KR101117356B1 - Oxygen supply apparatus for hospital - Google Patents

Abstract

PURPOSE: An oxygen supply device for a hospital is provided to produce oxygen from atmosphere and to supply the oxygen to a patient. CONSTITUTION: An oxygen supply device for a hospital comprises: an oxygen discharge device(10) which generates and discharges oxygen; and a distributor(20) which is provided with oxygen, distributes oxygen to each sickroom(30), and supplies oxygen through an oxygen supply duct. The oxygen discharge device includes an air filter, an oilless inhaler, a moisture filter eliminating moisture, and an oxygen generation module discharging oxygen.

Description

Hospital oxygen supply device {OXYGEN SUPPLY APPARATUS FOR HOSPITAL}

The present invention relates to an oxygen supply device for a hospital, and more particularly, to an oxygen supply device configured to more stably supply oxygen by producing oxygen supplied to a patient in each hospital room of a hospital.

In general, each hospital is equipped with a device for supplying oxygen to help the breath of the critically ill. In hospitals, pure oxygen is supplied to critically ill patients, increasing the partial pressure of oxygen to increase oxygen hemoglobin in the blood, and allowing each cell to obtain the energy it needs from the rapid supply of oxygen.

In order to supply such oxygen, as shown in Fig. 1, in the hospital, oxygen is distributed from the oxygen supply source installed at a predetermined point through the distributor 2 to each hospital room 3 in which the oxygen respirator is installed. An oxygen cylinder (oxygen cylinder) 1 filled with oxygen is used as an oxygen supply source to be connected.

However, the oxygen cylinder 1 is a considerable weight, and after a predetermined period of time, the internal oxygen is consumed, and thus the oxygen cylinder 1 needs to be replaced. Therefore, the handling is not easy and pays a considerable cost for the operation, and recently, there is also known a problem that the fire occurs frequently due to the explosion of the oxygen cylinder (1).

Accordingly, the above problems can be solved by replacing the oxygen supply source of the hospital with an oxygen generator that directly produces oxygen in the oxygen cylinder (1), but the quality and stability of oxygen generated in the oxygen generator due to the specificity of the hospital Due to concerns about the current situation has not been attempted to apply to the hospital site.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an oxygen supply device for a hospital that can produce and supply oxygen suitable for supply to a patient from the atmosphere.

In addition, an object of the present invention is to provide a hospital oxygen supply device that can continuously supply oxygen even in an emergency situation such as a power failure in consideration of the specificity of the hospital.

The present invention for achieving the above object is in the hospital oxygen supply device for supplying oxygen to the hospital room through the oxygen supply line in the hospital, oxygen discharge device for producing and discharge oxygen, oxygen from the oxygen discharge device And a distributor for dispensing oxygen to each of the hospital rooms and supplying the oxygen through the oxygen supply line, wherein the oxygen discharge device sucks air to generate an air flow in the air filter and the air filter at the rear side of the air filter. And an oilless suction unit for discharging water, a water filter for removing water from the air discharged from the oilless inhaler, and an oxygen generation module for discharging oxygen gas by removing nitrogen from the air passing through the water filter. It is characterized by.

In addition, the present invention is the oxygen storage device for storing the oxygen gas discharged from the oxygen generating module and the oxygen storage for supplying the oxygen gas to the distributor, and the temperature of the oxygen gas supplied from the oxygen storage to the distributor set temperature Another feature is to further include a thermostat to adjust the range.

In addition, the present invention further comprises a pressure regulator for adjusting the pressure of the oxygen gas passing through the oxygen storage device between the oxygen storage and the temperature controller so that the pressure of the set range, the oxygen discharge device comprises the air filter It is another feature to further include a sterilizer for sterilizing the air passing through.

