KR100772228B1 - Sump for dish washer - Google Patents

Abstract

A sump for a dish washer is provided to prevent leakage of washing water pumped via a washing pump into a periphery of a vario valve by improving a mounting position of a vario valve determining a flow direction of washing water. A sump for a dish washer comprises a sump case(11), a pump housing(12), an impeller(18), and a vario valve(19). The pump housing, which is mounted inside the sump case, consists of a pump case for pumping washing water, a mount portion for the vario valve formed on an outlet of the pump case, and a guide passage for guiding washing water discharged from the pump case to a lower nozzle or a water guide. The impeller is installed in the pump case to pump the washing water. The vario valve is placed at the mount for the vario valve to determine a flow direction of the pumped washing water.

Description

Sump for dish washer}

1 is a side cross-sectional view schematically showing a dishwasher equipped with a sump according to the spirit of the present invention.

Figure 2 is an external perspective view showing the sump of the dishwasher according to the spirit of the present invention.

3 is an exploded perspective view of the sump;

4 is a cross-sectional view taken along the line II ′ of FIG. 2.

5 is an exploded perspective view showing the filtering assembly of the sump according to the spirit of the present invention.

Figure 6 is an exploded perspective view showing a midnight filter assembly according to the spirit of the present invention.

Figure 7 is a bottom view of the sump cover according to the spirit of the present invention.

8 is a plan view of a flow guide according to the spirit of the present invention.

9 is a bottom view of the flow guide.

10 is an external perspective view of a pump housing according to the spirit of the present invention.

11 is an enlarged view of a portion A of FIG. 4.

12 is a perspective view showing a sump case according to the spirit of the present invention.

<Description of the symbols for the main parts of the drawings>

10: sump 11: sump case

12 pump housing 13 washing motor

14 heater 15 drain motor

16: disposer 17: screen filter

18 impeller 19 Vario valve

20: filtering assembly

The present invention relates to a dishwasher, and more particularly, to a sump structure in which washing water is stored and pumping the stored washing water at high pressure.

In general, the dishwasher is a home appliance that sprays the washing water pumped from the washing pump to the upper rack and the lower rack through the spray nozzle, so that the dishes stored in the dish rack are washed and dried. In addition, the dishwasher includes a tub that forms an appearance, a dish rack for receiving dishes in the tub, a spray nozzle for spraying the washing water onto the surface of the dish, and a sump mounted on the bottom of the tub to store the washing water.

Meanwhile, in the case of the conventional dishwasher, in order to collect food waste generated in the dish washing process, a separate foreign matter collecting filter is installed inside the sump, or finely crushed dirt collected into the sump is drained together with the washing water in the draining process. It is structured to make it possible.

In addition, a sump mounted in a conventional dishwasher includes a sump case in which washing water is stored, a sump cover covering the sump case, and a plurality of parts, such as a filter and a washing pump for filtering foreign substances, are assembled by a fastening member such as a screw. Form a structure.

The conventional dishwasher sump as described above has the following problems.

In detail, the assembly process for assembling each component constituting the sump has a complicated disadvantage. In other words, each part constituting the sump is manufactured by a separate process and then joined by a fastening member such as a screw.

As a result, the number of fastening members for assembly is increased to increase the manufacturing cost, and since each single piece is joined by the fastening members, there is a disadvantage in that leakage of the wash water through the coupling site occurs.

In addition, in the case of the conventional dishwasher sump, there is a disadvantage in that the flow resistance is greatly generated when the washing water pumped from the washing pump is divided into the lower nozzle and the water guide to which the upper nozzle is connected.

In addition, in the case of a conventional dishwasher sump, a washing pump and a dirt collecting space were provided in one part. As a result, the dirt flows into the washing pump through the boundary between the dirt collecting space and the washing pump, causing a problem that the dirt is sprayed into the tableware through the spray nozzle.

In addition, in the case of a conventional dishwasher sump, a vario valve is installed in the sump case to allow the washing water pumped from the washing pump to flow into the lower nozzle and the water guide. As a result, in the process of dividing the pumped wash water by the variuo valve, water leaks around the variuo valve, and the water pressure of the wash water is lowered.

