KR101492986B1 - Drum type washing machine - Google Patents

Abstract

The present invention relates to a drum type washing machine having an improved drying function. The drum type washing machine includes: a tube; a heating duct provided at an outside of the tube to heat air circulating in the tub; a condensing duct having one end connected with the tube and an opposite end connected with the heating duct to remove moisture from air discharged from the tube; and a cooling water feeding unit to feed cooling water to the condensing duct. The condensing duct includes an inner tube allowing the air discharged from the tube to pass therethrough, and an outer tube into which at least a portion of the inner tube is inserted. The cooking water feeding unit feeds the cooling water to a space between the inner tube and the outer tube. The contact area and the contact time between hot and humid air and the cooling water are increased, so that a condensing efficiency can be improved and moisture contained in the air can be effectively removed using a small amount of cooling water.

Description

[0001] DRUM TYPE WASHING MACHINE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drum washing machine, and more particularly, to a drum washing machine with improved drying function.

Generally, a drum type washing machine uses a method of putting laundry through a door provided in front of the washing machine and washing the laundry using a relatively small amount of water and detergent.

The drum washing machine includes a cabinet forming an outer surface of the washing machine, a tub provided to receive the washing water from the inside of the cabinet, a rotatable drum provided to receive the laundry from the inside of the tub, A water supply device for supplying water to the tub, and a drain device for discharging the wash water from the tub to the outside of the cabinet after the washing process is completed .

A detergent cabinet may be provided on one side of the cabinet, and a water supply pipe may be connected to the tub through the detergent cabinet. The washing water may be supplied through the water supply unit by driving the water supply unit, and the detergent in the detergent cabinet may be supplied to the tub.

A circulation duct for drying the laundry may be provided on one side of the tub, a blowing fan for circulating the air inside the tub, a condensing device for condensing the steam contained in the air, A heater device for heating the air passing through the heater can be provided. When the drying process is started, air in the tub flows into the circulating duct by driving the blowing fan. The air introduced into the circulation duct may be subjected to a condensation process for removing moisture from the air and a heating process for heating the air with the heater before circulating the air into the tub again.

Conventionally, as the condensing device, a device such as a nozzle provided at one side of the circulating duct and injecting cooling water into the circulating duct has been used. The cooling water injected from the upper side of the circulation duct falls freely along the circulation duct to lower the temperature of the surrounding air or cools the water vapor contained in the air by making contact with steam contained in the air, The condensed water condensed in the condensed water falls along the circulating duct and can be collected in a separate condensed water tray.

In such a conventional washing machine, a substantial moisture removing effect can be obtained while the cooling water that has been sprayed passes through between the high temperature and high humidity air. That is, in order to remove the moisture contained in the air, the cooling water must be continuously supplied. Therefore, there is a problem that a large amount of cooling water is inefficiently consumed compared to the amount of moisture removed from the air.

Patent Document 1: Korean Patent Laid-Open No. 10-2007-0064017 (published on June 20, 2007)

Embodiments of the present invention provide a drum washing machine capable of obtaining a drying effect by using a small amount of cooling water.

According to an aspect of the present invention, there is provided an air conditioner comprising: a tub; a heating duct disposed on the outer side of the tub for heating air circulating inside the tub; one end connected to the tub; the other end connected to the heating duct; A condensing duct for removing moisture contained in the air discharged from the compressor and a cooling water supply unit for supplying cooling water to the condensing duct, wherein the condensing duct comprises: an inner tube through which the air discharged from the turbine passes; The cooling water supply unit may be provided with a drum washing machine for supplying cooling water to the spaced space formed between the inner tube and the outer tube.

According to an aspect of the present invention, the upper end of the inner tube is opened and located below the upper end of the outer tube, and the cooling water supplied to the spacing space is discharged from the upper portion of the spacing space, A drum washing machine may be provided to be introduced into the inside of the inner tube.

According to one aspect of the present invention, the inner tube includes an insertion portion having an outer diameter smaller than the inner diameter of the outer tube, and a connection portion extending downward from the lower end of the insertion portion and having an outer diameter larger than the inner diameter of the outer tube The outer tube and the inner tube may be coupled to each other such that a lower end of the outer tube is in contact with an upper end of the connection portion in a state where the insertion portion is inserted into the outer tube.

According to an aspect of the present invention, the upper end of the inner tube is opened and located below the upper end of the outer tube, and the cooling water supplied to the spacing space is discharged from the upper portion of the spacing space, A drum washing machine may be provided to be introduced into the inside of the inner tube.