On the other hand, the present invention, in the configuration as described above, the commercial power supply sensor for detecting the power supply of the commercial power supply of the oxygen discharge device, the rechargeable power supply and self-generator capable of supplying the power of the oxygen discharge device and And an emergency control device configured to control a remaining charge detection sensor for detecting a remaining charge of the rechargeable power supply device, and a rechargeable power supply device and the self-generator to supply power to the oxygen discharge device. The device receives the detection signal of the commercial power sensor and controls the rechargeable power supply device to supply power to the oxygen discharge device in the absence of power supply from the commercial power supply, the charge amount detected by the charge remaining sensor When it is detected below the predetermined value, the self-generator is operated to supply power to the oxygen exhaust device. It is another feature to control immediately.

In addition, the present invention, in the configuration as described above, an abnormal state monitoring device capable of transmitting a mobile phone text message and a separate oxygen cylinder is stored oxygen is installed, the operation is controlled by the emergency control device and the oxygen storage And between the pressure regulator and the oxygen cylinder is selected from the oxygen reservoir and the oxygen cylinder three-way valve is controlled to supply the oxygen gas to the pressure regulator, and the oxygen reservoir pressure sensor for sensing the pressure of the oxygen reservoir Further, the emergency control device controls the operation of the three-way valve so that the oxygen cylinder to supply the oxygen gas supplied to the pressure regulator when the pressure detected by the oxygen storage pressure sensor is less than the set value, the oxygen If the pressure detected by the reservoir pressure sensor exceeds the set value, supply it to the pressure regulator. The operation of the three-way valve to supply a small gas supply to the oxygen storage, and the abnormal state monitoring device to send a text message about the operating state of the three-way valve to the manager's mobile phone as another feature do.

In addition, the present invention, in the configuration as described above, further comprises a room temperature sensor for sensing the temperature of the room, the temperature controller receives the information about the temperature value measured by the room temperature sensor to the temperature value According to another feature of adjusting the temperature of the oxygen gas.

In another aspect, the present invention is a hospital oxygen supply device for supplying oxygen to a hospital room in the hospital, an air filter including a hepa filter, a sterilizer for sterilizing the air passing through the air filter, the air filter and the An oilless inhaler that inhales and discharges air to generate air flow in the sterilizer, a water filter that removes water from the air discharged from the oilless inhaler, and nitrogen from air passing through the water filter to remove oxygen gas. An oxygen generator for discharging, an oxygen reservoir for storing and supplying the oxygen gas discharged from the oxygen generator module, a temperature controller for adjusting the temperature of oxygen supplied from the oxygen reservoir in a set temperature range, and the oxygen reservoir from the oxygen reservoir. Pressure control to discharge by adjusting the pressure of oxygen supplied to the set pressure range, and commercial power supplied It includes a commercial power supply sensor for monitoring the status of the power supply, and a rechargeable power supply or self-generator for supplying power to replace the commercial power when the commercial power sensor detects that the commercial power is off. It is done.

Hospital oxygen supply device of the present invention having the configuration as described above can produce and supply clean oxygen suitable for the patients in the room, can also eliminate the cumbersome work of replacing the oxygen cylinder periodically and the explosion risk of oxygen cylinder.

In addition, the oxygen discharge device for a hospital of the present invention allows a separate power supply to be made continuously so that the situation that the supply of oxygen to the hospital room is not interrupted due to a power outage, and the amount of oxygen production is not enough to supply oxygen If small or absent, the device is configured to supply oxygen separately.

Accordingly, the present invention can produce stable oxygen suitable for supplying to the hospital room while stable operation is possible to suit the special situation of the hospital even in a situation where an operation interruption, such as a power outage.

1 is a configuration diagram schematically showing an oxygen supply apparatus of a conventional hospital
Figure 2 is a schematic diagram showing a hospital oxygen supply apparatus according to an embodiment of the present invention
Figure 3 is a block diagram showing the configuration of the oxygen discharge device for a hospital according to an embodiment of the present invention
Figure 4 is a block diagram showing the configuration of a hospital oxygen supply apparatus according to another embodiment of the present invention
Figure 5 is a block diagram showing the configuration of a hospital oxygen supply apparatus according to another embodiment of the present invention

An embodiment of a hospital oxygen supply device according to the present invention will be described in more detail with reference to the drawings.

