KR101200387B1 - Oxygen producing apparatus - Google Patents

Abstract

The present invention relates to an oxygen generating device, the object of which is to generate oxygen at a low pressure pressure circulation adsorption type oxygen generating device, the noise generated by driving the device is small, and the compressor is driven due to the low pressure In addition to extending the service life, the solenoid valve due to the low pressure is unnecessary, which reduces the manufacturing cost and stops the operation of the oxygen generator according to the replacement time of the intake filter. In addition, it is possible to extend the life of the compressor by stopping the device, and the object is to provide a housing equipped with a power switch on one side, and a discharge fan and a blower fan on the bottom side of the inner side of the housing Power supply to the noise prevention cover part installed on the bottom and top Correspondingly, the compressor is provided to be driven to compress the air sucked through the outside air intake filter at low pressure, and the compressed air is supplied from the compressor to be mounted on the upper surface of the fixing bracket provided on one side of the noise prevention cover part covering the compressor. The oxygen generating means having a plurality of adsorption beds provided to adsorb nitrogen to sequentially discharge the oxygen by the control means for the control panel so as to discharge the oxygen, the fan and the compressor for the discharge and the blower corresponding to the operation of the power switch; It is achieved by including a control unit provided to control the control means for the control panel.

Description

Oxygen generating apparatus

The present invention relates to an oxygen generating device, and more particularly, by allowing oxygen to be generated at low pressure, the noise is small when driving the device for oxygen generation, and the device can be driven at low pressure, thereby extending the life of the device. The present invention relates to an oxygen generator that allows for the elimination of components such as solenoids, as well as for the purpose of this.

 As is known, a general oxygen generator generates oxygen through a pressure swing adsorption (PSA) process, commonly referred to as three stages.

That is, the above-mentioned general oxygen generator generates oxygen by using one air compressor and two adsorption towers, and the air compressed by the air compressor alternately flows into the two adsorption towers, and the two adsorption beds ( As the pressure changes in the adsorption bed in the process of alternating inflow into the adsorption tower, zeolite filled in the adsorption bed adsorbs nitrogen and thereby causes oxygen to be generated by separating (desorption) nitrogen from oxygen. do.

In this pressure-circulating adsorption, the process of separating and condensing the gas using the difference in the amount of adsorption adsorbed on the adsorption bed, that is, the gas adsorbed on the zeolite, depends on the pressure. It is easy to use and has been widely used in medical processes for a long time.

The oxygen generator of the general pressure circulation adsorption method is provided at an inlet side through which air in the air is sucked, an intake filter for filtering intake air, an intake silencer for preventing noise during inhalation, and sucked air. A compressor that compresses at a high pressure of 2.2kgf / m² to 2.5kgf / m² capable of generating the desired oxygen, and is connected to two branching lines to alternately distribute the compressed air from the compressor A plurality of adsorption beds for adsorbing nitrogen by incorporating nitrogen adsorption means, a needle valve for supplying a certain amount of concentrated oxygen, an exhaust silencer for preventing noise generated when nitrogen is cleaned inside, and a plurality of lower adsorption beds And a control device for controlling the opening and closing operations of the solenoid valves and the air compressor.

However, since the oxygen generator of the conventional general pressure circulation adsorption method generates oxygen by using a high pressure as described above, the noise is severe and the failure of the compressor is accelerated, resulting in a high cost for post-management. There was this.

In addition, the oxygen generator of the conventional general pressure circulation adsorption method generates oxygen using a high pressure as described above, so that a failure of the solenoid valve is easily caused.

In addition, in the conventional general oxygen pressure circulation adsorption system, as described above, the intake filter installed at the inlet side where air in the air is inhaled should be replaced over time, but this cannot be known periodically. In addition to the inconvenience, the conventional oxygen generating device is operated once, the user is continuously driven while the power is not shut off, so the compressor is damaged quickly and thereby the device is broken quickly.