According to an aspect of the present invention, the cooling water supply unit may be provided with a drum washing machine connected to a lower side of the outer tube so that the cooling water flows into the spacing space from a lower portion of the spacing space.

According to an aspect of the present invention, the cooling water supply unit may be provided with a drum washing machine for additionally supplying cooling water before the cooling water reaches a thermal equilibrium state with air passing through the inner tube.

According to an aspect of the present invention, the condensing duct may further include a flow path forming member provided along the longitudinal direction of the condensing duct in the spaced space so as to form at least one cooling water flow path in the spacing space. have.

According to an aspect of the present invention, the flow path forming member may be provided with a drum washing machine, which is a protrusion protruding from the inner wall of the outer tube or the outer wall of the inner tube and extending spirally along the longitudinal direction.

According to another aspect of the present invention, there is provided a tub, comprising: a tub; a heating duct disposed on the outer side of the tub for heating air circulating inside the tub; one end connected to the tub; the other end connected to the heating duct; A condensing duct for removing moisture contained in the air discharged from the compressor, and a cooling water supply unit for supplying cooling water to the condensing duct, wherein the condensing duct includes an air pipe through which the air discharged from the turbine passes The cooling water supplied from the cooling water supply unit may be provided with a drum washing machine, which is in contact with the outer surface of the air tube, exchanges heat with the air inside the air tube, and then flows into the air tube.

The effects of the drum washing machine according to the present invention will be described as follows.

According to the embodiments of the present invention, a drying effect can be obtained by using a small amount of cooling water. The effects obtained by the present invention are not limited to the above-mentioned effects, and other effects not mentioned can be clearly understood by those skilled in the art from the following description will be.

1 is a cross-sectional view schematically showing a drum washing machine according to an embodiment of the present invention.
Figure 2 is an enlarged cross-sectional view of the condensing duct of Figure 1;
3 is an exploded perspective view of the condensing duct of FIG.
4 is an enlarged cross-sectional view of a condensing duct applied to a drum washing machine according to another embodiment of the present invention.
5 is an exploded perspective view of the condensing duct of FIG.

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

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, a drum washing machine 1 according to an embodiment of the present invention will be described with reference to Figs. 1 to 3. Fig. 1 is a cross-sectional view schematically showing a drum washing machine 1 according to an embodiment of the present invention, FIG. 2 is an enlarged view of a cross-sectional view of the condensing duct 30 of FIG. 1, And the condensing duct 30 is shown as an exploded perspective view.

1 to 3, a drum washing machine 1 according to an embodiment of the present invention includes a tub 10 for receiving washing water, a heating duct 20 provided on the outer side of the tub 10, A condensing duct 30 whose one end is connected to the tub 10 and the other end is connected to the heating duct 20 and a cooling water supply unit 40 for supplying cooling water to the condensing duct 30. The heating duct (20) and the condensing duct (30) can provide a passage through which the air in the tub (10) circulates. The drum washing machine 1 includes a drum 61 rotatably provided in the tub 10 and receiving laundry therein and a driving device 62 provided in the tub 10 for rotating the drum 61, And a drain device 63 for discharging the washing water from the tub 10 after the washing process is completed and a blowing fan 21 and a heater 22 are provided on the heating duct 20 . In addition, a water supply device 64 for supplying wash water into the drum 61 may be provided on the drum 61.

When the drying operation is initiated, the air inside the tub 10 can circulate along the condensing duct 30 and the heating duct 20. The air in the tub 10 is discharged to the condensing duct 30 by the blowing fan 21 and the moisture contained in the air discharged from the tub 10 in the condensing duct 30 is removed . The air that has passed through the condensing duct 30 and is dehumidified is supplied into the tub 10 through the heating duct 20 and is heated by the heater 22 through the blowing fan 21, And then can be brought into the tub 10 as dry air at a high temperature.

The heating duct 20 may be disposed horizontally at an upper portion of the tub 10 and the condensing duct 30 may be disposed vertically at a rear portion of the tub 10. In this case, the blowing fan 21 may be installed at a portion where the heating duct 20 and the condensing duct 30 are connected to each other, and the heater 22 may be installed inside the heating duct 20 . The lower end of the condensing duct 30 arranged in the vertical direction is connected to the lower portion of the tub 10 and the upper end of the condensing duct 30 can be connected to the heating duct 20.