In addition, in the case of the conventional dishwasher sump, a problem that often leaks while the washing water is pumped by the washing pump provided inside the sump.

The present invention has been proposed to solve the above problems, by improving the assembly structure of the dishwasher sump, to simplify the assembly process, and to provide a sump of the dishwasher to prevent the washing water leakage during the washing water pumping process. It aims to do it.

In addition, an object of the present invention is to provide a sump of a dishwasher that minimizes a decrease in pumping pressure in the washing water pumping process by improving the flow path of the washing water pumped by the washing pump.

In addition, an object of the present invention is to provide a sump of a dish washing machine which can prevent a phenomenon in which dirt collected in a waste collecting part inside the sump flows into the washing pump.

It is also an object of the present invention to provide a sump of a dishwasher capable of preventing the washing water pumped by the washing pump from leaking around the variioval valve.

In addition, by improving the sealing structure of the washing pump, an object of the present invention is to provide a sump of the dishwasher that prevents the leakage of part of the washing water during the washing water pumping process.

In addition, by improving the structure of the washing pump, the filtering function to filter the foreign matter contained in the wash water, and the flow guide function for the pumped wash water is divided into a water guide or a lower nozzle to be made in one part, It is an object to provide a sump of the dishwasher which minimizes flow loss and wash water leakage.

The sump of the dishwasher according to the present invention for achieving the object as described above sump case; The pump case seated inside the sump case, the pump case for pumping the wash water in the inner side, the variuo valve seating portion formed on the outlet side of the pump case and the wash water discharged from the pump case flows into the lower nozzle or water guide A pump housing provided with a guide flow path; An impeller seated inside the pump case to pump the washing water; and a vario valve mounted on the variuo valve seat to determine the flow direction of the pumped wash water.

By the above configuration, not only the assembling process of the sump is simplified but also the effect of reducing the flow path resistance and the leakage of the washing water in the sump is eliminated.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the spirit of the present invention is not limited to the embodiments presented, and other embodiments included within the scope of other inventive inventions or the scope of the present invention can be easily made by adding, changing, or deleting other components. I would be able to suggest.

1 is a side cross-sectional view schematically showing a dish washer provided with a sump according to the spirit of the present invention.

Referring to FIG. 1, a cabinet 2 forming an appearance of a dishwasher 1 according to the present invention, a door 4 rotatably coupled to a front surface of the cabinet 2, and the cabinet 2 A tub 3 provided therein to accommodate dishes, a dish rack accommodated in and out of the tub 3, and a sump 10 mounted to a bottom surface of the tub 3 to pump washing water. A lower nozzle 6 mounted on an upper surface of the sump 10 to spray washing water, and a water guide 5 connected to the sump 10 to guide the washing water to the upper side of the tub 3; It includes an upper nozzle 7 extending from the water guide 5 toward the center of the tub 3 to rotate and a top nozzle 8 connected to an upper end of the water guide 5 to spray washing water.

In detail, the dish rack comprises an upper rack 9b positioned above the upper nozzle 7 and a lower rack 9a positioned above the lower nozzle 6.

The operation of the dishwasher 1 having the above configuration will be briefly described. A user opens the door 4 and draws out the dish racks 9a and 9b to store dishes. Then, the dish rack is led back into the tub 3, the door is closed, and the washing condition is input. When the operation button is pressed, the washing water is supplied into the sump 10, and when the washing water reaches the set level, the washing pump (to be described later) mounted inside the sump 10 is operated. In addition, the washing water pumped by the washing pump is alternately supplied to the lower nozzle 9a and the water guide 5 by a vario valve (to be described later) mounted inside the sump 10. In detail, the washing water supplied to the water guide 5 is sprayed into the tub through the upper nozzle 9b and the top nozzle 8, respectively.

In addition, the washing water sprayed through the nozzle is dropped to the surface of the tableware stored in the table rack, dirt from the tableware falls to the bottom of the tub.

