JP3983351B2 - washing machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a washing machine for washing an object to be washed such as tableware with a washing liquid and rinse water.
[0002]
[Prior art]
As one of this type of washing machine, a washing tank that contains a washing liquid supplied to the washing nozzle through the washing pipe and a hot water storage tank that stores the rinsing hot water supplied through the rinsing pipe to the washing nozzle are provided for the washing process. The object to be cleaned is cleaned with the cleaning liquid sprayed from the cleaning nozzle, and the object to be cleaned is rinsed with rinsing water sprayed from the rinse nozzle in the rinsing step, for example, This is disclosed in Japanese Patent Laid-Open No. 3-99623.
[0003]
[Problems to be solved by the invention]
(First solution issue)
In the washing machine described in the above publication, the rinsing process is performed in a state where the cleaning liquid is stored in the cleaning tank after the cleaning process, and the rinse water after rinsing the object to be cleaned is stored in the cleaning tank. It enters and mixes with the cleaning liquid, and is drained outside the machine through an overflow pipe installed in the cleaning tank. Therefore, when the hot water stored in the cleaning tank is used as the next cleaning liquid after this rinsing process, the cleaning liquid that has been partially purified by the rinsing hot water but has been contaminated by the previous cleaning as a whole is used for the next time. will be cleaned, clean that can not be be washed with cleaning solution.
[0004]
(Second solution issue)
In washer publications noted above, a heater incorporated in the hot water storage tank is not adapted to be controlled energization by a temperature detecting device for detecting a water temperature in the hot water storage tank, the washing machine stops for a long time operation In order to maintain the hot water temperature in the hot water storage tank at a set temperature (about 80 ° C.), a temperature detection device is provided. In addition, the liquid level (water level) in the hot water storage tank is maintained within a set range (a predetermined amount in the hot water storage tank) except when the cleaning liquid is supplied from the hot water storage tank to the cleaning tank by overflow (during the initial hot water supply process). In order to secure hot water), a liquid level detection device is provided for controlling the opening and closing of a hot water supply valve disposed corresponding to the hot water storage tank. For this reason, even when the washing machine has been stopped for a long time, the heater is energized in order to maintain the temperature of a predetermined amount of hot water secured in the hot water storage tank at a set temperature (about 80 ° C.). is controlled, a large amount of power (energy) Ru is consumed by the heater.
[0005]
[Means for solving the problems]
In order to solve the above problems, the present invention provides a hot water storage tank that heats cleaning water or hot water supplied from a water supply source or a hot water heater to a predetermined temperature by a heater provided therein, and is supplied from the hot water storage tank. A dishwasher comprising a washing tank for storing washing hot water and an initial hot water supply control means for stopping the supply of washing water or washing water to the hot water storage tank when the water level of the washing tank reaches a predetermined level; When the level of the cleaning water supplied from the hot water storage tank to the cleaning tank reaches a predetermined water level, a cleaning pump for supplying the cleaning water to the cleaning nozzle from the cleaning tank through the cleaning pipe is started, and in the hot water storage tank Cleaning process control means for starting energization of the heater and stopping the operation of the cleaning pump when the hot water temperature in the hot water storage tank reaches a predetermined temperature; After the completion of the draining step for discharging the washing water returned to the washing tank to the outside after the washing step by the process control means is completed, a rinse pump for supplying the washing water from the hot water storage tank to the rinsing nozzle is started and the hot water storage is performed. The present invention provides a washing machine comprising a rinsing process control means for stopping power supply to a heater in a tank.
[0006]
In carrying out the present invention, in the washing machine configured as described above, a washing pipe for feeding washing water from the washing tank to the washing nozzle is disposed through the hot water storage tank, and the washing pipe is used in a washing process. It is preferable that the washing water fed to the washing nozzle through the heating nozzle is heated by the rinsing water heated by the heater in the hot water storage tank.
