KR20170034656A - This easy-to-nitrogen generation system expansion - Google Patents

Abstract

The present invention relates to an apparatus for generating nitrogen easily.
A controller configured to operate the nitrogen generator; a compressor configured to suck air in the air to compress the air into a predetermined pressure or more; a controller configured to extract nitrogen from the compressed air supplied from the compressor, A nitrogen storage tank configured to be connected to the nitrogen storage tank and configured to be coupled to the storage tank, a tank storage box configured to be connected to the nitrogen storage tank and configured to supply extracted nitrogen, and a nitrogen storage device configured to store and supply the high- And an internal discharge pipe connected to the nitrogen storage section and configured to supply nitrogen to the outside.

Description

[0001] This easy-to-nitrogen generation system expansion apparatus is a nitrogen-

The present invention relates to an apparatus for generating nitrogen easily. More specifically, it is constituted by three nitrogen tanks each consisting of 2000 L in one cell, and a nitrogen tank is configured to be separated and combined, or one cell to be separated and fastened, and a nitrogen tank The present invention relates to a nitrogen generating apparatus which is easy to expand.

Generally, atmospheric nitrogen is widely used in the manufacture of products. In particular, nitrogen generating apparatuses are used in gas-related industries, metal heat treatment, food industry, plastic manufacturing, and automobile tire gas injection.

The air present in the atmosphere consists of more than 99% of nitrogen and oxygen. By adsorbing oxygen, high purity nitrogen of 99% or more is produced and used.

High purity nitrogen is used for various chemical processes, steelmaking, smelting and other industrial uses. Various techniques are known for producing nitrogen by separating air. However, when producing a relatively small amount of nitrogen, It is economically advantageous to use the adsorption (PSA) method.

Accordingly, Korean Patent Laid-Open Publication No. 2012-0010640 has filed a patent application for a 'nitrogen supply device and a control method thereof'.

At least one pair of adsorption towers filled with an adsorbent for adsorbing oxygen, a plurality of pipes for guiding the flow sucked and discharged to the adsorption towers, a plurality of valves installed on the pipes for regulating flow, And a controller for controlling the opening and closing of the valve and the displacement of the valve.

However, the nitrogen generator is difficult to desorb and adhere to the nitrogen tank, and has a low efficiency of generating nitrogen in a limited space.

(Patent 0001) Korean Patent Publication No. 2012-0010640

In order to solve the problems of the prior art, the present invention is characterized in that three nitrogen tanks each consisting of 2000 L are arranged in one cell, and the nitrogen tanks are separated and combined or one cell is separated and fastened, Which can be adjusted in accordance with the amount of nitrogen to be used.

It is another object of the present invention to provide a nitrogen generating apparatus which can maximize the efficiency of high purity nitrogen extraction by installing as many nitrogen tanks as possible in a limited space and which can be easily installed.

According to an aspect of the present invention, there is provided a nitrogen generating apparatus that is easy to expand, comprising: a controller configured to operate a nitrogen generator by a user; a compressor that sucks air in the air to compress the nitrogen into a predetermined pressure; A nitrogen tank configured to extract nitrogen from the compressed air supplied from the compressor and configured to be coupled to a tank storage compartment at a lower end thereof, the nitrogen tank being connected to the nitrogen tank and configured to supply extracted nitrogen; A nitrogen storage portion configured to store and supply the high purity nitrogen generated in the tank storage box and an internal discharge pipe connected to the nitrogen storage portion and configured to supply nitrogen to the outside, And an easy nitrogen generating device.

The tank storage box further includes a cell configured to be coupled to the three nitrogen tanks in one unit and a fixing clip configured to be detachable from and attached to the cell or tank storage box, And a control unit.

Further, the cell is characterized in that it includes an easy-to-expand nitrogen generating device which is configured to be detachable and attachable from the cell, the cell or the cell and the tank storage box.

The nitrogen tank may include a nitrogen storage tank configured to receive compressed air from the compressor, and a nitrogen storage tank disposed outside the nitrogen storage tank for extracting and purifying compressed air present in the nitrogen storage tank to extract nitrogen of high purity And an adsorption tower configured to adsorb nitrogen to the adsorbent.

Further, the nitrogen tank is characterized in that the nitrogen tank is configured to be detachable from the tank storage box so as to be detachable and attachable.

According to the embodiment of the present invention, three nitrogen tanks each consisting of 2000 L are arranged in one cell, and a nitrogen tank is separated and combined, or one cell is separated and fastened, and a nitrogen tank The amount can be adjusted.

