JP3948863B2 - Clothes dryer - Google Patents

Description

[0001]
[Field of the Invention]
The present invention relates to a clothes dryer that selectively executes a clothes drying operation for drying clothes and a hot air supply operation for supplying warm air to the outside.
[0002]
[Prior art]
Conventionally, clothes are housed in a rotating drum, and the rotating drum is rotated to supply warm air into the rotating drum while stirring the clothes in the rotating drum, thereby preventing unevenness in drying and wrinkling of the clothes. 2. Description of the Related Art A clothes dryer that performs a clothes drying operation that suppresses generation and dries clothes is known.
[0003]
Such a clothes dryer is provided with a heating means for heating air (for example, a gas burner) and a fan for generating warm air to be supplied into the rotary drum from the air heated by the heating means. And since the said heating means has comparatively big heating capability, the clothes dryer which carried out the warm air supply operation which supplies the warm air produced | generated by the said heating means and the said fan indoors, and heats a room | chamber interior Has been proposed (Japanese Patent Laid-Open No. 56-89299).
[0004]
As described above, when the clothes drying operation and the hot air supply operation are switched and executed, it is necessary to rotate both the rotating drum and the fan when executing the clothes drying operation, but the hot air supply operation is executed. In this case, it is not necessary to operate the rotating drum, and only the fan needs to be operated.
[0005]
Therefore, in a clothes dryer in which a fan and a rotating drum are rotated by a single motor, a clutch is provided for switching between a connected state in which the motor and the rotating drum are connected and a disconnected state in which the motor and the rotating drum are disconnected. Can be considered. Thus, by providing the clutch and operating the motor with the motor and the rotating drum being disconnected by the clutch, it is possible to rotate only the fan and execute the hot air supply operation. As a result, the motor is released from the load of the rotating drum, so that the power consumption of the motor can be reduced.
[0006]
However, in the clothes dryer having the clutch as described above, when the clothes drying operation or the hot air supply operation is performed, the inventors of the present invention may cause damage to clothes or increase in power consumption. I found out.
[0007]
[Problems to be solved by the invention]
The present invention has been made in view of the above background, and provides a clothes dryer that prevents damage to clothes and an increase in power consumption when clothes drying operation and hot air supply operation are performed. Objective.
[0008]
[Means for Solving the Problems]
The present invention has been made to achieve the above-described object, and includes a rotating drum that houses clothing, a heating unit that heats air, a fan that generates warm air from the air heated by the heating unit, A motor for rotating the fan, motor connection means for switching between a connection state for connecting the motor and the rotation drum, and a connection state for cutting the motor and the rotation drum; and the motor connection means as the connection state for the motor Rotating both the rotating drum and the fan by operating the fan, supplying warm air generated by the rotating operation of the fan into the rotating drum, and drying the garment accommodated in the rotating drum Only the fan is rotated and the fan is rotated by operating the motor while the drying operation and the motor intermittent means are in the disconnected state. Regarding it improvement of the clothes dryer and a driving control means for performing the hot air supply operation for supplying the external selectively warm air generated by the rotation operation.
[0015]
And A connection failure detecting means for detecting that the motor interrupting means is in a connection failure state in which the connection state is maintained and switching to the disconnected state is impossible, and the motor interrupting means is provided by the connection failure detecting means. When it is detected that is in the connection failure state, the operation control means performs at least one of prohibition of execution of the hot air supply operation and notification of the connection failure.
[0016]
When the motor interrupting means is in the connection failure state, the motor driving force is always transmitted to the rotating drum. Therefore, when the hot air supply operation is executed when the motor interrupting means is in the connection failure state, the rotating drum is also rotated together with the intake / exhaust fan. In this case, since the load of the rotating drum is applied to the motor, useless power is consumed. Furthermore, although the warm air supply operation is being performed, unnecessary rotation of the rotating drum is performed, which makes the user feel uncomfortable due to noise generated by the rotating drum.
