JP6890068B2 - Clothes dryer - Google Patents

Description

The present invention relates to a clothes dryer.

Patent Document 1 describes a drum for accommodating clothes, a burner for heating air sent from the outside into the drum, and a blowout temperature which is the temperature of air after being heated by the burner and before being sent into the drum. A clothes dryer including a blow-out temperature sensor for detecting the temperature and a control device is disclosed. In this clothes dryer, a lint filter is provided in an exhaust path through which air is discharged from the inside of the drum to the outside to prevent lint and the like generated in the drum from being discharged to the outside.

Generally, when the lint filter is blocked by lint, the amount of air passing through the drum decreases. As a result, the blowing temperature becomes higher than before the lint filter is closed. In the clothes dryer of Patent Document 1, the control device monitors the blowout temperature detected by the blowout temperature sensor after the fan and the burner are operated to start the drying operation, and determines whether or not the lint filter is blocked. However, if it is blocked, a notification operation is performed.

Japanese Unexamined Patent Publication No. 6-319898

In a situation where the lint filter is blocked, the lint filter may not be cleaned promptly and the drying operation may be continued as it is. In such cases, the drying operation may not be completed properly.

The present specification discloses a clothes dryer capable of appropriately performing a drying operation.

The clothes dryer disclosed in the present specification includes a drum for accommodating clothes, a fan for sending air into the drum from the outside, a burner for heating the air sent into the drum, and after being heated by the burner. The blowout temperature sensor that detects the blowout temperature, which is the temperature of the air before being sent into the drum, the relational temperature detecting means that detects the relational temperature related to the drying of clothes in the drum, and the control device. , Equipped with. After starting the drying operation by operating the burner and the fan, the control device stops the burner when the related temperature becomes equal to or higher than a predetermined off threshold value, and then stops the burner. The burner control operation for reactivating the burner when the related temperature falls below a predetermined on-threshold value lower than the predetermined off-threshold value can be executed. The control device starts the burner control operation when the related temperature becomes equal to or higher than the predetermined off threshold value for the first time after starting the drying operation, and after starting the drying operation, the related temperature. Is corrected for the predetermined off-threshold value according to the blowing temperature until is equal to or higher than the predetermined off-threshold value for the first time.

It is highly possible that the outlet temperature is in a stable state at the time when the relational temperature becomes equal to or higher than the predetermined off threshold value for the first time (hereinafter referred to as “transition time”). On the other hand, after the drying operation is started, the clothes may stick to the lint filter and the blowing temperature may become high until the related temperature becomes equal to or higher than the predetermined off threshold value for the first time. However, the sticking of clothing to the lint filter is often a temporary phenomenon. That is, the sticking of clothing to the lint filter is eliminated in a relatively short period of time, and the blowing temperature returns to the original level. In such a situation, the blowout temperature after stabilization may be lower than the blowout temperature which has become high due to the sticking of clothing to the lint filter. Even if the outlet temperature temporarily rises, it is highly possible that the outlet temperature has returned to a stable temperature at the time of transition. According to the above configuration, after starting the drying operation, the control device corrects the predetermined off-threshold value according to the blowing temperature until the related temperature becomes equal to or higher than the predetermined off-threshold value for the first time. Therefore, even if the blowout temperature temporarily rises due to a phenomenon such as clothing sticking to the lint filter, the control device corrects a predetermined off threshold value to an appropriate value corresponding to the degree of clogging of the lint filter. Can be done. Therefore, the control device can appropriately perform the drying operation by utilizing an appropriate predetermined off-threshold value. As a result, the drying operation is properly completed. The case where the drying operation is properly completed is the case where the drying operation time is appropriate, or the case where the clothes are in an appropriate dry state after the drying operation is completed.

The clothes dryer may further include a notification device for notifying an error. After starting the drying operation, the control device drives the notification device to perform the drying operation when the blowing temperature is equal to or higher than the first predetermined value until the related temperature reaches the predetermined off threshold value or higher for the first time. After starting, when the related temperature becomes equal to or higher than the predetermined off threshold value for the first time, the notification device may be driven when the blowing temperature is equal to or higher than the second predetermined value lower than the first predetermined value. ..

According to the above configuration, when the related temperature becomes the predetermined off-threshold value or more for the first time after starting the drying operation, the blowout temperature is the case where the predetermined off-threshold value is equal to or more than the second predetermined value. To drive the notification device. As mentioned above, the outlet temperature is likely to be stable at the time of transition. Therefore, the control device can appropriately determine whether or not to drive the notification device even when the blowing temperature temporarily rises due to, for example, sticking of clothing to the lint filter.

Further, when the blowing temperature is relatively high, it is necessary to notify the user at an early stage that the lint filter needs to be cleaned. According to the above configuration, the control device drives the notification device when the blowing temperature is equal to or higher than the first predetermined value after the drying operation is started until the related temperature reaches a predetermined off threshold value for the first time. Let me. Therefore, it is possible to notify the user at an early stage that the lint filter needs to be cleaned.

After starting the drying operation, the control device may correct a predetermined on-threshold value according to the blowing temperature until the related temperature becomes equal to or higher than a predetermined off-threshold value for the first time.

According to the above configuration, the clothes dryer can correct the on-threshold as well as the off-threshold. As a result, the number of times the burner is repeatedly activated and stopped can be adjusted, and the temperature inside the drum can be appropriately maintained at a temperature suitable for drying clothes.

