KR101515530B1 - Dehumidifing unit and Air conditioner having the same - Google Patents

Abstract

The air conditioner according to the present invention includes: a main body having an air suction part and an air discharge part; A blower installed in the main body to suck air into the air suction unit and discharge the air to the air discharge unit; And a dehumidifying unit installed in the main body to dehumidify the air sucked into the air suction unit; The dehumidifying unit comprising: a dehumidifying member including a desiccant; And a metal material protecting portion formed on at least one surface of the dehumidifying member to prevent damage to the dehumidifying member including the desiccant and to provide a long service life of the dehumidifying unit.

An air conditioner, an air outlet, an air inlet, a dehumidifying unit, a desiccant, a dehumidifying member,

Description

 [0001] The present invention relates to a dehumidifying unit and an air conditioner having the same,

 The present invention relates to a dehumidifying unit and an air conditioner having the dehumidifying unit. More particularly, the present invention relates to a dehumidifying unit in which a desiccant of a dehumidifying unit is protected, and an air conditioner having the dehumidifying unit.

 BACKGROUND ART [0002] Generally, an air conditioner changes a temperature, a humidity, a cleanliness, and the like of a room. The air conditioner includes a radiator for cooling the room, a radiator for heating the room, a dehumidifier for dehumidifying the room, a humidifier for humidifying the room, And purifiers that change cleanly.

The air conditioner as described above may be composed of a dehumidifier mainly having a dehumidifying function or a radiator having a dehumidifying function additionally. In the past, a heat exchanger composed of a condenser and an evaporator through which a refrigerant flows, After that, the humidity in the room is lowered by discharging the dehumidified air again into the room.

That is, a conventional dehumidifier uses a method in which refrigerant in a liquefied state is evaporated in an evaporator to thereby draw heat from ambient air. As the refrigerant evaporates, the temperature of the evaporator becomes lower and the temperature of the air passing through the evaporator also becomes lower .

Therefore, as the temperature around the evaporator drops, the moisture contained in the air condenses and forms dew on the surface of the evaporator, and the dew on the surface of the evaporator drops onto the bucket.

On the other hand, in recent years, there has been used a dehumidifier for regenerating a desiccant, which absorbs moisture from the desiccant and dehumidifies the room and absorbs moisture, in the dehumidifier. The above-described dehumidifier includes a regenerative heater adjacent to the desiccant, The desiccant is regenerated by the hot air blown from the regenerative heater and the regenerating fan.

However, when the interval between the desiccant and the regenerative heater is small, the air conditioner according to the related art may cause the desiccant to be damaged by the friction between the regenerative heater and the desiccant, When the interval between the heaters is large, there is a problem that the efficiency of the regeneration is lowered due to heat loss or inflow of outside air.

On the other hand, in Patent Publication No. 10-0598214, moisture is absorbed by the desiccant while the air passes through the desiccant, and the desiccant is regenerated by the moisture adsorbed by the desiccant being evaporated by the heat of the heater. In the humidification and dehumidification Device is disclosed.

In the humidifying and dehumidifying apparatus using the desiccant, the room air heated by the heater passes through the desiccant and evaporates the moisture adsorbed by the desiccant by an indirect heating method, or integrates the radial electric heater with the desiccant So that the desiccant water is directly heated by the heat generated from the radial electric heater and evaporated by the direct heating method.

However, in the humidifying and dehumidifying apparatus using the desiccant disclosed in Patent Publication No. 10-0598214, there is a problem that the heat of the electric heater is concentrated in a portion where the heat of the electric heater is in contact with the radial electric heater in the desiccant, making it difficult to regenerate the desiccant uniformly.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a dehumidifying unit which can prevent damage to a dehumidifying member including desiccant and has a long life.

It is another object of the present invention to provide an air conditioner in which the dehumidifying member is uniformly heated and regenerated as a whole, and can be quickly and safely regenerated.

According to an aspect of the present invention, there is provided a dehumidifying unit comprising: a dehumidifying member including a desiccant; And a metal material protecting portion formed on at least one surface of the dehumidifying member.

