KR20030042316A - The quick dry a device - Google Patents

Abstract

PURPOSE: A quick dry device is provided to simultaneously dehumidify and dry by reheating and ventilating dried air after cooling and drying inflow air. CONSTITUTION: A housing(102) has an inlet(101) to suck air and an outlet(103) to discharge air. A dehumidifier(120) is formed inside the housing. The dehumidifier removes moisture in the air sucked through the inlet. A heater(130) heats the dehumidified air and discharges the air through the outlet. The dehumidifier comprises a first moisture separator(121) to absorb and evaporate the moisture of the air, a fan(123) to control the flowing of the air, a second moisture separator(125) to filter the frozen moisture through the first moisture separator, a condenser(127) to cool steam by the heater, and a compressor(129) to compress the circulated air by controlling the first moisture separator and the condenser. Thereby, a motor, a panel, a hermetic room and so on are dried quickly.

Description

Quick Drying Device {The quick dry a device}

The present invention relates to a quick drying device and a method for drying the same, and more particularly, to a quick drying device for quickly drying equipment used in various fields such as a motor, a panel, and a closed room from moisture. will be.

In general, power plants are equipped with facilities such as a motor and a panel enclosed room. Some of these motors have a space heater installed, but many more do not.

Most of the motors are in standby during operation during normal operation of the power plant, or the motors of the equipment under maintenance are stopped during the planned preventive maintenance period and the insulation deterioration and insulation are often lost.

In summer, condensate is generated in the cooling system plumbing, and there is a lot of moisture around the system.In addition, the building drain manhole is located in the middle of the building.In winter, the steam recovered from the heating heater is discharged into the building. Influenced equipment (motors, panels, etc.) located.

In particular, in the case of the equipment of nuclear power plants, a management zone is set up for each safety-related equipment, and a separate room is installed.

In addition, when using a conventional fan heater, the drying time is considerably high, and when there is a lot of condensate in the surroundings or in the summer, it is difficult to dry. In case that there is a possibility of causing an artificial power generation stop, there was a closure such as requiring urgent maintenance by welding during operation.

In case of insulation breakdown caused by moisture in the motor, it takes a lot of time to dry with a fan heater. In case of equipment installed in a closed space and a humid area, it is not only difficult to dry by fan heater, but also after drying Even after normalization, there was a problem such as humidity increased again after cooling.

Therefore, if the motors installed in the field have an insulation breakdown caused by moisture, we have developed a high-performance device that can effectively remove moisture and normalize the equipment in a short time, preventing artificial power failure and recovering the equipment. There is a need for a drying apparatus and a drying method for improving external reliability.

Therefore, the present invention has been proposed to solve the general problems according to the conventional rapid drying apparatus as described above, and then dried to remove moisture by cooling the air sucked in the drying equipment such as motor, and then reheat the dried air It is an object of the present invention to provide a quick drying apparatus for dehumidifying and drying at the same time by exhausting.

The present invention for achieving the above object, and a housing formed with an intake port for sucking air and an exhaust port for discharging air; Dehumidifying means formed in the housing and removing moisture contained in the air drawn in through the inlet; Heating means for heating the air from which moisture is removed by the dehumidifying means in the housing and discharging the air to an exhaust port; It is characterized by comprising a.

In another aspect, the present invention, the dehumidifying means, the first moisture separator for absorbing the moisture of the air coming from the inlet and the evaporator, a fan for controlling the flow of air, the agent for filtering again the moisture condensed through the first moisture separator And a moisture separator, a condenser for cooling the steam generated by the heater, and a compressor for controlling the first moisture separator and the condenser to compress the circulating air.

1 is a schematic view of a drying apparatus according to the present invention.

Figure 2 is a schematic view showing a control system of the drying apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: drying apparatus 101: intake

102: housing 103: exhaust

120: dehumidification means 121: first moisture separator

123: fan 125: second moisture separator

127: condenser 129: compressor

130: heating means

Hereinafter, an apparatus rapid drying apparatus according to the present invention will be described with reference to the accompanying drawings.

In the accompanying drawings, FIG. 1 shows a schematic diagram of a drying apparatus according to the present invention, and FIG. 2 shows a schematic diagram showing a control system of the drying apparatus according to the present invention.

