KR20230103445A - Dish washer - Google Patents

Abstract

The present invention relates to a dishwasher. A filter member is accurately placed in a correct position by configuring that the filter member can be inserted through the bottom of the tub when being replaced so that the filter member can be applied regardless of the type of dishwasher, and configuring that a means for guiding the exact position of the filter member in the introduction process for replacing a cylindrical filter member, is provided inside the filter housing. Therefore, the unfiltered outside air from entering a fan can be minimized and the filtration performance can be significantly improved.

Description

Dishwasher {DISH WASHER}

The present invention relates to a dishwasher, and more particularly, a means for guiding an accurate position of a filter member in a retracting process for replacement of a cylindrical filter member is configured to be provided inside a filter housing so that the filter member is positioned accurately. A dishwasher capable of minimizing the inflow of unfiltered external air into a fan and remarkably improving filtration performance by disposing the fan.

BACKGROUND ART A dishwasher is a device that cleans dishes and cooking utensils stored therein by spraying washing water such as water therein. At this time, the washing water used for washing may include a detergent.

The dishwasher includes a washing tub forming a washing space, a storage unit for accommodating objects to be washed inside the washing tub, a spray arm for spraying washing water into the storage unit, and a sump storing water and supplying washing water to the spray arm. It is common to be

By using such a dishwasher, it is possible to reduce the time and effort required for washing dishes to wash objects such as tableware after eating, thereby contributing to user convenience.

Conventionally, a dishwasher is configured to perform a washing cycle for washing an object, a rinse cycle for rinsing an object for washing, and a drying cycle for drying an object after washing and rinsing.

Recently, a dishwasher capable of reducing the drying time and improving the sterilization effect of objects to be washed by supplying high-temperature drying wind to the inside of the washing tub during the drying cycle has been released.

In this regard, US Patent Registration No. 5524358 (Prior Document 001) discloses a dishwasher equipped with a hot air supply device for generating and supplying high-temperature drying air after washing and rinsing cycles are completed.

In the dishwasher disclosed in Prior Document 001, an intake port through which outside air is taken in and a filter are placed on the skirting side or side surface formed on the lower front surface of the door to filter out impurities or dust contained in the outside air and supply them to the inside of the tub. Consists of.

However, the hot air supply device of Prior Document 001 is difficult to apply when the baseboard side is completely blocked or a built-in type embedded in a kitchen cabinet because the suction port and filter are disposed on the front or side of the dishwasher. That is, since the location of the intake port and the filter must be differently designed for each type of dishwasher, a problem in that the design cost or manufacturing cost of the product increases.

On the other hand, in order to configure the filter to be disposed and exchanged regardless of the type of product in this way, a technology related to a dishwasher configured to pass through the bottom or lower surface of the tub so that the filter can be drawn in and out has been developed. there is.

A portion of the filter member of the hot air supply device provided in the dishwasher is disposed inside the filter housing and the remaining portion is disposed exposed to the outside of the filter housing. Therefore, outside air is introduced only through a portion of the outer circumferential surface of the filter member exposed to the outside of the filter housing, and since filtration proceeds only through the portion exposed to the outside, there is a high possibility of partial blockage. As a result, there is a problem that the possibility of rapidly deteriorating the filtration efficiency within a short time is high.

In addition, the hot air supply device provided in the dishwasher does not have a means for guiding the accurate position of the filter member during the intake process for replacement of the cylindrical filter member. Therefore, if the filter member is not placed in the correct position during the intake process of the filter member, there is a very high possibility that unfiltered external air will flow into the filter housing, so there is a very high possibility that dust or the like will adhere to the object to be washed and cause contamination. have a problem

US Patent Registration No. 5524358

The present invention has been made to solve the above-mentioned problems of the prior art, and is configured to be retractable when replacing a filter member through the lower surface of the tub so that it can be applied regardless of the type of dishwasher, thereby increasing user convenience. The cylindrical filter member is accommodated inside the filter housing as a whole, and outside air is introduced into the inside through the upper and lower ends of the filter member, and then filtration proceeds while passing through the outer circumferential surface, effectively preventing partial blockage of the filter member. A first object is to provide a dishwasher capable of preventing air pollution and providing a sufficient air flow rate.

In addition, the present invention is configured so that a means for guiding the exact position of the filter member in the intake process for replacing the cylindrical filter member is provided inside the filter housing, thereby minimizing the inflow of unfiltered external air into the fan and filtering A second object is to provide a dishwasher whose performance can be remarkably improved.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned above can be understood by the following description and will be more clearly understood by the examples of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by means of the instrumentalities and combinations indicated in the claims.

A dishwasher according to the present invention includes a tub having an open front washing space in which an object to be washed is accommodated; a drying air supply unit disposed at a lower side of the tub, generating a dry air flow for drying the object to be washed and supplying it to the inside of the tub; and a base disposed below the drying air supply unit and supporting the drying air supply unit, wherein the drying air supply unit includes: a fan housing in which a blowing fan generating the drying air flow is accommodated; and a filtering unit accommodating the fan housing and a filter member for filtering air to be sucked into the fan housing, wherein the filtering unit has a filter accommodating space in which the filter member is replaceably disposed, It includes a hollow filter housing in which a lower inlet is formed below the filter accommodating space, and a plurality of filter guide ribs for guiding the movement of the filter member when the filter member is drawn into the filter accommodating space are formed around the lower inlet. It is characterized in that provided in.

Also, the lower intake port may be a circular opening formed by vertically penetrating the bottom surface of the filter housing, and the plurality of filter guide ribs may be radially arranged around the lower intake port.

Also, the plurality of filter guide ribs may be arranged at equal intervals around the lower intake port.

Further, the plurality of filter guide ribs protrude from the bottom surface of the filter housing and extend upward along a direction parallel to the inlet direction of the filter member, and lower ends of the plurality of filter guide ribs are formed on the bottom surface of the filter housing. can be formed integrally with

In addition, on the bottom surface of the filter housing, a first annular rib extending along the circumference of the lower inlet and protruding upward is formed along the circumference of the first annular rib at a radially outer side of the first annular rib. A second annular rib extending and protruding upward may be integrally provided, and lower ends of the plurality of filter guide ribs may be connected to the second annular rib.

Also, lower ends of the plurality of filter guide ribs may be integrally formed with the second annular rib.

In addition, a radial distance from the center of the lower suction port to lower ends of the plurality of filter guide ribs may be the same as a radius of an inner surface of the second annular rib.

In addition, the plurality of filter guide ribs may maintain a constant thickness while moving in a direction away from the center of the lower intake port.

In addition, inclined surfaces may be provided on inner end surfaces in a radial direction of the plurality of filter guide ribs to progressively reduce a distance to the filter member while proceeding downward from an upper end toward the lower intake port.

In addition, a vertical surface formed below the inclined surface and at least partially in contact with an outer circumferential surface of the filter member when the filter member is retracted may be provided on inner end surfaces in a radial direction of the plurality of filter guide ribs.

In addition, the plurality of filter guide ribs may include a first guide rib having an outer end surface in a radial direction connected to an inner surface of the filter housing; and a second guide rib whose outer end surface in the radial direction is separated from the inner surface of the filter housing.

In addition, a total height of the first guide ribs may be higher than a total height of the second guide ribs based on a direction parallel to the introduction direction of the filter member.

In addition, a height of an inclined surface of the first guide rib may be higher than a height of an inclined surface of the second guide rib based on a direction parallel to the introduction direction of the filter member.

In addition, the fan housing is fixed to the fan housing accommodating space in a state of being separated from the bottom surface of the filter housing, and the inlet of the fan housing is provided on the lower surface of the fan housing and is open toward the bottom surface of the filter housing. And, based on the vertical direction, the inlet of the fan housing may be formed at a position lower than the upper end of the second guide rib.

In addition, the upper end of the second guide rib may be formed at a position lower than the upper surface of the fan housing and higher than the lower surface of the fan housing in the vertical direction.

The dishwasher according to the present invention is configured to be retractable through the lower surface of the tub when the filter member is replaced, so that it can be applied regardless of the type, and has an effect of improving user convenience.

In addition, the dishwasher according to the present invention is configured so that external air is introduced into the filter member through at least two intake ports, thereby ensuring a sufficient flow rate.

In addition, the dishwasher according to the present invention is configured so that outside air can be introduced only through the upper and lower intake ports, and the filter member is supported inside the filter housing in a surface contact state, so that the filtration effect can be significantly improved. have an effect

In addition, the dishwasher according to the present invention has an effect of preventing damage to electrical components by blocking leakage of washing water from flowing into electrical components inside the filter housing, such as a blowing fan and a blowing motor.

In addition, the dishwasher according to the present invention includes means for guiding the movement of the filter member when the filter member is introduced into the filter housing, thereby improving user convenience and preventing deterioration in the filtration performance of the filter member. have an effect

In addition to the effects described above, specific effects of the present invention will be described together while explaining specific details for carrying out the present invention.

1 is a front perspective view of a dishwasher according to an embodiment of the present invention.
2 is a schematic cross-sectional view of the dish washing machine shown in FIG. 1;
3 is a front perspective view illustrating a state in which a drying air supply unit of the dishwasher according to an embodiment of the present invention is accommodated in a base;
4 is a front perspective view showing a state in which the drying air supply unit is removed in FIG. 3;
5 is a front perspective view of the drying air supply unit shown in FIG. 3;
6 is a rear perspective view of the drying air supply unit shown in FIG. 3;
7 and 8 are exploded perspective views of the drying air supply unit shown in FIG. 3 .
9 is a plan view illustrating a state in which the tub of the dishwasher is seated on a base according to an embodiment of the present invention.
10 and 11 are exploded perspective views illustrating a filter housing, a filter member, a fan housing, and a housing connector among the components shown in FIGS. 7 and 8 .
12 is a cross-sectional view in the AA direction of FIG. 9 .
FIG. 13 is a partially enlarged view of FIG. 12 .
14 is a plan view of a second housing constituting the filter housing.
15 is a transverse sectional view of the filter housing.
16 is a front perspective view of the filter housing.
Fig. 17 is a plan view of Fig. 16;
18 is a front perspective view showing an embodiment in which blocking ribs are added to the configuration shown in FIG. 16;
Fig. 19 is a plan view of Fig. 18;

The above objects, features and advantages will be described later in detail with reference to the accompanying drawings, and accordingly, those skilled in the art to which the present invention belongs will be able to easily implement the technical spirit of the present invention. In describing the present invention, if it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar components.

Although first, second, etc. are used to describe various components, these components are not limited by these terms, of course. These terms are only used to distinguish one component from another component, and unless otherwise stated, the first component may be the second component, of course.

Throughout the specification, unless otherwise stated, each element may be singular or plural.

Hereinafter, the arrangement of an arbitrary element on the "upper (or lower)" or "upper (or lower)" of a component means that an arbitrary element is placed in contact with the upper (or lower) surface of the component. In addition, it may mean that other components may be interposed between the component and any component disposed on (or under) the component.

In addition, when a component is described as "connected", "coupled" or "connected" to another component, the components may be directly connected or connected to each other, but other components may be "interposed" between each component. ", or each component may be "connected", "coupled" or "connected" through other components.

Singular expressions used herein include plural expressions unless the context clearly dictates otherwise. In this application, terms such as "consisting of" or "comprising" should not be construed as necessarily including all of the various components or steps described in the specification, and some of the components or some of the steps It should be construed that it may not be included, or may further include additional components or steps.

Also, singular expressions used in this specification include plural expressions unless the context clearly indicates otherwise. In this application, terms such as "consisting of" or "comprising" should not be construed as necessarily including all of the various components or steps described in the specification, and some of the components or some of the steps It should be construed that it may not be included, or may further include additional components or steps.

Throughout the specification, when "A and/or B" is used, this means A, B or A and B unless otherwise specified, and when used as "C to D", this means unless otherwise specified As long as there is no, it means C or more and D or less.

Hereinafter, the present invention will be described with reference to drawings showing the configuration of a dishwasher 1 according to an embodiment of the present invention.

