KR100588260B1 - Oxygen generator which discharge flow rate of oxygen is increased - Google Patents

Abstract

The present invention provides an oxygen generator for supplying a high concentration of oxygen to the user by sucking the air in the room, the compression head portion to suck the external air through the external air suction pipe to compress the high pressure, and forcibly oxygen by using a pressure difference Compressor consisting of a pressure reducing head portion to suck; A membrane, the front side of which is installed in communication with the compression head portion and the rear side of the membrane that is in communication with the pressure reducing head portion to separate oxygen from the pressurized compressed air while passing through the compressor; And an oxygen discharge flow rate increasing tube having an external air suction pipe and the front side of the membrane communicated with each other so that a part of the external air flows into the front side of the membrane, and an air volume control valve is provided on the flow path of the external air. do. The oxygen generator which increases the oxygen discharge flow rate can increase the oxygen generation flow rate to minimize pipeline friction and reduce the compression load.

Oxygen generator, compressor, membrane, pressurization, decompression, air, nitrogen, oxygen, pressure

Description

Oxygen generator which discharge flow rate of oxygen is increased}

Figure 1a is a block diagram showing a schematic configuration of a conventional oxygen generator of the pressurization method.

Figure 1b is a block diagram showing a schematic configuration of a conventional oxygen generator of the pressurization / pressure reduction method.

Figure 2 is a block diagram showing a schematic configuration of the oxygen generator to increase the oxygen discharge flow rate of the pressurization / pressure reduction method according to the present invention.

* Description of the symbols for the main parts of the drawings *

110: compressor 111: compression head portion

112: pressure reducing head portion 120: membrane

201: external air suction pipe 202: compressed air pipe

203: oxygen suction tube 204: oxygen discharge tube

205: nitrogen discharge pipe 130: oxygen discharge flow increase pipe

135: air volume control valve

The present invention relates to an oxygen generator using a membrane, and to an oxygen generator having an increased oxygen discharge flow rate that can increase the oxygen generation flow rate to minimize the pipeline friction on the discharge port side and reduce the compression load.

Figure 1a is a block diagram showing a schematic configuration of a conventional pressure type oxygen generator, Figure 1b is a block diagram showing a schematic configuration of a conventional pressure / pressure reduction oxygen generator.

In general, the conventional oxygen generator, as shown in Figure 1a, a method for generating oxygen by pressurizing the compressed air generated by using the compressor 11 to the front side of the membrane 21, and as shown in Figure 1b Similarly, there is a method of generating oxygen by applying a vacuum pressure to the front side of the membrane 22 which blows compressed air by using the compressor 12 and the rear side where oxygen is generated.

However, in order to increase the oxygen concentration and the flow rate generated by the high pressure and the large flow rate, the large compressors 11 and 12 are required due to the characteristics of the membranes 21 and 22.

First, the membrane-type oxygen generation method using the pressurization method is based on the characteristics of the membrane 21 that selectively transmits oxygen only by using the pressure difference generated at both ends of the membrane 21. The larger the pressure difference, the larger the oxygen generation concentration and The flow rate is increasing.

Next, the oxygen generation method of the pressurization / decompression method is a recently used method to suck the pressurized air to the front end of the membrane 22, and to force oxygen by using the decompression compressor 12 to the rear side where oxygen is discharged. It's a way of sucking.

On the other hand, in the case of the pressurized oxygen generator using the membrane 21, the pressure and the flow rate generated by the compressor 11 has a close relationship with the performance of the membrane 21. Compressor 11 is characterized in that the increase in pressure and the flow rate is inversely proportional to each other, so that when the compression pressure is increased, the flow rate of the air is reduced, and the compression pressure is reduced to increase the air flow rate. Therefore, in order to construct an oxygen generator that produces better performance, a compressor 11 having a larger capacity must be selected.

In addition, the method of using compression and vacuum together increases the pressure difference by forcing the compression pressure and the vacuum pressure to be applied to both ends of the membrane 22 as described in the overseas papers, and the oxygen concentration is higher than the pressurized method. And flow rate is large. However, in the case of the pressurization / decompression method, there is a problem that the discharge flow rate is significantly lowered because the pressure energy of the discharged oxygen is low and reacts sensitively to the duct friction.