[0017]
In such a case, according to the present invention, when the connection failure detection means detects a transmission failure of the motor intermittent means, the operation control means includes the prohibition of execution of the hot air supply operation and the detection of the connection failure. Do at least one. Therefore, execution of the warm air supply operation is prohibited by the operation control means, or the user cancels the execution of the clothes drying operation in response to the notification of the cutting failure. Therefore, the hot air supply operation is not performed when the motor interrupting means is in the connection failure state, and wasteful power is consumed and the user feels uncomfortable due to noise generated by the rotating drum. Can be prevented.
[0018]
Further, a rotation speed detection means for detecting the rotation speed of the motor, and the power supplied to the motor are adjusted so that the rotation speed of the motor detected by the rotation speed detection means matches a predetermined target rotation speed. Motor rotation number control means for executing rotation speed control; and current detection means for detecting current flowing through the motor; The motor intermittent means controls the cutting state and the motor rotational speed control means performs the rotational speed control to execute the hot air supply operation, and the connection failure detection means performs the hot air supply operation. While running When the current detected by the current detection means is equal to or greater than a predetermined reference current, or when the power consumption of the motor ascertained from the detected current is equal to or greater than a predetermined reference power, the motor intermittent means is in the connection failure state. It is characterized by judging that it exists in.
[0019]
By performing the rotation speed control, the hot air supply operation is stably executed while maintaining the rotation speed of the motor at the target rotation speed even when the load of the motor fluctuates due to running out of oil or the like. be able to. When the motor is operated at the target rotation speed by the rotation speed control, when the motor interrupting means is in the disconnected state, the motor is not loaded with the rotation drum. The torque that needs to be generated by the motor is smaller than that in the connection failure state where the load is applied. As described above, the magnitude of the current flowing through the motor is proportional to the magnitude of the torque generated by the motor.
[0020]
Therefore, when the rotation speed of the motor matches the target rotation speed by the rotation speed control, the current flowing through the motor is more when the motor interruption means is in the connection failure state than when the motor interruption means is in the disconnection state. growing. Therefore, the current detection means is provided, and in the clothes drying operation, the detection current of the current detection means when the rotation speed of the motor matches the target rotation speed by the rotation speed control becomes equal to or higher than the reference current. Or when the power consumption of the motor ascertained from the detection current of the current value detection means is equal to or higher than the reference power, the connection / disconnection means determines that the connection / disconnection state is in the connection failure state. The failure detection means can be easily configured.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
An example of an embodiment of the present invention will be described with reference to FIGS. 1 is an overall configuration diagram of a clothes dryer of the present invention, FIG. 2 is a control block diagram of the clothes dryer shown in FIG. 1, FIG. 3 is a control block diagram of a motor, and FIGS. 4 to 6 are clothes drying operation and heating. It is an execution flowchart of operation.
[0022]
Referring to FIG. 1, clothing dryer 1 of the present embodiment selects a clothing drying operation for drying clothing and a heating operation for indoor heating (corresponding to the hot air supply operation of the present invention). Is to be executed. The overall operation of the clothes dryer 1 is controlled by a controller 2 including a microcomputer or the like, and the rotating drum 3 in which the clothes S to be dried are stored and the air supplied to the rotating drum 3 are heated. A hot-water heat exchanger 4 that is heated, and an intake / exhaust fan 7 that sucks air heated by the heat exchanger 4 from the intake port 5 into the rotary drum 3 and exhausts air in the rotary drum 3 from the exhaust port 6. And a motor 9 for rotating the intake / exhaust fan 7 and rotating the rotary drum 3 via a clutch 8 (corresponding to the motor interrupting means of the present invention).
[0023]
Furthermore, the clothes dryer 1 is in contact between the electrodes a and b, a door switch 11 for detecting the open / closed state of the door 10 of the rotary drum 3, a clothes temperature thermistor 12 for detecting the temperature of the clothes S in the rotary drum 3, and the electrodes a and b. The temperature of the room in which the clothes dryer 1 is installed, the electrode sensor 13 that is turned ON / OFF according to the wetness of the clothing S, the exhaust temperature thermistor 14 that detects the temperature of the humid air exhausted from the exhaust port 6 A room temperature thermistor 15 to be detected and an operation panel 16 having a switch and the like operated by a user are provided.
