JP2004248709A - Clothes drying machine and clothes washing/drying machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To mitigate creases in clothes formed in drying in a clothes drying machine and a clothes washing/drying machine. <P>SOLUTION: After a current measuring element 33 confirms that the drying rate of the clothes reaches 90% in the drying process, an air blower 14 and a heater 19 retain a drying air temperature from 50°C to 75°C and the humidity from 20% to 60% to prevent creases from being formed in the clothes and to mitigate the formation of the creases after finishing the drying. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a clothes dryer and a clothes washing dryer.
[0002]
[Prior art]
In a method of drying clothes, drying with a clothes dryer is becoming the mainstream, instead of natural drying such as drying on a hanger or hanging on a pole. Drying by a clothes dryer has the advantages that there is no restriction on the weather unlike natural drying and that drying can be performed at a convenient time, and it is considered that it will be widely spread in the future.
[0003]
However, when drying with a clothes dryer, wrinkles caused by shrinkage of the clothes are a major problem, and this is a unique problem that occurs when using the clothes dryer.
[0004]
The shrinkage of clothes is caused by the inclusion of moisture by washing, but in the conventional natural drying, there is also the action of self-weight due to moisture, and clothes hung on a hanger or a rod are always pulled down and dry while being pulled. Had been reduced.
[0005]
On the other hand, in a clothes dryer, clothes are dried by hot air while being stirred in a rotating inner tank, and the drying operation is continued without the contracted clothes being stretched. Then, high-temperature and low-humidity air is blown on the clothing, and the drying operation is continued until the clothing is completely dried, so that the drying rate of the clothing reaches 100%, and the shrinkage of the clothing is finished as wrinkles as it is. I will.
[0006]
If some moisture remains in the clothes, the shrinkage of the clothes will return somewhat and the wrinkles will be reduced, but if the clothes are completely free of moisture, the shrinkage will not return to the original and will wrinkle as it is is there.
[0007]
FIG. 9 shows the state of the temperature and humidity of the air blown to the clothes through the drying operation. The vertical axis represents the temperature and the humidity, and the horizontal axis represents the drying rate of the clothes. FIG. 9 also shows that if the drying is continued until the drying rate reaches a certain high level, the humidity of the air decreases, and it can be understood that the cause of completely drying the clothes is excessively dry air.
[0008]
In order to solve the above-mentioned problem, the operation of the clothes dryer is stopped when the drying rate of the clothes to be dried reaches 80%. There is one that completely prevents wrinkles of clothes by performing natural drying (for example, see Patent Document 1).
[0009]
[Patent Document 1]
JP-A-5-57095 (abstract, FIG. 1)
[0010]
[Problems to be solved by the invention]
However, in the above-mentioned conventional clothes dryer, it relies on ordinary natural drying after drying to some extent, and it takes time and effort to hang a half-dry clothes on a hanger or on a pole, and also until the clothes are completely dried. Spend more time.
[0011]
In recent years, not only natural fibers such as cotton and silk but also chemical fibers such as nylon and polyester have been frequently used, but wrinkles generated in clothing using chemical fibers have not been solved.
[0012]
The cause of wrinkles in clothing using chemical fibers is different from that of natural fibers. That is, each component of the chemical fiber has a specific temperature called a glass transition point, and the substance which has reached the glass transition point is softened into a rubber state. In clothing using chemical fibers, the softened portions become wrinkles as they are, and when the clothing is cooled after the wrinkles are formed, the wrinkles remain as they are, and it is difficult to remove them unless an iron or the like is used.
[0013]
The present invention has been made to solve the above problems, and provides a clothes dryer that reduces the occurrence of wrinkles in clothes using natural fibers and clothes using chemical fibers. An object of the present invention is to provide a clothes dryer that can reduce the occurrence of wrinkles even when drying is performed simultaneously without distinguishing clothes using fibers.
[0014]
[Means for Solving the Problems]
In order to solve the above problems, the present invention is characterized in that the temperature of the air sent to the clothes by the air adjusting means is adjusted to be 75 ° C. or less, and in the drying of clothes using chemical fibers. It can reduce the occurrence of wrinkles.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
The present invention is characterized in that the temperature of the air blown to the clothes by the air adjusting means is adjusted to be 75 ° C. or less, and the generation of wrinkles can be reduced in the drying of clothes using chemical fibers. It is.
