KR101615258B1 - Dish washer - Google Patents

Abstract

The dishwasher of the present invention comprises: a tub forming a space in which a tableware is washed; A sump containing wash water supplied into the tub; And a descaling solvent supply device for supplying the sludge descaling solvent, wherein the descaling solvent supply device comprises: a main oil path for guiding the washing water supplied to the sump; A solvent accommodating portion for accommodating the descaling agent and having a solvent outlet for discharging the washing water dissolved in the descaling agent to the main oil passage; A solvent discharge valve for opening and closing the solvent discharge port; And a branch passage branched from the main passage to supply wash water to the solvent containing section and having an air communication port communicating with the atmosphere.

Description

DISHWASHER {DISH WASHER}

The present invention relates to a dishwasher, and more particularly to a dishwasher capable of quantitatively supplying a descaling agent.

If the washing water has a hardness of 60 ppm or more, it is inevitably scaled when the hard water is heated. Most dishwashers have a stroke to heat the washing water, so that various problems due to the scale may occur if proper treatment of the hard water is not performed.

In order to remove the scale generated by the dishwasher, it is necessary to supply an appropriate amount of descaling agent according to the hardness of the washing water. Since a considerable amount of the generated scale is discarded together with the drainage in the dishwasher, the amount of descaling agent actually required is very small. When the descaling agent is supplied excessively, there arises a problem in the product reliability, and since too little supply may degrade the descaling performance, it needs to be injected exactly as required. However, it is not easy for the user to accurately meter the required amount of descaling agent, and there is a very troublesome problem.

A problem to be solved by the present invention is to provide a dishwasher having a function capable of preventing scale from occurring or removing a scale generated.

It is another object of the present invention to provide a dishwasher capable of supplying a descaling agent quantitatively.

It is another object of the present invention to provide a dishwasher capable of quantitatively supplying a descaling solvent even if the water pressure supplied by the dishwasher fluctuates.

It is another object of the present invention to provide a dishwasher to which a descaling solvent made of a harmless substance is supplied.

The dishwasher of the present invention comprises: a tub forming a space in which a tableware is washed; A sump containing wash water supplied into the tub; And a descaling solvent supply device for supplying the sludge descaling solvent, wherein the descaling solvent supply device comprises: a main oil path for guiding the washing water supplied to the sump; A solvent accommodating portion for accommodating the descaling agent and having a solvent outlet for discharging the washing water dissolved in the descaling agent to the main oil passage; A solvent discharge valve for opening and closing the solvent discharge port; And a branch passage branched from the main passage to supply wash water to the solvent containing section and having an air communication port communicating with the atmosphere.

The dishwasher of the present invention has an effect of quantitatively supplying the descaling solvent. In particular, the supply of the descaling solvent can be made constant without being influenced by the water supply deviation and the water supply pressure, and the requisite amount of descaling solvent can be supplied.

In addition, the dishwasher of the present invention is not only very convenient because the descaling solvent is supplied automatically, but also by supplying a necessary amount of descaling solvent, minimizing the amount of descaling agent consumed, There is an effect that it is possible to prevent the problem that the product durability is lowered.

1 is a perspective view of a dishwasher according to an embodiment of the present invention.
2 shows the dishwasher with the door opened.
Figure 3 shows the main arrangements inside the dishwasher.
4 is a perspective view showing the descaling solvent supply device shown in FIG.
5 is a plan view of the descaling solvent supply device shown in Fig.
6 is a cross-sectional view taken along line AA shown in Fig.
7 is a cross-sectional view taken along the line BB shown in Fig.
8 is a cross-sectional view taken along the line CC shown in Fig.
Fig. 9 is a side view showing the configuration of confluence of the descaling solvent supply device. Fig.
10 is a partial sectional view taken along line DD of FIG.
11 is a perspective view showing a descaling solvent supply apparatus according to another embodiment of the present invention.
12 is a perspective view of the descaling solvent supply device shown in Fig.
Fig. 13 shows the inside of the receiving portion main body shown in Fig.
14 is a plan view of the descaling solvent supply apparatus shown in Fig.
15 is a longitudinal sectional view of the branch flow path.
Fig. 16 partially shows a cross-sectional view taken along line EE in Fig. 14. Fig.
17 is a cross-sectional view cut along the FF of Fig.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

