JP4740271B2 - Dryer and washing dryer - Google Patents

Description

  The present invention relates to a dryer or a washing dryer provided with means for drying clothes.

  Drying clothes with a washing and drying machine that can perform washing to drying continuously creates high-temperature and low-humidity air with a blower fan and heat source, blows it into the washing tub, raises the temperature of the clothes, and moisture from the clothes By evaporating and evaporating the evaporated water. There are two methods for removing the evaporated water: an exhaust system that discharges it directly outside the washing and drying machine (always supplying new air) and a dehumidification system that cools the evaporated water and condenses it to remove the water (circulates the same air). However, for home use, a dehumidification system that does not allow moisture to enter the room where the washing and drying machine is installed is often used.

  The laundry dryer has (1) short drying time, (2) low power consumption, (3) good drying finish (low wrinkle of clothing), and (4) little damage to clothing. That is required. Among these, regarding (1) and (2), there is a washing and drying machine that efficiently performs drying by appropriately controlling the air volume and temperature of air according to the progress of drying. In addition, there is a washing and drying machine that improves the movement of clothes in the washing tub and efficiently evaporates moisture from the clothes. Furthermore, there is a washing / drying machine that uses a water cooling system as a dehumidifying system to increase the efficiency of heat exchange with hot and humid hot air by allowing cooling water to flow uniformly over the wall surface of the air passage. Regarding (4), there is a washing and drying machine provided with a low temperature drying course in which the temperature of the warm air is limited so that the temperature of the clothes does not rise too much (the heater input is suppressed). Regarding (3), since wrinkles are generated when clothes are entangled or twisted during drying, there are washing dryers that are less likely to cause tangling or twisting of clothes.

JP 62-44299 A JP-A-9-774 JP-A-2005-080946 JP 2002-346272 A

  When the actual condition of use of the washing and drying machine is surveyed, when clothes that have been dried indoors or outdoors due to factors such as weather and humidity are dry, they are often used to dry them completely. However, it can dry but not wrinkle on clothes. This is because most people do not dry the wrinkles after they have been completely removed, and most of them dries lightly after wrinkling, and the wrinkles become fixed when the drying progresses to the level of raw drying. On the other hand, when the amount of clothing is too large, wrinkles may be increased. For this reason, the user is ironing clothes which are worried about wrinkles after drying. However, skill is necessary to perform ironing well, and it takes time and effort, so ironing is ranked at the top of disliked work in housework.

  An object of the present invention is to provide a washing / drying machine that can greatly save the labor of ironing and can remove wrinkles of wrinkled clothing.

In order to achieve the above object, the present invention is characterized by:
A rotary drum that contains clothing, a motor that drives the rotary drum, and a housing that supports the rotary drum, and the clothing directly in the clothing contained in the rotary drum during the drying operation There is provided means for blowing a wind having an air volume and a wind speed for extending the wrinkles, and the means for blowing the air is provided in the air blowing means, the air heating means provided on the discharge side of the air blowing means, and the downstream of the heating means. And a humidifying means for imparting moisture to the wind provided between the nozzle and the heating means.

  The washing / drying machine configured as described above can spray high-speed wind and mist directly on the wrinkled clothing in the initial stage of the drying operation, so that the clothing can be uniformly moistened, The wrinkle can be easily removed. In addition, the moisture of the garment can be evaporated by high-speed hot air, and the garment can be spread and spread by the wind so that the wrinkle of the garment can be stretched.

  For this reason, it is possible to reduce the labor and electricity cost of ironing clothes after drying, and energy saving can be realized in a broad sense.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is an external view of a drum type washing / drying machine according to an embodiment of the present invention. FIG. 2 is a perspective view showing a part of the casing cut off to show the internal structure, FIG. 3 is a rear view with the back cover removed to show the internal structure, and FIG. 4 shows the internal structure. FIG. 5 is a side view, and FIG. 5 is a plan view showing a part of the housing cut away to show the internal structure.