[0016]
In addition, the humidity of the air blown to the clothes is adjusted to be 20% or more by the air adjusting means, and the generation of wrinkles in drying the clothes using natural fibers can be reduced. .
[0017]
Further, the humidity of the air sent to the clothes is adjusted by the air adjusting means so as to be between 20% and 60%, and it is possible to avoid that the humidity is too high and the drying efficiency is reduced. Things.
[0018]
Further, the temperature of the air blown to the garment by the air adjusting means is adjusted to be 75 ° C. or less and the humidity is set to 20% or more. Cloths using fibers can be dried at the same time, and the wrinkles can be reduced while drying.
[0019]
Further, after the drying rate of the clothing reaches a predetermined value, the temperature of the air blown to the clothing is adjusted to be 75 ° C. or less by the air adjusting means, and the drying rate of the clothing is set to a predetermined value. Until the value is reached, drying is performed in a short time with high-temperature air, and wrinkling of the chemical fiber can be reduced.
[0020]
Further, after the drying rate of the clothing reaches a predetermined value, the humidity of the air blown to the clothing is adjusted to be 20% or more by the air adjusting means. Until the value reaches the value, effective drying can be performed in a short time with low humidity air, and wrinkling of natural fibers can be reduced.
[0021]
Further, after the drying rate of the clothes reaches a predetermined value, the humidity of the air blown to the clothes is adjusted to be between 20% and 60% by the air adjusting means. Is too high, and a decrease in drying efficiency can be avoided.
[0022]
Further, after the drying rate of the clothes reaches a predetermined value, the temperature of the air blown to the clothes by the air adjusting means is adjusted to be 75 ° C. or less and the humidity is to be 20% or more. In addition, until the drying rate of the clothes reaches a predetermined value, drying can be performed in a short time with air having a high temperature and low humidity, and clothes using natural fibers and chemical fibers can be dried at the same time.
[0023]
In addition, a series of steps such as washing, rinsing, dehydration, and drying are automatically performed by adding a washing function by enclosing the interior of the clothes dryer and providing an outer tub that stores water below the inner tub. And the convenience is improved for the user.
[0024]
【Example】
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0025]
(Example 1)
1 and 2 show the clothes washer / dryer of this embodiment. Inside the housing 1, a cylindrical outer tub 2 having an open top is elastically suspended by a plurality of suspensions 3 for absorbing vibration during washing and spin-drying.
[0026]
A cylindrical inner tank 4 having an open top is provided inside the outer tank 2 to accommodate clothes, and the outer tank 2 and the inner tank 4 are disposed around a rotation shaft 5. . Clothes are thrown into the inner tub 4 from an openable and closable outer lid 6 provided on the housing 1 and an openable and closable inner lid 7 provided on an outer tub cover that hermetically covers the upper surface of the outer tub 2. .
[0027]
In addition, a fluid balancer 8 is provided above the inner tank 4, and a substantially W-shaped rotating blade 9 having an inclined surface that becomes higher in the outer peripheral direction is provided at the bottom of the inner tank 4 so as to be rotatable. A motor 10 connected to the rotating shaft 5 and connected to the other of the rotating shaft 5 transmits the rotating force to the rotating wing 9 via a clutch 11 that switches the rotating force at the time of washing or spin-drying.
[0028]
When washing the clothes, the inner lid 7 is opened, the clothes and the detergent are supplied, and when the operation is started, the water supply valve 12 is automatically opened, and the washing water passing through the water supply path 13 is supplied to a predetermined water level. Thereafter, the clutch 11 is set to the washing side, and the motor 10 is driven.
[0029]
The power of the motor 10 rotates the rotating blades 9 via the rotating shaft 5, and the clothing in the upper layer of the inner tank 4 is drawn into the center by the protruding ribs 15 for stirring of the rotating blades 9. Then, the pulled-in garment pushes the garment in the lower part of the center of the inner tub 4 to the upper part of the inner tub 4. When the clothes are agitated in this manner, friction occurs between the clothes or the inner tub 4 and the rotating wings 9 due to contact with the clothes, thereby washing the clothes.
