KR101849674B1 - Drying apparatus and washing machine having the same and control method of washing machine - Google Patents

Abstract

Disclosed is a drying apparatus having an improved structure for improving condensation efficiency and a washing machine including the drying apparatus.
The washing machine includes a cabinet, a tub disposed in the cabinet, a drum rotatably disposed in the tub, a condensing duct condensing moisture in the air introduced from the drum, and air introduced from the condensing duct And a condensed water storage portion formed along the periphery of the condensed duct for storing condensed water for condensing moisture in the air moving inside the condensed duct.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drying apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drum washing machine, and more particularly, to a washing machine having a drying device for drying laundry and a control method thereof.

Generally, a drying device of a washing machine supplies hot air heated by a heating device to the inside of a drum to heat the laundry, thereby evaporating moisture of the laundry, condensing the evaporated moisture and discharging the laundry to dry the laundry.

Such a drying apparatus is provided for supplying hot air into the inside of the drum. The drying apparatus has a heating duct, one end of which is connected to a discharge port of the blowing fan, and the other end of which is connected to the inside of the drum, And a condensing duct connected to the inside of the drum so as to communicate with the inside of the drum and connected to the suction port of the blowing fan, for condensing and discharging moisture in the course of guiding humid air toward the blowing fan.

One aspect of the present invention provides a drying apparatus having an improved structure for improving condensation efficiency and a washing machine including the drying apparatus.

Another aspect of the present invention provides a method of controlling a washing machine capable of reducing condensed water used in a process of drying laundry.

A washing machine according to an embodiment of the present invention includes a cabinet, a tub disposed inside the cabinet, a drum rotatably disposed inside the tub, and a condenser for condensing moisture in the air introduced from the inside of the drum A condensing duct for condensing moisture in the air flowing along the periphery of the condensing duct, the condensing duct for condensing moisture in the air flowing in the condensing duct, And a condensed water storage part for storing the condensed water.

The condensed water storage unit may be formed at a periphery of the condensed duct duct to form a storage space for storing condensed water together with the outer circumferential surface of the condensed duct duct.

The condensed water storage unit may further include a water supply nozzle for supplying condensed water, and the water supply nozzle may be provided below the condensed water storage unit.

The condensed-water duct may further include a communication hole for communicating the condensed-water duct and the condensed-water storage portion, and the condensed water stored in the condensed-water storage portion may be introduced into the condensed-duct duct through the communication hole.

The communication hole is located above the water supply nozzle, and the condensed water introduced through the water supply nozzle moves to the upper portion of the condensed water storage portion and flows into the condensed duct duct through the communication hole to be dropped.

The condensing duct duct may further include a dispersing member for allowing the condensed water flowing through the communication hole to be dispersed and fall inside the condensing duct duct.

Wherein the dispersing member includes a dispersion plate extending from an inner circumferential surface of the condensing duct duct at a lower portion of the communication hole toward a center of the condensing duct duct and a condensing duct penetrating the dispersion plate for dropping condensate located on the upper surface of the dispersion plate And may include through holes.

The condensed water storage unit may be formed on the inner side of the condensed duct duct to form a storage space for storing the condensed water together with the inner peripheral surface of the condensed duct duct.

The condensate reservoir may be configured to surround the condensing duct along at least a portion of the periphery of the condensing duct.

The condensed water storage unit may include a drain nozzle provided below the condensed water storage unit and draining the condensed water stored in the condensed water storage unit.

The drainage nozzle may be provided with a condensate drain valve for selectively opening and closing the drainage nozzle.

According to another aspect of the present invention, there is provided a washing machine comprising: a cabinet; a tub disposed inside the cabinet; a condensing duct for condensing moisture in the air introduced from the tub; A blowing fan located between the condensing duct and the drying duct to form a flow of air so that the air of the condensing duct can be introduced into the tub through the drying duct; A condensed water storage part provided in a part of the condensing duct for storing condensed water for condensing moisture in the air moving in the condensed duct; and a water supply nozzle for supplying condensed water to the condensed water storage part, The condensing duct being provided inside the housing and being connected to the condensing duct and the condensing duct, It characterized in that it comprises a; heat exchange unit for heat exchange with each other the air flow part.

Wherein the heat exchange unit extends in a longitudinal direction of the housing from the lower surface of the housing, the housing includes an inner flow path communicating with the condensing duct by the heat exchanging unit and through which air flows, and an outer flow path through which the condensed water supplied from the water supply nozzle is stored. . ≪ / RTI >

The condensed water storage unit may further include a communication hole for communicating the inner passage and the outer passage, and the condensed water stored in the outer passage may be introduced into the inner passage through the communication hole.

And a water supply nozzle connected to the housing and supplying condensed water to the outer flow path, wherein the water supply nozzle is located at a lower position relative to the communication hole.

The condensed water flowing into the outer flow path is heat-exchanged with the air flowing through the inner flow path through the heat exchanging part to condense the moisture contained in the air, and moves to the upper part of the outer flow path and flows into the inner flow path through the communication hole The condensed water is in contact with the air flowing through the inner passage to condense moisture contained in the air.

Wherein the condensed water storage portion further comprises a dispersion member for allowing the condensed water flowing through the communication hole to be dispersed and dropped from the inner flow passage, wherein the dispersion member includes a dispersion plate extending from one end of the heat exchange portion to the center of the housing, And a plurality of through holes passing through the dispersion plate to allow the condensed water located on the upper surface of the dispersion plate to drop.

According to another aspect of the present invention, there is provided a drying apparatus for a washing machine, which is provided on an outer surface of a tub of a washing machine to dry air inside the tub, wherein the drying apparatus includes: And a condensing duct for condensing moisture in the condensing duct, and a drying duct for heating the air introduced from the condensing duct and supplying the heated air to the tub, wherein the condensing duct includes: an air passage through which air flows; And a condensed water flow path for storing condensed water for condensing moisture contained in the air flowing through the air flow path.

The air flow path and the condensed water flow path may communicate with each other so that the condensed water stored in the condensed water flow path may flow into the air flow path.