The metal material protecting portion is a metal coated portion formed on at least one surface of the air suction surface and the air discharge surface of the dehumidifying member.

The dehumidifying unit may further include a positive electrode part installed to be in contact with one side of the metal material protecting part and a negative electrode part provided in contact with the other side of the metal material protecting part.

The dehumidifying member is formed by coating the desiccant on a basic base material made of a ceramic material.

An air conditioner having a dehumidifying unit according to the present invention includes: a main body having an air suction part and an air discharge part; A blower installed in the main body to suck air into the air suction unit and discharge the air to the air discharge unit; And a dehumidifying unit installed in the main body to dehumidify the air sucked into the air suction unit; The dehumidifying unit comprising: a dehumidifying member including a desiccant; And a metal material protecting portion formed on at least one surface of the dehumidifying member.

An example of the air conditioner further includes a regenerative heater provided to face at least a part of the dehumidifying unit so as to regenerate the dehumidifying unit, and the metal material protecting unit includes a metal member formed on the surface of the dehumidifying member facing the regenerating heater, Coated portion.

 In another example of the air conditioner, the metal material protecting portion is a mixture of a metal material and a carbon material, and the dehumidifying unit further includes both electrode portions provided in contact with one side of the metal material protecting portion and a negative electrode portion provided in contact with the other side of the metal material protecting portion do.

The positive electrode portion is provided at one of the center portion and the edge portion of the dehumidifying member, and the negative electrode portion is provided at the other of the center portion and the edge portion of the dehumidifying member.

The dehumidifying member is formed by coating the desiccant on a basic base material made of a ceramic material.

According to the present invention configured as described above, the metal protection formed on at least one surface of the dehumidifying member protects the dehumidifying member, particularly the desiccant, so that damage caused when the dehumidifying member rubs against the regenerative heater or the like located around the dehumidifying member can be prevented, Has a long life span.

In addition, the metallic material protecting portion is made of a metal coating portion formed on at least one surface of the air suction surface and the air discharge surface of the dehumidifying member, so that the manufacturing is easier and the flow resistance of the dehumidifying air is minimized There is an advantage to be able to.

Further, since the metallic material protecting portion includes the carbon material, when the voltage is applied to the metallic material protecting portion, the metallic material protecting portion generates heat and directly heats the dehumidifying member. Thus, the metallic material protecting portion replaces the regenerating heater, There is an advantage that the air conditioner can be made compact, or the metal material protecting portion can simultaneously or selectively regenerate the dehumidifying member together with the regenerative heater, which is advantageous in high regeneration efficiency.

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

1 is a perspective view of an air conditioner according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of an air conditioner according to the present invention, FIG. 3 is a longitudinal sectional view of an air conditioner embodiment according to the present invention, Sectional view of an embodiment of an air conditioner according to the present invention.

As shown in FIG. 1, the dehumidifier according to the present embodiment discharges dehumidified room air after sucking indoor air and absorbing moisture. The dehumidifier includes a main body 2, an air suction unit 4, (6) is formed.

As shown in Figs. 1 and 2, the main body 2 includes a base 10, a rear case 20 which forms the rear outer surface of the dehumidifier and is disposed on the rear side of the base 10, A front case 30 coupled to the front of the front case 30 and a front panel 40 disposed forward of the front case 30. [

The rear case 20 forms the rear outer appearance of the dehumidifier and is formed with an air discharge portion 6 through which the dehumidified room air is discharged to the outside of the main body 2. The air discharge portion 6 is formed on the upper plate portion of the rear case 20 so that the room air dehumidified in the main body 2 is discharged to the upper side of the dehumidifier.

The front case 30 forms the front outer surface of the dehumidifier and is formed with an air suction hole 35 through which indoor air is sucked into the main body 2. [ The air suction hole 35 is formed in the front plate portion of the front case 30 so that the room air sucked into the main body 2 is sucked in the forward and backward direction from the front of the dehumidifier.

The front case (30) is provided with a control unit (36) having a control unit for driving and operating the dehumidifier and a display unit for displaying information of the dehumidifier.