[Overall structure of dishwasher]

Hereinafter, the overall structure of a dishwasher according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front perspective view showing a dishwasher according to the present invention, and FIG. 2 is a simplified cross-sectional view showing the internal structure of the dishwasher according to the present invention.

As shown in FIGS. 1 and 2, the dishwasher 1 according to the present invention includes a case 10 forming an outer shape, and a washing space 21 installed inside the case 10 and washing objects to be washed. Forming a tub 20 having an open front, a door 30 opening and closing the open front of the tub 20, and located at the bottom of the tub 20, supplying and collecting washing water for washing the object to be washed. , circulating and draining driving unit 40, detachably provided in the internal washing space 21 of the tub 20, and installed adjacent to the storage unit 50 in which the object to be washed is seated, and the storage unit 50 and a spraying unit 60 for spraying washing water for washing the object to be washed.

At this time, the object to be washed seated in the storage unit 50 may be, for example, tableware such as bowls, plates, spoons, chopsticks, and other cooking utensils. In the following, unless otherwise specified, the object to be washed will be referred to as tableware.

The tub 20 may be formed in a box shape with an entirely open front surface, and corresponds to a configuration known as a so-called washing tub.

A washing space 21 is formed inside the tub 20, and the open front surface can be opened and closed by a door 30.

The tub 20 may be formed through press working of a metal plate material resistant to high temperature and moisture, for example, a plate material having a stainless-based material.

In addition, on the inner surface of the tub 20, a plurality of brackets having the purpose of supporting and installing functional components such as the accommodating part 50 and the spraying part 60 to be described later inside the tub 20 are disposed. It can be.

Meanwhile, the drive unit 40 includes a sump 41 for storing washing water, a sump cover 42 for separating the sump 41 from the tub 20, and a water supply unit for supplying washing water to the sump 41 from the outside. 43, a drainage unit 44 for discharging the washing water of the sump 41 to the outside, a water supply pump 45 for supplying the washing water of the sump 41 to the injection unit 60, and a supply passage 46 It can be configured to include.

The sump cover 42 is disposed above the sump 41 and may serve to separate the tub 20 and the sump 41 . In addition, the sump cover 42 may be provided with a plurality of recovery holes for recovering the washing water sprayed into the washing space 21 through the injection unit 60 into the sump 41 .

That is, the washing water sprayed toward the dishes from the jetting unit 60 may fall to the lower portion of the washing space 21 and be returned to the sump 41 via the sump cover 42 .

The water supply pump 45 is provided on the side or bottom of the sump 41 and serves to pressurize and supply the washing water to the injection unit 60 .

One end of the water supply pump 45 may be connected to the sump 41 and the other end may be connected to the supply passage 46 . The water pump 45 may include an impeller 451 and a motor 453. When power is supplied to the motor 453, the impeller 451 rotates, and the washing water in the sump 41 is pressurized, and then supplied to the injection unit 60 via the supply passage 46.

Meanwhile, the supply passage 46 may serve to selectively supply the washing water supplied from the water supply pump 45 to the injection unit 60 .

Illustratively, the supply passage 46 includes a first supply passage 461 connected to the lower injection arm 61, and a second supply passage 463 connected to the upper injection arm 62 and the top nozzle 63. A supply passage switching valve 465 may be provided in the supply passage 46 to selectively open and close the supply passages 461 and 463 .

At this time, the supply passage switching valve 465 may be controlled to open each of the supply passages 461 and 463 sequentially or simultaneously.

Meanwhile, the spraying unit 60 is provided to spray washing water to dishes stored in the storage unit 50 .

In more detail, the spray unit 60 is located below the tub 20 and sprays washing water to the lower rack 51, and between the lower spray arm 61 and the lower rack 51 and the upper rack 52. The upper spray arm 62 is located and sprays the washing water to the lower rack 51 and the upper rack 52, and is located above the tub 20 and sprays the washing water to the top rack 53 or the upper rack 52 It may include a top nozzle 63 that does.

In particular, the lower spray arm 61 and the upper spray arm 62 are rotatably provided in the washing space 21 of the tub 20 and can spray washing water while rotating toward the dishes in the storage unit 50 .

The lower spray arm 61 may be rotatably supported on the upper side of the sump cover 42 so as to spray washing water while rotating from the lower portion of the lower rack 51 toward the lower rack 51 .

In addition, the upper spray arm 62 may be rotatably supported by the spray arm holder 467 so that washing water can be sprayed while rotating between the lower rack 51 and the upper rack 52 .

Meanwhile, a means for converting the washing water sprayed from the lower spray arm 61 upward (U-direction) may be further provided on the lower surface 25 of the tub 20 to increase washing efficiency.

As for the detailed configuration of the injection unit 60, configurations already known in the art can be applied, and hereinafter, description of the specific configuration of the injection unit 60 will be omitted.

Meanwhile, the washing space 21 may include a storage unit 50 for storing dishes.

The storage unit 50 is provided to be drawn out from the inside of the tub 20 through the open front surface of the tub 20 .

Exemplarily, in FIG. 2 , a lower rack 51 located below the tub 20 and capable of accommodating relatively large large dishes, and an upper part located above the lower rack 51 and capable of accommodating medium-sized dishes An embodiment in which a storage unit including a rack 52 and a top rack 53 located above the tub 20 and capable of storing small dishes and the like is shown. Although the present invention is not limited thereto, description will be made based on an embodiment of a dishwasher provided with three accommodating units 50 as shown.

These lower racks 51, upper racks 53, and top racks 53 may be configured to be drawn out through the open front surface of the tub 20, respectively.

To this end, guide rails (not shown) may be provided on both side walls forming the inner circumferential surface of the tub 20, and exemplarily, the guide rails may include an upper rail, a lower rail, and a top rail.

Wheels may be provided under the lower rack 51, the upper rack 53, and the top rack 53, respectively. The user can store dishes in these lower racks 51, upper racks 53, and top racks 53 through the front of the tub 20 to the outside, or easily wash dishes from them. can be taken out

The guide rail 54 is a fixed guide rail in the form of a simple rail for guiding the withdrawal and input of the injection unit 60 or guides the withdrawal and accommodation of the injection unit 60 and the withdrawal distance according to the withdrawal of the injection unit 60 It may be provided as a telescopic guide rail that increases.

Meanwhile, the door 30 has the purpose of opening and closing the open front surface of the tub 20 described above.

A hinge part (not shown) for opening and closing the door 30 is provided at the lower part of the normally opened front surface, and the door 30 is opened while rotating using the hinge part as a rotation axis.

Here, a handle 31 for opening the door 30 and a control panel 32 for controlling the dishwasher 1 may be provided on an outer surface of the door 30 .

As shown, the control panel 32 includes a display 33 for visually displaying information about the current operating state of the dishwasher, a selection button for inputting a user's selection operation, and a power on/off switch for the dishwasher. A button unit 34 including a power button or the like to which a user's manipulation is input may be provided.

Meanwhile, the inner surface of the door 30 forms one side of the tub 20 when the door 30 is closed, and at the same time, the lower rack 51 of the storage unit 50 is supported when the door 30 is fully opened. It can form a seating surface that can be.

To this end, when the door 30 is fully opened, the inner surface of the door 30 preferably forms a horizontal plane state in the same direction as the direction in which the guide rails 54 in which the lower rack 51 is guided extend.

Meanwhile, although not shown in FIGS. 1 and 2 , a drying air supply unit for generating and supplying high-temperature drying air to the inside of the tub 20 may be provided at a lower portion of the tub 20 as will be described later. At least one drying air supply hole through which the high-temperature drying air generated by the drying air supply unit is introduced into the tub 20 may be provided on a lower surface of the tub 20 .

[Detailed configuration of the drying air supply unit]

Hereinafter, a detailed configuration of the aforementioned drying air supply unit 80 will be described with reference to FIGS. 3 to 8 .

As shown in FIG. 3 , the drying air supply unit 80 may be accommodated in the base 90 and supported by the bottom surface 91 of the base 90 .

Illustratively, the drying air supply unit 80 may be disposed at a position adjacent to the rear surface 93 of the base 90, and is generally located between the water leak detection unit and the rear surface 93 of the base 90. It can be arranged side by side on the rear surface (93) of.

This placement position may be selected in consideration of the characteristics of the drying air supply unit 80 in which high heat of approximately 100° C. or higher is generated in the high-temperature drying air supply mode. That is, a location avoiding electric components that are relatively highly affected by high heat may be selected.

In addition, such an arrangement position may be selected based on the position of the drying air supply hole 254 formed on the lower surface 25 of the tub 20 . That is, in consideration of the user's safety, the drying air supply hole 254 through which the drying air is introduced may be formed as the lower surface 25 of the tub 20 at a corner adjacent to the rear and left sides.

To effectively generate and supply dry air to the drying air supply hole 254 formed at this location, the drying air supply unit 80 may be disposed below the drying air supply hole 254 .

However, the arrangement position of the drying air supply unit 80 is merely exemplary, and, unlike this, a position adjacent to the left side 94, the right side 95 or the front side 92 of the base 90 rather than the rear side 93. can be placed in Although the present invention is not limited thereto, hereinafter, a description will be given based on an embodiment in which the drying air supply unit 80 is disposed substantially parallel to the rear surface 93 of the base 90 adjacent to the rear surface 93 .

On the other hand, as shown in FIG. 4, the bottom surface 91 of the base 90 has a support rib 96 for supporting the drying air supply unit 80 and preventing separation, and checking whether washing water leaks from the tub 20. A plurality of guide ribs 98 for setting the location of the water leak detection unit (not shown) and preventing separation, and washing repair ribs 97 for guiding the washing water discharged from the drying air supply unit 80 to the water leak detection unit. ) may be provided.

Preferably, these support ribs 96, guide ribs 98, and cleaning ribs 97 may be integrally formed on the bottom surface 91 of the base 90.

As shown, the support ribs 96 include a first support rib 961 supporting the middle side of the drying air supply unit 80 from the lower side and a second support rib 961 supporting the left side of the drying air supply unit 80 from the lower side. It can be divided into ribs 962.

The first support rib 961 is coupled with the first leg 891 of the drying air supply unit 80, and the second support rib 962 is coupled with the second leg 892 of the drying air supply unit, which will be described later. can

5 to 8, the detailed configuration of the drying air supply unit 80 is shown.

As shown, the drying air supply unit 80 that generates and supplies dry air to the inside of the tub 20 includes a blowing fan 83 that generates a dry air flow F supplied to the inside of the tub 20. And, a heater 84 for heating dry air, a heater housing 81 in which an air passage C for accommodating the heater 84 is formed, and filtering for filtering the air to be sucked into the blowing fan 83 It may be configured to include a portion (88).

The blowing fan 83 is disposed upstream in the direction of the dry air flow F with respect to the heater 84 and the heater housing 81, and passes through an air passage C formed inside the heater housing 81. It serves to accelerate the air to create a dry wind airflow (F).

The blowing fan 83 and the blowing motor generating rotational driving force of the blowing fan may be modularized to each other and accommodated in the fan housing 82 to form an assembly.

The blowing fan 83 and the fan housing 82 may be fixed to a housing connector 87 connecting the filter housing 881 of the filtering unit 88 and the heater housing 81 to be described later.

More specifically, the blowing fan 83 and the fan housing 82 may be accommodated inside the filter housing 881 as a whole while being fixed to the housing connector 87 .

There is no restriction on the type of the blowing fan applied to the drying air supply unit 80, but a sirocco fan is preferable in consideration of locational and spatial restrictions in which the blowing fan is installed.

As in the illustrated embodiment, when a sirocco fan is applied, filtered air is sucked from the lower surface 824 of the fan housing 82 in a direction parallel to the rotational axis from the center of the sirocco fan, and the air is accelerated toward the outside in the radial direction. and can be released.

The accelerated and discharged air forms a dry wind airflow (F) and can be introduced into the air passage (C) inside the heater housing (81) via the fan housing (82) and the inlet (8712) of the housing connector (87). there is.