According to another aspect of the present invention, there is provided a washing machine comprising a cabinet, a tub disposed inside the cabinet, and a drying device connected to the tub to circulate and dry the air inside the tub, The apparatus includes a condensing duct having a first duct through which air introduced from the turbine flows and a second duct that stores condensed water supplied to condense moisture in the air flowing through the first duct; And a drying duct for heating the air introduced from the duct and supplying the heated air to the inside of the drum.

A method of controlling a drying cycle of a washing machine according to an embodiment of the present invention includes controlling a drying cycle of a washing machine including a tub and a drying device coupled to the tub to circulate air inside the tub to dry laundry, A first drying course for controlling the weight of the laundry to be dried and controlling the amount of condensed water to be supplied to the drying apparatus so that the amount of the condensed water supplied to the drying apparatus does not exceed a predetermined amount when the weight of the laundry is below a predetermined value, A second drying course for controlling the supply of the condensed water to the drying apparatus regardless of the set amount is applied to the drying apparatus when the weight of the detected laundry is equal to or greater than a predetermined value, The apparatus is operated to perform the second drying step.

Wherein the drying device further includes a water supply nozzle through which condensed water flows and a valve provided in the water supply nozzle, wherein the first drying step is a step of controlling the ON / OFF control of the valve so that the condensed water flowing into the drying device And adjusting the amount.

Wherein the first drying step includes a condensing stroke for condensing the moisture contained in the air inside the drying apparatus and a heating stroke for heating the air inside the drying apparatus, So that the amount of condensation does not exceed the set amount, and the number of times of the condensation and the number of heating strokes is increased.

The drying apparatus includes a condensing duct communicating with the tub and having a condensed water storing portion for condensing moisture in the air introduced from the tub, and a drying duct for heating the air introduced from the condensing duct to supply the heated air to the tub can do.

Wherein the first drying step or the second drying step measures whether or not a predetermined time has elapsed since the start of the first drying step or the second drying step and that the condensed water is supplied to the condensed- And the like.

Wherein the first drying step or the second drying step measures the temperature inside the tub after the first drying step or the second drying step is started, and when the temperature inside the tub is equal to or higher than the set temperature, And allowing the condensate to be supplied.

Wherein the first drying step or the second drying step measures the temperature of the air inside the drying duct after the first drying step or the second drying step starts and if the temperature of the air inside the drying duct reaches a set temperature And supplying condensed water to the condensed water storage unit when the temperature of the condensed water is higher than the predetermined temperature.

A method of controlling a drying cycle of a washing machine according to an embodiment of the present invention includes controlling a drying cycle of a washing machine including a tub and a drying device coupled to the tub to circulate air inside the tub to dry laundry, The drying device includes a condensing duct communicating with the tub and having a condensed water storage portion for condensing moisture in the air introduced from the tub, and a drying duct for heating the air introduced from the condensing duct to supply the heated air to the tub The drying step includes the steps of measuring whether a predetermined time has elapsed since the start of the drying cycle, supplying condensed water to the condensed water storage when the set time has elapsed, And draining the water in the condensed water storage portion when it is determined that the water is completed.

A method of controlling a drying cycle of a washing machine according to an embodiment of the present invention includes controlling a drying cycle of a washing machine including a tub and a drying device coupled to the tub to circulate air inside the tub to dry laundry, The drying device includes a condensing duct communicating with the tub and having a condensed water storage portion for condensing moisture in the air introduced from the tub, and a drying duct for heating the air introduced from the condensing duct to supply the heated air to the tub Wherein the drying step includes the steps of: measuring a temperature inside the tub after the drying stroke is started; supplying condensed water to the condensed water storage when the temperature inside the tub is equal to or higher than a predetermined temperature; And draining the water in the condensed water storage portion when it is determined that the drying of the condensed water is completed It shall be.

A method of controlling a drying cycle of a washing machine according to an embodiment of the present invention includes controlling a drying cycle of a washing machine including a tub and a drying device coupled to the tub to circulate air inside the tub to dry laundry, The drying device includes a condensing duct communicating with the tub and having a condensed water storage portion for condensing moisture in the air introduced from the tub, and a drying duct for heating the air introduced from the condensing duct to supply the heated air to the tub The drying process includes the steps of measuring the temperature of the air in the drying duct after the drying cycle is started, and supplying condensed water to the condensed water storage unit when the temperature of the air inside the drying duct is equal to or higher than a predetermined temperature And a controller for controlling the operation of the washing machine, And the like.

The condensed water can be intermittently supplied to the condensed water storage unit.

According to the embodiments of the present invention, the condensing efficiency of the drying device is improved, so that the drying time of the laundry is shortened and the power consumption is reduced.

1 is a view of a washing machine according to an embodiment of the present invention;
FIG. 2 is a perspective view showing an excerpt of a partial configuration of FIG. 1; FIG.
FIG. 3 is a rear view of the turbine and condensing duct shown in FIG. 2; FIG.
4 is a perspective view illustrating a condensing duct according to a first embodiment of the present invention;
5 is a sectional view taken along the line II in Fig.
6 is a view showing a path through which water condensed by condensed water or condensed water is drained;
7 is a cross-sectional view of a condensing duct according to a second embodiment of the present invention;
8 is a sectional view taken along the line II-II in Fig. 7; Fig.
9 is a perspective view showing a condensing duct according to a third embodiment of the present invention.
10 is a sectional view taken along the line III-III in Fig.
11 is a perspective view illustrating a condensing duct according to a fourth embodiment of the present invention.
12 is a sectional view taken along the line IV-IV in Fig.
13 is a view showing the structure of a condensed water storage portion when the condensed water storage portion is formed separately from the condensed water duct portion.
14 is a sectional view taken along the line IV-IV in Fig.
15 and 16 are flowcharts showing a method of controlling a drying cycle of a washing machine according to an embodiment of the present invention.

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

FIG. 1 is a perspective view of a washing machine according to an embodiment of the present invention. FIG. 2 is a perspective view illustrating a part of FIG. 1. FIG. 3 is a perspective view of a tub and a condensing duct shown in FIG. Fig.

1 and 3, the washing machine 1 includes a cabinet 10 for forming an outer appearance, a tub 20 disposed inside the cabinet 10, a tub 20 rotatably installed inside the tub 20, And a motor (40) for driving the drum (30).