The present invention has been made to solve the conventional problems as described above, by pressing the front side of the membrane using the oxygen generation method and at the same time by introducing uncompressed external air into the membrane to generate oxygen of the compressor By increasing the flow rate by using the pressure reducing head part, the oxygen generator which has increased the oxygen discharge flow rate to increase the oxygen generation flow rate to minimize the pipeline friction on the discharge port side and reduce the compression load of the compressor even if the oxygen concentration decreases to some extent. To provide.

According to an aspect of the present invention for achieving the above object, in the oxygen generator for sucking the air in the room to supply a high concentration of oxygen to the user, by sucking the outside air through the external air suction pipe 201 to compress the high pressure A compressor 110 including a compression head 111 and a pressure reducing head 112 for forcibly inhaling oxygen by using a pressure difference; The front side is installed in communication with the compression head 111, the rear side is installed in communication with the pressure reducing head 112, the membrane for separating oxygen from the pressurized compressed air while passing through the compressor (110) 120); And an external air suction pipe 201 and a front side of the membrane 120 communicate with each other so that a part of the external air flows into the front side of the membrane 120, and an air volume control valve 135 is provided on the flow path of the external air. It provides an oxygen generator with an increased oxygen discharge flow rate, characterized in that it comprises an oxygen discharge flow rate increasing tube (130).

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Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment of the present invention.

Figure 2 is a block diagram showing a schematic configuration of the oxygen generator to increase the oxygen discharge flow rate of the pressurization / pressure reduction method according to the present invention.

As shown, the oxygen generator with increased oxygen discharge flow rate according to the present invention is a device for increasing the concentration of oxygen by inhaling the outside air by using the compressor 110, passing through the membrane 120, the compressor ( 110, a membrane 120, and an oxygen discharge flow increase tube 130.

Compressor 110 is a two-head compressor (110) consisting of a compression head portion 111 and a pressure reducing head portion 112, the compression head portion 111 is the air outside the room consisting of oxygen and nitrogen and a number of components While inhaling and compressing at high pressure, the decompression head 112 communicates with the oxygen outlet side of the membrane 120 to be described later, and decompresses and separates the separated oxygen while passing through the membrane 120 to discharge into the room.

On the other hand, the compression head 111 is provided with an external air suction pipe 201 for sucking external air, and a compressed air engine 202 through which the compressed air is discharged after passing through the compression head 111. The decompression head part 112 supplies an oxygen suction pipe 203 through which the oxygen discharged after passing through the membrane 120 to be described below is sucked by the vacuum pressure, and oxygen sucked through the decompression head part 112 to the room. An oxygen discharge pipe 204 is provided.

In addition, one end of the oxygen discharge pipe 204 is installed in communication with the decompression head 112 of the compressor 110, and the other end is installed to be exposed to the outside, that is, a predetermined point or room side where oxygen is required, so that the membrane 120 It supplies a high concentration of oxygen permeated while passing through).

The front side of the membrane 120 is connected through the compressed air pipe 202 to communicate with the compression head 111 of the compressor 110 to suck compressed air, and sucked into the membrane 120. Oxygen is selectively separated from the air. The membrane 120 is formed in a thin film form, and then selectively absorbs oxygen contained in the air by using a pressure difference by the pressure reducing head 112 of the compressor 110.

On the other hand, the rear side of the membrane 120 is connected to the decompression head portion 112 of the compressor 110 through the oxygen suction pipe 203 forcibly discharges oxygen separated by the pressure difference. In addition, nitrogen or the remaining components separated while passing through the membrane 120 are discharged through the nitrogen discharge pipe 205 provided on the rear side of the membrane 120.

In addition, the oxygen discharge flow rate increasing tube 130 is provided so that the front sides of the external air suction pipe 201 and the membrane 120 are in communication with each other, a part of the external air sucked through the external air suction pipe 201, and a very small amount of the membrane 120. Inflow to the front of the). At this time, the oxygen discharge flow rate increasing tube 130 and the oxygen suction pipe 203 for generating oxygen is in communication with each other in the structure of the membrane 120, the vacuum of the decompression head 112 of the compressor 110 By inhaling the external air introduced through the oxygen discharge flow increase tube 130 by a relatively high flow rate, the concentration of oxygen discharged to the oxygen discharge tube 204 due to the increase in the amount of air other than oxygen caused by the inflow of external air is increased. Although it may be reduced in part, the discharge flow rate of the oxygen discharged to the oxygen discharge pipe 204 may be relatively increased as compared with the related art.

