KR20070048464A - dehumidifier - Google Patents

Abstract

The present invention relates to a dehumidifier, which includes a drain hose for discharging condensate dropped along the surface of an evaporator to the outside and is installed on an upper surface of a base to fix the drain hose, and partitions the base in a forward and backward direction. By providing a hose fixing means on the back side, it is effective to prevent the drain hose from moving by the flow of the condensate when the condensate is drained through the drain hose.

Dehumidifier, barrier, drain pan, drain hose, hose fixing means

Description

Dehumidifier {Dehumidifier}

1 is a perspective view showing a dehumidifier according to the present invention

Figure 2 is an exploded perspective view showing a dehumidifier according to the present invention

3 is an operation diagram showing the flow of air during operation of the dehumidifier according to the present invention

Figure 4 is an operation diagram showing the separation process of the bucket according to the invention

5 is an exploded perspective view showing a bucket assembly of the dehumidifier according to the present invention;

6 is a view showing a drain hose is installed on the hose fixing means formed on the barrier of the dehumidifier according to the present invention;

Figure 7 is an exploded perspective view showing the filter assembly of the dehumidifier according to the present invention

8 is an operation diagram showing a filter separation process of the dehumidifier according to the present invention

<Explanation of symbols on main parts of the drawings>

10 compressor 20 condenser

30 expansion valve 40 evaporator

50: blower fan assembly 52: housing

54 centrifugal fan 60 cabinet

70: base 71: wheels

72: hole 74: bracket

80: barrier 81: inside

82: rib 83: drain pan

85: drain hose 86: hose fixing means

84: mounting portion 90: bucket assembly

92: bucket guide 92a: hinge

93a: first guide portion 93b: second guide portion

94: bucket 94a: home

94c: hole 100: panel assembly

102: side panel 102a: suction port

104: rear panel 104a: discharge port

105: louver 106: top panel

106a: discharge port 107: louver

110: high water detection device 120: filter assembly

122: filter frame 124: filter case

126: fixing mechanism 127: hook

130: control box 135: display device

140: front panel assembly 142: front frame

142a: hole 142b: slit

144: front panel 145: bracket

150: weight sensing device 152: load cell

154: bending member

The present invention relates to a dehumidifier, and more particularly, to a dehumidifier capable of fixing a drain hose for draining condensate dropped from a drain pan to an outside of the dehumidifier.

In general, the dehumidifier sucks in indoor humid air into the cabinet, passes through a heat exchanger consisting of an evaporator and a condenser through which refrigerant flows to lower the humidity, and then discharges the dehumidified air back into the room, thereby lowering the humidity in the room. Device.

The dehumidifier according to the prior art has a cabinet having an appearance and an air inlet and an air outlet, and a heat exchanger formed of an evaporator and a condenser to dehumidify from the air sucked into the cabinet, and connected to the evaporator and the condenser. A compressor for compressing the circulating refrigerant, a drain pan installed under the heat exchanger to collect condensed water generated during dehumidification of the heat exchanger, and a condensed water flowing down from the heat exchanger installed under the drain pan; When the water level of the condensate is a predetermined amount or more is configured to include a bucket drawn out from the cabinet.

On the other hand, when the condensate is to be discharged without using a bucket, the condensate is discharged to the outside of the dehumidifier by directly connecting the drain hose to the drain hole formed in the drain pan.

However, the dehumidifier according to the related art, which is configured as described above, has a problem in that a device capable of properly fixing a drain hose not used when condensate is drained by a bucket is not provided.

In addition, when draining the condensate by the drain hose, there is a problem that there is not provided a device that can properly control the movement of the drain hose that may be generated by the flow of the condensate.

The present invention has been made to solve the above-mentioned problems of the prior art, and an object of the present invention is to provide a dehumidifier provided with a hose fixing part to fix a drain hose which is not used when condensate is drained by a bucket. .

In addition, an object of the present invention is to provide a dehumidifier having a hose fixing part to fix the drain hose to prevent the drain hose from moving by the flow of the condensate when the condensate is drained by the drain hose.

Dehumidifier according to the present invention for solving the above problems is installed in the base and the barrier partition partitioning the base in the front and rear direction, and a drain pan formed on the upper portion of the base to collect the condensate, the drain pan is discharged And a drain hose connected to the water collecting port for discharging the condensate, and a hose fixing means formed on the barrier to fix the drain hose.

In addition, the dehumidifier further comprises a bucket assembly for storing / discharging the condensate dropped through the catchment, characterized in that the catch is selectively connected to the bucket assembly or the drain hose.

