JPH0579763A - Air-conditioner of storage device - Google Patents

Abstract

PURPOSE:To obtain a storage device where a storage compartment is kept at a specified temperature and humidity, a reduction in storage cost is easily achieved and simplification of operation and maintenance is easily accomplished. CONSTITUTION:A storage compartment 3 and a machine room 4 are built in a building 1, and a dehumidifier and a fan 9, which supplies air having a constant temperature and humidity into the storage compartment 3, are installed in the machine room 4. A differential-pressure fan 15, which returns air from the storage compartment 3 to the machine room 4, is provided so that air is circulated between the storage compartment 3 and the machine room 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner for a storage facility for storing, for example, potatoes or onions.

[0002]

2. Description of the Related Art Conventionally, there has been a low temperature warehouse as a storage facility.

[0003]

In the prior art, since the construction cost and the equipment cost are high, it is necessary to enlarge the scale to reduce the storage cost, and it is not possible to easily simplify the management operation. There was a problem such as.

[0004]

SUMMARY OF THE INVENTION Therefore, according to the present invention, a storage room and a machine room are formed in a building, and a dehumidifier and a blower for supplying normal temperature and constant humidity air to the storage room are installed in the machine room and the storage is performed. A differential pressure fan that returns the air in the room to the machine room is provided, and it is configured to circulate the air between the storage room and the machine room.The room temperature and constant humidity air formed by the dehumidifier is supplied to the storage room by the blower, Since the air in the storage room is returned to the machine room by the differential pressure fan, the inside of the storage room can be easily maintained at a predetermined temperature and humidity, and the storage cost can be easily reduced without increasing the storage volume. It is possible to easily simplify the management and operation as compared with the conventional method.

Further, based on the detection result of the static pressure sensor for detecting the static pressure of the storage chamber, the rotational speed of the differential pressure fan is automatically controlled to keep the static pressure of the storage chamber substantially constant. It is possible to easily prevent the shortage of the room temperature and constant humidity air supplied to the storage room, and to easily manage the storage temperature and humidity.

Further, based on the detection result of the internal temperature sensor for detecting the temperature rise inside the building, the outside air intake means is automatically controlled so that the outside air is taken in at a predetermined temperature or higher to lower the internal temperature. The temperature rise due to the air circulation between the room and the machine room can be easily prevented, and the temperature control can be simplified and the safety can be easily improved.

[0007]

Embodiments of the present invention will now be described in detail with reference to the drawings. 1 is a side view of the storage facility, FIG. 2 is a plan view of the same, and FIG.
FIG. 3 is a front explanatory view of the same. A storage room (3) and a machine room (4) are formed inside a building (1) made of a heat insulating material via a partition wall (2), and each room (3) (4) is formed. ) Is divided into right and left by a partition wall (5), and potatoes or onions are put in a container (6) with good air permeability, and the container (6) is stored via an openable shutter (7). Dehumidifier (8) and blower (9) for loading / unloading into / from the chamber (3), placing the containers (6) in the storage chamber (3) in a multi-row type and a multi-layer type, and forming room temperature and constant humidity air.
A ventilation duct (1) for installing the above-mentioned machines in the respective machine rooms (4) (4) and arranging them behind the ceiling (10) of the building (1)
1) via the storage chamber (3) front upper exhaust duct (1
The blower port of the blower (9) is communicated with 2), and the dehumidifier (8) and the blower (9) are operated by operating the switch of the operation panel (13) provided outside the front part of the building (1), Room temperature and humidity are supplied to one or both of the storage chambers (3) and (3) to store the potatoes or onions in the containers (6).

Further, the front side of the storage chamber (3) excluding the container (6) installation portion is closed by a curtain (14), and the curtain (14) is hung from the ceiling (10),
Passage space on the side of the container (6) and the container (6)
The space between the ceiling and the ceiling (10) is closed by a curtain (14), and the exhaust duct (1
Room temperature and humidity are supplied from 2), and the container (6) ...
The room temperature and the humidity are passed through the space and the inside to move to the rear of the storage chamber (3).

Further, a partition wall (2) is provided for the differential pressure fan (15) ... Returning the air in the storage chamber (3) to the machine room (4).
The room temperature and humidity of the dehumidifier (8) formed by taking in the air of the machine room (4) are supplied to the front part of the storage room (3) by the blower (9) and the storage room (3) The rear air is discharged to the machine room (4) by the differential pressure fan (15), the air is circulated between the storage room (3) and the machine room (4), and the inside of the storage room (3) has a predetermined temperature and humidity. Configured to keep.

Furthermore, a static pressure sensor (16) for detecting the static pressure inside the storage chamber (3) by a mercury column is provided, and the rotational speed of the differential pressure fan (15) is automatically determined based on the detection result of the sensor (16). A blower that controls the air discharge amount from the storage chamber (3) by the differential pressure fan (15) to keep the static pressure of the storage chamber (3) substantially constant and supply the same to the storage chamber (3). It is configured to prevent the shortage of the room temperature and constant humidity air from (9).