The oxygen discharge flow rate increasing pipe 130 may be provided with an air amount control valve 135 to adjust the external air amount sucked through the oxygen discharge flow rate increasing pipe 130.

The operation of the oxygen generator with increased oxygen discharge flow rate according to the present invention of this configuration is as follows.

That is, when the user operates the oxygen generator, indoor air is sucked into the compression head 111 of the compressor 110. The air introduced in this way is compressed at high pressure through the compression air pipe 202 and passes through the membrane 120, and the pressure difference between the compression pressure on the front side of the membrane 120 and the vacuum pressure on the rear side of the membrane 120 is different from oxygen. The components are filtered out and only pure oxygen undergoes a process of dissolution and diffusion to obtain concentrated oxygen. Only this concentrated oxygen flows into the decompression head portion 112 of the compressor 110 through the oxygen suction pipe 203. Thereafter, only the separated high concentration of oxygen is supplied to the room through the oxygen discharge pipe 204, and the separated nitrogen or the remaining components are discharged through the nitrogen discharge pipe 205 provided at the rear side of the membrane 120.

Meanwhile, at the same time as the above-described oxygen generation process, a part of the external air introduced through the external air suction pipe 201 is supplied to the membrane 120 through the oxygen discharge flow increase tube 130. At this time, the supplied external air increases the flow rate of the oxygen discharged while passing through the membrane 120 at a high speed due to the pressure difference with the pressure reducing head 112 of the compressor 110. Of course, the concentration of the discharged oxygen is slightly reduced, but also increases the flow rate of the discharged oxygen and at the same time significantly reduces the compression load on the compressor 110. In addition, the pressure energy of the discharged oxygen is also increased to reduce the resistance due to pipeline friction.

Accordingly, the compressor 110 supplies the compressed air to the front side of the membrane 120 while passing through the compressor 110 by utilizing the conventional method of generating pressurized / decompressed oxygen and simultaneously compresses external air that is not compressed to the membrane 120. A very small amount is sucked using the decompression head 112 of. As a result, the oxygen discharged finally solves the problem that the flow rate decreases rapidly by the duct friction, and a part of the uncompressed external air flows into the membrane 120 to smooth the air flow inside the membrane 120. Therefore, the load of the compressor 110 is remarkably reduced, and thus the same effect can be obtained even without replacing the compressor 110.

 As described above, the present invention utilizes a conventional method of oxygen generation by pressing the front side of the membrane and inhaling uncompressed external air to the membrane where oxygen is generated to use the pressure reducing head of the compressor and the pressure difference, Although the concentration of oxygen decreases to some extent, it is a very excellent invention that can increase the oxygen generation flow rate to minimize the pipeline friction on the discharge port side and reduce the compression load of the compressor.

In the above, the present invention has been described with reference to the accompanying drawings, preferred embodiments of the present invention, but not limited to the various forms within the scope of the technical idea described in the following claims by those skilled in the art to which the present invention pertains Of course, the deformation can be carried out.

Claims (2)

In the oxygen generator for supplying a high concentration of oxygen to the user by sucking the air in the room, A compressor including a compression head part for sucking external air through the external air suction pipe and compressing the same to high pressure, and a pressure reducing head part forcibly inhaling oxygen by using a pressure difference; A membrane, the front side of which is installed in communication with the compression head portion and the rear side of the membrane that is in communication with the pressure reducing head portion to separate oxygen from the pressurized compressed air while passing through the compressor; And It characterized in that it comprises an oxygen discharge flow rate increasing pipe which is installed in communication with the external air suction pipe and the front side of the membrane so that a portion of the external air flows into the front side of the membrane and the air volume control valve is provided on the flow path of the external air. Oxygen generator with increased oxygen discharge flow rate. delete

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