1 is a perspective view of a dishwasher according to an embodiment of the present invention. 2 shows the dishwasher with the door opened. Figure 3 shows the main arrangements inside the dishwasher. 1 to 3, a dishwasher according to an embodiment of the present invention includes a casing 3 forming an outer shape, a tub 6 disposed inside the casing 3 to form a washing space for washing dishes, A sump 20 for collecting washing water for dish washing, and a descaling solvent supplying device 100 for discharging a descaling agent to the washing water which is supplied to the sump 20. As shown in Fig. The descaling agent is released in a dissolved state by the washing water. Hereinafter, the descaling agent combines with metal ions (for example, Ca ²⁺ , Mg ²⁺ ) in the hard water to inhibit scale formation, And a solution in which the descaling agent is dissolved is defined as a descaling solvent.

The descaling agent is based on an acid composition, and includes, for example, organic acids such as hydrochloric acid, citric acid, malic acid, tartaric acid, acetic acid, lactic acid and formic acid, which react with alkaline carbonate in the scale, Phosphoric acid, and sulfamic acid. These chemical substances can be accommodated in a descaler device in a liquid phase, as well as in solid form on powder or particles. In particular, organic acids such as citric acid are harmless to the human body and are environmentally friendly.

The casing (3) may include a cabinet (1) formed with a dishware inlet and a door (2) opening and closing the dishware inlet. The door 2 may be provided with a handle 2a, a control panel 5 for controlling the operation of the dishwasher, and a display 4 for indicating the operating state of the dishwasher.

The tub 6 is provided with racks 7a and 7b on which dishes are placed and nozzles for receiving washing water from the sump 20 and spraying the dishes with the dishes placed on the racks 7a and 7b. A plurality of racks 7a and 7b may be provided. In this embodiment, an upper rack 7a and a lower rack 7b are disposed below the upper rack 7a. The nozzles 8a, 8b and 8c may be provided with a plurality of nozzles 8a, 8b and 8c so that the washing water can be sprayed in various directions. An intermediate nozzle 8b disposed between the upper rack 7a and the lower rack 7b for spraying washing water downward toward the lower rack 7b and a lower nozzle 8b disposed between the upper rack 7a and the lower rack 7b, And a lower nozzle 8c arranged below the lower nozzle 8c for spraying the washing water upward. Although not shown, guide ducts for guiding the washing water from the sump 20 to the respective nozzles corresponding to the constitution of the nozzles And a flow-switching portion (not shown) for selectively interrupting the guide flow paths may be further provided. A washing pump (not shown) for feeding wash water contained in the sump 20 to the guide flow path and a heater (not shown) for heating the washing water in the sump 20 may be further provided.

The sump 20 and the tub 6 are communicated with each other so that the sump 2 is sprayed through the nozzles 8a, 8b and 8c so that the reduced amount of the washing water flows into the tub 6 again. The tub 6 is also in communication with the washing water outlet 112f of the descaling solvent supply device 100 to be described later through the sump 20. Accordingly, the washing water outlet 112f is moved in accordance with the level of the tub 6, The water pressure acting on the water surface also changes.

The dishwasher may include a water supply device (30) for supplying wash water to the sump (20). The water supply device (30) can be disposed between the tub (6) and the cabinet (1). The water supply device 30 is provided with a flow path for guiding the flow of the washing water introduced therein and water chambers for containing the washing water guided along the flow path and connected to a water supply lake into which raw water (for example, tap water) A flow meter 33 for sensing the amount of raw water coming into the water supply hose connection port 32a, a water chamber 31 for storing the introduced rinsing water, (Not shown) that communicates the flow path with the atmosphere to prevent the siphon phenomenon from flowing into the atmosphere.

According to the embodiment, the water supply device 30 may further include not only a flow path for supplying the washing water to the sump 20, but also a flow path for supplying washing water to the tub 6 directly, without passing through the sump 20. [ .

The water supply device 30 includes a sump drainage connection port 32c connected to a sump drainage channel (not shown) through which the washing water used for dishwashing is discharged from the sump 20 and a sump drainage connection port 32c for draining water to be introduced into the drainage pump And a drain pump inflow connection port 32d connected to the pump inflow conduit (not shown).

