JPH0125585Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a hot air dehumidifying and drying device that is applied to, for example, drying seafood and other objects to be dried.

In general, drying of seafood can be roughly divided into solar drying, hot air drying, and cooling drying.

Furthermore, the hot air drying mentioned above is classified into low temperature drying and high temperature drying, but drying methods using low temperature air ventilation
It takes a long time to dry, which makes drying difficult especially during the rainy season, summer, and other seasons when the outside air or atmosphere is hot and humid.

On the other hand, the drying method using high-temperature air ventilation can shorten the drying time compared to the above-mentioned low-temperature air drying, but the high-temperature air tends to cause red-burning of the dried material and deterioration of proteins, etc. However, there is a drawback that deterioration of quality cannot be avoided.

Therefore, in order to solve the above-mentioned drawbacks of the conventional hot air drying means, the present invention creates low-temperature dehumidifying hot air by appropriately combining a hot air generator and a dehumidifier, and thereby performs low-temperature drying. In addition, by circulating low-humidity warm air, it is possible to save energy both in terms of heat and dehumidification.In addition, the series of drying steps from high-temperature drying to low-temperature dehumidifying drying can be improved. The purpose is to provide a hot air dehumidification/drying device that can perform dehumidification and drying automatically by utilizing outside air.

The present invention will be described in detail below based on the illustrated embodiment. As shown in FIG. and a dehumidifier 3 for dehumidifying the circulating hot air.
The main components are a circulation line 4, a heating line 5, a dehumidification line 6, a humidity sensor 7, and a temperature sensor 8.

The drying oven 1 includes fans 9, 9, discharge ducts 10, 10, and a circulation duct 11,
On the other hand, the hot air generator 2 includes a burner 12 and dampers 13, 14, and 15.

Further, the heating line 5 is connected to the circulation duct 11.
- Damper 13 - Warm air generator 2 - Damper 15 - Fans 9, 9 - Discharge duct 10, 10. On the other hand, the circulation line 4 is formed by the circulation duct 11 - Damper 14 - Fan 9, 9
- It is formed by a connected system of discharge ducts 10,10.

Further, the dehumidification line 6 is connected to the circulation duct 11-
Damper 16 - Dehumidifier 3 - Two-way branch line 6
a, 6b, and an aftercooler 17, dampers 18, 19, 20 are provided in this line, and fans 9, 9 and discharge ducts 10, 10 are connected to this line.

The humidity sensor 7 is connected to the fan 9.
The temperature sensor 8 is attached near the outlet of the discharge duct 10 and can detect the humidity of the dehumidified warm air entering the fan 9, while the temperature sensor 8 is attached near the outlet of the discharge duct 10 and can detect the temperature of the circulating hot air. The humidity sensor 7 is connected to the dehumidifier 3 by a line 21, while the temperature sensor 8 is connected to the hot air generator 2 by a line 22, and each sensor 7, 8 Using the detected humidity and temperature, the operation of the dehumidifier 3 and the hot air generator 2 is automatically controlled based on desired set values.

Further, the circulation line 4 is provided so that fresh air can be sucked in from the outside, and the air intake port 2 is connected to the circulation line 4.
A damper 24 with a filter is attached to the third side.

Further, the dehumidifying line 6 has branch lines 6a and 6b on the outlet side of the dehumidifier 3 as described above, and one of the lines 6a has the damper 18, An aftercooler 17 and a damper 19 are attached to the other line 6b, and only a damper 20 is attached to the other line 6b.
By opening and closing 9 and 20, it is also possible to perform further dehumidification and drying using the aftercooler 17.

In the figure, reference numeral 25 indicates a fuel supply line for supplying fuel such as LPG to the burner 12 in the hot air generator 2.

In the above configuration, when drying the dried material using this, the dried material is stored in the drying oven 1 in a state where ventilation is possible, for example, in a multi-stage manner, and the dried material is dried. Drying setting conditions corresponding to the above are set for the humidity sensor 7 and temperature sensor 8.

Now, let's assume that the drying settings above are at a temperature of 30°C.
If the humidity is 30%, when the detected temperature is 30°C and the humidity is 30%, the dampers 13, 16, and 24 will be closed, the damper 14 will be opened, and only the circulation line 4 will be used.

In addition, if the detected temperature is 30°C or higher and the humidity is 30%, the dampers 13 and 16 are closed, and not only the damper 14 but also the filtered damper 24 is closed.
The circulation line 4 is used while also being opened to introduce outside air.

