DISH WASHING MACHINE
A dish washing machine including a tub configured to form a space for a dish to be washed, a door configured to open or close the tub, and an exhaust duct extended to an under portion of the door to exhaust air in the tub. Further, the exhaust duct has a lower end sloped with respect to an installation surface of the dish washing machine.
This application claims the benefit of Korean Patent Application No. 10-2007-0088674, filed on Aug. 31, 2007, which is hereby incorporated by reference in its entirety as if fully set forth herein.
BACKGROUND OF THE INVENTION1. Field of the Invention
The present invention relates to a dish washing machine, and more particularly, to a dish washing machine that is capable of preventing moisture from being formed on a bottom or a wall around the bottom of the dish washing machine and preventing the bottom or the wall of the dish washing machine from being deformed due to the moisture.
2. Discussion of the Related Art
A related art dish washing machine sprays washing water on dishes placed in a tub to remove foreign matter, such as food waste left on the dishes, thereby automatically washing the dishes. Further, the operation of the dish washing machine generally includes a washing cycle for spraying washing water mixed with detergent in the tub containing the dishes to remove the foreign matter left on the dishes, a rinsing cycle for spraying washing water not mixed with the detergent in the tub to remove the remaining foreign matter and the detergent after performing the washing cycle, and a drying cycle for drying the dishes.
Some dish washing machines use heated washing water or that spray steam during the washing cycle or during the rinsing cycle to further increase the washing effect. For example,
As shown in
In addition, the tub 150 includes shelves 160 and 170 for holding the dishes and spray arms 220 and 230 for spraying water toward the shelves 160 and 170. Further, and as shown in
However, the related art dish washing machine has the following problems.
First, as shown in
Further, the exhaust duct 92 extends to the lower part of the dish washing machine, and therefore air is exhausted out of the dish washing machine through the lower part of the dish washing machine. However, and with reference to
Then, when the exhausted air flows to the rear and the sides of the dish washing machine, the air is not exhausted from the dish washing machine, because the rear and the sides of the dish washing machine are closed. As a result, the walls of the kitchen furniture “f”, installed adjacent to the sides of the dish washing machine or the installation surfaces of the dish washing machine become deformed due to the relatively high temperature, high-humidity air. Furthermore, the relatively high-temperature, high-humidity air is introduced into a gap defined between the bottom of the dish washing machine and the floor where the dish washing machine is installed, with the result that the bottom of the dish washing machine becomes covered with rust.
SUMMARY OF THE INVENTIONAccordingly, one object of the present invention is directed to a dish washing machine that substantially obviates one or more problems due to limitations and disadvantages of the related art.
Another object of the present invention is to provide a dish washing machine that is capable of preventing moisture from being formed on the bottom or the wall around the bottom of the dish washing machine and preventing the bottom or the wall of the dish washing machine from being deformed due to the moisture.
To achieve these objects and other advantages and in accordance with the purpose of the invention, as embodied and broadly described herein, the present invention provides in one aspect a dish washing machine including a tub configured to form a space for a dish to be washed, a door configured to open or close the tub, and an exhaust duct extended to an under portion of the door to exhaust air in the tub. Further, the exhaust duct has a lower end sloped with respect to an installation surface of the dish washing machine.
In another aspect, the present invention provides a dish washing machine including a tub configured to form a space for a dish to be washed, a door configured to open or close the tub, and an exhaust duct configured to exhaust air in the tub to an under portion of the door and toward an opening direction of the door.
Further scope of applicability of the present invention will become apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description.
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principle of the invention. In the drawings:
Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or like parts.
In addition, as shown in
In addition, the sump 205 is connected to a first water supply pipe 250, through which fresh water is supplied from an external water source, and a drainage pipe 270, through which the washing water in the sump 205 is drained to an outside of the washing machine. A first water supply valve 255 for controlling the supply of water into the sump 205 is also mounted on the sump 205.
Further, the upper shelf 160 and the lower shelf 170 are mounted at the upper part and the lower part of the tub 150, respectively. Also, the upper spray arm 230 and the lower spray arm 220 are mounted at the upper part and the lower part of the tub 150 for spraying the water pumped by the pump 210 toward the upper shelf 160 and the lower shelf 170, respectively.
In addition, a top nozzle 240, for spraying the water pumped by the pump 210 from the upper part to the lower part of the tub 150, is mounted in the upper part of the tub 150. A connecting pipe 110 connects the pump 210 and the top nozzle 240. Further, in one embodiment, steam may be also sprayed or supplied into the tub 150 by the pump 210 and the spray arms 230 and 220 in addition to the washing water sprayed into the tub 150. In more detail, the washing machine includes a steam generator 300 which is driven separately from the sump heater 290 mounted in the sump 205.
