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WO2023084832A1 - Washing and drying machine - Google Patents

Washing and drying machine Download PDF

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Publication number
WO2023084832A1
WO2023084832A1 PCT/JP2022/025228 JP2022025228W WO2023084832A1 WO 2023084832 A1 WO2023084832 A1 WO 2023084832A1 JP 2022025228 W JP2022025228 W JP 2022025228W WO 2023084832 A1 WO2023084832 A1 WO 2023084832A1
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WO
WIPO (PCT)
Prior art keywords
blower
air
washing
outlet
air circulation
Prior art date
Application number
PCT/JP2022/025228
Other languages
French (fr)
Japanese (ja)
Inventor
正雄 今成
麻理 内田
真理 黒澤
幸太郎 高橋
幸司 松本
好宏 矢田
Original Assignee
日立グローバルライフソリューションズ株式会社
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Publication date
Application filed by 日立グローバルライフソリューションズ株式会社 filed Critical 日立グローバルライフソリューションズ株式会社
Publication of WO2023084832A1 publication Critical patent/WO2023084832A1/en

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    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F25/00Washing machines with receptacles, e.g. perforated, having a rotary movement, e.g. oscillatory movement, the receptacle serving both for washing and for centrifugally separating water from the laundry and having further drying means, e.g. using hot air 
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F58/00Domestic laundry dryers
    • D06F58/02Domestic laundry dryers having dryer drums rotating about a horizontal axis

Definitions

  • the present invention relates to a washer/dryer for washing and drying clothes.
  • Patent Document 1 discloses a first air circulation duct that guides air flowing in from a first exhaust port that exhausts air in an inner tank to a first intake port, and a first air circulation duct that guides air flowing in from the first exhaust port to the first intake port.
  • a first air blowing means for discharging air into the inner tank
  • a second air circulation duct for guiding the air flowing in from the second exhaust port to the second air intake
  • a second air blowing means for discharging air into the first air circulation duct
  • the first air circulation duct is provided with dehumidifying means for dehumidifying the air flowing in from the first exhaust port and/or heating means for heating the air.
  • the temperature and humidity of the air circulated by the first air blowing means can be controlled by the dehumidifying means and/or the heating means, but the circulating air by the second air blowing means is basically the inner tank. It is the structure which circulates air. Since the air circulated by the second air blowing means has the same humidity as the air in the inner tank, the wrinkles cannot be reduced by blowing the air onto the clothes. Since the air circulated by the first air blowing means passes through the heating means and/or the dehumidifying means, the amount of circulating air passing through the dehumidifying means and/or the heating means can be ensured by throttling the first exhaust port to increase the blowing air velocity. For drying, the power consumption of the first air blowing means becomes large.
  • An object of the present invention is to provide a washing and drying machine capable of suppressing an increase in power consumption for drying and controlling the temperature and humidity to increase the amount of air circulated to blow onto clothes.
  • the washing and drying machine of the present invention includes: an outer tank capable of storing liquid therein; an inner tank rotatably provided inside the outer tank to accommodate laundry; a heat exchange unit having a dehumidifying function and a heating function; A washing and drying machine comprising an air circulation mechanism that circulates air via a heat exchange unit,
  • the air circulation mechanism includes a first blower and a second blower for blowing air, and a first air circulation flow path having a first outlet for circulating the air blown by the first blower into the inner tank.
  • a second air circulation flow path having a second outlet for circulating the air blown by the second blower to the inside of the inner tank
  • the second air circulation flow path is provided by branching from between the first blower and the first outlet in the first air circulation flow path, and the branched portion with the first air circulation flow path and the A said 2nd air blower is arrange
  • all the circulating air for drying can be dehumidified and heated in the heat exchange unit, so the temperature and humidity can be controlled to increase the amount of air circulating that is blown onto the clothes. Since the air pressurized by the second blower sucks the air pressurized by the first blower, the shaft power can be reduced compared to when the first blower and the second blower are driven independently, and the power consumption for drying can be reduced. increase can be suppressed.
  • FIG. 1 is an external perspective view showing a washing and drying machine according to a first embodiment of the present invention
  • FIG. Fig. 2 is a schematic cross-sectional view of the right side as viewed from the front, showing the internal structure of the washing and drying machine according to the first embodiment of the present invention
  • BRIEF DESCRIPTION OF THE DRAWINGS It is a perspective view of the washing-drying machine which sees through and shows the warm air circulation mechanism and dehumidification mechanism which concern on 1st Example of this invention.
  • FIG. 4 is a schematic diagram of drive timings of a first fan and a second fan according to the first embodiment of the present invention
  • 1 is a block diagram showing the configuration of a control device for a washing/drying machine according to a first embodiment of the present invention
  • FIG. FIG. 4 is a process diagram (flow chart) explaining the operation process of the washing/drying operation in the washing/drying machine according to the first embodiment of the present invention. It is a schematic cross-sectional view of the right side as viewed from the front, showing the internal structure of the washing and drying machine according to the second embodiment of the present invention. It is a schematic sectional view seen from the back side, showing the internal structure of the washing and drying machine according to the second embodiment of the present invention.
  • FIG. 11 is a perspective view of a washing and drying machine showing a hot air circulation mechanism and a dehumidifying mechanism according to a third embodiment of the present invention;
  • Drying clothes with a washer/dryer which can continuously perform washing and drying, creates high-temperature, low-humidity air with a blower fan and a heat source, blows it into the washing tub, raises the temperature of the clothes, and removes them from the clothes.
  • a warm air drying method is used to evaporate the moisture and dehumidify the evaporated moisture.
  • Methods for removing the evaporated moisture include a method of cooling and dehumidifying the circulating air and a method of replacing the circulating air with low-humidity air in the surroundings.
  • a cold heat source for cooling and dehumidification there are a method using a heat pump and a method using cooling water.
  • the principle of removing wrinkles is to stretch the wrinkled area while applying heat while applying force to smooth out the wrinkles and evaporate the contained moisture, fixing the fibers in the stretched state. That is, it supplies wrinkle-stretching power and heat to evaporate the moisture, creating steam. Ambient humidity should be low to facilitate vapor generation and diffusion.
  • FIG. 1 is an external perspective view showing a washing/drying machine according to a first embodiment of the present invention.
  • FIG. 2 is a schematic cross-sectional view of the right side as viewed from the front, showing the internal structure of the washing and drying machine according to the first embodiment of the present invention.
  • a drum-type washer/dryer will be described as an example of the washer/dryer 100, but the present invention is not limited to this, and can also be applied to a vertical type washer/dryer.
  • Side plates 1a made mainly of steel plates and resin moldings and reinforcing members (not shown) are combined to form a frame on the top of the base 1h, and a front cover 1c and a top cover 1e are attached thereon.
  • a housing 1 is formed.
  • the front cover 1c is provided with a door 9 for loading and unloading laundry 207, and a back cover (not shown) is attached to the back.
  • the door 9 includes a door glass 9a and a door frame 9b.
  • An outer tank 2 is provided inside the housing 1 .
  • the outer tank 2 can store liquid inside and is supported by a plurality of suspensions 5 at the bottom.
  • a rotating drum 3 inside the outer tub 2 has the laundry 207 thrown in with the door 9 opened, and the outer circumference of the opening of the rotating drum 3 reduces the vibration caused by the imbalance of the laundry 207 during dehydration.
  • a fluid balancer 31 is provided for this purpose.
  • the rotating drum 3 is rotatably provided inside the outer tub 2 and accommodates laundry. For this reason, the rotating drum 3 is also called an inner tank.
  • a plurality of lifters 33 for raking up the laundry 207 are provided inside the rotary drum 3 .
  • the rotating drum 3 is directly connected to a drum driving motor M10 via a main shaft 35 connected to a metal flange 34 for rotating drum.
  • a so-called belt drive system in which a pulley fixed to the main shaft and a motor fixed to the outer tank 2 are connected via a belt to drive the drum, which is different from the present embodiment, may be used.
  • a rubber-based packing 10 made of an elastic material is attached to the opening of the outer tub 2 . This packing 10 serves to maintain watertightness between the inside of the outer tub 2 and the door 9 . This prevents water leakage during washing, rinsing and dehydration.
  • the rotating drum 3 has a large number of small holes (not shown) for centrifugal dehydration and ventilation on the side wall.
  • a drain port 21 opened in the water receiving portion 54 of the outer tub 2 is connected to a drain hose 26 via a drain valve V1.
  • the overflow hose 17 is attached to the front surface of the outer tank 2 and joins the drain hose 26 downstream of the drain valve V1. That is, the overflow hose 17 is configured to communicate with the drain hose 26 regardless of whether the drain valve V1 is opened or closed. However, the overflow hose 17 may be configured to merge with the drain hose 26 upstream of the drain valve 8 without causing any functional problems.
  • a circulation pump 18 for pumping up the washing water to the upper part of the outer tub 2 and spraying it on the laundry 207 in the rotating drum 3 is fixed below the outer tub 2 on the side of the base 1h.
  • the washing water passes through the lint filter 222 (see FIG. 3) from the drain port 21 of the water receiving portion 54 provided at the bottom of the outer tub, enters the suction port side of the circulation pump 18, and is pressurized by the circulation pump 18.
  • Water is sprayed into the drum 3 from a water spray nozzle 223 (see FIG. 3).
  • a drain port 21 provided for draining water at the bottom of the water receiving portion 54 is connected to a drain hose 26 via a lint filter 222 and a drain valve V1, so that water in the water receiving portion 54 can be drained.
  • the overflow hose 17 is configured to communicate with the drain hose 26 on the downstream side of the drain valve V1 so as to branch from the door 9 side of the outer tank 2 to the drain hole 39 . That is, when the amount of water exceeds the predetermined water level to which the overflow hose 17 is attached, the water can be forcibly drained in any case.
  • FIG. 3 is a perspective view of the washing/drying machine showing the warm air circulation mechanism and the dehumidifying mechanism according to the first embodiment of the present invention.
  • 3 shows the basic internal structure of the washer/dryer 100, including a heat exchange unit 251, a first blower 256, a second blower 20, a first outlet 257, a second outlet 203, and an air circulation channel 71. , 72 and a branch portion 258, showing the basic configuration of an air circulation mechanism (warm air circulation mechanism).
  • the air circulation mechanism circulates air through the interior of the rotating drum (inner tank) 3 and the heat exchange unit 251 .
  • the heat exchange unit 251 of this embodiment is composed of a heat pump, and has a condenser 252, an evaporator 253, an expansion means (expansion valve) 254, a compressor 255, and piping connecting them.
  • the heat exchange unit 251 has a dehumidifying function and a heating function. After flowing into the heat exchange unit 251 from the outlet 260 on the back surface of the tank and passing through the first blower 256, the air at the branch 258 is part of the air blown into the tank from the first outlet 257, After being pressurized through the second blower 20, the air is throttled by the second outlet 203 and separated into the remaining air that is blown out into the tank as a high air velocity.
  • the air blown from the first blower outlet 257 and the air blown from the second blower outlet 203 have the same humidity, and the temperature of the air blown from the second blower outlet 203 is different from that of the first blower 256 and the second blower. 20 , the air temperature is higher than the air temperature at the first blower outlet 257 by the amount increased by the second blower 20 .
  • the air circulation channel of the air circulation mechanism has the first air circulation channel 71 and the second air circulation channel 72 .
  • the first air circulation flow path 71 has a first outlet 257 that circulates the air blown by the first blower 256 inside the rotating drum (inner tank) 3 .
  • the second air circulation flow path 72 has a second outlet 203 that circulates the air blown by the second blower 20 inside the rotating drum (inner tank) 3 .
  • the second air circulation flow path 72 is branched from between the first blower 256 and the first outlet 257 in the first air circulation flow path 71, and is provided at a branch portion 258 with the first air circulation flow path 71.
  • a second blower 20 is arranged between the second outlet 203 and the second blower 203 .
  • the first air circulation channel 71 guides part of the air that has passed through the heat exchange unit 251 to the first outlet 257
  • the second air circulation channel 72 guides the remaining air that has passed through the heat exchange unit 251. of air to the second outlet 203 via the second blower 20 .
  • the first blow-out port 257 and the second blow-out port 203 are provided on the front side of the outer tub 2, and the air from the first blow-out port 257 is separated from the outlet 260 provided on the back surface of the tub. , and the air from the second outlet 203 flows so as to draw a loop in the same direction from the door 9 side to the back side of the tank.
  • the humidity of the air from the second outlet 203 which mainly has the function of smoothing wrinkles, and the humidity of the air from the first outlet 257 that flows around it can be kept at the same level. You can stretch the wrinkles while making it uniform.
  • the drying level of the entire clothes can be made uniform, so the tangling of the clothes can be reduced. Moreover, since the entire air circulation can be formed without hindering the high-speed air from the second blower 20, the power loss of the blower can be reduced.
  • the air circulation flow path in the hot air circulation mechanism is from the outlet 260 on the back of the tank to the heat exchange unit 251, from the first blower 256 to the branch 258, and from the branch 258 to the suction port of the second blower 20.
  • bellows hoses 212 a , 212 b , 212 c , and 212 d are arranged between the outlet of the second blower 20 and the second outlet 203 , respectively.
  • the heat exchange unit 251 and the first blower 256 are fixed to the base 1h, and the second blower 20 is fixed to the upper part of the housing 1.
  • the bellows hoses 212a, 212b, 212c, and 212d can absorb vibrations caused by different movements.
  • the bellows hoses 212a, 212b, 212c, and 212d are members having flexibility and are attached to the air circulation flow path. good. For this reason, the bellows hose may be referred to as a flexible portion for explanation.
  • the first blower 256 is arranged below the outer tub 2 and the second blower 20 is arranged above the outer tub 2 .
  • the first air circulation channel 71 is provided with the flexible portion 212b between the first fan 256 and the branch portion 258, and the second air circulation channel 72 is provided between the branch portion 258 and the second fan 20.
  • flexible portions 212c and 212d are provided between the second blower 20 and the second outlet 203, respectively.
  • the pressure in the tank can be stabilized by the discharge pressure of the air boosted by the first blower 256, which is blown out from the first blower port 257, so that the suction side of the second blower 20 is is adjusted by Since the high-speed air blown out from the second air outlet 203 is also the air blown into the tank adjusted by the discharge pressure of the first air blower 256, the pressure is increased by the second air blower 20 and the high-speed air is generated at the second air outlet 203. Air can be blown out stably.
  • the second blower 20 pressurizes the air flowing through the second air circulation flow path 72 so that the flow velocity of the air blown out from the second blower outlet 203 is higher than the flow velocity of the air blown out from the first blower outlet 257.
  • the flow velocity of the air blown out from the second blower outlet 203 is faster than the flow velocity of the air blown out from the first blower outlet 257 .
  • the air pressurized by the second blower 20 sucks the air pressurized by the first blower 256, so that dynamic pressure can be obtained, and the shaft power can be reduced more than when the second blower 20 is driven alone. Also, part of the air is sucked into the second blower 20 on the outlet side of the first blower 256, so that the shaft power can be reduced more than when all the air pressurized by the first blower 256 is blown into the tank. can. Therefore, both the first fan 256 and the second fan 20 can be efficiently operated.
  • an auxiliary heating unit (auxiliary heating device) 213 is provided at the outlet of the second blower 20 . That is, the second air circulation channel 72 has the auxiliary heating device 213 at the outlet of the second blower 20 .
  • the hot air temperature should be high, and the temperature can be adjusted by the heat source as needed.
  • the second blower 20 is driven and the auxiliary heating unit 213 is energized to blow warm air to the clothes and washing water.
  • the temperature level for washing and rinsing can be easily adjusted.