Accordingly, the present invention has been made in order to solve the above problems, by configuring a pressure-circulating adsorption type oxygen generator to enable the generation of oxygen at low pressure (0.8kgf / m² ~ 1.4kgf / m ² ), thereby driving the device It is an object of the present invention to provide an oxygen generator which can reduce the noise generated by the low pressure, and also can extend the driving life of the compressor due to the low pressure, and can reduce the manufacturing cost by eliminating the solenoid valve due to the low pressure.

In addition, another object of the present invention devised to solve the above-mentioned problem is that by configuring to stop the operation of the oxygen generator according to the replacement timing of the intake filter provided on the inlet side where the air in the air is sucked, The present invention provides an oxygen generator that enables the user to use the device conveniently and also stops the device, thereby extending the life of the compressor.

The present invention for achieving the above object, in the oxygen generating device, the housing is provided with a power switch on one side, and the discharge fan and the blowing fan on the bottom side of the inner side of the housing is installed to be driven on the bottom and the top, respectively On the upper surface of the fixing bracket provided on one side of the compressor and the noise prevention cover portion covering the compressor to be driven to compress the air sucked through the outside air suction filter at low pressure in response to the application of power to the noise prevention cover portion Oxygen generating means having a plurality of adsorption beds provided to adsorb nitrogen and discharge oxygen by sequentially introducing the compressed air, which is seated and supplied from the compressor, by the control means for the control panel, and responds to the operation of the power switch. To control the discharge and blowing fan, the compressor and the control means for the control panel. Characterized in that it comprises a control unit that is rain.

Here, an oxygen discharge filter is further provided to filter and discharge the fine dust generated when oxygen is generated on the discharge hose having one end connected to the outlet of the oxygen generating means.

In addition, the control unit is characterized in that it is configured to be restarted after a 30-minute stop every 2 hours to extend the life of the compressor and to protect the oxygen generator.

According to the oxygen generator according to the present invention as described above, by configuring the oxygen generator of the pressure circulation adsorption method to generate oxygen at a low pressure, the noise generated by driving the device is small, and due to the low pressure of the compressor In addition to extending the driving life, there is no need for a solenoid valve due to low pressure, thereby reducing the manufacturing cost.

In addition, according to the oxygen generator according to the present invention as described above, the user is more conveniently configured by stopping the operation of the oxygen generator according to the replacement time of the intake filter installed on the inlet side of the air intake air In addition to allowing the apparatus to be used, the apparatus is stopped, thereby extending the life of the compressor.

1 is a front perspective view showing an oxygen generator according to the present invention.
Figure 2 is a rear perspective view showing an oxygen generating apparatus according to the present invention.
Figure 3 is a front view showing the inside of the oxygen generator according to the present invention.
4 is a front exploded perspective view showing the oxygen generating means of the oxygen generating apparatus according to the present invention.
5 is a rear exploded perspective view showing the oxygen generating means of the oxygen generating apparatus according to the present invention.
Figure 6 is a cross-sectional view showing the oxygen generating means of the oxygen generating apparatus according to the present invention.

Hereinafter, an embodiment of the oxygen generator according to 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.

1 is a perspective view showing an oxygen generator according to the present invention, Figure 2 is a perspective view showing the inside of the oxygen generator according to the present invention, Figure 3 is an adsorption bed of the oxygen generator according to the present invention It is combined sectional drawing which shows a part.

As shown, the oxygen generating apparatus 100 according to the present invention includes a housing 110 having a power switch 118 on one surface thereof, and a discharge fan (not shown) on one side of the inner surface bottom of the housing 110. ) And a blowing fan (not shown) are driven to compress the air sucked through the outside air intake filter 122 at a low pressure to correspond to the application of power to the noise prevention cover 121 installed to be driven on the bottom and the top, respectively. Compressor (not shown) capable of being provided, and the control means for the control panel to control the compressed air supplied from the compressor is seated on the upper surface of the fixing bracket 136 provided on one side of the noise prevention cover portion 121 covering the compressor ( The oxygen generating means 130 having a plurality of adsorption beds 134 provided to discharge the oxygen by adsorbing nitrogen sequentially by the inlet 140 and discharged in correspondence to the operation of the power switch 118. And blowing And a control unit 150 provided to control the control fan 140 for the fan and the compressor.