Furthermore, the detected temperature is below 30℃ and the humidity is 30%.
In this case, close the dampers 14 and 16,
Either the damper 13 is opened and only the thermal line 15 is used, or the circulation line 4 is also used depending on the opening degree of the dampers 13 and 14.

Next, if the detected temperature is 30℃ and the humidity is 30% or more, close the dampers 13, 14, 18,
By opening and closing the damper according to setting conditions, such as opening the damper 16 and using the dehumidification line 6, a desired set value can be met.

The illustrated dampers 15 and 19 act to prevent loads from being applied to the hot air generator 2 and the aftercooler 17, respectively.

In the above embodiment, the fans 9, 9 and the discharge ducts 10, 10 are arranged on the inlet side and the outlet side of the drying oven 11, respectively, the humidity sensor 7 is attached near the inlet of the fan 9, and the temperature sensor 8 is attached to the outlet side of the drying oven 11. Although it is attached to the exit side of the duct 10, the present invention is not limited to the above configuration.

As explained above, according to the hot air dehumidifying and drying device according to the present invention, the circulation duct 11 of the drying oven 1 - the damper 13 - the hot air generator 2 - the fan 9 - the discharge duct 10 of the drying oven 1 are closed in series. heating line 5
and the circulation duct 11-damper 14- of the drying oven 1.
A circulation line 4 which is a series closed circuit of the fan 9 and the discharge duct 10 of the drying oven 1, and a damper between the damper 14 of the circulation line 4 and the fan 9 and between the hot air generator 2 and the fan 9. 24, and a dehumidification line 6 which is a series closed circuit of the circulation duct 11 of the drying oven 1, the damper 16, the dehumidifier 3, the fan 9, and the discharge duct 10 of the drying oven 1. The hot air generator 2 is equipped with a temperature sensor that receives a signal from a temperature sensor 8 provided on the outlet side of the drying oven 1 and maintains the temperature inside the drying oven 1 at a set value. 8
is connected to the dehumidifier 3, and the humidity sensor 7 is connected to the dehumidifier 3 so that the humidity inside the drying oven 1 is maintained at a set value in response to a signal from the humidity sensor 7 provided on the inlet side of the drying oven 1. Because of this, low-temperature drying is possible by dehumidifying hot air even in a low-temperature range, and the drying efficiency can be improved, so for example, red scorch occurs when drying seafood such as whitebait. This problem can be solved, and running costs can be reduced by adopting a hot air circulation system.In addition, outside air can be introduced to lower the temperature of the hot air, and this can be used not only in the heating line but also in the circulation line. Since it is also possible to supply the temperature, automatic temperature reduction control can be performed efficiently and economically.

[Brief explanation of the drawing]

The figure is an explanatory diagram of the piping of the hot air dehumidifying and drying device according to the present invention. 1... Drying oven, 2... Warm air generator, 3... Dehumidifier, 4... Circulation line, 5... Heating line, 6...
...Dehumidification line, 6a, 6b... Branch line, 7...
... Humidity sensor, 8 ... Temperature sensor, 9 ... Fan, 10 ... Discharge duct, 11 ... Circulation duct, 13, 14, 15, 16, 18, 19, 2
0, 24...damper, 17...aftercooler.

Claims (1)

[Scope of Claim for Utility Model Registration] (1) Drying oven circulation duct - damper 13 - hot air generator - fan - heating line which is a series closed circuit of the drying oven discharge duct, and drying oven circulation duct - damper 14 - Outside air can be freely introduced through a damper 24 between the circulation line which is a series closed circuit of the fan-drying oven discharge duct, the damper 14 of the circulation line and the fan, and between the warm air generator and the fan. The hot air generator is equipped with a dehumidification line that is a series closed circuit of the circulation duct of the drying oven, the damper 16, the dehumidifier, the fan, and the discharge duct of the drying oven. The temperature sensor is connected to receive a signal from a temperature sensor installed on the outlet side so that the temperature inside the drying oven is maintained at a set value, and the dehumidifier is connected to a humidity sensor installed on the entrance side of the drying oven. A hot air dehumidifying/drying device connected to a humidity sensor so that the humidity inside the drying oven is maintained at a set value in response to a signal from the drying furnace. (2) A dehumidifying line is divided into two branch lines on the dehumidifier outlet side, and an aftercooler is attached to one of the branch lines, as stated in claim 1 of the utility model registration claim. Hot air dehumidification drying equipment.