  • the second blower 20 including the auxiliary heating section 213 is provided above the rotary drum 3 in order to effectively apply high-speed air to the laundry. Furthermore, by providing the first blower 256 below the rotating drum 3 in contrast to the second blower 20 provided above the rotating drum 3, the mass balance of the washing and drying machine 100 as a whole can be achieved. The machine 100 is configured to be easily stabilized against vibration. In addition, since the second air outlet 203 is arranged above the rotating drum 3, the second blower 20 is also arranged above the rotating drum 3, so that the air path resistance on the blowing side of the second blower 20 can be reduced. can.
  • a branch portion 258 is provided in the duct (air circulation path) connecting the first blower 256 and the second blower 20, and a first blowout port 257 for blowing out part of the air from the first blower 256 into the rotating drum 3 is provided.
  • the washing water is less than normal washing when a high-concentration detergent solution with a small amount of water supply is sprayed and permeated on the laundry and tumbling is performed. Therefore, almost no amount of washing water remains in the lower part of the rotating drum 3 after the washing water has permeated the laundry.
  • stain removal is generally improved by increasing the concentration of the detergent by slightly reducing the amount of water and increasing the temperature. In this case, the temperature level can be easily adjusted by blowing hot air onto the clothes and washing water.
  • the amount of water is small, the temperature level can be raised in a short time, and high-temperature washing can be performed in a short time.
  • the air that has flowed into the heat exchange unit 251 from the outlet 260 on the back surface of the tank and passed through the first blower 256 is part of the air that is blown into the tank from the first outlet 257 at the branch portion 258.
  • the air is applied to the clothes to remove wrinkles. It is possible to generate a high-speed air that spreads and a circulation air that circulates in the tank, thereby promoting drying.
  • all circulating air for drying can be dehumidified and heated by passing through a heat exchange unit 251 .
  • the low-humidity, high-speed air from the second air outlet 203 smoothes out the wrinkles while drying the clothes, and the low-humidity air from the first air outlet 257 circulates the entire atmosphere of the tank, thereby smoothing out the wrinkles. It is possible to prevent the recurrence of wrinkles due to the return of moisture and the formation of new wrinkles due to uneven drying.
  • the second blower 20 can be operated during a certain period of the drying process to efficiently smooth out wrinkles, so power consumption can be suppressed. , the drying time can be shortened.
  • the tank internal pressure can be stabilized by the discharge pressure of the air boosted by the first blower 256 blown out from the first blower outlet 257, the pressure is increased by the second blower 20 and the second blower outlet 203 produces high-speed air. It is possible to stably blow out the air.
  • the air pressurized by the second blower 20 sucks the air pressurized by the first blower 256, so the shaft power can be reduced compared to when the second blower 20 is driven alone. Part of the air is sucked into the second blower 20 on the outlet side of the first blower 256 as well, so that the shaft power can be reduced more than when the first blower 256 is operated alone. Therefore, both the first fan 256 and the second fan 20 can be efficiently operated.
  • a path leading from the outlet of the first blower 256 to the rotary drum 3 via the second blower 20 and the second outlet 203 constitutes part of the blowing air path for the first blower 256 .
  • the effect of widening the blowing air path of the first blower 256 can be obtained and the air path resistance can be reduced compared to when the air is blown only from the first blower outlet 257, so power consumption can be reduced.
  • FIG. 5 is a block diagram showing the configuration of the washing/drying machine control device according to the first embodiment of the present invention.
  • the control device 90 includes a microcomputer (hereinafter referred to as "microcomputer") 110.
  • the microcomputer 110 acquires user's operations (operation switches 12, 13) and various information signals (signals of the temperature sensors T1, T2, T3, T4 and the conductivity sensor 4) in the washing process and the drying process.
  • the microcomputer 110 operates a motor M10, a water supply solenoid valve 16, a drain valve V1, a circulation pump 18, a first blower 256, a second blower 20, a compressor 255, an expansion means 254, an auxiliary heater 213, and a water supply pump 86 to control opening/closing, rotation, and energization of these.
  • the microcomputer 110 controls the display 14, a buzzer (not shown), etc. in order to inform the user of information regarding the drum-type washer/dryer 100.
  • the microcomputer 110 includes an operation pattern database 111, a process control unit 112, a rotation speed calculation unit 113, a clothing weight calculation unit 114, an electrical conductivity measurement unit 115, a detergent amount/washing time determination unit 116, a turbidity determination unit 117, and a A threshold storage unit 118 is provided.
  • the microcomputer 110 is activated when the power switch 13 is pressed and the power is turned on, and executes a basic control processing program for washing and drying as shown in FIG.
  • FIG. 6 is a process diagram (flow chart) explaining the operation process of the washing/drying operation in the washing/drying machine according to the first embodiment of the present invention.
  • control device 90 receives an input for course selection of the operation process of washing/drying machine 100 (course selection).
  • course selection the operation process of washing/drying machine 100
  • the user opens the door 9, puts the clothes to be washed into the rotating drum 3, and closes the door 9.
  • the user operates the power switch 13 to turn on the power, and operates the operation switch 12 to select and input the course of the driving process.
  • the control device 90 reads the corresponding driving pattern from the driving pattern database 111 based on the inputted course of the driving process, and proceeds to step S2.
  • the standard course wash-rinse twice-dehydration-dry
  • step S2 the control device 90 executes a process of detecting the weight (amount of cloth) of the clothes placed on the rotary drum 3 (cloth amount sensing). Specifically, the process control unit 112 drives the motor M10 to rotate the rotary drum 3, and the laundry weight calculation unit 114 calculates the weight (cloth amount) of the laundry 207 before pouring water.
  • step S3 the control device 90 executes a process of calculating the amount of detergent and operating time.
  • the conductivity measuring unit 115 detects the conductivity (hardness) of the supplied water. Further, the temperature of the supplied water is detected by a waste water temperature sensor T1 provided in the lower part of the outer bath 2 (for example, the drain port 21).
  • the detergent amount/washing time determining unit 116 performs a map search based on the detected amount of cloth, the conductivity (hardness) of water obtained using the detected value from the conductivity sensor 4 in the conductivity measuring unit 115, and the temperature of the water. determines the amount of detergent to be added and the operating time. Then, the process control unit 112 displays the determined amount of detergent and operating time on the display 14 .
  • step S4 the control device 90 waits for a predetermined time (detergent input waiting step), and proceeds to step S5.
  • the user puts detergent into the detergent throwing portion 7 while referring to the amount of detergent displayed on the display 14 during standby. If automatic detergent dosing is set, the detergent dosing operation can be omitted.
  • the washing process is roughly divided into a detergent dissolving process (step S5), a pre-washing process (step S6), and a main washing process (step S7). Furthermore, the main washing process is divided into the first main washing process (main washing 1 process) and the following second main washing process (main washing 2 processes), but each process is clearly distinguished according to the operation progress. There is no problem in terms of function even if it is not. Also, even if some of the operations in the process described later are omitted, the function of the washing process as a whole does not change.
  • step S5 the control device 90 executes the detergent dissolving process.
  • a predetermined solenoid valve of the water supply solenoid valve 16 is opened to supply water.
  • the water supply is introduced into the outer tub 2 after being led to the detergent inlet.
  • the detergent liquid introduced into the outer tub 2 is supplied to the water receiver 54 (see FIG. 2) positioned at the bottom of the rotary drum 3 through a water supply path (not shown).
  • the circulation pump 18 (see FIG. 2) is driven after the detergent liquid is introduced, the water in the water receiver 54 flows from the drain port 21 through the lint filter 222 (see FIG. 3) to the suction port of the circulation pump 18. (not shown).
  • the washing water pressurized by the circulation pump 18 is returned to the water receiving portion 54 again from the circulation discharge port 54b (see FIG. 3) communicating with the outlet of the circulation pump 18 (circulation path of the detergent dissolving step).
  • control device 90 detects the electrical conductivity in the electrical conductivity sensor 4 (determining means) in the water receiving portion 54, and stores the electrical conductivity database for the high-concentration detergent aqueous solution and the electrical conductivity for the softening agent aqueous solution. Check against the database.
  • a uniform high-concentration detergent solution is generated by dissolving the detergent in a small amount of water.
  • a highly concentrated detergent solution is sprayed on the clothes.
  • the rotary drum 3 is rotated to evenly spread the laundry 207 by the circulation pump 18 while agitating the laundry 207 .
  • step S6 the control device 90 executes a pre-washing process.
  • the laundry 207 soaked with the detergent liquid is normally present in the outer tub 2 and a small amount of the detergent liquid is present in the water receiver 54 at the bottom of the outer tub 2 .
  • the laundry 207 is lifted to the top of the drum 3, and then dropped to the bottom by gravity.
  • the detergent liquid soaked into the laundry 207 is squeezed out, and the circulation pump 18 is driven intermittently as necessary to spray the detergent liquid onto the laundry 207 again. Even during this operation, if the so-called washing temperature of the washing water and the laundry can be increased, the washing performance can be improved. spray later.
  • the nozzle 203 for blowing out the airflow from the second blower 20 is provided at a position facing the water nozzle 223 and the water supply port (not shown) on the circumference of the outer tub 2. Efficient washing can be achieved by preventing the interference of warm air for promoting the spraying and permeation of the concentrated detergent solution. Since the laundry 207 retains the high-concentration detergent liquid, the laundry 207 has better heat conduction than air occupying the interstices between the fibers of the laundry 207, and can be efficiently heated. This allows more dirt to be separated from the fabric in less time. Since the separated dirt is rapidly dispersed in the water-retained high-concentration detergent liquid, it is possible to prevent re-agglomeration and redeposition.
  • a circulation pump (not shown) having a smaller flow rate than the circulation pump 18 may be installed separately.
  • the liquid droplets may be mixed with the hot air by pumping it up from the water receiver 54 and spraying it in the hot air near the outlet of the second blower 20 , and spraying it on the laundry 207 .
  • the temperature of the laundry 207 drops sharply. Therefore, if a smaller amount of circulating water is sprayed on the warm air with the configuration as described above, the water contained in the laundry 207 can be replaced evenly and little by little. As a result, it is possible to suppress a rapid temperature drop of the laundry 207, so that the washing performance can be further improved.
  • step S7 the control device 90 executes the main washing process.
  • the main washing process when the pre-washing process ends, additional water is supplied to increase the amount of water in the water receiving part 54 and raise the water level. This water level is maintained at a sufficient water level so that the washing water is pumped up from the water receiving portion 54 by the circulation pump 18 and continuously sprayed from the water spray nozzles 223 at the top of the outer tub 2 .
  • the spraying from the water nozzle 223 may be continuous or intermittent. Specifically, while many stains are still attached to the back side of the laundry 207, it is continuously sprayed to promote agitation of the washing water. As a result, the washing water retained by the laundry 207 can always be replaced with washing water having a low dirt concentration. After that, after most of the dirt has been removed, it is more efficient to remove the remaining dirt mainly by using the mechanical power of pounding. Therefore, the second half of the spraying is preferably intermittent spraying so as not to interfere with the mechanical force. Further, by intermittently driving the circulating pump 18, power consumption can be suppressed, which is also preferable in terms of energy saving.
  • the water nozzle 223 is positioned in the outer tub 2 above the central axis of the rotatable rotating drum 3 when viewed from the front of the washing/drying machine 100 and on the front side near the front when viewed from the side of the washing/drying machine 100. are doing. As a result, the spraying range from the water spray nozzle 223 is made wide-angle with respect to the radial direction of the rotating drum 3, and the water is sprayed.
  • the laundry 207 is spread over a wide area, and the laundry 207 accumulated below the rotating drum 3 is lifted by the rotation of the rotating drum 3 and dropped from above in the rotating drum 3. Apply mechanical force to wash by beating.
  • control device 90 executes the second main washing process as necessary.
  • the amount of water in the second main washing process is made larger than the amount of water in the first main washing process.
  • the circulation flow rate of the circulation pump 18 in the second main washing process is made larger than the circulation flow rate of the circulation pump 18 in the first main washing process.
  • the rotational speed of the motor M10 of the rotary drum 3 in the second main washing process is set lower than the rotational speed of the motor M10 in the first main washing process.
  • the combination of the first main washing process and the second main washing process is an operation algorithm that suppresses darkening and stiffness of the laundry 207 .
  • the laundry 30 is lifted to the top of the rotating drum 3 by the lifter 33, and then dropped to the bottom of the drum by gravity. Since the overflow hose 17 is connected to the front portion of the outer tub 2, the washing water flows up to the position of the overflow hose 17 in some cases. Also, during the washing process, in order to wash away the lint adhered to the interior filter due to the past washing and drying, the inside of the outlet duct portion 261 of the outer tub 2 is filled with a water injector (not shown) provided at the outlet duct portion 261 of the outer tub 2. water may be injected into the
  • the washing water that has flowed in and the water for washing the internal filter can be quickly dispensed when the washing is finished.
  • the water is drained out of the machine from the outer tank 2 through the drain port 21 .
  • step S8 the control device 90 executes the first rinsing step (rinsing 1 step).
  • the drain valve V1 is opened to drain the washing water
  • the drain valve V1 is closed and rinse water is supplied to the outer tub 2 up to a predetermined water level.
  • the drum 3 is rotated to agitate and rinse the laundry 207 and the rinse water.
  • step S9 the control device 90 executes the second rinsing step (rinsing 2 step).
  • the drain valve V1 is opened to drain the rinse water, and then the drain valve V1 is closed to supply the rinse water to a predetermined water level in the outer tank 2. . Thereafter, the rotary drum 3 is rotated to agitate and rinse the laundry 207 and the rinse water.
  • step S10 the control device 90 executes the dehydration process.
  • the laundry 207 is centrifugally dehydrated by rotating the drum 3.
  • the dehydration rotation speed is increased to a set rotation speed according to the load unless there is a problem such as the current value of the motor M10 exceeding the upper limit due to the laundry 207 being unbalanced. Even if part of the dehydrated water is swept up to the outlet 260 on the back of the outer tub 2, the bottom of the outlet 260 on the back of the outer tub 2 is inclined downward toward the back of the outer tub 2. , can be quickly returned to the outer tank side.
  • the vibration is transmitted to the outer tub 2, and the outer tub 2 itself vibrates slightly. Water droplets remaining on the inner wall of the outlet duct portion 261 of the outer tub 2 can be shaken off by this vibration.
  • the packing (bellows) 10 can absorb the vibration transmitted to the door 9 due to the high-speed rotation of the rotary drum 3 . Since the first blower 256 and the second blower 20 are also connected to the first outlet 257 and the second outlet 203 of the outer tub 2 by the bellows 10 respectively, vibration can be absorbed.
  • step S11 the control device 90 executes the drying process.
  • the drying process as shown in FIG. 4, first the first blower 256 is driven.
  • FIG. 4 is a schematic diagram of drive timings of the first and second blowers according to the first embodiment of the present invention.
  • the compressor 255 in the heat exchange unit 251 is driven.
  • the expansion means 254 is once fully opened and after adjusting the origin, the degree of opening is adjusted so that a thermistor (not shown) provided in the suction pipe of the compressor 255 does not become low temperature.
  • the rotation speed of the compressor 255 is adjusted so that the difference between the thermistor (not shown) provided in the discharge pipe and the hot air thermistor provided at the outlet of the first blower 256 is equal to or higher than a predetermined temperature.
  • the air heated to a high temperature in the heat exchange unit 251 is pressurized by the first blower 256, the air is blown into the rotary drum 3 through the first outlet 257 to exchange heat with the laundry 30 and to release the air from the laundry 30. evaporate the water. Circulating air containing moisture evaporated from the laundry is returned to the heat exchange unit 251 via the outlet duct portion 261 of the outer tub 2 .