The rapid drying apparatus 100 of the present invention includes a housing 102 having an inlet 101 for sucking air and an exhaust port 103 for discharging air, and formed in the housing 102 to form an inlet 101. Dehumidifying means 120 for removing the moisture contained in the air intake through the air, the air formed in the housing 102, the moisture is removed from the dehumidifying means 120 is heated by a heater to be discharged to the exhaust port 103 It consists of a heating means (130).

The dehumidifying means 120 is condensed through the first moisture separator 121 for absorbing the moisture of the air coming from the inlet and the evaporator, the fan 123 for controlling the flow of air, and the first moisture separator 121. The second moisture separator 125 to filter the moisture again and the condenser 127 for cooling the steam, the compressor 129 for compressing the air circulating by connecting the first moisture separator 121 and the condenser 127. It is configured to include).

And, where the outlet of the housing is formed, the heating means 130 for heating the filtered air with a heater is configured. In addition, the inlet port 101 and the exhaust port 103 are configured by connecting the equipment drying chamber 107 for accommodating the motor 109 as equipment and the connection hose 105 for moving the air connecting the housing 102.

On the other hand, the first moisture separator 121 and the condenser 127 is preferably used having a large temperature transfer effect, the second moisture separator 125 is installed in a plurality of vertical panels or using the resistance of the evaporator coil Will be installed. In addition, it is configured by installing a control box 140 that can control the major components of the drying apparatus 100.

Referring to the effect of the rapid drying device of the present invention configured as described above are as follows.

For reference, there are chemical methods using a dehumidifying agent such as silica gel and a mechanical method using a dehumidifying device as a method of removing moisture in the air to blow dried air into the motor 109. Mechanical methods are effective at quickly removing moisture at double sites.

In that way, the air is compressed and cooled to condense the moisture in the air as much as possible, and then the moisture in the air is drastically reduced when the moisture is removed and heated again. Such a device requires compression, cooling and heating functions.

The present invention is to cool the moisture air by using the air conditioning function and the principle of heating to condense and remove moisture in the air, and to heat again to inject the equipment to be dried to remove the moisture in the equipment.

This is to accelerate the drying speed of the equipment by heating and injecting the dried air into the equipment and to increase the differential pressure in the equipment to be dried by using a strong fan so that the dry air is supplied to the minute portion. In addition, the drying equipment is configured to be easily transported on site and easy to remove and manipulate.

As shown in FIG. 2, the refrigerant cycle includes a compressor, a condenser, and a moisture separator as a main component by adopting a circuit in the refrigerator as a function of increasing the temperature in the air to reach the dew point in order to remove humidity in the air. To form.

This is a circuit for drying the equipment by injecting the dried air by heating the cooled air to room temperature (100 ??) and drying the equipment to form a three-stage electric heater and a compression fan blower.

On the other hand, the temperature sensor is installed in the humidity and temperature sensor and the moisture separator at the inlet side of the equipment, and the compressor is configured to control by installing a compression regulator.

Thus, during operation, the operating principle is to remove water vapor in the air and blow dry air into the motor to operate to evaporate and remove moisture in the motor. In addition, the water vapor removal in the air is a principle used in the constant temperature and humidity chamber to quench the air to condense the water vapor in the air to remove the moisture through the moisture separator.

Again, this dehumidified air is heated by a heater to raise the temperature and then blown into the motor. In other words, the air recovered from the motor is discharged to the atmosphere or recycled.

Therefore, the rapid drying equipment according to the present invention is designed and manufactured to be used for drying not only motor drying but also other equipment, and can be used for general industrial use. It is also useful for removal and free to move.

As described above, the rapid drying apparatus of the present invention cools the inhaled air when drying equipment such as a motor, and then dries to remove moisture, and then reheats and exhausts the dried air so that dehumidification and drying are performed simultaneously. It is a very useful invention that not only can quickly dry a motor, a panel, a sealed room, etc. installed in various sites having problems with insulation, but also easy to install and move to a place.

Claims (2)

A housing having an intake port for sucking air and an exhaust port for discharging air; Dehumidifying means formed in the housing and removing moisture contained in the air drawn in through the inlet; Heating means for heating the air from which moisture is removed by the dehumidifying means in the housing and discharging the air to an exhaust port; A quick drying device comprising: a. The method of claim 1; The dehumidification means, A first moisture separator for absorbing moisture from the intake air and evaporating it; a fan for controlling air flow; a second moisture separator for re-filtering moisture condensed through the first moisture separator; And a compressor for cooling steam, and a compressor for compressing air circulating by controlling the first moisture separator and the condenser.