In the front portion of the cabinet 10, a charging port 11 is formed so that laundry can be charged into the drum 30. The input port (11) is opened and closed by a door (12) provided on a front portion of the cabinet (10).

A water supply pipe 50 for supplying wash water to the tub 20 is installed at an upper portion of the tub 20. One side of the water supply pipe 50 is connected to an external water supply source (not shown), and the other side of the water supply pipe 50 is connected to the detergent supply device 52.

The detergent supply device 52 is connected to the tub 20 via a connection pipe 54. The water supplied through the water supply pipe (50) is supplied to the inside of the tub (20) together with the detergent via the detergent supply device (52).

The tub 20 is supported by a damper 78. The damper 78 connects the inner bottom surface of the cabinet 10 and the outer surface of the tub 20.

The drum 30 includes a cylindrical portion 31, a front plate 32 disposed in front of the cylindrical portion 31, and a rear plate 33 disposed behind the cylindrical portion 31. The front plate 32 is formed with an opening 32a for allowing laundry to be inserted into and discharged from the rear plate 33 and a driving shaft 42 for transmitting the power of the motor 40 is connected to the rear plate 33.

A plurality of through holes 34 for circulating washing water are formed around the drum 30 and a plurality of lifters 34 are installed on the inner circumferential surface of the drum 30 to allow the laundry to rise and fall when the drum 30 rotates. (35).

A drive shaft (42) is disposed between the drum (30) and the motor (40). One end of the drive shaft 42 is connected to the rear plate 33 of the drum 30 and the other end of the drive shaft 42 extends to the outside of the rear wall of the tub 20. When the motor 40 drives the drive shaft 42, the drum 30 connected to the drive shaft 42 rotates about the drive shaft 42.

A bearing housing (70) is installed on the rear wall of the tub (20) to rotatably support the drive shaft (42). The bearing housing 70 may be made of aluminum alloy and may be inserted into the rear wall of the tub 20 when the tub 20 is injection molded. Bearings 72 are provided between the bearing housing 70 and the drive shaft 42 so that the drive shaft 42 can rotate smoothly.

A drain pump 80 for discharging the water inside the tub 20 to the outside of the cabinet 10 and a drain pump 80 for allowing the water in the tub 20 to flow into the drain pump 80, A connecting hose 82 for connecting the tub 20 and the drain pump 80 and a drain hose 84 for guiding the water pumped by the drain pump 80 to the outside of the cabinet 10 are provided.

A drying device 90 for drying air inside the tub 20 and then supplying the air into the tub 20 is mounted on the tub 20.

The drying device 90 includes a condensing duct 92 for condensing moisture in the air introduced from the tub 20, a drying duct 94 for heating and drying the air introduced from the condensing duct 92, And a blowing fan 96 disposed between the drying duct 94 and the drying duct 94 and forming a flow of air so that the air introduced into the condensing duct 92 can be introduced into the tub 20 through the drying duct 94. [ ). The condensing duct 92 is provided with a condensed water storage portion 100 for storing the condensed water for condensing the moisture in the air inside the condensing duct 92, ) Is formed.

FIG. 4 is a perspective view showing a condensing duct according to a first embodiment of the present invention, FIG. 5 is a sectional view taken along the line II in FIG. 4, and FIG. 6 is a view showing a path through which condensed water is drained by condensed water or condensed water Fig. Hereinafter, 'condensed water' used herein means water supplied to condense moisture in the air flowing inside the condensing duct 92.

3 to 6, both ends of the condensing duct 92 are provided with an inlet 92a through which the air in the tub 20 flows, a blowing fan mounting portion 92b through which the blowing fan 96 is mounted, And a connection pipe 92c connecting between the inlet 92a and the blowing fan mounting portion 92b.

The inlet port 92a is connected to the rear wall of the tub 20 through the duct connecting hose 93 so that the air inside the tub 20 flows into the connection pipe 92c. Although not shown, the inlet port 92a may be directly connected to the rear wall of the tub 20. A blowing fan 96 is mounted on the blowing fan mounting portion 92b to form a flow of air so that the air flowing into the connecting pipe 92c can flow to the drying duct 94. [ An air flow path 120 is formed in the connection pipe 92c so that the air introduced from the inlet port 92a can flow to the air blowing fan mounting portion 92b.

A condensed water storage part 100 for storing condensed water together with the outer circumferential surface of the connection pipe 92c is provided outside the periphery of the connection pipe 92c.

The condensed water storage part 100 includes a housing 102 provided in a shape that surrounds the connection pipe 92c on the outer side of the connection pipe 92c and a condenser part 102 provided on one side of the housing 102 to supply condensed water into the housing 102 And a drain nozzle 132 for discharging residual water remaining in the condensed water storage unit 100 after the drying process is completed.

The housing 102 seals a part of the outer circumferential surface of the connection pipe 92c to form a storage space 110 for storing the condensed water together with the outer circumferential surface of the connection pipe 92c. Since the condensed water flowing into the storage space 110 through the water supply nozzle 130 moves to the upper part of the storage space 110, the condensed water flow path can be seen in the storage space 110.

The water supply nozzle 130 is provided at a lower side of the housing 102 and a water supply pipe 99 is connected to the end of the water supply nozzle 130 to supply the condensed water to the storage space 110 through the water supply nozzle 130. [ .

The reason why the water supply nozzle 130 is provided in the lower portion of the housing 102 is that the condensed water flowing into the storage space 110 through the water supply nozzle 130 does not remain in the storage space 110, So that the air flows into the air flow path 120. The condensed water flowing into the storage space 110 through the water supply nozzle 130 moves to the upper part of the storage space 110 by the water pressure acting in the direction of pushing up the condensed water. In this process, the condensed water transfers cool air to the air flowing through the air flow path 120 through the connection pipe 92c, thereby condensing moisture contained in the air. If the condensed water flowing into the storage space 110 is located below the water supply nozzle 130, the water pressure does not act on the condensed water located below the water supply nozzle 130 in the direction of pushing up the condensed water. It can not move to the upper part of the space 110 and is still stagnated. The stagnated condensed water located below the water supply nozzle 130 does not function to condense the moisture contained in the air flowing through the air flow path 120 as time goes on and consequently the condensing efficiency of the condensing duct 92 is lowered do. Accordingly, it is preferable that the water supply nozzle 130 is located at a lower portion of the housing 102 in order to minimize the amount of condensed water located below the water supply nozzle 130.

