JP7063532B2 - Washing machine - Google Patents

Description

Embodiments of the present invention relate to a washing machine.

For example, the washing machine disclosed in Patent Document 1 has a drying function and also functions as a dryer. This type of washing machine has a configuration in which laundry is housed in a washing tub in a water tub, and the air supplied into the water tub is heated by a heater of a hot air supply device to be warm aired. As a result, warm air is supplied to the water tub, and the laundry in the washing tub is dried.

Japanese Patent Application Laid-Open No. 2003-320194

By the way, in recent years, it has been considered to improve the washing performance by warming the washing water with the warm air by using the above-mentioned hot air supply device. Here, in the soaking course where the laundry in the washing tub is soaked, it is easier to remove the dirt from the laundry by securing a longer soaking time, so it is desired to lengthen the execution time of the soaking course. There is a need. Therefore, when the washing water is heated by warm air in such a soaking course that requires a long period of time, the electric power consumed to generate the warm air becomes larger.

Therefore, in the case of executing the soaking course for a long time, even when the washing water is heated by warm air, the washing machine that can minimize the electric power consumed to generate the warm air. I will provide a.

The washing machine according to the present embodiment includes a water tank, a hot air supply unit, an operation control means, and a hot air control means. The aquarium houses the washing tub. The hot air supply unit supplies hot air into the water tank. The operation control means is configured to be able to execute at least a soaking course including a soaking process for soaking the laundry in the washing tub. The hot air control means controls the supply of hot air by the hot air supply unit in the soaking process when the soaking course is executed by the operation control means, so that the temperature of the water in the water tank is controlled. Within the specified temperature range. Further, the operation control means selectively executes a plurality of types of operation courses including a large amount of water course for increasing the amount of water per amount of laundry in the washing tub as an operation course different from the soaking course. When the operation control means executes the large amount of water course, the hot air control means sets an upper limit lowering temperature range in which the upper limit of the temperature range is lowered, and supplies the warm air. By controlling the supply of warm air by the unit, the temperature of the water in the water tank is configured to be within the upper limit price reduction temperature range, and the temperature is adjusted according to the operation course executed by the operation control means. The timing at which the air supply unit supplies hot air and at least one of the operations performed by the hot air supply unit to generate hot air are configured to be different, and as the high water volume course. When an operation course for washing delicate laundry is executed, the hot air supply unit is configured to supply hot air after supplying water to the water tank.
Further, the washing machine according to the present embodiment includes a water tank, a hot air supply unit, an operation control means, and a hot air control means. The aquarium houses the washing tub. The hot air supply unit supplies hot air into the water tank. The operation control means is configured to be able to execute at least a soaking course including a soaking process for soaking the laundry in the washing tub. The hot air control means controls the supply of hot air by the hot air supply unit in the soaking process when the soaking course is executed by the operation control means, so that the temperature of the water in the water tank is controlled. Within the specified temperature range. Further, the operation control means selectively executes a plurality of types of operation courses including a large amount of water course for increasing the amount of water per amount of laundry in the washing tub as an operation course different from the soaking course. When the operation control means executes the large amount of water course, the warm air control means sets an upper limit lowering temperature range in which the upper limit of the temperature range is lowered, and supplies the warm air. By controlling the supply of warm air by the unit, the temperature of the water in the water tank is configured to be within the upper limit lowering temperature range, and the temperature of the room in which the washing machine is installed, or in the water tank. If the detected temperature does not exceed the predetermined temperature, the hot air supply unit supplies the hot air before the water supply stroke performed before the soaking stroke, and the predetermined temperature is reached. If the temperature exceeds the above, the hot air supply unit is configured not to supply the hot air before the water supply stroke performed before the soaking stroke.

Longitudinal rear view schematically showing a configuration example of a washing machine according to this embodiment Block diagram schematically showing a configuration example of a washing machine control system Diagram showing a schematic configuration example of the operation panel The figure which shows the control example of the attachment course by the control device The figure which shows the control example of the hot air control by a control device (the 1) The figure which shows the control example of the hot air control by a control device (the 2)

Hereinafter, an embodiment relating to the washing machine will be described with reference to the drawings. The washing machine 10 exemplified in FIG. 1 is a so-called washing / drying machine having a washing function for washing laundry and a drying function for drying laundry. The washing machine 10 is a so-called vertical axis type washing machine in which the rotation center axis of the washing tub extends in the vertical direction. The washing machine 10 is provided with a bottomed cylindrical water tank 12 having an open upper surface inside the outer box 11 constituting the outer shell. The water tank 12 is elastically supported by the elastic suspension mechanism 13. Further, on the upper part of the outer box 11, a lid (not shown) is provided so as to be openable and closable, located above the water tank 12.