In addition, the washing process of the dishwasher is a preliminary washing so that foreign matters on the tableware can be easily separated, the main washing in which the washing water containing detergent is sprayed, and the rinsing for washing the detergent in the dish after the main washing is finished. Process and a drying process for drying the dishes, the above process is performed sequentially. In addition, the preliminary washing and drying process may be omitted according to the user's selection.

2 is an external perspective view illustrating a sump of a dish washing machine according to the spirit of the present invention, FIG. 3 is an exploded perspective view of the sump, and FIG. 4 is a cross-sectional view taken along line II ′ of FIG. 2.

2 to 3, the sump 10 according to the present invention includes a sump case 11 in which washing water is stored, a washing pump assembly seated inside the sump case 11, and pumping the washing water; A filtering assembly 20 coupled to the upper side of the washing pump assembly, a heater 14 provided inside the sump case 11 to heat the washing water, a washing motor 13 driving the washing pump assembly, and the sump. Drainage motor 15 for draining the wash water stored in the case 11 is included.

In detail, the washing pump assembly includes a pump housing 12 provided with a pump case 121 (see FIG. 10) inside, and an impeller 18 provided on the pump case to rotate and pump the washing water. Here, the washing pump for pumping the washing water refers to a combination of the pump case and the impeller.

More specifically, the nozzle neck 21 for mounting the lower nozzle is coupled to the center of the upper side of the filtering assembly 20. The water guide 5 is coupled to one edge of the filtering assembly 20.

In addition, the bottom surface of the pump housing 12 is coupled to the screen filter 17, the foreign matter is first filtered in the process of washing water is sucked by the washing pump. In addition, the disposer 16 is mounted to the lower side of the screen filter 17 so that the foreign matter contained in the suction water is crushed finely. Here, the disposer 16 is connected to the motor shaft. Thus, the impeller 18 and the disposer 16 rotate with the rotation of the motor shaft.

The sump 10 having the above configuration includes a sump case 11, a washing pump assembly, and a filtering assembly 20, as shown. In addition, the filtering assembly 20 is integrally coupled to each other by heat fusion with a midnight filter, a sump cover, and a soil chamber. This will be described in more detail with reference to the accompanying drawings.

5 is an exploded perspective view showing the filtering assembly of the sump according to the spirit of the present invention.

Referring to FIG. 5, the filtering assembly 20 according to the present invention includes a flow guide 21 provided with a flow path for allowing the washing water pumped by the washing pump to be divided into a lower nozzle and a water guide, and the flow guide. The sump cover 22 is heat-sealed and coupled to the upper portion of the upper portion 21, and the self-cleaning filter 23 is heat-sealed and coupled to the upper surface of the sump cover 22.

In detail, a soil chamber 211 having a predetermined length is formed on the outside of the flow guide 21 to collect the dirt generated during the washing process. In addition, one end of the small chamber 211 is connected to the drain pump, and discharged to the outside together with the washing water in the drainage process. In addition, the soil chamber 211 is formed to be inclined downward toward the end connected to the drain pump, so that the foreign matter is completely discharged during the drainage process.

In addition, a pump case cover 213 is provided inside the soil chamber 211, and the pump case cover 213 is provided at an upper portion of the pump case 121 (see FIG. 10) formed in the pump housing 12. Cover and seal. And, the end of the pump case cover 213 is formed with a variuo valve cover 214, the water guide guide 215 and the lower nozzle guide 216 extend from the variuo valve cover 214, respectively Is formed. In detail, the lower nozzle guide 216 is formed along the upper surface of the pump case cover 213.

In addition, a sampling flow path 212 is formed at one edge of the pump case cover 213, and an end thereof is connected to the drain pump. In detail, the sampling flow path 212 is in communication with the pump case 121 to be described later, a portion of the pumped wash water flows branched. In addition, the washing water flowing along the sampling flow path 212 is collected toward the drain pump. In the state where the drain pump is not operated, the drain pump flows back toward the soil chamber 211.