  • the circulating air is cooled by the evaporator 253 arranged on the windward side to be below the dew point temperature and dehumidified. Subsequently, the air is heated in the condenser 252 and turned into low-humidity hot air.
  • the second blower 20 is driven after the specified drying time t1 has passed since the first blower 256 started to be driven.
  • a part of the warm air on the discharge side of the first blower 256 is guided to the suction side of the second blower 20, and after being pressurized by the second blower 20, flows into the rotating drum 3 as high-speed air from the second blower outlet 203. blown out.
  • the laundry exposed to the high-speed hot air is stretched and moisture contained in the laundry is evaporated, so wrinkles are removed.
  • the remaining hot air discharged from the first blower 256 is continuously blown into the rotating drum 3 from the first blower outlet 257, and is replaced with high-humidity air containing evaporated water from the laundry.
  • the timing (drying time t1) for driving the second blower 20 is set according to the load of the laundry and the fabric quality.
  • the moisture contained in the laundry is stretched and accelerated to evaporate from the laundry to which the high-speed hot air is applied, if the moisture content of the entire cloth is high, the moisture will evaporate from the area around the area to which the hot air is applied. It diffuses in the fiber and restores the local moisture content at the point where the high-velocity warm air is applied, so that wrinkles are generated again in the drying process.
  • even if high-speed hot air is applied to the fabric when the moisture content of the entire fabric is low it is difficult to remove the wrinkles because the wrinkles that have already been generated are fixed during the drying process.
  • the temperature difference ( ⁇ T1 ⁇ T4) is equal to or higher than a specified temperature, and the end of drying is determined.
  • the air constantly circulating inside the rotating drum 3 and through the first blower 256 and the second blower 20 passes through the outlet duct portion 261 of the outer tub 2 and the discharge portion of the first blower 256. Measurement and determination based on temperature can be performed stably. Therefore, the drying process can be completed while suppressing variations in the drying time.
  • step S10 if the drying process is not set in the course selection (S1), the operation ends in step S10.
  • FIG. 7 is a schematic cross-sectional view of the right side as viewed from the front, showing the internal structure of the washing/drying machine according to the second embodiment of the present invention.
  • FIG. 8 is a schematic cross-sectional view seen from the rear side, showing the internal structure of the washing and drying machine according to the second embodiment of the present invention.
  • the configuration is such that the first outlet 257 is provided on the back side of the outer tub 2 .
  • the warm air from the first blower outlet 257 provided on the back side of the outer tank 2 is stronger than the flow of high-speed air from the second blower outlet 203. It flows from the periphery of the rotary drum 3 so as to surround the laundry. Therefore, the hot air from the first outlet 257 can preferentially heat the rotating drum 3 by contacting the rotating drum 3 before the laundry.
  • the thin items have a low water content and dry quickly, so the hot air that comes into contact with the laundry transfers heat to the laundry when it comes in contact with it, but the moisture evaporates very little. Therefore, the humidity does not increase and flows into the center of the rotating drum 3.
  • the high-speed air from the second air outlet 203 is blown onto the laundry without hindering the moisture evaporation that is accelerated while wrinkles are smoothed out.
  • the laundry exposed to the high-speed air is mainly heated by the high-speed air, so that the wrinkles can be smoothed out and the moisture evaporation due to the heat applied to the laundry can be accelerated within a limited range.
  • FIG. 9 is a perspective view of a washing/drying machine showing a hot air circulation mechanism and a dehumidifying mechanism according to a third embodiment of the present invention.
  • the heat exchange unit is composed of a water-cooled dehumidifying section 262 housed in the outlet duct section 261 of the outer tank 2 and a heater 263 provided on the blowing side of the first blower 256 .
  • the outlet duct portion 261 is provided at an outlet portion where circulating air flows out from the outer tub 2 and is arranged between the outer tub 2 and the first blower 256 .
  • the heat exchange unit is composed of a water-cooled dehumidifier 262 and a heater 263.
  • the water-cooled dehumidifier 262 is provided between the outer tank 2 and the first blower 256, and the heater 263 is located on the blowing side of the first blower 256. be provided.
  • the heat pumped up by the evaporator is basically used for heating by the condenser. Therefore, if the air flow rate is extremely small, a sufficient amount of so-called heat pumped up cannot be ensured, and the temperature of the warm air may drop.
  • the amount of dehumidification heat and the amount of heating can be basically adjusted by the amount of cooling water and the energization level or the number of resistance elements to be energized, so the adjustment range of air volume and warm air temperature can be widened.
  • the auxiliary heater 213 of the second blower 20 blows the high-speed air at a higher temperature, the penetration of the warm air into the fibers is strengthened, and the drying can be further accelerated.
  • the cleaning water for the water cooling dehumidification unit 262 and the cleaning water for the interior filter 259 can be shared, water can be saved compared to cleaning the heat exchange unit alone.
  • the present invention is not limited to the above-described embodiments, and includes various modifications.
  • the above-described embodiments are detailed descriptions for easy understanding of the present invention, and are not necessarily limited to those having all the configurations.
  • it is possible to replace part of the configuration of one embodiment with the configuration of another embodiment and it is also possible to add the configuration of another embodiment to the configuration of one embodiment.
  • Second blower 71 First air circulation channel 72
  • Second air circulation channel 100 Washer/dryer 203 Second outlet , 212a, 212b, 212c, 212d Flexible portion (bellows hose) 213
  • Auxiliary heating device 251 Heat exchange unit 252
  • Condenser 253 Evaporator 254
  • Expansion valve 255 Compressor 256 1st air blower 257 1st outlet 258 branching portion 262 water cooling/dehumidifying portion 263 heater.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Detail Structures Of Washing Machines And Dryers (AREA)
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Abstract

The objective of the present invention is to provide a washing and drying machine that can suppress an increase in power consumption for drying and can control temperature and humidity to increase a circulating amount of air to be blown on clothes. In a washing and drying machine 100 comprising an air circulation mechanism that circulates air through an inner drum 3 and a heat exchange unit 251, the air circulation mechanism includes, a first blower 256 and a second blower 20, a first air circulation channel 71 having a first outlet 257 that circulates air blown by the first blower 256 to the inner drum 3, and a second air circulation channel 72 having a second outlet 203 that circulates air blown by the second blower 20 to the inner drum 3, wherein the second air circulation channel 72 branches off from the first air circulation channel 72 between the first blower 256 and the first outlet 257 and the second blower 20 is disposed between the second outlet 203 and a branching section 258 branching to the first air circulation channel 71.

Description

洗濯乾燥機Washing and drying machine
 本発明は、衣類等の洗濯および乾燥を行う洗濯乾燥機に関する。 The present invention relates to a washer/dryer for washing and drying clothes.
 特許文献1には、内槽内の空気を排気する第1排気口からの流入空気を第1吸気口へ導く第1空気循環ダクトと、第1排気口からの流入空気を第1吸気口から内槽内に吐出させる第1送風手段と、第2排気口からの流入空気を第2吸気口へ導く第2空気循環ダクトと、第2排気口からの流入空気を第2吸気口から内槽内に吐出させる第2送風手段とを設け、第1空気循環ダクトに、第1排気口から流入した空気を除湿する除湿手段および/または加熱する加熱手段を設けた洗濯乾燥機が記載されている(要約参照)。 Patent Document 1 discloses a first air circulation duct that guides air flowing in from a first exhaust port that exhausts air in an inner tank to a first intake port, and a first air circulation duct that guides air flowing in from the first exhaust port to the first intake port. a first air blowing means for discharging air into the inner tank; a second air circulation duct for guiding the air flowing in from the second exhaust port to the second air intake; and a second air blowing means for discharging air into the first air circulation duct, and the first air circulation duct is provided with dehumidifying means for dehumidifying the air flowing in from the first exhaust port and/or heating means for heating the air. (see abstract).
特開2010-104487号公報JP 2010-104487 A
文献1に記載の洗濯乾燥機では、第1送風手段による循環空気は除湿手段および/または加熱手段により空気の温湿度を制御できるが、第2送風手段による循環空気は基本的には内槽の空気を循環させる構成である。第2送風手段による循環空気は内槽内の空気と同じ湿度であるため、衣類に吹き付けることによるしわ低減は進まない。第1送風手段による循環空気は加熱手段および/または除湿手段を通過させるため、第1排気口を絞って吹き出し風速を上げると、除湿手段および/または加熱手段を通過させる循環空気量を確保して乾燥させるには、第1送風手段の消費電力量が大きくなってしまう。 In the washing and drying machine described in Document 1, the temperature and humidity of the air circulated by the first air blowing means can be controlled by the dehumidifying means and/or the heating means, but the circulating air by the second air blowing means is basically the inner tank. It is the structure which circulates air. Since the air circulated by the second air blowing means has the same humidity as the air in the inner tank, the wrinkles cannot be reduced by blowing the air onto the clothes. Since the air circulated by the first air blowing means passes through the heating means and/or the dehumidifying means, the amount of circulating air passing through the dehumidifying means and/or the heating means can be ensured by throttling the first exhaust port to increase the blowing air velocity. For drying, the power consumption of the first air blowing means becomes large.
 本発明の目的は、乾燥のための消費電力量の増加を抑制することができ、温湿度を制御して衣類に吹き付ける空気の循環量を増やすことができる洗濯乾燥機を提供することにある。 An object of the present invention is to provide a washing and drying machine capable of suppressing an increase in power consumption for drying and controlling the temperature and humidity to increase the amount of air circulated to blow onto clothes.
 上記目的を達成するために、本発明の洗濯乾燥機は、
 内部に液体を貯溜可能な外槽と、前記外槽の内側に回転自在に設けられ洗濯物を収容する内槽と、除湿機能および加熱機能を有する熱交換ユニットと、前記内槽の内部と前記熱交換ユニットとを経由して空気を循環させる空気循環機構と、を備えた洗濯乾燥機において、
 前記空気循環機構は、空気を送風する第1送風機および第2送風機と、前記第1送風機により送風される空気を前記内槽の内部に循環させる第1吹出口を有する第1空気循環流路と、前記第2送風機により送風される空気を前記内槽の内部に循環させる第2吹出口を有する第2空気循環流路と、を有し、
 前記第2空気循環流路は、前記第1空気循環流路における前記第1送風機と前記第1吹出口との間から分岐して設けられ、前記第1空気循環流路との分岐部と前記第2吹出口との間に前記第2送風機が配置される。
In order to achieve the above object, the washing and drying machine of the present invention includes:
an outer tank capable of storing liquid therein; an inner tank rotatably provided inside the outer tank to accommodate laundry; a heat exchange unit having a dehumidifying function and a heating function; A washing and drying machine comprising an air circulation mechanism that circulates air via a heat exchange unit,
The air circulation mechanism includes a first blower and a second blower for blowing air, and a first air circulation flow path having a first outlet for circulating the air blown by the first blower into the inner tank. , a second air circulation flow path having a second outlet for circulating the air blown by the second blower to the inside of the inner tank,
The second air circulation flow path is provided by branching from between the first blower and the first outlet in the first air circulation flow path, and the branched portion with the first air circulation flow path and the A said 2nd air blower is arrange|positioned between a 2nd blower outlet.
 本発明によれば、乾燥のための全ての循環空気を熱交換ユニットにおいて除湿して加熱できるため、温湿度を制御して衣類に吹き付ける空気の循環量を増やすことができる。第2送風機で昇圧する空気は、第1送風機で昇圧した空気を吸い込むため、第1送風機および第2送風機をそれぞれ単独で駆動するときよりも軸動力を低減でき、乾燥のための消費電力量の増加を抑制することができる。 According to the present invention, all the circulating air for drying can be dehumidified and heated in the heat exchange unit, so the temperature and humidity can be controlled to increase the amount of air circulating that is blown onto the clothes. Since the air pressurized by the second blower sucks the air pressurized by the first blower, the shaft power can be reduced compared to when the first blower and the second blower are driven independently, and the power consumption for drying can be reduced. increase can be suppressed.
 上記した以外の課題、構成及び効果は、以下の実施形態の説明により明らかにされる。 Problems, configurations, and effects other than those described above will be clarified by the following description of the embodiments.
本発明の第1実施例に係る洗濯乾燥機を示す外観斜視図である。1 is an external perspective view showing a washing and drying machine according to a first embodiment of the present invention; FIG. 本発明の第1実施例に係る洗濯乾燥機の内部構造を示す、正面から見て右側面の概略断面図である。Fig. 2 is a schematic cross-sectional view of the right side as viewed from the front, showing the internal structure of the washing and drying machine according to the first embodiment of the present invention; 本発明の第1実施例に係る温風循環機構および除湿機構を透視して示す洗濯乾燥機の斜視図である。BRIEF DESCRIPTION OF THE DRAWINGS It is a perspective view of the washing-drying machine which sees through and shows the warm air circulation mechanism and dehumidification mechanism which concern on 1st Example of this invention. 本発明の第1実施例に係る第1送風機および第2送風機の駆動タイミングに関する概略図である。FIG. 4 is a schematic diagram of drive timings of a first fan and a second fan according to the first embodiment of the present invention; 本発明の第1実施例に係る洗濯乾燥機の制御装置の構成を示すブロック図である。1 is a block diagram showing the configuration of a control device for a washing/drying machine according to a first embodiment of the present invention; FIG. 本発明の第1実施例に係る洗濯乾燥機における洗濯乾燥運転の運転工程を説明する工程図(フローチャート)である。FIG. 4 is a process diagram (flow chart) explaining the operation process of the washing/drying operation in the washing/drying machine according to the first embodiment of the present invention. 本発明の第2実施例に係る洗濯乾燥機の内部構造を示す、正面から見て右側面の概略断面図である。It is a schematic cross-sectional view of the right side as viewed from the front, showing the internal structure of the washing and drying machine according to the second embodiment of the present invention. 本発明の第2実施例に係る洗濯乾燥機の内部構造を示す、背面側から見た概略断面図である。It is a schematic sectional view seen from the back side, showing the internal structure of the washing and drying machine according to the second embodiment of the present invention. 本発明の第3実施例に係る温風循環機構および除湿機構を透視して示す洗濯乾燥機の斜視図である。FIG. 11 is a perspective view of a washing and drying machine showing a hot air circulation mechanism and a dehumidifying mechanism according to a third embodiment of the present invention;
 洗濯から乾燥までを連続して行える洗濯乾燥機による衣類の乾燥は、送風ファンと熱源により高温・低湿度の空気を作り、これを洗濯槽内に吹込み、衣類の温度を高くし、衣類から水分を蒸発させ、蒸発した水分を除湿する温風乾燥方式により行う。蒸発した水分の除去方法としては、循環空気を冷却除湿する方式と、循環空気を周囲の低湿な空気と入れ替える方式とがある。さらに冷却除湿の冷熱源としては、ヒートポンプを用いる方式と冷却水を用いる方式とがある。 Drying clothes with a washer/dryer, which can continuously perform washing and drying, creates high-temperature, low-humidity air with a blower fan and a heat source, blows it into the washing tub, raises the temperature of the clothes, and removes them from the clothes. A warm air drying method is used to evaporate the moisture and dehumidify the evaporated moisture. Methods for removing the evaporated moisture include a method of cooling and dehumidifying the circulating air and a method of replacing the circulating air with low-humidity air in the surroundings. Furthermore, as a cold heat source for cooling and dehumidification, there are a method using a heat pump and a method using cooling water.