The drainage nozzle 132 extends a predetermined length from the lower end of the housing 102 and a drainage nozzle 132 is connected to one end of the drainage nozzle 132 so as to communicate with the drainage nozzle 132 and the duct connection hose 93. [ And a condensate drain hose 134 connected to the connection hose 93 is coupled. Although not shown, the condensate drain hose 134 may be connected to the rear wall of the direct tub 20 without being connected to the duct connection hose 93.

The condensed water remaining in the condensed water storage part 100 after the drying process is completed can not fall into the connection pipe 92c through the communication hole 140, And a condensate drain hose 134 connected to one end of the drain nozzle 132. The condensate drain hose 134 is connected to the duct connecting hose 93. [ The residual water flowing into the duct connecting hose 93 moves into the tub 20 and then moves to the drain pump 80 through the connecting hose 82 connected to the lower end of the tub 20 and is discharged by the drain pump 80 And is discharged to the outside of the cabinet 10 through a process of pumping or natural drainage.

The drain nozzle 132 or the condensate drain hose 134 may be provided with a condensate drain valve 135 for selectively draining residual water remaining in the condensate storage section 100. The condensate drain valve 135 is a condensate drain valve for condensing the condensed water flowing into the condensed water storage part 100 through the water supply nozzle 130 in the process of condensing moisture in the air flowing into the condensed duct 92, When the process of condensing water in the air introduced into the condensing duct 92 is completed or the drying process is completed, the drain nozzle 132 or the condensate drain hose 134 is closed so as not to be drained through the condensing duct 134, So that remaining water remaining in the condensed water storage part (100) flows into the duct connecting hose (93). As such a condensate drain valve 135, both mechanical and electromagnetic opening and closing valves may be used.

A communication hole (140) for communicating the storage space (110) and the air flow path (120) is formed in the connection pipe (92c).

The communication hole 140 penetrates the connection pipe 92c in the circumferential direction around the connection pipe 92c with a predetermined length.

The communication hole 140 is formed in the water supply nozzle 130 so that the condensed water flowing into the storage space 110 through the water supply nozzle 130 moves to the upper portion of the storage space 110 and flows into the air flow path 120. [ As shown in FIG.

The condensed water flowing into the storage space 110 through the water supply nozzle 130 moves to the upper portion of the storage space 110 and then flows into the air flow path 120 through the communication hole 140 and drops.

During the process of moving the condensed water upward or being stored in the storage space 110, the condensed water is heat-exchanged with the air moving through the air flow path 120 to condense water contained in the air and flow into the air flow path 120 In the process of falling, it comes into direct contact with the air to condense moisture contained in the air.

The condensing duct 92 and the condensed water storage unit 100 may be integrally formed through a manufacturing method such as injection molding.

The high-temperature, high-humidity air that has absorbed the moisture contained in the laundry in the drum 30 flows into the condensing duct 92 connected to the tub 20. The moisture in the air flowing into the condensing duct 92 is condensed through heat exchange with the condensed water stored in the condensed water storage unit 100 through the condensed water storage unit 100 or overflows the condensed water storage unit 100 through the condensed water storage unit 100, The duct connecting hose 93, the tub 20, the connecting hose 82, the drain pump 80, and the drain hose 84 are connected to the condensing duct 92, And then discharged out of the washing machine 1 sequentially.

The air passing through the condensing duct 92 flows through the blowing fan 96 into the drying jig 94 in a state where most of the moisture is removed. The air introduced into the drying duct 94 is heated by the heater 98 inside the drying duct 94 and then flows into the tub 20 again in a high temperature and dry state. The reason why the heater 98 is placed inside the drying duct 94 to heat the air is because the moisture that can be absorbed increases as the temperature of the air increases, and thus the moisture contained in the laundry can be effectively absorbed.

The high temperature and dry air introduced into the tub 20 absorbs the moisture contained in the laundry in the drum 30 and then flows into the condensing duct 92. By repeating this process, Moisture is removed and the laundry is dried.

6, the condensed water dropped over the condensed water storage portion 100 into the condensed duct 92 flows along with the condensed water contained in the air flowing in the condensed duct 92, The hose 93, the tub 20, the connecting hose 82, the drain pump 80 and the drain hose 84 are sequentially discharged to the outside of the washing machine 1.

As described above, after the drying process is completed, the residual water remaining in the condensed water storage unit 100 flows through the drain nozzle 132, the condensate drain hose 134, the duct connection hose 93, the tub 20, The hose 82, the drain pump 80 and the drain hose 84 are sequentially discharged to the outside of the washing machine 1.

FIG. 7 is a cross-sectional view illustrating a condensing duct according to a second embodiment of the present invention, and FIG. 8 is a cross-sectional view taken along a line II-II in FIG.

As shown in FIGS. 7 and 8, the condensing duct 92 may further include a dispersing member 150 so that the condensed water flowing into the air flow path 120 is dispersed and dropped.

The dispersion member 150 is disposed below the communication hole 140 and includes a dispersion plate 152 extending from the inner circumferential surface of the connection pipe 92c toward the center of the connection pipe 92c, And includes a through-hole 154 penetrating therethrough.

The condensed water dropped on the upper surface of the dispersion plate 152 through the communication hole 140 is dispersed and falls in the direction of the inlet port 92a through the through hole 154. [ Therefore, the contact area between the air flowing through the air flow path 120 and the condensed water is increased, so that the condensing efficiency is further improved.

FIG. 9 is a perspective view showing a condensing duct according to a third embodiment of the present invention, and FIG. 10 is a sectional view taken along a line III-III in FIG.

9 and 10, a condensed water storage part 300 for storing condensed water supplied from the water supply nozzle 330 together with the inner circumferential surface of the connection pipe 92c is provided inside the circumference of the connection pipe 92c .

The condensed water storage part 300 includes a bottom surface 360a extending from the inner circumferential surface of the connection pipe 92c toward the center of the connection pipe 92c and forming the bottom of the condensed water storage part 300, And a partition surface 360b extending upward to partition the interior of the connection pipe 92c.