At this time, the rotating shaft 831 of the blowing fan and the motor serving as the sirocco fan may be illustratively arranged to have a directionality substantially parallel to the up-and-down direction (U-D direction), and the filtered air is discharged from the lower surface 824 of the fan housing 82. ) can be inhaled.

Meanwhile, a PCB board for controlling the motor may be embedded inside the upper surface 821 of the fan housing 82 corresponding to the opposite side of the lower surface 824 through which the filtered air is sucked.

As illustrated, the fan housing 82 may be exemplarily fixed to the annular connection tab 872 provided on the housing connector 87 through a fastening means such as a screw bolt (not shown).

The connection tab 872 may extend from the inlet 8712 of the connector body 871 in a direction covering the upper surface 821 of the fan housing 82, and the connection tab 872 is shown in FIGS. 7 and 8. As described above, a pair of fastening bosses 873 extending in an upward direction (U-direction) from the upper surface of the connection tab 872 may be provided.

Screw holes into which screw bolts can be screwed may be formed in the pair of fastening bosses 873, respectively.

When fastening using screw bolts, contrary to the state shown in FIGS. 7 and 8 , that is, the connection tab 872 and the fan housing 82 may be assembled in a reversed state or upside down state. At this time, the pair of fastening bosses 873 may function as legs supporting the connection tab 872 and the fan housing 82 in the direction of gravity in an unfastened state.

The heater 84 is disposed in the air passage C of the heater housing 81, and is preferably directly exposed to the dry wind air flow F inside the air passage C to heat the dry wind air flow F. play a role

When the drying air supply unit 80 supplies high-temperature drying air, power is supplied to the heater 84 to heat the drying air, and when the drying air supply unit 80 supplies low-temperature drying air, the heater 84 ) It may be configured so that the operation of the heater 84 is stopped by cutting off the power supplied to it.

At this time, when the low-temperature drying air is supplied, the operation of the blowing motor 83 may be maintained so that the drying air flow F may be generated.

The type of heater 84 provided in the drying air supply unit 80 according to an embodiment of the present invention is not limited, but by way of example, it has a relatively simple structure, has excellent heating efficiency, and flows in reverse from the tub 20. A tube-shaped sheath heater, which is advantageous in preventing electric leakage by reverse inflow washing water, may be selected.

In order to increase the heat exchange efficiency, the heater body 841 serving as the sheath heater is directly exposed to the dry wind airflow F in the air passage C inside the heater housing 81, and is bent multiple times to maximize the heat transfer area. It can be configured to have a three-dimensional shape.

One end and the other end of the heater body 841 may extend through the front surface of the connector body 871 of the housing connector 87 described above.

In addition, a pair of terminals 842 for receiving electric power may be formed at one end and the other end of the heater body 841 .

As shown, a pair of terminals 842 may be installed and fixed to the connector body 871 through the terminal fixing part 843 .

At this time, a fixing slot 8711 may be provided on the front of the connector body 871 so that the terminal fixing part 843 can be fitted in a sliding manner.

Slit-shaped grooves may be formed on both sides of the terminal fixing part 843 in a sliding direction, that is, extending in the vertical direction (U-D direction), and the terminal fixing part 843 slides from top to bottom while moving the fixing slot 8711 ) can be fitted while being inserted into the slit-shaped groove.

Meanwhile, as described above, the front end of the heater body 841 may be fixed and supported through the terminal fixing part 843 .

The rear end of the heater body 841 may be fixed and supported through a single heater bracket 845 disposed inside the heater housing 81 as shown in FIGS. 7 and 8 . That is, the rear end of the heater body 841 may be supported on the air passage while being separated from the heater housing 81 through the heater bracket 845 .

The heater bracket 845 may be formed of a metal material in consideration of the function of the heater body 841 generating a high temperature, and preferably a metal plate material resistant to high temperature and moisture, for example, a plate material having a stainless-based material. It can be produced through press working.

For example, the heater bracket 845 may be manufactured to have an L-shape as shown in the partially enlarged view of FIG. 7 .

As in the illustrated embodiment, the vertical extension part 8451 extending in the vertical direction (U-D direction) of the b-shape includes two parts of the heater body 841 to effectively support the heater body 841 extending in two rows. In response to heat, two heater holders 8452 forcibly coupled to the outer surface of the heater body 841 may be provided.

The heater holders 8452 may be provided as a pair, and may be formed spaced apart from each other in the vertical extension 8451 in the vertical direction corresponding to the two rows of the heater body 841 spaced apart in the vertical direction (U-D direction). can Each heater holder 8452 may have a C-shaped outer shape corresponding to the outer shape of the tubular heater body 841 .

Each of the heater holders 8452 can be forcibly coupled to the outer surface of the heater body 841 in a manner that is plastically deformed when coupled to the heater body 841, and is fixed to the bottom surface 8111a of the heater housing 81. It may be forcibly coupled to the heater body 841 in advance before being modularized.

At the lower end of the vertical extension 8451, a horizontal extension 8453 extending approximately in the left-right direction Le-Ri of the L-shape may be integrally formed.

The horizontal extension part 8453 directly contacts the bottom surface 8111a of the lower housing 811 and serves to support the heater body 841 and the heater bracket 845, and the bottom surface of the lower housing 811 ( 8111a).

The horizontal extension part 8453 is formed with a notched bolt groove 8454 through which a screw bolt extends through so that it can be fixed to the bottom surface 8111a of the lower housing 811 through a fastening means such as a screw bolt. can Therefore, the horizontal extension part 8453 may have a U-shape in which the bolt groove 8454 is formed.

The screw bolts fixing the horizontal extension 8453 pass through the bolt groove 8454 and the bottom surface 8111a of the lower housing 811, and pass through the bottom of the lower housing 811 to the outside of the horizontal extension 8453. It extends to the second leg 892 disposed on, and can be screwed to the second leg 892.

That is, the heater bracket 845, the lower housing 811, and the second leg 892 can be simultaneously fastened through one screw bolt, and through this, the fastening structure can be simplified and the assembly process can be minimized. there will be

On the other hand, as shown in FIGS. 5 to 8, the upper surface 8121a of the upper housing 812 of the heater housing 81 detects the temperature of the high-temperature drying wind generated through the heater 84 or A temperature sensor may be provided as the temperature sensing unit 86 for detecting overheating.

For example, the temperature sensor may include a thermistor 861 that detects the temperature of the drying air and a thermostat 862 that detects whether the heater 84 is overheated.

An output signal of the temperature sensor may be transmitted to a control unit (not shown), and the control unit may receive the output signal of the temperature sensor and determine the temperature of the high-temperature drying air and whether or not it is overheated. When overheating occurs, the control unit may switch the operation mode of the drying air supply unit 80 from a high-temperature drying air supply mode to a low-temperature drying air supply mode by cutting off power supply to the heater 84 .

Meanwhile, the heater housing 81 may be formed in a hollow shape having an empty space so that an air passage C in which the above-described heater body 841 and the heater bracket 845 are disposed is formed therein.

At this time, the front end of the heater housing 81 corresponding to the upstream side and the rear end corresponding to the downstream side are at least partially opened based on the moving direction of the drying wind air flow F so that the drying wind air flow F can move. It can be.

In this way, the heater housing 81 is illustratively a lower housing disposed in a divided form based on the vertical direction (U-D direction) so that the front end and the rear end can easily form an air passage at least partially open ( 811) and an upper housing 812. Although the present invention is not limited thereto, hereinafter, as shown, the heater housing 81 will be described based on an embodiment including a lower housing 811 and an upper housing 812 in which the heater housing 81 is divided and disposed in the vertical direction. let it do

The lower housing 811 constituting the lower part of the heater housing 81 has a concave portion 8111 convex downward based on the arrangement state, and a flange shape in the horizontal direction from the circumferential edge of the concave portion 8111. It may be configured to include an extending surface 8112 that extends.

For example, the concave portion 8111 and the extension surface 8112 may be integrally formed.

The concave portion 8111 convex downward constitutes a lower portion of the air passage C formed inside the heater housing 81 .

As shown, in order to improve the heat exchange efficiency with the heater 84 disposed inside the heater housing 81 by securing the length of the air passage C as long as possible based on the flow direction of the dry wind airflow F. , The length of the concave portion 8111 in the left-right direction may be greater than the width in the front-back direction.

On the other hand, the right end of the lower housing 811 corresponding to the upstream side relative to the moving direction of the dry air flow is configured to be opened in a vertically cut shape as a whole, and the left end corresponding to the downstream side is not cut and is blocked. may consist of

The bottom surface 8111a of the concave portion 8111 may be configured as an inclined surface whose vertical height gradually increases from the right end to the left end of the lower housing 811 . Through this, the cross-sectional area of the air passage C formed through the bottom surface 8111a can be gradually reduced, and flow loss due to generation of vortices at the left end side where the direction of the drying air flow is switched can be minimized.

The bottom surface 8111a of the concave portion 8111 has a fastening hole formed for coupling to the aforementioned housing connector 87 and a coupling formed for fixing the aforementioned heater bracket 845 and the second leg 892. A plurality of through holes 8111b including holes may be provided.

At this time, at least some of the plurality of through-holes 8111b may be configured to function as drain holes for discharging the washing water that flows backward through the connection duct part 85 to be described later to the base 90 side.

The extension surface 8112 extending in the form of a flange may be formed to extend substantially parallel to a horizontal direction.

The expansion surface 8112 increases the contact area with respect to the expansion surface 8122 of the upper housing 812 and the duct body 851 of the connection duct part 85, which will be described later, to increase the bonding strength and prevent leakage of the dry air flow. It provides a means of minimizing In this way, by minimizing the leakage of the drying air flow, it is possible to prevent a decrease in the drying air supply efficiency of the drying air supply unit 80 .

Based on the illustrated embodiment, the expansion surface 8112 may be continuously and integrally formed along the circumferential edge of the concave portion 8111 except for the right end of the lower housing 811 .

In this way, the lower housing 811 can effectively couple the expansion surface 8122 of the upper housing 812 and the duct body 851 of the connection duct unit 85 to the expansion surface 8112 of the lower housing 811. The expansion surface 8112 of ) may be provided with a plurality of screw holes 8112a penetrating in the vertical direction.

On the other hand, the side connecting the bottom surface 8111a and the expansion surface 8112 of the lower housing 811 is an inclined surface to prevent a rapid change in the cross-sectional area of the air passage C and to minimize the flow resistance of the dry air flow. Alternatively, it may be composed of at least one of curved surfaces or a combination thereof.

In this way, in consideration of the fact that the heater body 841 generating a high temperature inside is disposed and that it can be directly exposed to the washing water flowing backward from the tub 20, the lower housing 811 is resistant to high temperature and moisture. A metal plate material, for example, a plate material having a substantially uniform thickness of a stainless-based material may be formed through press working.

On the other hand, the upper housing 812 constituting the upper part of the heater housing 81 has a concave portion 8121 convex upward based on the arrangement state, and a flange shape in the horizontal direction from the circumferential edge of the concave portion 8121. It may be configured to include an extension surface 8122 extending to .

Illustratively, the concave portion 8121 and the extension surface 8122 may be integrally formed.

The upward concave portion 8121 constitutes an upper portion of the air passage C provided inside the heater housing 81 .

Like the lower housing 811, the length of the air passage C is secured as long as possible based on the flow direction of the dry wind airflow to improve heat exchange efficiency with the heater 84 disposed inside the heater housing 81 To this end, the length of the concave portion 8121 in the left-right direction may be formed to be greater than the width in the front-back direction.

However, as will be described later, the left-right length of the upper housing 812 may be smaller than the left-right length of the lower housing 811 so as to form an outlet through which dry wind passing through the heater body 841 is discharged. . That is, due to the difference in length in the left and right directions, the left end of the lower housing 811 may be configured to be opened in the upward direction (U-direction) without being at least partially covered by the upper housing 812 . The left end side of the lower housing 811 formed to be at least partially open forms an outlet opening upward (U-direction).

Meanwhile, the right end of the upper housing 812 corresponding to the upstream side and the left end corresponding to the downstream side of the upper housing 812 based on the moving direction of the dry wind airflow may be configured to be opened in a vertically cut shape as a whole.