The control unit 36 includes a control panel 37 exposed to the outside and a control PCB 38 disposed on the control panel 37 and equipped with various electric parts such as a control unit and a display unit.

The front panel 40 forms the front surface of the dehumidifier and is formed with an air suction portion 4 in which room air is sucked into the air suction hole 35 of the main body 2,

The front panel 40 is clogged to improve the appearance of the front of the air conditioner, and the air intake part 4 is formed in a grill shape other than the front surface.

A blower 50, a dehumidifying unit 60, a regenerating fan 90, a regenerating heater 100, and a condensing heat exchanger 110 are installed in the main body 2.

The blower 50 sucks room air through the air suction unit 4 and passes through the main body 2 to be discharged to the air discharge unit 6 so that the room air is dehumidified by the dehumidifying unit 60. [ A fan housing 53 having a back surface opened to form an air flow passage with the rear case 20 and having an air suction hole 51 formed at the front thereof and a discharge portion 52 formed at an upper portion thereof, And a fan 55 connected to the rotary shaft of the fan motor 54 so as to be rotated between the fan housing 53 and the rear case 20 .

In the fan housing 53, a discharge grill 56 is provided in the discharge portion 52.

The dehumidifying unit 60 is disposed between the blower 50 and the condensing heat exchanger 110 as moisture in the room air sucked by the blower 50 is adsorbed and regenerated by heat.

The dehumidifying unit (60) includes a dehumidifying member (61) capable of adsorbing and regenerating moisture in the room air while passing room air, and a dehumidifying member supporter (62) for protecting and supporting the dehumidifying member (61).

The dehumidifying member 61 has a portion (hereinafter, referred to as a 'suction portion') where moisture is adsorbed while passing room air through the room, and a portion (hereinafter referred to as a ' Moisture is adsorbed / evaporated in this alternating state. A portion opposed to the regenerating heater 110 is a regenerating portion through which the regenerating air passes, and a portion other than the portion opposed to the regenerating heater 110 is a dehumidifying portion through which room air passes.

The dehumidifying member supporter 62 is a kind of dehumidifying unit case which includes a rim 64 surrounding the periphery of the dehumidifying member 61 and a rim member 62 formed to be positioned forward or rearward of the dehumidifying member 61 and formed in a lattice shape or a radial shape And a grill portion (66).

A dehumidifying unit supporter 68 for rotatably supporting the dehumidifying unit 60 and a dehumidifying unit frame 69 for mounting the dehumidifying unit supporter 68 are disposed in the main body 2.

The dehumidifying unit supporter 68 is mounted on the dehumidifying unit frame 69 with a fastening member such as a screw to rotatably support the dehumidifying unit 60.

The dehumidifying unit frame 69 is a kind of barrier which divides the inside of the main body 2 into a rear space in which the blower 50 is disposed and a front space in which the condensing heat exchanger 110 is disposed. An opening 76 for communicating the regeneration fan 90 with the duct 120 that allows the air guided to the regeneration fan 90 is formed.

The dehumidifying unit frame (69) is provided with a dehumidifying unit rotating mechanism (87) for rotating the dehumidifying unit (60).

The dehumidifying unit rotating mechanism 87 includes a motor, a driving gear provided in the motor, and a driven gear formed on the outer surface of the dehumidifying unit 60 and engaged with the driving gear.

 On the other hand, the dehumidifying unit frame 69 is provided with a control unit 78 for controlling the air conditioner in accordance with the operation of the control unit 36.

The control unit 78 includes a PCB 80 in which various electrical components are installed, a PCB 80 in which a PCB 80 is installed and a synthetic resin material, and a control box 82 in which a PCB 80 is installed and is made of a metal .

The regeneration fan 90 is a unit for causing the air for regeneration of the dehumidifying unit 60 to be blown into the dehumidifying unit 60 (hereinafter referred to as regeneration air), and includes a fan housing 91, An orifice 93 provided in the fan housing 91 for guiding the air sucked by the fan 92 and an orifice 93 provided in the fan housing 91 to rotate the fan 92 And a fan motor 94.