In addition, according to the embodiment of the present invention, the efficiency of high purity nitrogen extraction can be maximized by installing as many nitrogen tanks as possible in a limited space.

1 is an overall perspective view of a nitrogen generating apparatus which facilitates expansion,
Fig. 2 is a front view of a nitrogen generating apparatus which is easy to add,
FIG. 3 is a perspective view of a tank storage box of a nitrogen generating apparatus which can be easily expanded,
FIG. 4 is a perspective view of a tank storage box of a nitrogen generating apparatus according to a second embodiment,
FIG. 5 is an entire perspective view of a nitrogen generating apparatus which can be easily expanded according to the second embodiment.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications are possible.

2 is a front view of a nitrogen generating apparatus which can be easily expanded; FIG. 3 is a perspective view of a tank storage tank of a nitrogen generating apparatus which can be easily expanded; FIG. 4 is a perspective view of a second embodiment FIG. 5 is a perspective view of a tank storage box of a nitrogen generating apparatus which can be easily expanded according to an example. FIG. 5 is an entire perspective view of a nitrogen generating apparatus according to a second embodiment.

1 to 3, the nitrogen generator 100 includes a controller 200 configured to operate the nitrogen generator 100 by a user, a compressor 300 that sucks air in the atmosphere and compresses the air to a predetermined pressure or higher A nitrogen storage unit 400 configured to store high-purity nitrogen generated in the tank storage unit 400 and configured to discharge nitrogen to the outside of the tank storage unit 400; 500 and the nitrogen storage part 500 and configured to discharge nitrogen to the outside.

In addition, the nitrogen generator 100 is configured to constitute a wheel 101 at a lower end so that the user can easily move the nitrogen generator 100 when the user moves the nitrogen generator 100.

The controller 200 is configured inside the nitrogen generator 100 and is configured to allow the user to control the nitrogen generator 100. The controller 200 includes a power On / Off function, a nitrogen production amount, Off function and so on.

The compressor 300 is configured inside the nitrogen generator 100 to suck air in the atmosphere and compress the sucked air to a certain pressure or higher to generate high-pressure air.

Also, the compressor 300 according to the present invention generates a pressure of 0.05 to 1.0 MPa to generate high-pressure air. The pressure of the compressor 300 may be selected by selecting a value, (310).

The supply pipe 310 is a pipe configured to supply the compressed air from the compressor 300 to the tank storage 400.

The tank storage 400 configured between the controller 200 and the compressor 300 is configured to allow nitrogen to be extracted by adsorbing oxygen from the compressed air supplied from the compressor 300.

In addition, the tank storage box 400 is connected between the nitrogen tank 410 and the nitrogen tank 410, which is supplied with the compressed air generated in the compressor and is configured to produce nitrogen, And a connection pipe 430 configured to be supplied to the external device 800 is constructed.

The nitrogen tank 410 is configured inside the tank storage 400 and configured to extract nitrogen from the compressed air supplied from the compressor 300. A plurality of nitrogen tanks 410 are disposed in the tank storage 400 .

The nitrogen tank 410 has a nitrogen reservoir 411 configured to receive compressed air from the compressor 300 and a nitrogen adsorbing unit 412 for adsorbing nitrogen existing in the compressed air outside the nitrogen reservoir 411 And a fixing groove 415 formed at the lower end of the nitrogen tank 410 and configured for the nitrogen tank 410 to be coupled to the tank storage 400 and the fixing means 415a such as a bolt .

Nitrogen storage tank 411 is a device configured to be adsorbed by adsorption tower 413 by receiving compressed air generated in compressor 300 and is configured in nitrogen tank 410.

The adsorption tower 413 is an apparatus for separating nitrogen and oxygen present in the compressed air by adsorbing and desorbing the compressed air in the nitrogen reservoir 411 which is constructed outside the nitrogen reservoir 411.

Specifically, when the molecular weight of nitrogen is 0.071 nm and the molecular weight of oxygen is 0.060 nm, the molecular weight of oxygen is smaller than the molecular weight of nitrogen, and when the adsorption is performed in the adsorption tower 413, the molecular weight of oxygen less than the molecular weight of nitrogen The molecular weight of nitrogen which is adsorbed and larger than the molecular weight of oxygen remains in the nitrogen storage container 411 to extract nitrogen.

