JP3713756B2 - Clothes dryer - Google Patents

Description

[0001]
[Industrial application fields]
  The present invention supplies hot air to a rotating drum to dry clothes, and volatilizes and diffuses a drug having at least one of antibacterial properties, antifungal properties, deodorant properties, and insectproof properties. The present invention relates to a clothes dryer capable of anti-wrinkle, deodorant and insect-proof treatment.
[0002]
[Prior art]
  2. Description of the Related Art Conventionally, a clothes dryer is configured to dry wet clothes by washing or the like by putting clothes in a rotating drum and passing warm air through the clothes while rolling and stirring the clothes.
[0003]
  In recent years, some of these clothes dryers have a sterilizing and acaricidal function. This exhibits a bactericidal and acaricidal effect by wet heat drying by maintaining the clothing at a predetermined temperature or higher during constant rate drying in the drying process.
[0004]
  On the other hand, clothing is commercially available that has been subjected to adsorption treatment of drugs having antibacterial, antifungal and anti-mite effects. This antibacterial clothing is treated with an antibacterial agent before its purchase, and when washing is repeated, the antibacterial agent is often washed away by the mechanical force, and the antibacterial effect gradually decreases. It is displayed. Furthermore, even in the case of commercially available antibacterial treatment clothing, bleaching is a prohibited matter because the bleaching agent decomposes the antibacterial agent even if stain-like stains adhere.
[0005]
  Among them, in antibacterial treatment clothing using natural vegetable oils having antibacterial properties, natural vegetable oils exert their antibacterial action when vaporized, so that the amount of natural vegetable oils on clothing gradually decreases. As is clear from this, it is extremely difficult to maintain the initial performance over the long term. For this reason, although it becomes very expensive, the antimicrobial agent is encapsulated into microcapsules, and the microcapsules are gradually broken and vaporized by physical action such as friction when worn.
[0006]
[Problems to be solved by the invention]
  With conventional clothes dryers that have a sterilizing and acaricidal effect, clothes can be dried hygienically, but after drying is finished, they are contaminated with mites and germs while they are stored in bags, etc. receive. That is, even if it can be dried hygienically, it is a transient effect that cannot maintain the state continuously.
[0007]
  In addition, commercially available antibacterial treatment clothing generally has a durability problem that the antibacterial action gradually decreases when washing is repeated. In order to exhibit antibacterial properties over a long period of time, a large amount of drug must be adsorbed in the initial stage, and therefore, when antibacterial treatment clothing is worn, there is a possibility that beneficial skin resident bacteria will be sterilized. In addition, advanced technical means for microencapsulating natural vegetable oils as drugs are taken, resulting in expensive clothing. As a result, only limited clothing such as in-hospital clothing for MRSA in hospitals and pajamas with antibacterial properties with natural antibacterial agents for atopic dermatitis are provided. There is no problem.
[0008]
  In addition, clothing that has been antibacterial treated with natural antibacterial agents for childhood atopic dermatitis needs to purchase new antibacterial clothing in line with the rapid growth of children. Although it is conceivable to spray the antibacterial agent directly with a spray or the like to exert its antibacterial action, it is necessary to attach an appropriate amount from the viewpoint of safety and effectiveness, but it is not possible to adhere the antibacterial agent uniformly to the clothing as much as necessary. It is extremely difficult. There is also a risk of inhaling antibacterial agents and attaching antibacterial agents to other things.
[0009]
  Also, today, as we are facing an aging society, antibacterial and deodorizing treatments have been applied to provide comfortable and hygienic lifestyles against the backdrop of weak skin (dry skin) of the elderly, an increase in bedridden elderly people, and nursing homes. Bedding and bedding are expected.
[0010]
  An object of the present invention is to solve the above-described problems, and an object of the present invention is to make it possible to efficiently perform antibacterial treatment after drying washed clothes.