4 is a perspective view showing the descaling solvent supply device shown in FIG. 5 is a plan view of the descaling solvent supply device shown in Fig. 6 is a cross-sectional view taken along line A-A shown in Fig. 7 is a cross-sectional view taken along the line B-B shown in Fig. 8 is a cross-sectional view cut along the line C-C shown in Fig. Fig. 9 is a side view showing the configuration of confluence of the descaling solvent supply device. Fig. 10 is a partial sectional view taken along the line D-D in Fig. Hereinafter, the descaling solvent supply apparatus 100 according to an embodiment of the present invention will be described in detail with reference to these drawings.

The descaling solvent supply device 100 includes a solvent accommodating portion 111 containing a descaling agent and a gas supply passage 111 for guiding the cleaning water in the water supply process and guiding the solvent storage portion 111 to the sump 20 And a branched flow path 123 branched from the main flow path 112 and guiding the washing water guided along the main flow path 112 to the solvent containing portion 111. The main flow path 112 is a main flow path,

The main oil passage 112 is divided into an upstream side oil passage 112a corresponding to the upstream side and a downstream side oil passage 112b corresponding to the downstream side on the basis of a portion communicated with the inlet of the branch passage 123 . According to this definition, the solvent joining path U, which will be described later, belongs to the downstream side oil passage 112b.

The solvent accommodating portion 111 has a solvent outlet 111h through which the generated descale solvent is discharged. A solvent discharge valve 130 for opening and closing the solvent discharge port 111h may be further provided. Preferably, the solvent discharge port 111h is kept closed by the solvent discharge valve 130 during the water supply. The supporter 127 for installing the solvent discharge valve 130 may be formed in the receiving portion main body 110. [ The solvent discharge valve 130 may be a solenoid valve.

The solvent containing portion 111 may be divided into a first containing portion 111a and a second containing portion 111b by a partition 115. The descaling agent is introduced into the first accommodating portion 111a and a plurality of through holes (not shown) are formed in the partition 115 so as to allow exchange of the wash water between the first accommodating portion 111a and the second accommodating portion 111b . When the powder or particulate descaling agent is introduced into the first containing portion 111a, the solvent containing portion 111 is in a saturated or supersaturated state in which the introduced descaling agent is partially dissolved. At this time, dissolved components of the descaler are diffused into the second accommodating portion 111b through the aperture, but the undissolved precipitate is restricted from moving to the second accommodating portion 111b by the partition 115. Preferably, the solvent outlet 111h communicates the second containing portion 111b with the main oil passage 112. In this case, the descale agent in the unheated state is prevented from being discharged through the solvent outlet 111h.

The dishwasher 100 may further include a remaining amount detecting sensor (not shown) for detecting the remaining amount of the descaling agent in the solvent containing portion 111. The remaining amount detecting sensor may be configured as a sensor for detecting a concentration change of the descaling solvent. The remaining amount sensor may be disposed in the second accommodating portion 111b. The dishwasher may include a control unit (not shown) for controlling various components such as a solvent discharge valve 130, a cleaning pump, a drain pump, and the like, It is possible to determine the supplement timing of the dispensing operation and to display the dispensing timing so that the user can recognize the dispensing timing through the notification device such as the display 4 and / or the alarm (not shown).

The branched flow path 123 includes an atmospheric communication port 123d located above the solvent discharge port 111h and communicating with the atmosphere. It is preferable that the atmospheric communication port 123d is communicated with the atmosphere even when water is supplied into the solvent accommodating portion 111. [ The atmospheric pressure acts through the atmospheric communication port 123d so that when the water supply is stopped while the washing water is filled in the solvent containing portion 111, ) Remains constant. Particularly, since the supply of the water to the sump 20 is performed while the solvent discharge port 111h is closed and a substantially constant atmospheric pressure acts on the air communication port 121d, the washing water in the branch flow channel 123, The descaling solvent can be quantitatively discharged from the receiving portion 111 when the solvent discharge valve 130 is opened. In particular, since the constant head-to-head difference is always maintained, the amount of descascase solvent to be introduced is kept constant even if the water pressure varies depending on the local characteristics of the dishwasher.