  Reference numeral 1 denotes a housing constituting the outer shell. The housing 1 is mounted on a base 1h, and includes left and right side plates 1a and 1b, a front cover 1c, a back cover 1d, a top cover 1e, and a lower front cover 1f. The left and right side plates 1a and 1b are connected by a U-shaped upper reinforcing material (not shown), a front reinforcing material (not shown), and a rear reinforcing material (not shown), and include a base 1h. A box-shaped housing 1 is formed and has sufficient strength as a housing.

  9 is a door which closes the insertion port for putting in and taking out the clothes provided in the approximate center of the front cover 1c, and is supported by the hinge provided in the front reinforcement material so that opening and closing is possible. When the door opening button 9d is pressed, the lock mechanism (not shown) is released to open the door, and when the door is pressed against the front cover 1c, the door is locked and closed. The front reinforcing member has a circular opening for putting clothes in and out concentrically with an opening of the outer tub described later.

  Reference numeral 6 denotes an operation panel provided in the upper center of the housing 1 and includes a power switch 39, operation switches 12 and 13, and a display 14. The operation panel 6 is electrically connected to a control device 38 provided at the lower part of the housing 1.

  3 is a cylindrical washing and dewatering tub (rotary drum) supported rotatably, having a large number of through holes for water flow and ventilation on its outer peripheral wall and bottom wall, and clothing on the front end face An opening 3a for taking in and out is provided. A fluid balancer 3c integrated with the washing and dewatering tub 3 is provided outside the opening 3a. A plurality of lifters 3b extending in the axial direction are provided inside the outer peripheral wall. When the washing and dewatering tub 3 is rotated during washing and drying, the clothes are lifted along the outer peripheral wall by the lifter 3b and centrifugal force, and dropped by gravity. Repeat the movements. The rotation center axis of the washing and dewatering tub 3 is inclined so that the horizontal or opening 3a side becomes higher.

  Reference numeral 2 denotes a cylindrical outer tub, which coaxially encloses the washing / dehydrating tub 3, opens on the front surface, and attaches the motor 4 to the outer center of the rear end surface. The rotating shaft of the motor 4 passes through the outer tub 2 and is connected to the washing and dewatering tub 3. An outer tub cover 2d is provided at the opening on the front surface, and water can be stored in the outer tub. In the center of the front side of the outer tub cover 2d, there is an opening 2c for taking in and out clothing. The opening provided in the main opening 2c and the front reinforcing member 37 is connected by a rubber bellows 10, and the outer tub 2 is sealed with water by closing the door 9. A drain port 2b is provided at the bottom bottom of the outer tub 2 and a drain hose 26 is connected thereto. A drain valve (not shown) is provided in the middle of the drain hose 26. Water is stored in the outer tank 2 by closing the drain valve and supplying water, and the drain valve is opened to drain the water in the outer tank 2 outside the machine. To discharge.

  The outer tub 2 is supported in a vibration-proof manner by a suspension 5 (consisting of a coil spring and a damper) whose lower side is fixed to the base 1h. The upper side of the outer tub 2 is supported by an auxiliary spring (not shown) attached to the upper reinforcing member, and prevents the outer tub 2 from falling in the front-rear direction.

  Reference numeral 19 denotes a detergent container provided on the upper left side in the housing 1, and a drawer-type detergent tray 7 is mounted from the front opening. When putting detergents, the detergent tray 7 is pulled out as shown by a two-dot chain line in FIG. The detergent container 19 is fixed to the upper reinforcing material of the housing 1.

  On the back side of the detergent container 19, components related to water supply such as a water supply electromagnetic valve 16, a bath water supply pump 17, and a water level sensor (not shown) are provided. The detergent container 19 is connected to the outer tub 2. The water supply electromagnetic valve 16 is a multiple valve, and 16b is a main water supply electromagnetic valve that supplies washing water to the outer tub 2 through the detergent container 19. 16c is a softener water supply solenoid valve for supplying water to the outer tub through the detergent container 19. Reference numeral 16d denotes a cooling water supply electromagnetic valve that supplies water to a water cooling / dehumidifying mechanism (not shown). Reference numeral 16d denotes a mist water supply electromagnetic valve that supplies water to a mist generating unit described later. The top cover 1e is provided with a water supply hose connection port 16a from a water tap and a water absorption hose connection port 17a for remaining hot water in the bath.