[0011]
[Means for Solving the Problems]
  In order to achieve the above object, the present invention provides a rotating drum for stirring clothes, a blowing means for sending warm air into the rotating drum, a first heating means provided in a blowing path into the rotating drum, A motor that rotationally drives the rotating drum or the air blowing means, and a medicine supply means that vaporizes and supplies a medicine having at least one of antibacterial, antifungal, deodorant, and insectproof properties in the rotating drum; Control for controlling the operation of the second heating means for heating the medicine supply means, the input setting means capable of setting the operation for vaporizing and supplying the medicine, the motor, the first heating means, and the second heating means. And the control means performs an operation of only drying, only chemical vaporization, or dry + chemical vaporization by the input setting means.The aboveDuring the drying process of drying + chemical vaporization operationSaidThe heating amount of the first heating meansSaidIt is important to control it to be lower than in the case of the drying process only.1As a means to solve the problem.
[0012]
  Also,A rotating drum for stirring clothing; a blowing means for sending warm air into the rotating drum; a first heating means provided in a blowing path into the rotating drum; and a motor for rotationally driving the rotating drum or the blowing means And a chemical supply means for vaporizing and supplying a chemical having at least one of antibacterial, antifungal, deodorant and insectproof properties in the rotating drum, and a second heating for heating the chemical supply means Means, and input setting means capable of setting an operation for vaporizing and supplying the medicine;Temperature detection means for detecting the temperature in the rotating drumAnd control means for controlling the operation of the motor, the first heating means, and the second heating means;WithSaidThe control meansWith the input setting means, only dry, only drug vaporization, or dry + drug vaporization is performed.When the temperature input from the temperature detection means is equal to or higher than the set temperatureSaidControl to reduce the heating amount of the first heating means,SaidThe set temperature during the drying process of drying + chemical vaporization operationSaidIt is important to make it lower than in the case of only the drying process.2As a means to solve the problem.
[0013]
  Also,A rotating drum for stirring clothing; a blowing means for sending warm air into the rotating drum; a first heating means provided in a blowing path into the rotating drum; and a motor for rotationally driving the rotating drum or the blowing means And a chemical supply means for vaporizing and supplying a chemical having at least one of antibacterial, antifungal, deodorant and insectproof properties in the rotating drum, and a second heating for heating the chemical supply means Means, and input setting means capable of setting an operation for vaporizing and supplying the medicine;Rotation detection means for detecting the rotation speed or rotation cycle of the rotating drumAnd control means for controlling the operation of the motor, the first heating means, and the second heating means;WithSaidThe control meansWith the input setting means, only dry, only drug vaporization, or dry + drug vaporization is performed.Input rotation speed or rotation cycle data from the rotation detection means,SaidThe rotation speed or rotation cycle of the rotating drum during the drying process of drying + chemical vaporization operationSaidIt is important to control it to be lower than in the case of the drying process only.3As a means to solve the problem.
[0014]
[Action]
  The present invention provides a single operation for antibacterial treatment of dry clothing and a single operation for drying clothing by means of input setting means different from that for setting a normal clothing drying course by the first problem solving means described above. Since you can select the driving and the continuous operation to dry the clothes and then antibacterial treatment in order, you can improve the usabilityWithThe drying amount of the first heating means is controlled to be lower than that during single operation for drying clothes during drying in continuous operation in which antibacterial treatment is continued after drying the clothes. The temperature inside can be lowered, and the amount of the volatilized drug can be reduced. And the leakage of the medicine from the inside of the rotating drum to the outside of the rotating drum caused by the rotation of the rotating drum can be reduced.
[0015]
  The second2The problem solving means ofSeparate input operation means for antibacterial treatment of dry clothing, single operation for drying clothing, and antibacterial treatment after drying of clothing by means of input setting different from that for setting a normal clothing drying course Since continuous operation can be selected in order, usability can be improved,When the temperature detected by the temperature detection means becomes higher than the temperature control temperature (set temperature) during drying during continuous operation where the clothes are dried and then antibacterial treated, the heating amount of the first heating means is reduced.LetSince the temperature control temperature is made lower than that during the single operation for drying the clothes, the temperature in the rotating drum during the drying operation can be lowered, and the amount of the volatilized drug can be reduced. And the leakage of the medicine from the inside of the rotating drum to the outside of the rotating drum caused by the rotation of the rotating drum can be reduced.