The regenerative heater 100 heats the air blown to the dehumidifying unit 60 by the regenerating fan 90 and supplies the hot air to the dehumidifying unit 60 so that the dehumidifying unit 60 and the blower 50 As shown in FIG.

The regenerative heater 100 is installed to face at least a part of the dehumidifying unit 60 so as to regenerate the dehumidifying unit 60.

The regenerative heater 100 includes an electrothermal heater 101, a heater cover 102 covering the electrothermal heater 101 and communicating with the regeneration fan 90, and a heater cover 102 positioned between the heater cover 102 and the dehumidifying unit 60 And a blocking film 103 coupled with the heater cover 102.

The shielding film 103 is a kind of air guide which prevents the air heated by the electrothermal heater 101 from moving toward the dehumidifying unit 60 without escaping to the periphery between the electrothermal heater 101 and the dehumidifying unit 60, And an opening is formed in the surface facing the dehumidifying unit (60).

The condensing heat exchanger 110 is for condensing the regeneration air regenerated by the dehumidifying unit 60 with the indoor air I sucked by the blower 50 to be condensed. The dehumidifying unit 60 and the dehumidifying unit frame 69 As shown in Fig.

The condensing heat exchanger 110 is provided with a condensing flow passage 112 through which the regeneration air that has been regenerated from the dehumidifying unit 60 passes and a condensation flow passage 112 through which the indoor air sucked by the blower 50 passes through the dehumidifying unit 60 A flow path 114 is formed.

The condensing heat exchanger 110 is formed with a regeneration air inflow portion through which the regeneration air having passed through the dehumidifying unit 60 flows into the condensing heat exchanger 110. The regeneration air having passed through the condensing flow path 112 is discharged And a condensed water discharge port 118 through which the condensed water condensed in the condensing duct 112 is discharged is formed in the lower part.

The air conditioner according to the present embodiment includes a duct 120 for leading the air that has passed through the condensing duct 112 of the condensing heat exchanger 110 to the regenerating fan 90 and a duct 120 for condensing the condensed heat in the condensing heat exchanger 110 A bucket 130 in which the dropped condensed water is contained and a drain pan 140 for receiving the condensed water condensed and dropped in the condensing flow passage 112 of the condensing heat exchanger 110 and draining the condensed water to the bucket 130.

The duct 120 includes a regeneration passage through which the regeneration air passes through the inside of the air conditioner to constitute a closed circuit. The duct 120 has one end connected to the regeneration air discharging portion 116 of the condensing heat exchanger 110, And is connected to the opening 76 of the frame 69.

Fig. 5 is an enlarged sectional view of the dehumidifying unit and the heater shown in Figs. 3 and 4, and Fig. 6 is a partially enlarged perspective view of the dehumidifying unit shown in Figs.

The air conditioner according to the present embodiment is assembled integrally with the regenerative heater 110 by the fastening member 104 such as a screw while the dehumidifying unit supporter 68 supports the dehumidifying unit 60. [

The dehumidifying unit 60 includes a desiccant 162 such as silica gel and mesosilica as a porous medium and a basic base material 164 on which the desiccant 162 is coated do.

The dehumidifying member 61 has a structure in which the basic base material 164 is composed of a flat paper and a corrugated paper made of ceramic fiber and has a structure in which the flat paper and the corrugated paper are alternately placed and rolled up into a scroll shape as a whole, And the other end located at the other end are integrally formed.

The dehumidifying member (61) is coated on the surface of each of the flat paper and the corrugated paper.

When the blower 50 is driven, the dehumidifying member 61 is in contact with the surface of the dehumidifying member 61 that is in contact with the air suction hole 35 of the front case 30, And the surface of the air passing through the dehumidifying member 61 from the dehumidifying member 61, that is, the surface facing the air suction hole 51 of the blower 50, Plane (B).

Hereinafter, the dehumidifying member (60) has an air suction surface (A) on its front surface and an air discharge surface (B) on its back surface.

The dehumidifying unit (60) includes a metal material protecting portion (170) formed on at least one surface of the dehumidifying member (61).