The upper side surface 8121a of the concave portion 8121 may be configured as a flat surface having a constant vertical height while moving from the right end to the left end of the upper housing 812 . As described above, the temperature sensor 86 may be attached to the outside of the upper surface 8121a of the concave portion 8121 .

Meanwhile, as shown in FIG. 7 , the right end of the upper surface 8121a serving as a flat surface may extend toward the housing connector 87 longer than the extended surface 8122 . Through this, the right end of the upper surface 8121a may be coupled to the connector body 871 while being at least partially inserted into the connector body 871 of the housing connector 87 . Accordingly, when the upper housing 812 and the connector body 871 are coupled, a contact area or coupling area between them is increased, and an amount of leakage of the dry air current flowing inside can be minimized.

Corresponding to the right end of the upper surface 8121a, the connector body 871 may be provided with means for increasing a contact area or coupling area with respect to the right end of the upper surface 8121a of the upper housing 812.

The extension surface 8122 extending in the form of a flange may be formed to extend substantially parallel to the extension surface 8112 of the lower housing 811 in a horizontal direction.

Based on the illustrated embodiment, the extension surface 8122 may be continuously and integrally formed on the front and rear sides of the concave portion 8121 except for the right and left ends of the upper housing 812 .

The expansion surface 8122 of the upper housing 812 may be provided with a plurality of screw holes 8122a penetrating in the vertical direction at positions corresponding to the screw holes 8112a of the lower housing 811 described above.

Like the lower housing 811, the side connecting the upper side 8121a and the expansion side 8122 of the upper housing 812 prevents a rapid change in the cross-sectional area of the air passage C and reduces the flow resistance of the dry wind airflow. In order to minimize, it may be composed of at least one of an inclined surface or a curved surface, or a combination thereof.

In addition, like the lower housing 811, the upper housing 812 may be formed by press-processing a metal plate material resistant to high temperature and moisture, for example, a plate material having a stainless-based material.

On the other hand, the drying air supply unit 80 is coupled to an outlet formed by opening in the upper direction (U-direction) at the left end side of the heater housing 81 and includes a connection duct unit 85 having an air passage formed therein. can include more.

As described above, the heater housing 81 and the blowing fan 83 are disposed below the lower surface 25 of the tub 20 . The connection duct part 85 serves to guide the drying air discharged from the heater housing 81 to move toward a preset position, that is, the drying air supply hole 254 formed in the tub 20 .

Illustratively, the preset position may be the lower surface 25 of the tub 20, and the drying air supply hole 254 into which the dry air flow F guided to the connection duct unit 85 is introduced is the tub 20 As the lower surface 25 of ), it may be formed at a corner adjacent to the rear surface 23 and the left surface 26.

As in the illustrated embodiment, the duct body 851 of the connection duct unit 85 changes the direction of the drying air flow to connect the drying air supply hole 254 of the tub 20 and the outlet of the heater housing 81. It can be configured to have a shape that can be.

Illustratively, in the duct body 851 of the connection duct unit 85, the lower end 8512 is in fluid communication with the outlet of the heater housing 81 and the upper end 8511 extends upward (U-direction) to blow dry air. It may be configured in a cylindrical shape connected to the supply hole 254.

The lower end 8512 of the duct body 851 may be configured to be slidably coupled to the lower housing 811 of the heater housing 81 .

More specifically, at the lower end 8512 of the duct body 851 composed of a flange surface, a guide wall and a guide protrusion for guiding the sliding coupling of the extension surface 8112 of the lower housing 811 and maintaining the coupled state are integrated can be provided with

In addition, a bridge portion having an inner shape corresponding to the outer shape of the left end of the upper housing 812 is inserted into the lower end 8512 of the duct body 851 in a sliding manner so that the left end of the upper housing 812 is inserted into the duct body 851. ) It may be provided in a form protruding upward from the lower end 8512.

On the other hand, considering the cross-sectional shape of the square outlet of the heater housing 81, the lower end 8512 of the duct body 851 may have a rectangular tubular shape, and the upper end 8511 of the duct body 851 to prevent water leakage. may have a cylindrical shape.

That is, for the efficiency of coupling between the upper end 8511 of the duct body 851 and the drying air supply hole 254 of the tub 20 and leakage prevention, the duct body 851 may be configured in a cylindrical shape.

As a means for the efficiency of such fastening and leakage prevention, a ring-shaped flange 8513 and a male screw portion 8514 may be provided at the upper end 8511 side of the duct body 851.

The upper end 8511 of the duct body 851 extends upward (U-direction) through the lower surface of the tub 20, and the upper end 8511 and the male threaded portion 8514 of the duct body 851 are at least It may partially pass through the lower surface of the tub 20 and protrude toward the inside of the tub 20 .

A fastening nut (not shown) may be coupled to the male screw portion 8514 disposed passing through the inside of the tub 20 .

When the duct body 851 is fixed and fastened, the upper end 8511 of the duct body 851 is exposed to the inside of the tub 20 by screwing a fastening nut to the male threaded portion 8514 inside the tub 20. can be fixed in a fixed state.

That is, in a state where the fastening nut 852 is in close contact with the upper side of the lower surface of the tub 20 and the ring-shaped flange 8513 is in close contact with the lower side of the lower surface of the tub 20, the coupling force of the fastening nut causes the flange ( 8513 receives a pulling force toward the lower surface of the tub 20. Through this, an effect of increasing adhesion between the flange 8513 and the lower surface of the tub 20 is obtained. Therefore, the possibility of leakage of washing water to the outer circumferential surface of the duct body 851 can be significantly reduced.

An airtight ring (not shown) made of an elastic material may be additionally provided between the flange 8513 and the lower surface of the tub 20 as a means for enhancing the effect of preventing leakage of the washing water.

As such, when the upper end 8511 of the duct body 851 is fixed to the tub 20 through the fastening nut 852, the left end of the heater housing 81 is moved up and down (U-D direction) by the duct body 851. Movement is restricted and becomes immobilized.

Through this, a support structure for the upper side of the drying air supply unit 80 can be achieved without additional fastening means.

The support structure for the lower side of the drying air supply unit 80 may be achieved through a plurality of supporting legs 89 supporting the heater housing 81 and the like with respect to the base 90 .

The plurality of supporting legs 89 are provided below the housing connector 87 and include a first leg 891 supporting the housing connector 87 in the direction of gravity, and a heater housing 81 provided below the heater. It may include a second leg 892 supporting the housing 81 in the direction of gravity and a third leg 893 provided under the filtering unit 88 and supporting the filtering unit 88 in the direction of gravity. can

Illustratively, the first leg 891 may be integrally formed with the connector body 871 of the housing connector 87, and may be provided to protrude from the bottom of the connector body 871 toward the base 90.

In addition, the second leg 892 is coupled to the lower side of the lower housing 811 of the heater housing 81 and may be provided separately from the lower housing 811 . To minimize transfer of high heat generated from the lower housing 811 to the base 90 and effectively absorb vibration and shock, the second leg 892 is made of a material different from that of the lower housing 811, preferably. It may be formed of a rubber material having predetermined heat resistance and predetermined elasticity.

In more detail, as shown in the enlarged view of FIG. 8, the second leg 892 is separately manufactured to have a different material with respect to the lower housing 811 and is assembled in a manner fixed to the lower portion of the lower housing 811 Therefore, the second leg 892 may be provided with a means for setting the position of the lower housing 811 and maintaining a provisionally assembled state.

Such a means may be provided as a plurality of coupling protrusions on the upper side surface 8921a of the leg body 8921 acting as a coupling surface for the lower housing 811 .

The plurality of coupling protrusions include a pair of first coupling protrusions 8922 extending parallel to the longitudinal direction of the lower housing 811, that is, parallel to the left and right directions, and a pair of first coupling protrusions 8922 and an outer circumference A second coupling protrusion 8923 provided between the surfaces 8921b may be included.

The pair of first coupling protrusions 8922 and second coupling protrusions 8923 are inserted into the first coupling hole and the second coupling hole provided on the bottom surface 8111a of the lower housing 811, so that the second The fixed position setting and provisional assembly state of the leg 892 can be maintained.

On the other hand, as described above, the heater bracket 845, the lower housing 811 and the second leg 892 are provided on the upper surface 8921a of the leg body 8921 between the pair of first coupling protrusions 8922. A through hole 8925 through which a screw bolt fastened at the same time passes may be formed. Below the through hole 8925, a screw boss 8924 into which a screw bolt is screwed may be integrally provided with the leg body 8921.

In addition, the third leg 893 may be formed integrally with the lower portion of the filter housing 881 constituting the filtering unit 88, and may be provided to protrude from the lower portion of the filter housing 881 toward the base 90. can

Meanwhile, although not shown, an air flow guide (not shown) for changing the direction of the dry air flow supplied through the duct body 851 may be coupled to the upper end 8511 of the duct body 851 .

[Detailed structure of filtering part and housing connector]

Detailed structures of the housing connector 87 and the filtering unit 88 of the dishwasher 1 according to an embodiment of the present invention will be described with reference to FIG. 7 below.

The housing connector 87 serves to indirectly connect and fix the fan housing 82 accommodating the blowing fan 83 to the heater housing 81 .

To this end, the fan housing 82 is detachably coupled to one side of the housing connector 87 that is upstream based on the flow direction of the dry air flow (hereinafter referred to as the longitudinal direction), and to the right side based on the illustrated embodiment. It can be.

In addition, the opened front end of the heater housing 81 can be detachably coupled to the other side of the housing connector 87 that is downstream based on the flow direction of the dry wind stream, that is, to the right side based on the illustrated embodiment.

More specifically, the housing connector 87 includes a box-shaped connector body 871 in which an inlet 8712 through which dry wind airflow discharged from the fan housing 82 is introduced is formed at the front end portion 871a, and a connector body ( 871 may include a connection tab 872 protruding from the front end 871a toward the fan housing 82 and to which the fan housing 82 is coupled.

The connector body 871 is coupled to the open front end of the heater housing 81 disposed downstream with respect to the flow direction of the drying air flow to form an air passage C through which the drying air flow flows together with the heater housing 81 plays a role in forming

To this end, the connector body 871 may be configured to have a hollow box shape with an empty inside.

The connection tab 872 protruding from the distal end 871a of the connector body 871 at least partially forms the upper surface of the female connector portion 871a1.

The inner surface of the connector body 871 may gradually expand the cross-sectional area of the air passage C while proceeding along the flow direction of the dry air flow, and the cross-sectional area of the rear end 871b to which the heater housing 81 is coupled is It may be formed to have substantially the same cross-sectional area as the front end of the heater housing 81 . Through this, the flow loss of the dry air flow can be minimized.

The connector body 871 minimizes the transfer of heat generated by the heater 84 to the fan housing 82 via the heater housing 81, and serves to support the fan housing 82 and the heater housing 81. can combine

To this end, the connector body 871 may be manufactured by injection molding a plastic material having predetermined heat resistance.

In addition, to support the fan housing 82 and the heater housing 81, a first leg 891 protruding toward the base may be integrally formed at the bottom of the connector body 871.

Meanwhile, based on the illustrated embodiment, the upper and front surfaces of the box-shaped connector body 871 may be at least partially open.

The at least partially open upper and front surfaces of the connector body 871 provide a passage through which the heater body 841 can enter while the heater body 841 is arranged and fixed inside the air passage C. do.

The heater body 841 may be indirectly supported while being separated from the heater housing 81 and the connector body 871 .

The front end of the heater body 841 may be supported while being separated from the connector body 871 by the terminal fixing portion. A pair of terminals may be fixed to the front of the terminal fixing unit while protruding outward.

The partially opened front surface of the connector body 871 may form a U-shaped fixing slot 8711 into which the terminal fixing portion slides to correspond to the outer shape of the terminal fixing portion.

In the terminal fixing part, sliding movement in the vertical direction is guided by the edge of the fixed slot 8711, and a guide groove coupled with the edge of the fixed slot 8711 may be formed.

A partially opened top of the connector body 871 may be covered and shielded by the upper housing 812 .