Here, the oxygen discharge filter 160 is further provided to filter and discharge the fine dust generated when oxygen is generated on the discharge hose is connected to the discharge port (131c) of the oxygen generating means 130.

In addition, the control unit 150 is configured to be restartable after a 30-minute stop every 2 hours to extend the life of the compressor and protect the oxygen generator.

In addition, the control unit 150, the oxygen generating device due to the functional deterioration of the outside air suction filter 122 and the oxygen discharge filter 160 to correspond to the driving time (6,000 hours to 9000 hours) of the oxygen generator. It is configured to be able to turn off the power for protection of the 100.

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

First, the housing 110 of the oxygen generating apparatus 100 according to the present invention, as shown in Figures 1 and 2 is provided to accommodate the compressor, the oxygen generating means 130 and the control means for the control panel 140 do.

That is, the housing 110 has a seating stand 111 and a seating stand 111 provided with a plurality of leg portions 113 capable of height adjustment on the bottom surface and to be provided with a compressor and a fixing bracket on an upper surface thereof. The inner side of the receiving side is fixed via a plurality of screws through the media, both sides are formed with a handle portion 114 for transporting, the rear is an air flow grille 115 for the flow of air is formed, the On the lower side of the air flow grill section 115, a wiring hole for wiring the power line 116, a nozzle installation hole for installing the oxygen discharge nozzle 117, and a fixing hole for fixing the power switch 118 are fixed. It is composed of a case 112 is formed and provided.

As shown in FIG. 3, the compressor is installed in the housing 110 to be driven under the control of the controller 150 to compress the outside air into compressed air having low pressure so that the compressor can be supplied to the oxygen generating means 130. It is provided.

That is, the compressor is covered with a noise preventing cover part 121 on one side of the upper surface of the seating stand 111 of the housing 110 so as to prevent noise, and is driven in response to the control of the controller 150 at a low pressure, that is, 0.8 kgf. / m² ~ 1.4kgf / m ² It is provided to be able to supply a low pressure compressed air to the oxygen generating means 130 side.

Here, the noise preventing cover 121, the bottom surface is opened so as to block the noise to cover the compressor, the upper surface is an installation hole for installing a sending fan for discharging the heat generated when driving the compressor (not shown) It is formed in a pair is provided with a fixed bottom surface via a plurality of screws on one side of the upper surface of the seating 111.

The oxygen generating means 130 is sequentially by the control means for control panel 140 for driving the low-pressure compressed air supplied from the compressor corresponding to the control of the controller 150, as shown in Figures 3 to 6 As it is introduced into the adsorption bed 134 to generate oxygen to be discharged to the indoor side.