[0016]
  The second3The problem solving means ofSingle operation for antibacterial treatment of dry clothing, single operation for drying clothing by input setting means different from setting normal clothing drying course Since you can select the driving and continuous operation to dry the clothes and then antibacterial treatment in order, you can improve the usability,During drying in continuous operation where the garment is dried and then antibacterial treated, the rotation speed of the rotating drum is set lower than that in the single operation for drying the clothing, so that the rotation drum rotates from the inside of the rotating drum. Leakage of air to the outside of the rotating drum can be reduced, and the amount of chemical leaking out of the rotating drum due to volatile diffusion due to warming of the inside of the rotating drum during the drying operation can be reduced.
[0017]
【Example】
  Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.
[0018]
  As shown in FIG. 2, the rotary drum 1 is rotatably supported on the rear surface in the dryer main body 2, and is slidably supported by the outer peripheral flange portion of the annular drum front support plate 3 on the front surface. The drum belt 5 is driven to rotate. The lid 6 covers a clothing input port provided on the front surface of the dryer body 2 so as to be freely opened and closed. The drying heater (first heating means) 7 heats the drying air that flows into the rotary drum 1.
[0019]
  A heat exchange type fan (air blowing means) 8 is rotatably disposed at the rear part of the rotary drum 1 and is driven to rotate by a motor 4 and a fan belt 9. The heat exchange type fan 8 is heated and circulated in the dryer body 2. It has an air blowing function and a heat exchange function inside and outside the dryer body 2. The fan casing 10 forms a circulation path and a cooling path for the air flow discharged from both the front and back surfaces of the heat exchange type fan 8.
[0020]
  The filter 11 is provided on the rear surface of the rotary drum 1 to remove yarn waste and the like. The rear surface of the dryer main body 2 is covered with a back plate 12. The circulation duct 13 constitutes a ventilation path that guides the circulation side exhaust of the fan casing 10 to the drying heater 7. A drainage port 14 is formed in a part of the circulation duct 13, and the heat exchange action of the heat exchange type fan 8 The generated condensed water is discharged.
[0021]
  The carrier 15 constitutes a medicine supply means, and is made of a porous material such as a pulp material, a foamed synthetic resin, a metal sintered body, an antibacterial agent such as hinokitiol, mint oil, benzalkonium chloride, anti-wrinkle, deodorant, It carries a suitable amount of a drug having at least one property of insect repellent.
[0022]
  The vaporizing heater (second heating means) 16 heats the carrier 15 to vaporize the carried medicine. As shown in FIG. 3, the heater supporting member 17 is provided before and after the vaporizing heater 16. And a heater cover 18 provided so as to cover the terminal 16 a of the vaporizing heater 16. The lid inner surface member 19 constitutes the inner surface of the lid body 6 that opens and closes the clothing input port, and a base portion 20 for integrally mounting the bulging carrier 15 on the rotating drum 1 side is integrally provided at the substantially central portion. Yes. The carrier 15 is formed by a gap between the heating surface 16b of the vaporizing heater 16 and a part of the base portion 20 and a cover portion 20b having a plurality of through holes 20a.
[0023]
  Next, as shown in FIG. 1, the first thermistor (temperature detection means) 21 is disposed at the inlet of the heat exchange type fan 8 so as to detect the temperature in the rotating drum 1, and the second thermistor 22. Is arranged at the inlet of the drying heater 7 and detects the temperature of the drying air heat-exchanged by the heat exchange type fan 8. The respective temperatures detected by the first thermistor 21 and the second thermistor 22 are input to the dryness detection means 23 to detect the dryness of the clothes in the rotary drum 1. As an example, there is a method of detecting the change amount of the temperature difference Ts between the temperature TH1 of the first thermistor 21 and the temperature TH2 of the second thermistor 22 at regular intervals.
[0024]
  The input setting means 24 can set an operation course and the like, and can set each course of a dry operation, an antibacterial coating operation, and the like. The display means 25 is composed of a light emitting diode (hereinafter referred to as LED) or the like, and displays the driving course set by the input setting means 24 to notify the user.
[0025]
  A magnet 26 attached to the rotating drum 1 and a magnetic sensor 27 fixed to the main body generate a pulse signal corresponding to the number of rotations of the rotating drum 1, and the rotation detecting means 28 inputs the pulse signal. The number of rotations of the rotating drum 1 is detected from the pulse period.