The descaling solvent supply device 100 includes a housing body 110 forming a solvent housing part 111 and a body cover 220 formed with a washing water inlet 122 through which the washing water supplied into the solvent housing part 111 flows ). The body cover 220 can be detachably coupled to the receiving portion main body 110 to facilitate insertion and replenishment of the descaling agent.

Hereinafter, the wash water inlet 122 is described as a case where the wash water is introduced from the water supply device 30, but the present invention is not limited thereto, and the wash water may directly flow from an external water source such as a faucet through the hose.

The receiving portion main body 110 includes a main oil passage 112. The main oil line 112 communicates with the sump 20 through the wash water outlet 112f to supply wash water to the sump 20. [ The main oil path 112 includes a hose connection part 112e formed with a washing water outlet 112f and a hose (not shown) communicating the sump 20 and the washing water outlet 112f may be connected to the hose connection part 112e . The main oil passage 112 is formed so that the washing water bypasses the solvent accommodating portion 111 and reaches the washing water outlet 112f.

The branched flow path 123 may be formed by the main cover 120 as a flow path through which a part of the washing water guided along the main flow path 112 flows. The receiving portion main body 110 is opened on the upper side for inputting or replenishing the descaling agent, and the main cover 120 covers the opened upper side. The main body cover 120 includes a cover portion 121 that covers the opened upper side of the receiving portion main body 110. [ In this embodiment, the main oil passage 112 is opened at the upper side and the opened portion thereof is covered by the cover portion 121, thereby flooding the outside of the descaling solvent supply device 100 while the washing water is being guided overflowing) is prevented.

The branched flow path 123 extends upward from the cover portion 121 and an air communication port 123d may be formed at the upper end. The branch passage 123 may include an upstream branch passage 123a corresponding to the upstream side with respect to the atmosphere communication port 123d and a downstream branch passage 123b corresponding to the downstream side. The upstream branch branch passage 123a may be an upward guide passage for guiding the wash water flowing in from the main oil passage 112 upward and the downstream branch passage 123b may be an upstream guide passage for guiding the wash water discharged from the upstream side branch passage 123a, Downward guide flow path for guiding the downward flow direction.

The outlet 123o of the upstream branch passage 123a is separated from the inlet 123i of the downstream guide 123b and the wash water discharged from the outlet 123o of the upstream branch passage 123a flows downstream The intermediate flow path 123c passing through the inlet 123i of the side branch flow path 123b is formed. The intermediate flow path 123c communicates with the atmosphere through an air communication port 123d. The branched flow path 123 can communicate with the atmosphere through the air communication port 123d even when the washing water is supplied to the sump 20. [ When the solvent discharge port 111h is closed by the solvent discharge valve 130 and the washing water flows through the branch passage 123 to fill the solvent receiving portion 111, And flows into the water supply device 30 through the air communication port 123d.

Thereafter, when the water supply is stopped, the quantity of the total washing water in the branch passage 123 exceeding the height of the inlet 123i and the quantity remaining in the upstream branch passage 123a drop due to their own weight, 112 and flows into the sump 20 through the wash water outlet 112f. In the embodiment, the downstream side branch flow path 123b is located at the uppermost position on the flow path, and therefore, the maximum water level in the downstream branch flow path 123b at the time of stopping the water supply is limited to the inlet 123i or less. That is, when the water supply is stopped in a state where the solvent containing portion 111 is filled with the washing water, the water level H2 in the downstream, that is, the branch passage 123b is determined by the atmospheric pressure acting through the air communication port 123d, Since the water level maintains a constant water head difference H2-H0 with respect to the solvent discharge port 111h, it is hereinafter defined as a water head difference maintenance water level H2.

In the embodiment, the branch flow path 123 has an atmospheric communication port 123d at the uppermost end of the flow path, and the upstream branch flow path 123a guides the washing water upward in the direction of the atmospheric communication port 123d, The downstream branch flow path 123b is configured to guide the washing water in a downward direction, but is not limited thereto. The position of the atmosphere communication port 123d can be changed as much as possible within a range in which the water level in the downstream branch passage 123b maintains a constant head difference with respect to the solvent discharge port 111h.