Inside the outer box 11, a water supply unit 14 provided with a water supply valve 14a and the like is provided. The water supplied from the water supply unit 14 is stored inside the water tank 12. Further, inside the outer box 11, a drainage portion 15 provided with a drainage valve 15a or the like is provided. The water in the water tank 12 is drained to the outside of the machine by the drainage unit 15. Further, inside the water tub 12, a bottomed cylindrical washing tub 16 having an open upper surface is rotatably provided.

The washing tub 16 is configured to rotate about a vertical axis, and serves as a washing tub for washing the laundry, a washing tub for rinsing the laundry, and a dehydration tub for dehydrating the laundry. Also used. Further, the water tub 12 accommodating the washing tub 16 functions as a drying chamber in which the laundry to be dried is accommodated in the drying process for drying the laundry. A pulsator 17 is rotatably provided at the bottom of the inside of the washing tub 16. A drive unit 18 for rotating the washing tub 16 and the pulsator 17 is provided in the central portion of the lower portion of the water tub 12. The drive unit 18 includes a motor, a clutch, and the like (not shown).

A water tank cover 12a is attached to the upper part of the water tank 12. An opening (not shown) is formed in the water tank cover 12a. This opening is opened and closed by an inner lid (not shown) provided on the water tank cover 12a. By opening the lid of the outer box 11 and opening the inner lid, the user can put in and take out the laundry into and out of the washing tub 16 through the opening.

Further, the washing machine 10 is provided with a circulation air passage 21. The circulation air passage 21 is connected to the outlet portion 12b and the inlet portion 12c provided on the water tank cover 12a outside the water tank 12. During the drying operation, the air in the water tank 12 is discharged from the outlet portion 12b into the circulation air passage 21, is warm-weathered in the circulation air passage 21, and is returned from the inlet portion 12c into the water tank 12. That is, the circulation air passage 21 includes, for example, a hot air supply device 22 that generates hot air during a drying operation and supplies it into the water tank 12. The hot air supply device 22 is an example of a hot air supply unit.

The hot air supply device 22 includes a fan device 23, a heater 24, a filter 25, and the like. The fan device 23 draws the air in the water tank 12 into the circulation air passage 21 from the outlet portion 12b by rotating the fan 23b by the fan motor 23a, and returns the air in the water tank 12 from the inlet portion 12c. As a result, the fan device 23 circulates the air in the water tank 12 through the circulation air passage 21. The heater 24 heats the air circulating in the circulation air passage 21 by the circulation action of the fan device 23 to warm the air. The heater 24 is composed of, for example, a PTC heater (PTC: Positive Temperature Coefficient).

The filter 25 is provided in the upstream portion of the circulation air passage 21, in this case, between the outlet portion 12b and the fan device 23. The air drawn into the circulation air passage 21 from the water tank 12, in other words, the air flowing through the circulation air passage 21 and supplied into the water tank 12, contains foreign substances such as lint and dust generated from laundry, for example. include. The filter 25 captures foreign matter contained in the air flowing in the circulation air passage 21 in this way.

Further, the control device 31 illustrated in FIG. 2 is mainly composed of a microcomputer and controls the overall operation of the washing machine 10. The control device 31 is provided, for example, on the back surface side of the operation panel 19 provided on the upper part of the outer box 11. An operation panel 19, a water supply valve 14a, a drain valve 15a, a drive unit 18, a fan device 23, a heater 24, and the like are connected to the control device 31. The control device 31 executes various operations such as a washing operation, a rinsing operation, and a dehydrating operation by controlling the operations of the water supply valve 14a, the drain valve 15a, and the drive unit 18. Further, the control device 31 executes a drying operation for drying the laundry by controlling the operations of the drive unit 18, the fan device 23, and the heater 24.

As illustrated in FIG. 3, on the operation panel 19, a power on button for turning on the power of the washing machine 10, a power off button for turning off the power of the washing machine 10, a start button for starting the operation, and an operation course are selected. There are a course selection button for this purpose, a process setting button for setting the contents of each process such as a washing process, a rinsing process, a dehydration process, and a drying process. Further, the operation panel 19 is provided with a hot air button 19a for adjusting the temperature of the hot air generated by the hot air supply device 22.