[0007]
[Operation and effect of the invention]
In the washing machine according to the present invention described above, after the washing process control means discharges the dirty washing water that has returned to the washing tank after completion of the washing process, clean washing water is supplied from the hot water storage tank to the washing tank. Since the rinsing process starts, not only the rinsed hot water is not mixed in the rinse water in the rinsing process, but also when washing objects to be cleaned such as dishes after the rinsing process are stored in the washing tank. Since the rinse water can be used effectively, the amount of washing water supplied to the hot water storage tank can be reduced in the next initial hot water supply process, and the previously used rinse water can be used in the washing process. . (See paragraph [0019]) Further, the rinsing process control means stops power supply to the heater in the hot water storage tank when the rinsing process is started, and the hot water storage tank becomes empty when the rinsing process is completed. When the washing machine is stopped without being used, there is an advantage that power consumption by energizing the heater in the hot water storage tank can be reduced. (See paragraph [0027])
Further, a cleaning pipe for supplying cleaning hot water from the cleaning tank to the cleaning nozzle is disposed through the hot water storage tank, and the cleaning hot water supplied to the cleaning nozzle through the cleaning pipe in the cleaning process is disposed in the hot water storage tank. When heated by rinsing hot water that is heated by heating of the heater, the cleaning pipe is heated by the rinsing hot water in the hot water storage tank in the cleaning process, and is supplied from the cleaning tank to the cleaning nozzle. By removing the hot water from low temperature to high temperature, it is possible to eliminate breakage due to rapid temperature rise when washing cold glass dishes, etc. There is an advantage that can be. (See paragraphs [0014] and [0021] to [0022])
[0008]
Further, in the washing machine according to the present invention which has been made to cope with the first and second problems described above, the above-described effects can be obtained, and the rinse water stored in the hot water storage tank during the initial water supply process before the cleaning process can be obtained. The amount of water stored is the capacity consumed in the rinsing process, and all the rinsing hot water in the hot water tank heated and heated by the heater built in the hot water storage tank is used effectively in the rinsing process. Since the heater can be energized only during a specific period (time) in which the rinse water is stored in the hot water storage tank, the energy use efficiency can be increased and an energy saving effect can be expected.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a washing machine according to the present invention. This washing machine is a household dishwashing machine, and a washing nozzle 13 and 15 and a rinsing nozzle 17 and 19 are provided in a pair of upper and lower parts in a box-shaped main body 11, respectively. Opposed. A cleaning tank 21 is integrally formed at the bottom of the main body 11, and a hot water storage tank 23 is disposed at the back of the main body 11. The opening provided in front of the main body 11 is opened and closed by an opening / closing door (not shown), and the object to be cleaned A (accommodated in the rack B) indicated by an imaginary line by the main body 11 and the opening / closing door. A washing room R that can accommodate (tableware) is formed. Each of the cleaning nozzles 13 and 15 and each of the rinsing nozzles 17 and 19 is a well-known one, and has a large number of injection ports (injected toward the object to be cleaned A while rotating the cleaning liquid and rinsing hot water that are pumped inside). (Not shown).
[0010]
The cleaning tank 21 contains a required amount of cleaning liquid supplied to the cleaning nozzles 13 and 15 through the cleaning pipe P <b> 1 (about 5 liters at a specified water level). The cleaning liquid is on the upper back of the main body 11 and the front of the hot water storage tank 23. It is supplied from the upper part of the hot water storage tank 23 through the communication pipe 25 that connects the upper part and the cleaning chamber R in the main body 11 during the initial hot water supply process before the cleaning process, and an electric cleaning pump is connected to the cleaning pipe P1. 31 is interposed. The cleaning pump 31 is driven during a cleaning process by a control device (not shown), and the cleaning liquid in the cleaning tank 21 is pumped to the cleaning nozzles 13 and 15 by driving the cleaning pump 31. In this way, it is sprayed onto the object A to be cleaned.
[0011]
The washing tank 21 is connected to a drainage pipe P2 for draining hot water in the washing tank 21 to the outside of the machine. The drainage pipe P2 is an electric drainage pump driven by a control device during a drainage process. 33 is interposed, and the hot water in the cleaning tank 21 is drained outside the machine by driving the drain pump 33. Further, the cleaning tank 21 has a water level sensor 41 that outputs an ON signal to the control device when the internal water level is equal to or higher than the specified water level, and the internal water level is equal to or higher than the overflow water level (an abnormal water level that is a predetermined amount higher than the specified water level). A water level sensor 43 is provided for outputting an ON signal to the control device. When the water level sensor 43 that detects the overflow water level outputs an ON signal to the control device, the drain pump 33 is driven by the control device for a predetermined time, and warning means (for example, a buzzer, a lamp) are activated. Yes.
[0012]
Although the hot water storage tank 23 is shown larger than the cleaning tank 21 in FIG. 1, it is actually smaller than the cleaning tank 21, and a set amount of rinsing hot water supplied to the rinsing nozzles 17 and 19 through the rinsing pipe P 3 (rinsing process). The rinsing hot water is stored through the hot water supply pipe P4 provided at the upper back of the hot water storage tank 23. It is supplied from the upper side of the hot water storage tank 23 at the time of the initial hot water supply process before the cleaning process, and an electric rinse pump 35 is interposed in the rinse pipe P3, and the hot water supply pipe P4 is electromagnetically closed. Open / close valve 37 is interposed.