The cooling water supply unit (40) supplies cooling water to the condensing duct (30). By the cooling water, the moisture contained in the air passing through the condensing duct 30 can be condensed. The cooling water supply unit 40 is a pipe branched from the water supply unit 64. However, the cooling water supply unit 40 may be provided separately from the water supply unit 64 And may include power means for supplying cooling water. The cooling water supply unit 40 may be provided with a cooling water valve 50 for controlling the supply flow rate of the cooling water.

Meanwhile, the condensing duct 30 may include an outer tube 31 and an inner tube (or an air tube 32). Air discharged from the tub 10 can be moved into the inner tube 32 and at least a part of the inner tube 32 can be inserted into the outer tube 31. The entire inner tube 32 may be inserted into the outer tube 31 or a part thereof may be inserted into the outer tube 31. The outer wall of the inserted portion of the inner tube 32 may be spaced apart from the inner wall of the outer tube 31 so that the spacing space 33 is formed between the outer tube 31 and the inner tube 32. [ .

The lower part of the spacing space 33 may be sealed so that the cooling water can be filled in the spacing space 33. For example, as shown in FIG. 2, the outer tube 31 and the inner tube 32 may be hermetically sealed so that the lower part of the spacing space 33 is sealed.

The inner tube 32 may include an insertion portion 321 having an outer diameter smaller than an inner diameter of the outer tube 31, And a connection portion 322 having an outer diameter larger than the inner diameter of the outer tube 31. The connection portion 322 may be provided below the insertion portion 321 and may extend downward from the lower end of the insertion portion 321. 2 and 3, the insertion portion 321 is inserted into the outer tube 31 and the lower end of the outer tube 31 is in contact with the upper end of the connection portion 322, The outer tube 31 and the inner tube 32 can be coupled. In this case, since the outer diameter of the insertion portion 321 is smaller than the inner diameter of the outer tube 31, the spacing space 33 is formed between the outer wall of the inner tube 32 and the inner wall of the outer tube 31 . Since the outer diameter of the connecting portion 322 is larger than the inner diameter of the outer tube 31, the connecting portion 322 is not inserted into the outer tube 31, Lt; / RTI > Here, the bottom of the spacing space 33 may be sealed by the contact between the upper end of the connecting portion 322 and the lower end of the outer tube 31.

The outer tube (31) and the inner tube (32) can be constricted. In addition, a step 323 may be formed at a portion where the insertion portion 321 and the connection portion 322 are connected. The outer diameter of the step 323 may be such that the step 323 can be constrained to the outer tube 31. The inner tube 32 and the outer tube 31 can be firmly coupled to each other by fitting the stepped portion 323 into the outer tube 31.

The connection portion 322 may be connected to the drainage device 63 so that condensed water or overflowing cooling water to be described later may be discharged to the outside of the washing machine 1.

The cooling water supply unit 40 may supply the cooling water to the spacing space 33. A cooling water inlet 311 may be formed in the outer tube 31 of the condensing duct 30 and the cooling water inlet 311 may be formed in the cooling water supply part 40 branched from the water supply device 64, Can be connected. The cooling water valve 50 provided in the cooling water supply unit 40 can control the amount of cooling water filled in the spacing space 33 by controlling the flow rate of the cooling water flowing into the cooling water inlet 311.

The upper end of the inner tube 32 may be open and the lower end of the outer tube 31 may be located below the upper end of the outer tube 31. In addition, the space (33) formed between the inner tube (32) and the outer tube (31) may be formed such that the lower portion thereof is hermetically closed while the upper portion thereof is opened. In this case, when the cooling water is continuously supplied to the spacing space 33, the cooling water may overflow the upper portion of the spacing space 33 after the cooling water has filled the spacing space 33. The overflowed cooling water can flow into the inside of the inner tube 32 through the open top of the inner tube 32. The cooling water flowing into the inner pipe 32 may flow down the inner wall of the inner pipe 32 and may be drained by the drainage device 63 from the lower portion of the inner pipe 32.

When the cooling water supplied into the spacing space 33 is filled into the spacing space 33 and then flows into the inner tube, the cooling water contacts the outer surface of the inner tube in the spacing space, Exchanges heat with the air flowing inside the inner tube, and then flows into the inner tube, thereby making it possible to perform secondary heat exchange in direct contact with the air. Therefore, it is possible to effectively remove moisture in the air by using a small amount of cooling water.

In addition, when the cooling water is supplied to the spacing space 33, condensed water formed by condensation of moisture contained in the air is generated on the inner wall surface of the inner tube. The cooling water introduced into the inner tube The condensed water on the inner wall surface of the inner tube can be effectively removed while flowing down on the inner wall of the inner tube.