The bottom surface 360a and the partition surface 360b together with the inner circumferential surface of the connection pipe 92c form a storage space 310 in which the condensed water is stored. Since the condensed water flowing into the storage space 310 through the water supply nozzle 330 moves to the upper part of the storage space 310, the condensed water flow path can be seen in the storage space 310.

The water supply nozzle 330 communicates with a lower side of the storage space 310 through the connection pipe 92c and a water supply pipe 99 is connected to an end of the water supply nozzle 330, To the storage space (310).

The reason why the water supply nozzle 330 communicates with the lower part of the storage space 310 is that the water supply nozzle 130 is provided in the lower part of the housing 102 in the condensing duct 92 according to the first embodiment of the present invention The explanation is omitted because it is the same as the reason.

The drain nozzle 332 penetrates through the connection pipe 92c and communicates with the other lower side of the storage space 310. The drain nozzle 332 and the duct connection hose 93 are communicated with each other at the end of the drain nozzle 332 A condensate drain hose 134 for connecting the drainage nozzle 332 to the duct connection hose 93 is coupled. Although not shown, the condensate drain hose 134 may be connected to the rear wall of the direct tub 20 without being connected to the duct connection hose 93.

The process of completing the drying process and discharging the condensed water remaining in the condensed water storage unit 300 to the outside of the cabinet 10 is the same as that of the first embodiment of the present invention described above,

The drainage nozzle 332 may be provided with a condensate drain valve 335 for selectively draining remaining water in the condensed water storage unit 300. The condensate water discharge valve 335 discharges the condensed water flowing into the condensed water storage unit 300 through the water supply nozzle 330 through the drainage nozzle 332 in the process of condensing the moisture in the air flowing into the condensation duct 92 So that the remaining water in the condensed water storage part 300 is drained after the process of condensing water in the air flowing into the condensing duct 92 is completed or the drying process is completed . As the condensate drain valve 335, a mechanical or electromagnetic opening / closing valve may be used.

The condensed water flowing into the storage space 310 through the water supply nozzle 330 moves to the upper portion of the storage space 310 and then flows through the opening formed between the inner peripheral surface of the connection pipe 92c and the partition surface 360b, (320).

The condensed water is heat-exchanged with the air moving through the air flow path 120 through the partition surface 360b to condense the moisture contained in the air, (320), and is in direct contact with the air in the process of falling, thereby condensing the moisture contained in the air.

Meanwhile, the condensing duct 92 and the condensed water storage unit 300 may be integrally formed through a manufacturing method such as injection molding.

Although not shown, the condensed water storage unit 300 may further include a dispersing member 150 so that the condensed water flowing into the air flow path 320 is dispersed and dropped to improve the condensation efficiency.

FIG. 11 is a perspective view showing a condensing duct according to a fourth embodiment of the present invention, and FIG. 12 is a sectional view taken along line IV-IV in FIG.

11 and 12, at least a part of the periphery of the connection pipe 92c is provided with a condensed water storage part 400 for storing the condensed water together with the outer circumferential surface of the connection pipe 92c.

The condensed water storage part 400 includes a housing 402 provided in a shape to surround a part of the periphery of the connection pipe 92c from the outer circumference of the connection pipe 92c and a housing 402 provided at one side of the housing 402, A water supply nozzle 430 for supplying condensed water and a drain nozzle 432 for discharging residual water remaining in the condensed water storage unit 400 after the drying process is completed.

The housing 402 seals a part of the outer circumferential surface of the connection pipe 92c in the longitudinal direction of the connection pipe 92c to form a storage space 410 for storing the condensed water together with the outer circumferential surface of the connection pipe 92c. Since the condensed water flowing into the storage space 410 through the water supply nozzle 430 moves to the upper part of the storage space 410, the condensed water flow path can be seen in the storage space 410.

The water supply nozzle 430 is provided at a lower side of the housing 402 and a water supply pipe 99 is connected to the end of the water supply nozzle 430 to supply the condensed water .

The reason why the water supply nozzle 430 is provided below the housing 402 is that the water supply nozzle 130 is provided in the lower portion of the housing 102 in the condensing duct 92 according to the first embodiment of the present invention And therefore description thereof will be omitted.

The drainage nozzle 432 is provided at one side of the housing 402 where the water supply nozzle 430 is provided and at the lower side of the other side of the housing 402. One end of the drainage nozzle 432 is provided with a drainage nozzle 432, A condensate drain hose 134 is connected which connects the drainage nozzle 432 to the duct connection hose 93 so that the drainage hose 93 can communicate with the drainage hose 93. Although not shown, the condensate drain hose 134 may be connected to the rear wall of the direct tub 20 without being connected to the duct connection hose 93.

The process of completing the drying process and discharging the condensed water remaining in the condensed water storage unit 400 to the outside of the cabinet 10 is the same as that of the first embodiment of the present invention described above,

The drain nozzle 432 may be provided with a condensate drain valve 435 for selectively draining residual water remaining in the condensed water storage unit 400. The condensate water discharge valve 435 discharges the condensed water flowing into the condensed water storage part 400 through the water supply nozzle 430 through the drainage nozzle 432 in the process of condensing the moisture in the air flowing into the condensation duct 92 So that the remaining water in the condensed water storage unit 400 is drained after the process of condensing water in the air introduced into the condensing duct 92 is completed or the drying process is completed . As such a condensate drain valve 435, a mechanical or electromagnetic opening / closing valve may be used.

The connection pipe 92c is formed with a communication hole 440 for communicating the storage space 410 and the air flow path 420. The communication hole 440 penetrates a portion of the connection pipe 92c in a circumferential direction along the circumference of the connection pipe 92c with a predetermined length.

The communication hole 440 is connected to the water supply nozzle 430 so that the condensed water flowing into the storage space 410 through the water supply nozzle 430 moves to the upper portion of the storage space 410 and flows into the air flow path 420, As shown in FIG.

The condensed water flowing into the storage space 410 through the water supply nozzle 430 moves to the upper portion of the storage space 410 and then flows into the air flow path 420 through the communication hole 440 and drops.

The condensed water is heat-exchanged with the air moving through the air flow path 420 to condense moisture contained in the air and flow into the air flow path 420 In the process of falling, it comes into direct contact with the air to condense moisture contained in the air.

