KR100932203B1 - Nitrogen generator - Google Patents

Abstract

The present invention relates to a nitrogen generator, in particular, a compressor; A filter for filtering the compressed air in the compressor; A membrane into which air passing through the filter is introduced; A nitrogen flow controller for controlling the amount of nitrogen separated from the membrane; A regulator for adjusting the discharge nitrogen pressure of the nitrogen flow regulator and an air tank for storing the compressed air in the compressor; A check valve for preventing a backflow of compressed air installed between the air tank and the compressor; The compressed air pressure of the air tank, relates to a nitrogen generator further includes a pressure switch for controlling the operation of the compressor.

Nitrogen Generator, Dry Nitrogen, Showcase

Description

Nitrogen Generator

The present invention relates to a nitrogen generator which can be adjusted using a pressure switch to stop the operation of the compressor when the compressed air pressure of the air tank reaches a target value (eg, 5.5 kgf / cm 2).

Conventionally, as the nitrogen generator of the membrane separation method, for example, the one disclosed in Korean Patent No. 0733067 has been proposed.

As shown in FIG. 1, the nitrogen generator includes a nitrogen separation membrane having a compressed air inlet, a nitrogen outlet, and an oxygen outlet, an air compressor 115, a vacuum pump 113 connected to the oxygen outlet, The air tank 170 connected between the air compressor 115 and the compressed air inlet, a pressure sensor 180 for sensing the pressure of the air tank 170 and the pressure sensor 180 are applied to the air Since the compressor 115 and the control unit 190 for controlling the vacuum pump 113 is included, it is possible to forcibly extract the oxygen of the nitrogen separation membrane with the vacuum pump 113 to generate high purity nitrogen.

In addition, the solenoid valve 130 controlled by the control unit 190 is provided, it can be started smoothly during the operation of the air pump.

However, such a conventional nitrogen generator has a problem that the structure thereof is complicated, the manufacturing cost is high, and the handling is difficult.

In addition, the conventional nitrogen generator is applied from the pressure sensor 180 has a problem that the unit cost of the controller 190 for controlling the air compressor 115 and the vacuum pump 113 is high.

In addition, the conventional nitrogen generator has a problem that the nitrogen is separated from the gas separation membrane module 250 does not contain water, the product is dried.

The present invention is to solve the above problems, and provided with a pressure switch for stopping or adjusting the operation of the compressor when the compressed air pressure of the air tank reaches a target value (for example 5.5kgf / ㎠), unit price of the control means To lower it.

In addition, the present invention is provided with a device for supplying water to the nitrogen separated from the gas separation membrane module, to supply nitrogen containing moisture.

The nitrogen generator of the present invention for achieving the above object, a compressor; A filter for filtering the compressed air in the compressor; A membrane into which air passing through the filter is introduced; A nitrogen flow controller for controlling the amount of nitrogen separated from the membrane; It characterized in that it comprises a regulator for adjusting the discharge nitrogen pressure of the quality low flow rate regulator.

In addition, the air tank for storing the compressed air in the compressor; A check valve for preventing a backflow of compressed air installed between the air tank and the compressor; By the compressed air pressure of the air tank, it is characterized in that it further comprises a pressure switch for adjusting the operation of the compressor.

In addition, the top is open; A cover covering the barrel; And a first tube and a second tube passing through the cover, wherein the first tube is disposed inside the barrel and connected to the membrane, and the second tube is disposed shorter than the length of the first tube to adjust the nitrogen flow regulator. It is characterized in that connected to.

In general, the conventional nitrogen generator is difficult to handle due to its complex structure, high manufacturing cost, high unit cost of the control means for controlling the compressor and the vacuum pump using a pressure sensor, and moisture in the nitrogen separated from the gas separation membrane module Not included, there was a problem of drying the product.

Accordingly, the present invention can simplify the structure, make it easier to handle, and lower the manufacturing cost.

In addition, a pressure switch for stopping or adjusting the operation of the compressor can be provided to reduce the unit cost of the control means.

In addition, by providing a device for supplying moisture to the nitrogen separated from the gas separation membrane module, it is possible to supply nitrogen containing moisture.

According to the nitrogen generator of the present invention as described above, it has the following effects.

By simplifying the structure of the nitrogen generator, there is an advantage that it is easy to handle and the manufacturing cost can be lowered.

When the compressed air pressure of the air tank reaches a target value (eg, 5.5 kgf / cm 2), the pressure switch for stopping or adjusting the operation of the compressor has an advantage of lowering the cost of the control means.

In addition, by providing a device for supplying water to the nitrogen separated from the gas separation membrane module, there is an advantage that can supply the nitrogen containing water.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

For reference, among the configurations of the present invention to be described below, the same configuration as the prior art will be referred to the above-described prior art, and a detailed description thereof will be omitted.