A plurality of second support ribs 8715 serving to support the distal end of the upper housing 812 entering the inside of the connector body 871 from the lower side of the coupling surface 8716 may be provided.

The rear end 871b of the connector body 871, which is in a generally open state, is the concave portion 8111 of the lower housing 811 and the concave portion 812 of the upper housing 812 forming the inner surface of the heater housing 81. (8121) and can be fixed while being fitted.

At this time, the rear end 871b of the connector body 871 is partially inserted into the concave portion 8111 of the lower housing 811 and the concave portion 8121 of the upper housing 812 to be fitted and coupled. can

As shown in FIG. 10, a plurality of first support ribs 8714 are provided at the rear end 871b of the connector body 871 to form a fitting coupling in which surface contact is formed in a manner similar to that of the upper housing 812. may be provided.

Meanwhile, the connection tab 872 may extend parallel to the upper surface 821 of the fan housing 82 in a direction covering the upper surface 821 of the fan housing 82 from the inlet 8712 of the connector body 871. there is.

The connection tab 872 has a shape that entirely covers the upper surface 821 of the fan housing 82 . Therefore, it may be provided in a plate shape corresponding to the shape of the upper surface 821 of the fan housing 82, and may extend substantially horizontally from the upper side of the inlet 8712. Preferably, one end of the connection tab 872 connected to the connector body 871 is integrally formed on the front end 871a side of the connector body 871 at an upper position of the inlet 8712, and the aforementioned female connector part ( 871a1) can form the upper surface.

As shown, a pair of fastening bosses 873 extending in a vertical direction or an upper direction (U-direction) may be integrally provided on an upper surface 8721 of the connection tab 872.

As will be described later, screw holes into which one end of the screw bolt B passing through the fan housing 82 can be screwed can be formed inside the pair of fastening bosses 873 .

On the other hand, as shown in FIG. 10, the pair of fastening bosses 873 are located inside the first housing 8811 corresponding to the upper housing of the filtering unit 88 based on the state disposed on the base 90. It may be coupled to the provided guide boss (8811e).

The filtering unit 88 is disposed upstream of the heater 84 based on the flow direction of the dry air flow so that it can filter air to be sucked into the blowing fan 83 and supply it to the heater 84. can

In more detail, the filtering unit 88 includes a filter member 883 for filtering air to be sucked into the blowing fan 83, a filter receiving space S1 in which the filter member 883 is replaceably disposed, and a fan. It may include a hollow filter housing 881 in which a fan housing accommodating space S2 in which the housing 82 is disposed is formed.

As shown in FIGS. 7 to 11, the filter housing 881 illustratively includes a first housing 8811 and a second housing disposed in a divided body shape divided in the vertical direction (U-D direction). (8812). In this case, the first housing 8811 may be an upper housing and the second housing 8812 may be a lower housing.

Although the present invention is not limited thereto, hereinafter, as shown, the filter housing 881 is based on an embodiment including a first housing 8811 and a second housing 8812 that are divided and coupled in the vertical direction. to be explained by

As described above, the filter housing 881 serves to accommodate and support the filter member 883 and the fan housing 82 of the blowing fan 83 .

Accordingly, the first housing 8811 can accommodate and support the filter member 883 and the fan housing 82 at least partially, preferably the top of the filter member 883 and the top of the fan housing 82, It can be divided into a filter accommodating part 8811a and a fan housing accommodating part 8811b.

As shown, the filter accommodating part 8811a and the fan housing accommodating part 8811b of the first housing 8811 are opened as a whole so that the second housing 8812 can be coupled to the lower side.

The filter accommodating part 8811a may be formed on a more upstream side than the fan housing accommodating part 8811b based on the flow direction of the dry air flow, and on the right side of the fan housing accommodating part 8811b based on the illustrated embodiment. there is.

For example, the filter accommodating portion 8811a may have a partially cylindrical outer shape so that the filter member 883 having a cylindrical shape can be retracted and withdrawn when the filter member 883 is replaced.

A coupling opening 8811c opened in a circular shape corresponding to the outer shape of the filter member 883 may be formed at an upper end of the filter accommodating portion 8811a, and the filter member 883 passes through the coupling opening 8811c to form a lower side. direction, and can move up to the filter accommodating part 8812a of the second housing 8812.

The fan housing accommodating portion 8811b is further downstream than the filter accommodating portion 8811a based on the flow direction of the dry wind air flow, and the heater housing 81 is located on the right side of the filter accommodating portion 8811a based on the illustrated embodiment. ) may be integrally formed with the filter accommodating portion 8811a.

The fan housing accommodating portion 8811b may have an internal shape corresponding to the outer shape of the upper portion of the fan housing 82 so as to entirely cover the upper portion of the blowing fan 83 . For example, the upper surface of the fan housing accommodating portion 8811b may be provided in a flat plate shape.

However, the area of the upper surface 821 of the fan housing 82 in which the above-described PCB substrate of the blowing fan 83 and the PCB substrate are provided for cooling the motor is at least partially outside the central side of the upper surface of the fan housing accommodating portion 8811b. A ventilation hole 8811f for exposure to may be provided. A hollow cylindrical ventilation duct 8811g extending toward the top surface 821 of the fan housing 82 may be formed below the ventilation hole 8811f.

In addition, a slit-shaped drain channel 8811h having one end connected to the lower end of the ventilation duct 8811g and the other end extending to the front of the first housing 8811 may be provided on the upper surface of the fan housing accommodating part 8811b. can Through this, washing water flowing into the ventilation hole 8811f may be moved through the drain channel 8811h and discharged toward the base 90.

As shown, the upper surface of the first housing 8811 may have an inclined surface 8811b1 connecting the top of the filter accommodating portion 8811a and the fan housing accommodating portion 8811b. As will be described later, the drainage channel 8811h serves to drain washing water leaking from the upper end of the filter accommodating part 8811a and then flowing into the ventilation duct 8811g along the inclined surface.

Detailed configurations of the ventilation hole 8811f, the ventilation duct 8811g, and the drainage channel 8811h will be described later with reference to FIGS. 16 to 19 .

Meanwhile, a pair of guide bosses 8811e may be provided inside the first housing 8811 to protrude toward the fan housing 82 from the upper surface. Each guide boss 8811e protrudes toward the connection tab 872 of the housing connector 87 described above, and is configured to engage with a pair of fastening bosses 873 provided on the connection tab 872, respectively. . Illustratively, the lower end of each guide boss 8811e may be at least partially hollow so that the upper end of the pair of fastening bosses 873 can be inserted. Through this, the upper end of each fastening boss 873 can be engaged with each other in such a way that the lower end of the corresponding guide boss 8811e is inserted.

Meanwhile, the left side of the fan housing accommodating portion 8811b of the first housing 8811 is partially opened to form a part of the housing connector coupling hole 881a. The remaining part of the housing connector coupling hole 881a may be formed on the left side of the fan housing accommodating portion 8812b of the second housing 8812, which will be described later.

The connector body 871 of the housing connector 87 can be at least partially inserted into the filter housing 881 through the housing connector coupling hole 881a. Therefore, the shape of the housing connector coupling hole 881a has a shape corresponding to the outer shape of the connector body 871.

The second housing 8812 of the filter housing 881 is coupled to the lower portion of the first housing 8811 to form a sealed accommodation space, and accommodates and supports the filter member 883 and the lower portion of the fan housing 82. serves to perform a function.

Similar to the first housing 8811, the second housing 8812 includes a filter accommodating portion 8812a and a fan housing so as to accommodate and support the lower portion of the filter member 883 and the lower portion of the fan housing 82. It can be divided into part 8812b.

As shown, the upper end of the second housing 8812 may be entirely open so as to be coupled to the lower end of the first housing 8811 .

Corresponding to the filter accommodating part 8811a of the first housing 8811, the filter accommodating part 8812a of the second housing 8812 provided below the filter accommodating part 8811a of the first housing 8811 has a filter. A plurality of filter guide ribs 8812f may be provided to guide the movement of the filter member 883 when the member 883 is retracted and to prevent the filter member 883 from departing from the original position.

The filter guide rib 8812f protrudes upward from the bottom surface 8812e of the filter accommodating part 8812a, and the lower end may be integrally formed with the bottom surface 8812e of the filter accommodating part 8812a.

In addition, the plurality of filter guide ribs 8812f may be radially arranged around the filter member 883 to correspond to the outer shape of the filter member 883 having a cylindrical shape.

A detailed configuration of the plurality of filter guide ribs 8812f will be described later with reference to FIGS. 13 to 15 .

As the center of the plurality of filter guide ribs 8812f, a lower intake port 8812c that opens toward the bottom surface of the base 90 and introduces external air may be formed through the bottom surface 8812e of the filter accommodating portion 8812a. .

The lower intake port 8812c may be provided in a circular shape corresponding to the lower opening 8834 of the filter member 883 having a cylindrical shape, and outside air passes through the lower opening 8834 to the inside of the filter member 883. The relative position and size can be determined so that can be introduced smoothly.

More specifically, the open area of the lower intake port 8812c may be smaller than the open area of the lower opening 8834 of the filter member 883, and the diameter D2 of the lower intake port 8812c is the filter member ( 883) may be formed smaller than the inner diameter D11.

In addition, when viewed from the bottom of the base 90 in a state in which the filter member 883 is drawn into the filter receiving space S1 and the arrangement is completed, the lower intake port 8812c is the whole of the lower opening 8834 of the filter member 883. It can be configured to be included within an area.

Therefore, outside air introduced through the lower intake port 8812c can be effectively introduced into the lower opening 8834 of the filter member 883 without leaking into the filter housing 881.

Meanwhile, on the bottom surface 8812e of the second housing 8812, a first annular rib serves as an airtight means to prevent unfiltered external air from leaking and being directly introduced into the inner space of the filter housing 881. (8812g1) and a second annular rib 8812g2 may be formed around the lower intake port 8812c.

These first annular ribs 8812g1 and second annular ribs 8812g2 are configured to engage directly in surface contact with the inner circumferential surface 8831 and outer circumferential surface 8832 at the lower end of the filter member 883, so that the filter member 883 It serves to seal between the lower end of the second housing 8812 and the bottom surface 8812e of the second housing 8812.

In addition, as another airtight means, a protruding surface 8811j protruding toward the filter accommodating space S1 may be provided in the coupling opening 8811c of the first housing 8811. When the filter member 883 is disposed in the filter receiving space S1, the protruding surface 8811j directly presses the outer circumferential surface 8832 at the upper end of the filter member 883 so as to be engaged in surface contact. do. Through this, an airtight structure between the top of the filter member 883 and the first housing 8811 can be achieved.

A detailed configuration of these leakage preventing means or airtight means will be described later with reference to FIGS. 13 and 14 .

The fan housing accommodating portion 8812b is further downstream than the filter accommodating portion 8812a based on the flow direction of the dry wind air flow, and the heater housing 81 is located on the right side of the filter accommodating portion 8812a based on the illustrated embodiment. ) may be integrally formed with the filter accommodating portion 8812a.

The fan housing accommodating portion 8811b may have an internal shape corresponding to the outer shape of the lower portion of the fan housing 82 so as to entirely cover the lower portion of the blowing fan 83 .

The bottom surface 8812e of the fan housing accommodating portion 8811b is spaced apart from the lower surface 824 of the fan housing 82 at a predetermined interval so that filtered air can be effectively sucked in, preferably in a horizontal direction. It may be composed of a flat surface formed parallel to.

As a means for supporting the fan housing 82 spaced apart from the bottom surface 8812e of the fan housing accommodating portion 8811b, the fan housing accommodating portion 8812b is provided in a form protruding from the bottom surface 8812e. A plurality of raised surface portions 8812e3 and screw bosses 8812e2 may be provided.

The plurality of raised surfaces 8812e3 have the purpose of avoiding other structures disposed under the second housing 8812, for example, the ribs and leak detection of the base disposed under the second housing 8812. It has the purpose of avoiding wealth.

Therefore, the shape of the individual raised surface portion 8812e3 may be provided differently depending on the shape of another structure to be avoided.