It is a figure which shows typically the structure of the clothes dryer 2 of an Example. It is a flowchart which shows the main processing by the control device 70 of an Example. It is a flowchart which shows the blockage correction processing by the control device 70 of an Example. It is a flowchart which shows the course determination process by the control device 70 of an Example. It is a flowchart which shows the clothes temperature control processing by the control device 70 of an Example. It is a flowchart which shows the exhaust temperature temperature control processing by the control device 70 of an Example. This is an example of the correction value table of the embodiment. It is a graph which shows the clothes temperature, the exhaust temperature, the blowing temperature, the clothes temperature off set value, the clothes temperature on set value, and the transition of the operation state of the solenoid valve in the drying operation executed by the clothes dryer 2 of an Example.

(Example)
(Structure of clothes dryer 2; FIG. 1)
As shown in FIG. 1, the clothes dryer 2 includes a housing 4, a door 6, a drum 10, a fan 14, a burner 30, and a control device 70.

The housing 4 is the main body of the clothes dryer 2. Each of the above elements of the clothes dryer 2 is housed in the housing 4. On the front surface of the housing 4 (left side in FIG. 1), an operation unit 8 provided with a notification lamp and a plurality of operation buttons is provided. The user can input various instructions to the clothes dryer 2 via the operation unit 8. The door 6 is a door provided on the front surface of the housing 4.

The drum 10 is a container for accommodating the clothes C to be dried. The drum 10 is rotated by a motor 12. A front opening 10a is opened on the front side of the drum 10 and is closed by the door 6. The user of the clothes dryer 2 can open the door 6 to put the clothes C into the drum 10 through the front opening 10a, and can take out the clothes C from the drum 10. Further, on the front side of the drum 10 and on the side of the front opening 10a, an air outlet 36 for sending air after being heated by the burner 30 into the drum 10 is also opened.

An electrode 50 and a clothing temperature thermistor 60 are provided in the drum 10. The electrode 50 detects the moisture contained in the clothing C. The clothing temperature thermistor 60 detects the temperature of clothing C in the drum 10 (hereinafter referred to as “clothing temperature”). When the clothes C come into contact with the electrode 50 and the clothes temperature thermistor 60 as the drum 10 rotates, the electrodes 50 can detect the moisture content of the clothes C, and the clothes temperature thermistor 60 can detect the clothes temperature. Further, a weight sensor (not shown) is also provided in the drum 10. The weight sensor detects the weight of clothing C in the drum 10.

Further, a rear surface opening 10b is opened on the rear surface side (right side in FIG. 1) of the drum 10. The rear opening 10b is closed by the lint filter 16. The lint filter 16 is a filter for collecting lint generated from clothes C and the like in the drum 10. The lint filter 16 allows air to pass through, but captures lint contained in the air without passing through it.

The fan 14 is arranged behind the drum 10. By operating the fan 14, air is sent into the drum 10 from the outside of the housing 4 (see arrows W1 to W3 in FIG. 1), and the air inside the drum 10 is sent to the back surface of the housing 4 (in FIG. 1). (Right side) It can be sent out toward the exhaust port 20 formed on the upper surface in the vicinity (see arrows W4 to W6 in FIG. 1). The exhaust temperature thermistor 22 is provided in the vicinity of the exhaust port 20 and is a thermistor that detects the temperature of the air sent from the drum 10 toward the exhaust port 20 (hereinafter, may be referred to as “exhaust temperature”). is there.

The burner 30 is arranged below the drum 10. The burner 30 uses the heat of combustion of the gas to heat the air sent from the outside into the drum 10 via the air outlet 36 (see arrow W3). Gas as fuel is supplied to the burner 30 via the gas supply pipe 32. The gas supply pipe 32 is provided with a solenoid valve 34 for opening and closing the gas supply pipe 32. A blowout temperature thermistor 40 is provided between the burner 30 and the outlet 36. The blowout temperature thermistor 40 detects the temperature (hereinafter referred to as “blowout temperature”) of the air after being heated by the burner 30 (that is, the air sent into the drum 10 from the blowout port 36 (see arrow W3)). The thermistor.

The control device 70 is electrically connected to each component in the housing 4 of the clothes dryer 2 described above, and controls the operation of each component. The correction value table 72 (see FIG. 7) is stored in the control device 70. The correction value table 72 will be described later.

(Operation of clothes dryer 2)
Next, the operation of the clothes dryer 2 of this embodiment will be described. When the user puts the clothes C into the drum 10 and inputs a predetermined drying start operation via the operation unit 8 of the clothes dryer 2, the clothes dryer 2 executes the drying operation. While the drying operation is executed, the control device 70 executes each process shown in FIGS. 2 to 6.

(Main processing; Fig. 2)
FIG. 2 shows a flowchart of the main process executed by the control device 70 during the drying operation of the clothes dryer 2. When the drying start operation is input to the operation unit 8, the control device 70 starts the main process of FIG. In S10, the control device 70 rotates the motor 12 and the fan 14 and operates the burner 30. As a result, the drying operation is started. In the following, operating the burner 30 (that is, putting it in a combustion state) is called "turning on the burner 30", and stopping the burner 30 (that is, putting it in a fire extinguishing state) is called "turning off the burner 30". In some cases.

In S12, the control device 70 sets the on / off duty at this time to pattern 1. Here, the "on-off duty" refers to a period during which the burner 30 is turned on (hereinafter referred to as an "on period") and a period during which the burner 30 is turned off (hereinafter referred to as "on period") in a predetermined unit period (60 seconds in this embodiment). In the following, it is referred to as the "off period"). As will be described in detail later, after the drying operation is started in S10 and the exhaust temperature becomes equal to or higher than the predetermined exhaust temperature off set value, the control device 70 switches the burner 30 on / off according to this on / off duty. Temperature control (see FIG. 6) is performed. As shown in FIG. 6, there are a plurality of predetermined patterns of on / off duty. For example, in pattern 1, of the 60 seconds that is the unit period, the on period is 50 seconds and the off period is 10 seconds. Pattern 2 has an on period of 45 seconds and an off period of 15 seconds. Pattern 3 has an on period of 40 seconds and an off period of 20 seconds. In this way, each pattern is set so that the on period becomes shorter and the off period becomes longer as the numerical value of the pattern advances by one step. In S12 of FIG. 2, the control device 70 sets the on / off duty to pattern 1.