[0024]
The exhaust pipe 17 connected to the exhaust port 6 is a branch point X, and warm air communicated with an exhaust passage 20 communicated with a ventilation port 19 provided on a wall surface 18 such as a veranda and a warm air outlet 21 opened indoors. Branches to the supply path 22. A three-way valve 23 is provided at the branch point X. When the three-way valve 23 is in an ON state (outdoor communication state, a state indicated by a dotted line in the figure), the exhaust pipe 17 and the exhaust path 20 communicate with each other. And the hot air supply path 22 are blocked. On the other hand, when the three-way valve 23 is in the OFF state (the indoor communication state, the state indicated by the solid line in the figure), the exhaust pipe 17 and the hot air supply path 22 communicate with each other and the exhaust pipe 17 and the exhaust path 20 are disconnected. Is done.
[0025]
The controller 2 is communicably connected to the hot water heater 25, opens a thermal valve 27 that opens and closes the hot water outlet pipe 26, and transmits a hot water supply start instruction signal to the hot water heater 25, thereby causing the hot water heater 25 to open. Then, the supply of hot water to the heat exchanger 4 is started via the hot water supply outlet pipe 26, and the hot water supplied from the hot water heater 25 to the heat exchanger 4 returns to the hot water heater 25 via the hot water return pipe 28. In addition, the controller 2 transmits a hot water supply temperature instruction signal to the water heater 25.
[0026]
In addition, a filter 29 is attached to the exhaust port 6 in order to prevent lint and dust generated from the clothing S from being discharged to the exhaust pipe 19, and the motor 9 detects the number of rotations of the motor 9. Is provided with a rotation speed sensor 30 (corresponding to the rotation speed detection means of the present invention) using a Hall element.
[0027]
Next, referring to FIG. 2, the controller 2 includes an operation control means 51 for controlling the execution of the clothes drying operation and the heating operation, and a clutch failure detection means 52 for detecting a failure of the clutch 8 (disconnection failure detection of the present invention). And a microcomputer 50 (hereinafter, referred to as a microcomputer 50). The microcomputer 50 outputs the door 10 opening / closing detection signal output from the door switch 11, the temperature detection signal output from the clothing temperature thermistor 12, the exhaust temperature thermistor 14, and the room temperature thermistor 15, and the output from the electrode sensor 13. And a dryness degree detection signal to be inputted. Based on these detection signals, referring to FIG. 1, the microcomputer 50 opens and closes the door 10, the temperature of the clothing S in the rotating drum 3, the temperature of the air discharged from the exhaust port 6, the room temperature, and the clothing S Recognize the degree of dryness.
[0028]
The electrode sensor 13 detects when the resistance value between the electrodes a and b (which increases as the dryness of the clothing contacting the electrodes a and b increases) exceeds a predetermined level (approximately several MΩ). The output is turned on. The operation control means 51 periodically inputs the detection output of the electrode sensor 13 when executing the clothes drying operation, and the ratio of the number of times the detection output of the electrode sensor 13 is ON with respect to the number of inputs per certain time (hereinafter, When the electrode sensor 13 ON frequency) is 95% or more, it is determined that the clothes are dry.
[0029]
Further, the microcomputer 50 outputs a control signal to turn on / off the clutch 8, turn on / off the three-way valve 23, open / close the thermal valve 27, and the rotational speed of the motor 9 through the motor driver 40. And the hot water supply start / stop and the hot water temperature are instructed to the water heater 25.
