KR20100040410A - Clothing dryer and condensate tank thereof - Google Patents

Abstract

PURPOSE: A clothes dryer and a condensate tank thereof are provided to rapidly discharge condensation water from the condensate tank by forming an air inlet and an opening and closing unit in the condensate tank. CONSTITUTION: A clothes dryer is composed of a main body, a condensate tank, a condensate tank entrance, and an air inlet(300). Condensation water draws in/out through the condensate tank entrance. When the condensation water is discharged through the condensate tank entrance, air flows into the condensate tank through the air inlet.

Description

Clothes dryer and its condensate tank {CLOTHING DRYER AND CONDENSATE TANK THEREOF}

      The present invention relates to a clothes dryer, and more particularly, to a clothes dryer for quickly discharging condensate stored in a condensate tank.

The clothes dryer is a device that blows hot air into a drying container to dry an object contained in the drying container. In general, the clothes dryer is largely composed of an exhaust type dryer that exhausts high temperature and high humidity air that has passed through the drying tank to the outside of the dryer, and a condensation type dryer that removes moisture from the high temperature and high humidity air which has passed the hot air and then circulates it back into the drying container. Can be distinguished.

The clothes dryer is detachably equipped with a condensate tank if necessary. The condensate tank stores the condensate collected from the object to be dried during the drying process. When the condensate tank is filled with a certain level of condensate, the user separates the condensate tank from the dryer, discharges the condensate therein, and puts it back into the dryer.

When the condensate is discharged in the condensate tank, the air should be introduced as much as the amount of condensate discharged, but the condensate tank does not have a separate air inlet hole, so a slight vacuum is generated inside the condensate tank.

Therefore, since the air is forced to flow into the outlet through which the condensed water is discharged, the condensed water is discharged and the air is introduced at the same time, so the 'cool' distance is heard and the condensed water is not quickly discharged.

One aspect of the present invention provides an improved clothes dryer for allowing a user to quickly discharge condensate stored in a condensate tank.

The clothes dryer according to the spirit of the present invention is detachably mounted to the main body, the main body, a condensate tank for storing condensate collected from a drying object, a condensate tank entrance through which condensate enters, and a condensate discharge through the condensate tank entrance. When it is, characterized in that it comprises an air inlet for introducing air into the interior of the condensate tank.

In addition, the air inlet is characterized in that it is provided to form a diagonal direction with the condensate tank entrance.

In addition, the condensate tank is provided with a recessed groove recessed to a predetermined depth, characterized in that the opening and closing unit for opening and closing the air inlet is installed on the bottom of the mounting groove.

In addition, the opening and closing unit is characterized in that it comprises a pressing lever rotated in both directions, a rotary shaft for coupling the pressure lever to the bottom surface of the seating groove, and a projection connected to the pressure lever to open and close the air inlet.

In addition, the projection portion is characterized in that it comprises an insertion portion fitted to the air inlet, and a support portion provided with a larger diameter than the insertion portion is in close contact with the bottom surface of the seating groove.

In the condensate tank of the clothes dryer according to the spirit of the present invention, in the condensate tank of the clothes dryer in which the condensate collected from the object to be dried is stored, the condensate tank is the condensate tank inlet through which the condensed water enters and the air inflows the air into the condensate tank. And an opening and closing unit for opening and closing the inlet and the air inlet.

In addition, the air inlet is characterized in that it is provided in the corner portion forming a diagonal direction with the condensate tank entrance.

In addition, the opening and closing unit is a pressing lever provided in a rectangular plate shape, a rotary shaft provided in the shape of a rod to be coupled to the lower side of the pressing lever, and a projection connected to the direction perpendicular to the pressing lever to open and close the air inlet according to the rotation of the pressing lever. Characterized in that it comprises a.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 and 2 is a view showing the appearance and configuration of the clothes dryer according to an embodiment of the present invention, respectively, Figure 3 is a view showing a base assembly in the clothes dryer according to an embodiment of the present invention.

As shown in FIGS. 1 to 3, the clothes dryer 1 includes a main body 10, a rotating drum 20, a driving unit 30, a drying unit 40, a capacitor 50, and a cooling unit 60. It is configured to include a condensate tank (200).

The main body 10 accommodates a cabinet 11, a top cover 12 covering an upper portion of the cabinet 11, a front panel 13 disposed at the front of the cabinet 11, and a condensate tank 200. It may include a condensate tank housing 100, and a control panel 14 in which various buttons and displays for controlling the dryer 1 are arranged. In this embodiment, although the condensate tank housing 100 and the control panel 14 are illustrated as an integrated unit by one frame, the condensate tank housing 100 and the control panel 14 may be provided separately from each other. have.