The bucket assembly may be configured to include a bucket guide hinged to the base and pivoted forward, a bucket detachably installed on an upper portion of the bucket guide, and a bucket pivoted forward together with the bucket guide. .

In addition, the bucket is characterized in that the handle is formed.

In addition, the hose fixing means is characterized in that consisting of a plurality of hooks formed at a predetermined interval.

In addition, the hook is characterized in that formed on both sides based on the drain hose.

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

1 is a perspective view showing a dehumidifier according to the present invention, Figure 2 is an exploded perspective view showing a dehumidifier according to the present invention, Figure 3 is an operation diagram showing the flow of air during operation of the dehumidifier according to the present invention, 4 is an operation diagram illustrating a separation process of a bucket according to the present invention.

As shown in FIG. 1 or FIG. 2, the dehumidifier according to the present invention includes a compressor 10 for compressing a refrigerant, a condenser 20 for condensing the refrigerant compressed by the compressor 10, and the condensed refrigerant. Expansion valve (30) for expanding the liquid into a spray state, an evaporator (40) for evaporating the refrigerant expanded by the expansion valve (30), and indoor air for the evaporator (40) and the condenser (20). Blower fan assembly 50 is installed so as to flow through, and each device 10, 20, 30, 40, 50 is configured to include a cabinet 60 installed therein.

The cabinet 60 is composed of a panel assembly 100 composed of a plurality of panels constituting the appearance.

On the bottom of the cabinet 60, a wheel 70 is attached to the base 70 is mounted on the floor, the upper surface of the base 70 to partition the base 70 in the front / rear direction upwards An upright barrier 80 is installed, and a bucket assembly 90 is installed on the inner side 81 of the barrier 80 to store condensed water condensed on the surface of the evaporator 40 and dropped.

In addition, a filter assembly 120 is further installed on the barrier 80 to filter air flowing into the cabinet 60 and flowing to the blower fan assembly 50.

The wheel 71 is installed on a lower surface of the base 70, and a hole 72 for assembling the compressor 10 is formed on an upper surface of the base 70.

And the upper surface of the base 70 is formed with a bracket 74 for hinge fixing the lower end of the bucket assembly 90, so that the bucket assembly 90 can be rotated forward.

Therefore, the bucket assembly 90 is installed at the upper front of the base 70 partitioned by the barrier 80, and the compressor 10 is installed at the upper rear of the base 70.

5 is an exploded perspective view showing a bucket assembly of the dehumidifier according to the present invention.

As shown in FIG. 5, the bucket assembly 90 is hinged to the base 70 and pivoted forward, and the bucket guide 90 is seated on an upper portion of the bucket guide 92. And a bucket 94 pivoted forward with the 92.

Pin-shaped hinges 92a protrude from both side ends of the bucket guide 92 to be coupled to the bracket 74 of the base 70, and the hinges 92a and the bracket 74 are coupled to each other. Bucket guide 92 has a structure that is rotated around the hinge (92a).

In addition, the bucket guide 92 is formed with guide parts 93a and 93b for guiding the location of the bucket 94 so that the bucket 94 can be seated at the correct position. The guide part 93a is provided. 93b is formed to protrude upward.

Here, the first guide portion 93a corresponds to the groove 94a formed at the front lower end of the bucket 94 to align the position of the bucket 94, and the second guide portion 93b is the bucket ( Corresponding to the groove (not shown) formed on the back of the 94 to align the position of the bucket 94.

The guide parts 93a and 93b are used to accurately drop the condensed water guided by the barrier 80 and dropped into the hole 94c of the bucket 94.

In addition, a handle 95 is formed at the top of the bucket 94 so that a user can lift the bucket 94.

On the other hand, the upper portion of the bucket 94, a full water detection device 110 for detecting the height of the condensate stored in the bucket 94 is installed.

As shown in FIG. 2 or FIG. 5 again, the full water detection device 110 is a float switch or a float sensor for detecting the water level inside the bucket 94, and detects the water level inside the bucket 94. The control unit transmits a signal to the control unit of the dehumidifier, and the control unit displays the signal to the user according to the full water signal.

In addition, a weight sensing unit 150 for sensing the weight of the bucket 94 is further installed below the bucket assembly 90.

The weight sensing unit 150 gradually detects the weight of the condensate stored in the bucket 94.

