KR101589253B1 - Oxygen generator equipped with dehumidifiers - Google Patents

Abstract

The present invention relates to an oxygen generator having a dehumidifier, and more particularly, to an oxygen generator having a dehumidifier, which removes moisture contained in the compressed air before introducing the compressed air toward the adsorbed bed filled with the zeolite, compresses the dried air, And the oxygen generating ability can be improved by preventing the performance of the zeolite from being deteriorated due to the introduction into the housing, A dehumidifying means provided in the upper part of the inner side of the housing for discharging moisture contained in the air introduced through the outside air inlet hole formed on one side of the housing to the dry air discharging portion formed on the other side; A dry air supply hose, one end of which is connected to the dry air discharge port of the means, A compressor installed at one side of the compressor and adapted to supply the compressed dry air supplied from the compressor to the compressed dry air supply hose, And oxygen generating means provided with a plurality of adsorbing beds filled with zeolite as an adsorbent so that nitrogen can be adsorbed and adsorbed by sequential inflow through control means for control panel.

Description

TECHNICAL FIELD [0001] The present invention relates to an oxygen generator equipped with a dehumidifier,

The present invention relates to an oxygen generator having a dehumidifier. More particularly, the present invention relates to an oxygen generator equipped with a dehumidifier, and more particularly, to a dehumidifier that removes moisture contained in compressed air before introducing compressed air toward the adsorbed bed filled with zeolite, The present invention relates to an oxygen generator equipped with a dehumidifier capable of preventing the performance of a zeolite from being deteriorated due to introduction of a dehumidifier into a bad side.

As is known, conventional oxygen generators generate oxygen through pressure swing adsorption (PSA), commonly referred to as the third step.

That is, in the general oxygen generating apparatus described above, oxygen is generated using one air compressor and two adsorption towers. Air compressed by the air compressor is alternately introduced into two adsorption towers, and two adsorption beds (Adsorption tower), the pressure fluctuates inside the adsorption bed, and the zeolite charged in the adsorption bed adsorbs nitrogen, thereby separating (desorbing) nitrogen from oxygen, thereby generating oxygen do.

In this pressure cyclic adsorption process, the gas is separated and concentrated using the difference in the adsorption amount of the adsorbent mounted on the adsorbing bed, that is, the adsorbed gas on the zeolite, so that only the compressed air and the adsorbent are used, And it has been widely used for medical process since long ago because it is easy to use.

The oxygen generating apparatus of the general pressure circulation adsorption system includes an intake filter provided at an inlet side of the air for sucking in air to filter intake air, an intake silencer for preventing noise at the time of intake, A compressor for compressing the compressed air at a pressure of 2.2 kgf / m 2 to 2.5 kgf / m 2 capable of generating a high pressure, that is, a desired oxygen, and two branch lines for alternately distributing compressed air in the compressor, A plurality of adsorbing beds for adsorbing nitrogen, a needle valve for supplying a predetermined amount of concentrated oxygen, an exhaust muffler for preventing noise generated during nitrogen purge, and a plurality of adsorption beds And a control device for controlling the opening and closing operations of the solenoid valves, the air compressor, and the like.

However, since the oxygen generating apparatus of the conventional pressure circulation adsorption system generates oxygen by using the high pressure as described above, there is a problem that the generation of noise is serious, the failure of the compressor is accelerated, .

In addition, since the oxygen generating apparatus of the conventional pressure circulation adsorption system generates oxygen by using the high pressure as described above, there is a problem that the solenoid valve is easily broken.

As described above, in the conventional oxygen pressure generating apparatus of the pressure circulation adsorption type, the intake air filter installed at the inlet side where the atmospheric air is sucked is required to be replaced over time, There is a problem in that the conventional oxygen generating device is continuously operated while the user does not cut off the power, so that the compressor is quickly damaged and the device is quickly broken .

In view of this point, the present applicant has filed an application for an oxygen generator in Patent Application No. 10-2010-0108181 on Nov. 02, 2010.