That is, the oxygen generating unit 130 is connected to the outlet (not shown) side of the compressor via a hose 131a connected at one end thereof so as to introduce low pressure compressed air supplied from the compressor into a central portion of the upper surface of the hose. An inlet 131b connected to the other end of the 131a and an outlet 131c for discharging oxygen at one side of the inlet are formed, and an oxygen discharge chamber cover part 131 and the oxygen discharge chamber cover part 131. One end is fixedly connected to the inlet (131b) on the bottom of the 131 and the other end is installed close to the compressed air rotating member 137 rotatably provided by the control means for control panel 140 in the fixed bracket compressed air Guide tube 132 provided to guide the through and guide tube 132 through the central portion by being fixed to prevent the leakage through the plurality of screws through the upper portion in the central portion of the oxygen discharge chamber cover 131. Through hole Oxygen discharge chamber 133a (not shown) is perforated in the center portion, and the receiving projection 133c having an insertion groove 133b formed at the bottom thereof to connect one end of the adsorption bed 134 to prevent leakage. ) Is formed, and guides for guiding oxygen to the oxygen discharge chamber 133a by communicating with the insertion groove 133b and the oxygen discharge chamber 133a on the bottom surface except for the oxygen discharge chamber 133a. One end is inserted into the upper connection member 133 and a plurality of insertion grooves 133b formed on the bottom surface of the upper connection member 133 so as to prevent leakage, and a plurality of furnaces 133d are provided. The guide tube is formed by fitting a plurality of adsorption beds 134 and a plurality of adsorption beds 134 provided with an adsorbent (zeolite) to adsorb nitrogen in low pressure compressed air, respectively. In the center portion to penetrate the other end of 132 A through hole 135a is formed, and the projection protrusion 135c having a plurality of fitting grooves 135b formed thereon is formed to protrude from the other end of the plurality of adsorptive beds 134, and the fitting groove 135b is formed thereon. The bottom surface of the penetrating penetrating the inlet for compressed air, and at the bottom of the bottom portion is formed a storage portion 135d for storing the compressed air introduced therein, and the storage portion 135d on the bottom surface except for the storage portion 135d. A plurality of compressed air guide paths 135e are formed to be able to supply the compressed air introduced into the fitting groove 135b, and the bottom surface communicates with the fitting groove 135b to generate nitrogen adsorbed to the adsorption bed 134 after oxygen generation. A plurality of nitrogen discharge holes 135f are formed to be automatically discharged by a change in the internal pressure, and are provided in the fixing bracket 136 and the lower connection member 135 provided therethrough, and the fixing bracket 136 penetrates the upper surface thereof. The other end of the piped guide tube 132 On the lower surface of the lower connection member 135 and the rotary member for the compressed air rotatably provided to sequentially enter the compressed air introduced through the guide tube 132 toward the adsorption bed 134, Control means for the control panel 140 is installed in the fixed bracket 136 by being fixed through a plurality of screws to drive corresponding to the control of the controller 150 to rotate the compressed air rotating member 137 It consists of.

Here, as shown in FIG. 5, the upper surface of the upper connection member 133 is inserted to improve the discharge efficiency due to oxygen discharge by introducing residual oxygen into another insertion groove 133b when discharged due to oxygen generation. The connection pipe 133d which communicates the groove 133b and the insertion groove 133b with each other is further formed.

In addition, the control unit 140 for the control panel is provided to be fixed via the lower connection member 135 and a plurality of screws, the receiving surface is formed on the upper surface to accommodate the compressed air rotating member 137 Coupling member 141 is provided on the outer peripheral surface is formed with a discharge port for the discharge of nitrogen, and a drive motor is fixed to the bottom surface of the coupling member 141 is provided to be driven to correspond to the control of the controller 150 ( 142 and one end of the rotating shaft 142 which is rotatably connected to the driving motor 142 and the other end of the rotating member 137 is fixedly connected to the center of the rotating member 137 for compressed air. It is composed.

On the other hand, the control means for the control panel 140 is composed of a rotating shaft which is connected to the drive motor and the compressed air rotating member 137 to rotate, but is not limited to this, and the hydraulic (or pneumatic) cylinder, It can be configured to rotate the compressed air control panel by consisting of a piston provided in a linear reciprocating motion to the hydraulic cylinder, and a rotating plate provided to enable rotational movement by eccentrically connecting the other end of the linear reciprocating piston. In addition, the compressed air control panel may be configured to rotate by using compressed air, that is, a compressor and a rotating member that rotates by compressed air supplied through the compressor.

In order to generate oxygen by driving the oxygen generating device according to the present invention as described above, as shown in the accompanying drawings, Figures 1 to 6, first, the user is provided on the back of the case 112 of the housing 110 The device is driven by the control of the controller corresponding to turning on the power switch.

That is, the compressor for making low-pressure compressed air mounted on the noise preventing cover 121 to correspond to the power switch 118 being turned on (0N), and on the top and bottom surfaces of the noise preventing cover 121. The driving motor 142 of the control means 140 for the control panel mounted on the fixing fan 136 installed on one side of the discharge fan and the blowing fan and the noise prevention cover portion 121 is driven by the control of the controller 150. Done.