In particular, the full-water detection device 110 detects this when the condensed water is stored in the bucket 94 to the limit height, the weight detection unit 150 detects the weight of the condensed water stored in the bucket 94 The height of the condensate stored in the bucket 94 is displayed.

The weight sensing unit 150 is a load cell 152 which is a kind of a weight sensor, and the load cell 152 is installed below the bucket guide 92.

Thus, the load cell 152 is installed between the base 70 and the bucket guide 92, in this embodiment is fixed to the upper surface of the base 70.

In addition, the bucket guide 92 is formed with a cantilever-shaped bending member 154 to transfer weight to the load cell 152, the bending member 154 is pressed by the bucket 94 to bend the lower side The load is transmitted to the load cell 152.

In particular, the lower surface of the bucket 94 is formed with a protrusion (not shown) in contact with the bending member 154 is in contact with the bending member 154, the alignment of the bending member 154 and the protrusion is Guide portions 93a and 93b formed on the bucket guide 92.

6 is a view showing a drain hose is installed on the hose fixing means formed on the barrier of the dehumidifier according to the present invention.

As shown in FIG. 2 or FIG. 6, the filter assembly 120, the evaporator 40, the condenser 20, and the blower fan assembly 50 are installed on the upper surface of the barrier 80 from the front to the rear.

Here, the evaporator 40 and the condenser 20 are integrally spaced apart by a predetermined interval, and the evaporator 40 and the condenser (so that the condensed water condensed in the evaporator 40 can be easily collected in the barrier 80) A drain pan 83 having a plurality of ribs 82 is formed on an upper surface of the barrier 80 where the barrier 80 is installed, and the evaporator 40 and the condenser 20 have the ribs 82 formed thereon. It is seated in the drain pan 83.

In addition, the upper surface of the barrier 80 is formed with a step height is different, the drain fan 83 is formed with the rib 82 is compared with the installation portion 84 on which the blowing fan assembly 50 is seated Low height

A drain pan 83c is formed with a catch port 83c, and the condensate flowing into the catch port 83c is guided to the hole 94c of the bucket 94.

Meanwhile, the dehumidifier according to the present invention may use the bucket assembly 90 to discharge the condensed water dropped along the surface of the evaporator 40 to the outside, but may also be discharged in a continuous drainage manner using a drain hose 85. do.

When draining the condensed water to the bucket assembly 90 without using the drain hose 85, a means for stably fixing the drain hose 85 inside the dehumidifier is required, and the drain hose 85 When the condensate is drained by), a means for preventing the drain hose from moving in accordance with the flow of the condensate is required.

Therefore, the hose fixing means 86 is formed on the back surface 80a side of the barrier 80 so as to fix the drain hose 86 selectively removed from the water collecting port 83c.

The hose fixing means 86 is composed of a plurality of catching rings formed at predetermined intervals, the catching ring is formed opposite to both sides with respect to the drain hose (85), the end of the catching ring is the drain hose ( 85) is formed to be round to facilitate the detachment.

As shown in FIG. 2, the blower fan assembly 50 includes a housing 52 mounted on the barrier 80, a centrifugal fan 54 installed on the housing 52, and the housing. And a housing cover 56 which is assembled with 52 to guide the air discharged from the centrifugal fan 54.

The housing 52 is formed with an inlet 52a for sucking air in the center thereof, and the air accelerated from the centrifugal fan 54 through the inlet 52a is upwardly guided by the housing cover 56. Flows.

In addition, the housing 52 partitions the inside of the cabinet 60 in a forward / backward direction so that all of the air sucked in the room can flow to the centrifugal fan 54 only through the suction port 52a.

In addition, after the evaporator / condenser 40, 20 and the housing 52 are assembled with each other, a control box 130 for controlling the dehumidifier on the evaporator / condenser 40, 20 and the housing 52. ) Is assembled and installed.

7 is an exploded perspective view illustrating a filter assembly of the dehumidifier according to the present invention, and FIG. 8 is an operation diagram illustrating a filter separation process of the dehumidifier according to the present invention.

As shown in FIG. 2 or 8, the filter assembly 120 includes a filter frame 122 assembled to the evaporator 40 and a filter case coupled to the filter frame 122 to be rotated forward. 124, and a fixing mechanism 126 that fixes the filter case 124 to the filter frame 122.

The filter case 124 is equipped with a filter 128 for filtering the air sucked into the dehumidifier, the filter case 124 is assembled to the lower end of the filter frame 122 is rotated.