The user can adjust the temperature of the hot air generated by the hot air supply device 22 by operating the hot air button 19a. In this case, the temperature of the hot air can be adjusted in two stages, a hot air "strong" level and a hot air "weak" level, according to the number of operations of the hot air button 19a. When the hot air "strong" level is set, the temperature of the hot air generated by the hot air supply device 22 becomes higher than a predetermined standard temperature. In this case, for example, by setting the rotation speed of the fan device 23 to, for example, 4200 rpm and the output of the heater 24 to a strong level, it is possible to supply hot air at a higher temperature. Further, when the hot air "weak" level is set, the temperature of the hot air generated by the hot air supply device 22 becomes lower than the predetermined standard temperature. In this case, for example, by setting the rotation speed of the fan device 23 to, for example, 3000 rpm and the output of the heater 24 to a weak level, it is possible to supply warm air at a lower temperature.

By operating the operation panel 19, the user can make various settings such as setting various operation courses and setting the drying temperature in the drying operation. Further, the control device 31 can display various setting contents, error contents, and the like on the display unit provided on the operation panel 19.

Further, a water temperature detection sensor 41 for detecting the temperature of the water in the water tank 12 is connected to the control device 31. The water temperature detection sensor 41 is an example of a water temperature detection unit. Further, the control device 31 is connected to, for example, a memory 42 for storing a control program for controlling the washing machine 10 and various data. Data such as the water temperature detected by the water temperature detection sensor 41 is also stored in the memory 42.

Further, the control device 31 virtually realizes the operation control processing unit 51 and the warm air control processing unit 52 by software by executing the control program. The operation control processing unit 51 and the warm air control processing unit 52 may be configured by hardware or may be configured by a combination of software and hardware. The operation control processing unit 51 is an example of an operation control means, and various operation courses such as a standard course, a soaking course, a fashionable dressing course, an elaborate course, a speedy course, and a blanket course are used according to a setting operation by the user. Is feasible.

The standard course is, for example, a standard operation course in which the water level in the water tub 12 and the operation time are automatically set according to the amount of laundry in the washing tub 16 specified by a well-known weight sensing process. be. The weight sensing process utilizes, for example, the change in the rotational load of the pulsator 17 according to the amount of laundry. For example, the pulsator 17 is rotated for a predetermined short time in a state before water is supplied to the water tank 12. This is performed by detecting a change in the rotation speed of the motor of the drive mechanism unit 18 at that time.

The soaking course is an operation course including a soaking process in which the laundry in the washing tub 16 is soaked in the water in the water tub 12. In this soaking process, it is preferable to stop the rotation of the washing tub 16 and the rotation of the pulsator 17, but it is permissible to rotate the washing tub 16 and the pulsator 17 to some extent. Further, the operation control processing unit 51 is configured to be able to adjust the execution time of the tsukiki stroke in the tsukiki course. In this case, the operation control processing unit 51 may be configured to adjust the execution time of the tailing process, that is, the tapping time according to, for example, a user operation, or is detected by the water temperature detection sensor 41. It may be configured to be automatically adjusted according to the temperature of the water in the water tank 12.

The fashionable clothes course is a driving course for washing delicate laundry that easily loses its shape, is damaged, and shrinks due to washing. The fashionable clothes course is an example of a large amount of water course, and is an operation course executed by increasing the amount of water per amount of laundry in the washing tub 16 to be larger than the amount of water in the standard course, for example. The elaborate course is, for example, a driving course for thoroughly washing thick laundry, and is a driving course that emphasizes the removal of dirt from the laundry. The elaborate course is an example of a small amount of water course, and is an operation course executed by reducing the amount of water per amount of laundry in the washing tub 16 to, for example, less than the amount of water in the standard course. The speedy course is, for example, a driving course for washing laundry in a shorter time than a standard course. The blanket course is a driving course for washing thick and large laundry such as blankets.

The hot air control processing unit 52 is an example of the hot air control processing means, and when the operation control processing unit 51 executes the soaking course, the hot air supply device 22 generates hot air in the water tank 12. It is possible to supply. The hot air control processing unit 52 supplies hot air into the water tank 12 in the soaking course, for example, when the hot air button 19a is operated on the operation panel 19. When the hot air control processing unit 52 supplies hot air into the water tank 12 in the soaking course, the temperature of the water in the water tank 12 is determined by controlling the hot air supply operation by the hot air supply device 22. It is controlled so that it is within the temperature range for the soaking course. In this case, the temperature range for the soaking course is set with an upper limit value of, for example, 35 ± 2 ° C. and a lower limit value of, for example, 25 ° C. ± 2 ° C. Some detergents in recent years contain enzymes that break down dirt. Therefore, by keeping the temperature of the water in the water tank 12 within the above temperature range, the activity of the enzyme contained in the detergent can be effectively exerted, and the cleaning performance can be improved.