In S14, the control device 70 tentatively determines the operation course of the drying operation based on the weight of the clothes C in the drum 10 and the degree of dehydration of the clothes C, and determines whether or not the result is rated. .. The weight of the garment C is detected by a weight sensor (not shown) in the drum 10. The degree of dehydration of clothing C is calculated based on the frequency with which the electrode 50 detects moisture in clothing C. When the weight and the degree of dehydration of the clothing C are within the predetermined rated range, the control device 70 determines that the provisional determination result of the driving course is rated. In this case, the control device 70 determines YES in S14, and the process proceeds to S16. On the other hand, when the weight or the degree of dehydration of the clothes C is out of the predetermined rated range (for example, when the clothes C are too much or too little (excess or small amount), the clothes C have already been dried to a considerable extent. (High dehydration), etc.), the control device 70 determines that the provisional determination result of the operation course is not rated. In this case, the control device 70 determines NO in S14, and the process proceeds to S18. Further, in S14, the control device 70 further sets that the main determination (hereinafter, simply referred to as “main determination”) of the operation course of the dry operation is “undetermined”.

In S16 and S18, the control device 70 sets each initial value of the clothing temperature off initial value, the clothing temperature on initial value, the exhaust temperature off initial value, and the exhaust temperature on initial value. Here, the "clothing temperature off initial value" is an initial setting value of the clothes temperature that serves as a reference for turning off the burner 30 after the start of the drying operation. The “clothing temperature on initial value” is an initial setting value of the clothing temperature that serves as a reference for turning on the burner 30 again after turning off the burner 30 once. The “exhaust air temperature off initial value” is an initial set value of the exhaust air temperature that serves as a reference for turning off the burner 30 after the start of the drying operation. The "exhaust air temperature on initial value" is an initial set value of the exhaust air temperature that serves as a reference for turning on the burner 30 again after turning off the burner 30 once. In the case of S16 and the case of S18, the value of each initial value to be set is different.

In S16, the initial value of clothing temperature off and the initial value of clothing temperature on are set to 90 ° C. and 70 ° C., respectively. Then, the exhaust temperature off initial value and the exhaust temperature on initial value are set to 72 ° C. and 71 ° C., respectively.

On the other hand, in S18, the initial value of clothing temperature off and the initial value of clothing temperature on are set to 85 ° C. and 65 ° C., respectively. Then, the exhaust temperature off initial value and the exhaust temperature on initial value are set to 70 ° C. and 68 ° C., respectively.

In S20, the control device 70 sets the blockage level to "0" and initially initializes each correction value of the clothing temperature off correction value, the clothing temperature on correction value, the exhaust temperature off correction value, and the exhaust temperature on correction value. Set. Specifically, the control device 70 initially sets each correction value based on the correction value table 72 (see FIG. 7). As shown in FIG. 7, in the correction value table 72, each correction value is associated with each blockage level. At the time of S20, all the correction values are set to 0. The "clothing temperature off correction value" is a clothing temperature off setting value which is a reference value for turning off the burner 30 after the start of the drying operation by correcting the above clothing temperature off initial value. It is a value for calculating. Further, the "clothing temperature on correction value" is a setting value of the clothing temperature which is a reference for correcting the above-mentioned clothing temperature on initial value, turning off the burner 30 once, and then turning on the burner 30 again. This is a value for calculating the clothing temperature on setting value. Further, the "exhaust air temperature off correction value" is an exhaust air temperature off set value which is a reference value for turning off the burner 30 after the start of the drying operation by correcting the above-mentioned exhaust air temperature off initial value. It is a value for calculating. Further, the "exhaust air temperature on correction value" is a set value of the exhaust air temperature that is a reference for correcting the above-mentioned exhaust air temperature on initial value, turning off the burner 30 once, and then turning on the burner 30 again. It is a value for calculating the exhaust temperature on set value.

In S22, the control device 70 calculates each set value of the clothes temperature off set value, the clothes temperature on set value, the exhaust temperature off set value, and the exhaust temperature on set value. The clothing temperature off setting value is a value obtained by subtracting the clothing temperature off correction value from the clothing temperature off initial value. The clothing temperature on setting value is a value obtained by subtracting the clothing temperature on correction value from the clothing temperature on initial value. The exhaust temperature off setting value is a value obtained by subtracting the exhaust temperature off correction value from the exhaust temperature off initial value. The exhaust temperature on setting value is a value obtained by subtracting the exhaust temperature on correction value from the exhaust temperature on initial value. In S22 immediately after the drying operation is started in S10, each correction value is set to 0 (S20), so that each set value becomes the same value as each initial value set in S16 or S18.

Next, the control device 70 executes each monitoring of S24 and S26. In S24, the control device 70 monitors that the exhaust temperature detected by the exhaust temperature thermistor 22 becomes equal to or higher than the exhaust temperature off set value. When the exhaust temperature becomes equal to or higher than the exhaust temperature off set value, the control device 70 determines YES in S24 and executes each process after S140 in FIG. 6 (hereinafter, referred to as "exhaust temperature control process"). ..