Particularly, the lower end of the filter case 124 and the lower end of the filter frame 122 are connected to each other by a hinge 124a, and the filter case 124 is opened while being rotated forward about the hinge 124a.

The fixing mechanism 126 is installed on the filter frame 122, and a hook 127 is formed at a position corresponding to the fixing mechanism 126 at the upper end of the filter case 124.

Here, the hook 127 is fixed to the fixing mechanism 126 to fix the filter case 124 and the filter frame 122, and the locking fixing of the hook 127 and the fixing mechanism 126 is It is made by one touch method.

Thus, when the filter case 124 is coupled with the filter frame 122, when the user pushes the upper end of the filter case 124 toward the filter frame 122, the hook 127 is the fixing mechanism 126 is pushed backward and the locking is released, the filter case 124 is separated from the filter frame 122, the user of the upper end of the filter case 124 toward the filter frame 122 In the case of the push, the hook 127 is inserted into the fixing mechanism 126 and then is fixed while being pushed forward by a predetermined distance.

As shown in FIG. 2 again, the panel assembly 100 includes side panels 102 forming both sides of the cabinet 60, a rear panel 104 forming the rear surface of the cabinet 60, and The upper panel 106 forming the upper surface of the cabinet 60 and the front panel assembly 140 forming the front of the cabinet 60 is configured.

Here, the side panel / rear panel / front panel assembly (102, 104, 140) is installed upright from the upper surface of the base 70.

The side panel 102 is provided with an inlet 102a for introducing indoor air into the cabinet 60, and the upper panel 106 and the rear panel 104 have air conditioning inside the cabinet 60. Discharge ports 106a and 104a through which the discharged air is discharged are formed.

In addition, a louver 103 for adjusting a suction direction of air is installed at the inlet 102a of the side panel 102, and at the outlets 104a and 106a of the rear panel 104 and the top panel 106. Louvers 105 and 107 for adjusting the discharge direction of the discharged air are provided.

Here, the louver 103 installed on the side panel 102 and the louver 105 installed on the rear panel 104 control the intake / discharge direction of air by the user, and the louver installed on the top panel 106. 107 is the air discharge direction is adjusted by the control unit or the user of the dehumidifier.

Thus, the louver 107 is connected to the top panel 106 with the pin 106a and rotated in the up / down direction, and the louver 107 is rotated by the control unit. A delivery mechanism (not shown) is installed.

The front panel assembly 140 is hinged to the side panel 102, the front frame 142 is rotated to the front, and the front panel 144 is installed on the front of the front frame 142 and exposed to the user It is configured to include.

Here, the edges of the front panel 144 and the front frame 142 are installed at predetermined intervals, and indoor air is supplied to the cabinet 60 through a gap formed at the edge of the front panel 144 and the front frame 142. Is sucked into the interior.

Thus, a panel guide 145 is interposed between the front panel 144 and the front frame 142, and the panel guide 145 is installed at the top / bottom of the front frame 142, respectively.

In addition, a plurality of holes 142a and slits 142b are formed in the front frame 142 so that air can flow to the filter assembly 120 located at the rear side.

In addition, the bracket 145 is installed at the edge of the front frame 142 to be hinged to the side panel 102, so that the front panel assembly 140 can be opened in a hinged manner, the bracket 145 is The upper and lower sides of the side edges of the side panel 102 are formed.

Hereinafter, the operation of the dehumidifier according to the present invention will be described in more detail with reference to FIG. 2.

First, when the dehumidifier is operated, the control unit installed in the control box 130 operates the compressor 10, the compressor 10 compresses the refrigerant and supplies it to the condenser 20, and the condenser 20 is The gas refrigerant is condensed into a liquid refrigerant, and the refrigerant condensed in the condenser 20 is expanded by the expansion liquid 30 into the liquid refrigerant in the sprayed state and then evaporated into gas in the evaporator 40.

At this time, the refrigerant evaporated into the gas in the evaporator 40 is heat-exchanged with the indoor air introduced into the cabinet 60 to cool the indoor air, the surface of the evaporator 40 in the cooling process of the indoor air Condensed water is generated by the temperature difference to dehumidify the indoor air.

Thereafter, the refrigerant evaporated in the evaporator 40 flows to an accumulator (not shown), is separated into a gas / liquid state, and then moved to the compressor 10 again.

Next, the process of moving the air by the dehumidifier with reference to Figure 2 or 3 as follows.

The control unit applies the power to the blower fan assembly 50 to operate the blower fan assembly 50 to introduce indoor air into the cabinet 60 and then discharge it back to the room.

