JPS5855653A - Feeder for dried air - 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 The present invention relates to an air conditioner that performs drying at around 20'C to 30C, and particularly to a dry air supply device suitable for drying dried persimmons.

Conventionally, drying equipment at around 20°C to 30°C has been equipped with two dehumidifiers and a cooling/heating unit, but since the dehumidifier was installed separately, there was a problem with the installation location.

The present invention was invented in view of the above, and aims to reduce the installation space and save labor at the site by incorporating a cooling/heating and reheating mechanism into an air conditioner as an integrated structure.

In order to achieve the above object, the present invention separates the condenser into two parts, one installed outdoors and the other installed inside the air conditioner, and utilizes the entire amount of heat released during dehumidification to increase the temperature of the guide. It is characterized by a fully automatic superheat adjustment mechanism.

FIG. 1 shows the arrangement of equipment of a dry air supply device according to an embodiment of the present invention. A dried persimmon shelf 24 is arranged inside a drying box 25, and an indoor unit 27 of an air conditioner inside the box is equipped with a dried persimmon rack 24. A suction port 26 is provided opposite to the shelf 24, and an indoor heat exchanger 2, a condenser 16, and a blower 15 are installed inside the machine. A wind cylinder 30 is connected to the blower 15, and a guide wall 31 is connected to the air outlet 28 at the tip. Inside the outdoor unit 32 are a compressor 1, an outdoor heat exchanger 3, and an achievable unit.
A blower 18 is installed, and the outdoor unit 32 and the indoor unit 25 are connected by pipes 20, 21, 22, and 23. A refrigeration cycle equipped with the above equipment is shown in FIG.

Each of the above-mentioned devices is connected to piping as shown in the figure to form a refrigeration cycle. In the figure, 1 is a cooling cabillary chest.
8 is a heating capillary tube, 9 is a four-way valve, 11 is a check valve, 13.14 is a refrigerant electromagnetic valve, 17 is a low pressure control valve, and 29 is an auxiliary heater. Solid arrows indicate the cooling operation, and dashed arrows indicate the direction of refrigerant flow during the heating operation. During dehumidifying and heating operation, the refrigerant gas discharged from the compressor 1 is transferred to the discharge pipe 3.
The refrigerant branches into two directions through the refrigerant solenoid valves 13 and 14, flows into the four-way valve 9, the condenser (outdoor heat exchanger) 3, and the condenser 16, is cooled and liquefied in the recirculation section, and then flows into the check valve 11a. , 11b
1 Capillary Cheap 7 to evaporator (indoor heat exchanger)
2, it absorbs heat and evaporates, then the four-way valve 9, the
It is sucked into the compressor 1 through the taro. Indoor continuous ring air A is cooled and dehumidified in the evaporator 2, then heated in the condenser 16, sucked into the blower 15, and blown out into the room again. The refrigerant solenoid valves 13 and 14 are connected to the indoor heat exchanger 3 and the condenser 16.
This is a valve to operate the valve as appropriate. Further, 17 is a control valve that prevents the low pressure from dropping too much during low-temperature operation.

Next, in the cooling operation, the gas discharged from the compressor 1 passes through the solenoid valve 13, passes through the four-way valve 9, becomes liquid refrigerant in the condenser 3, passes through the check valve 11a, is depressurized in the capillary 7, and is depressurized in the evaporator 2.
The indoor air is cooled and removed, passes through the four-way valve 9, passes through Aki and Muretaro, and returns to the compressor 1. When the room temperature drops too much, the solenoid valve 14 opens, the solenoid valve 13 closes, and the refrigerant passes through the condenser 16 to heat the room and perform dehumidification operation.

Next, the cooling operation will be explained.

Once the persimmons are dry, they will eventually need to be cooled to 10'c. Since this device is capable of cooling, cooling operation can be easily performed by switching the operation and operating 3 as a condenser and 2 as an evaporator.

The standard operations for producing dried persimmons are heating, dehumidifying, and cooling operations.

Next, to summarize the above operation, in the heating operation, 2 is the condenser,
16 is operated as a condenser, and 3 is operated as an evaporator. Next, the dehumidifying operation is performed using 2 as an evaporator and 16 as an a+uit device. Next, in the cooling operation, 3 is used as a condenser and 2 is used as an evaporator.

Defrost operation When defrosting with this device, the indoor blower is rotated in the opposite direction to reduce the amount of air being blown so that a large amount of cold air does not hit the dried persimmons, and the electromagnetic opening and closing of the blower is performed to complete the defrost process. Use two sets of containers (one for forward rotation) (one for reverse rotation).

As explained above, the present invention has the following effects.

(1) This device is an air conditioner in which the refrigeration cycle required for the configuration is integrated into one housing.

(2) Since the heat transfer area can be increased by using both the condensers 2 and 16, efficient heating can be achieved.

[Brief explanation of the drawing]

The figure shows one embodiment of the dry air supply device of the present invention.
The figure shows the equipment layout, and Figure 2 shows the refrigeration cycle. 2... Indoor heat exchanger 3... Outdoor heat exchanger 15.
...Indoor blower 16...Condenser 17...
Low pressure force control valve 18...Outdoor blower 25.
・・Drying room 27・Air conditioner (indoor unit)
32...Outdoor unit

Claims (1)

[Claims] It is equipped with an outdoor unit that cools the condenser directly from the indoor air, forms an air passage that reheats and dehumidifies the air, and is equipped with a discharge gas bypass control valve on the compressor inlet side to prevent refrigerant from returning to liquid. A dry air supply device characterized by: