmosphere, separates and concentrates oxygen, and supplies the same to the atmosphere, the oxygen sensor measuring a concentration of oxygen to be supplied, and an oxygen sensor of a user. And correction means for correcting the oxygen sensor by introducing air in the air toward the oxygen sensor while the oxygen supply is interrupted for a predetermined time together with the input of the correction signal generated from the key input unit according to the correction request.

By calibrating the oxygen sensor installed in the oxygen supply device, there is an effect of accurately measuring the concentration of oxygen supplied by the oxygen supply device.

Description

Oxygen Supply Unit {APPARATUS FOR SUPPLYING OXYGEN}

The present invention relates to an oxygen supply device, and more particularly to an oxygen supply device for calibrating an oxygen sensor for measuring the concentration of oxygen supplied to the outside.

In general, the oxygen concentrator used in the oxygen supply device is a device for separating and concentrating oxygen in the atmosphere, and is currently concentrating oxygen using general electric power of alternating current. Therefore, it is usually used for home use, and the operating principle of the oxygen concentrator utilizes the property that an adsorbent called zeolite adsorbs predetermined gas molecules. Nitrogen, which occupies about 80% in the atmosphere, is adsorbed to zeolite better than oxygen under a certain pressure, so when air enters the bed filled with air adsorbent, the nitrogen content in the air is adsorbed by the adsorbent, and the oxygen content of the reduced nitrogen is at the top of the bed. It is discharged through the outlet of the outlet and collected in the oxygen collection tank.

An oxygen supply device for releasing oxygen into the atmosphere by using the oxygen concentrator includes an oxygen sensor for measuring the oxygen concentration discharged. The oxygen sensor needs to be calibrated after the initial power is applied or after a predetermined time elapses. The oxygen sensor is calibrated by assuming that the oxygen concentration in the atmosphere is 20.9%, and a commonly used oxygen supply device does not have an oxygen sensor calibration function.

In addition, in the case of an oxygen supply device having a correction function, when the oxygen concentration of the oxygen supply unit is increased by oxygen supplied by the oxygen supply device, there is a problem that the oxygen sensor incorrectly performs correction.

Incorrect calibration of the oxygen sensor as described above has a problem that threatens the safety of the user.

An object of the present invention is to solve the problems of the prior art, and to provide an oxygen supply device for correcting the oxygen sensor by installing an oxygen sensor correction means in the oxygen supply portion supplied to the outside.

In order to achieve the above object, the present invention, in the oxygen supply device for supplying oxygen to the atmosphere after the separation and concentration of the air in the air, an oxygen sensor for measuring the concentration of the oxygen, the user's oxygen A key input unit for generating a correction signal according to a sensor correction request, a central control unit receiving the correction signal from the key input unit, and interrupting the supply of oxygen for a preset time; and while the oxygen supply by the central control unit is blocked Air in the air is introduced, and correction means for correcting the oxygen sensor using the introduced air in the air.

1 is a configuration diagram showing an oxygen supply device according to the present invention,

2 is a configuration diagram showing in detail the oxygen supply unit according to the present invention,

3 is a block diagram showing a touch panel used in the oxygen supply device of the present invention.

<Description of the code | symbol about the principal part of drawing>

100: suction filter 101: air compressor

102: supply valve 103a, 103b: bed

104: oxygen collection tank 105: flow control unit

110: central control unit 111: key input unit

112: display unit 120: oxygen supply unit

121: oxygen sensor 122: gas outlet

130: inlet pipe 131: oxygen supply line

132: air supply line 133: backflow prevention ball

134: outlet 141: power button

142: correction button 143: setting button

144 display window

There may be a plurality of embodiments of the present invention, and a preferred embodiment will be described in detail below with reference to the accompanying drawings. Those skilled in the art will be able to better understand the objects, features and advantages of the present invention through this embodiment.

1 is a configuration diagram showing an oxygen supply device according to the present invention, Figure 2 is a configuration diagram showing an oxygen supply unit according to the present invention in detail, Figure 3 is a block diagram showing a touch panel used in the oxygen supply device of the present invention. to be.

Referring to FIG. 1, the oxygen supply device includes an intake filter 100, an air compressor 101, a supply valve 102, beds 103a and 103b, an oxygen collection tank 104, a flow control unit 105, and a central control unit. 110, a key input unit 111, a display unit 112, and an oxygen supply unit 120.

The suction filter 100 sucks air into the air to remove dust from the sucked air and supplies the air to the air compressor 101. The air compressor 101 processes the air from which the dust is removed into compressed air to process the bed 103a, 103b).

The compressed air supplied to the beds 103a and 103b is controlled by the supply valve 102, which is responsible for switching the compressed air supplied from the air compressor 101 and the two beds 103a. , 103b may be operated alternately, and compressed air supplied from the air compressor 101 is supplied to each of the beds 103a and 103b according to the position change.