[0013]
The rinsing pump 35 is driven by a control device during the rinsing process, and the rinsing pump 35 drives the rinsing hot water in the hot water storage tank 23 to the rinsing nozzles 17 and 19 so as to be covered as is well known. The cleaning object A is sprayed. The opening / closing valve 37 is opened by the control device at the start of the initial hot water supply process. By opening the opening / closing valve 37, hot water of about 50 ° C. is supplied from an external hot water supply source such as a gas water heater (not shown). Is poured into the hot water storage tank 23. The opening / closing valve 37 is closed when an ON signal is output from the water level sensor 41 to the control device (when the completion signal of the initial hot water supply process is output), whereby a predetermined amount of cleaning liquid is added to the cleaning tank 21. Is stored in the hot water storage tank 23 and the initial amount of hot water supply process is completed.
[0014]
The hot water storage tank 23 includes an electric heater 51 and a thermistor 53. A part P1a of the cleaning pipe for supplying the cleaning liquid to the upper cleaning nozzle 13 is spiral. It arrange | positions so that it may be immersed in a rinse water. The heater 51 heats and raises the temperature of the rinsing hot water in the hot water storage tank 23 when energized. When an ON signal is output from the water level sensor 41 to the control device by the control device (a predetermined amount of cleaning liquid is stored in the cleaning tank 21). And when the hot water is stored in the hot water storage tank 23, when the hot water supply from the external water heater to the hot water storage tank 23 is completed through the hot water supply pipe P4, and the rinsing pump 35 starts to drive. Energization is stopped at the same time (at the start of the rinsing process). The thermistor 53 is a temperature sensor that detects the temperature of the hot water in the hot water storage tank 23 and is connected to the control device, and the hot water temperature in the hot water storage tank 23 has reached a set value (80 ° C.) by the thermistor 53. When detected, the control device completes the cleaning process.
[0015]
In the dishwasher configured as described above, a detergent case in which both the tanks 21 and 23 are empty and an object A to be cleaned is placed in a predetermined position in the main body 11 and a detergent is attached to the rack B, for example. (Not shown) closes the door (not shown) and presses the start switch (not shown) that is turned on only during the push operation, the control device controls the pumps 31, 33, 35 and the opening / closing valve 37. Each operation and energization / non-energization of the heater 51 are controlled, and an initial hot water supply process, a cleaning process, a cleaning water draining process, a rinsing process, and a rinsing hot water draining process, which will be described in detail below, are sequentially performed. .
[0016]
In the initial hot water supply process, when the start switch is turned on, the open / close valve 37 is opened, and hot water of about 50 ° C. is poured into the hot water storage tank 23 through the hot water supply pipe P4 from the external hot water supply source. Thus, when a set amount of hot water is stored in the hot water storage tank 23, hot water is then supplied from the hot water storage tank 23 to the cleaning tank 21 through the communication pipe 25 and the back of the cleaning chamber R in the main body 11 due to overflow. When the water level reaches the specified water level, an ON signal is output from the water level sensor 41 and the open / close valve 37 is closed, thereby completing the initial hot water supply process.
[0017]
Further, in the cleaning process executed after the completion of the initial hot water supply process, energization to the heater 51 is started as the ON signal is output from the water level sensor 41, and the hot water (rinse hot water) in the hot water storage tank 23 is heated. As the temperature rises, the cleaning pump 31 starts driving, and hot water (cleaning liquid) in the cleaning tank 21 is pumped to the cleaning nozzles 13 and 15 through the cleaning pipe P1, and the cleaning liquid is cleaned from the cleaning nozzles 13 and 15. The article A is sprayed on the article A to wash the article to be cleaned A, and then the cleaning liquid flows downward through the cleaning chamber R in the main body 11 and returns to the cleaning tank 21. In this cleaning process, the detergent dissolves in the cleaning liquid and is circulated and supplied to the object to be cleaned A together with the cleaning liquid, and the cleaning liquid is heated and heated in a part P1a of the cleaning pipe immersed in the rinse water in the hot water storage tank 23. Is done. This cleaning process is executed until the hot water temperature in the hot water storage tank 23 reaches a set value (80 ° C.), and the cleaning pump 31 is driven when the hot water temperature in the hot water storage tank 23 reaches the set value (80 ° C.). Stop and complete the cleaning process.