The conventional oxygen generating device includes a housing provided with a power switch on one side thereof and a noise preventing cover provided on one side of the inner bottom surface of the housing so as to be drivable on the bottom surface and the top surface, A compressor mounted on the upper surface of a fixing bracket provided on one side of the noise preventing lid covering the compressor to compress air sucked through the outside air sucking filter to a low pressure; Oxygen generating means having a plurality of adsorbing beds which are arranged so as to allow oxygen to be adsorbed by adsorbing nitrogen by sequentially introducing the adsorbing beds by control means for the control panel; And a control unit provided so as to be able to control the control means for the control panel, Wherein the oxygen generating means comprises an inlet connected to the other end of the hose at a central portion of the upper surface thereof for introducing low pressure compressed air supplied from the compressor through a hose connected to the outlet of the compressor, A cover for an oxygen discharge chamber provided with a discharge port for discharging oxygen; a discharge port for discharging oxygen; and a discharge port for discharging oxygen, wherein a cover for the oxygen discharge chamber is provided, one end of which is fixedly connected to the inflow port on the bottom surface of the oxygen discharge chamber, A guide pipe provided in proximity to the compressed air rotating member and provided for guiding the compressed air, and a lid part for the oxygen discharge chamber being fixed to the center of the upper surface so as to prevent leakage, An oxygen exhausting chamber in which the through hole is perforated at the central portion is formed, and one end of the adsorbing layer is leaked A plurality of receiving protrusions are formed on the bottom surface of the upper surface except for the oxygen discharging chamber to guide the oxygen to the oxygen discharging chamber side by communicating the insertion groove with the oxygen discharging chamber, And an adsorbent for adsorbing nitrogen in the low-pressure compressed air introduced into the inside of the upper connecting member and the plurality of insertion grooves, A through hole is formed in the center portion so as to penetrate the other end of the guide tube by inserting the other ends of the plurality of adsorption beds, respectively, and a plurality of suction beds Wherein a bottom surface of the fitting groove is formed with a plurality of grooves A plurality of compressed air guide paths are formed on the bottom surface except for the storage part so as to supply the compressed air introduced into the storage part to the fitting groove side, A lower connecting member communicating with the fitting groove and having a plurality of nitrogen discharge holes formed therein for automatically discharging nitrogen adsorbed by the adsorbing bed after the generation of oxygen by an internal pressure change; A rotary member for compressed air provided rotatably so as to sequentially introduce the compressed air introduced through the guide pipe into the suction bed side in the vicinity of the other end of the guide pipe piped through the fixing bracket, Thereby being driven in correspondence with the control of the control unit It consists of a control panel for the control means which is provided to rotate the group of compressed air rotating member.

However, in the conventional general oxygen generating apparatus constructed as above, since the air compressed by the air compressor flows into the adsorption bed as described above, the pressure fluctuates and the zeolite filled in the adsorption bed, (Desorption) of nitrogen by adsorbing nitrogen (adsorbed nitrogen), oxygen is generated. Compressed air flowing into the adsorbing bed contains moisture, so that the zeolite, which is vulnerable to moisture (moisture) The oxygen generating ability is inferior.

Patent Application No. 10-2010-0108181, filing date; November 02, 2010 Title: Oxygen generator

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a zeolite-adsorbing bed which absorbs moisture contained in compressed air, And an object of the present invention is to provide an oxygen generator equipped with a dehumidifier capable of preventing deterioration of the performance of the zeolite due to introduction of the dehumidifier.

Other objects of the present invention will become apparent as the description proceeds.

According to an aspect of the present invention, there is provided an oxygen generator including a dehumidifier, wherein the oxygen generator comprises: an outer air inflow hole formed in a lower portion of the inner side of the housing or an outer side of the housing, A dehumidifying means provided in the upper part of the inner side of the housing and connected to the dry air discharging part of the dehumidifying means so that one end thereof is connected to the drying air discharging part A compressor which is disposed on a loudspeaker for covering the dry air supplied from the dry air supply hose through a filter unit so as to be compressed at a low pressure so as to be supplied; The control means for the control panel, And a plurality of adsorbing beds filled with zeolite, which is an adsorbent, for adsorbing nitrogen by adsorbing nitrogen to the dehumidifying unit, wherein the dehumidifying unit is installed on the rear side of the upper surface, And a dehumidifying case provided with a dry air discharging part connected to the dry air supplying hose at the upper part of the other side and a drain hole formed at the bottom of the other side, A dehumidifying refrigerant compressor provided at a front side of the upper surface of the fixing plate so as to be able to compress the refrigerant by driving under the control of the control unit and a dehumidifying case provided on the upper surface of the dehumidifying fixing plate, When the outside air flowing through the outside air inlet hole is flowing, the moisture contained in the outside air A dehumidifying condenser provided at one side of the dehumidifying refrigerant compressor to vaporize the refrigerant passing through the expansion valve through a condensing tube of the dehumidifying condenser, And a dehumidifying evaporator provided so as to be capable of being supplied to the compressor side.