As shown in
In addition, the steam generator 300 includes a steam heater 310 for heating water supplied into the steam generator 300 and a water level sensor 320 for sensing the water level in the steam generator 300. The water level sensor 320 may sense, for example, a low water level and a high water level.
In more detail, the low water level is established to protect the steam heater 310, and the high water level is established to prevent the overflow of the water supplied into the steam generator 300 from the steam generator 300. Also, the steam generator 300 may further include a steam supply valve (not shown) for controlling the opening and closing of the steam supply pipe 280 to supply steam at a desired time.
In addition, the dish washing machine may further include a contamination sensor (not shown) for sensing a contamination degree of washing water used to wash the dishes. For example, the contamination sensor may be mounted at one side of the sump 205 for sensing the contamination degree of washing water circulating in the tub.
Further, a control unit (not shown) for controlling the dish washing machine is electrically connected to electrically-operating components, such as the control panel 130, the pump 210, and the steam generator 300, to control the operation of the dish washing machine. In addition, the upper side of the tub 150 includes mounted components for exhausting high-temperature wet air in the tub 150, heated by the steam and the heated washing water, out of the dish washing machine.
As shown in
Further, the exhaust fan 390 may be a bidirectional suction fan. Specifically, the exhaust fan 390 suctions the high-temperature wet air from the tub 150 into the housing 394, and, at the same time, suctions low-temperature, low-humidity air from the outside into the exhaust duct 392, such that the condensation of moisture is performed in the housing 394 or the exhaust duct 392.
Consequently, the amount of moisture contained in the exhausted air is reduced, and the temperature of the exhausted air is also lowered. Accordingly, the formation of moisture on the installation surface of the dish washing machine and the walls of the furniture installed adjacent to the dish washing machine are minimized.
Of course, the present invention is not limited to the above-described construction. For example, the exhaust fan 390 according to an embodiment of the present invention may be configured to suction and exhaust only the air in the tub 150. Further, the exhaust duct 392 may be coupled to one side of the housing 394 such that the exhaust duct 392 communicates with the housing 394.
Also, as shown in
Next,
As shown in
In addition, the first bent part 397 is formed adjacent to the lower end 391 of the exhaust duct 392. Consequently, the lower end 391 of the exhaust duct 392 is inclined at the predetermined angle to the installation surface of the dish washing machine such that the lower end 391 of the exhaust duct 392 is directed in the direction in which the door 120 is directed (i.e., the direction in which the door 120 is opened).
Further, one reason why the lower end 391 of the exhaust duct 392 is directed in the direction in which the door 120 is directed is as follows. When the dish washing machine is installed in a built-in structure, the opposite sides of the dish washing machine are closed by the sides of the kitchen furniture “f” (see
As described above, the exhaust duct 392 is mounted in the door 120. In addition, the door 120 includes various parts, such as a frame for maintaining the strength of the door 120 and a noise isolation member for isolating noise. As a result, the interior space of the door 120 is limited. Consequently, as shown in
However, when the exhaust duct 392 having the first bent part 397 is mounted in the door 120 such that the exhaust duct 392 is in tight contact with the inside of the panel 122, the lower end 391 of the exhaust duct 392 protrudes outward from the front of the dish washing machine by the first bent part 397, which reduces the aesthetical appearance of the dish washing machine.
Consequently, as shown in
That is, the exhaust duct 392 is formed such that the second bent part 398 is bent in the direction opposite to the direction in which the door 120 is opened, and the first bent part 397 is bent in the direction in which the door is opened.
In addition, the present invention is not limited to the above-described construction. For example, when the inner space of the door 120 is sufficient, the exhaust duct 392 may be spaced by the protruding length of the inclined lower end 391 of the exhaust duct 392 from the panel 122 constituting the front of the door 120.
In addition, as discussed above, the exhaust duct 392 shown in
That is, as shown in
In addition, the present invention is not limited to the above-described construction. For example, the lower end of the exhaust duct may be inclined toward the vertical center line of the door.
Meanwhile, as shown in
In more detail, to reduce the flow loss of the air flowing in the exhaust duct 392, and as shown in
Also, when the exhaust pressure of the air exhausted from the exhaust duct 392 is too low, the air is mixed with external air, the air is not sufficiently exhausted out of the dish washing machine, and is then diffused toward the bottom, the installation surface, and the sides of the dish washing machine. Consequently, an appropriate exhaust pressure is preferred.