10, it is preferable that the outlet 123o of the upstream branch passage 123a is formed to be smaller in area than the inlet 123i of the downstream branch passage 123b. When the area of the outlet 123o exceeds a certain ratio with respect to the area of the inlet 123i, the flow rate discharged through the atmospheric communication port 123d increases, and the supply of the three- A problem that can not be achieved occurs. Preferably, the area of the outlet 123o is 1/10 or less of the area of the inlet 123i.

On the other hand, the main oil passage 112 may include a solvent confluence path U into which the descaling solvent discharged from the solvent discharge port 111h flows. The solvent confluence furnace U flows into a section of the main oil passage 112 together with the descaling solvent discharged through the solvent discharge port 111h in the course of the washing water passing through the solvent confluence furnace U. The solvent outlet 111h is communicated with the solvent confluence path U so that the flow of the washing water which has been guided along the main channel 112 is stopped (that is, when the solvent confluence path U is empty, (U) is filled with wash water, but no flow), the descale solvent in the solvent confluence furnace U becomes dense.

It is preferable that the solvent confluence furnace U is constructed so as to receive a certain amount of wash water therein even if the supply of water is stopped. To this end, the solvent confluence furnace U is provided with a downward- And an upward guide passage 112d for upwardly guiding the wash water guided along the lower guide passage 112c. In the embodiment, the solvent confluence path U is formed in a U shape, and the solvent discharge port 111h is located in the solvent confluence path U, in particular, on the solvent coalescing path U, can do. The water level in the solvent confluence path U in the state where the water supply is stopped can be determined according to the position of the wash water discharge port 112f.

When the solvent discharge valve 130 is opened in the state where no washing water is present in the solvent confluence furnace U, the descaling solvent is naturally discharged to the solvent confluence furnace U by the water pressure, The section from the upward guide passage 112d to the tub 6 through the sump 20 is filled with the washing water when the solvent discharge valve 130 is opened in the state where the washing water is present, The washing water may flow back into the solvent containing portion 111 from the upward direction guide passage 112d depending on the level of the washing water in the washing water. Therefore, the water level in the tub 6 at the time of opening the solvent discharge valve 130 should be lower than the water level maintenance level H2. The tub 6 is provided with a discharge port (not shown) for discharging the washing water to the outside of the tub 6 at a position lower than the water level maintenance water level H2 so that the water level inside the tub 6 does not exceed the water level maintenance water level H2, Can be formed. According to the embodiment, a water level sensor (not shown) for sensing the water level in the tub 6 may be provided. In this case, the controller controls the water supply to be stopped according to the water level sensed by the water level sensor, (6) can be limited to less than the water level (H2).

On the other hand, if the water level H1 in the tub 6 is equal to the position of the water discharge port 112f when the water supply is completed, the solvent discharge port 111h (reference water level H0) (The density of the washing water, g = the gravitational acceleration) and the water pressure acting on the outside of the solvent accommodating portion 111, that is, the water pressure acting on the water level of the tub 6 Scale solvent from the solvent accommodating portion 111 to the main oil line 112 by the pressure difference (? P =? G-H2-H1) Here, the density (rho) of the washing water may actually be different in the solvent accommodating portion 111 and in the upstream-side guide passage 112d, but the descaling agent dissolving in the washing water is extremely small, The effects were ignored.

11 is a perspective view showing a descaling solvent supply apparatus according to another embodiment of the present invention. 12 is a perspective view of the descaling solvent supply device shown in Fig. Fig. 13 shows the inside of the receiving portion main body shown in Fig. 14 is a plan view of the descaling solvent supply apparatus shown in Fig. 15 is a longitudinal sectional view of the branch flow path. Fig. 16 partially shows a cross-sectional view cut along the line E-E in Fig. 17 is a cross-sectional view taken along line F-F of Fig.

11 to 17, a descaling solvent supplying apparatus 200 according to another embodiment of the present invention includes a receiving portion main body 210, a main body cover 220, and a solvent discharge valve 130 .

