KR20150078110A - Pressure adjusting device - Google Patents

Abstract

The purpose of the present invention is to obtain a device for controlling air pressure for charging nitrogen capable of preventing the oxidation of plants by increasing the nitrogen content of air when storing fruits and vegetable inside a storage compartment and capable of maintaining and controlling the air pressure of the storage compartment. The present invention includes a body unit; a membrane filter unit composed of multiple membrane filter pipes for separating gas from liquid and flowing compressed air inside the body unit having an air inlet and a nitrogen outlet through the membrane pipe composed of a hollow fiber membrane to rapidly penetrate moisture and oxygen of which a penetration speed is fast and remain nitrogen of which a penetration speed is slow inside the membrane filter pipes; a collecting unit including an outer case capable of collecting the discharged oxygen and formed outside of the membrane filter pipe; and an air compressor compressing the air received through the air inlet. The air inlet including an outer inlet wherein a filter is formed and an inner inlet selectively receives an intake of air by forming an opening valve on the outer inlet to maintain the inner air pressure of the storage compartment.

Description

{Pressure adjusting device}

The present invention relates to a nitrogen pressure-regulating apparatus for nitrogen filling, and more particularly, to a nitrogen pressure-regulating apparatus for nitrogen pressure, which is capable of preventing the oxidation of plants by increasing the ratio of nitrogen in the air when storing fruits and vegetables in the reservoir, To a nitrogen pressure-regulating apparatus for nitrogen.

Generally, a refrigerator is a device that keeps the inside of a refrigerator low by repeatedly performing a refrigeration cycle in which a refrigerant compresses - condenses - expands - evaporates and keeps the food fresh for a certain period of time. The refrigerator includes a compressor for raising and lowering a gas refrigerant in a low temperature and a low pressure state to a high temperature and high pressure gaseous state and a refrigerant in a high temperature and high pressure gaseous state flowing from the compressor, A capillary for reducing the pressure of the refrigerant flowing into the condenser at a diameter narrower than the diameter of the other portion and for evaporating the refrigerant having passed through the capillary to a low temperature The evaporator that absorbs heat in the hearth is used as the basic system to form a refrigeration cycle.

Unlike the general refrigerator described above, the freezer is a device for storing food or other articles at a low temperature by providing a cryogenic temperature, and is stored at a temperature of about -70 ° C or lower to prevent the deterioration of foods or articles. An example of such a freezer will be described. In the freezer, a cooling device is installed at the bottom, a freezing chamber is provided at the top of the cooling device, and a storage box is accommodated in the freezing chamber according to the type of food or food stored. And a door provided with a control unit is mounted on the front surface.

On the other hand, since the freezer is basically configured to lower the temperature by using electricity, when the cooling system does not operate due to a power failure or a failure of the freezer itself, the temperature inside the freezer increases due to the influence of the room temperature To prepare for this,

A refrigeration backup apparatus is prepared and the backup apparatus injects these liquids into the freezer by using liquid carbon dioxide or liquid nitrogen to lower the temperature inside the freezer by absorbing latent heat while vaporizing these liquids. However, since most freezers are not provided with a separate means for properly maintaining the air pressure of the freezer compartment, the use of the freezer is inconvenient, and in some cases, the user is injured or the freezer fails. .

When the freezer is normally operated, since the inside of the freezer is at a cryogenic temperature, the air inside the freezer shrinks and the pressure inside the freezer is lower than the atmospheric pressure so that the sound pressure is caught. When the user opens the freezer door in such a sound pressure state, the door is not opened easily. Therefore, it is inconvenient for the user to open the door by unreasonable force, and the door handle or hinge of the door may be difficult to handle, and the door may be opened at the same time. On the contrary, in the state where the above-mentioned refrigeration backup function is activated, liquid carbon dioxide or liquid nitrogen is vaporized and the pressure inside the freezer rises to become a high pressure state, and in a severe case, there is even a risk that the door is detached by explosion. That is, when the air pressure inside the freezer is lower than the pressure outside the freezer, the door of the freezer is sucked into the freezer and becomes difficult to open and close. If the pressure of the freezer is excessively increased, the freezer body is expanded due to atmospheric pressure, There was no problem.

In order to eliminate the above-mentioned problems, it is necessary to prevent freezing by frost or freezing on the whole of the freezer and the outside air pressure control device and the damper according to the cooling of the inside of the freezer. A conventional air pressure control device in which a single damper is provided in a vent hole passing through the inside of the freezer and the outside of the freezer is described as an example. This causes the device to cool, and in addition, the frost may freeze below 0 ℃ and the damper becomes inoperable.