In more detail, an appropriate exhaust pressure is related to the distance between the lower end 391 of the exhaust duct 392 and the outer surface of the door 120 of the dish washing machine, the sectional area and shape of the exhaust duct 392, and the blowing pressure of the exhaust fan 390. However, these factors may be changed depending upon the size or model of the dish washing machine.
As previously described, the frame for maintaining the strength of the door and various components for noise isolation and watertightness are mounted in the door 120, with the result that the inner space of the door 120 is very small. Consequently, the cross section of the exhaust duct 392 is preferably gradually lowered along the downward direction of the exhaust duct 392, whereas the width of the exhaust duct 392 is gradually increased along the downward direction of the exhaust duct 392, to avoid interference with the components and to diffuse the air flowing in the exhaust duct 392.
Specifically, the cross section of an inlet end of the exhaust duct 392, which is coupled to the housing 394, is higher than the cross section of the lower end 391 of the exhaust duct 392 through which air is exhausted. Also, the width of the inlet end of the exhaust duct 392 coupled to the housing 394 is greater than the width of the lower end 391 of the exhaust duct 392 through which air is exhausted.
In addition, as shown in
In addition, the step part 395 is preferably formed to avoid interference with the components mounted in the door 120. Also, the step part 395 may be formed to serve as a guide 396 for guiding the water flowing in the exhaust duct 392 to the water recovering hole 393 along the step part 395.
In addition, when the step part 395 is formed to serve as the guide 396, the top of the step part 395 is preferably formed to be inclined downward toward the water recovering hole 393. Specifically, the water flowing along the inside of the exhaust duct 392 is guided to the water recovering hole 393 along the guide 396 of the step part 395.
As previously described, the cross section of the exhaust duct 392 is gradually lowered along the downward direction of the exhaust duct 392, whereas the width of the exhaust duct 392 is gradually increased along the downward direction of the exhaust duct 392.
Further, the side (i.e., the right side) of the exhaust duct 392 facing the imaginary vertical center line C of the door 120 of the right and left sides of the exhaust duct 392 is preferably gradually inclined toward the vertical center line C of the door 120 along the downward direction of the exhaust duct 392.
Also, the side (i.e., the left side) of the exhaust duct 392 opposite to the side of the exhaust duct 392 facing the vertical center line C of the door 120 of the right and left sides of the exhaust duct 392 is preferably substantially formed perpendicularly to the installation surface. In addition, the point where the right side of the exhaust duct 392 starts to be inclined may be located above the middle height of the exhaust duct 392.
Further, because the right side of the exhaust duct 392 is inclined toward the vertical center line C of the door 120, and the left side of the exhaust duct 392 is substantially formed vertically, the width of the exhaust duct 392 is gradually increased along the downward direction of the exhaust duct 392. Consequently, the air flowing in the exhaust duct 392 is gradually diffused during the movement of the air to the lower end 391 of the exhaust duct 392, whereby flow loss or noise is reduced.
Also, the air exhausted from the exhaust duct 392 has inertia in which the air will diffuse in the exhaust duct 392. Consequently, the air exhausted from the exhaust duct 392 is exhausted toward the vertical center line C of the door 120, and therefore, the formation of moisture on the sides of the furniture located at the sides of the dish washing machine is minimized.
Consequently, the air in the tub of the dish washing machine according to an embodiment of the present invention is exhausted outside through the following process. In more detail, when the exhaust fan 390 is operated, high-temperature, high-humidity air in the tub 150 is suctioned into the housing 394 and is guided to the exhaust duct 392 by the exhaust fan 390.
In addition, the side of the exhaust duct 392 facing the vertical center line C of the door 120 is inclined in the direction in which the exhaust duct 392 is widened. Consequently, the air flowing in the exhaust duct 392 is diffused in the direction in which exhaust duct 392 is widened, whereby flow loss or noise is reduced.
Meanwhile, moisture contained in the air is condensed in the exhaust duct 392 such that condensed water flows in the exhaust duct 392. Further, the condensed water flows along the inside of the exhaust duct 392, is guided to the water recovering hole 393 along the guide 396 formed at the step part 395, and is collected in the tub 150.
Also, the flow direction of air in the exhaust duct 392 is bent at the second bent part 398 of the exhaust duct 392 in the direction opposite to the direction in which the door is directed, and is bent at the first bent part 397 of the exhaust duct 392 in the direction in which the door is directed, i.e., in the opening direction of the door. Consequently, the air is exhausted from the exhaust duct 392 toward the front of the dish washing machine such that the flow direction of the air is at a predetermined angle to the installation surface.