At this time, indoor air is introduced into the cabinet 60 through the inlet 102a formed in the side panel 102 and the holes 142a / slit 104b formed in the front frame 142. Is moved to the filter assembly 120 and filtered.

Here, the indoor air passing through the filter assembly 120 is filtered while passing through the filter 128 installed in the filter case 124, and the air passing through the filter 128 passes through the filter frame 122. Heat exchange with the evaporator 40.

The filtration air is cooled while exchanging heat with a heat radiation fin (not shown) formed in the evaporator 40. During the cooling of the filtration air, moisture in the air is condensed to form on the surface of the evaporator 40. Condensed water is collected in the drain pan (83) disposed below the evaporator (40).

In addition, the air cooled while passing through the evaporator 40 exchanges heat again with the condenser 20 installed behind the evaporator 40, and the dehumidifying air passing through the evaporator 40 and the condenser 20 exchange heat with each other. The dehumidified air is heated again.

Here, in the condenser 20, heat is dissipated during the condensation of the gas refrigerant. In the heat exchange process between the dehumidifying air and the condenser 20, the dehumidifying air is heated again to a temperature similar to the room temperature.

Thereafter, the air passing through the condenser 20 is guided to the housing 52 of the blower fan assembly 50 and sucked into the housing 52, and the air sucked into the housing 52 is transferred to the housing 52. It is accelerated by the centrifugal fan 54 installed therein and discharged in the circumferential direction, and the discharged air is guided upward by the housing 52.

Here, the air discharged to the upper side of the housing 52 is discharged back into the room through the discharge port 106a formed in the upper panel 106 and the discharge hole 104a formed in the rear panel 104.

Therefore, the dehumidifier according to the present invention generates air flow in all directions of the room in which the dehumidifier is installed because the dehumidifier inhales air through the front / side and discharges the air to the top / rear.

On the other hand, the controller adjusts the rotation angle of the louver 107 installed in the upper panel 106 to adjust the direction and the flow rate of the discharged air.

Thus, when the air is discharged to the upper front of the cabinet 60, the louver 107 is rotated to the rear in the closed state to form a discharge port in the front, and when to discharge the air to the upper rear, rotates forward in the closed state To form a discharge port.

Next, the process of moving the condensate in the dehumidifier according to the present invention will be described with reference to FIGS. 2 and 6.

First, the condensed water condensed in the evaporator 40 and collected in the drain pan 83 flows into the bucket 94 through a water collecting port 83c of the drain pan 83, and is stored in the bucket 94. The amount of condensate stored in the inside is sensed by the water level detecting unit 110 or the weight sensing unit 150, and the control unit is connected to the display device 135 of the dehumidifier according to the amount of condensate stored in the bucket 94. This is indicated.

In particular, the weight sensing unit 150 measures the weight of the condensate, calculates the height of the condensate inside the bucket 94 by an empirical formula, and displays the height of the condensate on the display device 135 so that the user stores the condensate. When the height is known and the condensed water is full in the bucket 94, an LED (not shown) of the display device is turned on to inform the user of the drainage time of the bucket 94.

In addition, the full water detection device 110 detects this when the condensate inside the bucket 94 is stored above a predetermined height, and transmits it to the control unit, the control unit stops the operation of the compressor 10 Prevents condensate from overflowing the bucket 94.

On the other hand, although not shown, the water level detecting device 110 is to intermittently install the power applied to the compressor 10 from the control unit to directly control the power applied to the compressor 10 from the control unit when the condensed water is full. It may be configured.

Although the process of discharging condensed water using the bucket assembly 90 has been described so far, the dehumidifier according to the present invention discharges the condensed water by using the drain hose 85 in addition to the method using the bucket assembly 90. .

When discharging the condensed water using the drain hose 85, the drain hose 85 fixed to the hose fixing means 86 is first drawn toward the catch port 83c, and then one side of the drain hose 85 is lifted. It connects to the catch port 83c.

At this time, the remaining portion except for one side of the drain hose 85 is fixed to the hose fixing means 86 as it is so that the drain hose 85 does not move by the flow of the condensate.

Accordingly, when collecting the condensed water dropped through the water collecting port 83c into the bucket 94 and then discharging it, the drain hose 86 is separated from the water collecting port 83c, and the bucket 94 is not used. When the condensed water is discharged by the continuous drainage method using the drainage hose 85, the drainage hose 85 may be connected to the water collecting port 83c.