The cooling water supply unit 40 may be connected to the lower side of the outer pipe 31. In this case, since cooling water can be introduced into the spacing space 33 from the lower part of the spacing space 33 and the lower part of the spacing space 33 is closed, I can get a chao from. The cooling water can be prevented from flowing into the heating duct 20 by the blowing fan 21 when the cooling water is supplied from the lower portion of the spacing space 33 as in this embodiment.

Hereinafter, the operation and effect of the drum washing machine 1 according to the present embodiment having the above-described configuration will be described.

When the air blowing fan 21 is operated, the air inside the tub 10 can be moved to the condensing duct 30. The condensing duct 30 is formed of a double tube structure and the condensing duct 30 is provided with the spacing space 33 in which the cooling water supplied from the cooling water supply unit 40 is filled. The air supplied from the tub 10 can be moved to the heating duct 20 through the inner tube 32 providing the inner wall of the spacing space 33. 2 and 4, the dashed arrows show the flow of the air in the condensing duct 30, and the solid arrows show the flow of cooling water through the spacing space 33. [

When the cooling water passes through the space 33, the air passing through the inner tube 32 is heat-exchanged with the cooling water to lower the temperature. As a result, the dew point is lowered and the moisture contained in the air condenses .

The air can indirectly come into contact with the cooling water through the entire area of the side surface of the inner pipe 32 and the cooling water stays in the condensing duct 30 while being filled in the space 33, May continuously absorb heat from the air passing through the inner tube 32 until the thermal equilibrium is reached. As a result, the cooling water can efficiently exchange heat between the air and the water in the air can be effectively removed even with a small amount of cooling water.

If the cooling water reaches a temperature close to the thermal equilibrium or the cooling water is supplied for a predetermined time before the cooling water reaches the thermal equilibrium state with the air passing through the inner pipe 32, 40 may supply new cooling water to the spacing space 33 to prevent the condensing efficiency from being lowered.

When the cooling water is additionally supplied from the cooling water supply unit 40, the cooling water previously filled in the spacing space 33 flows over the inside of the inner pipe 32 through the upper opening of the space 33. The cooling water that overflows effectively removes the condensed water that is formed on the inner wall of the inner pipe 32 and can drop down while absorbing moisture contained in the air and is discharged through the drainage device 63 connected to the connection portion 322 .

Hereinafter, a condensing duct 30a included in a drum washing machine according to another embodiment of the present invention will be described with reference to FIGS. 4 and 5. FIG. However, the other embodiment differs from the above-described embodiment in that a flow path forming member is additionally provided in the condensing duct 30a. Therefore, differences will be mainly described, and the same portions will be described with reference to the explanations of the above- .

FIG. 4 is an enlarged cross-sectional view of a condensing duct 30a applied to a drum washing machine according to another embodiment of the present invention, and FIG. 5 is an exploded perspective view of a condensing duct 30a according to the embodiment of FIG.

4 and 5, the condensing duct 30a of the drum washing machine according to another embodiment of the present invention is provided in the space 33 between the outer tube 31 and the inner tube 32 And may further include a flow path forming member (34). The flow path forming member 34 may be formed along the longitudinal direction of the condensing duct 30 in the spacing space 33 to form one or more cooling water flow paths in the spacing space 33. The passage forming member 34 may form one long passage in the spacing space 33 or may form a plurality of passages by dividing the spacing space 33 into a plurality of spaces. When one long flow path is formed, the flow path formed by the flow path forming member 34 may have a shape extending spirally in the longitudinal direction of the condensing duct 30. [

In the present embodiment, the flow path forming member 34 is a protrusion protruding by a predetermined length from the inner wall of the outer tube 31, for example. The projection may extend spirally along the longitudinal direction of the outer tube (31). The height of the protrusion may be equal to or less than an interval between the outer wall of the inner tube and the inner wall of the outer tube, and the end of the protrusion may contact the outer wall of the inner tube. By the projections, a spiral flow path can be formed.

As another embodiment of the flow path forming member 34, the flow path forming member may be a protrusion protruding outward from the outer wall of the inner tube. The protrusion may extend spirally along the longitudinal direction of the inner tube (32). The height of the protrusion may be equal to or less than the distance between the outer wall of the inner tube and the inner wall of the outer tube and the end of the protrusion may be in contact with the inner wall of the outer tube. By the projections, a spiral flow path can be formed.