In S26, the control device 70 monitors that the clothing temperature detected by the clothing temperature thermistor 60 becomes equal to or higher than the clothing temperature off set value. When the clothes temperature becomes equal to or higher than the clothes temperature off set value, the control device 70 determines YES in S26, and executes each process after S110 in FIG. 5 (hereinafter, referred to as "clothes temperature control process"). .. On the other hand, if NO is determined in S24 and S26, the process proceeds to S28.

In S28, the control device 70 determines whether or not this determination has been determined. When the process after S90 in FIG. 4 (hereinafter, referred to as “course determination process”) has been executed, the control device 70 determines that this determination has been completed. When this determination has been determined, the control device 70 determines YES in S28, and executes the process after S50 in FIG. 3 (hereinafter, referred to as “blockage correction process”). On the other hand, if this determination has not been executed, the control device 70 determines NO in S28, and the process proceeds to S30.

In S30, the control device 70 monitors that a predetermined period (for example, 2 minutes and 30 seconds) has elapsed since the drying operation was started in S10. When a predetermined period has elapsed since the drying operation was started in S10, the control device 70 determines YES in S30 and executes the course determination process (FIG. 4). On the other hand, when the predetermined period has not elapsed, the control device 70 determines NO in S30 and executes the blockage correction process (FIG. 3).

(Occlusion correction processing; Fig. 3)
The contents of the blockage correction process will be described with reference to FIGS. 3 and 7. The blockage correction process is a process for setting each correction value of the clothing temperature off correction value, the clothing temperature on correction value, the exhaust temperature off correction value, and the exhaust temperature on correction value. In the following processing, the setting of each correction value is executed using the correction value table 72 (see FIG. 7). Therefore, in the following description, the description of "using the correction value table 72" will be omitted in the setting of each correction value.

In S50, the control device 70 sets the blockage level to “0” and sets each correction value to the correction value corresponding to the blockage level 0.

In S52, the control device 70 determines whether or not the blowout temperature detected by the blowout temperature thermistor 40 is 130 ° C. or higher and lower than 150 ° C. When the blowing temperature is within the range of 130 ° C. or higher and lower than 150 ° C., the control device 70 determines YES in S52, and the process proceeds to S54. When the lint filter 16 is blocked by the lint, the air volume of the air flowing through the ventilation path of the clothes dryer 2 is reduced, and the blowing temperature is increased accordingly. When the lint filter 16 is hardly blocked, the blowing temperature is usually maintained in the range of less than 130 ° C., but when the lint filter 16 is blocked, the blowing temperature rises to 130 ° C. or higher. Then, as the degree of closure of the lint filter 16 increases, the blowing temperature also increases. In S54, the control device 70 sets the blockage level to "1" and resets each correction value. In S54, the clothing temperature off correction value is set to 5, the clothing temperature on correction value is set to 5, the exhaust temperature off correction value is set to 3, and the exhaust temperature on correction value is set to 3, respectively. When S54 is completed, the process proceeds to S56. On the other hand, when the blowing temperature is outside the range of 130 ° C. or higher and lower than 150 ° C., the control device 70 determines NO in S52, and the process skips S54 and proceeds to S56.

In S56, the control device 70 determines whether or not the blowing temperature is 150 ° C. or higher and lower than 170 ° C. When the blowing temperature is within the range of 150 ° C. or higher and lower than 170 ° C., the control device 70 determines YES in S56, and the process proceeds to S58. In S58, the control device 70 sets the blockage level to "2" and resets each correction value. In S56, the clothing temperature off correction value is set to 10, the clothing temperature on correction value is set to 10, the exhaust temperature off correction value is set to 5, and the exhaust temperature on correction value is set to 5, respectively. When S58 is finished, the process proceeds to S60. On the other hand, when the blowing temperature is outside the range of 150 ° C. or higher and lower than 170 ° C., the control device 70 determines NO in S56, and the process skips S58 and proceeds to S60.

In S60, the control device 70 determines whether or not the blowing temperature is 170 ° C. or higher and lower than 190 ° C. When the blowing temperature is within the range of 170 ° C. or higher and lower than 190 ° C., the control device 70 determines YES in S60 and proceeds to S62. In S62, the control device 70 sets the blockage level to "3" and resets each correction value. In S62, the clothing temperature off correction value is set to 15, the clothing temperature on correction value is set to 15, the exhaust temperature off correction value is set to 10, and the exhaust temperature on correction value is set to 10, respectively. When S62 is finished, the process proceeds to S64. On the other hand, when the blowing temperature is outside the range of 170 ° C. or higher and lower than 190 ° C., the control device 70 determines NO in S60, and the process skips S62 and proceeds to S64.

In S64, the control device 70 determines whether or not the blowing temperature is 190 ° C. or higher and lower than 210 ° C. When the blowing temperature is in the range of 190 ° C. or higher and lower than 210 ° C., the control device 70 determines YES in S64 and proceeds to S66. In S66, the control device 70 sets the blockage level to "4" and resets each correction value. In S64, the clothing temperature off correction value is set to 20, the clothing temperature on correction value is set to 20, the exhaust temperature off correction value is set to 15, and the exhaust temperature on correction value is set to 15, respectively. When S66 is finished, the process proceeds to S68. On the other hand, when the blowing temperature is outside the range of 190 ° C. or higher and lower than 210 ° C., the control device 70 determines NO in S64, and the process skips S66 and proceeds to S68.