The receiving unit main body 210 includes a solvent accommodating portion 211 for accommodating the descaling solvent and a cleaning water supply portion 211 for guiding the cleaning water in the water supply process and guiding the solvent containing portion 211 to the washing water outlet communicated with the sump 20 And includes a gas supply passage 212. The washing water discharge port may be formed in the hose connecting portion 112f to which a hose (not shown) communicating with the sump 20 is connected.

At least one partition 215 dividing the solvent accommodating portion 211 into two or more spaces may be provided. The solvent accommodating portion 211 is divided into a first accommodating portion 211a, a second accommodating portion 211b and a third accommodating portion 211c by two partitioning walls 215, The powder or granular descaling agent is introduced into the accommodating portion 211a and the second accommodating portion 211b is communicated with the main oil passage 212 through the solvent outlet 211h.

The partition 215 may be formed with a plurality of through holes 215h to permit exchange of wash water between the receiving portions. Although the through hole 215h is formed in the form of a slit in the embodiment, it is needless to say that the shape of the through hole 215h can be changed as much as possible.

At least one of the second accommodating portion 212b and the third accommodating portion 212c may be provided with a remaining amount detecting sensor (not shown) for detecting the remaining amount of the descaling agent. The control unit can determine the replenishment timing of the descaler based on the value sensed by the remaining amount sensor, and when the replenishment timing arrives, the display 4 or the alarm (not shown) So that it can be displayed by the user.

The branched flow path 223 may be formed by the main cover 220 as a flow path through which a part of the washing water guided along the main flow path 212 flows. The main body cover 220 covers the opened upper side of the receiving portion main body 210. [ The main body cover 220 may include a cover portion 121 formed with a descaling inlet 226. The branch passage 223 extends upward from the cover portion 221 and has atmospheric communication ports 223d May be formed. The branch passage 223 may include an upstream branch passage 223a corresponding to the upstream side and a downstream branch passage 223b corresponding to the downstream side with respect to the atmosphere communication port 223d. The upstream branch branch passage 223a may be an upward guide passage for guiding the wash water flowing in from the main oil passage 212 upward and the downstream branch passage 223b may be an upstream guide passage for guiding the wash water discharged from the upstream branch branch passage 223a, Downward guide flow path for guiding the downward flow direction.

A charging port 240 for opening and closing the charging port 226 may be further provided. The cap 240 can be opened and the descaling agent can be replenished without separating the main body cover 220 from the receiving portion main body 210. [

The outlet 223o of the upstream branch passage 223a is separated from the inlet 223i of the downstream guide 223b and the wash water discharged from the outlet 223o of the upstream branch passage 223a flows downstream And the intermediate flow path 223c passing through the inlet 223i of the side branch flow path 223b is formed. The intermediate flow path 223c is communicated with the atmosphere through an air communication port 223d. It is preferable that the outlet 223o of the upstream branch passage 223a has an area smaller than that of the inlet 223i of the downstream branch passage 223b as in the above embodiment.

The branched flow path 223 can communicate with the atmosphere through the air communication port 223d even when the washing water is supplied to the sump 20. [ When the washing water flows through the branch passage 223 and the solvent containing portion 211 is filled with the solvent discharge port 211h closed by the solvent discharge valve 130, And flows into the water supply device 30 through the air communication port 223d.

The main oil path 212 may include a solvent confluence path U into which the descaling solvent discharged from the solvent discharge port 211h flows. The solvent confluence furnace U flows into a section of the main oil passage 212 together with the descaling solvent discharged through the solvent discharge port 211h in the course of the washing water passing through the solvent confluence furnace U. The solvent outlet 211h communicates with the solvent confluence path U so that the flow of the washing water which has been guided along the main channel 212 is stopped (that is, when the solvent confluence path U is empty, (U) is filled with wash water, but no flow), the descale solvent in the solvent confluence furnace U becomes dense.

It is preferable that the solvent confluence furnace U is constructed so as to receive a certain amount of wash water therein even if the supply of water is stopped. To this end, the solvent confluence furnace U is provided with a downward- And an upward guide passage 212d for upwardly guiding the wash water guided along the lower guide passage 212c. In the embodiment, the solvent confluence path U was formed in a U shape, and the solvent discharge port 211h communicated with the portion where the direction of the flow was switched on the solvent confluence path U. In Fig. 17, H3 represents the level of the washing water remaining in the solvent confluence passage U in the state where the water supply is stopped.