These plurality of raised surface portions 8812e3 can be used as support portions for supporting the fan housing 82 in a state of being spaced apart from the bottom surface of the fan housing accommodating portion 8811b. Therefore, the blowing fan 83 may be disposed such that the lower surface 824 of the fan housing 82 comes into surface contact with the upper surface of the individual raised surface portion 8812e3.

The screw boss 8812e2 serves to support the lower surface 824 of the fan housing 82 together with the individual raised surface portions 8812e3. In addition, the screw boss 8812e2 may be provided with a bolt hole 8812e1 into which one of a pair of screw bolts that simultaneously fasten the fan housing 82 and the connection tab 872 of the housing connector 87 can be inserted. there is.

The other bolt hole 8812e1 may be formed through any one of the plurality of raised surface portions 8812e3.

As described above, in the first housing 8811 and the second housing 8812 disposed in the form of a divided body, the lower end of the first housing 8811 and the upper end of the second housing 8812 are detachably coupled to each other. .

To achieve such a detachable coupling relationship, a fastening tab 8811d extending toward the second housing 8812 is provided at the lower end of the first housing 8811, and a fastening tab 8811d is provided at the upper end of the second housing 8812. (8811d) may be provided with a hook protrusion (8812d) fastened by a hook coupling method.

Meanwhile, the tub connection duct 882 may be detachably coupled and fastened to the coupling opening 8811c of the filter accommodating portion 8811a of the first housing 8811.

The filter member 883 of the filtering unit 88 according to an embodiment of the present invention may be configured to replace the filter member 883 through the lower surface 25 of the tub 20 .

To this end, the filter accommodating portion 8811a of the first housing 8811 needs to be connected to the lower surface 25 of the tub 20, and the tub connection duct 882 is connected to the lower surface 25 of the tub 20. 1 serves to connect the filter accommodating parts 8811a of the housing 8811 to each other.

The tub connection duct 882 may be integrally provided in the filter accommodating portion 8811a of the first housing 8811, but as shown below, the tub connection duct 882 is separately installed in the first housing 8811. It will be described based on the embodiment provided by .

Similar to the duct body 851 of the aforementioned connection duct unit 85, as shown in FIGS. 7 and 8, the upper end 8821 of the tub connection duct 882 covers the lower surface 25 of the tub 20. It may extend upward through through.

As shown in FIG. 9 , a filter replacement hole 253 may be provided on the lower surface 25 of the tub 20 so that the upper end 8821 of the tub connection duct 882 may be inserted.

A sump hole 252 in which a sump is mounted may be provided at the center of the lower surface 25 of the tub 25, and the lower surface 25 of the tub 20 may effectively collect washing water into the sump hole 252. A convergent surface having an inclination angle that gradually descends toward the sump hole 252 may be formed.

As shown, the filter replacement hole 253 may be formed on the convergence surface as a rear position of the sump hole 252 .

In order to distinguish it from the drying air supply hole 254, the filter replacement hole 253 may be formed at a corner adjacent to the rear and right sides as the lower surface 25 of the tub 20. Furthermore, for the convenience of withdrawing and retracting the filter member 883 for replacement, the filter replacement hole 253 may be disposed closer to the front of the tub 20 than the drying air supply hole 254, and the water softener communication hole (255) can be arranged behind.

The water softener communication hole 255 formed in front of the filter replacement hole 253 exemplarily has a purpose such as injecting a water softener into a water softener (not shown) provided at the bottom, but a water filter (not shown) of the water supply unit, etc. It can be used for replacement and maintenance of other parts.

Meanwhile, the filter replacement hole 253 may be located between the water softener communication hole 255 and the drying air supply hole 254 in the front-back or left-right direction.

That is, the filter replacement hole 253 may be disposed at a position deviating from an imaginary extension line connecting the water softener communication hole 255 and the drying air supply hole 254 .

Through this, even if a plurality of openings are formed in the lower surface 25 of the tub 20, a decrease in strength of the tub 20 can be prevented and torsional rigidity or bending rigidity can be advantageously formed.

In addition, in order to distinguish it from the water softener communication hole 255 formed in front of the filter replacement hole 253, the water softener inlet is provided at the top of the tub connection duct 882 exposed to the washing space through the filter replacement hole 253. A sealing cap 884 having a different shape or color than 255 may be applied.

For efficiency of coupling between the upper end 8821 of the tub connection duct 882 and the filter replacement hole 253 of the tub 20 and to prevent leakage, the tub connection duct 882 may have a cylindrical shape.

As a means for the efficiency of such fastening and leakage prevention, a ring-shaped flange 8823 and a male screw portion 8824 may be provided at the upper end 8821 side of the tub connection duct 882 .

The upper end 8821 of the tub connection duct 882 penetrates the lower surface 25 of the tub 20 and extends in the upward direction (U-direction), and the upper end 8821 of the tub connection duct 882 and the male threaded portion ( 8824 may at least partially pass through the lower surface 25 of the tub 20 and protrude toward the inside of the tub 20 .

As described above, the filter replacement hole 253 is provided on a converging surface provided on the lower surface 25 of the tub 20 . Therefore, the upper end 8821 and the flange 8823 of the tub connection duct 882 coupled to the filter replacement hole 253 have a predetermined inclination angle with respect to the vertical direction corresponding to the inclination angle of the convergence surface of the tub 20, That is, it may be formed in an inclined state with respect to the vertical direction.

A fastening nut 886 may be coupled to the male screw portion 8824 disposed passing through the inside of the tub 20 .

When the tub connection duct 882 is fixed and fastened, the tub 20 is screwed with the fastening nut 886 to the male threaded portion 8824 so that the upper end 8821 of the tub connection duct 882 is connected to the tub 20. ) can be fixed in an exposed state. A gasket 885 may be further provided between the fastening nut 886 and the lower surface 25 of the tub 20 to prevent the fastening nut 886 from loosening and leaking.

When the tub connection duct 882 is fixed to the lower surface 25 of the tub 20 through the fastening duct, a sealing cap 884 is provided on the upper end 8821 of the tub connection duct 882 exposed to the inside of the tub 20. can be combined. At this time, a leak-proof sealing ring 887 may be disposed between the sealing cap 884 and the upper end 8821 of the tub connection duct 882 .

On the other hand, between the upper end 8821 and the lower end 8822 of the tub connection duct 882, an upper intake port 8826 through which external air is introduced is located below the flange 8823 corresponding to the upper side of the filter accommodation space S1. may be formed through.

The upper intake port 8826 may be formed through an inner circumferential surface to an outer circumferential surface of the tub connection duct 882 having a cylindrical shape. Preferably, the upper intake port 8826 may be provided as a plurality of through openings arranged and formed along the circumferential direction of the tub connection duct 882 .

Therefore, since it is formed along the circumferential direction of the tub connection duct 882 extending in a substantially vertical direction, the upper intake port 8826 can be regarded as being opened in a substantially horizontal direction, and the external air introduced into the upper intake port 8826 is approximately An airflow having a direction parallel to the horizontal direction is formed.

At this time, in order to prevent a decrease in strength of the tub connection duct 882, the upper intake port 8826 provided as a plurality of through-holes may be provided in a slit shape with a height in a vertical direction smaller than a width in a circumferential direction.

In addition, the plurality of through openings constituting the upper intake port 8826 may each have the same open area so that outside air can be uniformly introduced along the circumferential direction.

The upper intake port 8826 is formed at a higher position than the upper opening 8833 formed on the upper surface 8835 of the filter member 883 based on the state in which the filter member 883 is disposed in the filter receiving space S1. It can be. Therefore, the upper intake port 8826 can be considered to be formed between the tub 20 and the upper surface 8835 of the filter member 883 based on the vertical direction.

Therefore, the outside air passing through the upper intake port 8826 in a direction parallel to the horizontal direction enters the inside of the filter member 883, the air flow direction is changed, and is filtered while passing through the outer circumferential surface 8832 of the filter member 883. may proceed.

That is, in the filtering unit 88 according to the present invention, external air is supplied to the filter member 883 through two intake paths including a lower intake port 8812c and an upper intake port 8826 formed at positions spaced apart from each other in the vertical direction. ) can be configured to flow into. Through this, the flow rate of the dry wind airflow F required for drying the object to be washed can be secured sufficiently and effectively compared to the prior art.

The intake path of external air and the flow path of the dry airflow passing through the filter member will be described later with reference to FIG. 12 .

Meanwhile, a fastening part 8825 for providing a detachable fastening function to the coupling opening 8811c of the first housing 8811 may be integrally provided at the lower end 8822 of the tub connection duct 882 . For example, the fastening part 8825 may be a fastening means coupled to the coupling opening 8811c of the first housing 8811 in a hook coupling manner.

[Air flow path before and after filtration]

Referring to FIG. 12, the flow path Fo of external air before passing through the filter member 883 of the dishwasher 1 according to one embodiment of the present invention and the dry filtered through the filter member 883 Let's explain the flow path of the wind airflow (F).

The plurality of filter housings 881 of the dishwasher 1 according to an embodiment of the present invention are formed at positions spaced apart from each other in the vertical direction and are open toward the space between the base 90 and the tub 20. It is configured so that outside air is introduced through the intake port of the.

As described above, the plurality of intake ports include the upper intake port 8826 provided in the tub connection duct 882 as the upper side of the filter accommodating space S1 and the second housing 8812 as the lower side of the filter accommodating space S1. It may include a lower intake port (8812c) provided on the bottom surface (8812e) of the.

In this way, the upper intake port 8826 and the lower intake port 8812c are spaced apart from each other at the highest and lowest positions of the filter housing 881 based on the space between the tub 20 and the base 90. Therefore, since outside air can be introduced through the two suction ports in a state where the effect on the air flow rate mutually sucked in is minimized, a sufficient air flow rate required for drying the object to be washed can be secured compared to the prior art, and an increase in drying time can be prevented. can do.

As shown, the upper intake port 8826 is open in a direction substantially parallel to the horizontal direction. Therefore, the outside air introduced into the upper intake port 8826 forms an air flow having a direction parallel to the horizontal direction.

On the other hand, the lower intake port 8812c is formed on the bottom surface 8812e extending in the horizontal direction. Therefore, the lower intake port 8812c is open toward the base 90 in a direction parallel to the vertical direction, and external air introduced into the lower intake port 8812c forms an air flow parallel to the vertical direction.

Outside air introduced through the upper inlet port 8826 is directed to the upper opening 8833 of the filter member 883 located directly below the upper inlet port 8826 based on the state of being disposed in the filter receiving space S1. can enter

In addition, the outside air introduced through the lower inlet port 8812c is a filter member 883 located directly above the lower inlet port 8812c based on the state in which the filter member 883 is disposed in the filter accommodating space S1. It can enter through the lower opening 8834 of

As will be described later, based on the state in which the filter member 883 is disposed, the upper side of the filter member 883 and the lower side of the filter member 883 prevent unfiltered air from being introduced into the filter housing 881. An airtight means for doing so may be provided. Therefore, outside air introduced through the upper intake port 8826 and the lower intake port 8812c can enter the upper opening 8833 and the lower opening 8834 of the filter member 883 without leakage, respectively.

On the other hand, based on the state disposed in the filter receiving space (S1), the upper opening 8833 of the filter member 883 is open toward the lower surface 25 of the tub 20, and the lower portion of the filter member 883 The opening 8834 is open toward the bottom of the base 90. Therefore, the airflow direction of the outside air is changed downward while passing through the upper opening 8833, and the outside air passing through the lower opening 8834 flows upward.

In this way, outside air introduced into the filter member 883 can be uniformly introduced in the vertical and circumferential directions as a whole through the inner circumferential surface 8831 of the filter member 883 constituting the filtering surface. Therefore, as in the prior art, the possibility of partial blockage caused by introduction of external air through a specific portion of the filter member 883 can be remarkably reduced.

Meanwhile, outside air introduced into the inner circumferential surface 8831 of the filter member 883 is filtered and discharged while passing through the outer circumferential surface 8832 of the filter member 883, and the flow direction is changed immediately after being discharged.