[0026]
  The control means 29 inputs the rotation speed of the rotary drum 1 from the rotation detection means 28 and controls the rotation speed of the rotary drum 1 and the heat exchange type fan 8 by controlling the operation of the motor 4 by the motor drive means 30. This control method can be easily realized by controlling the phase of the motor driving means 30. The control unit 29 displays the setting contents on the display unit 25 based on the setting from the input setting unit 24 and controls the operation of the drying operation and the antibacterial coating operation.
[0027]
  This is done by inputting the degree of drying of the clothes from the drying detecting means 23, controlling the operation of the drying heater 7 by the heater driving means 31, and controlling the operation of the motor 4 by the motor driving means 30 to perform the drying operation. Control. Furthermore, the vaporizing heater driving means 32 controls the vaporizing heater 16 to control the supply of the medicine into the rotary drum 1.
[0028]
  The rotation detection means 28, the drying detection means 23, and the control means 29 can be easily configured by a one-chip microcomputer 33 or the like, 34 is a power switch, and 35 is a commercial power supply.
[0029]
  FIG. 4 shows an operation display unit according to an embodiment of the present invention. An antibacterial coat switch (input setting means) 24a is a switch for setting an operation for antibacterial treatment of clothes, and a course switch 24c is a normal drying unit. A switch for setting the driving, and one of six courses such as the standard course can be selected. The heater soft switch 24b sets the strength of the heater and the like, and the start / pause switch 24d is a switch for starting or stopping the operation. The display means 25 is composed of a display device such as 10 LEDs 25a to 25j, and the corresponding LEDs are lit on the basis of the contents set by the switches described above.
[0030]
  The operation of the above configuration will be described with reference to FIGS.
[0031]
  FIG. 5 shows a change in setting when the antibacterial coat switch 24a is pressed from the initial state. (A) is an initial state, a standard course for drying clothes is set, and the strength of the heater is set to high. Therefore, when the antibacterial coat switch 24a is pressed once, the state (b) is entered, and the standard course for drying the clothes and the continuous operation of the antibacterial coat are set. Further, when the antibacterial coating switch 24a is pressed once, the state of (c) is entered, and the clothing drying operation is not performed and only the antibacterial coating operation is set. When the antibacterial coat switch 24a is pushed once more, the state (d) is entered, and the initial state is restored.
[0032]
  As described above, the antibacterial coat switch 24a can be used to select a single operation for drying the clothes, a continuous operation for continuously antibacterial treatment after drying the clothes, and a single operation for antibacterial treatment of the dry clothes. Therefore, usability can be improved.
[0033]
  FIG. 6 shows a change in setting when the course switch 24c is pressed from the initial state. (A) is an initial state, and a standard course for drying clothes and a continuous operation of an antibacterial coat are set. Every time the course switch 24c is pressed from that state, the state changes to (b), (c), (d), (e), (f), but only the setting of the driving course for drying clothes changes. The setting for continuous operation with the antibacterial coating has not changed. In addition, the diagonal line has shown LED which has lighted.
[0034]
  Next, a second embodiment of the present invention will be described.
[0035]
  The control means 29 in FIG. 1 heats the carrier 15 by the vaporization heater 16 during the drying + chemical vaporization operation from the continuous or intermittent operation stroke of the rotary drum 1 after the drying stroke. Other configurations are the same as those of the first embodiment.
[0036]
  The operation of the above configuration will be described with reference to FIG. In FIG. 7, (a) is the motor 4, (b) is the drying heater 7, (c) is the on / off state of the vaporizing heater 16, and (d) is the temperature inside the rotary drum 1, that is, the first thermistor. 21 shows the detected temperature. The drying operation is started at time t10, the motor 4 and the heater 7 are turned on, and the time from time t11 is the preheating drying period, the time from t11 to time t12 is the constant rate drying period, and the time from t12 to time t13 is further. During the rate-decreasing drying period, the drying heater 7 is turned off at time t13 to complete the drying process.