[0018]
In the washing water draining process executed after the washing process, the drain pump 33 starts to be driven when the washing pump 31 is stopped, and the washing liquid in the washing tank 21 is drained outside the machine through the drain pipe P2. The This drainage process is completed by stopping the drainage pump 33 after a set time (determined by the discharge capacity of the drainage pump 33 and the amount of the cleaning liquid in the cleaning tank 21), whereby the cleaning liquid in the cleaning tank 21 is obtained. Is almost drained from the washing tank 21 to the outside of the machine.
[0019]
Further, in the rinsing process executed after the washing water draining process, the rinsing pump 35 starts to be driven when the draining pump 33 is stopped, and at the same time, the energization to the heater 51 is stopped and the rinsing hot water in the hot water storage tank 23 is stopped. When the heating temperature rise by the heater 51 is finished, the rinsing hot water in the hot water storage tank 23 is pumped to the rinsing nozzles 17 and 19 through the rinsing pipe P3, and the rinsing hot water is jetted from the rinsing nozzles 17 and 19 to the object A to be cleaned. As a result, the object to be cleaned A is rinsed. The hot water after rinsing the object A to be cleaned flows downward in the cleaning chamber R in the main body 11 and flows into the cleaning tank 21. This rinsing process is completed when the drive of the rinsing pump 35 is stopped after a set time (determined by the discharge capacity of the rinsing pump 35 and the amount of rinsing hot water in the hot water storage tank 23), thereby rinsing hot water in the hot water storage tank 23. Is consumed almost as a whole as rinse water.
[0020]
In addition, a reuse operation (that is, the object to be cleaned A that has been cleaned and rinsed out is removed from the main body 11 within a predetermined time (for example, 5 minutes) after the rinsing step, and then the object to be cleaned that has not been cleaned and is not rinsed. As described above, the drain pump 33 is driven when a predetermined time elapses in the rinsing hot water draining process which is performed when the door 11 is put into the main body 11 and the door is closed and then the start switch is not pressed. The rinse water in the cleaning tank 21 is drained outside the machine through the drain pipe P2. This drainage process is completed by stopping the drainage pump 33 after a set time (determined by the discharge capacity of the drainage pump 33 and the amount of rinse water flowing into the washing tank 21). Almost all of the rinse water is drained from the washing tank 21 to the outside of the apparatus. In addition, when the reuse operation is performed within a predetermined time after the rinsing process, the above-described initial hot water supply process, washing process, washing water draining process, and rinsing process are sequentially performed.
[0021]
As is apparent from the description of the configuration and operation described above, in the dishwasher of the above embodiment, since a part P1a of the cleaning pipe P1 is disposed so as to be immersed in the rinse water in the hot water storage tank 23, heat transfer The cleaning liquid in the cleaning pipe P1 can be heated and heated by the rinsing hot water (heated by the built-in heater 51) in the hot water storage tank 23 while ensuring a sufficient area. Therefore, it is possible to start cleaning with a low temperature cleaning liquid of about 50 ° C. and finish the cleaning with a high temperature cleaning liquid close to 80 ° C., and to solidify when heated to a protein component or high temperature by the low temperature cleaning liquid. Such dirt can be accurately washed at the early stage of the washing process, and dirt such as oily components can be accurately washed at a later stage of the washing process with a high-temperature washing liquid.
[0022]
In addition, since washing can be started with a low-temperature washing solution of about 50 ° C., washing with a high-temperature washing solution is also possible when washing objects to be washed A in which cold foods and drinks are placed with glass tableware or the like. There is no sudden temperature rise as in the case of starting, and the occurrence of breakage of the article A to be cleaned due to the sudden temperature rise can be prevented.
[0023]
Moreover, in the tableware washing machine of the said embodiment, since it can implement without providing a heater in the washing tank 21, the washing tank 21 can be cleaned easily. Further, since the cleaning liquid circulated and supplied by the cleaning pump 31 is heated and heated also using the heater 51 built in the rinsing tank 23, the cost can be reduced. Further, since dirt such as food residue does not adhere to the heater 51, the function of the heater 51 is not impaired by the dirt.
[0024]
Moreover, in the dishwasher of the said embodiment, since one part P1a of the washing piping immersed in the rinse water in the hot water storage tank 23 was made into the spiral shape, hot water storage was suppressed, suppressing the increase in channel resistance in the washing pipe line P1. The length of the cleaning pipe P1a immersed in the rinsing water in the tank 23 can be increased, the heat transfer area can be increased, and the cleaning liquid in the cleaning pipe P1 is rinsed in the hot water storage tank 23. The temperature can be raised efficiently by heating.