2 is a block diagram schematically showing a hospital oxygen supply apparatus according to an embodiment of the present invention, Figure 3 is a block diagram of a hospital oxygen discharge device 10 according to an embodiment of the present invention.

Referring to Figures 2 and 3, according to an embodiment of the present invention, the oxygen supply device for supplying oxygen to the hospital room 30 through the oxygen supply line in the hospital, the oxygen discharge device for producing and discharging oxygen ( 10) and a distributor 20 which receives oxygen from the oxygen discharge device 10 and distributes oxygen to each hospital room 30 to supply oxygen through an oxygen supply line.

Oxygen exhaust device 10 is composed of a plurality of oxygen generating devices (11, 12, 13).

The oxygen generator 11 is an air filter 111, an oilless suction unit 113 for sucking and discharging air to generate air flow in the air filter 111 from the rear side of the air filter 111, And a water filter 114 for removing water from the air discharged from the oilless inhaler 113 and an oxygen generating module 115 for removing oxygen from the air passing through the water filter 114 to discharge oxygen. Doing.

The air filter 111 is installed in order to remove such foreign matters because foreign matters such as dust are contained in the air sucked around the oxygen discharge device 10. The air filter 111 may employ a general air filter sold in the market. In addition, the air filter 111 may further include a HEPA filter 111a. The HEPA filter 111a may filter clean fungi, fine dust, bacteria, and the like to produce clean oxygen suitable for use in a hospital.

Since the oxygen supply device is medical and bacteria which are not filtered by the HEPA filter 111a may be included in the sucked air, the oxygen supply device may further include a sterilizer 112 for sterilizing the air passing through the air filter 111. desirable. The sterilizer 112 may be used in various ways, but the sterilization method by ultraviolet (UV) irradiation will be most suitable.

The oilless suction unit 113 is installed at the rear side of the air filter 111 to generate a negative pressure to suck air, and discharge the air at a predetermined pressure again.

Therefore, the oilless suction unit 113 may generate a series of air flows through the air filter 111 and through the water filter 114 and the oxygen generating module 115.

The oilless inhaler 113 employs an oilless compressor as an inhaler that does not use oil. Therefore, clean air can be inhaled and discharged without fear of contaminants caused by oil, thereby producing clean oxygen suitable for supply to patients in hospitals.

The water filter 114 serves to remove water from the air passing through the oilless inhaler 113. Since water is generated when the air is compressed while passing through the oilless inhaler 113, the oilless inhaler 113 is a means for removing moisture of the compressed air. The water filter 114 employs a filter of a known water removal function.

Meanwhile, the air from which impurities and moisture are removed through the air filter 111 and the water filter 114 is separated from oxygen and nitrogen in the oxygen generating module 115 to discharge oxygen.

The oxygen generating module 115 separates oxygen and nitrogen contained in the air to discharge oxygen. As the oxygen generation method, a gas separation membrane method using a permeation rate difference and a method using an adsorbent of a zeolite component are widely used, but it is preferable to adopt an adsorbent method (PSA method) which can obtain higher purity oxygen.

Oxygen generator (11, 12, 13) of the present embodiment is composed of a series of sets passing through the air filter 111, the oilless suction 113, the water filter 114 and the oxygen generating module 115, the series As shown in FIG. 3, a plurality of sets are installed in parallel to generate oxygen independently of each other. By providing a plurality of sets in parallel and installing them in parallel, stable oxygen supply is possible even when a malfunction occurs in any one set. This minimizes the risk of stopping oxygen supply in hospitals.