On the other hand, the sump cover 22, which is heat-sealed to the upper surface of the flow guide 21, the plurality of dripping holes 221 are arranged at regular intervals on the outer edge portion, it is in communication with the sump case (11). That is, the washing water sprayed through the spray nozzle is collected into the sump case 11 through the water drain hole 221 together with the dirt.

In addition, a separator 222 is formed inside the dripping hole 221, and a part of the separator 222 is opened to form a backflow hole 225. In addition, a lower nozzle connection part 224 is formed at the center of the sump cover 22, and the lower nozzle connection part 224 communicates with the lower nozzle guide part 216 of the flow guide 21. Therefore, the washing water flowing to the lower nozzle guide portion 216 is guided to the lower nozzle through the lower nozzle connecting portion 224.

In addition, a water guide connection portion 223 is formed at one edge of the sump cover 22, and the water guide connection portion 223 communicates with the water guide guide portion 215 of the flow guide 21. Therefore, the washing water flowing to the water guide guide portion 215 is guided to the water guide through the water guide connecting portion 223.

In addition, the self-cleaning filter 23 is integrally coupled to the upper surface of the sump cover 22 by thermal fusion.

In detail, the inside of the midnight filter 23 is surrounded by a network for filtering foreign matter contained in the wash water. The configuration of the midnight filter 23 will be described in detail with reference to the accompanying drawings.

By the above configuration, the washing water pumped by the washing pump is alternately supplied to the water guide guide portion 215 and the lower nozzle guide portion 216 formed in the flow guide 21 according to the position of the vario valve. . A portion of the washing water pumped by the washing pump is branched along the sampling flow passage 212 and falls toward the drain pump. In addition, when the drain pump does not operate, the dropped washing water flows back to the soil chamber 211.

In more detail, when the washing water is completely filled in the soil chamber 211, the washing water flows back through the backflow hole 225 of the sump cover 22. Then, the backwashing water is collected into the sump case 11 through the water draining hole 221. At this time, the washing water flowing back through the backflow hole 225 is distributed on the upper surface of the separation membrane 222. Then, the foreign matter is filtered through the network surrounded by the midnight filter 23, and only the washing water is collected into the sump case 11 through the water draining hole 221. Here, the separation membrane 222 is formed to be slightly inclined toward the backflow hole 225, so that the filtered foreign matter is collected in the soil chamber 211.

As the above process is repeatedly performed in the washing process, foreign matter is collected in the soil chamber 211, and the collected foreign matter is discharged to the outside in the drainage process.

6 is an exploded perspective view showing a self-cleaning filter assembly according to the spirit of the present invention.

Referring to FIG. 6, the self-cleaning filter 23 according to the present invention includes a mesh 232 having fine holes formed therein, a lower cover 233 provided below the mesh 232, and an upper side of the mesh 232. The upper cover 231 is provided.

In detail, the lower cover 233 is coupled to the upper cover 231 by heat fusion, and the mesh 232 is fixed between the upper cover 231 and the lower cover 233 by the heat fusion process. .

In addition, a plurality of through holes 231b are formed in the upper cover 231, and a nozzle neck seating portion 231a is formed in a central portion thereof. In addition, a through hole is formed inside the nozzle neck seating portion 231 a to allow the washing water to flow into the lower nozzle.

In addition, a through hole 233c having the same shape as the through hole 231b is formed inside the lower cover 233, and a plurality of mesh fixing ribs 233a and a fusion portion are formed at the inner edge portion and the outer edge portion thereof. 233b) is formed to protrude.

In addition, a hole for penetrating the mesh fixing rib 233a is formed in the inner and outer edges of the mesh 232.

In detail, the mesh fixing rib 233a formed on the upper surface of the lower cover 233 penetrates through the mesh 232 to be in close contact with the bottom surface of the upper cover 231. In this state, the upper cover 231 and the lower cover 233 are strongly adhered to each other to be fusion-bonded by applying heat. In this thermal fusion process, the mesh 232 is stretched out taut.