1 is a piping circuit diagram showing a conventional nitrogen generator, Figure 2 is a perspective view of the nitrogen generator according to a preferred embodiment of the present invention, Figure 3 is a rear view of the nitrogen generator according to a preferred embodiment of the present invention, Figure 4 is The nitrogen generator piping circuit diagram of the present invention, Figure 5 is a piping circuit diagram including an air tank, a check valve, a pressure switch, a pressure gauge in Figure 4, Figure 6 is a perspective view showing a water supply of the present invention.

In addition, the solid line shown in FIGS. 4 and 5 is a line showing the flow of air and nitrogen, and the dotted line is a line showing the electric flow.

As shown in Figs. 2 to 5, the nitrogen generator of this embodiment includes a compressor 275; A filter 260 for filtering the air compressed by the compressor 275; A membrane 296 into which air passing through the filter 260 is introduced; A nitrogen flow controller 240 for controlling the amount of nitrogen separated from the membrane 296; A regulator 250 for adjusting the discharge nitrogen pressure of the nitrogen flow regulator 240 is included.

According to this configuration, there is an advantage that the structure of the nitrogen generator can be made very simple.

In addition, the air tank (297) for storing the compressed air in the compressor (275); A check valve 298 for preventing backflow of compressed air installed between the air tank 297 and the compressor 275; By the compressed air pressure of the air tank 297, a pressure switch 300 for adjusting the operation of the compressor 275 is further included, so that the compressed air pressure of the air tank 297 is a target value (e.g., 5.5 kgf / 2 cm) is provided with a pressure switch 300 to stop or adjust the operation of the compressor 275, there is an advantage that the unit cost of the control means can be lowered.

In addition, the upper portion is open (400a); A cover 400b covering the barrel 400a; A first pipe 410 and a second pipe 420 penetrating the cover 400b, wherein the first pipe 410 is disposed inside the barrel 400a and connected to the membrane 296. The second pipe 420 is disposed shorter than the length of the first pipe 410 is provided with a cylinder 400a connected to the nitrogen flow regulator 240, there is an advantage that the moisture can be supplied to nitrogen .

An external I / O port 292 is provided at the lower rear outer surface of the back of the nitrogen generator 100 so that a sensor or the like can be installed as needed, and the nitrogen generator 100 can be easily controlled.

As shown in FIG. 4, after the power connection unit 291 is connected and the power switch 230 is pressed, the power lamp 231 is turned on to drive the suction fan 121 in which the filter 121a is built. , External air flows into the nitrogen generator (100).

The suction fan 121 equipped with the filter 121a is disposed close to the compressor 275 to smoothly supply external air.

The discharge fan 122 is disposed close to the membrane 296 to discharge components other than nitrogen, and the two fans are disposed on the opposite side, whereby the cooling efficiency of the compressor 275 is increased.

The Breca 280 is installed between the power connection unit 291 and the power switch 230 to block a short circuit.

The introduced external air is compressed in the oilless air compressor 275.

In order to remove impurities such as oil, garbage, dust, and the like contained in the compressed air, a filter 260 is provided at the rear end of the compressor 275.

The filter 260 may be provided as an activated carbon filter to reduce the manufacturing cost.

In addition, the filter 260 is installed outside the nitrogen generator 100, it is possible to easily replace the filter 260.

The filtered compressed air is transferred to the membrane 296 and separated by oxygen and nitrogen by the membrane 296.

The membrane 296 is a module for separating oxygen (water vapor) having a high permeation rate and a nitrogen having a low permeation rate by using a nitrogen separation membrane. It is comprised and the flow path which discharges remaining components (oxygen etc.) other than nitrogen is comprised.

The nitrogen outlet is provided with a nitrogen flow controller 240 capable of adjusting the flow rate.

The nitrogen flow regulator 240 is preferably installed on the outside of the nitrogen generator 100 so that it can be seen from the outside.

Therefore, the nitrogen flow meter 240 may check the normal operation of the compressor 275 and adjust the nitrogen amount and concentration.

Accordingly, the user can accurately measure the pressure of the nitrogen discharged to the pressure gauge 252, and selectively adjust the discharge pressure of the nitrogen by using a dial for adjusting the regulator 250 on the outside of the nitrogen generator 100. While controlling effectively, nitrogen can be discharged through the nitrogen discharge port.

The above embodiment is a description of a process of discharging nitrogen through the nitrogen discharge port by adjusting the discharge pressure of nitrogen separated from the membrane 296 using the regulator 250.

As described above, since the nitrogen generator 100 described above operates on a very simple principle, it is preferably used in a general purpose product such as a packaging machine.

Meanwhile, as shown in FIG. 5, the nitrogen generator 100 includes an air tank 297 for storing compressed air in the compressor 275, a check valve 298 for preventing backflow of compressed air, and the compressor. Panel pressure gauge 301 for confirming the normal operation of the 275 and the pressure switch 300 for controlling the operation of the compressor 275 is further included.

The air compressed by the compressor 275 is collected in the air tank 297, and a check valve 298 is installed in the flow path between the air tank 297 and the compressor 275 to prevent backflow of the compressed air collected. do.