As this process is repeatedly performed, the oxygen is adsorbed by the adsorption tower 153 at a rate of 99% or more, and the nitrogen is completely removed and the nitrogen of high purity is extracted.

The fixing groove 415 formed at the lower end of the nitrogen tank 410 is a groove configured to be attached and fixed to the tank storage box 400 by the nitrogen tank 410 and is composed of a fixing means 415a such as a bolt or a screw .

In addition, the nitrogen storage container 411 and the adsorption tower 413 are structured so as to be coupled to each other so as not to be separated from each other, thereby enhancing stability, which can be selectively configured.

In addition, the nitrogen tank 410 is configured to be detachable and attachable to the nitrogen storage box 400 so that the nitrogen tank 410 can be additionally attached and detached according to a high purity nitrogen production amount desired by the user.

Specifically, the nitrogen tank 410 is integrally formed so as to facilitate the detachment and attachment of the nitrogen tank 410 in the tank storage box 400, and is easily attached to the fixing groove 415 formed at the lower end of the nitrogen tank 410 with the fixing means 415a. .

The nitrogen storage 500 formed at the lower end of the controller 200 is a device configured to store the high purity nitrogen generated in the nitrogen tank 410 through the connection pipe 430 and to discharge it to the external device 800.

The internal discharge pipe 600 connected to the nitrogen storage part 500 is configured to supply the high purity nitrogen stored in the nitrogen storage part 500 to the external device 800.

The external exhaust pipe 700 is configured to connect the nitrogen generator 100 and the external device 800. When the user connects the nitrogen generator 100 to the nitrogen generator 100, will be.

The external device 800 is a device to be supplied from the nitrogen generator 100.

4 and 5, the tank storage box 400 is divided into a plurality of cells 450, and the cells 450 and 450 are divided into a plurality of cells 450, A fixing clip 470 is formed on the outside of the cell 450 so as to be detachable and attachable.

The cell 450 is configured to separate the tank storage 400 and three nitrogen tanks 410, i.e., a first nitrogen tank 410a, a second nitrogen tank 410b, and a third nitrogen tank 410c Insertion.

The fixing clip 470 formed on the exterior of the cell 450 is configured to be detachable and attachable from the nitrogen generator 100 and configured to be detachable and attachable between the cell 450 and the cell 450.

That is, in the second embodiment of the nitrogen generating apparatus which facilitates the expansion, a plurality of cells 450 in which three nitrogen tanks 410 are present in the tank storage box 400 are formed, (470) is configured to be freely detachable or attachable from the tank storage box (400) or the nitrogen generator (100).

Although the present invention has been described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be understood that the present invention is not limited thereto, It is to be understood that various modifications and changes may be made without departing from the scope of the appended claims.

100: nitrogen generator 200: controller
300: compressor 310: supply pipe
400: tank storage box 410: nitrogen tank
410a: first nitrogen tank 410b: second nitrogen tank
410c: Third nitrogen tank 411: Nitrogen storage tank
413: adsorption tower 415: fixing groove
430: connector 450: cell
470: Fixing clip 500: Nitrogen storage part
600: internal discharge pipe 700: external discharge pipe
800: External device

Claims (5)

A controller configured to allow the user to operate the nitrogen generator;
A compressor which sucks air in the air and compresses the air to a predetermined pressure or more;
A nitrogen tank configured to extract nitrogen from the compressed air supplied from the compressor and configured to be connected to the compressor and configured to be coupled to a tank storage unit at a lower end thereof; A reservoir consisting of a connector configured to
A nitrogen storage unit configured to store and supply the high purity nitrogen generated in the tank storage box to the outside; And
An inner discharge pipe connected to the nitrogen storage unit and configured to supply nitrogen to the outside;
Wherein the nitrogen gas is supplied to the nitrogen gas supply unit.
The method according to claim 1,
The tank storage compartment includes:
And a fixing clip configured to be detachable from and attached to the cell or tank storage box, the nitrogen storage tank being formed outside the cell.
The method according to claim 1,
The cell comprises:
And the tank is configured to be detachable and attachable from the cell, the cell, or the cell and the tank storage box.
The method according to claim 1,
In the nitrogen tank,
A nitrogen reservoir configured to receive compressed air from the compressor, and an adsorption tower configured to extract nitrogen of a high purity through adsorption and desorption of compressed air existing in the nitrogen reservoir, A nitrogen generating device which is easy to expand.
The method according to claim 1,
In the nitrogen tank,
Further comprising a separator configured to be detachable and attachable from the tank storage box.

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