7 is a bottom view of a sump cover according to the spirit of the present invention.

Referring to FIG. 7, a bottom surface of the sump cover 22 is provided with a fusion rib 26 to be coupled to the flow guide 21 by heat fusion. That is, a fusion rib 226 having the same shape as the top surface of the flow guide 21 is formed, so that the inner space of the flow guide 21 is completely sealed. Therefore, the upper surface of the lower nozzle guide 216 and the water guide guide 215 and the sampling flow path 212 formed in the flow guide 21 are completely sealed. In addition, the washing water present in the respective spaces does not leak. In addition, the counter flow hole 225 is located at an upper side of the soil chamber 211, and the washing water supplied to the soil chamber 211 flows backward through the counter flow hole 225, and the lower nozzle guide portion. 216 or the water guide guide 215 is prevented from leaking.

In addition, an end portion of the lower nozzle guide portion 216 communicates with a lower nozzle connection portion 224 of the sump cover 22, and an end portion of the water guide guide portion 215 is connected to the water guide connection portion 223. Communicating.

Meanwhile, at least a portion of the inner circumferential surface of the lower nozzle connecting portion 224 formed at the center of the sump cover 22 forms the same surface as the inner circumferential surface of the end of the lower nozzle guide 216 of the flow guide 21. . That is, a portion of the lower nozzle connecting portion 224 is formed to be the same as the curvature of the end of the lower nozzle guide 216. In addition, the inner diameter of the lower nozzle connecting portion 224 of the same portion as the curvature of the end of the lower nozzle guide 216 is completely in contact with the inner peripheral surface of the end of the lower nozzle guide 216.

As described above, the lower nozzle connection part 224 is formed to be in close contact with the end of the lower nozzle guide part 216, thereby preventing a drop in pressure of the washing water pumped into the lower nozzle guide part 216.

If the lower nozzle connection part 224 is positioned to be spaced apart from an end of the lower nozzle guide part 216, all of the washing water pumped to the lower nozzle guide part 216 may not rise toward the lower nozzle part.

In detail, the washing water pumped to the lower nozzle guide part 216 flows into a space formed between the outer circumferential surface of the lower nozzle connecting part 224 and the inner circumferential surface of the end portion of the lower nozzle guide part 216 to form a rotational flow. Then, the rotating washing water flows back to the vario valve, and the washing water flowing back by the rotational flow collides with the washing water supplied to the nozzle guide 216 to form turbulent flow. As a result, a flow resistance is generated near the lower nozzle connection portion 224, and the pressure of the washing water is drastically reduced by the flow resistance.

In order to prevent such a phenomenon, the lower nozzle connection part 224 may be in close contact with an end portion of the lower nozzle guide part 216.

 8 is a plan view of a flow guide according to the spirit of the present invention, Figure 9 is a bottom view of the flow guide.

8 and 9, the soil chamber 211 is surrounded by a predetermined length at the edge of the flow guide 21, and a pump case cover 213 is formed in the inside thereof. In detail, a volute rib 213a is formed at a bottom of the pump case cover 213 to cover an inner edge portion of the pump case 121 formed at the pump housing 12. A sealer pressurizing rib 213b formed along the shape of the pump housing 12 is formed outside the volute rib 213a.

In more detail, the sealer pressurizing rib 213b is configured to pressurize the sealer 30 (see FIG. 10) surrounding the outer circumferential surface of the pump housing 12 in a lateral direction. In the related art, the sealing member enclosed in the pump housing has a general structure in which the sealing member is pressed downward by a member seated on the upper side of the pump housing.

Here, when the coupling force between the pump housing and the member seated on the upper side of the pump housing is weak, a phenomenon that the sealing water is not completely maintained by the sealing member and the washing water leaks.

In order to solve this problem, in the present invention, the sealer 30 is subjected to a horizontal pressing force instead of a vertical pressing force, thereby preventing the leakage of washing water.

On the other hand, the bottom surface of the flow guide 21 is performed to the washing water is pumped by the washing pump is supplied to each nozzle.