[0025]
Moreover, in the dishwasher of the said embodiment, since the hot water storage tank 23 is arrange | positioned so that some P1a of the washing piping which supplies a washing | cleaning liquid to the upper washing nozzle 13 may be accommodated, the structure of the washing piping P1 It is possible to arrange the hot water storage tank 23 while keeping it simple, and to make the whole dishwasher compact.
[0026]
In the dishwasher of the above embodiment, the hot water storage tank 23 is provided with the thermistor 53 for detecting the hot water temperature in the tank 23, and the hot water temperature detected by the thermistor 53 reaches the set value (80 ° C.). Since the cleaning process is completed when the temperature of the cleaning liquid is low, the temperature of the cleaning liquid supplied to the cleaning tank 21 is low (including the case where the temperature is 50 ° C. or lower). The cleaning process can be continued until the value rises, and dirt such as fat and oil components can be reliably cleaned with a high-temperature cleaning liquid. The completion of the cleaning process is determined based on when the hot water temperature in the hot water storage tank 23 reaches a set value. For example, the cleaning process is completed after a set time after the hot water temperature in the hot water storage tank 23 reaches the set value. It is also possible to carry out as described above.
[0027]
Moreover, in the dishwasher of the said embodiment, since electricity supply to the heater 51 was carried out from the time of the completion of hot water supply to the washing tank 21 and the hot water storage tank 23 to the time of the start of a rinse process, the electricity supply to the heater 51 is specified. Only the period (time) can be set, the power consumption by the heater 51 can be reduced, and an energy saving effect can be obtained. In addition, since the hot water storage tank 23 is configured to be empty before the initial hot water supply process, the low temperature hot water immediately after the start of hot water supplied from the external hot water supply source to the hot water storage tank 23 is stored at the bottom of the hot water storage tank 23, and thereafter The hot water supplied continuously is stored in the upper part of the hot water storage tank 23, and this hot water is supplied to the cleaning tank 21 by overflow. Therefore, only high temperature hot water is supplied from the hot water storage tank 23 to the cleaning tank 21 as a cleaning liquid. When the initial hot water supply process is completed, an appropriate temperature cleaning liquid is stored in the cleaning tank 23, and the desired cleaning effect from the initial stage of the cleaning process. Can be obtained.
[0028]
Moreover, in the dishwasher of the said embodiment, the water level sensor 41 which detects a regulation water level is provided in the washing tank 21, and when the regulation water level is detected by this water level sensor 41, the washing tank 21 and Since the hot water supply to the hot water storage tank 23 is configured to be completed, the hot water storage tank 23 does not require a water level sensor, and the configuration of the hot water storage tank 23 can be made simple and compact.
[0029]
In the dishwasher of the above embodiment, the amount of rinse water stored in the hot water storage tank 23 in the initial water supply process before the cleaning process is the capacity consumed in the rinse process, and the heater built in the hot water storage tank 23 Since all the rinsing hot water in the hot water storage tank 23 heated by 51 is used effectively in the rinsing process, the rinsing hot water is stored in the hot water storage tank 23 when the heater 51 built in the hot water storage tank 23 is energized. Since it is only a specific period (time), energy use efficiency can be improved and an energy saving effect can be expected.
[0030]
Further, since the cleaning liquid in the cleaning tank 21 is drained outside the apparatus in the cleaning liquid draining process executed between the cleaning process and the rinsing process, the rinsing hot water flowing from the hot water storage tank 23 to the cleaning tank 21 during the rinsing process. Then, since the water level in the washing tank 21 does not exceed the specified water level, it is not necessary to drain the rinse water outside the machine, and when the dishwasher is used continuously, It is possible to use all hot water (clean water compared to water) as the next cleaning solution, and the next cleaning can be performed with this cleaning solution and the newly supplied cleaning solution. The amount of water can be reduced, and the next cleaning can be performed with a relatively clean cleaning liquid.
[0031]
In the above embodiment, the present invention is implemented in a dishwasher. However, the present invention can also be implemented in a washing machine for washing other objects to be cleaned. Moreover, in the said embodiment, although one part P1a of the washing piping immersed in the rinse water in the hot water storage tank 23 was implemented as a spiral shape, this may be implemented as another form, for example, a serpentine shape or a bellows shape. Is possible. In the above embodiment, the cleaning pipe for supplying the cleaning liquid to the upper cleaning nozzle 13 is partly housed in the hot water storage tank 23. However, the cleaning for supplying the cleaning liquid to the lower cleaning nozzle 15 is performed. It is also possible to implement such that a part of the piping or a part of the cleaning piping before branching to each of the cleaning nozzles 13, 15 is accommodated in the hot water storage tank 23.