Further, the warm air control processing unit 52 can generate hot air by the hot air supply device 22 and supply it into the water tank 12 even when the fashionable dressing course is executed by the operation control processing unit 51. The hot air control processing unit 52 supplies warm air into the water tank 12 in the fashionable dressing course, for example, when the hot air button 19a is operated on the operation panel 19. When the warm air is supplied into the water tank 12 in the fashionable clothes course, the hot air control processing unit 52 sets the temperature range for the fashionable clothes course by lowering the upper limit of the temperature range for the soaked course by a predetermined value. Then, the hot air control processing unit 52 controls the temperature of the water in the water tank 12 so as to be within the temperature range for the fashionable dressing course by controlling the hot air supply operation by the hot air supply device 22. The predetermined value when setting the temperature range for the fashionable clothes course, that is, the amount of lowering the upper limit value can be appropriately adjusted and implemented. The temperature range for the fashionable clothes course is an example of the upper limit lowering temperature range, and the upper limit is set at, for example, 30 ° C, and the lower limit is set at, for example, 20 ° C. The warm air control processing unit 52 may be configured to set the temperature range for the fashionable dressing course when the warm air "weak" is set by operating the hot air button 19a of the operation panel 19.

Further, the hot air control processing unit 52 can generate hot air by the hot air supply device 22 and supply it into the water tank 12 even when the elaborate course is executed by the operation control processing unit 51. The hot air control processing unit 52 supplies hot air into the water tank 12 in a careful course when, for example, the hot air button 19a is operated on the operation panel 19. When the hot air is supplied into the water tank 12 in the elaborate course, the hot air control processing unit 52 sets the temperature range for the elaborate course by raising the upper limit of the temperature range for the soaking course by a predetermined value. Then, the hot air control processing unit 52 controls the temperature of the water in the water tank 12 so as to be within the temperature range for the course by controlling the hot air supply operation by the hot air supply device 22. The predetermined value when setting the temperature range for the elaborate course, that is, the amount of increase in the upper limit value can be appropriately adjusted and implemented. The temperature range for the elaborate course is an example of the temperature range for raising the upper limit, and the upper limit is set at, for example, 40 ° C, and the lower limit is set at, for example, 30 ° C. The hot air control processing unit 52 may be configured to set the temperature range for the elaborate course when the hot air “strong” is set by operating the hot air button 19a of the operation panel 19.

Further, when the operation control processing unit 51 supplies warm air into the water tub 12 in the fashionable dressing course or the elaborate course, the rotation amount of the pulsator 17, that is, the stirring amount of the laundry in the washing tub 16 is heated. By suppressing the wind as compared with the case where the wind is not supplied, the water temperature detection accuracy by the water temperature detection sensor 41 is improved. That is, in a state where the rotation amount of the pulsator 17 is large and the water in the water tank 12 is violently agitated, it becomes difficult to accurately detect the temperature of the water in the water tank 12. Therefore, the operation control processing unit 51 suppresses the rotation amount of the pulsator 17 to form a state in which the water in the water tank 12 is appropriately agitated to the extent that accurate water temperature detection is possible, whereby the water temperature detection sensor 41 is formed. Improves the detection accuracy of water temperature.

Next, an example of controlling the soaking course by the control device 31 will be described. That is, as illustrated in FIG. 4, when the control device 31 starts the soaking course, it first executes a water supply process of supplying water into the water tank 12. Then, when the control device 31 completes the water supply process, the control device 31 executes the soaking process. In this soaking process, the control device 31 drives the hot air supply device 22 to supply hot air into the water tank 12. At this time, the control device 31 controls the hot air supply device 22 so that the temperature of the water in the water tank 12 is kept within the temperature range for the course. That is, when the temperature of the water in the water tank 12 exceeds the upper limit of the temperature range for the soaking course, the control device 31 turns off the hot air supply device 22 or weakens the output, and conversely, the water in the water tank 12. When the temperature of the above temperature falls below the lower limit of the temperature range for the hot air supply device 22, the hot air supply device 22 is turned on or the output is increased. The control device 31 executes this soaking process over a set soaking time. The setting of the soaking time can be adjusted according to the user operation via, for example, the operation panel 19.