In detail, the washing water pumped by the washing pump is discharged while rotating in a whirlpool inside the washing pump. In addition, the discharge valve portion of the washing pump is positioned so that the pumped washing water is alternately supplied to the lower nozzle or the water guide.

More specifically, the flow guide 21 is formed with a variuo valve cover 214 for supporting the upper surface of the vario valve, the water guide guide 215 and the lower nozzle guide from the vario valve cover 214 Part 216 is extended. The water guide guide 215 is formed to be substantially in line with the flow direction of the washing water discharged from the washing pump. This is to minimize the loss of flow as the wash water discharged from the wash pump passes through the variuos valve.

In addition, the lower nozzle guide 216 is curved in the same direction as the rotational direction of the washing water rotating inside the washing pump to lead to the center of the flow guide 21.

As shown in FIG. 8, inside the washing pump, the washing water is discharged while rotating in the direction of the arrow, and is discharged toward the vario valve. The wash water guided by the water guide extends almost straight from the discharge port of the wash pump. In addition, the washing water guided to the lower nozzle is moved along the lower nozzle guide 216 which is curved in the same direction as the rotation direction of the washing water in the washing pump. By this flow path structure, even if the flow direction of the washing water is switched by the variuo valve, the flow loss according to the shape of the flow path is reduced sharply.

In addition, the inner circumferential surface of the lower nozzle connecting portion 224 formed at the center of the sump cover 22 is formed at a position forming the same plane as the inner circumferential surface of the end of the lower nozzle guide portion 216. The reason is as described above.

Meanwhile, a sampling hole 217 is formed at one edge of the pump case cover 213 that forms the flow guide 21. In detail, the pump case cover 213 covers the pump case 121 formed inside the pump housing 12. Accordingly, a part of the washing water rotating inside the pump case 121 rises through the sampling hole 217 and flows along the sampling flow path 212.

In addition, an end portion of the sampling flow passage 212 is in communication with the drain pump connecting pipe 218.

In detail, the drain pump connecting pipe 218 extends downwardly from the flow guide 21 and is connected to the drain pump case. A membrane is formed inside the drain pump connecting pipe 218 and separated into a drain hole 218a and a backflow hole 218b. An end of the sampling flow passage 212 is connected to the drain hole 218a and an end of the soil chamber 211 is connected to the backflow hole 218b.

By the above structure, the washing water branched along the sampling flow passage 212 is dropped into the drain pump through the drain hole 218a. In the state where the drain pump is not operated, the washing water dropped by the drain pump flows back through the backflow hole 218b and flows to the small chamber 211.

In this case, the soil chamber 211 has an end portion at the side of the counter flow hole 218b lower than the opposite end portion, and the waste and the washing water accumulated in the soil chamber 211 are discharged together during the draining process.

10 is an external perspective view of a pump housing according to the spirit of the present invention.

Referring to FIG. 10, the pump housing 12 according to the present invention is seated inside the sump case 11 and fixed by a fastening member such as a screw.

In detail, a plurality of fixing legs 124 fixed to the sump case 11 extend on one side of the outer circumferential surface of the pump housing 12. In addition, a hole for inserting the fixed boss is formed at the end of the fixed leg 124. In addition, a flow guide fixing boss 125 protrudes upward on an outer circumferential surface of the pump housing 12 and is inserted into the flow guide 21. In addition, the pump housing 12 is firmly fixed to the bottom surface of the flow guide 21 by a fastening member inserted into the flow guide fixing boss 125. In addition, a pump case 121 is formed in a volute shape inside the pump housing 12, and a suction hole 122 for sucking the washing water is formed in the center thereof. In addition, the screen filter 17 (refer to FIG. 3) is coupled to the lower end of the suction hole 122, so that the washing water in which foreign matter is first filtered is introduced into the pump case 121.