The main oil passage 212 is divided into an upstream side main oil passage 212a corresponding to the upstream side and a downstream side main oil passage 212b corresponding to the downstream side on the basis of the portion communicated with the inlet of the branch passage 223 . According to this definition, the solvent confluent path U belongs to the downstream side oil passage 222b.

At the time when the solvent discharge valve 130 is opened, the water level in the tub 6 should be lower than the water level maintenance level H2. The tub 6 is provided with a discharge port (not shown) for discharging the washing water to the outside of the tub 6 at a position lower than the water level maintenance water level H2 so that the water level inside the tub 6 does not exceed the water level maintenance water level H2, Can be formed. As in the above-described embodiment, a water level sensor (not shown) for sensing the water level in the tub 6 may be provided. In this case, the controller may control the water level to be controlled in accordance with the water level sensed by the water level sensor The water level in the tub 6 can be restricted to be less than the water level maintenance level H2.

The main cover 220 may have a first connection port 224 and a second connection port 225 connected to the unnecessary water discharge holes provided in the water supply device for the sake of the parts common use. The wash water introduced through either the first connection port 224 or the second connection port 225 forms a single flow discharged through the other one. The receiving portion main body 210 is formed with a space 216 having no openings other than the first connecting port 224 and the second connecting port 225.

According to the embodiment, the water supply device 30 includes a water supply device connector (not shown) connected to the water softener so that the water is introduced into the water softener, a regenerator connected to the regenerator so that the water is supplied to the regenerator And may further include a connector (not shown). However, in the case where the descaling solvent supply device 200 is provided as in the present embodiment, since the additional water supply device is not necessary, the water supply device connection port and the regenerator water softener connection port are also unnecessary. Therefore, the washing water discharged from the water chamber of the water supplying device 30 through the water softening device connecting port is connected to the regenerator connecting port and the second connecting port 225 by connecting the water softening device connecting port and the first connecting hole 224, Through the first connection port 224 and the second connection port 225, and then flows into the water chamber again through the regenerator connection port. It is possible to utilize a water supply device having a training device connection port and a regenerator connection port without a structural change, thereby improving the parts commonality.

In the dishwasher according to the above embodiments, the descaling solvent is supplied in the following manner.

Water is supplied through the water supply device () while the solvent discharge ports (111h, 211h) are closed by the solvent discharge valve (130). The washing water flowing along the oil supply passages 112 and 212 is supplied to the sump 20 through the hose connected to the hose connecting portions 112e and 212f and is fed by the washing pump to be supplied through the nozzles 8a, (6). According to the embodiment, a water supply valve (not shown) for interrupting the water supply may be provided, and the operations of the water supply valve, the cleaning pump, and the like are controlled by the control unit.

When the water level in the tub 6 sensed by the water level sensor reaches a predetermined water level or the water level sensed through the flow meter 33 reaches a preset water level, .

Thereafter, the control unit opens the solvent discharge valve 130 at a predetermined point to discharge the descaling solvent from the solvent containing portions 111 and 211 to the solvent confluence path U, and then opens the water supply valve again So that wash water is additionally supplied to the sump 20 through the solvent joining furnace U. Here, in order for the descaling solvent to be supplied quantitatively, it is preferable that the opening of the solvent discharge valve 130 is controlled on the basis of time. That is, by controlling the opening time of the solvent discharge valve 130 to be constant, the amount of the descaling solvent supplied through the descaling solvent supply devices 100 and 200 can be controlled constantly.

Meanwhile, the dishwasher according to the above embodiments may further include a sterilizing device (not shown) for sterilizing the washing water contained in the solvent containing portions 111 and 211. The sterilizing device may be a device that emits an antimicrobial material in water, or alternatively may comprise a UV lamp that emits ultraviolet light in water.