[0030]
The operation panel 16 includes a power switch 31 for instructing power supply to the clothes dryer 1 and shutting off, a drying switch 32 for instructing the start and end of the clothes drying operation, and a drying lamp 33 that is lit during execution of the clothes drying operation. , A heating switch 34 for instructing the start and end of the heating operation, a heating lamp 35 that is lit during the execution of the heating operation, a display for displaying the remaining time until the end of the clothing drying operation, the room temperature detected by the room temperature thermistor 15, etc. A unit 37, an error lamp 39, and a voice unit 38 for notifying the end of clothes drying operation by voice are provided.
[0031]
Further, although not shown, the operation panel 16 includes a timer setting switch for setting the execution time (timer time) of the clothing drying operation and the heating operation, the operation mode of the clothing drying operation (ON frequency of the electrode sensor 13 and the clothing) A clothing drying operation mode for selecting an automatic drying mode for determining an end time of the clothing drying operation based on a temperature detected by the temperature thermistor 12 and a timer drying mode for executing the clothing drying operation for a time set by the timer setting switch. A selection switch or the like is provided.
[0032]
Next, referring to FIG. 1 and FIG. 2, when the operation control means 51 executes the clothes drying operation, the clutch 8 is turned on (connected state), the motor 9 and the rotary drum 3 are connected, and the three-way valve The motor 9 is operated in a state in which the exhaust pipe 17 is in communication with the exhaust passage 20 by turning ON 23 (outdoor communication state). As a result, the intake / exhaust fan 7 and the rotary drum 3 rotate together, and the air heated by the heat exchanger 4 becomes hot air and is sucked into the rotary drum 3 from the intake port 5, and the clothes S are heated by the hot air. Is heated to dry. Then, the moist air released from the clothing S is exhausted from the exhaust port 6 to the outside through the exhaust pipe 17 and the exhaust path 20. In addition, the rotation of the rotary drum 3 in this manner prevents the clothes S from being agitated and causing uneven drying or wrinkles of the clothes 3.
[0033]
On the other hand, when the heating operation is executed, it is not necessary to rotate the rotating drum 3. Therefore, the operation control means 51 turns the clutch 8 OFF (disconnected state) to disconnect the motor 9 and the rotary drum 3, turns the three-way valve 23 OFF (indoor communication state), and connects the exhaust pipe 17 to the hot air supply path 22. The motor 9 is actuated in the state of communication. As a result, only the intake / exhaust fan 7 rotates and the air heated by the heat exchange 4 becomes warm air and is sucked into the rotary drum 3 from the intake port 5, and the hot air passes through the rotary drum 3. Then, the air is exhausted from the exhaust port 6 to the exhaust pipe 17 as it is. The warm air exhausted from the exhaust pipe 17 is discharged into the room from the warm air outlet 21 via the warm air supply path 22.
[0034]
Further, in the clothes drying operation and the heating operation, the operation control means 51 operates while maintaining the rotation speed of the motor 9 at a predetermined target rotation speed, and the clutch failure detection means 52 detects the presence or absence of the failure of the clutch 8. Referring to FIG. 3, the operation control means 51 provides a target rotational speed ω to the motor driver 40 (corresponding to the motor rotational speed control means of the present invention). _A Instruct. The motor driver 40 then detects the actual rotational speed ω of the motor 9 detected by the rotational speed sensor 30. _F Is the target speed ω _A Rotational speed control is performed to adjust the power supplied to the motor 9 so as to coincide with.
[0035]
Specifically, the motor driver 40 detects the zero cross point by a detection signal from the zero cross detection circuit 61 that detects a time point (zero cross point) at which the output voltage of the commercial power supply 60 shifts from positive to negative and from negative to positive. The electric power supplied to the motor 9 is adjusted by so-called phase control that adjusts the time from when the zero cross point is detected until the trigger signal is output to the thyristor 62.
[0036]
Then, the rotational speed of the motor 9 is changed to the target rotational speed ω by controlling the rotational speed in this way. _A The torque that needs to be generated in the motor 9 in order to maintain the torque increases as the load applied to the motor 9 increases. The torque generated by the motor 9 is proportional to the current flowing through the motor 9. Therefore, the rotation speed of the motor 9 is the target rotation speed ω _A , The load applied to the motor 9 can be recognized from the current flowing through the motor 9 or the power consumption of the motor 9 that varies according to the current.
