JPS62134028A - Atmosphere conditioning equipment for stocker - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an atmosphere adjustment facility for a storage warehouse that adjusts the atmosphere inside the storage warehouse so that the contents of nitrogen, oxygen, and carbon dioxide gas are in appropriate amounts.

[Conventional technology]

Conventionally, the storage atmosphere adjustment equipment has been comprised of a combination of a propane gas combustion type carbon dioxide generator and a carbon dioxide adsorption device.

[Problem that the invention seeks to solve]

However, in order to adjust the atmosphere inside the storage to be, for example, 2% oxygen, 3% carbon dioxide, and the remainder nitrogen, the air inside the storage is passed through the carbon dioxide gas generator to contain 20% oxygen. After operating so that all of the gas is converted to carbon dioxide gas, the weekly carbon dioxide gas is adsorbed by a carbon dioxide gas absorption device to reduce the carbon dioxide content to 5%, and an atmosphere containing mainly oxygen and nitrogen is supplied thereto. , finally 2% oxygen, 3% carbon dioxide,
The cutting must be adjusted to produce nitrogen, and the carbon dioxide generator uses more gas than necessary to convert oxygen into charcoal and finished gas, and the carbon dioxide generator also burns propane gas. Because of the formula, combustion becomes difficult as the oxygen concentration decreases, and if it decreases to less than 12%, for example, incomplete combustion will occur, resulting in difficulty in quickly adjusting the atmosphere in the storage chamber. there were.

An object of the present invention is to quickly adjust the atmosphere inside the storage without any waste. It consists of a combination of a nitrogen enriched gas production device and a carbon combustion type carbon dioxide gas generation device, and its functions and effects are as follows.

[For production]

In other words, when the atmosphere inside the storage is made to be, for example, 2% oxygen, 3% carbon dioxide, and the rest nitrogen, the nitrogen-enriched gas production device adsorbs oxygen from the air inside the storage, The air inside the refrigerator is made to contain 5% oxygen and approximately 95% nitrogen, and a carbon dioxide gas generator burns carbon with the 5% oxygen content, reducing the atmosphere inside the refrigerator to 3% carbon dioxide and 2% oxygen. %, or by discharging the air in the storage to create a near-vacuum state and creating an oxygen-containing atmosphere and nitrogen-enriched gas obtained by adsorbing oxygen from the atmosphere using a nitrogen-enriched gas production device. By separately supplying carbon dioxide and carbon dioxide obtained from a carbon dioxide gas generator that burns carbon with the atmosphere to a storage, a predetermined content ratio can be maintained without waste. Moreover, in order to greatly reduce the oxygen content inside the refrigerator, conventionally a carbon dioxide gas generator must be used, but with the present invention, an oxygen adsorption type nitrogen enriched gas production device can be used. The atmosphere inside the refrigerator can be changed quickly.

〔Effect of the invention〕

Therefore, economic prosperity can be easily improved through lean work, and the atmosphere can be adjusted quickly. Moreover, carbon combustion type carbon dioxide gas generators are better than conventional propane gas combustion types. As a result, even a small amount of the contained oxygen can be combusted (for example, even if it is about 1%, an oxidation reaction is performed) and converted to carbon dioxide gas, making it possible to more accurately and accurately control the atmosphere.

〔Example〕

Next, embodiments of the present invention will be described based on the drawings.

As shown in the drawing, the atmosphere inside storage +l+ is changed to nitrogen for storage +1>, which stores fresh foods such as vegetables, fruits, fish, meat, raw noodles, accessories, flowers, microorganisms, etc. at a constant temperature. By adjusting the content of oxygen and carbon dioxide to an appropriate level, PSA (Pres.
The storage atmosphere adjustment equipment is composed of a combination of an oxygen adsorption type nitrogen enriched gas production device (2) and a carbon combustion type carbon dioxide gas generation device (3).

In other words, in order to preserve separately stored items for a long period of time, not only can the respiration effect of stored items be suppressed by lowering the oxygen concentration in the atmosphere inside the refrigerator, but also the respiration of stored items can be further improved by containing an appropriate amount of carbon dioxide gas. It promotes the inhibitory effect and at the same time suppresses the activation of bacteria. For example, if you adjust the atmosphere in the refrigerator as shown in the table below depending on each type of stored food, you can maintain high freshness over a long period of time. It can be saved as is.

The air in the storage (1) is supplied by the compressor (4) to the nitrogen-enriched gas production device @ (2) or the carbon dioxide gas generation device via the first supply path (R1) or the second supply path (R2). (3), storage M storage +1) and both devices (2).
) (3) is connected by piping. Especially the first supply path (
A heat exchanger (5) is interposed in R1), and the air inside the refrigerator is dehumidified while being cooled, and the dry and dense air inside the refrigerator is sent to the nitrogen-enriched gas production device (2). It is.

A pair of oxygen adsorbers (61+61 and a pair of oxygen adsorbers!6++61) are installed in the nitrogen-enriched gas production device (2).
a vacuum pump (7) for evacuating either one of the first and second nitrogen-enriched gas recovery channels (R3) interposed with a nitrogen-enriched gas storage tank (8); 2nd flow path switching valve +9+ tlo)
and a controller (11) that automatically performs important operations of the vacuum valve (7) and switching operations of the first flow path switching valve (9) and the second flow path switching valve (10). This is provided.
The first flow path switching valve (9) switches the connection state between the vacuum pump (7) and the first supply path (R1) and the oxygen absorber +61 +6+ to select which of the pair of oxygen absorbers t61 (6). The second flow path 9 is formed so that one side can sense the production state of nitrogen-enriched gas and the other side can alternately appear in the regeneration state.
The switching valve (1O) switches the connection state between the pair of oxygen 1 and adsorbers +61161 and the nitrogen-enriched gas recovery path (R8),
Two oxygen adsorbers +61 and +61 are used alternately to form a nitrogen-enriched gas that can be recovered.