An inlet 15 is formed on the front surface of the main body 10 to inject a drying object into the rotating drum 20, and a door 16 is provided in front of the inlet 15 to open and close the inlet 15. The hinges are combined.

The rotating drum 20 is rotatably installed inside the main body 10. A plurality of lifters 21 are disposed in the rotation drum 20 along the circumferential direction of the rotation drum 20. The lifter 21 raises and falls the object to be dried so that the object to be dried is effectively dried.

The front of the rotating drum 20 is open, the hot air inlet 22 is formed on the rear of the rotating drum (20). Air heated by the drying unit 40 is introduced into the rotary drum 20 through the hot air inlet 22.

2 and 3, the base assembly 70 is mounted to the lower portion of the rotating drum 20. The base assembly 70 includes a base 71 in which flow paths 46, 61, and 62 are formed, and at least one base cover (not shown) covering the base 71. At least one base cover, which is not shown, covers the upper part of the capacitor 50, the cooling fan 63, and the flow paths 46, 61, and 62 to form a duct structure together with the base 71.

The rotating drum 20 is driven by the drive unit 30. 2 and 3, the drive unit 30 rotates with the drive motor 31 mounted on the base assembly 70, the pulley 32 rotated by the drive motor 31, and the pulley 32. It may include a belt 33 for connecting the drum 20 to transfer the power of the drive motor 31 to the rotary drum (20).

The drying unit 40 heats the air and circulates the heated air to dry the object to be dried in the rotary drum 20. The drying unit 40 may include a heating duct 41, a heater 42, a circulation fan 43, a hot air discharge duct 44, a connection duct 45, and a hot air circulation passage 46.

The heating duct 41 is disposed at the rear of the rotating drum 20 and communicates with the inside of the rotating drum 20 through the hot air inlet 22 formed in the rotating drum 20. The heating duct 41 communicates with the hot air circulation passage 46.

The heater 42 and the circulation fan 43 are disposed in the heating duct 41. The heater 42 heats the air, and the circulation fan 43 sucks air in the hot air circulation passage 46 and discharges it into the heating duct 41 to generate a circulation airflow through the rotating drum 20. . The circulation fan 43 may be driven together by a drive motor 31 for driving the rotating drum 20.

The hot air discharge duct 44 is disposed in front of the rotating drum 20 to guide the discharge of hot and humid air passing through the inside of the rotating drum 20. The filter 44a is installed in the hot air discharge duct 44 so as to filter foreign matter such as lint.

The connection duct 45 connects the hot air discharge duct 44 and the hot air circulation passage 46, and the hot air circulation passage 46 connects the connection duct 45 and the heating duct 41 to circulate the hot air. . As shown in FIG. 3, the connection duct 45 and the hot air circulation passage 46 may be integrated into the base assembly 70.

In the hot air circulation passage 46, a capacitor 50 for removing moisture from the circulating hot air is disposed. The hot air passing through the condenser 50 is cooled by the relatively cold air supplied from the cooling unit 60, and consequently condenses moisture contained in the hot air circulating.

The cooling unit 60 includes an intake passage 61, an exhaust passage 62, and a cooling fan 63. One side of the intake passage 61 is connected to the intake port 17 (refer to FIG. 1) formed at the lower front surface of the main body 10, and the other side of the intake passage 61 is connected to the suction side of the cooling fan 63. One side of the exhaust passage 62 is connected to the discharge side of the cooling fan 63. The exhaust passage 62 extends toward the hot air circulation passage 46, and the exhaust passage 62 and the hot air circulation passage 46 meet each other. The capacitor 50 is disposed at the point. As shown in FIG. 3, the intake passage 61 and the exhaust passage 62 may be integrated into the base assembly 70.

The capacitor 50 is configured to exchange heat in a state where hot air circulating through the hot air circulation passage 46 of the drying unit 40 and cold air flowing along the exhaust passage 62 of the cooling unit 60 are isolated from each other. . To this end, the capacitor 50 is provided with a plurality of partition plates 52 which are stacked at regular intervals to form heat exchange passages 51.

