KR101501728B1 - Desicant dehumidifier - Google Patents

Abstract

The desiccant dehumidifier according to an embodiment of the present invention includes a rotor disposed to adsorb moisture from air through a dehumidifying material and rotate to rotate with respect to a rotation center axis of the dehumidifier, And a regenerative heater disposed on one side of the regenerated air, a condenser for condensing moisture contained in the regenerated air to remove moisture, and a blower fan for discharging the air dried past the rotor to the outside, Wherein the blower fan is disposed adjacent to one side of the rotor in a range of 60 degrees or less in a direction opposite to the rotation direction of the rotor in a discharge direction in which air is discharged to the outside, It can rotate.
Accordingly, the blower fan is rotated in the same direction as the rotation direction of the rotor, and the regenerative heater is disposed at a predetermined angle in the direction opposite to the rotation direction of the rotor from the discharge direction in which the air is discharged, And the rotor can be cooled.

Description

Desicante dehumidifier {DESICANT DEHUMIDIFIER}

The present invention relates to a desiccant dehumidifier, and more particularly, to a desiccant dehumidifier in which moisture contained in air is adsorbed and adsorbed moisture is evaporated again to remove the dehumidified air through a condenser and to discharge the dried air.

Generally, desiccant dehumidification means dehumidification using the adsorption phenomenon of a dehumidifying agent such as silica gel or zeolite.

Explaining the change of the treated air in the desiccant dehumidification, the condensation heat is generated when the water vapor condenses. However, when the condensation is performed, a greater force between the molecules acts on the surface of the adsorbent than the attraction force, , Which is called adsorption heat, is about 1.5 to 2 times as much as the condensation heat.

Therefore, the temperature of the air does not rise above the backwash line, but further raises the ambient temperature and lowers the dehumidification moisture amount.

The desiccant is a substance having high affinity for water vapor, and can absorb water vapor of about 20% or more of the dry weight. However, since the amount of moisture that can be dehumidified is limited, the desiccant is dried again, There is a problem in that it becomes dry.

 There is a disadvantage that the power consumption of the dry regeneration heater is increased and the temperature of the dry air discharged back to the outside is increased in order to make the desiccant dry again to the original dry state.

Registered Utility Model Registration No. 3182805 (31 March 2013)
Japanese Patent Application Laid-Open No. 59-100324 (June, 1984)

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide an air conditioner in which the blower fan is rotated in the same direction as the rotation direction of the rotor and the regenerating heater is disposed outside the discharge direction in which air is discharged, And to provide a desiccant dehumidifier capable of lowering the temperature of the drying air and cooling the rotor.

The desiccant dehumidifier according to an embodiment of the present invention includes a rotor that absorbs moisture from the air through a dehumidifying material and is disposed to rotate with respect to a rotation center axis, and a dehumidifier that heats the dehumidified material And a regenerative heater disposed on one side of the regenerated air, a condenser for condensing moisture contained in the regenerated air to remove moisture, and a blower fan for discharging the air dried past the rotor to the outside, Wherein the blower fan is disposed adjacent to one side of the rotor in a range of 60 degrees or less in a direction opposite to the rotation direction of the rotor in a discharge direction in which air is discharged to the outside, It can rotate.

The blower fan may rotate about a rotation center axis of the rotor.

The blower fan sucks the air through the rotor to the center and discharges the air in the discharge direction.

The discharge direction may be an upward direction.

The regenerative heater may be disposed in an area not deviated by 60 degrees from a direction opposite to the rotational direction of the rotor with respect to the discharge direction.

The regenerative heater may be disposed between the rotor and the blower fan.

The blower fan and the regenerative heater may be disposed behind the rotor.

As described above, in the desiccant dehumidifier according to the embodiment of the present invention, the blower fan is rotated in the same direction as the rotation direction of the rotor, and the regenerative heater is set in the direction opposite to the rotation direction of the rotor By arranging them at an angle, the temperature of the dry air discharged to the outside can be lowered and the rotor can be cooled.

1 is a general flow diagram of a desiccant dehumidifier related to the present invention.
2 is a partially exploded perspective view of a desiccant dehumidifier according to an embodiment of the present invention.
FIG. 3 is a schematic diagram illustrating a part of a desiccant dehumidifier according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall flow diagram of a desiccant dehumidifier according to one embodiment of the present invention.

Referring to FIG. 1, the dehumidifier 100 mainly includes a dehumidification passage 130 through which the outside air moves and a regeneration passage 165 through which the regeneration air circulates.

The dehumidification passage 130 is provided with a condenser 150, a rotor 115, and a blower fan 105. The rotor 115 is arranged to rotate inside the rotor case 120 and air moving along the dehumidification passage 130 flows through the dehumidifying opening 125 of the rotor case 120 to the rotor 115, And is discharged to the outside by the blower fan 105.

A regeneration passage 165 is formed separately from the dehumidification passage 130. The regeneration passage 165 is provided with a regeneration fan 160, a heater 140, and a rotor 115.

The regeneration air moving along the regeneration passage 165 passes through the rotor 115 through the regeneration opening 145 of the rotor case 120 and is regenerated by the regeneration fan 160 to the regeneration passage 165. [ .