[0037]
Therefore, the clutch failure detection means 52 detects the current flowing through the motor 9 from the detection output of the current detection circuit 63, and grasps the power consumption of the motor 9 from the current. Then, by recognizing the load applied to the motor 9 from the power consumption of the motor 9, it is detected whether or not the clutch 8 is in a failure state.
[0038]
Here, the clutch 8 switches between connection and disconnection of the rotating shaft (driving shaft) on the motor 9 side and the rotating shaft on the rotating drum 3 side by switching between supply and interruption of electric power to an electromagnetic coil (not shown). It is an electromagnetic clutch. Therefore, a disconnection failure in which the motor 9 and the rotary drum 3 maintain a disconnected state and cannot be switched to a connected state due to disconnection of a cable for supplying electric power to the electromagnetic coil or a dust engagement with the operating portion of the clutch 8. In addition, there may be a connection failure in which the motor 9 and the rotary drum 3 maintain the connection state and cannot be switched to the disconnected state.
[0039]
When a cutting failure occurs, the rotary drum 3 that should be connected to the motor 9 is disconnected from the motor 9 in the clothes drying operation, so that the load on the motor 9 is reduced and the motor 9 is consumed. Electric power decreases. Therefore, the clutch failure detection means 52 is configured such that the power consumption of the motor 9 when the clothes drying operation is executed is such that the clutch 9 is normal, that is, when the motor 9 and the rotating drum 3 are in the connected state. It is determined that the clutch 8 is in a disconnection failure state when the power is equal to or lower than a connection reference power (for example, 150 W, corresponding to the reference power of the present invention) determined based on the power consumption.
[0040]
On the other hand, when a connection failure occurs, the rotary drum 3 that should be disconnected from the motor 9 is connected to the motor 9 in the heating operation, so the load on the motor 9 increases. Therefore, the clutch failure detection means 52 uses the motor 9 when the power consumption of the motor 9 when the heating operation is executed is normal, that is, when the motor 9 and the rotary drum 3 are disconnected. When it becomes equal to or higher than the disconnection reference power (for example, 100 W, corresponding to the reference power of the present invention) determined based on the power, it is determined that the clutch 8 is in the connection failure state.
[0041]
Next, with reference to FIGS. 1 and 2, the procedure for executing the clothes drying operation and the heating operation by the operation control means 51 and the clutch failure detection means 52 will be described according to the flowcharts shown in FIGS.
[0042]
When performing the clothes drying operation, referring to FIG. 1, the user puts clothes S, which is an object to be dried, into the rotary drum 3, closes the door 10, and turns on the power switch 31 of the operation panel 16 (see FIG. 2). ) Is turned ON. On the other hand, when performing the heating operation, the user closes the door 10 in a state where no clothes are stored in the rotating drum 3 and turns on the power switch 31.
[0043]
Referring to FIG. 2, when the user turns on power switch 31 of operation panel 16, power supply to controller 2 is started and microcomputer 50 starts to operate, and the power supplied to operation panel 16 is also supplied. Switches other than the switch 31 can be operated. Then, when the door switch 11 is turned on in STEP 1 of FIG. 4, that is, when the door 10 is in a closed state, the operation control means 51 proceeds to STEP 2, and the drying switch 32 is turned ON in STEP 2. It waits for the heating switch 34 to be turned on in STEP40.
[0044]
When the user selects the operation mode (automatic drying mode, timer drying mode) of the clothing drying operation, and selects the timer drying mode, the execution time (timer time) of the clothing drying operation is further set, and the drying switch 32 is set. When the ON operation is performed, the process proceeds from STEP 2 to STEP 3, and the operation control means 51 starts executing the clothes drying operation. The operation control means 51 turns on the three-way valve 23 in STEP 3 (outdoor communication state), opens the thermal valve 27 in STEP 4 and performs hot water supply start processing for instructing the hot water heater 25 to start hot water supply, and in STEP 5 the clutch 8 Is turned on (connected state), and the motor 9 is operated in STEP6.