In addition, because the ribs 399 are formed at the lower end 391 of the exhaust duct 392, the air is exhausted toward the vertical center line C of the door 120. As a result, the air is smoothly exhausted out of the dish washing machine without contact of the air with the furniture located at the sides of the dish washing machine.
As apparent from the above description, the present invention has several advantages.
First, the air exhausted from the exhaust duct is directed in the opening direction of the door, and therefore, the air flows toward the open front of the dish washing machine. Consequently, the air is smoothly exhausted out of the dish washing machine without the introduction of the air to the sides and the rear of the dish washing machine, whereby the formation of moisture on the installation surface of the dish washing machine is minimized. In addition, the high-temperature air is smoothly exhausted out of the dish washing machine, and therefore, the deformation of the installation surface of the dish washing machine due to heat is minimized.
Secondly, the air exhausted from the exhaust duct flows toward the vertical center line of the door of the dish washing machine. Consequently, the flow of the air exhausted from the exhaust duct to the sides of the dish washing machine is prevented, whereby it is possible to solve the problems which may occur due to the contact of the high-temperature, high-humidity exhausted air with the walls of kitchen furniture installed at the sides of the dish washing machine.
It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. Thus, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.
Claims
1. A dish washing machine comprising:
- a tub configured to form a space for a dish to be washed;
- a door configured to open or close the tub; and
- an exhaust duct extended to an under portion of the door to exhaust air in the tub,
- wherein the exhaust duct has a lower end sloped with respect to an installation surface of the dish washing machine.
2. The dish washing machine according to claim 1, wherein the lower end of the exhaust duct includes a first bent portion bent in a direction toward a front side of the door.
3. The dish washing machine according to claim 2, wherein the exhaust duct include a second bent portion bent at least one time in a direction opposite to the front side of the door before the first bent portion bent in the direction toward the front side of the door.
4. The dish washing machine according to claim 2, wherein the lower end of the exhaust duct does not project to an outside of the dish washing machine.
5. The dish washing machine according to claim 1, wherein the exhaust duct further comprises at least one rib formed in the lower end of the exhaust duct and configured to guide a direction of exhausted air flow.
6. The dish washing machine according to claim 5, wherein the at least one rib is sloped to guide air exhausted toward a vertical center line of the door.
7. The dish washing machine according to claim 1, wherein the lower end of the exhaust duct includes a bent portion bent in a direction toward a vertical center line of the door.
8. The dish washing machine according to claim 1, wherein a width of the exhaust duct increase along a downward direction of the exhaust duct.
9. The dish washing machine according to claim 8, wherein a side of the exhaust duct facing a vertical center line of the door is sloped, and an opposite side of the exhaust duct to the side is substantially formed vertically.
10. The dish washing machine according to claim 9, wherein the exhausted duct is further configured to exhaust air toward a direction that the width of the exhaust duct is wider.
11. The dish washing machine according to claim 8, wherein a cross section of an inlet end of the exhaust duct is larger than a cross section of an outlet end of the exhaust duct.
12. The dish washing machine according to claim 11, wherein the exhaust duct includes a water recovering hole communicated with the tub for recovering water in the exhaust duct to the tub,
- a cross section of the exhaust duct comprises at least one step-shape portion stepped in a lower direction, and
- an upper surface of the one step shape portion is declined toward the water recovering hole.
13. A dish washing machine comprising:
- a tub configured to form a space for a dish to be washed;
- a door configured to open or close the tub; and
- an exhaust duct configured to exhaust air in the tub to an under portion of the door and toward an opening direction of the door.
14. The dish washing machine according to claim 13, wherein the exhaust duct is further configured to exhaust air toward a vertical center line of the door.
15. The dish washing machine according to claim 13, wherein the exhaust duct includes a first bent portion configured to exhaust air in a flow direction toward an opening direction of the door and a second bent portion configured to exhaust the air in an opposite direction to the opening direction of the door.
16. The dish washing machine according to claim 15, wherein the first bent portion is disposed below the second bent portion.
Type: Application
Filed: Aug 28, 2008
Publication Date: Mar 5, 2009
Inventors: Jung Youp HAN (Seoul), Yong Jim Choi (Seoul), Joon Ho Pyo (Seoul), Young Hwan Park (Seoul), Seong Ho Kim (Seoul)
Application Number: 12/200,604
International Classification: A47L 15/48 (20060101);