[0030]
After the washing is completed, the drain valve 16 is automatically opened, and the washing water guides the drain water from the lower bellows-shaped hose 21 and the circulation path 22 provided at the bottom of the outer tub 2 to the drain valve 16 through the drain path 17, Drained outside the machine. Then, after the clutch 11 is switched to the dehydrating side, a dehydration step of blowing the drying air onto the clothing while rotating the rotor 9 to apply centrifugal force to the clothing to separate moisture from the clothing is performed.
[0031]
The drying air is blown by a blowing means, and the blowing means is constituted by a blower 14, a heater 19, and a bellows-shaped hose 18. That is, the drying air is heated to an appropriate temperature by the heater 19, is sent to the inner tub 4 from above the inner tub 4 through the bellows-shaped hose 18 by the blower 14, and is applied to the clothing from above the inner tub 4 and the peripheral wall. It is blown.
[0032]
Then, the air deprived of the moisture of the clothes exits through an exhaust port 20 provided at the bottom of the outer tub 2, passes through a lower bellows-shaped hose 21, and reaches a circulation path 22. When the air passes through the circulation path 22, dew condensation of moisture occurs, and the air is dehumidified and heated again by the heater 19, and the clothes are dried by repeating such circulation.
[0033]
Other methods for dehumidifying include a method using a heat absorber, a method using air cooling with outside air, a method using water cooling with cooling water, and a method using a heat pump. In addition to the method in which air is circulated in the clothes washer / dryer, a method of blowing outside air into the clothes washer / dryer and discharging the dried air to the outside of the clothes washer / dryer can be considered. This method does not affect the implementation of the present invention.
[0034]
As temperature detecting means and humidity detecting means for measuring the temperature and humidity of the air heated by the heater 19, a temperature sensor 31 and a humidity sensor 32 were used, respectively, and they were provided in the circulation path 22. Then, a current measuring terminal 33 for measuring the resistance value of the clothing to the current is provided on the surface of the rotary wing 9 so as to be in contact with the clothing.
[0035]
The temperature sensor 31 and the humidity sensor 32 are places where the temperature and humidity of the heated air can be measured, and the current measurement terminal 33 may be a place where it can be brought into contact with clothing and a current can flow. It does not specify the location.
[0036]
A microcomputer 34 is used as the air adjusting means, and the temperature sensor 31 and the humidity sensor 32 and the current measuring terminal 33 are connected to the microcomputer 34. The measured values of the temperature sensor 31, the humidity sensor 32, and the current measuring terminal 33 are transmitted to a microcomputer 34, and the microcomputer 34 controls the blower 14 and the heater 19 according to the transmitted values, and controls the temperature and humidity of the air. To adjust.
[0037]
As shown in FIG. 3, the microcomputer 34 controls the microcomputer 34 to stop the heat generation of the heater 19 when the temperature sensor 31 detects that the air temperature is 75 ° C. or higher. When the temperature is detected to be 50 ° C. or less, the heater 19 is controlled to start.
[0038]
Further, when the humidity sensor 32 detects that the humidity of the air is equal to or less than 20%, control is performed to stop the heat generation of the heater 19, and the humidity is relatively increased. Conversely, when the humidity sensor 32 detects that the humidity is equal to or higher than 60%, the heater 19 is controlled to start.
[0039]
When the temperature sensor 31 detects 75 ° C. or more, or when the humidity sensor 32 detects that the humidity is 20% or less, it is described that the heat generation of the heater 19 is stopped. Any means may be used as long as it lowers the temperature of the air conditioner. For example, the heat generation of the heater 19 is suppressed or the rotation speed of the blower 14 is increased without affecting the present invention.
[0040]
As a means for increasing the humidity of the air, a method may be considered in which a fog generator is provided instead of controlling the heater 19 and the fog is directly blown to the air to increase the humidity of the air. Further, if the air is adjusted only by the heater 19, a thermistor is provided at a position where the temperature of the air can be sensed. If the air is 75 ° C. or higher, the heater 19 does not generate heat. , The heater 19 may be configured to start.
[0041]
Further, it is described that the heater 19 is started when the temperature sensor 31 detects the temperature of 50 ° C. or less or the humidity sensor 32 detects the humidity of 60% or more. For example, even if the amount of heat generated by the heater 19 is increased or the rotation speed of the blower is reduced, the present invention is not affected.
[0042]
Regarding the temperature control of the air, besides using the heater 19 or the blower, if a heat sink, an air cooler using outside air or cold water, a heat pump, or the like is used in the above-described air dehumidification method, the microcomputer 34 may be used. To control the temperature of the air.