[0045]
1, the rotary drum 3 and the intake / exhaust fan 7 rotate together, and the air heated by the heat exchanger 4 is sucked into the rotary drum 3 as hot air, Clothing S is heated. Then, the humid air released from the clothing S is exhausted from the exhaust port 6 to the exhaust pipe 17, and is exhausted from the ventilation port 19 to the outside via the exhaust path 20.
[0046]
Then, the operation control means 51 executes the subsequent loop of STEP7 to STEP10. The operation control means 51 controls the rotational speed of the motor 9 via the motor driver 40 in STEP 7 (see FIG. 3). When the drying switch 32 is turned OFF in STEP 8, the operation control means 51 branches to STEP 20, and the operation shown in FIG. The subroutine of STEP80 to STEP85 is executed to stop the clothes drying operation. That is, in step 81, the heat control valve 27 is closed to perform hot water supply stop processing for instructing the hot water heater 25 to stop hot water supply. In step 82, the motor 9 is turned off. In step 83, the clutch 8 is turned off (disconnected state). Turn off the three-way valve 23. Then, proceeding to STEP 1, the operation control means 51 waits for the ON operation of the drying switch 32 and the heating switch 34 again at STEP 2 and STEP 40.
[0047]
STEP 9 is a process performed by the clutch failure detection means 52. The clutch failure detection means 52 is connected to the motor 9 by the current detection circuit 63 when the motor 9 is maintained at the target rotation speed by the rotation speed control (STEP 7). By detecting the magnitude of the flowing current, the power consumption of the motor 9 is grasped, and when the power consumption of the motor 9 becomes 150 W (connection reference power) or less, it is determined that the clutch 8 is in the disconnection failure state and STEP 30 Branch to Then, similarly to STEP 20, the processing of STEP80 to STEP85 in FIG. 6 is executed, and the execution of the clothes drying operation is stopped.
[0048]
Thus, by stopping the execution of the clothes drying operation when the clutch 8 is in the disconnection failure state, it is prohibited to execute the clothes drying operation with the rotating drum 3 stopped. As a result, it is possible to prevent the clothes S in the rotating drum 3 from being partially heated by warm air and causing uneven drying, or wrinkles, shrinkage, etc., and damage to the clothes S. Then, in the next STEP 31, the operation control means 51 displays an error on the display unit 37 of the operation panel 16 and turns on the error lamp 39 to notify the user that a disconnection failure of the clutch 8 has occurred.
[0049]
Further, in STEP 10, when the condition for ending the clothes drying operation is satisfied, that is, in the automatic drying operation, it is determined that the drying of the clothes S is completed from the ON frequency of the electrode sensor 13, the detected temperature of the clothes temperature thermistor 12, and the like. In the timer drying operation, when the set timer time has elapsed, the process proceeds to STEP 11, and the operation control means 51 performs the clothes drying operation end process (STEP 80 to STEP 85 in FIG. 6), and continues. In STEP 12, the display unit 37 displays the end of the clothes drying operation, and the sound unit 38 outputs a sound for notifying the end of the clothes drying operation (for example, “drying is completed”) to execute the clothes drying operation. finish.
[0050]
Further, when the user sets the target room temperature for the heating operation and performs the timer operation, the timer time is further set, and when the heating switch 34 is turned ON, the operation proceeds from STEP 40 to STEP 41 in FIG. Starts performing the heating operation. The operation control means 51 turns off the three-way valve 23 (in indoor communication state) at STEP 41, opens the thermal valve 27 at STEP 42, performs hot water supply start processing for instructing the hot water heater 25 to start hot water supply, and at STEP 43 the clutch 8 Is turned off (disconnected state), and the motor 9 is operated in STEP44.