In S68, the control device 70 determines whether or not the blowing temperature is 210 ° C. or higher and lower than 230 ° C. When the blowing temperature is within the range of 210 ° C. or higher and lower than 230 ° C., the control device 70 determines YES in S68 and proceeds to S70. In S70, the control device 70 sets the blockage level to "5" and resets each correction value. In S68, the clothing temperature off correction value is set to 30, the clothing temperature on correction value is set to 30, the exhaust temperature off correction value is set to 18, and the exhaust temperature on correction value is set to 18, respectively. When S70 is finished, the process proceeds to S72. On the other hand, when the blowing temperature is outside the range of 210 ° C. or higher and lower than 230 ° C., the control device 70 determines NO in S68, and the process skips S70 and proceeds to S72.

In S72, the control device 70 determines whether or not the blowing temperature is 230 ° C. or lower. When the blowing temperature exceeds 230 ° C., the control device 70 determines NO in S72, and the process proceeds to S74. Then, in S74, the control device 70 stops the drying operation with an error. In this case, the control device 70 stops the motor 12 and the fan 14, and turns off the burner 30. Then, the control device 70 turns on the notification lamp. When S74 is finished, the control device 70 ends the drying operation with an error. As a result, the user who sees the notification lamp can know that the lint filter 16 is currently blocked and needs to be cleaned. On the other hand, when the blowing temperature is 230 ° C. or lower, the control device 70 determines YES in S72, and the process returns to S22 in FIG. That is, in S22, the control device 70 recalculates each set value by using each correction value (any of S50, S54, S58, S62, S66, and S70 in FIG. 3) set at this time. To do. Then, the drying operation is continued according to each set value calculated again.

As described above, the control device 70 repeatedly executes the blockage correction process (FIG. 3) until it is determined to be YES in S24 or S26, and each setting is made using the latest correction values set during that period. The drying operation is continued while updating the value as needed (S22 in FIG. 2).

(Course judgment processing; Fig. 4)
The content of the course determination process will be described with reference to FIG. The course determination process is a process that is executed only once when a predetermined period elapses without being determined as YES in S24 and S26 of FIG.

In S90, the control device 70 determines (this determination) the operation course of the drying operation based on the weight of the clothes C in the drum 10 and the degree of dehydration of the clothes C, and whether or not the result is the rating. To judge. Since the processing content of S90 is the same as that of S14 of FIG. 2, detailed description thereof will be omitted. If the determination result of the driving course is determined to be rated (YES in S90), the process proceeds to S92. On the other hand, when it is determined that the determination result of the driving course is not rated (NO in S90), the process proceeds to S94. Further, in S90, the control device 70 sets that this determination is "determined".

The processes of S92 and S94 are the same as the processes of S16 and S18 of FIG. 2, respectively. When S92 or S94 is completed, the process proceeds to S50 in FIG. That is, the control device 70 executes the blockage correction process.

(Clothing temperature control treatment; Fig. 5)
The clothing temperature control process will be described with reference to FIG. In S110, the control device 70 determines whether or not the blockage level is 4 or more. That is, the control device 70 determines whether or not the blowing temperature is 190 ° C. or higher. When the blockage level is 4 or 5, the control device 70 determines YES in S110, and the process proceeds to S112. In S112, the control device 70 turns on the notification lamp. As a result, the user who sees the notification lamp can know that the lint filter 16 is currently blocked and needs to be cleaned. On the other hand, when the blockage level is 0 to 3, the control device 70 determines NO in S110, and the process skips S110 and proceeds to S114.

In S114, the control device 70 turns off the burner 30. In S116, the control device 70 monitors that the clothes temperature becomes less than the clothes temperature on set value. When the clothing temperature drops below the clothing temperature on set value after the burner 30 is turned off, the control device 70 determines YES in S116, and the process proceeds to S118.

In S118, the control device 70 turns on the burner 30 again. Then, the control device 70 executes monitoring of S120 and S122. In S120, the control device 70 monitors that the exhaust air temperature becomes equal to or higher than the exhaust air temperature off set value. When the exhaust temperature becomes equal to or higher than the exhaust temperature off set value, the control device 70 determines YES in S120 and executes the exhaust temperature adjustment process of FIG. In this case, the clothing temperature control process is completed. In S122, the control device 70 monitors that the clothes temperature becomes equal to or higher than the clothes temperature off set value. When the clothing temperature becomes equal to or higher than the clothing temperature off set value, the control device 70 determines YES in S122, and the process returns to S114. That is, the control device 70 controls the operation of the burner 30 based on the clothing temperature until the exhaust temperature becomes equal to or higher than the exhaust temperature off set value.

(Exhaust temperature control treatment; Fig. 6)
The contents of the exhaust air temperature control process will be described with reference to FIG. The processes of S140 and S142 are the same as the processes of S110 and S112 of FIG. 5, respectively.

In S144, the control device 70 turns off the burner 30 and starts an off timer for counting the off period. Next, the control device 70 executes monitoring of S146 and 148. In S146, the control device 70 monitors that the off period elapses after starting the off timer in S144. If the off period has not elapsed, the control device 70 determines NO in S146, and the process proceeds to S148. In S148, the control device 70 monitors that the exhaust air temperature becomes less than the exhaust air temperature on set value. When the exhaust air temperature drops below the exhaust air temperature on set value after the burner 30 is turned off, the control device 70 determines YES in S148, and the process proceeds to S150. On the other hand, when the off period elapses, the control device 70 determines YES in S146, and the process skips S148 and proceeds to S150.

In S150, the control device 70 turns on the burner 30 again and starts an on timer for counting the on period.

In S152, the control device 70 monitors that the on period has elapsed. When the on period elapses, the control device 70 determines YES in S152, and the process returns to S144. On the other hand, when the on period has not elapsed, the control device 70 determines NO in S152, and the process proceeds to S154.