[0043]
By the way, in the present invention, the upper limit of the temperature of the air sent to the clothing is set to 75 ° C. This is to reduce the occurrence of wrinkles in clothing using chemical fibers, taking into account the glass transition points unique to each component of the chemical fiber, for example, the glass transition point of polyimide is around 100 ° C. The value is derived in consideration of the fact that the glass transition point of nylon is around 85 ° C.
[0044]
In addition, the reason why the lower limit of the temperature is set to 50 ° C. is that the drying time is taken into consideration. As the temperature of the air is lower, the generation of wrinkles on the clothes can be reduced, but the drying time is longer. It is derived from hindering efficient drying work.
[0045]
With respect to humidity, the present invention sets the lower limit to 20%. This is a value obtained as a result of confirming that the minimum humidity is such that the generation of wrinkles in the natural fiber can be reduced.
[0046]
Further, the upper limit of the humidity is set to 60% in consideration of the drying efficiency. As the humidity is increased, wrinkles are less likely to occur. On the other hand, when the humidity is too high, efficient drying work is not performed. It is derived from the hindrance.
[0047]
According to the above configuration, this embodiment is to dry the clothes at a temperature of 75 ° C. or less and at a humidity of 20% or more during the drying process. FIG. 4 shows the relationship between the air temperature and the humidity with respect to the drying rate of the clothes. Show the relationship.
[0048]
By controlling the air to an appropriate temperature and humidity, the user can wash or dry without being aware of the difference between natural materials and chemical fibers, and wrinkles are not easily fixed to the clothes, and the finish of the clothes The condition can be improved.
[0049]
In this embodiment, the example in which the temperature and the humidity of the air are adjusted is shown. However, only the temperature of the air is adjusted by using only the temperature sensor 31, or only the humidity is adjusted by using only the humidity sensor 32. This is also the present invention, and the state of each air is shown in FIGS.
[0050]
Regarding the method of controlling the temperature and humidity, other embodiments than the above are also conceivable.For example, instead of controlling the temperature and humidity over the entire time of the drying process, the drying rate of the clothing is measured by the current measurement terminal 33, The air is adjusted by the temperature sensor 31 and the humidity sensor 32 when it is determined that the predetermined drying rate has been reached.
[0051]
In this embodiment, the predetermined drying rate is 90%, and an embodiment thereof is shown in FIG. Until the drying rate of the clothing reaches 90%, high-temperature hot air is blown to the clothing, and when the drying rate of the clothing during the drying process is 90% or more, the temperature of the hot air during the drying process is 75 ° C or less, and the temperature of the hot air is humidity. 20% or more of the drying of clothing, it dries below the glass transition point of the temperature at which the chemical fibers begin to soften, so that wrinkles are not easily fixed, and natural fibers can be prevented from overdrying and the generation of wrinkles can be reduced. Can be improved. Further, when the drying rate of the clothes is less than 90%, the temperature of the warm air is increased to evaporate the water quickly from the clothes, so that the drying step can be completed in a short time.
[0052]
Further, as another embodiment of a method for controlling the temperature and the humidity, the temperature of the warm air is gradually decreased in a plurality of times during the drying process, and after the drying rate of the clothes reaches 90%, the temperature is reduced. It is also conceivable to dry clothes in a state where the temperature is 75 ° C. or less and the humidity is 20% or more, and an embodiment thereof is shown in FIG.
[0053]
By gradually decreasing the temperature of the hot air, drying time is generally required, but it is not necessary to rapidly decrease the temperature when the drying rate reaches a predetermined value, and it is necessary to force the control. I can't. In addition, since there is no rapid temperature change for the garment, there is an effect that the fiber is less likely to be painful, wrinkles are hardly adhered to the garment while obtaining such an effect, and the finished state of the garment can be further improved.
[0054]
Although the present embodiment is a clothes drying and drying machine in which an outer tub and an inner tub are arranged on a rotating shaft extending in the vertical direction, the outer tub and the inner tub are provided on a rotating shaft having a horizontal or horizontal inclination. Even the disposed clothes dryer and clothes washer / dryer do not affect the present invention.
[0055]
【The invention's effect】
As described above, according to the present invention, by setting the temperature of the air during the drying process to 75 ° C. or less, wrinkles are less likely to adhere to clothing using chemical fibers, and the finished state of clothing becomes better.