The outside air is introduced through the outside air suction filter 122 by the operation of the compressor, and the outside air is made into compressed air having a low pressure of 0.9 kgf / m² by the compressor, and the produced low pressure compressed air has a hose connected to one end of the outlet. It is supplied to the insertion groove 133b formed in the oxygen discharge chamber cover portion 131 of the oxygen generating means 130 installed on the upper surface of the fixing bracket.

The compressed air of the low pressure supplied to the insertion groove 133b moves along the connection pipe 132 connected to one end of the insertion groove 133b, and the compressed air accommodated in the coupling member 141 of the control means 140 for the control panel. The rotating member 137 is hit.

Compressed air striking the compressed air rotating member 137 is opened by the compressed air rotating member 137, that is, each of the three adsorption beds shown symmetrically to the left and the side of the adsorption bed 134 shown in FIG. Inflow to the side (134).

The compressed air rotating member 137 is rotated counterclockwise by the drive motor 132 of the control means 140 for the control panel while the compressed air flows into the adsorption bade 134 side, and thus the left and right sides are rotated. Compressed air introduced into the three adsorption badies 134 is the other adsorption badies 134 provided on one side of the other two adsorption badies 134 which are blocked and not blocked by the upper and lower adsorption badies 134 of the three. ) Is sequentially opened so that compressed air is introduced.

On the other hand, the compressed air introduced into the adsorption bed 134 side is adsorbed by nitrogen by an adsorbent (zeolite) filled in the adsorption bed 134, and only oxygen is discharged through the outlet port so that one side of the bottom of the rear surface of the housing Oxygen is discharged through the oxygen discharge nozzle 117 provided in, the oxygen is not discharged as shown in Figure 6 connecting tube 131d communicated between the insertion grooves (131b) on the upper surface of the upper connection member 133 As it remains at, more oxygen is released when oxygen is released from other adsorption beds.

On the other hand, when 2 hours while using the oxygen generating apparatus 100 as described above, the control unit 150 shuts off the power for 30 minutes to protect the compressor and the device by a pre-input time timer, and then restarts it. To control.

In addition, when the oxygen generator is used for 8,000 hours, the control unit 150 is input by a time input for example to protect the oxygen generator due to deterioration of the function of the outside air suction filter 122 and the oxygen discharge filter 160. Since the power is cut off, the oxygen generator can be used more safely.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be clear to those who have knowledge of.

100; Oxygen generator 110; housing
130; Oxygen generation means 140; Control means for the control panel
150; Control unit 160; Oxygen Exhaust Filter

Claims (7)