Oxygen produced in the above-described configuration is introduced into the oxygen storage 15 is to be stored. Oxygen reservoir 15 is preferably stored in a compressed state equipped with a compressor, the stored oxygen is discharged again to be supplied to the distributor 20 to supply to each hospital room (30).

On the other hand, in the present embodiment, the pressure regulator 16 and the temperature controller 17 are sequentially installed in the flow path of oxygen between the oxygen reservoir 15 and the distributor 20.

The pressure regulator 16 is a device for adjusting the pressure in the set range by pressing the oxygen from the oxygen reservoir (15). Since the oxygen supplied from the oxygen reservoir 15 is in a low pressure state of about 0.8 bar, the pressure regulator 16 is increased to a pressure enough to supply oxygen to each hospital room 30 through the distributor 20. do. Accordingly, the pressure regulator 16 may employ a conventional oilless compressor like the oilless inhaler 113.

The pressure-controlled oxygen in the pressure regulator 16 passes through the temperature controller 17. The oxygen passing through the pressure regulator 16 is increased in temperature while being compressed, thereby adjusting the temperature to be similar to room temperature. Therefore, the temperature controller 17 is preferably equipped with a conventional cooler (Cooler) device. Of course, when the pressure regulator 16 does not exist or the temperature of the oxygen passed through the pressure regulator 16 is not high, or when the temperature of the oxygen is low due to seasonal factors, the heating device may be installed together. .

More preferably further comprises a room temperature sensor (not shown) for sensing the temperature of the room 30, the temperature controller 17 receives the temperature value measured by the room temperature sensor is equal to the temperature value or It is desirable to adjust the temperature of oxygen in accordance with its temperature value to be similar. Accordingly, oxygen more suitable for the breathing of the patient can be supplied.

On the other hand, in this embodiment, the abnormal state monitoring device 40 is installed to notify the administrator of the abnormal state during abnormal operation. The abnormal state monitoring device 40 is provided with a pressure gauge 401 and a flow meter 402 to measure the pressure and flow rate of the oxygen gas supplied, the value measured by the pressure gauge 401 and the flow meter 402 is set If it is out of range, an abnormal signal is transmitted. That is, when the pressure or flow rate of the supplied oxygen gas is out of the set value, the abnormal state monitoring device 40 transmits an abnormal signal to the alarm sound generator installed in the management room through the transmitting device to generate an alarm sound, or the manager's mobile communication terminal. It is configured to send a message informing the abnormal situation.

According to the above embodiment, not only the clean oxygen suitable for the hospital can be supplied, but also when an abnormal situation occurs, the manager immediately recognizes the situation and can take the risk of stopping the oxygen supply.

The following describes a hospital oxygen supply device according to another embodiment of the present invention.

This embodiment includes the configuration of the oxygen exhaust device 10 of the above-described embodiment.

In addition to the configuration, in the present embodiment, the commercial power sensor 82 for detecting the power supply of the commercial power supply 80 for supplying power to the oxygen discharge device 10, and the oxygen discharge device 10 Rechargeable power supply device 60 and self-generator 70 capable of supplying power, a charge remaining sensor 61 for sensing the remaining charge of the rechargeable power supply device 60, and the oxygen discharge device 10 The rechargeable power supply device 60 and the self-generator 70 further includes an emergency control device 50 for controlling to supply power.

The commercial power sensor 82 is for monitoring only the on / off state of the commercial power supply can be implemented by installing a non-contact current sensor, for example.

The rechargeable power supply device 60 refers to a large capacity battery, and when a commercial power source cannot be used due to a power failure, the rechargeable power supply device 60 serves as a power source for the oxygen discharge device 10.

The self-generator 70 is a power generator driven by an engine, and when the rechargeable power supply device 60 cannot play a normal role, the self-generator 70 serves as a power source for the oxygen discharge device 10, and supplies the rechargeable power supply. The device 60 and the self-generator 70 may optionally be a power source for the oxygen exhaust device 10.