The beds 103a and 103b adsorb nitrogen and separate oxygen from the compressed air sent from the air compressor 101, and the separated oxygen flows into the oxygen collection tank 104 and is temporarily stored. In particular, a shuttle valve (not shown) is provided between the beds 103a and 103b and the oxygen collection tank 104. The shuttle valve has two inlets so that the inlet through which high-pressure gas is introduced is opened. Oxygen migration from the 103b) to the oxygen collection tank 104 is switched, and the oxygen in the oxygen collection tank 104 is intermittently prevented from flowing back into the beds 103a and 103b.

Nitrogen generated in the process of concentrating oxygen in the compressed air supplied to the beds 103a and 103b is discharged to the outside through the supply valve 102. The principle is that the pressure difference in the ambient air and the beds 103a and 103b is different. Nitrogen generated in the beds (103a, 103b) is discharged to the outside.

The flow rate control unit 105 is controlled by the central control unit 110 according to a user's setting to determine the amount of oxygen supplied to the oxygen supply unit 120, and receives the determined amount of oxygen from the oxygen collection tank 104 to supply the oxygen supply unit 120. To feed. According to the initial driving of the oxygen generator, the flow rate control unit 105 stops the oxygen supply to the oxygen supply unit 120.

The central control unit 110 is a means for controlling the oxygen supply device as a whole. In particular, the flow control unit 105 controls the amount and concentration of oxygen to be supplied, and the supply valve 102 to adjust the bed 103a, Compressed air is supplied to 103b) or nitrogen gas remaining in the beds 103a and 103b is discharged to the outside.

In addition, the central control unit 110 records the optimum oxygen concentration data supplied to the oxygen supply unit 120, the recorded optimal oxygen concentration is 20 to 50%, more preferably 22 to 25%.

As shown in FIG. 3, the key input unit 111 generates an initial driving signal and a correction signal according to a user's manipulation of the power button 141 or the correction button 142, and transmits the initial driving signal and the correction signal to the central control unit 110. The central control unit 110 stops the oxygen supply to the oxygen supply unit 120 according to the signal generated by the 111.

When the user manipulates the setting button 143 attached to the external panel to determine the desired oxygen concentration to be supplied to the outside, the key input unit 111 generates a setting signal and transmits the setting signal to the central control unit 110. 110 controls the flow control unit 105 according to the setting signal input from the key input unit 111 to discharge the oxygen having a desired oxygen concentration to the outside through the oxygen supply unit 120.

The display unit 112 receives data such as the current standby state and the amount of oxygen supplied from the central controller 110 and displays the data on the LCD display window 144 mounted on the external panel.

As shown in FIG. 2, the oxygen supply unit 120 includes an oxygen sensor 121 that detects the amount of oxygen supplied to the atmosphere and the concentration of the supplied oxygen, and a gas outlet for discharging gas such as oxygen or air to the outside. An inlet pipe 130 which is an oxygen sensor correction means for correcting the oxygen sensor 121 by discharging oxygen introduced through the flow rate control unit 105 and air introduced from the outside through the oxygen sensor 121. Is done.

The inlet pipe 130 is installed on one side of the inlet pipe 130 and is provided on the oxygen supply line 131 to which oxygen introduced through the flow control unit 105 is supplied, and on the other side of the inlet pipe 130 to enter the atmosphere. An air supply line 132 to which air to be supplied is supplied, a backflow prevention ball 133 which moves left and right according to air or oxygen introduced into the inlet pipe 130, and shields the air or oxygen supply lines 131 and 132; The outlet 134 is formed on the inlet pipe 130 and discharges oxygen or air introduced into the inlet pipe 130 to the oxygen sensor 121 according to the blocking of the supply lines 131 and 132 of the backflow prevention ball 133. It is provided.

Discharge port 134 is formed on the middle line so that the introduced oxygen or atmospheric air discharges to the oxygen sensor 121, the inlet pipe 130 is a reverse flow prevention ball 133 according to the oxygen or air introduced It is formed at the lower end of the oxygen supply unit 120 with a predetermined angle of inclination to move.

When oxygen is supplied to the oxygen supply unit 120 through the flow control unit 105, the backflow prevention ball 133 moving in the inlet pipe 130 blocks the air supply line 132 through which atmospheric air is introduced and the oxygen supply line. Oxygen supplied through 131 is discharged toward the oxygen sensor 121 through the outlet 134 of the inlet pipe 130. Oxygen discharged through the outlet 134 is discharged to the outside through the gas outlet 122, the concentration of oxygen discharged to the outside by the oxygen sensor 121 is measured.