When a predetermined soaking time elapses from the start of the soaking process, the control device 31 shifts to a well-known washing process for washing the laundry in the washing tub 16. In this washing process, a detergent containing an enzyme may be dissolved in the water in the water tank 12. Therefore, the control device 31 may drive the hot air supply device 22 to supply the hot air into the water tank 12 even in this washing process. When the control device 31 finishes the washing process, the control device 31 executes a well-known rinsing process and a dehydrating process in order to complete the operation course.

According to the washing machine 10 according to the present embodiment, the control device 31 controls the hot air supply operation by the hot air supply device 22 when the soaking process is executed in the soaking course, so that the water tank 12 The temperature of the water inside is controlled within the temperature range for the predetermined soaking course. According to this configuration, even when the washing water in the water tank 12 is heated by warm air in the soaking process of the soaking course, the temperature of the water in the water tank 12 is not too hot and not too cold. It can be kept within the range. Therefore, even when the soaking course is executed for a long time, for example, 3 hours, 6 hours, 8 hours, etc., the electric power consumed for generating warm air can be minimized. can.

Further, according to the washing machine 10, when the fashionable clothes course is executed, the control device 31 lowers the temperature of the water in the water tank 12 to the upper limit of the temperature range for the soaking course for the fashionable clothes course. The hot air supply device 22 is controlled so as to be within the temperature range. According to this configuration, it is possible to lower the upper limit of the temperature of the water in the water tank 12 during the execution of the fashionable clothes course, and it is possible to prevent the delicate laundry from being damaged by the high temperature water.

Further, according to the washing machine 10, when the elaborate course is executed, the control device 31 raises the temperature of the water in the water tank 12 to the upper limit of the temperature range for the soaking course. The hot air supply device 22 is controlled so as to be contained therein. According to this configuration, the upper limit of the temperature of the water in the water tank 12 during the execution of the elaborate course can be raised, for example, thick laundry can be washed with higher temperature water, and the washing performance is improved. be able to.

Further, according to the washing machine 10, when the control device 31 supplies warm air into the water tub 12 in the fashionable dressing course and the elaborate course, the water temperature is suppressed by suppressing the stirring amount of the laundry in the washing tub 16. The detection accuracy of the detection sensor 41 is improved. According to this configuration, the temperature of the water in the water tank 12 can be detected more accurately, so that the water temperature in the fashionable dressing course and the elaborate course can be controlled accurately, depending on the type of laundry and the degree of dirt. Optimal operation can be performed.

Further, according to the washing machine 10, the control device 31 can adjust the execution time of the soaking process included in the soaking course according to the user operation via, for example, the operation panel 19. Therefore, it is possible to keep the laundry in the optimum time according to the type of laundry and the degree of dirt.

The present embodiment is not limited to the above-described embodiment, and can be extended or modified as follows, for example. For example, the present embodiment can be applied to a so-called horizontal axis type washing machine in which the rotation center axis of the washing tub is the horizontal axis or the inclined axis.

Further, if warm air is supplied in a state where water does not exist in the water tub 12, the warm air directly hits the laundry in the washing tub 16 and may damage the laundry. Therefore, as in the above-described embodiment, it is preferable to supply the warm air into the water tank 12 after the water supply process for supplying water into the water tank 12. However, this embodiment does not exclude supplying warm air in the absence of water in the water tank 12. Therefore, it is permissible to supply the warm air into the water tank 12 before the water supply process. It is also permissible to start supplying warm air into the water tank 12 from the middle of the water supply process. It is also permissible to supply the warm air into the water tank 12 in a process after the water supply process, for example, in a washing process or a rinsing process.

Further, as illustrated in FIG. 5, the timing of supplying warm air, that is, before or after the water supply process, is different depending on the temperature of the room in which the washing machine 10 is installed, the temperature in the tub, and the like. Alternatively, the fan device 23 and the heater 24 for generating warm air may be configured to operate differently. If the room temperature or the temperature inside the tank is low, the detergent may be difficult to dissolve or the enzyme may be difficult to work. Therefore, if warm air is supplied to the inside of the tank before the water supply process, the room temperature and the temperature inside the tank can be raised, and the cleaning performance can be improved. However, when the room temperature or the temperature in the tank exceeds, for example, 30 ° C., it is better to avoid supplying warm air before the water supply process. This is because when the room temperature is high, the temperature of the warm air also rises, and if the laundry is exposed to the hot air having a high temperature in a state of high temperature and no water, the laundry is easily damaged. Further, when the room temperature or the temperature in the tank exceeds, for example, 40 ° C., the temperature of the warm air becomes higher, so it is better to avoid supplying the warm air even after the water supply process. This is because in such a high temperature state, even if water is present, the laundry may be damaged. The temperature of the room in which the washing machine 10 is installed and the temperature in the tub can be specified by, for example, a temperature sensor.