When the flow path forming member (34) forms a flow path in the spacing space (33), the cooling water supplied to the spacing space (33) can flow along the flow path. In particular, when the flow path is spirally formed along the longitudinal direction of the condensing duct 30, the cooling water flows spirally on the outer wall of the inner pipe 32. Therefore, the path through which the cooling water flows in the spacing space 33 can be prolonged, thereby increasing the contact time between the air and the cooling water, thereby effectively removing moisture contained in the air by using a small amount of cooling water.

Also, the passage-forming member (34) can block the convection of the cooling water in the spacing space (33). As a result, the cooling water whose temperature has been already raised by the heat exchange with the air can be prevented from mixing with the newly introduced low temperature cooling water, and the newly introduced cooling water can effectively keep the low temperature. The cooling water before the temperature is raised by the heat exchange can heat-exchange with the air of the highest temperature, so that the temperature of the air It can be lowered more effectively.

The flow path forming member 34 may be formed from the outer tube 31 and may be in contact with the inner tube 32 or may be formed from the inner tube 32 to be in contact with the outer tube 31. The flow path forming member 34 can connect the outer tube 31 and the inner tube 32 across the spacing space 33 and the inner tube 32 32 can be effectively supported. Accordingly, the structure of the double tube forming the condensing duct 30 can be made more rigid.

 While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it should be understood that the invention is not limited to the disclosed exemplary embodiments, but is to be accorded the widest scope consistent with the basic idea disclosed herein . Skilled artisans may implement a pattern of features that are not described in a combinatorial and / or permutational manner with the disclosed embodiments, but this is not to depart from the scope of the present invention. It will be apparent to those skilled in the art that various changes and modifications may be readily made without departing from the spirit and scope of the invention as defined by the appended claims.

10: tub 20: drying duct
21: blower fan 22: heater
30, 30a: condensing duct 31: outer tube
311: cooling water inlet port 32: inner tube
321: insertion portion 322:
333: step 33: spacing space
40: cooling water supply part 50: cooling water valve

Claims (9)

A tub;
A heating duct disposed outside the tub for heating air circulating inside the tub;
A condensing duct connected to the tub at one end and connected to the heating duct at the other end to remove moisture contained in the air discharged from the tub; And
And a cooling water supply unit for supplying cooling water to the condensing duct,
In the condensing duct,
An inner tube through which the air discharged from the tube passes, and an outer tube into which at least a part of the inner tube is inserted,
Wherein the cooling water supply unit supplies cooling water to a spacing space formed between the inner tube and the outer tube. The method according to claim 1,
Wherein the condensing duct is arranged in a vertical direction,
Wherein the outer tube and the inner tube are coupled so that a lower portion of the spacing space is hermetically sealed. 3. The method of claim 2,
Wherein the inner tube includes an insertion portion having an outer diameter smaller than an inner diameter of the outer tube and a connection portion extending downward from a lower end of the insertion portion and having an outer diameter larger than an inner diameter of the outer tube,
Wherein the outer tube and the inner tube are coupled such that a lower end of the outer tube is in contact with an upper end of the connection portion while the insertion portion is inserted into the outer tube. 3. The method of claim 2,
Wherein the upper end of the inner tube is open and located below the upper end of the outer tube,
Wherein the cooling water supplied to the spacing space is discharged from the upper portion of the spacing space and flows into the interior of the inner tube through the upper end of the inner tube. 3. The method of claim 2,
Wherein the cooling water supply unit is connected to the lower side of the outer tube so that the cooling water flows into the spacing space from a lower portion of the spacing space. 3. The method of claim 2,
Wherein the cooling water supply unit further supplies cooling water before the cooling water reaches a thermal equilibrium state with air passing through the inner tube. The method according to claim 1,
Wherein the condensing duct further comprises a flow path forming member provided along the longitudinal direction of the condensing duct in the spacing space so as to form at least one cooling water flow path in the spacing space. 8. The method of claim 7,
The flow-
And a protrusion protruding from an inner wall of the outer tube or an outer wall of the inner tube and extending spirally along the longitudinal direction. A tub;
A heating duct disposed outside the tub for heating air circulating inside the tub;
A condensing duct connected to the tub at one end and connected to the heating duct at the other end to remove moisture contained in the air discharged from the tub; And
And a cooling water supply unit for supplying cooling water to the condensing duct,
In the condensing duct,
And an air pipe through which the air discharged from the turbine passes,
Wherein the cooling water supplied from the cooling water supply unit is in contact with an outer surface of the air tube and exchanges heat with the air inside the air tube, and then flows into the air tube.

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