[0037]
  Subsequently, the vaporizing heater 16 is turned on, and the air blowing process and the medicine supply process are started. At time t14, the motor 4 is temporarily turned off to end the air blowing process, and thereafter the motor 4 is intermittently turned on until time t15 when the medicine supply process is ended.
[0038]
  Next, a third embodiment of the present invention will be described.
[0039]
  The control means 29 in FIG. 1 inputs dryness degree data from the dryness detection means 23, and during the drying + chemical vaporization operation, the carrier 15 is moved by the vaporization heater 16 after the dryness detection state is detected by the dryness detection means 23. I try to heat it. Other configurations are the same as those of the first embodiment.
[0040]
  The operation in the above configuration will be described with reference to FIG. 8. The drying operation is started at time t20, and the operation up to time t22 is the same as that in the second embodiment. At the time t22, the rate-decreasing drying period in the drying process is started, and the vaporization heater 16 is turned on to start supplying the medicine. Then, at time t23, the drying process is finished to be the blowing process, and at the time t24, the blowing process and the medicine supply process are finished at the same time.
[0041]
  Next, a fourth embodiment of the present invention will be described.
[0042]
  The control means 29 in FIG. 1 controls the heating amount of the drying heater 7 during the drying process of the drying + chemical vaporization operation to be lower than that in the drying process of only drying. Other configurations are the same as those of the first embodiment.
[0043]
  The operation will be described with reference to FIG. 9 in the above configuration. The drying operation is started at time t30, and two drying heaters 7a and 7b are periodically turned on in the drying process up to time t31. The state of 1 and the ON state of 1 are repeated. In this way, the heating amount of the drying heater 7 during the drying process is made lower than in the case of the operation of only drying. If the drying heaters 7a or 7b are alternately turned on when one of them is on, the number of open / close operations per relay 31a or 31b that drives the heater 7a or 7b can be reduced, and the durability life can be extended. .
[0044]
  Next, a fifth embodiment of the present invention will be described.
[0045]
  The control means 29 in FIG. 1 performs control so as to decrease the heating amount of the drying heater 7 when the temperature input from the first thermistor 21 becomes equal to or higher than the temperature control temperature (set temperature), and drying in the drying + chemical vaporization operation. The temperature control temperature during the stroke is set lower than that in the drying stroke only. Other configurations are the same as those of the first embodiment.
[0046]
  The operation will be described with reference to FIG. 10 in the above configuration. The drying operation is started at time t40, and the temperature Ty1 lower than the temperature adjustment temperature Tx in the operation of only drying is controlled in the drying process up to time t42. When the temperature detected by the first thermistor 21 is Ty1 or higher as the temperature, the drying heater 7 is turned off, and when the temperature is Ty2 or lower, the drying heater 7 is turned on. Therefore, the temperature in the rotary drum 1 can be controlled to be lower.
[0047]
  Next, a sixth embodiment of the present invention will be described.
[0048]
  The control means 29 in FIG. 1 inputs rotation speed or rotation cycle data from the rotation detection means 28, and the rotation speed or rotation cycle of the rotary drum 1 during the drying process of the drying + chemical vaporization operation is a drying process only for drying. I try to control it lower. Other configurations are the same as those of the first embodiment.
[0049]
  The operation will be described with reference to FIG. 11 in the above configuration. The rotational operation of the rotating drum 1 is input from the rotation detecting means 28 until the time t55 when the drying operation is started and the antibacterial coating operation is finished. The rotational speed of the rotary drum 1 is controlled to Ry lower than the set rotational speed Rx in the case of only drying operation by controlling the phase of the driving means 30. In addition, air leakage from the inside of the rotating drum 1 to the outside of the rotating drum 1 caused by the rotation of the rotating drum 1 can be reduced.