In addition, the inside of the dehumidifying case is further provided with a dehumidifying diaphragm in the lateral direction so that the outside air inflow hole and the drying air discharging portion are located in different spaces, and the dehumidifying diaphragm is contacted with the dehumidifying condenser, A plurality of through-holes for supplying dry air are pierced so as to allow the dry air to flow into the drying air discharge unit, and one end thereof is connected to the dehumidifying condenser and the other end is connected to the outside of the dehumidifying case The dehumidifying auxiliary air is supplied to the dehumidifying auxiliary valve so that the dry air dehumidified through the plurality of through holes for supplying dry air, which is connected to the expansion valve, And a condensing portion is installed.

As described above, according to the oxygen generator equipped with the dehumidifier according to the present invention, the moisture contained in the compressed air is removed before the compressed air is introduced into the adsorbing bed filled with the zeolite to compress the dried air, It is possible to prevent the degradation of the performance of the zeolite due to the introduction into the bed side, thereby improving the oxygen generating ability.

1 is a view showing an oxygen generator equipped with a dehumidifier according to the present invention.
2 is a view showing dehumidifying means of an oxygen generating apparatus equipped with a dehumidifier according to the present invention.

Hereinafter, an oxygen generator equipped with a dehumidifier according to an embodiment of the present invention will be described in detail.

First, it should be noted that, in the drawings, the same components or parts have the same reference numerals as much as possible. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as not to obscure the gist of the invention.

As shown in the figure, the oxygen generator equipped with the dehumidifier according to the present invention is provided with a dehumidifying device for dehumidifying air supplied to a compressor and supplying compressed air at a low pressure to a adsorbing bed filled with an adsorbent (zeolite) The performance of the zeolite which is vulnerable to moisture can be prevented from deteriorating, so that the oxygen generating ability can be improved.

That is, the oxygen generating apparatus 100 provided with the dehumidifier according to the present invention may be installed at a lower side of the inside of the housing 110 or outside the housing 110, and may be operated corresponding to the control of the controller 120 A dehumidifying means 130 for removing moisture contained in the air introduced through the outside air inlet hole 132a formed on the side and discharging the moisture to the dry air outlet 132b formed on the other side, The drying air supplied from the dry air supply hose 141 connected at one end to the dry air discharge portion 132b of the dehumidifying means 130 is filtered through the filter portion 142 to be discharged at a low pressure (Not shown) which is covered by a loudspeaker 140 so as to be able to supply compressed air, compressed dry air supplied from a compressor located at one side of the compressor, is supplied through a compressed dry air supply hose 151, And oxygen generating means 150 provided with a plurality of adsorption beds 152 filled with zeolite, which is an adsorbent, so that nitrogen can be adsorbed by sequential introduction by control means (not shown) .

Here, the oxygen discharge filter 160 is further provided on the discharge hose, one end of which is connected to the discharge port of the oxygen generating means 150, so as to filter and discharge fine dust generated when oxygen is generated.

In addition, the control unit 120 is configured to be restartable after stopping for 30 minutes per unit of 2 hours in order to extend the service life of the compressor and protect the oxygen generator.

The control unit 120 controls the amount of oxygen generated by the oxygen generating device 120 due to the deterioration of the outside air suction filter 142 and the oxygen exhausting filter 160 in correspondence with the driving time (6,000 hours to 9,000 hours) So that the power supply can be shut off to protect the power supply 100.

Hereinafter, the oxygen generator equipped with the dehumidifier according to the present invention will be described in detail with reference to the accompanying drawings.

1, the housing 110 of the oxygen generator 100 according to the present invention includes a plurality of legs (not shown) capable of adjusting the height of the bottom surface thereof, and a dehumidifying unit 130 And a compressor installed in the upper and lower ends thereof so as to be able to install the compressor and the compressor in order, and a mounting table (112) having a side surface of the mounting table (112) And an air flow grille for air flow is formed on the rear surface of the air flow grille. On the lower side of the air flow grille, a wiring hole for wiring the power supply line and a nozzle for oxygen discharge And a case 113 having a fixing hole for fixing the power switch.