Regardless of how the condensate is discharged, the drain hose 85 is fixed to the hose fixing part 86, thereby preventing the condensate from being discharged from the shock that may be generated during the operation of the dehumidifier or the flow that may occur when the condensate is drained. ) Position can be fixed.

Next, the process of separating the bucket by the user will be described with reference to FIG. 2 or FIG. 4.

First, the user opens the front panel assembly 140 to drain the condensate of the bucket 94, the front panel assembly 140 is rotated about the bracket 145 of the left side panel 102, the other end is Open the inside of the cabinet 60.

In addition, the user pulls the handle 95 of the bucket 94 to separate the bucket 94 from the barrier 80.

At this time, the bucket 94 is seated on the bucket guide 92, the bucket guide 92 is a structure in which the hinge (92a) of the front is connected to the barrier 80, the user is the bucket The upper end of the bucket 94 is rotated forward by the operation of pulling 94 forward.

Here, the bucket 94 is moved to a position where the user can easily lift the upper part of the bucket from the inside of the barrier 80 by the user pulling the handle 95 of the bucket 94, The lower end of the bucket 94 is moved away from the bucket guide 92 by lifting the handle 95 pivoted forward.

Thus, since the bucket 94 is separated at a time while the user grasps the handle 95, the bucket 94 has a simple separation process.

On the other hand, the assembly process of the bucket 124 is performed in the reverse order of the separation process, a detailed description thereof will be omitted.

Next, the filter replacement process in the filter assembly will be described with reference to FIG. 2.

First, the user opens the front panel assembly 140 and separates the filter case 124 and the filter frame 122 as in the separation process of the bucket 94.

Here, the filter case 124 and the filter frame 122 are fixed by the fixing mechanism 126, and the user presses the upper end of the filter case 124 to hook 127 formed in the filter case 124. ) And the fixing mechanism 126.

The user then pulls out the filter 128 inserted in the filter case 124 in a slide manner.

On the other hand, the assembly process of the filter 128 is carried out in the reverse order of separation, detailed description thereof will be omitted.

The dehumidifier according to the present invention constituted as described above is provided with a barrier for partitioning the base in the front and rear direction, the drain pan is formed on the base, the condensate is collected, the water collecting port for discharging the condensate; And a drainage hose connected to the water inlet for discharging the condensate and a hose fixing means formed on the barrier to fix the drainage hose, when the condensate is drained through the drainage hose. It can be prevented from moving by the flow of the condensate, there is an advantage that can be stably fixed to the drain hose in the interior of the dehumidifier when the drain hose is not used.

In addition, the dehumidifier is configured to further include a bucket assembly for storing / discharging the condensate dropped through the catch, the catch is selectively connected to the bucket assembly or the drain hose, without using the drain hose The bucket assembly also has the advantage of draining the condensate.

The bucket assembly may include a bucket guide hinged to the base and pivoted forward, and a bucket detachably installed on an upper portion of the bucket guide and pivoted forward together with the bucket guide. When detaching, there is an advantage in that the bucket can be detached simply with minimal operation.

In addition, the bucket is formed with a handle has the advantage that the user can easily separate the bucket.

In addition, the lake fixing means is composed of a plurality of hooks of a simple structure, there is an advantage that can achieve the desired purpose of fixing the drain hose without using excessive additional costs or additional parts.

In addition, the locking ring is formed to face both sides with respect to the drain hose, there is an advantage that can be securely fixed to the drain hose.

Claims (6)

A barrier installed on the base and partitioning the base in the front and rear directions; A drain pan formed on an upper portion of the base to collect condensate and to discharge the condensate; A drain hose connected to the water inlet for discharging the condensate; Dehumidifier characterized in that it comprises a hose fixing means formed on the barrier for fixing the drain hose. The method according to claim 1, The dehumidifier further comprises a bucket assembly for storing / discharging the condensate dropped through the catchment, the catchment is characterized in that it is selectively connected to the bucket assembly or the drain hose. The method according to claim 2, The bucket assembly includes a bucket guide hinged to the base and pivoted forward; The dehumidifier is installed detachably on the top of the bucket guide, comprising a bucket that is rotated forward with the bucket guide. The method according to claim 3, Dehumidifier, characterized in that the handle is formed in the bucket. The method according to claim 1, The hose fixing means is a dehumidifier, characterized in that consisting of a plurality of hooks formed at a predetermined interval. The method according to claim 5, The hook is dehumidifier, characterized in that formed on both sides based on the drain hose.

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