The process of S154 is the same as that of S26 of FIG. When the clothing temperature is equal to or higher than the clothing temperature off set value, the control device 70 determines YES in S154, and the process proceeds to S156. On the other hand, when the clothing temperature is less than the clothing temperature off set value, the control device 70 determines NO in S154, and the process proceeds to S170. In S156, the control device 70 turns off the burner 30.

Next, the control device 70 executes monitoring of S158 and S160. In S158, the control device 70 monitors that the clothing temperature becomes less than the clothing temperature on set value. When the clothing temperature drops below the clothing temperature on set value after the burner 30 is turned off, the control device 70 determines YES in S158, and the process proceeds to S160. In S160, the control device 70 monitors that the exhaust air temperature becomes less than the exhaust air temperature on set value. When the exhaust air temperature drops below the exhaust air temperature ON set value after the burner 30 is turned off, the control device 70 determines YES in S160, and the process returns to S152.

Further, in S170, the control device 70 determines whether or not the exhaust air temperature is equal to or higher than the exhaust air temperature off set value. When the exhaust temperature is equal to or higher than the exhaust temperature off set value, the control device 70 determines YES in S170, and the process proceeds to S172. On the other hand, when the exhaust air temperature is less than the exhaust air temperature off set value, the control device 70 determines NO in S170, and the process returns to S152.

In S172, the control device 70 advances the on / off duty pattern by one step. For example, if the on / off duty pattern is set to pattern 1 (ie, on: off = 50 seconds: 10 seconds), in S172, the controller 70 sets the on / off duty pattern to pattern 2 (ie, on: off). = 45 seconds: 15 seconds). When S172 is finished, the process returns to S144, and the control device 70 turns off the burner 30 again and starts the off timer. After that, the control device 70 executes each process of S144 to S172 according to the on period and the off period indicated by the on / off duty pattern after the change in S172.

As described above, each of the above processes (see FIGS. 2 to 6) is executed during the execution of the drying operation. When a predetermined drying operation time has elapsed, or when a predetermined drying stop operation is input to the operation unit 8, the control device 70 turns off the burner 30 and stops the motor 12 and the fan 14 to dry. End the operation. In that case, the processes of FIGS. 2 to 6 are also completed.

(Drying operation; Fig. 8)
An example of the drying operation realized by the processes of FIGS. 2 to 6 will be described with reference to FIG. FIG. 8 is a graph showing changes in the blowing temperature, the exhaust temperature, the clothing temperature, the clothing temperature off set value, the clothing temperature on set value, and the operating state of the solenoid valve 34. “ON” of the solenoid valve 34 indicates that the burner 30 is operating, and “OFF” indicates that the burner 30 is stopped. In addition, in order to make the graph easier to see, the exhaust temperature off setting value and the exhaust temperature on setting value are omitted. Further, in the drying operation of FIG. 8, since the exhaust temperature does not exceed the exhaust temperature off set value, the description of the initial value, the correction value, and the installation value regarding the exhaust temperature will be omitted below. In the drying operation of FIG. 8, the weight of the clothes C is 7 kg, which is outside the rated range of the weight of the clothes C. The drying operation time is set to 45 minutes. Further, the lint filter 16 is closed to some extent.

At time T0, when the drying start operation is input to the operation unit 8, the control device 70 starts the main process (FIG. 2). Then, the control device 70 rotates the motor 12 and the fan 14 and operates the burner 30 (S10 in FIG. 2) to set the on / off duty to the pattern 1 (S12 in FIG. 2). Then, the control device 70 determines that the result of the provisional determination of the driving course is not rated (NO in S14 of FIG. 2), and sets the clothing temperature off initial value and the clothing temperature on initial value, respectively. The temperature is set to 85 ° C. and 65 ° C. (S18 in FIG. 2). Next, the control device 70 sets the blockage level to "0", initializes each correction value (clothing temperature off correction value, clothing temperature on correction value) (S20 in FIG. 2), and sets each set value (clothing temperature). The off set value and the clothing temperature on set value) are calculated (S22 in FIG. 2). At this point, each set value is the same as each initial value.

When the blowout temperature reaches 130 ° C. at time T1, the control device 70 determines that the blowout temperature is within the range of 130 ° C. or higher and lower than 150 ° C. (YES in S52 of FIG. 3), and sets the blockage level from 0 to 1. And reset each correction value (S54 in FIG. 3). Then, the control device 70 corrects the clothes temperature off set value and the clothes temperature on set value to 80 ° C. and 60 ° C., respectively (S22 in FIG. 2).

When the blowout temperature reaches 150 ° C. at time T2, the control device 70 determines that the blowout temperature is within the range of 150 ° C. or higher and lower than 170 ° C. (YES in S56 of FIG. 3), and sets the blockage level from 1 to 2. And reset each correction value (S58 in FIG. 3). Then, the control device 70 corrects the clothes temperature off set value and the clothes temperature on set value to 75 ° C. and 55 ° C., respectively (S22 in FIG. 2).

When the predetermined time (2 minutes and 30 seconds) has elapsed at the time T3, the control device 70 determines that the predetermined time has elapsed (YES in S30 of FIG. 2), and executes the course determination process of FIG. The control device 70 determines that the result of the main determination of the driving course is not rated (NO in S90 in FIG. 4), and determines each initial value (S92 in FIG. 4).

When the blowout temperature reaches 170 ° C. at time T4, the control device 70 determines that the blowout temperature is within the range of 170 ° C. or higher and lower than 190 ° C. (YES in S60 of FIG. 3), and sets the blockage level to 2 to 3. And reset each correction value (S62 in FIG. 3). Then, the control device 70 corrects the clothes temperature off set value and the clothes temperature on set value to 70 ° C. and 50 ° C., respectively (S22 in FIG. 2).