Claims (25)

A tub forming a space in which the tableware is cleaned;
A sump containing wash water supplied into the tub; And
And a descaling solvent supply device for supplying a descaling solvent to the sump,
The descaling solvent supply device includes:
And a solvent confluence path guiding the wash water supplied to the sump, the solvent confluence path configured to guide the wash water downward and to guide the wash water upward;
A solvent accommodating portion for accommodating the descaling agent and having a solvent outlet for discharging the washing water dissolved in the descaling agent to the main oil passage;
A solvent discharge valve for opening and closing the solvent discharge port; And
And a branch passage branched from the main oil passage to supply wash water to the solvent containing section and having an atmospheric communication port communicating with the atmosphere,
Wherein the solvent outlet is located within the solvent confluence furnace. The method according to claim 1,
The branch passage
An upstream-side branch flow path for guiding upward the washing water introduced from the main oil; And
And a downstream-side branch flow path for guiding the wash water guided along the upstream branch flow path in a downward direction,
When the supply of the washing water through the branched flow path is stopped after the washing water is supplied into the solvent containing portion while the solvent discharge port is closed by the solvent discharge valve and the washing water is filled in the solvent containing portion, Wherein the water level in the branch passage is limited to a constant height by the atmospheric pressure acting through the atmospheric communication port. 3. The method of claim 2,
Further comprising an intermediate flow path through which the washing water discharged from the upstream branch flow path flows into the downstream branch flow path,
Wherein the atmospheric communication port is formed in the intermediate flow path. The method of claim 3,
Further comprising a water supply device for supplying wash water to the main oil passage,
Wherein the atmospheric communication port communicates with the atmosphere through the water supply device. The method of claim 3,
The air communicating port
Wherein the washing water is exposed to the atmosphere while the washing water flows into the solvent containing portion. 3. The method of claim 2,
The outlet area of the upstream branch flow passage
Side branch flow passage is smaller than an inlet area of the downstream-side branch flow passage. The method according to claim 6,
The outlet area of the upstream branch flow passage
Wherein the downstream side branch flow path is one-tenth or less of the inlet area of the downstream branch flow path. 3. The method of claim 2,
In the tub,
A discharge port through which the washing water is discharged is formed below a height at which the water level in the downstream branch passage is restricted,
The washing water outlet
Wherein the water level in the downstream branch flow channel is lower than a height at which the water level is limited. delete 3. The method of claim 2,
The water level in the tub,
Wherein the water level in the downstream branch conduit is limited below a height at which the water level is limited. 11. The method of claim 10,
In the tub,
Wherein a discharge port through which the washing water is discharged is formed below the height at which the water level in the downstream branch flow path is restricted. The method according to claim 1,
The descaling solvent supply device includes:
A solvent accommodating portion, and an accommodating portion main body forming the main oil passage; And
And a main cover coupled to the receiving portion main body and forming the branched flow path. 13. The method of claim 12,
Wherein the solvent accommodating portion is opened on the upper side and the main cover covers the open upper side of the solvent accommodating portion. 14. The method of claim 13,
Wherein the receiving portion main body and the main cover are detachably coupled. 13. The method of claim 12,
In the main body cover,
And a washing water inlet through which the washing water flows into the main passage is formed. 13. The method of claim 12,
In the main body cover,
A desalting inlet communicating with the solvent containing portion is formed,
And a cap for opening and closing the descaling-type inlet. The method according to claim 1,
And a remaining amount detecting sensor for detecting the remaining amount of the descaling agent in the solvent containing portion. 18. The method of claim 17,
Wherein the remaining amount sensor senses a concentration change of the descaling solvent. 19. The method of claim 18,
Notification device; And
Further comprising a controller for determining a replenishment timing of the descaler based on the value detected by the remaining amount sensor and controlling the indication of the arrival of the replenishment time through the notification device. 20. The method of claim 19,
Further comprising a partition dividing the solvent containing section into a space into which the descaling agent is introduced and a space in which the remaining amount detecting sensor is disposed,
In the partition,
Wherein a through hole is formed between the two spaces so that washing water can be exchanged. The method according to claim 1,
Wherein the descaling agent comprises an organic acid in the form of particles or powder. 22. The method of claim 21,
Wherein the organic acid is citric acid. The method according to claim 1,
And a sterilizing device for sterilizing the washing water accommodated in the solvent accommodating portion. 24. The method of claim 23,
The sterilization apparatus includes:
A dishwasher that releases sterile material in water. 24. The method of claim 23,
The sterilization apparatus includes:
A dishwasher that irradiates ultraviolet rays in water.

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