In addition, although No. 10-1140201 filed by the applicant of the present application and formed to separate oxygen and nitrogen from the air-pressure adjusting side of the air in and out, there is a problem that it can not be replenished when necessary because nitrogen can be filled only when the door is opened and closed there was.

In addition, since the barometric pressure is mechanically opened and closed at the entrance and exit of the door in the reservoir, if the temperature difference between the outside and inside is very large, the pressure difference will freeze and the divertor will not open. There is a danger that the door is opened and closed because there is a risk of fire when the door is not heated enough and it is too high.

Korean Patent Registration No. 10-1140201

SUMMARY OF THE INVENTION [0006]

A pressure regulator is formed so as to keep the pressure in the reservoir at a constant level so that the atmospheric pressure is kept higher than the external atmospheric pressure and the oxygen in the air supplied into the reservoir is separated to increase the proportion of nitrogen, The present invention relates to a pressure regulating device for nitrogen filling, which is capable of minimizing the oxygen content in the air flowing into the reservoir to prevent oxidation during the storage of the food, thereby enhancing the antioxidant function during storage of the food.

The object of the present invention is to separate oxygen and nitrogen in the inhaled air after sucking in air inside or outside the storage compartment and to allow all of the separated oxygen to be discharged outdoors and the separated nitrogen is introduced into the reservoir The present invention has been made in view of the above problems, and it is an object of the present invention to provide a nitrogen pressure-adjusting device for preventing nitrogen oxides from being oxidized.

Another object of the present invention is to provide a nitrogen pressure-regulating device for nitrogen filling, in which a barometric pressure adjusting device is provided so as to adjust a pressure generated at the time of entering and exiting the barrel.

The nitrogen pressure-adjusting device for nitrogen charging according to the present invention provides a barometric pressure control device capable of automatically controlling the air pressure so that the door does not open when the air pressure change operation is not performed manually due to a severe temperature difference, There is a convenient effect.

Further, by forming the nitrogen pressure-regulating device for nitrogen filling according to the present invention, the air in the inside and the outside of the reservoir is pressurized and the compressed air is permeated through the membrane filter membrane for gas separation made of a hollow fiber membrane, Is rapidly permeated and the permeation rate of nitrogen is kept in the membrane filter tube and is introduced into the reservoir to increase the nitrogen content in the reservoir, thereby maintaining the freshness of the food.

As described above, since nitrogen is continuously supplied to the inside to increase the atmospheric pressure in the storage, it is a very useful invention that can be conveniently performed when the door is opened and closed from the outside.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a state diagram showing a nitrogen pressure-adjusting apparatus for nitrogen charging according to a preferred embodiment of the present invention. Fig.
Fig. 2 is an operational state view showing the nitrogen pressure-adjusting apparatus for filling nitrogen according to the present invention. Fig.
3 is a detailed view showing the membrane filter unit of the nitrogen pressure-adjusting apparatus for filling nitrogen according to the present invention.
4 is a perspective view showing an air compressor of a nitrogen pressure-adjusting apparatus for filling nitrogen according to the present invention.
5 is a detailed view of the air pressurizing portion of the nitrogen pressure-adjusting apparatus for filling nitrogen according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best possible way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

The nitrogen pressure-regulating apparatus for nitrogen filling according to the preferred embodiment of the present invention shown in FIGS. 1 to 5 includes a main body 350; An air inlet 250 and a nitrogen outlet 200 are formed in the main body so that air is permeated through a membrane filter membrane 340 for separating gas formed by a hollow fiber membrane, A membrane filter unit 280 formed of a plurality of membrane filter tubes so that the nitrogen permeated through the membrane filter tube and permeated through the membrane filter tube are permeated into the membrane filter tube as they are; A collecting unit 270 for collecting the discharged oxygen on the outside of the membrane filter tube 340; An air compressor (170) configured to extrude air into the air inlet; The air inlet has an external inlet 250 formed with a filter 240 and an internal inlet 210. An opening 230 is formed in the external inlet to maintain the air pressure in the reservoir so that the air can be selectively introduced There are features formed.

The main body part 350 includes a membrane filter part 280 mounted on a side surface of the reservoir and having a bundle of membrane filter tubes 340 for introducing outside air to separate oxygen and nitrogen and a high pressure air compressor 170, And a collecting unit 270 for collecting oxygen.