 近年では低環境負荷機器が求められており、具体的には脱フロンに対応し、消費電力量の少ない省エネ機器が求められている。洗濯乾燥の運転時間を短くできれば、消費電力量を減らすことができるので、いわゆる時短も重要なファクターである。 In recent years, there has been a demand for low-environmental load equipment. Specifically, there is a need for energy-saving equipment that is fluorocarbon-free and consumes less power. If the operation time for washing and drying can be shortened, power consumption can be reduced, so so-called time saving is also an important factor.
 一方で、乾燥運転後の衣類のしわに対する不満が多く、特にシャツなどアウターに対するしわの少ない仕上がりも求められている。しわの少ない仕上がりにできれば、アイロンがけの手間が減り省エネにもなる。 On the other hand, there are many dissatisfaction with wrinkles in clothes after the drying operation, and there is a demand for less wrinkle finish, especially for outerwear such as shirts. If you can finish it with less wrinkles, you can save energy by reducing the time and effort of ironing.
 しわを取り除く原理としては、しわを帯びた部位に熱を加えながら力をかけて引き延ばすことで、しわを伸ばすと共に含んだ水分を蒸発させて、繊維が伸ばされた状態で固定することによる。すなわち、しわを引き延ばす力と水分を蒸発させるための熱を供給し、蒸気が生成される。蒸気の生成と拡散を促すためには、周囲の湿度を低くするのが良い。 The principle of removing wrinkles is to stretch the wrinkled area while applying heat while applying force to smooth out the wrinkles and evaporate the contained moisture, fixing the fibers in the stretched state. That is, it supplies wrinkle-stretching power and heat to evaporate the moisture, creating steam. Ambient humidity should be low to facilitate vapor generation and diffusion.
 以下、本発明に係る一実施例を、図面を用いて説明する。
  [実施例1]
 図1は、本発明の第1実施例に係る洗濯乾燥機を示す外観斜視図である。図2は、本発明の第1実施例に係る洗濯乾燥機の内部構造を示す、正面から見て右側面の概略断面図である。
An embodiment according to the present invention will be described below with reference to the drawings.
[Example 1]
FIG. 1 is an external perspective view showing a washing/drying machine according to a first embodiment of the present invention. FIG. 2 is a schematic cross-sectional view of the right side as viewed from the front, showing the internal structure of the washing and drying machine according to the first embodiment of the present invention.
 本実施例では、洗濯乾燥機100の一例として、ドラム式洗濯乾燥機について説明するが、これに限らず、縦型洗濯乾燥機に本発明を適用することもできる。 In this embodiment, a drum-type washer/dryer will be described as an example of the washer/dryer 100, but the present invention is not limited to this, and can also be applied to a vertical type washer/dryer.
 まず外観について説明する。ベース1hの上部に、主に鋼板と樹脂成形品で作られた側板1a及び補強材(図示せず)を組み合わせて骨格を構成し、さらにその上に前面カバー1c、上面カバー1eを取り付けることで筐体1を形成している。前面カバー1cには洗濯物207を出し入れするドア9が設けられており、背面には背面カバー(図示せず)がとりつけられている。ドア9は、ドアガラス9aとドア枠9bとを備える。 First, let's talk about the exterior. Side plates 1a made mainly of steel plates and resin moldings and reinforcing members (not shown) are combined to form a frame on the top of the base 1h, and a front cover 1c and a top cover 1e are attached thereon. A housing 1 is formed. The front cover 1c is provided with a door 9 for loading and unloading laundry 207, and a back cover (not shown) is attached to the back. The door 9 includes a door glass 9a and a door frame 9b.
 つぎに洗濯乾燥機100の概略構造について簡単に説明する。筐体1の内側には外槽2が備えられる。外槽2は、内部に液体を貯溜可能であり、下部の複数個のサスペンション5により支持されている。外槽2の内側にある回転ドラム3にはドア9を開けて投入された洗濯物207があり、回転ドラム3の開口部の外周には脱水時の洗濯物207のアンバランスによる振動を低減するための流体バランサ31が設けられている。回転ドラム3は、外槽2の内側に回転自在に設けられ、洗濯物を収容する。このため回転ドラム3は内槽とも呼ばれる。 Next, the schematic structure of the washing/drying machine 100 will be briefly described. An outer tank 2 is provided inside the housing 1 . The outer tank 2 can store liquid inside and is supported by a plurality of suspensions 5 at the bottom. A rotating drum 3 inside the outer tub 2 has the laundry 207 thrown in with the door 9 opened, and the outer circumference of the opening of the rotating drum 3 reduces the vibration caused by the imbalance of the laundry 207 during dehydration. A fluid balancer 31 is provided for this purpose. The rotating drum 3 is rotatably provided inside the outer tub 2 and accommodates laundry. For this reason, the rotating drum 3 is also called an inner tank.
 回転ドラム3の内側には洗濯物207を掻き揚げる複数個のリフター33が設けられている。回転ドラム3は回転ドラム用金属製フランジ34に連結された主軸35を介してドラム駆動用モータM10に直結されている。あるいは本実施例に対して別方式となる、主軸に固定されたプーリと外槽2に固定したモータとをベルトを介して連結させ、ドラムを駆動させる、いわゆるベルト駆動方式でもよい。外槽2の開口部には弾性体からなるゴム系のパッキン10が取付けられている。このパッキン10は外槽2内とドア9との水密性を維持する役割をしている。これにより、洗い、すすぎ及び脱水時の水漏れの防止が図られている。回転ドラム3は、側壁に遠心脱水および通風用の多数の小孔(図示せず)を有する。外槽2の水受け部54に開口した排水口21は、排水弁V1を介して排水ホース26に接続される。またオーバーフローホース17は外槽2の前面に取り付けられており、排水弁V1よりも下流側で排水ホース26と合流している。即ち、オーバーフローホース17は排水弁V1の開閉状態に関係なく排水ホース26と連通される構成となっている。
ただし、オーバーフローホース17は排水弁8よりも上流で排水ホース26と合流させる構成としても機能上は何ら差し支えない。
A plurality of lifters 33 for raking up the laundry 207 are provided inside the rotary drum 3 . The rotating drum 3 is directly connected to a drum driving motor M10 via a main shaft 35 connected to a metal flange 34 for rotating drum. Alternatively, a so-called belt drive system in which a pulley fixed to the main shaft and a motor fixed to the outer tank 2 are connected via a belt to drive the drum, which is different from the present embodiment, may be used. A rubber-based packing 10 made of an elastic material is attached to the opening of the outer tub 2 . This packing 10 serves to maintain watertightness between the inside of the outer tub 2 and the door 9 . This prevents water leakage during washing, rinsing and dehydration. The rotating drum 3 has a large number of small holes (not shown) for centrifugal dehydration and ventilation on the side wall. A drain port 21 opened in the water receiving portion 54 of the outer tub 2 is connected to a drain hose 26 via a drain valve V1. The overflow hose 17 is attached to the front surface of the outer tank 2 and joins the drain hose 26 downstream of the drain valve V1. That is, the overflow hose 17 is configured to communicate with the drain hose 26 regardless of whether the drain valve V1 is opened or closed.
However, the overflow hose 17 may be configured to merge with the drain hose 26 upstream of the drain valve 8 without causing any functional problems.
 洗濯水を外槽2の上部までくみ上げて、回転ドラム3内の洗濯物207に散布するための循環ポンプ18は、外槽2よりも下部のベース1h側に固定されている。洗濯水は、外槽下部に設けられた水受け部54の排水口21から、糸くずフィルタ222(図3参照)を通して循環ポンプ18の吸込口側に入り、循環ポンプ18で昇圧されたのち、散水ノズル223(図3参照)からドラム3内に向けて散水される。また水受け部54の底部に排水のために設けた排水口21は、糸くずフィルタ222と排水弁V1を介して、排水ホース26に通じており、水受け部54内の水を排水できる。 A circulation pump 18 for pumping up the washing water to the upper part of the outer tub 2 and spraying it on the laundry 207 in the rotating drum 3 is fixed below the outer tub 2 on the side of the base 1h. The washing water passes through the lint filter 222 (see FIG. 3) from the drain port 21 of the water receiving portion 54 provided at the bottom of the outer tub, enters the suction port side of the circulation pump 18, and is pressurized by the circulation pump 18. Water is sprayed into the drum 3 from a water spray nozzle 223 (see FIG. 3). A drain port 21 provided for draining water at the bottom of the water receiving portion 54 is connected to a drain hose 26 via a lint filter 222 and a drain valve V1, so that water in the water receiving portion 54 can be drained.
 一方、オーバーフローホース17は、外槽2のドア9側から排水孔39へ分岐させるように、排水弁V1よりも下流側で排水ホース26と連通させる構成としている。即ちオーバーフローホース17が取り付けてある所定の水位よりも水量が増えてしまった場合には、いかなる場合でも強制的に排水できる構成としている。 On the other hand, the overflow hose 17 is configured to communicate with the drain hose 26 on the downstream side of the drain valve V1 so as to branch from the door 9 side of the outer tank 2 to the drain hole 39 . That is, when the amount of water exceeds the predetermined water level to which the overflow hose 17 is attached, the water can be forcibly drained in any case.
 図3は、本発明の第1実施例に係る温風循環機構および除湿機構を透視して示す洗濯乾燥機の斜視図である。図3では、洗濯乾燥機100の内部の基本構造を示しており、熱交換ユニット251、第1送風機256、第2送風機20、第1吹出口257、第2吹出口203、空気循環流路71,72および分岐部258からおもに構成される空気循環機構(温風循環機構)の基本構成を示している。空気循環機構は、回転ドラム(内槽)3の内部と熱交換ユニット251とを経由して空気を循環させる。 FIG. 3 is a perspective view of the washing/drying machine showing the warm air circulation mechanism and the dehumidifying mechanism according to the first embodiment of the present invention. 3 shows the basic internal structure of the washer/dryer 100, including a heat exchange unit 251, a first blower 256, a second blower 20, a first outlet 257, a second outlet 203, and an air circulation channel 71. , 72 and a branch portion 258, showing the basic configuration of an air circulation mechanism (warm air circulation mechanism). The air circulation mechanism circulates air through the interior of the rotating drum (inner tank) 3 and the heat exchange unit 251 .
 本実施例の熱交換ユニット251は、ヒートポンプで構成され、凝縮器252、蒸発器253、膨張手段(膨脹弁)254、圧縮機255及びそれらを結ぶ配管を有する。熱交換ユニット251は、除湿機能および加熱機能を有する。槽背面の出口260から熱交換ユニット251に流入し、第1送風機256を通った後の空気は分岐部258において、第1吹出口257から槽内に吹き出される一部の空気と、さらに第2送風機20を通って昇圧させた後に第2吹出口203で絞られることで、高風速として槽内に吹き出される残りの空気とに分けられる。すなわち第1吹出口257から吹き出される空気と第2吹出口203から吹き出される空気とは同じ湿度であり、第2吹出口203から吹き出される空気温度は、第1送風機256と第2送風機20とで昇圧されるため、第1吹出口257の空気温度よりも第2送風機20で昇圧される分だけ高い。 The heat exchange unit 251 of this embodiment is composed of a heat pump, and has a condenser 252, an evaporator 253, an expansion means (expansion valve) 254, a compressor 255, and piping connecting them. The heat exchange unit 251 has a dehumidifying function and a heating function. After flowing into the heat exchange unit 251 from the outlet 260 on the back surface of the tank and passing through the first blower 256, the air at the branch 258 is part of the air blown into the tank from the first outlet 257, After being pressurized through the second blower 20, the air is throttled by the second outlet 203 and separated into the remaining air that is blown out into the tank as a high air velocity. That is, the air blown from the first blower outlet 257 and the air blown from the second blower outlet 203 have the same humidity, and the temperature of the air blown from the second blower outlet 203 is different from that of the first blower 256 and the second blower. 20 , the air temperature is higher than the air temperature at the first blower outlet 257 by the amount increased by the second blower 20 .
 すなわち空気循環機構の空気循環流路は、第1空気循環流路71と第2空気循環流路72とを有する。第1空気循環流路71は、第1送風機256により送風される空気を回転ドラム(内槽)3の内部に循環させる第1吹出口257を有する。第2空気循環流路72は、第2送風機20により送風される空気を回転ドラム(内槽)3の内部に循環させる第2吹出口203を有する。第2空気循環流路72は、第1空気循環流路71における第1送風機256と第1吹出口257との間から分岐して設けられ、第1空気循環流路71との分岐部258と第2吹出口203との間に第2送風機20が配置される。この場合、第1空気循環流路71は、熱交換ユニット251を通過した空気の一部を、第1吹出口257に導き、第2空気循環流路72は、熱交換ユニット251を通過した残りの空気を、第2送風機20を介して第2吹出口203に導くように構成される。 That is, the air circulation channel of the air circulation mechanism has the first air circulation channel 71 and the second air circulation channel 72 . The first air circulation flow path 71 has a first outlet 257 that circulates the air blown by the first blower 256 inside the rotating drum (inner tank) 3 . The second air circulation flow path 72 has a second outlet 203 that circulates the air blown by the second blower 20 inside the rotating drum (inner tank) 3 . The second air circulation flow path 72 is branched from between the first blower 256 and the first outlet 257 in the first air circulation flow path 71, and is provided at a branch portion 258 with the first air circulation flow path 71. A second blower 20 is arranged between the second outlet 203 and the second blower 203 . In this case, the first air circulation channel 71 guides part of the air that has passed through the heat exchange unit 251 to the first outlet 257, and the second air circulation channel 72 guides the remaining air that has passed through the heat exchange unit 251. of air to the second outlet 203 via the second blower 20 .
 また本実施例では、第1吹出口257と第2吹出口203を外槽2の前側に設けた構成となっており、槽背面に設けた出口260に対して、第1吹出口257の空気と第2吹出口203の空気がドア9側から槽背面側に向かう同方向のループを描くように流れる構成となっている。このような構成では主にしわを伸ばす作用を有する第2吹出口203の空気の湿度とその周囲を流れる第1吹出口257からの空気の湿度とを同レベルにできることで、衣類全体の乾燥レベルを一様にしつつしわを伸ばせる。極端に湿り具合の異なる衣類を回転ドラム3で回転撹拌すると、攪拌時の漂い加減に差が生じて絡まり易くなる。本実施例では、衣類全体の乾燥レベルを一様にすることができるので、衣類の絡まりを少なくすることができる。また第2送風機20からの高速風を阻害することなく全体の空気循環を形成できるため、送風機の動力損失を小さくできる。 Further, in this embodiment, the first blow-out port 257 and the second blow-out port 203 are provided on the front side of the outer tub 2, and the air from the first blow-out port 257 is separated from the outlet 260 provided on the back surface of the tub. , and the air from the second outlet 203 flows so as to draw a loop in the same direction from the door 9 side to the back side of the tank. With such a configuration, the humidity of the air from the second outlet 203, which mainly has the function of smoothing wrinkles, and the humidity of the air from the first outlet 257 that flows around it can be kept at the same level. You can stretch the wrinkles while making it uniform. When the rotating drum 3 rotates and agitates clothes with extremely different wetness levels, a difference occurs in the degree of drifting during agitation and the clothes tend to get tangled. In this embodiment, the drying level of the entire clothes can be made uniform, so the tangling of the clothes can be reduced. Moreover, since the entire air circulation can be formed without hindering the high-speed air from the second blower 20, the power loss of the blower can be reduced.