The condensing duct 92 and the condensed water storage part 400 may be integrally formed through a manufacturing method such as injection molding.

Although not shown, the condensed water storage part 400 may further include a dispersion member 150 so that the condensed water flowing into the air flow path 420 may be dispersed and dropped to increase condensation efficiency.

13 is a view showing the structure of the condensed water storage portion when the condensed water storage portion is formed separately from the condensed duct, and FIG. 14 is a sectional view taken along line V-V in FIG.

13 and 14, the condensed water storage unit 100 may be formed separately from the condensing duct 92 and coupled between the connection pipe 92c.

In this case, the condensed water storage part 100 includes a housing 102 communicating with the connection pipe 92c of the condensing duct 92, and a housing 102 partitioning the housing 102 into at least two spaces, A heat exchanging part 104 provided inside the housing 102 so that air flowing in the condensing duct 92 can exchange heat with each other and a water supply nozzle 130 provided at the lower end of one side of the housing 102 .

The upper surface 106 and the lower surface 108 of the housing 102 are pierced so as to communicate with the connection pipe 92c.

The heat exchanging unit 104 is extended from the lower surface 108 of the housing 102 by a predetermined length in the longitudinal direction of the housing 102. The housing 102 is partitioned into the heat exchanging unit 104 from the inside to the outside, And a condensed water flow path 110 in which condensed water is stored is formed on the outside of the air flow path 120.

The heat exchanging part 104 is formed with a communication hole 140 for communicating the condensed water flow path 110 and the air flow path 120.

The communication hole 140 penetrates the heat exchange part 104 in a circumferential direction along the circumference of the heat exchange part 104 with a predetermined length.

The communication hole 140 is formed in the water supply nozzle 130 so that the condensed water flowing into the condensed water flow path 110 through the water supply nozzle 130 moves to the upper portion of the condensed water flow path 110 and flows into the air flow path 120, As shown in FIG.

The condensed water flowing into the storage space 110 through the water supply nozzle 130 moves to the upper portion of the storage space 110 and then flows into the air flow path 120 through the communication hole 140 and drops.

The condensed water is heat-exchanged with the air flowing through the air flow path 120 through the heat exchanging unit 104 to condense the moisture contained in the air, Flows into the flow path 120 and directly contacts the air in the process of falling, thereby condensing the moisture contained in the air.

15 and 16 are flowcharts showing a method of controlling a drying cycle of a washing machine according to an embodiment of the present invention.

As shown in FIGS. 15 and 16, when the laundry is removed from the laundry, a drying cycle for removing moisture contained in the laundry starts. Here, the drying process (S550) is performed in such a manner that the air can be circulated continuously in the tub 20 and the drying device 90, thereby condensing moisture in the air inside the condensing duct 92, The heating process of heating the air inside the heating chamber 94 is repeated.

When the drying stroke starts, the weight of the laundry in the drum 30 is sensed (S510), the weight W of the laundry is compared with a previously inputted value (S520) A first drying course (S530) for controlling the amount of condensed water supplied to the drying device (90) so that the amount of condensed water supplied to the drying device (90) does not exceed a predetermined amount is applied, And the heater 98 are operated to proceed to the first drying step S540 and whether or not the time T for which the first drying step has been performed has exceeded the set time t1 is compared at S550, If the time t1 has elapsed, the drying cycle is terminated. If the predetermined time has not elapsed, the drying cycle continues (S540).

A second drying course (S560) for controlling the continuous supply of the condensed water to the drying device (90) is applied regardless of a predetermined amount when the weight (W) of the laundry is equal to or greater than a previously inputted numerical value The drying cycle is advanced by operating the blower fan 96 and the heater 98 included in the drying cycle step S570 and comparing whether the time T for which the drying cycle has progressed has exceeded the set time t2 S580). When the set time t1 has elapsed, the drying cycle is terminated. If the set time has not elapsed, the drying cycle continues (S570).

The condensed water is supplied to the condensed water storage part 100 in consideration of the condensation efficiency and the drying time in the process of drying by applying the drying step (S540) according to the first drying course or the drying step (S570) Can be controlled. That is, instead of operating the drying apparatus 90 and supplying the condensed water to the condensed water storage unit 100, the condensed water may be supplied to the condensed water storage unit 100 after a predetermined period of time after the drying apparatus 90 is operated Can be controlled.

As described above, in order to effectively absorb the moisture contained in the laundry, the temperature of air introduced into the tub 20 should be maintained at about 70 ° C to 120 ° C, and in a short period of time at the beginning of the operation of the drying apparatus 90 In order to raise the temperature of the air flowing into the tub 20 from approximately 70 ° C to 120 ° C, the air must be heated by the heater 98 without cooling. When the condensing water is supplied to the condensed water storage part 100 at the same time or too early time when the drying device 90 is operated, the air is stored in the condensed water storage part 100, The temperature of the air is lowered by the cooling air of the condensed water falling over the condensed water storage portion 100 to the condensing duct 92, so that the temperature may not rise to about 70 ° C to 120 ° C, which is a temperature required for drying in a short time. Therefore, at the initial stage of the operation of the drying apparatus 90, only the air is circulated in a state where the condensed water is not supplied to the condensed water storage unit 100, thereby raising the temperature of the air in a short period of time. When the temperature rises to 120 ° C, condensed water is supplied to the condensed water storage unit 100 to condense moisture contained in the air.

A method of measuring the temperature inside the tub 20 or the drum 30 to determine the temperature of the air flowing into the tub 20 and a method of measuring the temperature of the inside of the tub 20, A method of estimating the temperature of the air flowing into the inside of the drying duct 94 and a method of directly measuring the temperature of the air flowing through the end of the drying duct 94 by providing a temperature sensor at the end of the drying duct 94 , Or at least two of them may be used in combination. After the drying device 90 is operated through the above-described method, the temperature of the air introduced into the tub 20 is measured. When the temperature of the air increases to approximately 70 ° C to 120 ° C, the condensed water storage 100 ), The condensation efficiency can be increased or the drying time can be shortened.