On the other hand, the emergency control device 50 receives the detection signal of the commercial power sensor 82, the rechargeable power supply device 60 in the state that there is no power supply from the commercial power supply 80, the oxygen discharge device 10 Control to supply power). In addition, when the charge amount detected by the charge remaining amount detection sensor 61 is detected to be less than a predetermined value, the self-generator 70 is operated to control the power supply to the oxygen discharge device (10). The emergency control apparatus 50 is driven by the emergency battery 52 in consideration of the fact that the commercial power source is operated in the off state.

Therefore, the emergency control device 50 continuously receives the on / off state value of the commercial power from the commercial power sensor 82, and the rechargeable power supply device 60 is oxygen when the commercial power is off by power failure. The operation of the switch (not shown) is controlled to apply power to the discharge device 10.

In addition, the charge remaining amount sensor 61 is also continuously receiving the information value for the charge remaining amount of the rechargeable power supply device 60, when the charge remaining amount is less than the set value, the self-generator 70 is started and the oxygen discharge device The operation of the switch (not shown) is controlled to supply power to 10.

Accordingly, in the present embodiment, the power supply to the oxygen discharge device 10 can be stably provided even in a dangerous situation in which the commercial power source such as a power failure is turned off.

Next, a hospital oxygen supply device according to another embodiment of the present invention will be described with reference to FIG. 5.

Referring to FIG. 5, the present embodiment also includes configurations of one embodiment and another embodiment described above.

That is, the oxygen discharge device 10 includes an air filter 111 and an oilless suction unit 113 which sucks and discharges air so as to generate air flow in the air filter 111 at the rear side of the air filter 111. A water filter 114 for removing moisture from the air discharged from the oilless suction unit 113 and an oxygen generating module 115 for removing oxygen from the air passing through the water filter 114 to discharge oxygen; In addition, an oxygen reservoir 15, a pressure regulator 16, and a temperature controller 17 are also included. The action is the same as described above.

In addition, the commercial power sensor 82 for detecting the on / off state of the commercial power supply 80 is installed and the detected state value is continuously transmitted to the emergency control device 50, the emergency control device 50 When the commercial power supply 80 is turned off due to a power failure according to the state value detected by the commercial power detection sensor 82, the operation of the switch is performed so that the rechargeable power supply device 60 supplies power to the oxygen discharge device 10. To control.

In addition, the charge remaining amount sensor 61 is also continuously receiving the information value for the charge remaining amount of the rechargeable power supply device 60, when the charge remaining amount is less than the set value, the self-generator 70 is started and the oxygen discharge device The operation of the switch is controlled to supply power to 10. Accordingly, the supply of power to the oxygen discharge device 10 can be stably performed even in a dangerous situation in which the commercial power source is off, such as a power failure.

On the other hand, in the present embodiment, a message transmission function relating to the operation state of the three-way valve 830 which will be described later to the abnormal state monitoring device 40 is further added, a separate oxygen cylinder 90 is stored oxygen is further installed. . In addition, the three-way valve 830 is installed between the oxygen reservoir 15, the pressure regulator 16 and the oxygen cylinder 90, the flow path is selectively connected to each other. The three-way valve 830 is provided with a drive device whose operation is controlled by the emergency control device 50, the pressure regulator 16 by selecting the input channel of the oxygen reservoir 15 and the oxygen cylinder 90. Is controlled to output oxygen.

In addition, the emergency battery 52 is installed to operate in the OFF (off) situation of commercial power, that is, the emergency control device 50 and the commercial power sensor 82, the abnormal state monitoring device 40 and 3 The electric power necessary for the operation of the room valve 830 is supplied.

The abnormal state monitoring device 40 measures the pressure and flow rate of the supplied oxygen by the pressure gauge 401 and the flow meter 402, and transmits an abnormal signal so that a warning sound is generated when the measured value is out of a set range. In the same manner as in the foregoing embodiment, the mobile communication terminal of the manager is configured to transmit a message informing of an abnormal situation.