Further, an internal temperature sensor (17) for detecting the temperature rise inside the building (1) is attached to the machine room (4) side of the partition wall (2), and an intake and exhaust ventilation fan ( 18) and (19) are attached to the outer wall (20) of the machine room (4), and the fans (18) and (19) are automatically controlled based on the detection result of the sensor (17). External air is taken in by the fans (18) and (19) to lower the internal temperature of the machine room (4) and keep the temperature of the storage room (3) substantially constant.

Further, as shown in FIG. 4, an evaporator (21) for cooling and dehumidifying, a condenser (22) for recovering the room temperature, a scroll compressor (23) for stepwise adjustable output, and the like are provided in the dehumidifier (8). In addition to the above, an outside air intake duct (25) for taking in the atmosphere (humid air) from above through the dehumidification adjusting flaps (24) is provided, and the room temperature dehumidified air from the condenser (22) and the duct (25) are provided.
The ambient temperature and humidity are formed by mixing with the atmosphere from the above, and the ambient temperature and humidity air is sucked into the blower (9).

Further, as shown in FIG. 5, the internal temperature sensor (17) and the static pressure sensor (16) are connected to the air conditioning circuit (26) formed by a microcomputer, and the ventilation fan (18) ( The air conditioner circuit (26) is connected to the power supply control unit (19) and the rotation speed control unit of the differential pressure fan (15), and the detected value of the internal temperature sensor (17) is changed as shown in the flowchart of FIG. When the internal temperature of the machine room (4) rises above a predetermined level by inputting it, a ventilation operation is performed to operate the ventilation fans (18) (19) to take in outside air to lower the internal temperature to below a predetermined level, and the static pressure. When the detection value of the sensor (16) is input and the static pressure of the storage chamber (3) is equal to or higher than a predetermined value, the differential pressure fan (1
When the static pressure of the storage chamber (3) is lower than a predetermined value, the rotational speed of the differential pressure fan (15) is decreased to increase the static pressure. The rotational speed of (15) is automatically controlled to keep the static pressure in the storage chamber (3) within a substantially constant range.

[0014]

As is apparent from the above embodiments, the present invention forms a storage room (3) and a machine room (4) inside a building (1) and supplies room temperature and humidity air to the storage room (3). The dehumidifier (8) and the blower (9) are installed in the machine room (4), and a differential pressure fan (15) for returning the air in the storage room (3) to the machine room (4) is provided to store the storage room (3). ) And the machine room (4) to circulate air, and the room temperature and humidity air formed by the dehumidifier (8) is supplied to the storage room (3) by the blower (9) to supply the storage room (3). 3) Air from the differential pressure fan (1
Since it is returned to the machine room (4) by 5), the inside of the storage room (3) can be easily maintained at a predetermined temperature and humidity, and the storage cost can be easily reduced without increasing the storage volume. It is possible to easily simplify the management operation and the like as compared with the conventional method.

Further, based on the detection result of the static pressure sensor (16) for detecting the static pressure of the storage chamber (3), the differential pressure fan (1
It is configured to automatically control the rotation speed of 5) to keep the static pressure of the storage chamber (3) substantially constant, and easily prevent shortage of room temperature and constant humidity air supplied to the storage chamber (3). Therefore, the storage temperature and humidity can be easily controlled.

Further, based on the detection result of the internal temperature sensor (17) for detecting the temperature rise inside the building (1), the outside air intake means (18) (19) are automatically controlled so that the outside air is taken in at a predetermined temperature or higher. It is configured to lower the internal temperature, so it is possible to easily prevent temperature rise due to air circulation between the storage room (3) and the machine room (4), simplifying temperature management and improving safety. It can be achieved.

[Brief description of drawings]

FIG. 1 is a side view of a storage facility.

FIG. 2 is a plan view of the same.

FIG. 3 is a front explanatory view of the same.

FIG. 4 is an explanatory side view of the same.

FIG. 5 is an air conditioning control circuit diagram.

FIG. 6 is a flowchart of air conditioning control.

[Explanation of symbols]

 (1) Building (3) Storage room (4) Machine room (8) Dehumidifier (9) Blower (15) Differential pressure fan (16) Static pressure sensor (17) Internal temperature sensor (18) (19) Ventilation fan ( Outside air intake means)

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁵ Identification code Office reference number FI technical display location F26B 21/10 Z 9140-3L

Claims (3)

[Claims] 1. A dehumidifier and a blower, which form a storage room and a machine room inside the building, supply normal temperature and humidity air to the storage room, and install the dehumidifier and the air in the storage room into the machine room. An air conditioner for a storage facility, comprising a fan and configured to circulate air between the storage room and the machine room. 2. Based on the detection result of the static pressure sensor for detecting the static pressure of the storage chamber, the rotational speed of the differential pressure fan is automatically controlled to keep the static pressure of the storage chamber substantially constant. An air conditioner for a storage facility according to the above item 1. 3. An outside air intake means is automatically controlled based on a detection result of an internal temperature sensor for detecting a temperature rise in a building, and the outside air is taken in at a predetermined temperature or higher to lower the internal temperature. An air conditioner for a storage facility according to the above item 1.