The metallic material protecting portion 170 protects the dehumidifying member 61 from the regenerating heater 100 and is formed on at least one surface of the air suction surface A and the air discharge surface B of the dehumidifying member 61.

 The metallic material protecting portion 170 is coated on the dehumidifying member 61 so as to facilitate the manufacture of the dehumidifying unit 60, while preventing the flow of air to the utmost.

The metal material protecting portion 170 may be formed on both sides of the air intake surface A and the air discharge surface B. When it is desired to prevent damage by the regenerative heater 100, (100).

Hereinafter, the metal material protecting portion 170 will be described as being made of a metal coated portion formed on the air discharge surface B, which is the surface facing the regenerative heater 100.

 The dehumidifying unit 6 has a desiccant 162 coated on the entire base mother material 164 and has an end close to the regenerative heater 100 at both ends before and after the desiccant 162 coated on the base mother material 164 The metallic material protecting portion 170 covers the dehumidifying member 61 between the dehumidifying member 61 and the regenerating heater 100 so that the metallic member protecting portion 170 covers the desiccant 162 It stops.

The metal material protecting portion 170 is formed over the entire rear end of the desiccant 62, that is, the entire end of the desiccant 62 that is closer to the regenerative heater 110 than the both ends.

   Hereinafter, the operation of the present invention will be described.

First, when the dehumidifying operation of the air conditioner is inputted through the control unit 36, the control unit 78 drives the blower 50, the dehumidifying rotor rotating mechanism 87 and the regeneration fan 90, ).

The indoor air is sucked into the main body 2 through the air suction unit 4 and then passes through the heat absorbing flow path 114 of the condensing heat exchanger 110 and then supplied to the dehumidifying unit 60, Lt; / RTI > The room air passing through the dehumidifying unit (60) rises in temperature while depriving the dehumidifying member (61) of moisture, and is then discharged to the outside through the air discharging unit (6).

When the blower 50 is driven, the dehumidifying unit 60 rotates the dehumidifying unit 60. The dehumidifying unit 60 is connected to the dehumidifying unit, And then moved to a position where it is not opposed to the regenerative heater 110 again to be dehumidified.

When the regeneration fan 90 is driven and the regeneration heater 100 is turned on, the regeneration air flows to the regeneration heater 100 by the regeneration fan 90 and is heated by the regeneration heater 100 to a high temperature. The regeneration air heated by the regenerative heater 100 then passes through a regeneration section which is a part opposed to the regenerative heater 100 in the dehumidifying unit 60. At this time, the moisture adsorbed in the regeneration section of the dehumidifying unit 60 is evaporated It changes to high temperature and high humidity. The regeneration air that has been changed to high temperature and high humidity by the dehumidifying unit 60 flows into the condensing flow path 112 of the condensing heat exchanger 110 and passes through the condensing flow path 112. On the way of passing through the condensing flow path 112, Heat is absorbed by the room air passing through the heat absorbing flow path 114 of the indoor unit 110, and the water is condensed as the temperature is lowered. Thereafter, the regeneration air is sucked into the regeneration fan 90 after passing through the duct 120, and the regeneration air is supplied to the regeneration fan 90, the regeneration heater 100, the dehumidification rotor 60, The dehumidifying unit 60 is continuously regenerated while circulating through the duct 110 and the duct 120.

In the regeneration of the dehumidifying and dehumidifying unit 60 as described above, water is condensed in the condensing flow passage 112 of the condensing heat exchanger 110, so that condensed water is generated and dropped. The dropped condensed water is condensed in the condensing heat exchanger 110, And the condensed water that has fallen is discharged to the bucket 130 by the drain pan 140 and is contained in the bucket 130. The drain pan 140 discharges the condensed water to the drain pan 140 through the condensate water outlet 118 of the drain pan 140,

The air conditioner is rotated together with the dehumidifying unit 60 in a state where the metal material protecting unit 170 is integrated with the dehumidifying member 61 when the dehumidifying unit 60 is rotated, Protects the dehumidifying member 61 while preventing direct contact between the dehumidifying member 61 and the regenerative heater 110 and the dehumidifying member 61 dehumidifies the indoor air continuously without being damaged by the regenerative heater 110 .