The air heated by the heater 98 in the drying duct 94 flows into the tub 20 at a temperature of about 70 ° C to 120 ° C. The heated air absorbs moisture that is dewatered in the laundry in the tub 20 and is stored in the condensed water storage unit 100 in the process of flowing into and flowing into the condensed duct 92, The temperature of the condensed water falls into the drying duct 94 while the temperature thereof is slightly lowered by the cold air falling into the condenser 92. The condensed water is heated by the heater 98 and the temperature rises again to about 70 ° C to 120 ° C And then flows into the tub 20.

The drying step (S540) according to the first drying course includes various control methods for preventing the amount of condensed water supplied to the drying device (90) from exceeding a certain amount during the drying process.

As described above, the moisture in the air passing through the condensing duct 92 is condensed by the condensed water stored in the condensed water storage unit 100 or directly in contact with the condensed water flowing over the condensed water storage unit 100, It is possible to control that the condensed water is not supplied to the condensed water storage part 100 for a predetermined period of time when it is determined that the moisture in the air passing through the condensed water storage part 100 is sufficiently condensed only by the condensed water stored in the condensed water storage part 100. [ That is, initially, the condensed water is supplied to the condensed water storage unit 100 so as to fall into the condensed water duct 92, and when the drying process proceeds to some extent, the supply of the condensed water is stopped to be stored in the condensed water storage unit 100 When it is determined that the condensing efficiency is lowered due to the rise of the temperature of the condensed water stored in the condensed water storage part 100, the condensed water is supplied to the condensed water storage part 100 The condensation can be controlled through the condensed water flowing over the condenser. In this case, a temperature sensor for measuring the temperature of the condensed water stored in the condensed water storage unit 100 may be installed inside or outside the condensed water storage unit 100.

In addition, when the first drying course (S530) is applied, the amount of condensed water supplied to the drying device (90) is controlled so as not to exceed a certain amount in order to prevent the drying performance from being lowered, Can be carried out for more than a predetermined time.

The water supply nozzle 130 of the drying apparatus 90 may be provided with a valve (not shown) for shutting off or shutting off the condensed water flowing into the condensate water flow path 110 from the water supply nozzle 130, S530) is applied, the amount of condensed water flowing into the drying device 90 can be controlled by on / off controlling the valve.

In this way, the amount of the condensed water that is unnecessarily used can be reduced by controlling the amount of the condensed water used in the drying process according to the weight of the laundry during the course of the drying process.

1: Washing machine 20:
30: Drum 90: Drying device
92: condensing duct 94: drying duct
96: blower fan 98: heater
100, 300: condensed water storage part 102: housing
104: heat exchanger 110: condensed water flow path
120: air passage 130: water supply nozzle
140: communication hole 150: dispersion member

Claims (31)