The heat exchange passages 51 are condensation passages 51a through which hot air circulates in communication with the connection duct 45 and the hot air circulation passage 46, and a cooling passage through which the cooling air passes through the exhaust passage 62. And 51b. The condensation flow passage 51a and the cooling flow passage 51b are separated from each other, and are alternately arranged while having a cross direction. Fin passages 53b may be installed in the cooling passages 51b to improve heat exchange efficiency of the capacitor 50.

On the other hand, the capacitor 50 includes a capacitor inlet 72 formed at one front side of the base assembly 70 and a capacitor inlet 13a (refer to FIG. 1) formed at the lower portion of the front panel 13 in correspondence with the capacitor inlet 72. It may be mounted to or separated from the base assembly 70 through. The capacitor inlet 13a of the front panel 13 is opened and closed by a cover 13b (see FIG. 1).

When the drying stroke is started, the drive motor 31 and the heater 42 operate. The circulation fan 43 rotates in the drive motor 31 to generate an air flow, and the heater 42 heats the air passing through the heating duct 41. The air heated in the heating duct 41 is introduced into the rotating drum 20 through the hot air inlet 22, and the moisture is removed from the drying object injected into the rotating drum 20 to dry the drying object. . The hot and humid air inside the rotary drum 20 is guided to the capacitor 50 via the hot air discharge duct 44 and the connection duct 45. The air guided to the condenser 50 is cooled while passing through the condensation flow passage 51a of the condenser 50 to remove moisture, and guided to the heating duct 41 through the hot air circulation flow passage 46. The air circulated in this way is heated again by the heater 42 is supplied to the rotating drum (20).

In addition, the power of the drive motor 31 is transmitted to the rotating drum 20 through the belt 33 to rotate the rotating drum 20, whereby the drying object flows and is dried evenly.

In addition, the driving motor 31 rotates the cooling fan 63. When the cooling fan 63 rotates, outside air is sucked into the main body 10 through the intake port 17 and guided to the capacitor 50 through the flow paths 61 and 62 formed in the base assembly 70. The relatively cold air guided to the condenser 50 cools the hot air passing through the condensing oil passage 51a of the condenser 50 while passing through the cooling passage 51b of the condenser 50, and an exhaust port formed in the main body 10. Through 18 (see FIG. 1).

Condensate generated in the drying process as described above is collected in the condensate collection unit 73 provided in the base assembly 70 as shown in FIG. The condensate of the condensate collecting unit 73 is pumped by the pump 81, guided to the condensate tank 200 through the condensate discharge pipe 82 and stored in the condensate tank 200.

4 is a perspective view illustrating a condensate tank housing and a condensate tank in a clothes dryer according to an embodiment of the present invention.

As shown in FIGS. 1 and 4, the condensate tank housing 100 includes condensate defined by a housing inlet 110 through which the condensate tank 200 enters, and both side plates 120 and a bottom plate 130. It includes a tank receiving portion 140. A protection panel 150 may be installed on the condensate tank receiving part 140 to protect the condensate tank 200. As shown in FIG. 4, the bottom plate 130 of the condensate tank housing 100 may protrude while forming a curved surface thereof, which does not interfere with the rotating drum 20 in which the condensate tank housing 100 is disposed. Considered not to. Therefore, when the condensate tank housing 100 is disposed in a position that does not interfere with the rotating drum 20, it is of course possible to flatten the bottom surface 131 of the condensate tank housing 100.

The condensate tank 200 has a condensate tank body 210 in which condensed water is stored therein, and a front cover 220 disposed at the front of the condensate tank body 210.

The front cover 220 covers the housing inlet 110 of the condensate tank housing 100 with the condensate tank 200 mounted to the condensate tank housing 100. The front surface of the front cover 220, the handle 240 is formed so that the user can easily grip the condensate tank 200.

The condensate tank entrance 230 is formed at one side of the upper surface of the condensate tank body 210. One end of the condensate discharge pipe 82 (see FIG. 2) is disposed at an upper portion of the condensate tank outlet 230, and the condensate guided through the condensate discharge pipe 82 drops from the condensate discharge pipe 82 to open the condensate tank outlet 230. Through the condensate tank 200 is introduced into. At the end of the drying stroke or when the water in the condensate tank 200 is filled with a predetermined level or more, the user separates the condensate tank 200 and discharges the condensed water that is full through the condensate tank entrance 230.

5 is an enlarged view of a part of the condensate tank body, FIG. 6A is a view showing a state in which the air inlet is closed, and FIG. 6B is a view showing a state in which the air inlet is opened.