In addition, the discharge valve side of the pump case 121 is formed with a variio valve seating portion 127 for mounting the vario valve (see Fig. 3). The water guide guide flow path 128a and the lower nozzle guide flow path 128b extend from the variuo valve seating part 127, respectively. Here, the water guide guide flow path (128a) extends in a substantially straight line from the discharge port of the pump case 121, the lower nozzle guide flow path (128b) is the rotation direction of the washing water rotates inside the pump case 121 Bend in the same direction.

In addition, a sealer seating part 126 is formed on the outer circumferential surface of the pump housing 12 for mounting the sealer 30. A volute rib seating portion 129 is defined at an upper edge portion of the pump case 121, the variio valve seating portion 127, the water guide guide passage 128a and the lower nozzle guide passage 128b. It is formed step by depth, and forms a closed curve shape.

On the other hand, the bottom surface of the pump case 121 and the bottom surface of the discharge port portion of the pump case 121 is formed at the same height, so that the pressure of the washing water discharged from the pump case 121 is kept constant. In the conventional case, the bottom surface of the discharge port portion of the pump case 121 is formed to be inclined to a predetermined height, thereby reducing the pressure of the washing water.

In addition, since the variuo valve 19 is provided inside the pump housing 12 in which the pump case 121 is provided, the phenomenon of washing water leaking around the variuo valve 19 is eliminated. In detail, only the through-hole for penetrating the variuos valve shaft is formed in the bottom surface of the variuo valve seat 127, and the discharge port portion of the pump case 121, the water guide guide flow path 128a and the lower nozzle guide flow path. 188b is integrally formed with the vario valve seat 127. As a result, the phenomenon in which the washing water discharged from the pump case 121 is leaked along the outer circumferential surface of the vario valve 19 in the process of being guided to the water guide guide passage 128a or the lower nozzle guide passage 128b is eliminated. There is this.

11 is an enlarged view of a portion A of FIG. 4.

Referring to FIG. 11, a sealer seating portion 126 is formed on the outer circumferential surface of the pump housing 12 to be stepped. The sealer pressing rib 213b extending to the bottom surface of the flow guide 21 is in close contact with the outer circumferential surface of the pump housing 12. The sealer 30 is interposed in a space formed between the sealer pressurizing rib 213b and the sealer seating portion 126.

In addition, the volute rib seating portion 129 is formed stepwise on the inner circumferential edge portion of the pump case 121. The volute rib 213a protruding from the bottom surface of the flow guide 21 is seated on the volute rib seating portion 129. Here, of course, a separate sealing member may be interposed between the volute rib 21a and the volute rib seating portion 129. The flute rib 213a pressurizes an inner surface of the sealing member seated on the volute rib seating part 129 or presses an upper surface thereof, so that the washing water does not leak to the outside.

As described above, the sealer 30 is surrounded by an outer circumferential edge of the pump housing 12 and pressurized by the sealer pressurizing rib 213b so that the washing water rotating inside the pump case 121 leaks to the outside. This is avoided.

In detail, the washing water inside the pump case 121 is primarily blocked by the sealer pressurized rib 213b. And, the sealer 30 is secondarily blocked leakage. If the sealer 30 is seated on the upper surface of the pump housing 12, the coupling surface of the sealer 30 and the pump housing 12 or the coupling surface of the sealer 30 and the flow guide 21. There is a high possibility that the wash water leaks through the gap formed in the gap.

12 is a perspective view showing a sump case according to the spirit of the present invention.

Referring to Figure 12, the sump case 11 according to the present invention is formed with a reservoir 111 for storing the wash water.

In addition, a first fixing boss 112 and a second fixing boss 113 for fixing the pump housing 12 protrude from one side of the sump case 11. In detail, the first fixing boss 112 penetrates the fixing leg 124 of the pump housing 12, and the second fixing boss 113 is the bottom of the pump housing 12 opposite the fixing leg 124. Is coupled to.

In addition, a motor shaft through hole 119a is formed on the bottom surface of the sump case 11 to allow the motor shaft of the washing motor to pass therethrough, and a motor sealer seating portion having a tubular shape is formed around the motor shaft through hole 119a. 119 is extended. In addition, a circular sealing member is inserted into the motor sealer seating part 119 to prevent the washing water leakage through the motor shaft.