 温風循環機構における空気循環流路は、槽背面の出口260から熱交換ユニット251までの間、第1送風機256から分岐部258までの間、分岐部258と第2送風機20の吸込口までの間、および第2送風機20の出口から第2吹出口203までの間に、各々ジャバラホース212a,212b,212c,212dを配置した構成となっている。
本実施例では熱交換ユニット251と第1送風機256はベース1hに固定され、第2送風機20は筐体1の上部に固定された構成となっているため、槽の振動が大きいときなど、各々のジャバラホース212a,212b,212c,212dにて異なる動きによる振動を吸収できる。
The air circulation flow path in the hot air circulation mechanism is from the outlet 260 on the back of the tank to the heat exchange unit 251, from the first blower 256 to the branch 258, and from the branch 258 to the suction port of the second blower 20. bellows hoses 212 a , 212 b , 212 c , and 212 d are arranged between the outlet of the second blower 20 and the second outlet 203 , respectively.
In this embodiment, the heat exchange unit 251 and the first blower 256 are fixed to the base 1h, and the second blower 20 is fixed to the upper part of the housing 1. The bellows hoses 212a, 212b, 212c, and 212d can absorb vibrations caused by different movements.
 ジャバラホース212a,212b,212c,212dは可撓性を有する部材であり、空気循環流路に取り付けられているが、これに限らず、空気循環流路を形成する部材と一体に設けられてもよい。このため、ジャバラホースは可撓部と呼んで説明する場合がある。 The bellows hoses 212a, 212b, 212c, and 212d are members having flexibility and are attached to the air circulation flow path. good. For this reason, the bellows hose may be referred to as a flexible portion for explanation.
 本実施例の洗濯乾燥機100では、第1送風機256は、外槽2の下方に配置され、第2送風機20は、外槽2の上方に配置される。この場合、第1空気循環流路71は第1送風機256と分岐部258との間に可撓部212bが設けられ、第2空気循環流路72は分岐部258と第2送風機20との間および第2送風機20と第2吹出口203との間にそれぞれ可撓部212c,212dが設けられる。 In the washing and drying machine 100 of this embodiment, the first blower 256 is arranged below the outer tub 2 and the second blower 20 is arranged above the outer tub 2 . In this case, the first air circulation channel 71 is provided with the flexible portion 212b between the first fan 256 and the branch portion 258, and the second air circulation channel 72 is provided between the branch portion 258 and the second fan 20. And flexible portions 212c and 212d are provided between the second blower 20 and the second outlet 203, respectively.
 一般的に、衣類乾燥におけるしわは、乾燥がある程度進み含水量が少なくなる後半において、しわを伸ばせば効率よくしわが取れることが知られている。また衣類全体に高速な風をあてるよりも、限られた範囲に高速風をあてて、周囲との相対速度差で伸ばすのが効果的である。本実施例では、乾燥に必要な循環空気量を確保しつつ、乾燥工程のある期間のみ、その一部の空気を高速風として衣類に当てることが可能なため、消費電力を抑えつつしわを少なくする乾燥が短時間でできる。 In general, it is known that wrinkles in clothes drying can be removed efficiently by smoothing out the wrinkles in the second half when the drying progresses to some extent and the moisture content decreases. Also, rather than applying high-speed wind to the entire clothing, it is more effective to apply high-speed wind to a limited range and stretch the clothing by the relative speed difference with the surroundings. In this embodiment, while securing the amount of circulating air necessary for drying, it is possible to apply a part of the air as high-speed air to the clothes only during a certain period of the drying process, so that wrinkles are reduced while suppressing power consumption. Drying can be done in a short time.
 さらに、第1吹出口257から吹き出される、第1送風機256で昇圧した空気の吐出圧で、槽内圧を安定した状態にできるため、第2送風機20の吸込側は第1送風機256の吐出圧で調整される。第2吹出口203から吹き出される高速風も第1送風機256の吐出圧で調整された槽内への吹き出しであるため、第2送風機20で昇圧し第2吹出口203にて高速風とした空気を安定して吹き出すことができる。 Furthermore, the pressure in the tank can be stabilized by the discharge pressure of the air boosted by the first blower 256, which is blown out from the first blower port 257, so that the suction side of the second blower 20 is is adjusted by Since the high-speed air blown out from the second air outlet 203 is also the air blown into the tank adjusted by the discharge pressure of the first air blower 256, the pressure is increased by the second air blower 20 and the high-speed air is generated at the second air outlet 203. Air can be blown out stably.
 すなわち第2送風機20は、第2吹出口203から吹き出す空気の流速が第1吹出口257から吹き出す空気の流速よりも高速になるように、第2空気循環流路72を流れる空気を昇圧する。これにより、第2吹出口203から吹き出される空気の流速は、第1吹出口257から吹き出される空気の流速よりも速い。 That is, the second blower 20 pressurizes the air flowing through the second air circulation flow path 72 so that the flow velocity of the air blown out from the second blower outlet 203 is higher than the flow velocity of the air blown out from the first blower outlet 257. As a result, the flow velocity of the air blown out from the second blower outlet 203 is faster than the flow velocity of the air blown out from the first blower outlet 257 .
 このとき第2送風機20で昇圧する空気は、第1送風機256で昇圧した空気を吸い込むため、動圧が得られることで第2送風機20を単独で駆動するときよりも軸動力を低減できる。また、第1送風機256においても出口側で空気の一部が第2送風機20に吸い込まれることで、第1送風機256で昇圧したすべての空気を槽内へ吹き出すときよりも軸動力を減らすことができる。このため第1送風機256および第2送風機20の両方で、効率よく運転することができる。 At this time, the air pressurized by the second blower 20 sucks the air pressurized by the first blower 256, so that dynamic pressure can be obtained, and the shaft power can be reduced more than when the second blower 20 is driven alone. Also, part of the air is sucked into the second blower 20 on the outlet side of the first blower 256, so that the shaft power can be reduced more than when all the air pressurized by the first blower 256 is blown into the tank. can. Therefore, both the first fan 256 and the second fan 20 can be efficiently operated.
 また本実施例では第2送風機20の出口に補助加熱部(補助加熱装置)213を設けた構成としている。すなわち第2空気循環流路72は、第2送風機20の出口に補助加熱装置213を有する。とくに乾燥後半は、衣類の繊維内部から水分を蒸発させるため、衣類の表面側を温めて内部へ熱を伝える必要がある。このため温風温度は高いほうがよく、必要に応じて加熱源により温度調整ができる。 Also, in this embodiment, an auxiliary heating unit (auxiliary heating device) 213 is provided at the outlet of the second blower 20 . That is, the second air circulation channel 72 has the auxiliary heating device 213 at the outlet of the second blower 20 . Especially in the second half of drying, it is necessary to warm the surface side of the clothes and transfer the heat to the inside in order to evaporate the moisture from the inside of the fibers of the clothes. Therefore, the hot air temperature should be high, and the temperature can be adjusted by the heat source as needed.
 さらには、洗浄やすすぎ工程において槽出口部や第2吹出口203に水位が達しないレベルでは、第2送風機20を駆動させると共に補助加熱部213に通電して、温風を衣類や洗浄水に当てることで、洗浄やすすぎの温度レベルを容易に調整することができる。 Furthermore, when the water level does not reach the bath outlet or the second outlet 203 in the washing or rinsing process, the second blower 20 is driven and the auxiliary heating unit 213 is energized to blow warm air to the clothes and washing water. By applying it, the temperature level for washing and rinsing can be easily adjusted.
 回転ドラム3の回転で洗濯物は上部に持ち上げられた後に落下するタンブリング動作を繰り返す。このため高速風を洗濯物に効果的に充てるために、補助加熱部213を含む第2送風機20は回転ドラム3の上方に設けている。さらに回転ドラム3の上方に設けた第2送風機20に対比させて、第1送風機256を回転ドラム3の下部に設けることで、洗濯乾燥機100全体としての質量バランスをとることができ、洗濯乾燥機100を振動に対して安定しやすい構成としている。また第2吹出口203を回転ドラム3の上部に配置しているため、第2送風機20も回転ドラム3の上方に配置することで、第2送風機20の吹出側の風路抵抗を減らすことができる。また第1送風機256と第2送風機20とを接続するダクト(空気循環路)に分岐部258を設けて、第1送風機256の一部の空気を回転ドラム3内へ吹き出す第1吹出口257を設ける構成に対して、第1送風機256を回転ドラム3の下方に設けることで、第1送風機256から第1吹出口257までの風路抵抗を第1送風機256から第2送風機20へ向かう風路抵抗よりも小さくできるので、乾燥工程全域にわたって運転させる第1送風機256の消費電力を減らすことができる。 The rotation of the rotating drum 3 repeats the tumbling action in which the laundry is lifted to the top and then dropped. Therefore, the second blower 20 including the auxiliary heating section 213 is provided above the rotary drum 3 in order to effectively apply high-speed air to the laundry. Furthermore, by providing the first blower 256 below the rotating drum 3 in contrast to the second blower 20 provided above the rotating drum 3, the mass balance of the washing and drying machine 100 as a whole can be achieved. The machine 100 is configured to be easily stabilized against vibration. In addition, since the second air outlet 203 is arranged above the rotating drum 3, the second blower 20 is also arranged above the rotating drum 3, so that the air path resistance on the blowing side of the second blower 20 can be reduced. can. In addition, a branch portion 258 is provided in the duct (air circulation path) connecting the first blower 256 and the second blower 20, and a first blowout port 257 for blowing out part of the air from the first blower 256 into the rotating drum 3 is provided. By providing the first blower 256 below the rotary drum 3, the air path resistance from the first blower 256 to the first outlet 257 is reduced to the air path from the first blower 256 to the second blower 20. Since it can be made smaller than the resistance, it is possible to reduce the power consumption of the first blower 256 which is operated throughout the drying process.
 特に皮脂汚れなどを効果的に落とす洗浄として、少ない給水による高濃度の洗剤液を洗濯物に散布、浸透させて、タンブリング動作を行う洗濯運転とした場合、洗浄水を通常の洗濯よりも少なくしているため、洗浄水を洗濯物に浸透させた後では、回転ドラム3の下部の残りの洗浄水量がほとんどない状態となる。このような汚れに特化した洗浄コースでは、一般的に水量を減らし気味にして洗剤濃度を高濃度とし、さらに温度を高くすると、汚れ落ちが良くなる。この場合、衣類や洗浄水に温風を当てることで、温度レベルを容易に調整することができる。また水量が少ないことで、より短時間で温度レベルを上げることができ、短時間で高温洗浄ができる。 Especially for washing that effectively removes sebum stains, etc., the washing water is less than normal washing when a high-concentration detergent solution with a small amount of water supply is sprayed and permeated on the laundry and tumbling is performed. Therefore, almost no amount of washing water remains in the lower part of the rotating drum 3 after the washing water has permeated the laundry. In the cleaning course specialized for such stains, stain removal is generally improved by increasing the concentration of the detergent by slightly reducing the amount of water and increasing the temperature. In this case, the temperature level can be easily adjusted by blowing hot air onto the clothes and washing water. In addition, since the amount of water is small, the temperature level can be raised in a short time, and high-temperature washing can be performed in a short time.
 以上のように、槽背面の出口260から熱交換ユニット251に流入し、第1送風機256を通った後の空気を、分岐部258において第1吹出口257から槽内に吹き出される一部の空気と、さらに第2送風機20を通って昇圧させた後に第2吹出口203で絞られることで高風速として槽内に吹き出される残りの空気とに分岐させることで、衣類に当ててしわをのばす高速風と槽内を循環させる循環風とを生成することができ、乾燥を促進できる。さらに乾燥のための全ての循環空気を、熱交換ユニット251を通すことにより、除湿して加熱できる。このため、第2吹出口203からの低湿な高速風によりしわをのばしつつ衣類を乾燥させ、槽内全体の雰囲気も第1吹出口257からの低湿な空気を循環させることで、伸ばしたしわに水分が戻ることによるしわの再発や乾燥ムラによる新たなしわ生成を防止できる。また除湿手段と加熱手段を通過する循環空気量を安定して確保しつつ、乾燥工程のある期間において第2送風機20を運転して効率よくしわを伸ばすことができるため、消費電力量を抑えつつ、乾燥時間も短縮できる。さらに槽内圧を、第1吹出口257から吹き出される第1送風機256で昇圧した空気の吐出圧で安定した状態にできるため、第2送風機20で昇圧し第2吹出口203にて高速風とした空気を安定して吹き出すことができる。このとき第2送風機20で昇圧する空気は、第1送風機256で昇圧した空気を吸い込むため、第2送風機20を単独で駆動するときよりも軸動力を低減できる。第1送風機256においても出口側で空気の一部が第2送風機20に吸い込まれることで、第1送風機256を単独で動かすときよりも軸動力を減らすことができる。このため第1送風機256および第2送風機20の両方を、効率よく運転することができる。 As described above, the air that has flowed into the heat exchange unit 251 from the outlet 260 on the back surface of the tank and passed through the first blower 256 is part of the air that is blown into the tank from the first outlet 257 at the branch portion 258. By branching into the air and the remaining air that is blown into the tank at a high speed by being throttled by the second outlet 203 after being pressurized through the second blower 20, the air is applied to the clothes to remove wrinkles. It is possible to generate a high-speed air that spreads and a circulation air that circulates in the tank, thereby promoting drying. Furthermore, all circulating air for drying can be dehumidified and heated by passing through a heat exchange unit 251 . For this reason, the low-humidity, high-speed air from the second air outlet 203 smoothes out the wrinkles while drying the clothes, and the low-humidity air from the first air outlet 257 circulates the entire atmosphere of the tank, thereby smoothing out the wrinkles. It is possible to prevent the recurrence of wrinkles due to the return of moisture and the formation of new wrinkles due to uneven drying. In addition, while stably securing the amount of circulating air passing through the dehumidifying means and the heating means, the second blower 20 can be operated during a certain period of the drying process to efficiently smooth out wrinkles, so power consumption can be suppressed. , the drying time can be shortened. Furthermore, since the tank internal pressure can be stabilized by the discharge pressure of the air boosted by the first blower 256 blown out from the first blower outlet 257, the pressure is increased by the second blower 20 and the second blower outlet 203 produces high-speed air. It is possible to stably blow out the air. At this time, the air pressurized by the second blower 20 sucks the air pressurized by the first blower 256, so the shaft power can be reduced compared to when the second blower 20 is driven alone. Part of the air is sucked into the second blower 20 on the outlet side of the first blower 256 as well, so that the shaft power can be reduced more than when the first blower 256 is operated alone. Therefore, both the first fan 256 and the second fan 20 can be efficiently operated.
 また、第1送風機256の出口から第2送風機20および第2吹出口203を介して回転ドラム3に通じる経路は、第1送風機256に対して吹出風路の一部を構成している。
この場合、第1吹出口257のみから吹き出すときよりも、第1送風機256の吹出風路を広げた効果が得られて風路抵抗を小さくできるため、消費電力を小さくできる。
Further, a path leading from the outlet of the first blower 256 to the rotary drum 3 via the second blower 20 and the second outlet 203 constitutes part of the blowing air path for the first blower 256 .
In this case, the effect of widening the blowing air path of the first blower 256 can be obtained and the air path resistance can be reduced compared to when the air is blown only from the first blower outlet 257, so power consumption can be reduced.
 図5は、本発明の第1実施例に係る洗濯乾燥機の制御装置の構成を示すブロック図である。 FIG. 5 is a block diagram showing the configuration of the washing/drying machine control device according to the first embodiment of the present invention.