In the oxygen generator 100,
A housing 110 provided with a power switch 118 on one surface thereof;
Air sucked through the outside air intake filter 122 to correspond to the power applied to the noise-proof cover 121, the discharge fan and the blower fan installed on the bottom and the upper surface of the housing 110, the lower side and the upper surface respectively. A compressor operably provided to compress the low pressure;
Nitrogen is introduced by sequentially injecting compressed air supplied from the compressor by the control means 140 for the control panel, which is seated on the upper surface of the fixing bracket 136 provided on one side of the noise preventing cover part 121 covering the compressor. Oxygen generating means (130) having a plurality of adsorption beds (134) provided to be capable of adsorbing and discharging oxygen;
It includes a control unit 150 is provided to control the control fan 140 for the discharge and blowing fan and compressor and the control panel corresponding to the operation of the power switch 118,
The oxygen generating unit 130 is connected to the other end of the hose 131a at the center of the upper surface to introduce the low pressure compressed air supplied from the compressor by connecting the hose 131a connected to one end of the outlet of the compressor. An inlet 131b and an outlet port 131c for discharging oxygen at one side of the inlet port are formed, and one end of the oxygen outlet chamber cover part 131 is provided on the bottom surface of the oxygen outlet chamber cover part 131. The guide pipe is fixedly connected to the inlet 131b and the other end is installed in close proximity to the compressed air rotating member 137 rotatably provided by the control means 140 for the control panel installed in the fixed bracket to guide the compressed air. 132 and the oxygen discharge chamber with the through hole drilled in the center portion so as to penetrate the guide tube 132 to the center portion by fixing the oxygen discharge chamber cover portion 131 so as to prevent leakage from the upper center portion. 133a) It is formed, a plurality of receiving projections (133c) formed with an insertion groove (133b) is formed on the bottom surface to insert one end of the adsorption bed (134) to prevent leakage, the bottom of the upper surface except the oxygen discharge chamber (133a) An upper connection member 133 having a plurality of guide paths 133d formed therein to communicate with the insertion groove 133b and the oxygen discharge chamber 133a to guide oxygen to the oxygen discharge chamber 133a; Each end is inserted into the insertion groove 133b formed on the bottom surface of the upper connection member 133 so as to prevent leakage, and a plurality of adsorbents are provided to adsorb nitrogen in the compressed air of low pressure introduced therein. Through holes 135a are formed in the center portion so as to penetrate the other ends of the guide tube 132 by fitting the adsorption beds 134 and the other ends of the plurality of adsorption beds 134, respectively, and a plurality of adsorption holes on the upper surface thereof. Insert the other end of the bed (134) The projection protrusion 135c having a plurality of fitting grooves 135b having a plurality of fitting grooves 135b is formed to protrude, and the bottom surface of the fitting grooves 135b penetrates for the inflow of compressed air, and also the compressed air introduced into the bottom center portion. The storage unit 135d is formed for storing the compressed air guide path 135e so that the compressed air introduced into the storage unit 135d may be supplied to the bottom surface except for the storage unit 135d. And a plurality of nitrogen discharge holes 135f are formed on the bottom surface to communicate with the fitting groove 135b and to automatically discharge nitrogen adsorbed on the adsorption bed 134 by internal pressure change after oxygen generation. Compressed to be introduced into the lower connection member 135 and the fixing bracket 136, the upper surface is in close proximity to the other end of the guide pipe 132 piped through the fixing bracket 136 and flows through the guide pipe 132 Air to the adsorption bed 134 side Compressed air rotating member 137 rotatably provided so as to be sequentially introduced to the fixed bracket 136 by being fixed to the bottom surface of the lower connection member 135 to correspond to the control of the controller 150 Oxygen generator, characterized in that consisting of the control means for the control panel 140 is provided to rotate to drive the compressed air rotating member (137).
The method of claim 1,
Oxygen generation filter characterized in that the oxygen discharge filter 160 is further provided to filter and discharge the fine dust generated when oxygen is generated on the discharge hose is connected to the discharge port (131c) of the oxygen generating means 130 Device.
The method of claim 1,
The control unit 150 is an oxygen generator, characterized in that configured to be restarted after a 30-minute stop every 2 hours to extend the life of the compressor and to protect the oxygen generator.
The method according to claim 1 or 3,
The control unit 150, the oxygen generator 100 due to the functional deterioration of the air intake filter 122 and the oxygen discharge filter 160 to correspond to the driving time (6,000 hours to 9000 hours) of the oxygen generator. Oxygen generator, characterized in that configured to cut off the power for protection.
The method according to claim 1 or 3,
The compressor is covered with a noise preventing cover 121 on one side of the upper surface of the seating stand 111 of the housing 110 so as to prevent noise, and is driven to correspond to the control of the controller 150 to operate 0.8kgf / m² to 1.4kgf /. Oxygen generating device characterized in that it is provided to be able to supply a low pressure compressed air of m ² to the oxygen generating means (130) side.
delete The method of claim 1,
Insertion groove 133b and insertion groove 133b on the upper surface of the upper connection member 133 so that residual oxygen flows into the other insertion groove 133b when oxygen is discharged, thereby improving discharge efficiency due to oxygen discharge. Oxygen generating device characterized in that the connection pipe 133d in communication with each other is further formed.

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