In addition, the abnormal state monitoring device 40 is provided with a function for transmitting a text message about the operating state of the three-way valve 830 to the administrator to the mobile phone. This may be achieved by the emergency control device 50 controlling the operation of the three-way valve 830 and simultaneously transmitting the transmission information of the control signal to the abnormal state monitoring device 40.

In addition, the oxygen storage pressure sensor 151 for detecting the pressure of the oxygen storage 15 in this embodiment is further installed. The oxygen storage pressure sensor 151 measures the pressure of the oxygen storage 15 and transmits it to the emergency control device 50.

The operation of the oxygen supply device according to another embodiment of the present invention configured as described above is as follows.

First, when the emergency control device 50 receives the detection value from the commercial power supply sensor 82, and is detected as no power supply from the commercial power supply 80, the rechargeable power supply device 60 is oxygen discharge device Control the power supply to the (10), and when the charge amount detected by the charge remaining amount sensor 61 is detected to be less than a predetermined value, by operating the self-generator 70 to power the oxygen discharge device (10) Control to supply.

In accordance with the above action, by supplying a separate power supply in the off-state danger of commercial power supply to prevent the risk of interruption of oxygen supply.

On the other hand, the emergency control device 50 is the three-way valve so that the oxygen cylinder 90 supplies the oxygen supplied to the pressure regulator 16 when the pressure sensed by the oxygen storage pressure sensor 151 is less than the set value. Control the operation of 830. In addition, when the pressure sensed by the oxygen storage pressure sensor 151 exceeds a set value, the three-way valve 830 is operated so that the oxygen storage 15 supplies oxygen supplied to the pressure regulator 16. To control. At this time, the abnormal state monitoring device 40 is controlled to transmit a text message about the operating state of the three-way valve 830 to the administrator's mobile phone.

This allows the manager to immediately recognize the situation where oxygen is supplied from the oxygen cylinder 90.

On the other hand, it is possible to supply the oxygen of the oxygen cylinder 90 by controlling the operation of the three-way valve 830 by measuring the pressure of the oxygen storage 15 in the above, the mechanical defect in the oxygen generator 11 In addition, it is possible to indirectly monitor and respond to the reduction or interruption of oxygen generation.

In particular, when the oxygen generation amount of the oxygen generating device 11 gradually decreases due to the elapse of the use period, and the pressure of the oxygen storage 15 to be stored is low, the oxygen of the oxygen cylinder 90 is operated by the three-way valve 830. Once supplied, the fact is notified to the administrator so that the device can be exchanged quickly. This means that the supply of oxygen can be made without interruption even in a specific situation in which the device is repaired and checked. Therefore, it can be said that it is suitable for the oxygen supply device of a hospital where the risk of interruption of oxygen supply must be eliminated.

On the other hand, after the blackout of the commercial power is eliminated, or after the replacement and repair of the device will be detected by the commercial power sensor 82 or the oxygen storage pressure sensor 151, the emergency control device 50 is a rechargeable power supply The power supply of the supply device 60 and the self-generator 70 is stopped or the oxygen supply by the oxygen cylinder 90 is stopped to return the oxygen supply device to the normal state.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the particular embodiments set forth herein. It goes without saying that other modified embodiments are possible.

One; Oxygen cylinder (oxygen) 2; Divider
3,30; Room 10; Oxygen exhaust device
11,12,13; Oxygen generator 15; Oxygen storage
16; Pressure regulator 17; Thermostat
20; Distributor 40; Abnormal State Monitoring Device
50; Emergency control device 52; Emergency battery
60; Rechargeable power supply 70; Generator
80; Commercial power source 82; Commercial power supply sensor
90; Oxygen bomb 111; Air filter
112; Sterilizer 113; Iris inhaler
114; Moisture filter 115; Oxygen generation module
111a; HEPA filter 151; Oxygen Storage Pressure Sensor
830; Three-way valve 401; pressure gauge
402; Flow meter