The concentration of oxygen measured by the oxygen sensor 121 is transmitted to the central control unit 110, and the central control unit 110 controls and supplies the flow rate control unit 105 based on the oxygen concentration transmitted from the oxygen sensor 121. The amount of oxygen can be controlled.

The oxygen sensor 121 installed in the oxygen supply unit 120 having the high concentration of oxygen is deteriorated after a certain period of time, so that a phenomenon in which the concentration of oxygen supplied to the air may not be properly measured is corrected after a preset time. This is required, as shown in FIG. 3, when the user turns on the power button 141 of the oxygen supply device or presses the correction button 142 installed outside during the operation of the oxygen supply device, the oxygen sensor 121. Is corrected.

When the user presses the power button 141 or the correction button 142, the key input unit 140 generates an initial driving signal or a correction signal and transmits it to the central control unit 110, and the central control unit 110 according to the transmitted signal. ) Stops the oxygen supply through the flow control unit 105 for a predetermined time, and in response to the stop of the oxygen supply, the backflow prevention ball 133 located in the inlet pipe 130 moves to block the oxygen supply line 131 and air. Open air supply line 132 is introduced. The air flowing through the air supply line 132 is discharged toward the oxygen sensor 121 through an outlet 134 located on the line of the inlet pipe 130, whereby the oxygen sensor is discharged by the air discharged through the outlet 134. The 121 is corrected, and the air introduced into the oxygen sensor 121 is discharged to the outside through the gas outlet 122.

When the calibration of the oxygen sensor 121 is completed through the above process, the central control unit 110 supplies oxygen through the flow control unit 105, and the backflow prevention ball 133 according to the oxygen supply line supplies the oxygen supply line. The oxygen flows through the flow control unit 105 by opening the oxygen supply line 131 and opening the oxygen supply line 131 while moving by the oxygen introduced through the 131 to discharge the outlet 134 and the gas outlet 134. Through the air to the atmosphere.

The central control unit 110 stops the oxygen supply for a predetermined time according to the initial driving signal or the correction signal of the concentrated oxygen generator, and atmospheric air flows into the oxygen supply unit 120 during the interruption of the oxygen supply, and oxygen is introduced by the introduced air. The oxygen sensor 121 installed in the supply unit 120 will be calibrated.

In addition, the central control unit 110 stores a predetermined value (oxygen concentration data) for the amount of oxygen necessary for the optimum atmosphere, and compares the predetermined value with the concentration of oxygen supplied by the oxygen sensor and compares the result with the comparison result. Therefore, the flow rate control unit 105 is controlled, and a certain amount of oxygen collected in the oxygen collection tank 104 under the control of the flow rate control unit 105 will be supplied through the oxygen supply unit 120.

As described above, by supplying the outside air to the inlet pipe installed in the oxygen supply unit, discharge the supplied air to the oxygen sensor to calibrate the oxygen sensor, it is possible to accurately measure the concentration of oxygen supplied by the oxygen supply device, There is an effect that can supply oxygen having a constant concentration to the atmosphere.

Claims (8)

An oxygen supply device for supplying oxygen to the atmosphere after inhaling and concentrating the air in the atmosphere, An oxygen sensor for measuring the concentration of oxygen; A key input unit for generating a correction signal in accordance with the oxygen sensor correction request of the user; A central controller which receives the correction signal from the key input unit and cuts off the supply of oxygen for a preset time; And oxygen correction means for correcting the oxygen sensor using the introduced atmospheric air while the oxygen supply is interrupted by the central controller. The method of claim 1, The oxygen supply device, The oxygen supply device further comprises a gas outlet for discharging air and oxygen introduced into the oxygen sensor to the outside. The method of claim 1, The correction means, The oxygen supply device is characterized in that the oxygen or air is selectively introduced, the inlet pipe for discharging the introduced oxygen or air toward the oxygen sensor. The method of claim 3, wherein The inlet pipe, An oxygen supply line and an air supply line for supplying oxygen and air to both sides are combined, and an outlet for discharging oxygen or air supplied to the oxygen supply line or the air supply line to the oxygen sensor is formed, and the oxygen supply is provided. Oxygen supply device characterized in that the backflow prevention ball to block any one side by the pressure of oxygen or air supplied from the line or air supply line. The method of claim 4, wherein The backflow prevention ball, When the power supply is supplied to the power supply oxygen supply device characterized in that for stopping the oxygen supply line by interrupting the oxygen supply line for a predetermined time. The method of claim 1, The oxygen supply device, Oxygen supply device further comprises a setting button for setting the oxygen concentration supplied to the outside. The method of claim 1, The central control unit, And oxygen concentration data for determining the concentration of oxygen supplied to the outside. The method of claim 7, wherein The oxygen concentration data is, An oxygen supply device, characterized in that 20 to 50%.