In the drying operation of FIG. 8, the blowing temperature temporarily rises between the time immediately before the time T5 and the time T6. This is because the clothing C is attached to the lint filter 16. In this case, when the blowout temperature reaches 190 ° C. at time T5, the control device 70 determines that the blowout temperature is within the range of 190 ° C. or higher and lower than 210 ° C. (YES in S64 of FIG. 3), and sets the blockage level. Change from 3 to 4 and reset each correction value (S66 in FIG. 3). Then, the control device 70 corrects the clothes temperature off set value and the clothes temperature on set value to 65 ° C. and 45 ° C., respectively (S22 in FIG. 2).

At time T6, when the sticking of the clothing C to the lint filter 16 is eliminated, the blowing temperature sharply decreases. Then, at time T7, when the blowing temperature becomes less than 190 ° C., the control device 70 determines that the blowing temperature is within the range of 170 ° C. or higher and lower than 190 ° C. (YES in S60 of FIG. 3), and sets the blockage level to 4. Is changed to 3 and each correction value is reset (S62 in FIG. 3). That is, the control device 70 lowers the blockage level. Then, the control device 70 corrects the clothes temperature off set value and the clothes temperature on set value to 70 ° C. and 50 ° C., respectively (S22 in FIG. 2).

When the blowout temperature reaches 190 ° C. at time T8, the control device 70 determines that the blowout temperature is within the range of 190 ° C. or higher and lower than 210 ° C. (YES in S64 of FIG. 3), and sets the blockage level to 3 to 4. And reset each correction value (S62 in FIG. 3). Then, the control device 70 corrects the clothes temperature off set value and the clothes temperature on set value to 65 ° C. and 45 ° C., respectively (S22 in FIG. 2).

When the blowout temperature becomes less than 190 ° C. at time T9, the control device 70 determines that the blowout temperature is within the range of 170 ° C. or higher and lower than 190 ° C. (YES in S60 of FIG. 3), and sets the blockage level to 4 to 3. And reset each correction value (S62 in FIG. 3). Then, the control device 70 corrects the clothes temperature off set value and the clothes temperature on set value to 70 ° C. and 50 ° C., respectively (S22 in FIG. 2).

When the clothes temperature reaches 70 ° C. at time T10, the control device 70 determines that the clothes temperature is equal to or higher than the clothes temperature off set value (YES in S26 of FIG. 2), and performs the clothes temperature adjustment process of FIG. Execute. After that, the control device 70 controls the operation of the burner 30 by using the clothes temperature off set value (70 ° C.) and the clothes temperature on set value (50 ° C.) at the time of time T10. The control device 70 determines that the blockage level is less than 4 (S110 in FIG. 5), and turns off the burner 30 without turning on the notification lamp (S114 in FIG. 5). After stopping the burner 30, the control device 70 turns on the burner 30 again when the clothing temperature becomes less than 50 ° C. (YES in S116 of FIG. 5). After turning on the burner 30 again, the control device 70 turns off the burner 30 when the clothes temperature becomes 70 ° C. or higher (YES in S122 in FIG. 5) (S114 in FIG. 5). The control device 70 repeatedly executes these processes from the start of the drying operation until 45 minutes have elapsed.

The configuration and operation contents of the clothes dryer 2 of this embodiment have been described above. As described above, when the clothes temperature becomes equal to or higher than the clothes temperature off set value for the first time after starting the drying operation (time T10 in FIG. 8, hereinafter referred to as “transition time”), the blowing temperature is determined. The temperature is stable. On the other hand, after the drying operation is started, the clothes C stick to the lint filter 16 until the clothes temperature becomes equal to or higher than the clothes temperature off set value for the first time (time T0 to time T10 in FIG. 8), and the blowing temperature is temporarily stopped. It may become hot (time T5 to T6 in FIG. 8). However, the sticking of clothing C to the lint filter 16 is often a temporary phenomenon. That is, the sticking of the clothing C to the lint filter 16 is eliminated in a relatively short period of time, and the blowing temperature returns to the original level. In such a situation, the blowout temperature after stabilization (at the time of time T10 in FIG. 8) is higher than the blowout temperature (the blowout temperature at time T6 in FIG. 8) which has become higher due to the sticking of clothing C to the lint filter 16. Blow-out temperature) may be low. Even if the outlet temperature temporarily rises due to the clothing C sticking to the lint filter 16, it is highly possible that the outlet temperature has returned to a stable temperature at the time of transition. According to the above configuration, the control device 70 corrects the clothes temperature off setting value according to the blowing temperature until the clothes temperature becomes equal to or higher than the clothes temperature off installation value for the first time after the start of the drying operation. Therefore, even when the blowing temperature temporarily rises due to a phenomenon such as the clothing C sticking to the lint filter 16, the control device 70 appropriately sets the clothing temperature off setting value to correspond to the degree of clogging of the lint filter 16. It can be corrected to a value. Therefore, the control device 70 can appropriately execute the drying operation by using the appropriate clothes temperature off setting value (drying operation after the time T10 in FIG. 8). As a result, the drying operation is properly completed. The case where the drying operation is appropriately completed is a case where the drying operation time is appropriate, or a case where the drying state of the clothes C after the drying operation is completed is appropriate.