[0050]
【The invention's effect】
  As described above, the present invention includes a rotating drum that stirs clothing, a blowing unit that sends warm air into the rotating drum, a first heating unit provided in a blowing path into the rotating drum, and the rotating drum. Alternatively, a motor that rotationally drives the blowing unit, a drug supply unit that vaporizes and supplies a drug having at least one of antibacterial, antifungal, deodorant, and insectproof properties in the rotating drum, and the drug supply A second heating means for heating the means; an input setting means capable of setting an operation for vaporizing and supplying the medicine; and a control means for controlling operations of the motor, the first heating means, and the second heating means. And the control means performs the operation of only drying, only chemical vaporization, or dry + chemical vaporization by the input setting means.The heating amount of the first heating means during the drying process of the drying + chemical vaporization operation is controlled to be lower than that in the drying process of only the drying.Therefore, by using an input setting means different from that for setting a normal clothes drying course, the dry operation of the dry clothes is performed independently, the single operation for drying the clothes, and the clothes are dried. Continuous operation with antibacterial treatment can be selected in order, improving usabilityWithThe drying amount of the first heating means is controlled to be lower than that during single operation for drying clothes during drying in continuous operation in which antibacterial treatment is continued after drying the clothes. The temperature inside can be lowered, and the amount of the volatilized drug can be reduced. And the leakage of the medicine from the inside of the rotating drum to the outside of the rotating drum caused by the rotation of the rotating drum can be reduced.
[0051]
  Also,A rotating drum for stirring clothing; a blowing means for sending warm air into the rotating drum; a first heating means provided in a blowing path into the rotating drum; and a motor for rotationally driving the rotating drum or the blowing means And a chemical supply means for vaporizing and supplying a chemical having at least one of antibacterial, antifungal, deodorant and insectproof properties in the rotating drum, and a second heating for heating the chemical supply means Means, and input setting means capable of setting an operation for vaporizing and supplying the medicine;Temperature detection means for detecting the temperature in the rotating drumAnd control means for controlling the operation of the motor, the first heating means, and the second heating means;WithSaidThe control meansWith the input setting means, only dry, only drug vaporization, or dry + drug vaporization is performed.When the temperature input from the temperature detection means is equal to or higher than the set temperatureSaidControl to reduce the heating amount of the first heating means,SaidThe set temperature during the drying process of drying + chemical vaporization operationSaidBy making it lower than in the case of the drying process only for drying,Continuous input for antibacterial treatment of dry clothing, single operation for drying clothing, and continuous antibacterial treatment after drying of clothing by means of input setting different from setting a normal clothing drying course Since you can select driving in order, you can improve usability,When the temperature detected by the temperature detecting means becomes higher than the temperature control temperature during drying during continuous operation in which antibacterial treatment is continued after the clothes are dried, the heating amount of the first heating means is reduced.LetSince the temperature control temperature is made lower than that during the single operation for drying the clothes, the temperature in the rotating drum during the drying operation can be lowered, and the amount of the volatilized drug can be reduced. And the leakage of the medicine from the inside of the rotating drum to the outside of the rotating drum caused by the rotation of the rotating drum can be reduced.
[0052]
  Also,A rotating drum for stirring clothing; a blowing means for sending warm air into the rotating drum; a first heating means provided in a blowing path into the rotating drum; and a motor for rotationally driving the rotating drum or the blowing means And a chemical supply means for vaporizing and supplying a chemical having at least one of antibacterial, antifungal, deodorant and insectproof properties in the rotating drum, and a second heating for heating the chemical supply means Means, and input setting means capable of setting an operation for vaporizing and supplying the medicine;Rotation detection means for detecting the rotation speed or rotation cycle of the rotating drumAnd control means for controlling the operation of the motor, the first heating means, and the second heating means;WithSaidThe control meansWith the input setting means, only dry, only drug vaporization, or dry + drug vaporization is performed.Input rotation speed or rotation cycle data from the rotation detection means,SaidThe rotation speed or rotation cycle of the rotating drum during the drying process of drying + chemical vaporization operationSaidBy controlling it to be lower than in the case of only the drying process,Continuous input for antibacterial treatment of dry clothing, single operation for drying clothing, and continuous antibacterial treatment after drying of clothing by means of input setting different from setting a normal clothing drying course Since you can select driving in order, you can improve usability,During drying in continuous operation where the garment is dried and then antibacterial treated, the rotation speed of the rotating drum is set lower than that in the single operation for drying the clothing, so that the rotation drum rotates from the inside of the rotating drum. Leakage of air to the outside of the rotating drum can be reduced, and the amount of chemical leaking out of the rotating drum due to volatile diffusion due to warming of the inside of the rotating drum during the drying operation can be reduced.