[0051]
Thereby, referring to FIG. 1, only the intake / exhaust exhaust fan 7 is rotated (rotary drum 3 is in a stopped state), and the air heated by the heat exchanger 4 is sucked into the rotary drum 3 as warm air. . Then, the warm air passes through the rotary drum 3 and is exhausted as it is from the exhaust port 6 to the exhaust pipe 17 and is supplied into the room through the warm air supply path 22 from the warm air outlet 21 to heat the room. Is called.
[0052]
Then, the operation control means 51 executes the subsequent loop of STEP45 to STEP48. The operation control means 51 controls the rotation speed of the motor 9 (= the rotation speed of the intake / exhaust fan 7) via the motor driver 40 so that the room temperature detected by the room temperature thermistor 15 matches the target room temperature in STEP45. At the same time, temperature control for giving an instruction to change the hot water supply temperature to the water heater 25 is performed.
[0053]
Further, when the heating switch 34 is turned off in STEP 46, the process branches to STEP 60, and the subroutine (heating operation end process) of STEP 90 to STEP 93 in FIG. 6 is executed to end the heating operation. That is, in step 91, the thermal valve 27 is closed to perform hot water supply stop processing for instructing the hot water heater 25 to stop hot water supply, and in step 92, the motor 9 is turned off. Then, proceeding to STEP 1, the operation control means 51 waits for the ON operation of the drying switch 32 and the heating switch 34 again at STEP 2 and STEP 40.
[0054]
The next STEP 47 is a process by the clutch failure detection means 52. The clutch failure detection means 52 is connected to the motor 9 by the current detection circuit 63 when the motor 9 is operating at the target rotation speed by the rotation speed control (STEP 45). By detecting the flowing current, the power consumption of the motor 9 is grasped, and when the power consumption of the motor 9 becomes 100 W (disconnection reference power) or more, it is determined that the clutch 8 is in the connection failure state, and the process branches to STEP 70. . And a heating operation completion | finish process (STEP90-STEP93) is performed and execution of heating operation is stopped.
[0055]
Thus, by stopping the heating operation when the clutch 8 is in the connection failure state, the heating operation is prohibited from being performed while the rotating drum 3 is rotating. As a result, it is possible to prevent the motor 9 from consuming unnecessary electric power due to the load of the rotating drum 3, and the rotating drum 3 rotates in spite of the heating operation, which makes the user feel uncomfortable. Giving can be prevented.
[0056]
Then, in the next STEP 71, the operation control means 51 displays an error on the display unit 37 of the operation panel 16, turns on the error lamp 39, and notifies the user that a clutch 8 connection failure has occurred.
[0057]
In STEP 48, when the heating operation end condition is satisfied, that is, when the set time of the timer heating operation has elapsed, the process proceeds to STEP 49, where the operation control means 51 performs the heating operation end process (STEP 90 to STEP 90 in FIG. 6). STEP 93) is executed, and in the subsequent STEP 50, the end of the heating operation is displayed on the display unit 37, and a sound (for example, “heating is finished”) is output by the sound unit 38 to notify the end of the heating operation. The execution of the operation is terminated.
[0058]
In this embodiment, the clutch failure detection means 52 grasps the power consumption of the motor 9 from the current flowing through the motor 9 detected by the current detection circuit 63, and is connected to the disconnection failure of the clutch 8 based on the power consumption. Although the failure is detected, the disconnection failure and the connection failure of the clutch 8 may be directly detected from the current detected by the current detection circuit 63.
[0059]
Furthermore, a position detection sensor for detecting the operation position of the clutch 8 (a position according to the connected state and a position according to the disconnected state) is provided, and when the clutch 8 is turned ON / OFF, the clutch 8 is set to a corresponding position. By confirming whether or not it has been operated by the position detection sensor, a disconnection failure and a connection failure of the clutch 8 may be detected.