In addition, a water supply hole 114 is formed at one side of the sump case 11, and a drain pump case 117 is provided at the other side. In detail, a drain impeller is accommodated in the drain pump case 117, and the drain impeller is connected to the drain motor 15 (see the drain motor part of FIG. 3).

In addition, a heater insertion hole 118 for inserting the heater 14 is formed at another side of the sump case 11. In addition, the one side of the bottom surface of the sump case 11 has a variuo valve shaft through hole 115 is formed. Thus, the shaft of the variuo valve 19 passes through the sump case 11 and is connected to a variio motor attached to the bottom surface of the sump case 11.

In addition, a drain guide 116 is provided inside the sump case 11 at a portion where the drain pump case 117 is formed.

In detail, the drain guide 116 is fitted with a drain pump connecting pipe 218 (see FIG. 8) extending from the bottom of the flow guide 21. Therefore, the washing water falling through the drain hole 218a of the drain pump connecting pipe 218 is guided to the drain pump case 117 by the drain guide 116. When the drain pump does not operate, the wash water collected in the drain pump case 117 flows back along the drain guide 116. Then, the drain pump is connected to the soil chamber 211 through the backflow hole 218b of the connection pipe 218. A drainage hole (not shown) is formed at a lower end of the drain guide 116 to communicate with the reservoir 111 of the sump case 11. In addition, a drain valve is installed in the drain hole to prevent the washing water collected in the drain pump case 117 from flowing back into the reservoir 111.

On the other hand, when the drainage is started, the wash water and dirt stored in the reservoir 111 and the soil chamber 211 is simultaneously moved to the drain pump case 117 through the drain guide 116. Then, the dirty water is discharged to the outside by the operation of the drain impeller.

By the sump of the dishwasher according to the present invention constituting the configuration as described above, there is an effect that the assembly process of the sump is simplified.

In addition, the flow path of the washing water pumped by the washing pump is improved, thereby minimizing the phenomenon that the pumping pressure is reduced in the washing water pumping process.

In addition, the phenomenon that the dirt collected in the waste collection part inside the sump is prevented from flowing into the washing pump, thereby preventing the phenomenon of re-injecting foreign matter into the tableware through the spray nozzle.

In addition, by improving the mounting position of the variuoval valve, there is an effect that the phenomenon that the washing water pumped by the rinsing pump leaks around the variuoval valve.

In addition, the cleaning pump sealing member is surrounded by the side of the cleaning pump, there is an effect that the phenomenon of leaking the pumped wash water is removed.

Claims (6)

Sump case; The pump case seated inside the sump case, the pump case for pumping the wash water in the inner side, the variuo valve seating portion formed on the outlet side of the pump case and the wash water discharged from the pump case flows into the lower nozzle or water guide A pump housing provided with a guide flow path; An impeller seated inside the pump case to pump washing water; and The sump of the dishwasher is mounted to the variuo valve seating portion, the variuo valve to determine the flow direction of the pumped wash water. The method of claim 1, The guide flow path includes a water guide guide flow path through which the washing water flows toward the water guide, and a lower nozzle guide flow path through the lower nozzle side, The guide flow passage is sump of the dishwasher, characterized in that extending from the seating valve. The method of claim 2, The water guide guide flow path is located on the same line as the discharge port of the pump case, The sump of the lower nozzle guide flow path is curved in the same direction as the rotation direction of the impeller. The method of claim 1, The sump of the dishwasher, characterized in that the bottom of the discharge port connecting the pump case and the seating valve is flat. The method of claim 1, A plurality of fixing legs extending a predetermined length from an outer circumferential surface of the pump housing and seated on the sump case; The sump of the dish washing machine further protruding upward from the sump case, the fixing boss penetrating the end of the fixing leg. The method of claim 1, The sump of the dishwasher, characterized in that the sealer seating portion for surrounding the sealing member is formed on the outer surface of the pump housing.

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