In the membrane filter unit 280, a collecting unit 270 is formed to collect oxygen on the outer surface when the nitrogen collecting unit 180 is formed on the rear side where the air supplying unit 190 is formed.

The air supply unit 190 is made up of a plurality of tubes in the form of a tube bundle, and when the compressed air is supplied to the tube bundle, air is passed through the membrane filter pipe 340 made of a hollow fiber membrane The nitrogen having a high permeation rate is rapidly permeated and the oxygen having a low permeation rate is passed through the membrane filter tube as it is and is transferred to the nitrogen collection section 180. The separated oxygen is collected in the collection tube, Respectively.

The air supply unit 190 is formed to have a compression braid 120 fixed to the outer wall to extrude the air introduced into the air inlet 100 at a high pressure so that the length of the compression braid becomes longer toward the inside, The rotary fan 150 having a plurality of blades mounted on the rotary shaft 140 is formed such that the interval of the blades in the direction of the discharge port 110 is smaller than that of the air inlet 100 so as to compress air during rotation, There are features formed.

 The air compressor includes a plurality of braids 120 fixed to the inside of the outer wall of the fixed compression braid part 130 so that the length of the braid becomes longer toward the inside, The rotary fan 150 having a plurality of blades is formed such that the intervals of the blades are smaller in the direction of the discharge port 110 than the air inlet 100 so as to compress the air during rotation.

When the air inlet 100 is formed of the external inlet 250 and the internal inlet 210, the opening / closing door 230 is opened / closed according to the change of the pressure of the storage container.

The external inlet 250 is formed with a filter 240 to block foreign substances and to supply purified air. When the air pressure of the reservoir is lower than a certain pressure by the air pressure sensor, the open / close side (230) is opened to allow the outside air to flow so that the internal pressure is maintained higher than the external pressure, so that the user can easily access the door .

The nitrogen outlet 200 is formed such that the nitrogen collected in the nitrogen collector is discharged to the nitrogen outlet 200 inside the reservoir. It is preferable that the nitrogen outlet is formed with a valve so that a storage tank capable of storing nitrogen is formed and discharged only when necessary.

As described above, in order to lower the concentration of oxygen in the reservoir, the air inside the compressor is sucked out, and a plurality of pipes are closely attached in a tube-bundle fashion to supply compressed air to the tube bundle. The compressed air is passed through a membrane filter membrane 340 for separating gas, which is made of a hollow fiber membrane, and moisture or oxygen having a high permeation rate is rapidly permeated and nitrogen having a low permeation rate is passed through a membrane filter tube And is transported to the nitrogen collecting unit 180. The separated oxygen is collected in the collecting pipe and discharged to the outside.

As described above, the concentration of nitrogen in the storage tank is increased to minimize the oxidation of plants. When the circulation is performed as described above and the air pressure of the reservoir is sensed and is low, the open / close side is opened to supply external air to the external air inlet to raise the air pressure. The passive pressure side (300) of the reservoir is maintained as it is. In case of failure or freezing, the open / close side is opened and external air is introduced.

100: air inlet 110: outlet
120: Braid 130: Compression braid part
140: Axis 150: Rotating fan
200: nitrogen outlet 250: external inlet

Claims (3)

A body portion;
The air inlet and the nitrogen outlet are formed in the body portion, and air of high pressure is permeated through the membrane filter membrane for gas separation, which is made of a hollow fiber membrane, so that moisture or oxygen having a high permeation rate is quickly permeated, A membrane filter unit formed of a plurality of pipe bundles so that the slow nitrogen flows through the inside of the membrane filter tube as it is;
A collecting part formed at an outer side of the membrane filter tube and having an outer case capable of collecting the discharged oxygen;
An air compressor configured to compress air introduced into the air inlet;
Wherein the air inlet is formed to have an external inlet formed with a filter and an internal inlet formed therein, and an opening / closing passage is formed in an external inlet to maintain the air pressure in the reservoir, thereby selectively introducing air.
The air conditioner according to claim 1, wherein the air compressor
A compression braid fixed to the inside of the outer wall of the fixed compression braid portion is formed and arranged such that the length of the compression braid becomes longer as it goes inward
And the plurality of blades mounted on the shaft of the motor is formed. The rotary fan is formed such that the intervals of the blades are smaller in the direction of the discharge port than the air inlet so as to compress the air during rotation, Pressure regulator for nitrogen charging.
The method of claim 1, wherein the nitrogen outlet
Wherein a storage tank is formed in the reservoir to store nitrogen supplied into the reservoir.

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