As shown in FIG. 12, the filtered air passing through the outer circumferential surface 8832 of the filter member 883 hits the lower surface 824 of the fan housing 82, which is open toward the bottom surface 8812e of the filter housing 881. The flow direction can be switched to

The lower surface 824 of the fan housing 82 is disposed at a position spaced apart from the bottom surface 8812e in the upward direction between the lower and upper ends of the filter member 883. Therefore, the air passing through the filter member 883 at a position higher than the lower surface 824 of the fan housing 82 flows downward toward the lower surface 824 of the fan housing 82, and the fan housing 82 Air passing through the filter member 883 at a position lower than the lower surface 824 of the fan housing 82 flows upward toward the lower surface 824 of the fan housing 82 .

The filtered air introduced into the fan housing 82 through such a flow path is accelerated by the fan and then introduced into the inner space of the housing connector 87 and the heater housing 81 through the exhaust duct 822 and dried. Wind air flow F can be formed.

[Detailed configuration of airtight means of filter member]

Hereinafter, with reference to FIGS. 13 and 14, detailed configurations of the leakage preventing means or the airtight means of the filter member 883 provided in the filter housing 881 will be described.

13 and 14, an airtight means for preventing unfiltered external air from being directly introduced into the inner space of the filter housing 881 by leaking from the bottom surface 8812e of the second housing 8812. As a result, the first annular rib 8812g1 and the second annular rib 8812g2 may be formed around the lower intake port 8812c.

These first annular ribs 8812g1 and second annular ribs 8812g2 are configured to engage directly in surface contact with the inner circumferential surface 8831 and outer circumferential surface 8832 at the lower end of the filter member 883, so that the filter member 883 It serves to seal between the lower end of the second housing 8812 and the bottom surface 8812e of the second housing 8812.

As described above, in a state where the filter member 883 is disposed in the filter accommodating space S1, the lower surface 8836 of the filter member 883 surrounds the lower intake port 8812c and removes the pressure of the filter housing 881. It is in a state of surface contact engagement with the bottom surface 8812e. However, since the lower surface 8836 of the filter member 883 has a fairly narrow radial width due to the characteristics of the material constituting the applied filtering surface, it has a structure in which it is difficult to maintain an airtight state only by surface contact between them. A material constituting the filtering surface may be formed of any one selected from a mesh filter or a HEPA filter, or a combination thereof.

The first annular rib 8812g1 and the second annular rib 8812g2 increase the contact area with respect to the lower end of the filter member 883 and act as a means to increase the airtight effect.

Illustratively, the first annular rib 8812g1 extends in a ring shape along the circumference of the lower intake port 8812c, preferably along the circular edge of the lower intake port 8812c, and extends upward from the circular edge of the lower intake port 8812c. It may be a cylindrical rib protruding in a direction.

Therefore, it can be understood that the lower intake port 8812c and the inner circumferential surface of the first annular rib 8812g1 form one air passage communicating with each other, and the inner diameter of the first annular rib 8812g1 is the lower intake port 8812c. It can be the diameter (D2).

In a state where the filter member 883 is disposed in the filter accommodating space S1, the first annular rib 8812g1 passes at least partially through the lower opening 8834 of the filter housing 881 to the inside of the filter housing 881. can be inserted into

At this time, the outer diameter of the first annular rib 8812g1 is larger than the diameter D2 of the lower inlet port 8812c, but is formed substantially equal to the inner diameter D12 of the lower opening 8834 of the filter member 883. It can be.

Therefore, when the filter member 883 is disposed in the filter accommodating space S1, the first annular rib 8812g1 passes at least partially through the lower opening 8834 of the filter member 883 to the inside of the filter member 883. be able to enter.

The outer circumferential surface of the first annular rib 8812g1 entering the inside of the filter member 883 can be engaged with the lower inner circumferential surface 8831 of the filter member 883 in surface contact. Through this, an airtight state may be formed through surface contact between the inner circumferential surface 8831 of the filter member 883 and the outer circumferential surface of the first annular rib 8812g1.

As shown in FIG. 13 , the protruding height of the first annular rib 8812g1 may be lower than the protruding height of the second annular rib 8812g2 .

In addition, illustratively, the second annular rib 8812g2 extends in a ring shape along the circumference of the first annular rib 8812g1 radially outside the first annular rib 8812g1, and may protrude upward. .

Similar to the first annular rib 8812g1, the second annular rib 8812g2 serves to increase the contact area with respect to the filter member 883 by engaging with the lower outer peripheral surface 8832 of the filter member 883.

Accordingly, the second annular rib 8812g2 may be provided as one continuous cylindrical rib similarly to the first annular rib 8812g1 or may be composed of a plurality of arc-shaped ribs arranged in a divided form. 13 and 14 show an embodiment in which the second annular rib 8812g2 is provided as one continuous cylindrical rib. The present invention is not limited thereto, but will be described based on the illustrated embodiment.

As shown, the second annular rib 8812g2 may be spaced apart from the outer circumferential surface of the first annular rib 8812g1 at a predetermined interval. This separation distance may be maintained substantially constant while progressing along the circumferential direction, and it can be seen that an annular groove formed concave downward is provided between the first annular rib 8812g1 and the second annular rib 8812g2. there is.

This separation distance may correspond to the thickness of the lower surface 8836 of the filter member 883 in the radial direction. That is, the lower end of the filter member 883 is fitted into the annular groove formed between the first annular rib 8812g1 and the second annular rib 8812g2, so that the first annular rib 8812g1 and the second annular rib 8812g1 (8812g2) and surface contact engagement.

Meanwhile, although not shown, separate frames or reinforcing means may be provided at the upper and lower ends of the filter member 883 to maintain the shape and strength of the filter member 883 .

Therefore, when a frame or reinforcing means is provided at the lower end of the filter member 883, the separation distance between the first annular rib 8812g1 and the second annular rib 8812g2 can be adjusted to correspond to the radial thickness of the frame or reinforcing means. there is.

Meanwhile, as another airtight means, a protruding surface 8811j protruding toward the filter accommodating space S1 may be provided in the coupling opening 8811c of the first housing 8811.

As shown, the height of the protruding surface 8811j is maintained constant corresponding to the shape of the upper outer circumferential surface 8832 of the filter member 883, and continuously along the circumferential direction of the upper outer circumferential surface 8832 of the filter member 883. It may have a cylindrical surface shape formed by.

Further, in a state in which the filter member 883 is disposed in the filter accommodating space S1, the protruding surface 8811j may be formed at a lower position than the upper intake port 8826 based on the vertical direction. An upper end of the protruding surface 8811j may be formed at substantially the same position as an upper surface of the filter member 883.

At this time, the inner diameter of the protruding surface 8811j may be smaller than or equal to the outer diameter of the outer circumferential surface 8832 of the upper end of the filter member 883.

Therefore, in a state where the filter member 883 is disposed in the filter receiving space S1, the inner circumferential surface of the protruding surface 8811j directly presses the upper outer circumferential surface 8832 of the filter member 883 throughout the circumferential direction as a whole. It is configured for surface contact engagement. Through this, an airtight structure between the top of the filter member 883 and the first housing 8811 can be achieved.

Similar to the above-described first annular rib 8812g1 and second annular rib 8812g2, when a frame or reinforcing means is provided at the top of the filter member 883, the inner diameter of the protruding surface 8811j is the frame or reinforcing means. It can be adjusted to correspond to the outer diameter of.

[Detailed structure of filter guide rib]

Meanwhile, as described above, the filter member 883 of the dishwasher 1 according to an embodiment of the present invention may be disposed in the filter receiving space S1 of the filter housing 881 to be replaceable.

In order to guide the movement and position of the filter member 883 introduced for replacement, as shown in FIGS. 13 and 14, a plurality of filter guide ribs are provided on the bottom surface 8812e of the second housing 8812. 8812f) may be provided.

13 and 14 illustratively shows an embodiment including a plurality of filter guide ribs 8812f provided in total of six. The number of the plurality of filter guide ribs 8812f may be differently adjusted according to the shape and size of the filter member 883. Hereinafter, a description will be made based on an embodiment in which a total of six filter guide ribs 8812f are provided as shown.

The plurality of filter guide ribs 8812f serve to guide the movement and position of the filter member 883 when the filter member 883 is retracted, and directly contact the outer circumferential surface 8832 of the filter member 883 so that the filter member 883 ( After 883) is disposed, it may also serve to prevent the lower end of the filter member 883 from being separated from its original position.

To this end, as shown, each of the filter guide ribs 8812f may be provided as a plate-shaped rib having a constant thickness while advancing in a direction parallel to the inlet direction of the filter member 883 and the longitudinal direction of the filter member 883. can For example, the individual filter guide ribs 8812f may have the same thickness as each other.

In addition, in order to minimize the flow resistance to the dry airflow passing through the outer circumferential surface 8832 of the filter member 883, the filter guide ribs 8812f may be arranged to maintain a constant thickness while running in a direction parallel to the radial direction. there is.

In particular, as shown, the plurality of filter guide ribs 8812f are formed around the lower intake port 8812c in a state where the lower end is integrally connected to the bottom surface 8812e of the second housing 8812. It may be arranged in a form extending radially from the center (C). More specifically, the plurality of filter guide ribs 8812f may be arranged radially around the second annular rib 8812g2 described above.

At this time, the plurality of filter guide ribs 8812f are formed of the lower intake port 8812c and the second annular rib 8812g2 so that the filter member 883 can be evenly guided and supported by the plurality of filter guide ribs 8812f. may be arranged at equal intervals around the periphery. As in the embodiment, the six filter guide ribs 8812f may be arranged at intervals of 60 degrees around the lower intake port 8812c and the second annular rib 8812g2, respectively.

As shown in FIG. 14 , the lower end of the filter guide rib 8812f may be integrally formed with the bottom surface 8812e of the second housing 8812 and integrally connected to the second annular rib 8812g2.

More specifically, the radial inner side of the lower end of each filter guide rib 8812f may be integrally connected to the second annular rib 8812g2.

At this time, the filter guide rib 8812f has a plurality of filter guide ribs (from the center C of the lower inlet 8812c) so that the inner end surface in the radial direction is flush with the inner circumferential surface of the second annular rib 8812g2. The radial distance to the inner end surface of the lower end of 8812f) may be formed equal to the radius of the inner surface of the second annular rib 8812g2.

Through this, based on the state in which the filter member 883 is disposed in the filter accommodating space S1, the outer circumferential surface 8832 of the lower end of the filter member 883 is connected to the inner end surface in the radial direction of the filter guide rib 8812f and the second annular shape. It can be supported while being in contact with the inner circumferential surface of the rib 8812g2 at the same time.

In order to form such a simultaneous contact state, a vertical surface corresponding to the shape of the outer circumferential surface 8832 of the filter member 883 may be provided on a part of the inner end surface in the radial direction of the filter guide rib 8812f.

The vertical plane may extend from the lower end of the filter guide rib 8812f along a direction parallel to the inlet direction of the filter member 883, preferably along a direction parallel to the vertical direction, with a predetermined height.

Meanwhile, an inclined surface may be formed on the upper side of the vertical surface as the inner end surface of the filter guide rib 8812f to gradually narrow the distance to the filter member 883 while proceeding downward toward the lower intake port 8812c.

In other words, the space formed by the inclined surfaces of the plurality of filter guide ribs 8812f may be a space that gradually expands while moving in the opposite direction to the intake direction, that is, moving upward.

Accordingly, when the filter member 883 is drawn in, the size of the space into which the lower end of the filter member 883 can enter can be gradually reduced as the filter member 883 moves.

Through this, as the filter member 883 is pulled downward, the position of the lower end of the filter member 883 can be effectively guided into a space formed between vertical surfaces of the inner end surface of the filter guide rib 8812f.

However, the vertical heights of the inclined surfaces of the plurality of filter guide ribs 8812f may be formed to be different from each other. That is, the height and the total height of the inclined surface may be formed differently based on a direction parallel to the inlet direction.

That is, as shown in FIGS. 13 to 15, the plurality of filter guide ribs 8812f include a first guide rib 8812f1 having a relatively higher inclined surface height with respect to a direction parallel to the inlet direction, and It can be distinguished by the second guide rib 8812f2 having a relatively lower height.