Further, as illustrated in FIG. 6, the control device 31 may supply the hot air at different timings depending on the operation course to be executed, and the fan device 23 and the heater for generating the hot air may be different. 24 may be configured to behave differently.

According to the washing machine according to the present embodiment, when the soaking course is executed by the operation control means, the temperature of the water in the water tank is set to a predetermined temperature by controlling the supply of hot air by the hot air supply unit. Control to stay within range. According to this configuration, when the soaking course is executed for a long time, the electric power consumed to generate the warm air is minimized even when the washing water is heated by the warm air. Can be done.

It should be noted that this embodiment is presented as an example, and is not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. The present embodiment and its modifications are included in the scope and gist of the invention, and are included in the scope of the invention described in the claims and the equivalent scope thereof.

In the drawing, 10 is a washing machine, 12 is a water tub, 16 is a washing tub, 22 is a hot air supply device (warm air supply unit), 41 is a water temperature detection sensor (water temperature detection unit), and 51 is an operation control processing unit (operation control). Means), 52 indicates a warm air control processing unit (warm air control means).

Claims (3)

An aquarium that houses the washing tub and
A hot air supply unit that supplies hot air into the water tank,
At least, an operation control means configured to be able to execute a soaking course including a soaking process for soaking the laundry in the washing tub.
When the soaking course is executed by the operation control means, the temperature of the water in the water tank is kept within a predetermined temperature range by controlling the supply of hot air by the hot air supply unit in the soaking process. The warm air control means to be stored in
Equipped with
Further, the operation control means can selectively execute a plurality of types of operation courses including a large amount of water course for increasing the amount of water per amount of laundry in the washing tub as an operation course different from the soaking course. Configured,
When the large amount of water course is executed by the operation control means, the hot air control means sets an upper limit lowering temperature range in which the upper limit of the temperature range is lowered, and the hot air supply unit provides warm air. By controlling the supply, the temperature of the water in the water tank is configured to be within the upper limit lowering temperature range, and the hot air supply unit is heated according to the operation course executed by the operation control means. Delicate laundry that is configured to differ in at least one of the timing of supplying air and the operation performed by the hot air supply unit to generate hot air, and as the high water volume course. A washing machine configured to perform hot air supply by the hot air supply unit after water is supplied to the water tank when an operation course for washing is executed. An aquarium that houses the washing tub and
A hot air supply unit that supplies hot air into the water tank,
At least, an operation control means configured to be able to execute a soaking course including a soaking process for soaking the laundry in the washing tub.
When the soaking course is executed by the operation control means, the temperature of the water in the water tank is kept within a predetermined temperature range by controlling the supply of hot air by the hot air supply unit in the soaking process. The warm air control means to be stored in
Equipped with
Further, the operation control means can selectively execute a plurality of types of operation courses including a large amount of water course for increasing the amount of water per amount of laundry in the washing tub as an operation course different from the soaking course. Configured,
When the large amount of water course is executed by the operation control means, the warm air control means sets an upper limit lowering temperature range in which the upper limit of the temperature range is lowered, and the hot air supply unit provides warm air. By controlling the supply, the temperature of the water in the water tank is configured to be within the upper limit reduction temperature range, and the temperature of the room in which the washing machine is installed or the temperature in the water tank is detected. If the detected temperature does not exceed the predetermined temperature, hot air is supplied by the hot air supply unit before the water supply stroke performed before the soaking stroke, and if the temperature exceeds the predetermined temperature, the temperature is supplied. A washing machine configured not to supply hot air by the hot air supply unit before the water supply stroke performed before the soaking stroke. Further equipped with a water temperature detection unit that detects the temperature of the water in the water tank,
In the large amount of water course, the operation control means suppresses the agitation amount of the laundry in the washing tub more than when the hot air supply unit does not supply hot air, thereby improving the detection accuracy of the water temperature detection unit. The washing machine according to claim 1 or 2 to be improved.

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