Claims (7)

In the hospital oxygen supply device for supplying oxygen to the hospital room 30 through the oxygen supply line in the hospital,
Oxygen discharge device 10 for producing and discharging oxygen,
Receiving oxygen from the oxygen discharge device 10 includes a distributor 20 for distributing oxygen to each hospital room 30 to supply through the oxygen supply pipe,
The oxygen discharge device 10,
An air filter 111,
An oilless suction unit 113 for sucking and discharging air to generate air flow in the air filter 111 at the rear side of the air filter 111;
A water filter 114 for removing water from the air discharged from the oilless inhaler 113,
Hospital oxygen supply device characterized in that it comprises an oxygen generating module 115 for discharging oxygen by removing nitrogen from the air passing through the water filter 114 The method of claim 1,
The oxygen discharge device 10 is
An oxygen storage 15 for storing oxygen discharged from the oxygen generating module 115 and supplying oxygen to the distributor 20;
Hospital oxygen supply device further comprises a temperature controller 17 for adjusting the temperature of the oxygen supplied from the oxygen reservoir 15 to the distributor 20 in a set temperature range. The method of claim 2,
The oxygen discharge device 10 is
Further comprising a pressure regulator 16 for adjusting the pressure of the oxygen discharged from the oxygen reservoir 15 to be a pressure in the set range, and a sterilizer 112 for sterilizing the air passing through the air filter 111. Hospital oxygen supply device 4. The method according to any one of claims 1 to 3,
A commercial power sensor 82 for detecting the power supply of the commercial power supply 80 of the oxygen discharge device 10;
A rechargeable power supply device 60 and a self-generator 70 capable of supplying power to the oxygen discharge device 10;
Charge remaining sensor 61 for detecting the remaining charge level of the rechargeable power supply device 60,
The rechargeable power supply device 60 and the self-generator 70 supply power to the oxygen discharge device 10 by receiving detection values from the commercial power sensor 82 and the charge remaining sensor 61. Further comprising an emergency control device 50 for controlling to,
The emergency control device 50
Receiving the detection signal of the commercial power sensor 82 is controlled so that the rechargeable power supply device 60 supplies power to the oxygen discharge device in the absence of power supply from the commercial power supply 80,
Hospital oxygen supply, characterized in that the control to supply power to the oxygen discharge device 10 by operating the self-generator 70 when the charge amount detected by the charge remaining amount sensor 61 is detected below the set value. Device delete The method according to claim 2 or 3,
Further provided with a room temperature sensor for sensing the temperature of the room 30,
The temperature controller 17 receives a signal related to the temperature value measured by the room temperature sensor and adjusts the temperature of oxygen according to the temperature value of the hospital oxygen supply device In the hospital oxygen supply device for supplying oxygen to the hospital room (30) in the hospital,
An air filter 111 including a hepa filter 111a,
Sterilizer 112 for sterilizing the air passing through the air filter 111,
An oilless suction unit 113 for sucking and discharging air to generate air flow in the air filter 111 and the sterilizer 112;
A water filter 114 for removing water from the air discharged from the oilless inhaler 113,
An oxygen generating module 115 for removing oxygen from the air passing through the water filter 114 to discharge oxygen;
An oxygen storage 15 for storing and discharging oxygen discharged from the oxygen generating module 115;
A temperature controller 17 for adjusting a temperature of oxygen discharged from the oxygen storage 15 to a set temperature range;
A pressure regulator 16 for discharging by adjusting the pressure of oxygen discharged from the oxygen storage 15 to a set pressure range;
A commercial power sensor 82 for monitoring a state of commercial power supplied with power;
Hospital oxygen supply device characterized in that it comprises a rechargeable power supply or self-generator for supplying power to replace the commercial power when the commercial power sensor 82 detects that the commercial power is off.

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