 図5に示すように、制御装置90は、マイクロコンピュータ(以下「マイコン」と称する)110を備える。マイコン110は、使用者の操作(操作スイッチ12,13)や、洗濯工程および乾燥工程での各種情報信号(温度センサT1,T2,T3,T4および電導度センサ4の信号)を取得する。また、マイコン110は、駆動回路を介して、モータM10、給水電磁弁16、排水弁V1、循環ポンプ18、第1送風機256、第2送風機20、圧縮機255、膨張手段254、補助ヒータ213、および給水ポンプ86に接続され、これらの開閉、回転、通電を制御する。また、マイコン110は、使用者にドラム式洗濯乾燥機100に関する情報を知らせるために、表示器14やブザー(図示せず)等を制御する。また、マイコン110は、運転パターンデータベース111、工程制御部112、回転速度算出部113、衣類重量算出部114、電導度測定部115、洗剤量・洗い時間決定部116、濁度判定部117、および閾値記憶部118を備える。 As shown in FIG. 5, the control device 90 includes a microcomputer (hereinafter referred to as "microcomputer") 110. The microcomputer 110 acquires user's operations (operation switches 12, 13) and various information signals (signals of the temperature sensors T1, T2, T3, T4 and the conductivity sensor 4) in the washing process and the drying process. In addition, the microcomputer 110 operates a motor M10, a water supply solenoid valve 16, a drain valve V1, a circulation pump 18, a first blower 256, a second blower 20, a compressor 255, an expansion means 254, an auxiliary heater 213, and a water supply pump 86 to control opening/closing, rotation, and energization of these. In addition, the microcomputer 110 controls the display 14, a buzzer (not shown), etc. in order to inform the user of information regarding the drum-type washer/dryer 100. FIG. In addition, the microcomputer 110 includes an operation pattern database 111, a process control unit 112, a rotation speed calculation unit 113, a clothing weight calculation unit 114, an electrical conductivity measurement unit 115, a detergent amount/washing time determination unit 116, a turbidity determination unit 117, and a A threshold storage unit 118 is provided.
 マイコン110は、電源スイッチ13が押されて電源が投入されると起動し、図7に示すような洗濯および乾燥の基本的な制御処理プログラムを実行する。 The microcomputer 110 is activated when the power switch 13 is pressed and the power is turned on, and executes a basic control processing program for washing and drying as shown in FIG.
 図6は、本発明の第1実施例に係る洗濯乾燥機における洗濯乾燥運転の運転工程を説明する工程図(フローチャート)である。 FIG. 6 is a process diagram (flow chart) explaining the operation process of the washing/drying operation in the washing/drying machine according to the first embodiment of the present invention.
 以下、洗濯乾燥機における洗濯から乾燥までの工程について説明する。図6に示すように、制御装置90は、ステップS1において、洗濯乾燥機100の運転工程のコース選択の入力を受け付ける(コース選択)。ここで、使用者は、ドア9を開けて、回転ドラム3内に洗濯する衣類を投入し、ドア9を閉じる。そして、使用者は、電源スイッチ13を操作して電源を入れ、操作スイッチ12を操作することにより、運転工程のコースを選択し入力する。操作スイッチ12が操作されることにより、選択された運転工程のコースが制御装置90に入力される。制御装置90は、入力された運転工程のコースに基づいて、運転パターンデータベース111から対応する運転パターンを読み込み、ステップS2に進む。なお、以下の説明において、標準コース(洗い~すすぎ2回~脱水~乾燥)が選択されたものとして説明する。 The following describes the process from washing to drying in the washer/dryer. As shown in FIG. 6, in step S1, control device 90 receives an input for course selection of the operation process of washing/drying machine 100 (course selection). Here, the user opens the door 9, puts the clothes to be washed into the rotating drum 3, and closes the door 9. Then, the user operates the power switch 13 to turn on the power, and operates the operation switch 12 to select and input the course of the driving process. By operating the operation switch 12 , the selected driving process course is input to the control device 90 . The control device 90 reads the corresponding driving pattern from the driving pattern database 111 based on the inputted course of the driving process, and proceeds to step S2. In the following description, it is assumed that the standard course (wash-rinse twice-dehydration-dry) is selected.
 ステップS2において、制御装置90は、回転ドラム3に投入された衣類の重量(布量)を検出する工程を実行する(布量センシング)。具体的には、工程制御部112が、モータM10を駆動して回転ドラム3を回転させるとともに、衣類重量算出部114が注水前の洗濯物207の重量(布量)を算出する。 In step S2, the control device 90 executes a process of detecting the weight (amount of cloth) of the clothes placed on the rotary drum 3 (cloth amount sensing). Specifically, the process control unit 112 drives the motor M10 to rotate the rotary drum 3, and the laundry weight calculation unit 114 calculates the weight (cloth amount) of the laundry 207 before pouring water.
 ステップS3において、制御装置90は、洗剤量・運転時間を算出する工程を実行する。電導度測定部115は、給水された水の電導度(硬度)を検出する。また、外槽2の下部(例えば、排水口21)に設けた排水温度センサT1で、給水された水の温度を検出する。洗剤量・洗い時間決定部116は、検出した布量、電導度測定部115において電導度センサ4からの検出値を用いて求めた水の電導度(硬度)、水の温度に基づいてマップ検索により、投入する洗剤量と運転時間を決定する。そして、工程制御部112は、決定された洗剤量・運転時間を表示器14に表示する。 In step S3, the control device 90 executes a process of calculating the amount of detergent and operating time. The conductivity measuring unit 115 detects the conductivity (hardness) of the supplied water. Further, the temperature of the supplied water is detected by a waste water temperature sensor T1 provided in the lower part of the outer bath 2 (for example, the drain port 21). The detergent amount/washing time determining unit 116 performs a map search based on the detected amount of cloth, the conductivity (hardness) of water obtained using the detected value from the conductivity sensor 4 in the conductivity measuring unit 115, and the temperature of the water. determines the amount of detergent to be added and the operating time. Then, the process control unit 112 displays the determined amount of detergent and operating time on the display 14 .
 ステップS4において、制御装置90は、所定時間待機して(洗剤投入待ち工程)、ステップS5に進む。使用者は、待機中に表示器14に表示された洗剤量を参考に、洗剤類投入部7内に洗剤類を投入する。もし洗剤自動投入が設定されていれば、洗剤の投入動作は省ける。 In step S4, the control device 90 waits for a predetermined time (detergent input waiting step), and proceeds to step S5. The user puts detergent into the detergent throwing portion 7 while referring to the amount of detergent displayed on the display 14 during standby. If automatic detergent dosing is set, the detergent dosing operation can be omitted.
 洗濯工程は、洗剤溶かし工程(ステップS5)、前洗い工程(ステップS6)、本洗い工程(ステップS7)に大別される。さらに、本洗い工程は、第1本洗い工程(本洗い1工程)とそれにつづく第2本洗い工程(本洗い2工程)に分けられるが、運転経過に対して各々の工程に明確に区別されていなくても機能上はなんら差し支えない。また、後述する工程中の動作の一部を省略しても洗濯工程全体としての機能に変わりはない。 The washing process is roughly divided into a detergent dissolving process (step S5), a pre-washing process (step S6), and a main washing process (step S7). Furthermore, the main washing process is divided into the first main washing process (main washing 1 process) and the following second main washing process (main washing 2 processes), but each process is clearly distinguished according to the operation progress. There is no problem in terms of function even if it is not. Also, even if some of the operations in the process described later are omitted, the function of the washing process as a whole does not change.
 ステップS5において、制御装置90は、洗剤溶かし工程を実行する。給水電磁弁16の所定の電磁弁が開かれ、給水される。給水は洗剤投入口に導かれたのち、外槽2に投入される。外槽2に投入された洗剤液は、給水経路(図示せず)を通って、回転ドラム3の底部に位置する水受け部54(図2参照)に供給される。洗剤液が投入された後、循環ポンプ18(図2参照)を駆動すると、水受け部54の水は、排水口21から糸くずフィルタ222(図3参照)を介して循環ポンプ18の吸込口(図示せず)に入る。循環ポンプ18で昇圧された洗濯水は、循環ポンプ18の出口と連通する循環吐出口54b(図3参照)から再び水受け部54に戻される(洗剤溶かし工程の循環経路)。 In step S5, the control device 90 executes the detergent dissolving process. A predetermined solenoid valve of the water supply solenoid valve 16 is opened to supply water. The water supply is introduced into the outer tub 2 after being led to the detergent inlet. The detergent liquid introduced into the outer tub 2 is supplied to the water receiver 54 (see FIG. 2) positioned at the bottom of the rotary drum 3 through a water supply path (not shown). When the circulation pump 18 (see FIG. 2) is driven after the detergent liquid is introduced, the water in the water receiver 54 flows from the drain port 21 through the lint filter 222 (see FIG. 3) to the suction port of the circulation pump 18. (not shown). The washing water pressurized by the circulation pump 18 is returned to the water receiving portion 54 again from the circulation discharge port 54b (see FIG. 3) communicating with the outlet of the circulation pump 18 (circulation path of the detergent dissolving step).
 制御装置90は、この時点で水受け部54内にある電導度センサ4(判別手段)において、電導度を検出し、高濃度洗剤水溶液のときの電導度データベースと柔軟剤水溶液のときの電導度データベースとの照合を行う。 At this time, the control device 90 detects the electrical conductivity in the electrical conductivity sensor 4 (determining means) in the water receiving portion 54, and stores the electrical conductivity database for the high-concentration detergent aqueous solution and the electrical conductivity for the softening agent aqueous solution. Check against the database.
 循環を繰り返すことで、少ない水で洗剤を溶かした均一な高濃度洗剤液を生成する。高濃度洗剤液は衣類に散布される。このとき回転ドラム3を回転させて、洗濯物207を攪拌しながら循環ポンプ18にて満遍なく散布する。 By repeating the circulation, a uniform high-concentration detergent solution is generated by dissolving the detergent in a small amount of water. A highly concentrated detergent solution is sprayed on the clothes. At this time, the rotary drum 3 is rotated to evenly spread the laundry 207 by the circulation pump 18 while agitating the laundry 207 .
 ステップS6において、制御装置90は、前洗い工程を実行する。この工程では、通常、外槽2内には洗剤液のしみこんだ洗濯物207と、外槽2の底部の水受け部54に少量の洗剤液が存在する。回転ドラム3を回転させることで、洗濯物207をドラム3の上部に持ち上げた後、重力により底部まで落下させるタンブリング動作に基づくたたき洗いを行う。これにより、洗濯物207に浸み込んだ洗剤液が搾り出てくるので、必要に応じて間欠的に循環ポンプ18を駆動させて、再び洗濯物207に洗剤液を散布する。この動作中においても、洗濯水と洗濯物のいわゆる洗浄温度を上げると、洗浄性能を向上できるので、必要に応じて第2送風機20からの気流を、加熱ヒータ(補助ヒータ)213にて温めた後に吹き付ける。洗浄温度レベルを上げることで、洗濯物207への高濃度洗剤液の浸透を促進させることもできる。第2送風機20からの気流の吹き出しノズル203は図3に示すように、散水ノズル223や給水口(図示せず)とは外槽2の円周上において対向する位置に設けているため、高濃度洗剤液の散布と浸み込みを促進させるための温風の干渉を防ぐことで、効率よく洗浄できる。洗濯物207は高濃度洗剤液を保水した状態であるため、洗濯物207の繊維隙間を空気が占めるよりも熱伝導は良く、効率よく加熱できる。これにより繊維から、より多くの汚れを短時間で分離できる。分離された汚れは、保水された高濃度洗剤液内に迅速に分散されるので、再び凝集して再付着することを防ぐことができる。 In step S6, the control device 90 executes a pre-washing process. In this step, the laundry 207 soaked with the detergent liquid is normally present in the outer tub 2 and a small amount of the detergent liquid is present in the water receiver 54 at the bottom of the outer tub 2 . By rotating the rotary drum 3, the laundry 207 is lifted to the top of the drum 3, and then dropped to the bottom by gravity. As a result, the detergent liquid soaked into the laundry 207 is squeezed out, and the circulation pump 18 is driven intermittently as necessary to spray the detergent liquid onto the laundry 207 again. Even during this operation, if the so-called washing temperature of the washing water and the laundry can be increased, the washing performance can be improved. spray later. By raising the washing temperature level, it is also possible to promote penetration of the high-concentration detergent solution into the laundry 207 . As shown in FIG. 3, the nozzle 203 for blowing out the airflow from the second blower 20 is provided at a position facing the water nozzle 223 and the water supply port (not shown) on the circumference of the outer tub 2. Efficient washing can be achieved by preventing the interference of warm air for promoting the spraying and permeation of the concentrated detergent solution. Since the laundry 207 retains the high-concentration detergent liquid, the laundry 207 has better heat conduction than air occupying the interstices between the fibers of the laundry 207, and can be efficiently heated. This allows more dirt to be separated from the fabric in less time. Since the separated dirt is rapidly dispersed in the water-retained high-concentration detergent liquid, it is possible to prevent re-agglomeration and redeposition.
 また、循環ポンプ18よりも小流量の循環ポンプ(図示せず)を別に設置してもよい。
この場合、水受け部54から汲み上げて第2送風機20の出口近傍にて温風内に散布することで、温風に液滴を混ぜて、洗濯物207に散布させてもよい。洗濯工程の途中で、通常の循環量レベルを確保できるまで追加給水して、循環ポンプ18にて散布させると、洗濯物207の温度は急激に低下する。そこで、前記のような構成にして、より少量の循環水を温風にのせて散布すれば、洗濯物207に含まれる水を満遍なく且つ僅かずつ入れ替えることができる。このため、洗濯物207の急激な温度低下も抑えることができるので、より洗浄性能を向上させることができる。
Also, a circulation pump (not shown) having a smaller flow rate than the circulation pump 18 may be installed separately.
In this case, the liquid droplets may be mixed with the hot air by pumping it up from the water receiver 54 and spraying it in the hot air near the outlet of the second blower 20 , and spraying it on the laundry 207 . In the middle of the washing process, when additional water is supplied until a normal circulation level is secured and the water is sprayed by the circulation pump 18, the temperature of the laundry 207 drops sharply. Therefore, if a smaller amount of circulating water is sprayed on the warm air with the configuration as described above, the water contained in the laundry 207 can be replaced evenly and little by little. As a result, it is possible to suppress a rapid temperature drop of the laundry 207, so that the washing performance can be further improved.
 ステップS7において、制御装置90は、本洗い工程を実行する。本洗い工程では、前洗い工程が終了した時点で追加給水して、水受け部54の水量を増やして、水位を上げる。この水位は、循環ポンプ18により水受け部54から洗濯水をくみ上げて、外槽2の上部の散水ノズル223から連続して散布するのに十分な水位を保つものとする。 In step S7, the control device 90 executes the main washing process. In the main washing process, when the pre-washing process ends, additional water is supplied to increase the amount of water in the water receiving part 54 and raise the water level. This water level is maintained at a sufficient water level so that the washing water is pumped up from the water receiving portion 54 by the circulation pump 18 and continuously sprayed from the water spray nozzles 223 at the top of the outer tub 2 .
 散水ノズル223からの散布は、連続であっても間欠であってもよい。具体的には、洗濯物207の裏側などに多くの汚れがまだ付着している間は、連続で散布して洗濯水の攪拌を促進する。これにより、洗濯物207が保水する洗濯水を、常に汚れ濃度の低い洗濯水に入れ替えることができる。その後、汚れがほとんど落ちた後は、たたき洗いの機械力を主として、残りの汚れを落とすほうが洗浄効率がよい。よって、後半の散布は、機械力を妨げないように間欠散布とするのが好ましい。また、循環ポンプ18の駆動力を間欠とすることで、消費電力量を抑えられるので、省エネルギーの面からも好ましい。 The spraying from the water nozzle 223 may be continuous or intermittent. Specifically, while many stains are still attached to the back side of the laundry 207, it is continuously sprayed to promote agitation of the washing water. As a result, the washing water retained by the laundry 207 can always be replaced with washing water having a low dirt concentration. After that, after most of the dirt has been removed, it is more efficient to remove the remaining dirt mainly by using the mechanical power of pounding. Therefore, the second half of the spraying is preferably intermittent spraying so as not to interfere with the mechanical force. Further, by intermittently driving the circulating pump 18, power consumption can be suppressed, which is also preferable in terms of energy saving.