[Brief description of the drawings]
FIG. 1 is a block diagram of a clothes dryer according to a first embodiment of the present invention.
[Figure 2] Cross section of the clothes dryer
FIG. 3 is an enlarged cross-sectional view of a main part of the clothes dryer partially cut away.
FIG. 4 is an enlarged front view of the operation display unit of the clothes dryer.
FIG. 5 is an operation explanatory diagram when the antibacterial coating switch on the operation display section of the clothes dryer is pressed.
FIG. 6 is an operation explanatory diagram when the course switch in the operation display section of the clothes dryer is pressed.
FIG. 7 is an operation timing chart of the clothes dryer according to the second embodiment of the present invention.
FIG. 8 is an operation timing chart of the clothes dryer according to the third embodiment of the present invention.
FIG. 9 is an operation timing chart of the clothes dryer according to the fourth embodiment of the present invention.
FIG. 10 is an operation timing chart of the clothes dryer according to the fifth embodiment of the present invention.
FIG. 11 is an operation timing chart of the clothes dryer according to the sixth embodiment of the present invention.
[Explanation of symbols]
  1 Rotating drum
  4 Motor
  7 Drying heater (first heating means)
  8 Heat exchange type fan (air blowing means)
  15 Carrier (medicine supply means)
  16 Vaporizing heater (second heating means)
  24 Input setting means
  29 Control means

Claims (3)

A rotating drum for stirring clothing; a blowing means for sending warm air into the rotating drum; a first heating means provided in a blowing path into the rotating drum; and a motor for rotationally driving the rotating drum or the blowing means And a chemical supply means for vaporizing and supplying a chemical having at least one of antibacterial, antifungal, deodorant and insectproof properties in the rotating drum, and a second heating for heating the chemical supply means Means, input setting means capable of setting the operation for vaporizing and supplying the medicine, and control means for controlling operations of the motor, the first heating means, and the second heating means, and the control means includes the the input setting unit, drying only, agents vaporize only, drying + Izure of drug vaporization of to perform the operation, the drying + heating amount of the first heating means in the drying cycle of drug vaporization operation the drying only Of the drying process The clothing dryer to control lower than if. A rotating drum for stirring clothing; a blowing means for sending warm air into the rotating drum; a first heating means provided in a blowing path into the rotating drum; and a motor for rotationally driving the rotating drum or the blowing means And a chemical supply means for vaporizing and supplying a chemical having at least one of antibacterial, antifungal, deodorant and insectproof properties in the rotating drum, and a second heating for heating the chemical supply means Means, input setting means capable of setting the operation for vaporizing and supplying the medicine, temperature detecting means for detecting the temperature in the rotating drum, and controlling the operation of the motor, the first heating means, and the second heating means. and control means for said control means, by said input setting unit, drying only, agents vaporize only, to perform the operation of either the drying + agent vaporization temperature inputted from the temperature sensing means is a set temperature or more Controlled so as to be decreasing the amount of heating of the first heating means, clothing the setting temperature during the drying cycle of said drying plus drug vaporized operation was set to be lower than in the drying cycle of said drying only Dryer. A rotating drum for stirring clothing; a blowing means for sending warm air into the rotating drum; a first heating means provided in a blowing path into the rotating drum; and a motor for rotationally driving the rotating drum or the blowing means And a chemical supply means for vaporizing and supplying a chemical having at least one of antibacterial, antifungal, deodorant and insectproof properties in the rotating drum, and a second heating for heating the chemical supply means Means, input setting means capable of setting the operation for vaporizing and supplying the medicine, rotation detection means for detecting the rotation speed or rotation cycle of the rotating drum , the motor, the first heating means, and the second heating means. and control means for controlling the operation, said control means, by said input setting unit, drying only, agents vaporize only, to perform the operation of either the drying plus drug vaporization, the rotational speed from the rotation detecting means also Enter the rotation period data, the drying plus drug vaporized clothing dryer to control lower than the rotational speed or the rotation period of the rotary drum during the drying step of drying cycle of said drying only operation.

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