As shown in Figure 5 and 6, the other side of the upper surface of the condensate tank body 210 is formed with a recess groove 211 of a shape recessed to a predetermined size. The size of the seating groove 211 is such that the opening and closing unit 400 to be described later protrudes to the outside so that the opening and closing unit 400 does not interfere with the main body 10 (see FIG. 1) in the process of inserting and removing the condensate tank 200. You can set the size.

The seating groove 211 is provided with a condensate tank entrance 230 so that condensate is not discharged through the air inlet 300 provided inside the seating groove 211 in the process of tilting the condensate tank 200 to one side to discharge the condensate. It may be formed to have a diagonal direction. That is, when the condensate tank inlet 230 is formed in the upper left of the condensate tank body 210, as shown in Figure 4, the seating groove 211 is formed in the lower right of the condensate tank body 210 to condensate When the condensate is discharged through the tank inlet 230, the condensate does not leak through the air inlet 300.

An air inlet 300 penetrating inside and outside of the condensate tank 200 is formed at one side of the bottom surface 211a of the seating groove. The air inlet 300 is coupled to the condensate tank entrance 230 to allow air to flow into the condensate tank 200 when the condensate stored in the condensate tank 200 is discharged, thereby stably discharging the condensate. .

The bottom 211a of the seating recess is provided with a connection portion 211b for fixing the opening / closing unit 400 to the seating recess 211. The connection part 211b is a shape protruding upward from the bottom surface 211a of the seating groove, and the opening and closing unit 400 can move with a certain direction, and the door opening and closing unit 400 is easily detached from the bottom surface 211a of the seating groove. Secure it so that it Therefore, the connection part 211b may be formed at both sides of the bottom surface 211a of the seating recess, and may be provided to fix the opening / closing unit 400 through the through hole H.

In addition, the mounting groove 211 is provided with an opening and closing unit 400 is coupled to the above-described connection portion 211b to selectively open and close the air inlet 300 as the predetermined angle rotates. The opening and closing unit 400 includes a rotating part 410 rotatably installed on the bottom surface 211a of the seating recess, and a protrusion part 420 connected to the rotating part 410 to selectively open and close the air inlet 300. Can be. The rotation unit 410 may include a pressure lever 411 rotated in both directions, and a rotation shaft 412 coupled to the connection part 211b such that the pressure lever 411 is rotatable.

The pressure lever 411 is a configuration in which an external force is applied by the user, and may be provided in a rectangular plate shape. The pressure lever 411 is provided with a first end 411a adjacent to the protrusion 420 and a second end 411b not adjacent to the protrusion 420 based on the rotation shaft 412. When the user applies downward force from the first end portion 411a of the pressure lever 411, the protrusion 420 is inserted into the air inlet 300 to maintain the state of closing the air inlet 300.

Then, when the user applies a force downward from the second end portion 411b of the pressure lever 411, the projection 420 is spaced apart from the air inlet 300. Therefore, the inside of the condensate tank 200 can be introduced into the insufficient air through the open air inlet (300).

Here, L ₁ which is the distance from the rotation shaft 412 to the first end 411a and L _{2 which} is the distance from the rotation shaft 412 to the second end may be provided in substantially the same manner. In addition, L ₁ , the distance from the rotation shaft 412 to the first end, and L ₃ , the distance from the rotation shaft 412 to the protrusion 420, preferably have a ratio of about 1/2 to 2/3. Do.

The lower side of the pressure lever 411 is provided with a rotating shaft 412 for coupling the pressure lever 411 to the connection portion 211b. The rotating shaft 412 may be inserted into the through hole H of the connecting portion 211b and may be provided in a rod shape to rotate in a clockwise or counterclockwise direction. That is, the rotary shaft 412 is rotated clockwise or counterclockwise by applying a force downward from the first end portion 411a, the second end portion 411b of the pressure lever 411, the opening and closing unit 400 is Allow relative movement with the connection portion 211b. Here, although the rotation shaft 412 and the pressure lever 411 is shown integrally formed, the rotation shaft 412 and the pressure lever 411 may be manufactured separately and can be coupled by a coupling method such as heat fusion. Of course.

The protrusion 420 extends from the pressure lever 411 to the bottom surface 211a of the seating groove so as to correspond to the air inlet 300. The protrusion 420 is inserted into the air inlet 300 to close the air inlet 300, and is spaced apart from the air inlet 300 to open the air inlet 300.