In the first guide rib 8812f1, the height h2 and the total height of the inclined surface may be higher than the height h1 and the total height of the inclined surface of the second guide rib 8812f2.

In addition, as shown, the outer end surface of the first guide rib 8812f1 in the radial direction may be integrally connected to the inner surface of the second housing 8812.

Accordingly, the lower end and the outer end surface in the radial direction of the first guide rib 8812f1 may be integrally connected to the bottom surface 8812e and the outer circumferential surface of the second housing 8812, respectively.

Through this, the first guide rib 8812f1 may also serve to reinforce the strength of the second housing 8812.

Meanwhile, as shown, the second guide rib 8812f2 may be configured in a state in which an outer end surface in the radial direction is separated from an inner surface of the second housing 8812 .

Also, based on the position relative to the fan housing 82, the second guide rib 8812f2 may be disposed closer to the fan housing 82 in the horizontal direction than the first guide rib 8812f1.

Accordingly, the second guide rib 8812f2 can serve as a vane for guiding the filtered air passing through the outer circumferential surface 8832 of the filter member 883 to effectively flow to the opened lower surface 824 of the fan housing 82. there will be

However, as shown in FIG. 13, the top and bottom positions of the second guide ribs 8812f2 are positioned on the lower surface of the fan housing 82 so as to effectively guide the flow of the filtered air and minimize the flow resistance to the filtered air. The location may be constrained to be between 824 and top surface 821 .

[Detailed Structure of Cooling Means of Blowing Fan and Blowing Motor and Means for Preventing Inflow of Washing Water]

Hereinafter, detailed structures of the cooling means such as the blowing fan 83 and the blowing motor accommodated in the filter housing 881 and the means for preventing the inflow of washing water will be described with reference to FIGS. 16 to 19 .

As described above, the blower fan 83 of the dishwasher according to an embodiment of the present invention is accommodated in the fan housing receiving space S2 formed inside the filter housing 881 while being accommodated in the fan housing 82. do.

In addition, at least the upper surface 821 of the fan housing 82 is provided on the upper surface of the filter housing 881, more specifically, the upper surface of the first housing 8811 to cool the motor constituting the blowing fan 83 and the PCB board. A ventilation hole 8811f for partially exposing to the outside may be provided.

Meanwhile, a hollow ventilation duct 8811g may be integrally formed on the upper surface of the first housing 8811 to extend toward the inside of the fan housing accommodating space S2, that is, toward the upper surface of the fan housing 82.

As shown in FIG. 13, the open top of the ventilation duct 8811g is integrally connected to the top surface of the first housing 8811, and the open bottom of the ventilation duct 8811g is the top surface of the fan housing 82 ( 821) may extend downward to directly contact.

At this time, the open upper end of the ventilation duct 8811g functions as a ventilation hole 8811f.

Therefore, the upper surface 821 of the fan housing 82 is at least partially exposed to external air through the ventilation duct 8811g having such a ventilation hole 8811f, so that cooling can be achieved, but the unfiltered external air is vented. A structure capable of preventing introduction into the inner space of the filter housing 881 through the duct 8811g can be achieved.

However, as described above, the filter member 883 accommodated interchangeably inside the filter housing 881 is in the washing space through the filter replacement hole 253 penetrating the lower surface 25 of the tub 20. It can be drawn in or taken out through the exposed tub connection duct 882 .

Therefore, when the filter member 883 is replaced, the washing water remaining on the lower surface 25 of the tub 20 leaks into the filter housing 881 through the tub connection duct 882, or the tub connection duct 882 and the filter There is a possibility that washing water leaks through gaps formed between the replacement holes 253.

At least a portion of the leaked washing water is moved by gravity along the upper surface of the filter housing 881, more specifically, the upper surface of the first housing 8811 along the inclined surface 8811b1, through the ventilation hole 8811f and the ventilation duct. (8811g).

In this way, the washing water flowing into the ventilation hole 8811f and the ventilation duct 8811g may damage electrical components such as a PCB board and a motor accommodated inside the fan housing 82 .

Therefore, as a means for preventing damage to electrical components by washing water, one end of the upper surface of the fan housing accommodating part 8811b as the upper surface of the first housing 8811 is connected to the lower end of the ventilation duct 8811g, and the other end A drainage channel 8811h extending to the front of the first housing 8811 may be provided.

At this time, as shown in FIGS. 16 and 17 , the drainage channel 8811h extends linearly to the front surface of the first housing 8811 and may have a slit shape concave downward.

Through this, washing water flowing into the ventilation hole 8811f and the ventilation duct 8811g may be moved through the drain channel 8811h and discharged toward the base 90.

The drain channel 8811h is configured to extend toward the front of the first housing 8811 so that washing water is discharged in the shortest distance to a leak detection unit (not shown) disposed on the front side as the lower part of the filter housing 881. have a purpose

Therefore, when the water leakage detection unit is disposed on the rear side of the filter housing 881, the extension direction of the drain channel 8811h may be changed to proceed toward the rear side of the first housing 8811.

Meanwhile, the filter housing 881 of the dishwasher according to the embodiment of the present invention includes a blocking rib ( 8811i) may be further included.

18 and 19, the blocking rib 8811i is disposed between the tub connection duct 882 forming the upper end of the first housing 8811 and the ventilation hole 8811f in the horizontal direction, It may be integrally formed on the upper surface of the first housing 8811 in the form of a barrier protruding upward from the upper surface of the first housing 8811 .

Therefore, since it protrudes from the upper surface of the first housing 8811, the vertical position of the upper end of the blocking rib 8811i is longer than the vertical position of the upper surface of the first housing 8811 and the vertical position of the ventilation hole 8811f. It can be a high position.

At this time, the blocking ribs 8811i may extend in a direction crossing the flow direction of the washing water so as to prevent the washing water moving from the tub connection duct 882 from entering the ventilation hole 8811f.

Looking at this based on the flow direction of the dry wind airflow, since the tub connection duct 882 is disposed more upstream than the ventilation hole 8811f, the blocking rib 8811i vents more downstream than the tub connection duct 882. It may be arranged further upstream than the hole 8811f.

In addition, based on the flow direction of the drying wind airflow, the blocking rib 8811i has a length L1 in a direction crossing the flow direction of the drying wind airflow, a thickness and an upper and lower portion in a direction parallel to the flow direction of the drying wind airflow. It may have a shape that becomes larger than the directional height.

At this time, the length L1 of the blocking rib 8811i may be formed larger than the diameter L2 of the ventilation hole 8811f so as to completely cover the ventilation hole 8811f on the upstream side of the ventilation hole 8811f. .

Meanwhile, when the filter housing 881 is disposed on the base 90 as a reference, the blocking rib 8811i is disposed on the left side of the tub connection duct 882 and on the right side of the ventilation hole 8811f, and the first housing (8811) may have a shape extending linearly from the front to the rear.

More specifically, the blocking rib 8811i may extend linearly and continuously from the front edge of the upper surface of the first housing 8811 to the rear edge.

In addition, the height of the upper surface of the blocking rib 8811i from the upper surface of the first housing 8811 may be maintained substantially constant.

Therefore, as in the illustrated embodiment, when the blocking rib 8811i is disposed on the upper surface of the fan housing accommodating portion 8811b of the first housing 8811, which is a flat surface parallel to the horizontal direction, the upper end of the blocking rib 8811i The vertical position of may be maintained constant while progressing along the longitudinal direction of the blocking rib (8811i).

In contrast, when the blocking rib 8811i is disposed on the upper surface of the filter accommodating portion 8811a of the first housing 8811, which is a curved surface whose height in the vertical direction changes depending on the position, the upper surface of the first housing 8811 The vertical position of the upper end of the blocking rib 8811i may be changed corresponding to the shape of the upper surface of the filter accommodating part 8811a so that the height may be maintained constant.

As described above, the present invention has been described with reference to the drawings illustrated, but the present invention is not limited by the embodiments and drawings disclosed herein, and various modifications are made by those skilled in the art within the scope of the technical idea of the present invention. It is obvious that variations can be made. In addition, although the operational effects according to the configuration of the present invention have not been explicitly described and described while describing the embodiments of the present invention, it is natural that the effects predictable by the corresponding configuration should also be recognized.

1: Dishwasher 10: Case
20: tub 30: door
40: drive unit 50: storage unit
60: blowing unit 80: drying air supply unit
90: base

Claims (15)

a tub having an open front washing space in which objects to be washed are accommodated;
a drying air supply unit disposed at a lower side of the tub, generating a dry air flow for drying the object to be washed and supplying it to the inside of the tub; and
a base disposed below the drying air supply unit and supporting the drying air supply unit;
including,
The drying air supply unit,
a fan housing in which a fan-motor assembly for generating the dry wind airflow is accommodated; and
a filtering unit accommodating the fan housing and a filter member filtering air to be sucked into the fan housing therein;
Including,
The filtering unit,
It includes a hollow filter housing having a filter accommodating space in which the filter member is disposed to be replaceable, and a lower intake port formed at a lower side of the filter accommodating space,
A dishwasher comprising: a plurality of filter guide ribs provided around the lower intake port to guide movement of the filter member when the filter member is drawn into the filter accommodating space.
In paragraph 1,
The lower intake port is a circular opening formed by penetrating the bottom surface of the filter housing in the vertical direction,
The plurality of filter guide ribs are radially arranged around the lower intake port.
In paragraph 2,
The plurality of filter guide ribs are arranged at equal intervals around the lower intake port.
In paragraph 2,
The plurality of filter guide ribs protrude from the bottom surface of the filter housing and extend upward along a direction parallel to the inlet direction of the filter member;
Lower ends of the plurality of filter guide ribs are integrally formed with the bottom surface of the filter housing.
In paragraph 4,
On the bottom surface of the filter housing, a first annular rib extending along the circumference of the lower inlet and protruding upward, and extending along the circumference of the first annular rib radially outside the first annular rib, A second annular rib protruding upward is integrally provided,
Lower ends of the plurality of filter guide ribs are connected to the second annular rib.
In paragraph 5,
Lower ends of the plurality of filter guide ribs are integrally formed with the second annular rib.
In paragraph 5,
A radial distance from the center of the lower inlet to the lower end of the plurality of filter guide ribs is the same as the radius of the inner surface of the second annular rib.
In paragraph 4,
The plurality of filter guide ribs,
A dishwasher in which the thickness of the lower intake port is maintained constant while moving in a direction away from the center of the lower intake port.
In paragraph 4,
On the inner end surfaces in the radial direction of the plurality of filter guide ribs,
A dishwasher having an inclined surface that gradually narrows a distance to the filter member while proceeding downward from an upper end toward the lower intake port.
In paragraph 9,
On the inner end surfaces in the radial direction of the plurality of filter guide ribs,
and a vertical surface formed below the inclined surface and at least partially in contact with an outer circumferential surface of the filter member when the filter member is retracted.
In paragraph 10,
The plurality of filter guide ribs,
a first guide rib having an outer end surface in a radial direction connected to an inner surface of the filter housing; and
a second guide rib whose outer end surface in the radial direction is separated from the inner surface of the filter housing;
Dishwasher containing a.
In paragraph 11,
The dishwasher of claim 1, wherein an overall height of the first guide ribs is higher than an overall height of the second guide ribs based on a direction parallel to the inlet direction of the filter member.
In paragraph 11,
The dishwasher of claim 1 , wherein a height of an inclined surface of the first guide rib is higher than a height of an inclined surface of the second guide rib based on a direction parallel to the inlet direction of the filter member.
In paragraph 11,
The fan housing is fixed to the fan housing receiving space in a state of being separated from the bottom surface of the filter housing,
The inlet of the fan housing is provided on the lower surface of the fan housing and is open toward the bottom surface of the filter housing,
A dishwasher in which the inlet of the fan housing is formed at a position lower than the upper end of the second guide rib in the vertical direction.
In paragraph 14,
An upper end of the second guide rib is formed at a position lower than the upper surface of the fan housing and higher than the lower surface of the fan housing in the vertical direction.

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