[0060]
In the present embodiment, the clutch 8 is used as the motor interrupting means of the present invention. However, the motor interrupting means may be configured by other means, for example, using a tension pulley or the like.
[0061]
In the present embodiment, a clothes dryer having a function of performing room heating is shown. However, any clothes dryer that supplies hot air to the outside by switching connection / disconnection between the motor and the rotating drum ( For example, the present invention can be applied to a clothes dryer that performs a bathroom drying operation in which warm air is supplied from a warm air supply path to a bathroom to dry the bathroom.
[0062]
Further, in the present embodiment, a motor that has a rotation speed sensor and controls the rotation speed of the motor is shown. However, without having the rotation speed sensor, a constant voltage is applied to the motor to dry the clothes and perform heating. The present invention can also be applied to a clothes dryer that performs driving.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of a clothes dryer.
FIG. 2 is a control block diagram of the clothes dryer.
FIG. 3 is a control block diagram of a motor.
FIG. 4 is an execution flowchart of clothes drying operation and heating operation.
FIG. 5 is an execution flowchart of clothes drying operation and heating operation.
FIG. 6 is an execution flowchart of clothes drying operation and heating operation.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Clothes dryer, 2 ... Controller, 3 ... Rotary drum, 4 ... Heat exchanger, 5 ... Intake port, 6 ... Exhaust port, 7 ... Intake / exhaust fan, 8 ... Clutch, 9 ... Motor, 10 ... Door, 11 DESCRIPTION OF SYMBOLS ... Door switch, 12 ... Clothes temperature thermistor, 13 ... Electrode sensor, 14 ... Exhaust temperature thermistor, 15 ... Room temperature thermistor, 16 ... Operation panel, 17 ... Exhaust pipe, 18 ... Wall, 19 ... Ventilation port, 20 ... Exhaust passage, DESCRIPTION OF SYMBOLS 21 ... Warm air blower outlet, 22 ... Warm air supply path, 25 ... Water heater, 27 ... Thermal valve, 40 ... Motor driver, 31 ... Power switch, 32 ... Drying switch, 34 ... Heating switch, 50 ... Microcomputer, 51 ... Operation control means, 52 ... clutch failure detection means

Claims (2)

A rotating drum for storing clothing, a heating means for heating air, a fan for generating warm air from the air heated by the heating means, a motor for rotating the fan, and the motor and the rotating drum are connected. Motor intermittent means for switching between a connection state to be cut and a cutting state to cut the motor and the rotating drum;
By operating the motor with the motor intermittent means in the connected state, both the rotating drum and the fan are rotated, and hot air generated by the rotating operation of the fan is supplied into the rotating drum to rotate the motor. Warm air generated by the clothes drying operation for drying the clothes housed in the drum, and rotating the fan only by operating the motor with the motor intermittent means in the disconnected state, and rotating the fan. In a clothes dryer provided with operation control means for selectively executing hot air supply operation for supplying the air to the outside as it is,
Connection failure detection means is provided for detecting that the motor interruption means maintains a connection state and switching to the disconnection state is impossible, and the motor interruption means is provided by the connection failure detection means. When it is detected that the connection failure state is detected, the operation control means performs at least one of prohibition of execution of the hot air supply operation and notification of the connection failure. Machine. Rotation speed detection means for detecting the rotation speed of the motor, and rotation speed for adjusting the power supplied to the motor so that the rotation speed of the motor detected by the rotation speed detection means matches a predetermined target rotation speed Motor rotational speed control means for executing control, and current detection means for detecting current flowing in the motor,
The operation control means performs control to set the disconnected state by the motor intermittent means and performs the rotational speed control by the motor rotational speed control means to execute the hot air supply operation,
The connection failure detection means is configured such that when the detected current by the current detection means becomes a predetermined reference current or more during execution of the hot air supply operation or the power consumption of the motor grasped from the detected current is a predetermined reference. 2. The clothes dryer according to claim 1, wherein when the power becomes equal to or higher than electric power, the motor interrupting means determines that the connection failure state exists.

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