Further, the control device 70 is a notification lamp when the clothes temperature becomes equal to or higher than the clothes temperature off set value for the first time after starting the drying operation (YES in S26 of FIG. 2) and the blowing temperature is 190 ° C. Is lit (S110, S112 in FIG. 5). At the time of transition, the outlet temperature is likely to be relatively stable. Therefore, the control device 70 can appropriately determine whether or not to turn on the notification lamp even when the blowing temperature temporarily rises due to a phenomenon such as the clothing C sticking to the lint filter 16. ..

Further, when the blowing temperature is relatively high (230 ° C. or higher in this embodiment), it is necessary to notify the user at an early stage that the lint filter 16 needs to be cleaned. According to the above configuration, the control device 70 has a blowout temperature of 230 ° C. or higher after the drying operation is started until the clothes temperature becomes the clothes temperature off set value or more for the first time (in S72 of FIG. 3). YES), turn on the notification lamp. Therefore, it is possible to notify the user at an early stage that the lint filter 16 needs to be cleaned.

Further, in the present embodiment, the control device 70 corrects the clothing temperature on correction value and the exhaust temperature on correction value together with the clothing temperature off correction value and the exhaust temperature off correction value in the blockage correction process of FIG. Therefore, the clothing temperature and the exhaust temperature (that is, the clothing temperature off set value and the exhaust temperature off set value) which are the reference when the burner 30 is turned off, and the clothing temperature and the exhaust temperature which are the reference when the burner 30 is turned on are used. (That is, the clothing temperature on set value and the exhaust temperature on set value) can also be corrected. Therefore, the number of times the burner 30 is repeatedly turned on and off can be adjusted, and the temperature inside the drum 10 can be appropriately maintained at a temperature suitable for drying the clothes C.

(Correspondence)
Clothing temperature or exhaust temperature is an example of "related temperature". The clothing temperature thermistor 60 or the exhaust temperature thermistor 22 is an example of the “related temperature detecting means”. The clothing temperature off setting value or the exhaust temperature off setting value is an example of the “predetermined off threshold value”. The clothing temperature on setting value or the exhaust temperature on setting value is an example of the “predetermined on threshold value”. The notification lamp of the operation unit 8 is an example of the “notification device”. 230 ° C. in S72 and 190 ° C. in S64 are examples of "first predetermined value" and "second predetermined value", respectively.

Although the examples have been described in detail above, these are merely examples and do not limit the scope of claims. The techniques described in the claims include various modifications and modifications of the specific examples illustrated above.

(Modification 1) The control device 70 sets the notification lamp when the blowout temperature reaches 190 ° C. before the clothes temperature exceeds the clothes temperature off set value, that is, before the clothes temperature control process is started. When the lamp is turned on and the blowing temperature returns to less than 190 ° C., the notification lamp may be turned off. Further, the control device 70 may turn on the notification lamp when the time when the blowing temperature is 190 ° C. or higher exceeds a predetermined time before the clothing temperature exceeds the clothing temperature off set value.

(Modification 2) The control device 70 sets only the clothing temperature off correction value and the exhaust temperature off correction value in S20 of FIG. 2 and S54, S58, S62, S66, and S70 of FIG. 3, and the clothing temperature on correction value. And the setting of the exhaust temperature on correction value may be omitted. In this case, in S22 of FIG. 2, the control device 70 may specify the clothing temperature on initial value and the exhaust temperature on initial value as they are as the clothing temperature on set value and the exhaust temperature on set value (that is,). You do not have to calculate to reduce the correction value).

The technical elements described herein or in the drawings exhibit their technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing. In addition, the techniques illustrated in the present specification or drawings can achieve a plurality of purposes at the same time, and achieving one of the purposes itself has technical usefulness.

2: Clothes dryer 4: Housing 6: Door 8: Operation unit 10: Drum 10a: Front opening 10b: Rear opening 12: Motor 14: Fan 16: Lint filter 20: Exhaust port 22: Exhaust temperature thermistor 30: Burner 32: Gas supply pipe 34: Solenoid valve 36: Outlet 40: Outlet temperature thermistor 50: Electrode 60: Clothing temperature thermistor 70: Control device C: Clothing

Claims (3)

A drum to store clothes and
A fan that sends air into the drum from the outside,
A burner that heats the air sent into the drum and
An outlet temperature sensor that detects the outlet temperature, which is the temperature of the air after being heated by the burner and before being sent into the drum.
A related temperature detecting means for detecting a related temperature related to drying of clothes in the drum, and a related temperature detecting means.
Equipped with a control device,
The control device is
After starting the drying operation by operating the burner and the fan, the burner is stopped when the related temperature becomes equal to or higher than a predetermined off threshold value, and after the burner is stopped, the related temperature is changed. The burner control operation for reactivating the burner when the value falls below a predetermined on-threshold value lower than the predetermined off-threshold value can be executed.
The control device is
After starting the drying operation, when the related temperature becomes equal to or higher than the predetermined off threshold value for the first time, the burner control operation is started.
After starting the drying operation, the predetermined off-threshold value is corrected according to the blowing temperature until the related temperature becomes equal to or higher than the predetermined off-threshold value for the first time.
Clothes dryer. Equipped with a notification device to notify the error
The control device is
After starting the drying operation, the notification device is driven when the blowing temperature is equal to or higher than the first predetermined value until the related temperature becomes equal to or higher than the predetermined off threshold value for the first time.
When the related temperature becomes equal to or higher than the predetermined off threshold value for the first time after starting the drying operation, the blowing temperature is equal to or higher than the second predetermined value lower than the first predetermined value. The clothes dryer according to claim 1, which drives the notification device. The control device is
The clothes drying according to claim 1 or 2, after starting the drying operation, the predetermined on-threshold value is corrected according to the blowing temperature until the related temperature becomes equal to or higher than the predetermined off-threshold value for the first time. Machine.

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