[0032]
In the above embodiment, the heater 51 is energized when the hot water supply to the cleaning tank 21 and the hot water storage tank 23 is completed (when an ON signal is output from the water level sensor 41 to the control device) and at the start of the rinsing process (rinse). The energization period (time) to the heater 51 is from the time when the heater 51 is immersed in hot water by the start of hot water supply to the hot water storage tank 23 and the start of the rinsing process. It can be set as appropriate until it is exposed from the hot water, and is not limited to the above embodiment.
[0033]
In the above embodiment, hot water is supplied from the hot water storage tank 23 to the cleaning tank 21 through the communication pipe 25 during the initial hot water supply process. However, the communication pipe 25 is eliminated and the rinse pump 35 is used during the initial hot water supply process. It is also possible to configure so that hot water is supplied from the hot water storage tank 23 to the washing tank 21 through the respective rinsing nozzles 17 and 19 by driving the above.
[0034]
In the above-described embodiment, the present invention is applied to a dishwasher in which the cleaning nozzle and the rinsing nozzle are each a pair of upper and lower (the cleaning nozzle and the rinsing nozzle are respectively disposed on the lower side and the upper side of the cleaning chamber R). However, the present invention can be similarly applied to a dishwasher in which a cleaning nozzle and a rinsing nozzle are disposed only below the cleaning chamber R.
[0035]
Moreover, in the said embodiment, hot water supply piping P4 (connected to an external hot water supply source) is provided corresponding to the hot water storage tank 23, and hot water is supplied to the hot water storage tank 23 through the hot water supply piping P4 before the cleaning process. Although configured as described above, a water supply pipe (connected to an external water supply source such as a water supply) is provided corresponding to the hot water storage tank, and water is supplied to the hot water storage tank through the water supply pipe before the cleaning process. It is also possible to carry out.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram schematically showing an embodiment in which the present invention is implemented in a domestic dishwasher.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 11 ... Main body, 13, 15 ... Cleaning nozzle, 17, 19 ... Rinsing nozzle, 21 ... Cleaning tank, 23 ... Hot water storage tank, 25 ... Communication pipe, 31 ... Cleaning pump, 33 ... Drain pump, 35 ... Rinsing pump, 37 ... Open / close valve, 41 ... water level sensor for detecting a specified water level, 43 ... water level sensor for detecting overflow water level, 51 ... heater, 53 ... thermistor (temperature sensor), A ... object to be cleaned, P1 ... cleaning pipe, P1a ... hot water storage tank A part of the cleaning pipe immersed in the rinsing hot water inside, P2 ... drainage piping, P3 ... rinsing piping, P4 ... hot water supply piping.

Claims (2)

A hot water storage tank that heats cleaning water or hot water supplied from a water supply source or a hot water heater to a predetermined temperature by a heater provided therein, a cleaning tank that stores cleaning hot water supplied from the hot water storage tank, and the cleaning tank In the dishwasher provided with the initial hot water supply control means for stopping the supply of washing water or washing water to the hot water storage tank when the water level of the water reaches a predetermined water level,
When the water level of the cleaning water supplied from the hot water storage tank to the cleaning tank reaches a predetermined water level, a cleaning pump for supplying the cleaning water to the cleaning nozzle from the cleaning tank through the cleaning pipe is started and the inside of the hot water storage tank Cleaning process control means for starting energization of the heater and stopping the operation of the cleaning pump when the hot water temperature in the hot water storage tank reaches a predetermined temperature;
After completion of the draining step of discharging the washing water recirculated into the washing tank after the washing step by the washing step control means is completed, a rinse pump for supplying the washing water from the hot water storage tank to the rinsing nozzle is started. A washing machine comprising: a rinsing process control means for stopping power supply to the heater in the hot water storage tank . A cleaning pipe for supplying cleaning hot water from the cleaning tank to the cleaning nozzle is disposed inside the hot water storage tank, and the cleaning hot water supplied to the cleaning nozzle through the cleaning pipe in the cleaning process is disposed in the hot water storage tank. The washing machine according to claim 1, wherein the washing machine is heated by rinsing water heated by heating of the heater.

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