cabinet;
A tub disposed within the cabinet;
A drum rotatably disposed inside the tub;
A condensing duct configured to condense air discharged from the tub and connected to the tub;
A drying duct connected to the condensing duct, the condensing duct being configured to supply air to the inside of the tub by heating the air discharged from the condensing duct; And
And a condensed water storage portion having the housing to form a storage space between the outer circumferential surface of the condensing duct and the inner surface of the housing arranged to surround the condensing duct,
The condensed-
A water supply nozzle provided in the housing for introducing water from a lower portion of the storage space,
Further comprising a communication hole configured to communicate the storage space and the inside of the condensing duct and disposed on an outer circumferential surface of the condensing duct,
Wherein the communication hole is located at an upper portion of the storage space so that water flowing from the water supply nozzle flows along an outer peripheral surface of the condensing duct and is discharged into the condensing duct. delete delete delete delete The method according to claim 1,
Wherein the condensed water storage portion further comprises a dispersing member for allowing water passing through the communication hole to be dispersed and fall in the condensing duct. The method according to claim 6,
Wherein the dispersing member comprises:
A diffusion plate extending from an inner circumferential surface of the condensing duct to a center of the condensing duct at a lower portion of the communication hole,
And a through hole penetrating the dispersion plate so that water located on an upper surface of the dispersion plate can be dropped. delete delete The method according to claim 1,
Wherein the condensed water storage unit further comprises a drain nozzle provided at a lower portion of the housing for draining water stored in the storage space. 11. The method of claim 10,
Wherein the condensed water storage unit further comprises a condensate drain hose connected between the drain nozzle and the tub, and a condensate drain valve selectively opening and closing the path between the drain nozzle and the tub. cabinet;
A tub disposed within the cabinet;
A condensing duct configured to condense air discharged from the tub and connected to the tub;
A drying duct configured to heat the air discharged from the condensing duct and connected to the condensing duct;
A blowing fan positioned between the condensing duct and the drying duct to supply heated air through the drying duct; And
And a condensed water storage unit for cooling the air moving in the condensed duct,
The condensed-
A housing surrounding at least a portion of the condensing duct,
A storage space provided between an outer surface of a part of the condensing duct and an inner surface of the housing,
A water supply nozzle provided in the housing for introducing water from a lower portion of the storage space,
And a communication hole provided on an outer surface of the condensing duct to communicate the inside of the condensing duct and the storage space,
Wherein the communication hole is located at an upper portion of the storage space so that water introduced from the water supply nozzle flows along an outer surface of the condensing duct,
Wherein the water discharged from the communication hole flows into the tub through the condensing duct so that the air discharged from the tub flows in a direction opposite to the flow of water flowing through the condensing duct. delete delete delete delete 13. The method of claim 12,
Wherein the condensed water storage portion further comprises a dispersion member for allowing water, which has flowed through the communication holes, to be dispersed and fall inside the condensing duct,
Wherein the dispersing member comprises:
A dispersion plate extending from one end of the outer surface of the condensing duct to the center of the housing,
And a plurality of through holes penetrating the dispersion plate so that water located on the upper surface of the dispersion plate can be dropped. delete delete delete And a drying device coupled to the tub and circulating air in the tub to dry the laundry, the method comprising the steps of:
The drying apparatus includes:
A condensing duct connected to the tub and configured to supply air to the inside of the tub by heating the air discharged from the tub,
A drying duct connected to the condensing duct and configured to heat the air discharged from the condensing duct and supply the air to the inside of the tub;
And a condensed water storage portion having the housing to form a storage space between the outer circumferential surface of the condensing duct and the inner surface of the housing arranged to surround the condensing duct,
The condensed-
A water supply nozzle provided in the housing for introducing condensed water from a lower portion of the storage space,
Further comprising a communication hole configured to communicate the storage space and the inside of the condensing duct and disposed on an outer circumferential surface of the condensing duct,
Wherein the communication hole is located at an upper portion of the storage space so that condensed water introduced from the water supply nozzle flows along an outer peripheral surface of the condensing duct and is discharged into the condensing duct,
In the drying step,
It senses the weight of the laundry to be dried,
A first drying course for controlling the amount of condensed water to be supplied to the drying apparatus so that the amount of condensed water supplied to the drying apparatus does not exceed a predetermined amount is applied when the weight of the detected laundry is less than a predetermined value, However,
A second drying course for controlling the supply of the condensed water to the drying apparatus regardless of the set amount is applied when the weight of the laundry is greater than a predetermined value and the second drying cycle is performed by operating the drying apparatus And controlling the drying stroke of the washing machine. 22. The method of claim 21,
Wherein the condensed water storage unit further comprises a valve provided in the water supply nozzle,
Wherein the first drying step includes the step of controlling the amount of condensed water flowing into the drying apparatus by controlling ON / OFF of the valve. 22. The method of claim 21,
Wherein the first drying step includes a condensing step of condensing the moisture contained in the air inside the drying device and a heating step of heating the air inside the drying device,
Wherein the first drying course is set so that the amount of the condensed water supplied to the drying device does not exceed the set amount, and the condensation stroke and the number of heating strokes are increased. delete 22. The method of claim 21,
Wherein the first drying step or the second drying step includes:
Measuring whether or not a predetermined time has elapsed after the first drying step or the second drying step is started,
And supplying condensed water to the condensed water storage unit when the set time has elapsed. 22. The method of claim 21,
Wherein the first drying step or the second drying step includes:
Measuring a temperature inside the tub after the first drying step or the second drying step is started,
And supplying condensed water to the condensed water storage unit when the temperature inside the tub is equal to or higher than a predetermined temperature. 22. The method of claim 21,
Wherein the first drying step or the second drying step includes:
Measuring a temperature of air in the drying duct after the first drying step or the second drying step is started,
And supplying condensed water to the condensed water storage unit when the temperature of the air in the drying duct is equal to or higher than a predetermined temperature. And a drying device coupled to the tub and circulating air in the tub to dry the laundry, the method comprising the steps of:
The drying apparatus includes:
A condensing duct connected to the tub and configured to supply air to the inside of the tub by heating the air discharged from the tub,
A drying duct connected to the condensing duct and configured to heat the air discharged from the condensing duct and supply the air to the inside of the tub;
And a condensed water storage portion having the housing to form a storage space between the outer circumferential surface of the condensing duct and the inner surface of the housing arranged to surround the condensing duct,
The condensed-
A water supply nozzle provided in the housing for introducing condensed water from a lower portion of the storage space,
Further comprising a communication hole configured to communicate the storage space and the inside of the condensing duct and disposed on an outer circumferential surface of the condensing duct,
Wherein the communication hole is located at an upper portion of the storage space so that condensed water introduced from the water supply nozzle flows along an outer peripheral surface of the condensing duct and is discharged into the condensing duct,
In the drying step,
Measuring whether or not a predetermined time elapses after the drying stroke is started;
Supplying condensed water to the condensed water storage unit when the set time has elapsed;
And draining the water in the condensed water storage portion when it is determined that drying of the laundry in the tub is completed
And controlling the drying cycle of the washing machine. And a drying device coupled to the tub and circulating air in the tub to dry the laundry, the method comprising the steps of:
The drying apparatus includes:
A condensing duct connected to the tub and configured to supply air to the inside of the tub by heating the air discharged from the tub,
A drying duct connected to the condensing duct and configured to heat the air discharged from the condensing duct and supply the air to the inside of the tub;
And a condensed water storage portion having the housing to form a storage space between the outer circumferential surface of the condensing duct and the inner surface of the housing arranged to surround the condensing duct,
The condensed-
A water supply nozzle provided in the housing for introducing condensed water from a lower portion of the storage space,
Further comprising a communication hole configured to communicate the storage space and the inside of the condensing duct and disposed on an outer circumferential surface of the condensing duct,
Wherein the communication hole is located at an upper portion of the storage space so that condensed water introduced from the water supply nozzle flows along an outer peripheral surface of the condensing duct and is discharged into the condensing duct,
In the drying step,
Measuring a temperature inside the tub after the drying stroke is started;
Supplying condensed water to the condensed water storage unit when the temperature inside the tub is equal to or higher than a predetermined temperature;
And draining the water in the condensed water storage portion when it is determined that drying of the laundry in the tub is completed
And controlling the drying cycle of the washing machine. And a drying device coupled to the tub and circulating air in the tub to dry the laundry, the method comprising the steps of:
The drying apparatus includes:
A condensing duct connected to the tub and configured to supply air to the inside of the tub by heating the air discharged from the tub,
A drying duct connected to the condensing duct and configured to heat the air discharged from the condensing duct and supply the air to the inside of the tub;
And a condensed water storage portion having the housing to form a storage space between the outer circumferential surface of the condensing duct and the inner surface of the housing arranged to surround the condensing duct,
The condensed-
A water supply nozzle provided in the housing for introducing condensed water from a lower portion of the storage space,
Further comprising a communication hole configured to communicate the storage space and the inside of the condensing duct and disposed on an outer circumferential surface of the condensing duct,
Wherein the communication hole is located at an upper portion of the storage space so that condensed water introduced from the water supply nozzle flows along an outer peripheral surface of the condensing duct and is discharged into the condensing duct,
In the drying step,
Measuring the temperature of the air in the drying duct after the drying stroke is started;
Supplying condensed water to the condensed water storage unit when the temperature of the air in the drying duct is equal to or higher than a predetermined temperature,
And draining the water in the condensed water storage portion when it is determined that drying of the laundry in the tub is completed
And controlling the drying cycle of the washing machine. 31. The method according to any one of claims 28 to 30,
And the condensed water is intermittently supplied to the condensed water storage unit.

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