In addition, 1st. The second flow path switching valve +9+, tlO) is connected to the controller (+1), respectively.
The operating mechanism 0
2) R2) is attached.

The carbon dioxide gas generator 1ffi (3) ic is a carbon combustion furnace that generates carbon dioxide gas (C(h)) by heating a solid carbon material by force and reacting it with oxygen-containing gas in a preheated chamber. (I fathom), carbon combustion IF' (connected to l plow and carbon dioxide gas storage tank 04) interposed carbon dioxide recovery path (R4), and carbon combustion P (13) by controlling the temperature. Temperature controller (1) to control the reaction
5).

In addition, a pressure regulating valve (1@) and a flow meter aη are interposed in the connecting pipe line to the @2 feed line (R2) of the carbon combustion furnace.

The air in the storage [1] is configured to be sampled and detected by an Ot COg concentration detector, and is also detected by a compressor (4) connected to the storage [1].
) and a first supply path (R1) and a second supply path (
R2) includes dog cave 1. 2nd noid pal 7' (Ss
), (N4) are each throws separately. And the above 02
- Opening the first solenoid pulp (N8) or the second solenoid pulp (N4) based on the information from the Co2@degree detector (181) and simultaneously operating the controller (11) or temperature controller 05) The atmosphere adjustment control device (19) is turned on. In addition, when @1 and the second solenoid pulp (Ss) and (N4) are operated to close by the pod, the compressor (4) increases the pressure and automatically stops. The nitrogen enriched gas production equipment! (2) and the carbon dioxide gas generator (3) are both connected to a circulation path (R6) that supplies the gas collected from +2) [3) to a storage +1)K.
A heat exchanger is interposed in this circulation path (Rs) to radiate heat and cool the regulated gas before it is supplied to the storage chamber (11).

In the figure, the pipe connecting the storage (1) and the vacuum pump (7) is an internal exhaust line (R6) that is interposed with a normally closed internal exhaust pulp (vl). When the atmosphere inside the refrigerator needs to be adjusted again, the internal exhaust pulp (vl) is operated to open the valve to discharge the gas inside the refrigerator to the outside.

In the figure, (R?) is a bypass path, which is used to supply outside air to the circulation path (R6) when the atmosphere inside the refrigerator lacks oxygen.
21) It is used to force the atmosphere accumulated inside.

(V+), (Vg), (Vs), (V4)
are H/L/Z which are normally closed, respectively, and (Va
), (Va), (Vy), (Vs),
(V9).

(V+o) are each normally open pulp.

Next, the procedure for controlling the atmosphere in the storage (1) by the control device (+9>) will be explained.

The air inside the refrigerator has the same atmosphere as the outside atmosphere, for example, with oxygen ((
h) 2%, carbon dioxide (Co) 3%, the remainder nitrogen (N2
), ■ 0! CO! Based on the information from the concentration detector (+8), the controller (11) is activated at the same time as the first solenoid pulp (N3) is opened, and the amount of oxygen contained in the indoor air sent by the compressor (4) is approximately 5% oxygen inside while adsorbing 20%
The first supply path (R+) and the circulation path (R6) are communicated via the nitrogen-enriched gas production device (2) until

@When the oxygen content (02) in the gas inside the refrigerator reaches 5%, @1
The solenoid (Ss) closes and at the same time the controller (11) stops, and instead the second solenoid (N4) opens and at the same time activates the temperature controller (16) to reduce the 5% oxygen content ( A part of 02) is converted into carbon dioxide (CO2) through a combustion reaction with the carbon material, and a part of the
R6).

When the inside of C1ff1E reaches the set oxygen (0++) 2%, carbon dioxide (CO2) 3%, and cutting nitrogen (N2), the second solenoid (N4) closes and the temperature controller (15
) stops.

It should be noted that the above-mentioned operation is configured so that it can be performed manually in addition to being performed by the control device t (19).

The first part (V) is a relief valve, which is configured to open when the pressure in the storage (1) rises abnormally to suppress the pressure rise.

[Another example]

The control operation by the control device (+9)
While the gas inside is once evacuated by the vacuum pump (7) to almost a vacuum state, at the same time, the air tank t21 is
The air taken in from the outside via + is used to produce nitrogen-enriched gas and carbon dioxide gas by the nitrogen-enriched gas production device (2) and carbon dioxide gas generation device (3), and store them in the respective tanks (8) and H. Then, the nearly vacuumed storage chamber is configured to be supplied with nitrogen-enriched gas, carbon dioxide gas, and, if necessary, external air containing oxygen to create a predetermined atmosphere. Alternatively, the above operation may be performed manually.

[Brief explanation of drawings]

The drawing is a schematic view showing an embodiment of the special atmosphere equipment for storage according to the present invention. +1+...Storage, (2)...Nitrogen enriched gas production device, (3)...Carbon dioxide gas generation device.

Claims (1)

[Claims] An oxygen adsorption type nitrogen-enriched gas production device (2), which is an atmosphere adjustment equipment for storage that adjusts the atmosphere in the storage (1) so that the contents of nitrogen, oxygen, and carbon dioxide are in appropriate amounts.
and a carbon combustion type carbon dioxide gas generator (3).