 なお、散水ノズル223は、外槽2に、洗濯乾燥機100の正面からみて回転可能な回転ドラム3の中心軸よりも上側、且つ、洗濯乾燥機100の側面からみて、正面寄りの前側に位置している。これにより、散水ノズル223からの噴出範囲を、回転ドラム3の半径方向に対して広角にして散布する構造としている。この第1本洗い工程では、広範囲の散布とともに、回転ドラム3の回転によって回転ドラム3内の下方に溜まった洗濯物207を持ち上げて、回転ドラム3内の上方から落下させることにより、洗濯物207に機械的な力を与えてたたき洗いをする。回転ドラム3の径(ドラム径)が大きいほど、広範囲の散布とたたき洗いの相乗効果が得られ、本洗い工程の時間を短縮できる。 The water nozzle 223 is positioned in the outer tub 2 above the central axis of the rotatable rotating drum 3 when viewed from the front of the washing/drying machine 100 and on the front side near the front when viewed from the side of the washing/drying machine 100. are doing. As a result, the spraying range from the water spray nozzle 223 is made wide-angle with respect to the radial direction of the rotating drum 3, and the water is sprayed. In this first main washing step, the laundry 207 is spread over a wide area, and the laundry 207 accumulated below the rotating drum 3 is lifted by the rotation of the rotating drum 3 and dropped from above in the rotating drum 3. Apply mechanical force to wash by beating. The larger the diameter of the rotating drum 3 (drum diameter), the synergistic effect of wide-range spraying and beating washing can be obtained, and the time required for the main washing process can be shortened.
 また必要に応じて制御装置90は第2本洗い工程を実行する。前述の本洗い工程(第1本洗い工程)の終了時に給水することで、第2本洗い工程の水量を、第1本洗い工程の水量よりも多くする。また、第2本洗い工程の循環ポンプ18の循環流量は、第1本洗い工程での循環ポンプ18の循環流量よりも多くする。さらに、第2本洗い工程の回転ドラム3のモータM10の回転速度は、第1本洗い工程のモータM10の回転速度よりも低くする。第1本洗い工程と第2本洗い工程の組み合わせは、洗濯物207の黒ずみ、ごわつきを抑制させる運転アルゴリズムとしている。 Also, the control device 90 executes the second main washing process as necessary. By supplying water at the end of the aforementioned main washing process (first main washing process), the amount of water in the second main washing process is made larger than the amount of water in the first main washing process. Also, the circulation flow rate of the circulation pump 18 in the second main washing process is made larger than the circulation flow rate of the circulation pump 18 in the first main washing process. Furthermore, the rotational speed of the motor M10 of the rotary drum 3 in the second main washing process is set lower than the rotational speed of the motor M10 in the first main washing process. The combination of the first main washing process and the second main washing process is an operation algorithm that suppresses darkening and stiffness of the laundry 207 .
 以上のように洗濯乾燥機100の場合、回転ドラム3の回転に伴って、リフター33により洗濯物30を回転ドラム3の上部に持ち上げた後、重力によりドラム底部に落とすたたき洗いが主流となる。オーバーフローホース17が外槽2の前部に接続されているため、場合によってはオーバーフローホース17の位置まで洗濯水は流入してくる。また洗濯工程中に、過去の洗濯乾燥により内装フィルタに付着したリントを洗い流すために、外槽2の出口ダクト部261に設けた注水具(図示せず)より外槽2の出口ダクト部261内に注水する場合もある。 As described above, in the case of the washing/drying machine 100, as the rotating drum 3 rotates, the laundry 30 is lifted to the top of the rotating drum 3 by the lifter 33, and then dropped to the bottom of the drum by gravity. Since the overflow hose 17 is connected to the front portion of the outer tub 2, the washing water flows up to the position of the overflow hose 17 in some cases. Also, during the washing process, in order to wash away the lint adhered to the interior filter due to the past washing and drying, the inside of the outlet duct portion 261 of the outer tub 2 is filled with a water injector (not shown) provided at the outlet duct portion 261 of the outer tub 2. water may be injected into the
 外槽2の出口ダクト部261の下部には外槽2の背面部に向かって下り傾斜をつけてあるため、流入してきた洗浄水や内装フィルタ洗浄のための注水は、洗濯終了時には、速やかに外槽2から排水口21を通して機外へ排水される。 Since the lower portion of the outlet duct portion 261 of the outer tub 2 is sloped downward toward the rear portion of the outer tub 2, the washing water that has flowed in and the water for washing the internal filter can be quickly dispensed when the washing is finished. The water is drained out of the machine from the outer tank 2 through the drain port 21 .
 ステップS8において、制御装置90は、第1すすぎ工程(すすぎ1工程)を実行する。この工程では、排水弁V1を開けて、洗濯水を排出した後、排水弁V1を閉じて、外槽2内に所定の水位まですすぎ水を供給する。その後、ドラム3を回転させて、洗濯物207とすすぎ水を攪拌してすすぐ。 In step S8, the control device 90 executes the first rinsing step (rinsing 1 step). In this step, after the drain valve V1 is opened to drain the washing water, the drain valve V1 is closed and rinse water is supplied to the outer tub 2 up to a predetermined water level. Thereafter, the drum 3 is rotated to agitate and rinse the laundry 207 and the rinse water.
 ステップS9において、制御装置90は、第2すすぎ工程(すすぎ2工程)を実行する。第2すすぎ工程では、第1すすぎ工程と同様にして、排水弁V1を開けて、すすぎ水を排出した後、排水弁V1を閉じて、外槽2内に所定の水位まですすぎ水を供給する。その後、回転ドラム3を回転させて、洗濯物207とすすぎ水を攪拌してすすぐ。 In step S9, the control device 90 executes the second rinsing step (rinsing 2 step). In the second rinsing process, in the same way as in the first rinsing process, the drain valve V1 is opened to drain the rinse water, and then the drain valve V1 is closed to supply the rinse water to a predetermined water level in the outer tank 2. . Thereafter, the rotary drum 3 is rotated to agitate and rinse the laundry 207 and the rinse water.
 ステップS10において、制御装置90は、脱水工程を実行する。この工程では、排水弁V1を開いて外槽2内のすすぎ水を排水した後、ドラム3を回転させて洗濯物207を遠心脱水する。脱水の回転速度は、洗濯物207のバランスがとれずにモータM10の電流値が上限を超えるなどの不具合がない限り、負荷に応じた設定回転速度まで上昇させる。脱水された水の一部が外槽2の背面の出口260に巻き上げられてきても、外槽2の背面の出口260の下部は外槽2の背面部に向かって下り傾斜をつけてあるため、速やかに外槽側に戻すことができる。そして、脱水の回転速度を上げて、回転ドラム3が高速回転すると、外槽2にも振動が伝わり、外槽2自身も僅かながら振動する。この振動により外槽2の出口ダクト部261内壁に残った水滴をふるい落とせる。また、回転ドラム3の高速回転に伴って、振動がドア9側に伝わることをパッキン(ベローズ)10にて吸収できる。第1送風機256および第2送風機20も、各々ベローズ10により外槽2の第1吹出口257および第2吹出口203と接続されているため、振動を吸収できる。 In step S10, the control device 90 executes the dehydration process. In this step, after the rinse water in the outer tub 2 is drained by opening the drain valve V1, the laundry 207 is centrifugally dehydrated by rotating the drum 3. The dehydration rotation speed is increased to a set rotation speed according to the load unless there is a problem such as the current value of the motor M10 exceeding the upper limit due to the laundry 207 being unbalanced. Even if part of the dehydrated water is swept up to the outlet 260 on the back of the outer tub 2, the bottom of the outlet 260 on the back of the outer tub 2 is inclined downward toward the back of the outer tub 2. , can be quickly returned to the outer tank side. When the rotational speed of dehydration is increased and the rotating drum 3 rotates at a high speed, the vibration is transmitted to the outer tub 2, and the outer tub 2 itself vibrates slightly. Water droplets remaining on the inner wall of the outlet duct portion 261 of the outer tub 2 can be shaken off by this vibration. In addition, the packing (bellows) 10 can absorb the vibration transmitted to the door 9 due to the high-speed rotation of the rotary drum 3 . Since the first blower 256 and the second blower 20 are also connected to the first outlet 257 and the second outlet 203 of the outer tub 2 by the bellows 10 respectively, vibration can be absorbed.
 ステップS11において、制御装置90は、乾燥工程を実行する。乾燥工程では、図4に示したように、まず第1送風機256を駆動する。図4は、本発明の第1実施例に係る第1送風機および第2送風機の駆動タイミングに関する概略図である。 In step S11, the control device 90 executes the drying process. In the drying process, as shown in FIG. 4, first the first blower 256 is driven. FIG. 4 is a schematic diagram of drive timings of the first and second blowers according to the first embodiment of the present invention.
 第1送風機256の駆動につづいて熱交換ユニット251内の圧縮機255を駆動する。膨張手段254は一度全開状態として原点調整をした後、圧縮機255の吸込配管に設けたサーミスタ(図示せず)が低温とならないように、開度が調整される。圧縮機255の回転数は、吐出配管に設けたサーミスタ(図示せず)と第1送風機256の出口に設けた温風サーミスタとの差が所定の温度以上となるように調整される。このように熱交換ユニット251で高温となった空気を第1送風機256により昇圧した後、回転ドラム3内へ第1吹出口257を通して送風して、洗濯物30と熱交換させるとともに洗濯物30から水分を蒸発させる。洗濯物から蒸発した水分を含む循環空気は、外槽2の出口ダクト部261を介して熱交換ユニット251へ戻される。熱交換ユニット251では、風上側に配置された蒸発器253により、循環空気は冷却され露点温度以下となり、除湿される。つづけて凝縮器252において昇温されて、低湿な温風とされる。 After driving the first blower 256, the compressor 255 in the heat exchange unit 251 is driven. The expansion means 254 is once fully opened and after adjusting the origin, the degree of opening is adjusted so that a thermistor (not shown) provided in the suction pipe of the compressor 255 does not become low temperature. The rotation speed of the compressor 255 is adjusted so that the difference between the thermistor (not shown) provided in the discharge pipe and the hot air thermistor provided at the outlet of the first blower 256 is equal to or higher than a predetermined temperature. After the air heated to a high temperature in the heat exchange unit 251 is pressurized by the first blower 256, the air is blown into the rotary drum 3 through the first outlet 257 to exchange heat with the laundry 30 and to release the air from the laundry 30. evaporate the water. Circulating air containing moisture evaporated from the laundry is returned to the heat exchange unit 251 via the outlet duct portion 261 of the outer tub 2 . In the heat exchange unit 251, the circulating air is cooled by the evaporator 253 arranged on the windward side to be below the dew point temperature and dehumidified. Subsequently, the air is heated in the condenser 252 and turned into low-humidity hot air.
 図4に示すように、第1送風機256の駆動開始から規定の乾燥時間t1が経過した後、第2送風機20を駆動させる。第1送風機256の吐出側の温風の一部が、第2送風機20の吸込み側に導かれ、第2送風機20で昇圧された後に、第2吹出口203から高速風として回転ドラム3内に吹き出される。高速の温風が当てられた洗濯物は、引き伸ばされつつ含水されている水分が蒸発されるので、しわが取り除かれる。第1送風機256から吐出された残りの温風は、第1吹出口257から継続して回転ドラム3内に吹き出されて、洗濯物からの蒸発水分を含む高湿度の空気との入れ替えが行われることにより、ひきつづき洗濯物の乾燥を促進できる。 As shown in FIG. 4, the second blower 20 is driven after the specified drying time t1 has passed since the first blower 256 started to be driven. A part of the warm air on the discharge side of the first blower 256 is guided to the suction side of the second blower 20, and after being pressurized by the second blower 20, flows into the rotating drum 3 as high-speed air from the second blower outlet 203. blown out. The laundry exposed to the high-speed hot air is stretched and moisture contained in the laundry is evaporated, so wrinkles are removed. The remaining hot air discharged from the first blower 256 is continuously blown into the rotating drum 3 from the first blower outlet 257, and is replaced with high-humidity air containing evaporated water from the laundry. Thus, it is possible to continuously promote the drying of the laundry.
 なお、第2送風機20を駆動させるタイミング(乾燥時間t1)は、洗濯物の負荷や布質に応じたタイミングとしている。高速の温風が当てられた洗濯物から、引き伸ばされつつ含水されている水分の蒸発が促進されるとき、布全体の含水量が多いと、温風があてられた箇所の周囲から水分が布繊維内を拡散して、高速の温風があてられた箇所の局所含水率がもどるため、再び乾燥工程においてしわが生成されてしまう。反対に、布全体の含水量が少ない状態から高速の温風を当てても、それ以前に生成されてしまったしわは乾く過程で固定されてしまっているため、しわを取り除くことは難しい。以上のように、しわを効率よく伸ばせる乾燥タイミングがあるので、布負荷や布質コースに対応した第2送風機20を駆動させるタイミング(乾燥時間t1)を設定している。これにより乾燥の消費電力量を極力抑えることができる。 The timing (drying time t1) for driving the second blower 20 is set according to the load of the laundry and the fabric quality. When the moisture contained in the laundry is stretched and accelerated to evaporate from the laundry to which the high-speed hot air is applied, if the moisture content of the entire cloth is high, the moisture will evaporate from the area around the area to which the hot air is applied. It diffuses in the fiber and restores the local moisture content at the point where the high-velocity warm air is applied, so that wrinkles are generated again in the drying process. On the other hand, even if high-speed hot air is applied to the fabric when the moisture content of the entire fabric is low, it is difficult to remove the wrinkles because the wrinkles that have already been generated are fixed during the drying process. As described above, there is a drying timing at which wrinkles can be efficiently smoothed out, so the timing (drying time t1) for driving the second blower 20 corresponding to the cloth load and the cloth quality course is set. As a result, power consumption for drying can be suppressed as much as possible.
 乾燥判定は、次のようにして行う。乾燥開始時もしくはある運転開始から規定時間において、外槽2の出口ダクト部261に設けた排気温度センサT1によって外槽2の排気温度T1aを測定すると共に、第1送風機256の出口側に設けた温風温度センサT4によって温風温度T4aを測定する(初期温度の設定)。その後、負荷に見合った規定時間経過後に終了判定のための外槽2の排気温度T1bと温風温度T4bを測定し、各々初期温度と終了判定温度との差を求める(ΔT1=T1a-T1b、ΔT4=T4a-T4b)。さらにそれらの温度差(ΔT1-ΔT4)が規定温度以上であるかどうかを確認して乾燥終了を判定する。乾燥工程中、常に回転ドラム3内と第1送風機256および第2送風機20とを循環する空気は、外槽2の出口ダクト部261と第1送風機256の吐出部とを通過するため、上記温度測定と温度に基づく判定とを安定して行うことができる。このため、乾燥時間のばらつきを抑制して乾燥工程を終了させることができる。 Dryness judgment is performed as follows. At the start of drying or at a specified time from the start of operation, the exhaust temperature T1a of the outer tank 2 is measured by the exhaust temperature sensor T1 provided in the outlet duct portion 261 of the outer tank 2, and the exhaust temperature T1a is provided on the outlet side of the first blower 256. A hot air temperature T4a is measured by the hot air temperature sensor T4 (initial temperature setting). After that, after a specified time corresponding to the load has passed, the exhaust temperature T1b and the hot air temperature T4b of the outer tank 2 for termination determination are measured, and the difference between the initial temperature and the termination determination temperature is obtained (ΔT1 = T1a - T1b, ΔT4=T4a−T4b). Furthermore, it is confirmed whether or not the temperature difference (ΔT1−ΔT4) is equal to or higher than a specified temperature, and the end of drying is determined. During the drying process, the air constantly circulating inside the rotating drum 3 and through the first blower 256 and the second blower 20 passes through the outlet duct portion 261 of the outer tub 2 and the discharge portion of the first blower 256. Measurement and determination based on temperature can be performed stably. Therefore, the drying process can be completed while suppressing variations in the drying time.