The protrusion 420 has an insertion part 421 fitted to the air inlet 300. The insertion part 421 is fitted to the inner circumferential surface of the air inlet 300. In addition, the protrusion 420 may include a support 422 for preventing the insertion portion 421 from being excessively inserted into the air inlet 300. That is, the support part 422 extends in the circumferential direction of the protrusion part 420 and is supported by the bottom surface 211a of the seating groove adjacent to the air inlet port 300, so that the protrusion part 420 is more than necessary to the air inlet port 300. To prevent it from being inserted. On the other hand, the protrusion 420 may be formed integrally with the pressure lever 411, each of which is composed of an independent member can be manufactured by a method of coupling.

Next, the operation of the air inlet according to the embodiment of the present invention will be described.

First, when the drying stroke is finished or when the condensate tank 200 is filled with a predetermined level or more water, the user separates the condensate tank 200 from the body 10 to empty the condensate tank 200. In the process of separating the condensate tank 200, the air inlet 300 maintains the closed state by the protrusion 420 so that the condensed water is not discharged through the air inlet 300.

Next, the condensate tank 200 is tilted to one side in order to discharge the condensate through the condensate tank entrance 230. At the same time, when the user presses the second end 411b of the pressure lever 411 downward by using the hand holding the handle 240, the protrusion 420 is spaced apart from the air inlet 300 so that the outside air is condensed water tank. It is introduced into the interior of the (200).

 Therefore, by opening the air inlet 300 by a simple operation so that the outside air flows into the condensate tank 200, it is possible to quickly discharge the condensate stored in the condensate tank 200 without the phenomenon of cooling.

As described above, the clothes dryer according to an embodiment of the present invention provides a condensate tank for storing the condensate collected from the object to be dried to provide an air inlet and an opening / closing unit for opening and closing the condensate to quickly discharge the condensate. It can be seen that it is thought. Therefore, many modifications may be made by those skilled in the art without departing from the scope and spirit of the present invention.

1 and 2 are views showing the appearance and configuration of the clothes dryer according to the embodiment of the present invention, respectively.

3 is a view showing a base assembly in a clothes dryer according to an embodiment of the present invention.

4 is a perspective view illustrating a condensate tank housing and a condensate tank in a clothes dryer according to an embodiment of the present invention.

FIG. 5 is an enlarged view of a portion of the condensate tank shown in FIG. 4.

6A and 6B are cross-sectional views taken along line II of FIG. 4.

Description of the Related Art [0002]

1..Clothes dryer 10..Main body

20. Rotating drum 30. Driving unit

40. Drying unit 50. Condenser

60. Cooling unit 100. Condensate tank housing

200. Condensate tank 300. Air inlet

400..Opening and closing unit 410 ... Rotating part

411 Pressure lever 412 Rotary shaft

420: protrusion

Claims (8)

With the body, A condensate tank detachably mounted to the main body and configured to store condensate collected from a drying object; A condensate tank entrance through which the condensed water comes in and out; And an air inlet for introducing air into the condensate tank when the condensate is discharged through the condensate tank inlet. The method of claim 1, The air inlet is a clothes dryer characterized in that it is provided to form a diagonal direction with the condensate tank entrance. The method of claim 1, The condensate tank has a recessed groove recessed to a predetermined depth, Clothes dryer, characterized in that the opening and closing unit for opening and closing the air inlet is installed on the bottom of the seating groove. The method of claim 3, The opening and closing unit includes a pressing lever rotated in both directions, a rotary shaft for coupling the pressing lever to the bottom surface of the seating groove, and a clothes dryer connected to the pressing lever to open and close the air inlet. The method of claim 4, wherein The protrusion part includes an insertion part fitted to the air inlet, and a support part provided with a larger diameter than the insertion part is supported in close contact with the bottom surface of the seating groove. In the condensate tank of the clothes dryer in which the condensate collected from the object to be dried is stored, The condensate tank comprises a condensate tank entrance through which the condensed water comes in and out, an air inlet through which air is introduced into the condensate tank, and an opening and closing unit configured to open and close the air inlet. The method of claim 6, The air inlet is a condensate tank, characterized in that provided in the corner portion of the condensate tank entrance and the diagonal direction. The method of claim 6, The opening and closing unit is connected to the pressing lever provided in a rectangular plate shape, a rotating shaft provided in the shape of a rod to be coupled to the lower side of the pressing lever in a direction perpendicular to the pressing lever and the air inlet according to the rotation of the pressing lever. Condensate tank comprising a protrusion for opening and closing.

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