7 is a schematic view of a dehumidifying unit of another embodiment of an air conditioner according to the present invention.

The air conditioner according to the present embodiment includes a metal material protecting portion 170 'made of a mixture of a metal material and a carbon material, and the dehumidifying unit 60' includes a metal material protecting portion 170 ' 180 and a negative electrode part 182 provided in contact with the other side of the metallic material protection part 170 '.

The dehumidifying unit 60 'is provided on either the center portion or the edge portion of the dehumidifying member 61 and the cathode portion 182 is provided on the other of the center portion and the edge portion of the dehumidifying member 61 And the positive electrode portion 180, the metal material protecting portion 170 ', and the negative electrode portion 182 are electrically connected to each other.

The voltage application unit 184 is connected to the dehumidifying unit 60 'so as to serve also as a heater and the voltage application unit 184 is electrically connected to the positive electrode unit 180 and the negative electrode unit 182 .

The voltage application section 184 is controlled by the control section 78 to apply a voltage to the positive electrode section 180 and the negative electrode section 182 and includes a switch for turning on and off the power supplied from the control section 78 And may be installed in the control unit 78, or may be provided in the dehumidifying unit 60, the dehumidifying unit frame 69, or the like.

 That is, when the electricity is applied from the outside, the metallic material protecting part 170 'heats and heats the dehumidifying member 61 while the metallic material protecting part 170' itself functions as a heating member.

Here, the metallic material protecting portion 170 'is formed entirely on at least one of the front end and the rear end of the desiccant 162 of the dehumidifying member 61.

  That is, the dehumidifying unit 60 'has a desiccant 162 coated on the entire base mother material 164, and at least one of both ends of the desiccant 162 coated on the base mother material 164, The positive electrode portion 180 and the negative electrode portion 182 are coated with the metal material protecting portion 170 'which is a mixture of the carbon material and the desiccant 162 so as to surround the end portion of the desiccant 162, And the electricity is applied to the metal material protecting portion 170 '.

The metallic material protecting portion 170 'directly heats the dehumidifying member 61 and may be coated on both surfaces of the air intake surface A and the air discharge surface B, And the air discharge surface (B).

When the positive electrode unit 180 and the negative electrode unit 184 are electrically connected to the metallic material protection unit 170 'as described above, the positive electrode unit 180 and the negative electrode unit 184 are electrically connected to each other with voltage The metal material protecting portion 170 'uniformly heats at least one end of the front end and the rear end of the dehumidifying member 61 and the dehumidifying member 61 is disposed at least one of the front end and the rear end of the metal material protecting portion 170' And is regenerated while being uniformly heated as a whole.

 The desiccant 62 is coated on the basic base material 64 of the ceramic material and the basic base material 164 has thermal stability due to the characteristics of the ceramic material. .

 Hereinafter, a method of manufacturing the dehumidifying unit as described above will be described.

The method of manufacturing a dehumidifying unit according to the present embodiment includes a dehumidifying member forming step of forming a dehumidifying member 61 by coating a desiccant 62 on a basic base material 64; And a metallic material protecting portion forming step of integrally coating the metal material protecting portion 170 'on at least one surface of the dehumidifying member 61.

In the dehumidifying member forming step, the basic base material 64 is formed of a ceramic material.

  In the step of forming the metal material protecting portion, the metallic material and the carbon material are mixed to form a coating on the dehumidifying member (61). That is, the desiccant 62 immerses the dehumidifying member 61 coated on the basic base material 64 in a mixture of the metal material and the carbon material, and then takes out the dehumidified material.

The manufacturing method of the dehumidifying unit according to the present embodiment is characterized in that after the step of forming the metal material protecting portion, the electrode portion connecting portion 180 'for connecting the positive electrode portion 180, the negative electrode portion 182 and the voltage applying portion 184 to the metal material protecting portion 170' .