Outside the nitrogen generator 100, the pressure gauge 301 for the panel to confirm the normal operation of the compressor 275 and the compressed air pressure of the air tank 297 reach the target value (for example, 5.5 kgf / cm 2). A pressure switch 300 that can stop or adjust the operation of the 275 is installed.

Therefore, since the compressor 275 is controlled by the pressure switch 300, the unit cost of the control means can be lowered.

Meanwhile, As shown in FIG. 6, water is placed in the barrel 400a of which the upper portion is opened, and covers the cover 400b.

The cylinder 400a is preferably made of a transparent body so that the inside can be confirmed.

A packing 440 is inserted between the barrel 400a and the cover 400b.

The cover 400b is formed with a first pipe 410 and a second pipe 420 penetrating the cover 400b.

The first pipe 410 is connected to the membrane 296, the nitrogen separated from the membrane 296 is sucked.

The sucked nitrogen passes through the hose 450 connected to the first pipe 410 and into the barrel 400a.

 At the end of the hose 450, in order to further increase the humidification effect of nitrogen sucked into the first pipe 410, an air stone 460 is provided to further reduce the particles of nitrogen.

The air stone 460 is immersed in the water in the cylinder 400a so that the nitrogen exiting the air stone 460 can be discharged into the water in the cylinder 400a.

Therefore, the nitrogen in the barrel 400a contains moisture and is discharged to the nitrogen flow regulator 240 through the second pipe 420.

At this time, the second tube 420 is preferably formed shorter than the first tube 410 so as not to be submerged in water.

A groove 430 is formed in the upper portion of the cover 400b, and the light emitting means 431 for determining whether the process is operated is fastened.

The light emitting means 431 is preferably formed of an LED bulb, but may be made of other light emitting materials such as luminous.

Although not shown, a transparent body surrounding the light emitting means 431 is formed inside the cover 400b to prevent moisture from penetrating into the light emitting means 431.

The transparent body surrounding the light emitting means 431 may be formed integrally with the cover 400b.

Therefore, since the nitrogen separated from the membrane 296 is dry nitrogen which does not contain water, when nitrogen passes through the water in the container 400a, the nitrogen is changed to nitrogen containing water.

In this configuration, the nitrogen generator 100 is used for food storage, it is possible to prevent the food and the like to dry.

On the other hand, by replacing some of the components (compressor 275, filter 260, membrane 296) of the nitrogen generator 100 described above in a low-cost type, the price can be lowered.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art various modifications or variations of the present invention without departing from the spirit and scope of the invention described in the claims below Can be carried out.

As described above, the nitrogen generator according to the present invention is particularly preferably used in general-purpose products such as packaging machines, low-cost continuous operation products, and the like.

It is also preferable to use where moisture-containing nitrogen is required.

However, the nitrogen generator of the present invention can be used elsewhere where nitrogen is required.

1 is a piping circuit diagram showing a conventional nitrogen generator.

2 is a perspective view of a nitrogen generator according to a preferred embodiment of the present invention.

3 is a rear view of the nitrogen generator according to the preferred embodiment of the present invention.

Figure 4 is a nitrogen generator piping circuit of the present invention.

FIG. 5 is a piping circuit diagram including an air tank, a check valve, a pressure switch, and a pressure gauge in FIG. 4.

 Figure 6 is a perspective view of the water supply of the present invention.

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

100: nitrogen generator 110: handle 121: suction fan

121a: filter 122: discharge fan 210: pressure sensing unit

220: pressure gauge 230: power switch 231: power lamp

232: ground wire 240: nitrogen flow regulator 250: regulator

252: pressure gauge 260: filter 271: first discharge port

272: second discharge port 273: flow control member 275: compressor

280: Breca 291: power connection 292: external I / O port

294 control unit 296 membrane 297 air tank

298: check valve 300: pressure switch 301: pressure gauge

400a: barrel 400b: cover 410: first tube

420 Second Hall 430: Grooves 431: Light Emitting Means

440: Packing 450: Hose 460: Air Stone

Claims (3)

Compressor; A filter for filtering the compressed air in the compressor; A membrane into which air passing through the filter is introduced; A nitrogen flow controller for controlling the amount of nitrogen separated from the membrane; It includes a regulator for adjusting the discharge nitrogen pressure of the nitrogen flow regulator; Nitrogen generator comprising a device for supplying water to the nitrogen separated from the membrane. The method of claim 1, An air tank for storing compressed air in the compressor; A check valve for preventing a backflow of compressed air installed between the air tank and the compressor; Nitrogen generator, characterized in that further comprising a pressure switch for controlling the operation of the compressor by the compressed air pressure of the air tank. The device of claim 1, further comprising: an apparatus for supplying moisture; The top of which is open; A cover covering the barrel; And a first tube and a second tube passing through the cover, wherein the first tube is disposed inside the barrel and connected to the membrane, and the second tube is shorter than the length of the first tube to adjust the nitrogen flow regulator. Nitrogen generator, characterized in that connected to.

Images