As shown in FIGS. 1 and 2, the dehumidifying unit 130 is installed on one side of the upper surface of the seat 111 of the housing 110, and is driven in accordance with the control of the controller 120 to introduce air To remove the moisture contained in the air and to supply the air to the compressor through the filter unit 142.

That is, the dehumidifying means 130 is fixed to the lower part of the seating plate 111 of the seating table 112. At the rear side of the upper surface, an outside air inflow hole 132a, And a dehumidifying case 132 having a dry air discharge part 132b connected to the dry air supply hose 141 and a drain hole (not shown) A dehumidifying refrigerant compressor 133 provided at a front side of the upper surface of the dehumidifying fixing plate 131 to be able to compress the refrigerant by being driven under the control of the controller 120, And is connected to the dehumidifying case 132 provided on the upper surface of the fixing plate 131 for condensation so as to remove the moisture contained in the outside air while the outside air flowing through the outside air inlet hole 132a flows, Only the dry air is supplied to the discharge portion 132b side A condenser for dehumidification 134 provided for the dehumidifying refrigerant compressor 133 and a condenser provided for the dehumidifying condenser 134 for vaporizing the refrigerant passing through the expansion valve And a dehumidifying evaporator 135 provided so as to be capable of being supplied to the dehumidifying refrigerant compressor 133 side.

A dehumidifying diaphragm 136 is further installed in the interior of the dehumidifying case 132 so that the outside air inflow hole 132a and the dry air discharging portion 132b are located in different spaces. A plurality of dry air supply through holes 136a are formed in the use partition plate 136 so as to contact the dehumidifier condenser 134 to discharge dry air from which moisture has been removed into the dry air discharge unit 132b side The dehumidifying diaphragm 136 is connected to an expansion valve whose one end is connected to the dehumidifying condenser 134 and the other end is disposed outside the dehumidifying case 132, A dehumidifying auxiliary condenser 137 is provided so that the dehumidified dry air is continuously discharged through the through-hole 136a for drying air while being discharged to the dry air discharger 132b side Respectively.

1, the compressor is fixedly installed on one side of the interior of the housing 110, that is, on the upper surface of the seating plate 111, and one end is connected to the drying air discharge portion 132b of the dehumidifying means 130 The drying air supplied from the drying air supply hose 141 is filtered through the filter unit 142 and compressed to a low pressure so as to be supplied.

That is, the compressor described above is mounted on the upper surface of the seating plate 111 of the housing 110 so as to prevent noise by a loudspeaker 140 to be driven in response to the control of the controller 120, to filter the dry air to be supplied from the one end is connected to the dry air supply hose 141, a dry air outlet portion (132b) through a filter 142 that is a low pressure, 0.8kgf / m² ~ compression of the low pressure of 1.4kgf / m ² And is capable of supplying dry air to the oxygen generating means 150 side.

Here, the loudspeaker 140 may include a mounting hole (not shown) for mounting a transmission fan for discharging heat generated when the compressor is driven, the lower surface of the lid 140 covers the compressor, And a bottom surface is fixed to the upper surface of the seating plate 111 through a plurality of screws.

1, the oxygen generating means 150 includes a plurality of zeolite-packed zeolite-filled oxygen-containing gas generating means 150, which is controlled by a control means for control plate for driving the low-pressure compressed dry air supplied from the compressor in accordance with the control of the controller 120 And the oxygen generating means 150 is constructed to be capable of generating oxygen and being able to be discharged to the room side. The oxygen generating means 150 described above is a patent application filed by the present applicant with a patent application No. 10-2010-0108181 And a detailed description thereof will be omitted below.

Meanwhile, since the dehumidified dry air is introduced into the oxygen generating means 150 by the dehumidifying means 130, the performance of the zeolite which is vulnerable to moisture can be prevented from being lowered, and a large amount of oxygen can be generated.

1 and 2, when the oxygen generator is controlled by controlling the control unit of the oxygen generator having the dehumidifier according to the present invention, The apparatus is driven under the control of the control unit so as to correspond to turning on the power switch provided on the control unit.

That is, a compressor for producing low-pressure compressed air, which is mounted on the dehumidifying refrigerant compressor of the dehumidifying means 130 and the loudspeaker 140, corresponding to the above-mentioned power switch being turned on, The driving motor of the control means for the control panel mounted on the discharge fan and the blower fan installed on the upper surface and the lower surface of the lid 140 and the fixing bracket provided on the one side of the noise preventing lid 140 is driven.