 なお、コース選択(S1)において乾燥工程が設定されていない場合は、ステップS10において運転を終了する。 Note that if the drying process is not set in the course selection (S1), the operation ends in step S10.
 本実施例によれば、乾燥後の衣類のしわが少ない仕上がりが得られ、乾燥時間を短くでき、乾燥の消費電力量を低減できる。 According to this embodiment, it is possible to obtain a finished product with few wrinkles after drying, shorten the drying time, and reduce the power consumption for drying.
 [実施例2]
 図7は、本発明の第2実施例に係る洗濯乾燥機の内部構造を示す、正面から見て右側面の概略断面図である。図8は、本発明の第2実施例に係る洗濯乾燥機の内部構造を示す、背面側から見た概略断面図である。
[Example 2]
FIG. 7 is a schematic cross-sectional view of the right side as viewed from the front, showing the internal structure of the washing/drying machine according to the second embodiment of the present invention. FIG. 8 is a schematic cross-sectional view seen from the rear side, showing the internal structure of the washing and drying machine according to the second embodiment of the present invention.
 本実施例では、第1吹出口257を外槽2の背面側に設けた構成となっている。このような構成では、第2送風機20を駆動したときに、第2吹出口203からの高速風の流れに対して、外槽2の背面側に設けた第1吹出口257からの温風は回転ドラム3の周囲から洗濯物を取り囲むように流れ込む。このため第1吹出口257からの温風は、洗濯物よりも先に回転ドラム3に接触することで、回転ドラム3を優先して温めることができる。 In this embodiment, the configuration is such that the first outlet 257 is provided on the back side of the outer tub 2 . With such a configuration, when the second blower 20 is driven, the warm air from the first blower outlet 257 provided on the back side of the outer tank 2 is stronger than the flow of high-speed air from the second blower outlet 203. It flows from the periphery of the rotary drum 3 so as to surround the laundry. Therefore, the hot air from the first outlet 257 can preferentially heat the rotating drum 3 by contacting the rotating drum 3 before the laundry.
 さらに洗濯物に比較的薄物が多い場合は、薄物の洗濯物は含水量が少なく乾燥が速いので、洗濯物に接触した温風は、接触したときに洗濯物に熱は伝えるものの水分蒸発は少ないので、湿度は上がらずに回転ドラム3の中央に流れ込んでくる。 Furthermore, if there are many relatively thin items in the laundry, the thin items have a low water content and dry quickly, so the hot air that comes into contact with the laundry transfers heat to the laundry when it comes in contact with it, but the moisture evaporates very little. Therefore, the humidity does not increase and flows into the center of the rotating drum 3.
 一方、第2吹出口203からの高速風は、しわが延ばされつつ促進される水分の蒸発を阻害することなく、洗濯物に吹き付けられる。このとき、高速風が当てられた洗濯物は高速風から主に熱を与えられるので、しわ伸ばしとともに洗濯物に与えた熱による水分蒸発を限定的な範囲で促進することができる。 On the other hand, the high-speed air from the second air outlet 203 is blown onto the laundry without hindering the moisture evaporation that is accelerated while wrinkles are smoothed out. At this time, the laundry exposed to the high-speed air is mainly heated by the high-speed air, so that the wrinkles can be smoothed out and the moisture evaporation due to the heat applied to the laundry can be accelerated within a limited range.
 薄物の洗濯物では、衣類全体の乾燥レベルを一様にせずとも、湿り具合の差異からのしわの再発や絡まりは少ないので、回転ドラム3を温めることで洗濯物を周囲から温めつつ、第2吹出口203からの高速風が当てられた箇所のしわを確実に伸ばすことができるので、
本実施例の構成により、乾燥をより促進できる。
Even if the drying level of the entire clothes is not uniform, wrinkles and tangling of the thin laundry are less likely to occur due to the difference in the degree of wetness. Since the wrinkles of the part hit by the high-speed air from the outlet 203 can be reliably smoothed,
The configuration of this embodiment can further promote drying.
 [実施例3]
 図9は、本発明の第3実施例に係る温風循環機構および除湿機構を透視して示す洗濯乾燥機の斜視図である。
[Example 3]
FIG. 9 is a perspective view of a washing/drying machine showing a hot air circulation mechanism and a dehumidifying mechanism according to a third embodiment of the present invention.
 本実施例では、熱交換ユニットは外槽2の出口ダクト部261に収めた水冷除湿部262と第1送風機256の吹出側に設けた加熱ヒータ263とから構成されている。出口ダクト部261は循環する空気が外槽2から流出する出口部に設けられ、外槽2と第1送風機256との間に配置されている。すなわち熱交換ユニットは水冷除湿部262と加熱ヒータ263とで構成され、水冷除湿部262は外槽2と第1送風機256との間に設けられ、加熱ヒータ263は第1送風機256の吹出側に設けられる。 In this embodiment, the heat exchange unit is composed of a water-cooled dehumidifying section 262 housed in the outlet duct section 261 of the outer tank 2 and a heater 263 provided on the blowing side of the first blower 256 . The outlet duct portion 261 is provided at an outlet portion where circulating air flows out from the outer tub 2 and is arranged between the outer tub 2 and the first blower 256 . That is, the heat exchange unit is composed of a water-cooled dehumidifier 262 and a heater 263. The water-cooled dehumidifier 262 is provided between the outer tank 2 and the first blower 256, and the heater 263 is located on the blowing side of the first blower 256. be provided.
 洗濯物が比較的厚物の場合、乾燥時間を短くするには、大風量とするよりも温風温度を上げたほうが、乾きが速い場合がある。ヒートポンプでは基本的に蒸発器で汲み上げた熱により凝縮器にて加熱するため、風量が極端に少ないといわゆる熱の汲み上げ量が十分確保できず、温風温度が低下してしまう場合がある。 If the laundry is relatively thick, in order to shorten the drying time, increasing the temperature of the warm air may dry faster than increasing the air volume. In a heat pump, the heat pumped up by the evaporator is basically used for heating by the condenser. Therefore, if the air flow rate is extremely small, a sufficient amount of so-called heat pumped up cannot be ensured, and the temperature of the warm air may drop.
 これに対して本実施例では、除湿熱量と加熱量は、基本的には冷却水量と通電レベルもしくは通電させる抵抗素子数で調節できるため、風量と温風温度の調整範囲とを広くできる。また大物且つ厚物などに対しては、第2送風機20の補助ヒータ213でさらに高速風の温度を高めとして吹き付ければ、繊維への温風の浸透強化により、乾燥をより促進できる。 On the other hand, in this embodiment, the amount of dehumidification heat and the amount of heating can be basically adjusted by the amount of cooling water and the energization level or the number of resistance elements to be energized, so the adjustment range of air volume and warm air temperature can be widened. For large and thick materials, if the auxiliary heater 213 of the second blower 20 blows the high-speed air at a higher temperature, the penetration of the warm air into the fibers is strengthened, and the drying can be further accelerated.
 また水冷除湿部262の洗浄水と内装フィルタ259の洗浄水とを共有にできるので、熱交換ユニットを単独で洗浄するよりも節水できる。 Also, since the cleaning water for the water cooling dehumidification unit 262 and the cleaning water for the interior filter 259 can be shared, water can be saved compared to cleaning the heat exchange unit alone.
 なお、本発明は上記した各実施例に限定されるものではなく、様々な変形例が含まれる。例えば、上記した実施例は本発明を分かりやすく説明するために詳細に説明したものであり、必ずしも全ての構成を備えるものに限定されるものではない。また、ある実施例の構成の一部を他の実施例の構成に置き換えることが可能であり、また、ある実施例の構成に他の実施例の構成を加えることも可能である。また、各実施例の構成の一部について、他の構成の追加・削除・置換をすることが可能である。 It should be noted that the present invention is not limited to the above-described embodiments, and includes various modifications. For example, the above-described embodiments are detailed descriptions for easy understanding of the present invention, and are not necessarily limited to those having all the configurations. In addition, it is possible to replace part of the configuration of one embodiment with the configuration of another embodiment, and it is also possible to add the configuration of another embodiment to the configuration of one embodiment. Moreover, it is possible to add, delete, or replace a part of the configuration of each embodiment with another configuration.
 2…外槽、3…内槽(回転ドラム)、20…第2送風機、71…第1空気循環流路、72…第2空気循環流路、100…洗濯乾燥機、203…第2吹出口、212a,212b,212c,212d…可撓部(ジャバラホース)、213…補助加熱装置、251…熱交換ユニット、252…凝縮器、253…蒸発器、254…膨張弁、255…圧縮機、256…第1送風機、257…第1吹出口、258…分岐部、262…水冷除湿部、263…加熱ヒータ。 2 Outer tub 3 Inner tub (rotating drum) 20 Second blower 71 First air circulation channel 72 Second air circulation channel 100 Washer/dryer 203 Second outlet , 212a, 212b, 212c, 212d Flexible portion (bellows hose) 213 Auxiliary heating device 251 Heat exchange unit 252 Condenser 253 Evaporator 254 Expansion valve 255 Compressor 256 1st air blower 257 1st outlet 258 branching portion 262 water cooling/dehumidifying portion 263 heater.

Claims (7)

  1.  内部に液体を貯溜可能な外槽と、前記外槽の内側に回転自在に設けられ洗濯物を収容する内槽と、除湿機能および加熱機能を有する熱交換ユニットと、前記内槽の内部と前記熱交換ユニットとを経由して空気を循環させる空気循環機構と、を備えた洗濯乾燥機において、
     前記空気循環機構は、空気を送風する第1送風機および第2送風機と、前記第1送風機により送風される空気を前記内槽の内部に循環させる第1吹出口を有する第1空気循環流路と、前記第2送風機により送風される空気を前記内槽の内部に循環させる第2吹出口を有する第2空気循環流路と、を有し、
     前記第2空気循環流路は、前記第1空気循環流路における前記第1送風機と前記第1吹出口との間から分岐して設けられ、前記第1空気循環流路との分岐部と前記第2吹出口との間に前記第2送風機が配置されることを特徴とする洗濯乾燥機。
    an outer tank capable of storing liquid therein; an inner tank rotatably provided inside the outer tank to accommodate laundry; a heat exchange unit having a dehumidifying function and a heating function; A washing and drying machine comprising an air circulation mechanism that circulates air via a heat exchange unit,
    The air circulation mechanism includes a first blower and a second blower for blowing air, and a first air circulation flow path having a first outlet for circulating the air blown by the first blower into the inner tank. , a second air circulation flow path having a second outlet for circulating the air blown by the second blower to the inside of the inner tank,
    The second air circulation flow path is provided by branching from between the first blower and the first outlet in the first air circulation flow path, and the branched portion with the first air circulation flow path and the A washing and drying machine, wherein the second blower is arranged between the second blower and the second blower.
  2.  請求項1に記載の洗濯乾燥機において、
     前記第1空気循環流路は、前記熱交換ユニットを通過した空気の一部を、前記第1吹出口に導き、
     前記第2空気循環流路は、前記熱交換ユニットを通過した残りの空気を、前記第2送風機を介して前記第2吹出口に導くように構成されることを特徴とする洗濯乾燥機。
    In the washing and drying machine according to claim 1,
    the first air circulation flow path guides part of the air that has passed through the heat exchange unit to the first outlet;
    The washing/drying machine, wherein the second air circulation channel is configured to guide the remaining air that has passed through the heat exchange unit to the second outlet via the second blower.
  3.  請求項2に記載の洗濯乾燥機において、
     前記第2送風機は、前記第2吹出口から吹き出す空気の流速が前記第1吹出口から吹き出す空気の流速よりも高速になるように、前記第2空気循環流路を流れる空気を昇圧することを特徴とする洗濯乾燥機。
    In the washing and drying machine according to claim 2,
    The second blower increases the pressure of the air flowing through the second air circulation flow path so that the flow velocity of the air blown out from the second blower outlet is higher than the flow velocity of the air blown out from the first blower outlet. Characteristic washer and dryer.
  4.  請求項3に記載の洗濯乾燥機において、
     前記第1送風機は、前記外槽の下方に配置され、
     前記第2送風機は、前記外槽の上方に配置され、
     前記第1空気循環流路は、前記第1送風機と前記分岐部との間に可撓部が設けられ、
     前記第2空気循環流路は、前記分岐部と前記第2送風機との間および前記第2送風機と前記第2吹出口との間に可撓部が設けられることを特徴とする洗濯乾燥機。
    In the washing and drying machine according to claim 3,
    The first blower is arranged below the outer tank,
    The second blower is arranged above the outer tank,
    The first air circulation flow path is provided with a flexible portion between the first blower and the branch portion,
    The washer/dryer, wherein the second air circulation channel is provided with a flexible portion between the branch portion and the second blower and between the second blower and the second outlet.
  5.  請求項4に記載の洗濯乾燥機において、
     前記熱交換ユニットは、凝縮器、蒸発器、膨張弁、および圧縮機を有するヒートポンプで構成されることを特徴とする洗濯乾燥機。
    In the washing and drying machine according to claim 4,
    The washer/dryer, wherein the heat exchange unit comprises a heat pump having a condenser, an evaporator, an expansion valve, and a compressor.
  6.  請求項5に記載の洗濯乾燥機において、
     前記第2空気循環流路は、前記第2送風機の出口に補助加熱装置を有することを特徴とする洗濯乾燥機。
    In the washing and drying machine according to claim 5,
    The washer/dryer, wherein the second air circulation path has an auxiliary heating device at the outlet of the second blower.
  7.  請求項4に記載の洗濯乾燥機において、
     熱交換ユニットは、水冷除湿部と加熱ヒータとで構成され、
     前記水冷除湿部は、前記外槽と前記第1送風機との間に設けられ、
     前記加熱ヒータは、前記第1送風機の吹出側に設けられることを特徴とする洗濯乾燥機。
    In the washing and drying machine according to claim 4,
    The heat exchange unit is composed of a water cooling dehumidifier and a heater,
    The water-cooled dehumidifying unit is provided between the outer tank and the first blower,
    The washing/drying machine, wherein the heater is provided on the blowout side of the first blower.
PCT/JP2022/025228 2021-11-15 2022-06-24 Washing and drying machine WO2023084832A1 (en)

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0994391A (en) * 1995-09-28 1997-04-08 Sharp Corp Fully automatic washing and drying machine
JP2003010594A (en) * 2001-06-29 2003-01-14 Hitachi Ltd Washing machine
JP2013121386A (en) * 2011-12-09 2013-06-20 Toshiba Corp Clothing dryer
JP2013240497A (en) * 2012-05-22 2013-12-05 Panasonic Corp Clothes dryer

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0994391A (en) * 1995-09-28 1997-04-08 Sharp Corp Fully automatic washing and drying machine
JP2003010594A (en) * 2001-06-29 2003-01-14 Hitachi Ltd Washing machine
JP2013121386A (en) * 2011-12-09 2013-06-20 Toshiba Corp Clothing dryer
JP2013240497A (en) * 2012-05-22 2013-12-05 Panasonic Corp Clothes dryer

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