[0056]
In addition, by setting the humidity of the air during the drying process to 20% or more, wrinkles are less likely to adhere to clothing using natural fibers, and the finished state of the clothing is improved.
[0057]
Furthermore, by setting the temperature of the air during the drying process to 75 ° C. or less and the humidity to 20% or more, the clothes using the natural fibers and the clothes using the chemical fibers are simultaneously dried, and wrinkles thereof are reduced. It can be dried while drying.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a clothes washer / dryer according to a first embodiment of the present invention. FIG. 2 is a block diagram showing control of the clothes washer / dryer. FIG. 3 is a flowchart showing control of the clothes washer / dryer. 4) Relationship between temperature, humidity and drying rate of the clothes washer / dryer [FIG. 5] Relationship between temperature and drying rate of the clothes washer / dryer [FIG. 6] Relationship between humidity and drying rate of the clothes washer / dryer FIG. 7 is a diagram showing the relationship between the temperature, humidity and drying rate of the clothes washer / dryer. FIG. 8 is a diagram showing the relationship between temperature, humidity and the drying rate of the clothes washer / dryer. Diagram of the relationship between humidity and drying rate [Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Housing 2 Outer tank 3 Suspension 4 Inner tank 5 Rotating shaft 6 Outer lid 7 Inner lid 8 Fluid balancer 9 Rotating blade 10 Motor 11 Clutch 12 Water supply valve 13 Water supply path 14 Blower 15 Stirring rib 16 Drainage valve 17 Drainage path 18 Accordion hose 19 Heater 20 Exhaust port 21 Lower accordion hose 22 Circulation path 31 Temperature sensor 32 Humidity sensor 33 Current measurement terminal 34 Microcomputer

Claims (9)

A housing, an inner tank rotatably supported in the housing, air blowing means for blowing air heated by a heater into the inner tank via a blower, and blowing air from the blowing means to the inner tank. Temperature detection means for detecting the temperature of the air, and air adjustment means for adjusting the temperature of the air according to the detection result of the temperature detection means, the temperature of the air sent to the clothing by the air adjustment means is 75 ℃ or less Clothes dryer characterized in that it is adjusted to be: A housing, an inner tank rotatably supported in the housing, air blowing means for blowing air heated by a heater into the inner tank via a blower, and blowing air from the blowing means to the inner tank. A humidity detecting means for detecting the humidity of the air; and an air adjusting means for adjusting the humidity of the air according to the detection result of the humidity detecting means, wherein the humidity of the air sent to the clothes by the air adjusting means is 20% or more. Clothes dryer characterized in that it is adjusted to be: 3. The clothes dryer according to claim 2, wherein the humidity of the air sent to the clothes is adjusted to be between 20% and 60% by the air adjusting means. A housing, an inner tank rotatably supported in the housing, air blowing means for blowing air heated by a heater into the inner tank via a blower, and blowing air from the blowing means to the inner tank. Temperature detecting means for detecting the temperature of the air, humidity detecting means for detecting the humidity of the air blown from the blowing means to the inner tank, temperature of the air according to the detection results of the temperature detecting means and the humidity detecting means And an air adjusting means for adjusting humidity, wherein the temperature of the air sent to the clothes by the air adjusting means is adjusted to 75 ° C. or less and the humidity is adjusted to 20% or more. . 2. The clothes dryer according to claim 1, wherein after the drying rate of the clothes reaches a predetermined value, the temperature of the air blown to the clothes is adjusted to 75 ° C. or less by the air adjusting means. 3. The clothes dryer according to claim 2, wherein after the drying rate of the clothes reaches a predetermined value, the humidity of the air blown to the clothes is adjusted to be 20% or more by the air adjusting means. 4. The clothes dryer according to claim 3, wherein after the drying rate of the clothes reaches a predetermined value, the humidity of the air blown to the clothes is adjusted to be between 20% and 60% by the air adjusting means. . 5. The method according to claim 4, wherein after the drying rate of the clothes reaches a predetermined value, the temperature of the air blown to the clothes by the air adjusting means is adjusted to 75 ° C. or less and the humidity to 20% or more. Clothes dryer. 9. The clothes washer / dryer according to claim 1, further comprising a washing function provided with an outer tub containing water therein at a lower portion of the inner tub.

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