The outside air is introduced through the outside air inflow hole 132a formed in the dehumidifying case 132 of the dehumidifying means 130 by driving the compressor.

The outside air introduced through the outside air inlet hole 132a comes into contact with the dehumidifying condenser 134 installed in the dehumidifying case 132 of the dehumidifying unit so that the moisture contained in the outside air is removed, 141 are connected to the drying air discharge portion 132b side.

The dry air discharged to the dry air discharge unit 132b is supplied to the compressor through the dry air supply hose 141 and the filter unit 142. [

The dry air supplied to the compressor is made of compressed dry air at a low pressure of 0.9 kgf / m 2 by a compressor, and the produced low-pressure compressed dry air is supplied through an hose connected to an outlet through an oxygen generating means 150 to the adsorbing bed 152 side.

Nitrogen is adsorbed by the adsorbent (zeolite) filled in the adsorbing bed 152, so that only a large amount of oxygen is discharged through the outlet, and the adsorbed bed (152) 110 through the oxygen discharge nozzle provided at one side of the lower side of the rear surface.

That is, since the performance of the adsorbent (zeolite) charged in the adsorbing bed 152 vulnerable to moisture is not lowered by the supply of the compressed dry air, the adsorption rate of nitrogen is increased by the adsorbent, And discharged through a discharge nozzle.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100; Oxygen generator with dehumidifier
110; housing
120; The control unit
130; Dehumidifying means
140; Noise-
150; Oxygen generating means
160; Filter for oxygen discharge

Claims (2)

In an oxygen generator equipped with a dehumidifier,
The moisture contained in the air introduced through the outside air inlet hole 132a formed in one side of the housing 110 or the outside of the housing 110 in accordance with the control of the control unit 120, A dehumidifying means (130) provided to discharge the air to the drying air discharging portion (132b) formed on the other side;
The drying air supplied from the dry air supply hose 141 connected to the dry air discharge portion 132b of the dehumidifying means 130 and connected to the dry air discharge hose 141 at one side of the inside of the housing 110 is supplied through the filter portion 142 A compressor which is covered by a noise preventing cover 140 so as to be supplied by being filtered and compressed at a low pressure;
The compressed dry air supplied from the compressor is introduced into the compressor through the compressed dry air supply hose 151 in sequence by the control means for the control panel so that the adsorbent zeolite And oxygen generating means 150 equipped with a plurality of adsorption beds 152,
The dehumidifying means 130 is installed at the rear side of the upper surface and has an outside air inflow hole 132a at one side thereof and a drying air supply hose 141 at the other side thereof. A dehumidifying fixing plate 131 provided with a dry air discharging portion 132b and a dehumidifying case 132 having a drain hole formed on a bottom surface thereof and a fixing plate 131 provided on a front side of the upper surface of the dehumidifying fixing plate 131 A refrigerant compressor 133 for dehumidifying which is driven by the control of the control unit 120 so as to compress the refrigerant and a dehumidifying case 132 provided on the upper surface of the dehumidifying fixing plate 131, A condenser 134 for dehumidifying, which is connected to the outside air inlet 132a through the outside air inflow hole 132a to remove moisture contained in the outside air and to supply only dry air to the dry air outlet 132b, ), And phase A dehumidifying evaporator 135 provided at one side of the dehumidifying refrigerant compressor 133 and capable of supplying a refrigerant passing through the expansion valve through the condensing tube of the dehumidifying condenser 134 to the dehumidifying refrigerant compressor 133 ),
The dehumidifying case 132 is further provided with a dehumidifying diaphragm 136 in the lateral direction so that the outside air inlet hole 132a and the dry air discharging portion 132b are located in different spaces, A plurality of through holes 136a for supplying dry air are drilled to contact the dehumidifying condenser 134 to discharge the dehumidified dry air to the dry air discharge portion 132b side, One end of the dehumidifying partition plate 136 is connected to a dehumidifying condenser 134 and the other end of the dehumidification partition plate 136 is connected to an expansion valve installed outside the dehumidification case 132, A dehumidifying auxiliary condenser 137 is provided so as to be able to continuously discharge dry air while discharging the dehumidified dry air through the air supply through hole 136a to the dry air discharge portion 132b side Wherein the dehumidifier Saint devices. delete

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