In the air conditioner constructed as described above, the metallic material protecting portion 170 ', the positive electrode portion 180, the negative electrode portion 182, and the voltage applying portion 184 are installed in place of the regenerative heater 110 of the embodiment of the present invention. And it is of course possible to regenerate the dehumidifying member 61 by the heat of the metal material protecting portion 170 '. In this case, if the regenerative heater 100 is not installed as in the embodiment of the present invention, the structure of the air conditioner becomes simple, the cost becomes low, and the air conditioner becomes compact.

The regenerative heater 110 and the regenerative heater 110 of the embodiment of the present invention are installed together with the metallic material protecting portion 170 ', the positive electrode portion 180, the negative electrode portion 182 and the voltage applying portion 184, It can be turned on / off at the same time and selectively turned on / off with the regenerative heater 110.

When the metal material protecting portion 170 'is heated together with the regenerating heater 100, the dehumidifying member 61 is heated by the heat of the hot air supplied from the regenerating heater 110 and the heat directly transmitted from the metal material protecting portion 170' The regenerating heater 110 can be regenerated more quickly and the regenerative heater 110 can be made smaller in capacity than when the regenerating heater 110 alone is used to regenerate the dehumidifying member 61.

In the case where the metal material protecting portion 170 'is selectively heated with the regenerative heater 100, the case where the regeneration efficiency is high and the case where the regeneration efficiency is relatively low may be distinguished from each other, In this case, the power consumption can be minimized.

For example, when the moisture sensed by the humidity sensor installed to detect the humidity of the room is higher than the set value, the regeneration efficiency must be high. Therefore, the regeneration efficiency by the heat transferred from the metal material protection unit 170 ' If the moisture detected by the humidity sensor is less than the set value, it is unnecessary to increase the regeneration efficiency. Therefore, the regeneration efficiency due to the heat transmitted from the metal material protection unit 170 ' If the regeneration efficiency by the heat of the hot air supplied from the regenerative heater 100 is regenerated to be low, optimum regeneration efficiency can be obtained with minimum power consumption.

That is, when the control unit 78 selectively controls the regenerative heater 100 and the voltage application unit 184 according to room humidity, the air conditioner can perform high-efficiency dehumidification.

1 is a perspective view of an air conditioner according to an embodiment of the present invention,

2 is an exploded perspective view of an air conditioner according to an embodiment of the present invention,

3 is a longitudinal sectional view of an embodiment of an air conditioner according to the present invention,

FIG. 4 is a horizontal sectional view of an embodiment of an air conditioner according to the present invention,

Fig. 5 is an enlarged sectional view of the dehumidifying unit and the heater shown in Figs. 3 and 4,

FIG. 6 is a partially enlarged perspective view of the dehumidifying unit shown in FIGS. 3 and 4,

7 is a schematic view of a dehumidifying unit of another embodiment of an air conditioner according to the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

  2: main body 50: blower

60: dehumidifying unit 61: dehumidifying member

100: regenerative heater 162: desicante

164: basic base material 170, 170 ': metal material protection part

180: positive electrode portion 182: negative electrode portion

184:

Claims (9)

delete delete delete delete A main body having an air suction part and an air discharge part; A blower installed in the main body to suck air into the air suction unit and discharge the air to the air discharge unit; And a dehumidifying unit installed in the main body to dehumidify the air sucked into the air suction unit; The dehumidifying unit A dehumidifying member having a desiccant coated on a base material of a ceramic material; A metal material protecting portion formed on at least one surface of the air suction surface and the air discharge surface of the dehumidifying member; An electrode unit disposed in contact with one side of the metallic material protection unit; And a negative electrode portion provided in contact with the other side of the metal material protecting portion, Wherein the metallic material protecting portion is formed by coating a mixture of a metallic material and a carbon material on the desiccant. 6. The method of claim 5, The air conditioner further comprises a regeneration heater provided so as to face at least a part of the dehumidifying unit to regenerate the dehumidifying unit, Wherein the metal material protecting portion is a metal coating portion coated on a surface of the dehumidifying member facing the regenerating heater. delete 6. The method of claim 5, Wherein the positive electrode portion is provided at one of a center portion and an edge portion of the dehumidifying member, And the negative electrode portion is installed on the other of the center portion and the edge portion of the dehumidifying member. delete

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