The moisture of the air moving through the dehumidification passage 130 is adsorbed by the moisture absorbent of the rotor 115 and the hot air passing through the regeneration passage 165 evaporates moisture absorbed in the rotor 115, The water is condensed by the condenser 150, and the condensed water is collected in the condensate tank 155.

Meanwhile, the air passing through the rotor 115 is discharged to the outside through the blower fan 105. Since the rotor 115 has a relatively high temperature, the temperature of the air discharged to the outside can be raised.

The embodiment of the present invention optimizes the rotor rotation direction 300 of the rotor 115, the fan rotation direction 310 of the blower fan 105, and the installation position of the regenerative heater 140, The temperature of the air discharged to the outside can be lowered and the temperature of the rotor 115 can be lowered.

2 is a partially exploded perspective view of a desiccant dehumidifier according to an embodiment of the present invention.

Referring to FIG. 2, the desiccant dehumidifier includes a dehumidifier front cover 200, a condenser 150, a rotor front cover 210, a rotor 115, a regenerative heater cover 220, a regenerative heater 140, A blower fan cover 105, and a dehumidifier rear cover 250. The blower fan cover 105,

Wherein the rotor front cover 210 is disposed in front of the rotor 115 and the regenerative heater cover 220 is disposed behind the rotor 115, A fan cover 230 is disposed. The blower fan cover (240) and the blower fan (105) are disposed behind the regenerative fan cover (230).

The outside air flows along the dehumidification passage 130 to the dehumidifier front cover 200, the condenser 150, the rotor front cover 210, the rotor 115, the blower fan cover 240, (105), and moisture is adsorbed when passing through the rotor (115).

The regeneration air is supplied to the regenerative heater 140, the rotor 115, the rotor front cover 210, and the condenser 150 along the regeneration passage 165.

The regeneration air heated by the regeneration heater 140 evaporates the water adsorbed by the rotor 115, and the condenser 150 condenses and discharges the evaporated water. The regeneration air dried by the condenser 150 circulates the regenerating heater 140 again through the regenerating heater cover 220.

FIG. 3 is a schematic diagram illustrating a part of a desiccant dehumidifier according to an embodiment of the present invention.

Referring to FIG. 3, an imaginary horizontal axis x-axis, a longitudinal axis y-axis, and a rotation center 340 are formed. The rotor 115 is rotatably disposed in a clockwise direction with respect to the rotation center 340.

The outside air passing through the rotor 115 is discharged by the blower fan 105 in the discharging direction corresponding to the y axis direction (upward direction), and the regenerating heater 140 is rotated by the rotation center 340 Is disposed in an area within a set angle in the counterclockwise direction from the discharge direction (320).

In an embodiment of the present invention, the setting angle 350 may be set to 60 degrees. The blower fan 105 disposed behind the rotor 115 is arranged to rotate in the clockwise direction of the rotor rotation direction 300 of the rotor 115.

In the embodiment of the present invention, the rotor 115 is rotated in a state where the rotor 115 is heated by the regeneration air heated by the regenerative heater 140, The high-temperature portion 330 is formed between the discharge direction 320 and the x-axis direction (approximately 3:00).

The dry outside air passing through the rotor 115 rotates in the clockwise direction of the fan rotation direction 310 of the blower fan 105 and flows upward in the blower fan cover 240 through the upwardly opened outlet .

Therefore, the blower fan 105 rotates clockwise from the rear of the rotor 115 to cool the high temperature part 330 of the rotor 115, and as a result, the temperature is lowered.

In the embodiment of the present invention, when the rotor 115 rotates in the counterclockwise direction, the set angle 350 of the regenerative heater 140 and the rotational direction of the blower fan 105 are reversed Can be set.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And all changes to the scope that are deemed to be valid.

100: dehumidifier 105: blower fan
120: rotor case 125: opening for dehumidification
130: dehumidification passage 135: motor
140: heater 145: regeneration opening
150: condenser 155: condensate tank
160: Playback fan 165: Playback path
200: dehumidifier front cover 210: rotor front cover
220: Playback heater cover 230: Playback fan cover
240: blower fan cover 250: dehumidifier rear cover
300: Rotor rotation direction 310: Fan rotation direction
320: discharge direction 330: high temperature part
340: center of rotation 350: setting angle
115: Rotor

Claims (7)

A rotor which is arranged to adsorb moisture from air through a dehumidifying material and to rotate about a rotation center axis;
A regenerative heater disposed on one side of the rotor to heat regeneration air for evaporating moisture adsorbed on the dehumidifying material;
A condenser for condensing moisture contained in the regeneration air to remove moisture; And
And a blower fan for discharging the dried air passing through the rotor to the outside,
The regenerative heater
The rotor being disposed adjacent to one side of the rotor in an area within a range of 60 degrees in a direction opposite to a rotation direction of the rotor in a discharge direction in which air is discharged to the outside by the blower fan,
Wherein the blower fan is rotated in a rotating direction with respect to a rotation center axis of the rotor, the blower fan sucks air into the center through the rotor to discharge air in the upward direction,
Wherein the regenerative heater is disposed between the rotor and the blower fan at the rear of the rotor so that the temperature of the dry air discharged to the outside can be lowered and the rotor can be cooled. delete delete delete The method according to claim 1,
Wherein the regenerative heater is disposed in an area not deviated by 60 degrees from a direction opposite to a rotation direction of the rotor with respect to the discharge direction. delete delete

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