  Reference numeral 29 denotes a drying duct installed vertically inside the back surface of the housing 1, and a lower portion of the duct is connected to an intake port 2 a provided below the back surface of the outer tub 2 by a rubber bellows tube B 29 a. A water-cooled dehumidifying mechanism (not shown) is built in the drying duct 29, and cooling water is supplied from the water supply electromagnetic valve 16 to the water-cooled dehumidifying mechanism. The cooling water flows down along the wall surface of the drying duct 29, enters the outer tub 2 through the intake port 2a, and is discharged from the drain port 2b.

  The upper part of the drying duct 29 is connected to a filter duct 27 installed in the front-rear direction on the upper right side in the housing 1. The filter duct 27 has an opening on the front surface, and a drawer-type drying filter 8 is inserted into the opening. The air that has entered the filter duct 27 from the drying duct 29 flows into the mesh filter 8a of the drying filter 8, and lint is removed. Cleaning of the dry filter 8 is performed by pulling out the dry filter 8 and taking out the mesh filter 8a. Further, an opening is provided in the lower surface of the insertion portion of the dry filter 8 of the filter duct 27, the opening is connected to the intake duct 33, and the other end of the intake duct 33 is connected to the intake port of the blower unit 28. is doing.

  The blower unit 28 includes a drive motor 28a, a fan impeller (not shown), and a fan case 28b. The fan case 28b incorporates a heater 31 and heats air sent from the fan impeller. The discharge port of the blower unit 28 is connected to the hot air duct 30. The hot air duct 30 is connected to a hot air outlet 32 provided in the outer tank cover 2d through a rubber bellows tube A30a and a bellows tube joint 30b. In the present embodiment, since the blower unit 28 is provided on the upper right side in the housing 1, the hot air outlet 32 is provided at a position diagonally above and to the right of the outer tank cover 2d, and the distance to the hot air outlet 32 is set. I try to keep it as short as possible.

  Temperature sensors (not shown) are provided at the outlet 2b and the inlet and outlet of the blower unit 28.

  The feature of the present invention is that water mist is generated by high-speed wind, applied directly to the wrinkled clothing, moisture is applied to the clothing to make it easy to remove wrinkles, and then the high-speed wind is applied to the clothing for drying. It is to stretch the wrinkles. For this purpose, a blower unit 28 that generates high-speed wind, a hot air outlet 32 that directly applies the wind to clothing, and water supply means are required. The performance required for the blower unit will be described later. Details of the hot air outlet 32 will be described with reference to FIGS. 6 is a front view of the outer tub cover 2d of the hot air outlet 32 installation portion, and FIG. 7 is a cross-sectional view of the hot air outlet 32 cut along a two-dot chain line AA in FIG.

  The hot air outlet 32 is provided along the opening 2c from the front side of the outer tub cover 2d, and flow paths 32b and 32c are formed therein. A bellows pipe joint 30b is attached to the inlet of the hot air outlet 32, and a nozzle 32d is formed at the outlet of the flow path 32c. The inner diameter of the opening 2c of the outer tub cover 2d and the inner diameter of the opening 3a of the washing / dehydration tub 3 are set to be substantially the same so that clothing does not enter between the gap between the washing / dehydration tub 3 and the outer tub cover 2d. Yes. For this reason, the outlet 32a of the hot air outlet 32 is formed so as to protrude inward from the inner peripheral surface of the opening 2c, and the nozzle 32d is opened toward the washing and dewatering tub 3. By doing in this way, the warm air from the nozzle 32d directly hits the clothes in the washing and dewatering tub 3.

  If the amount of protrusion of the outlet portion 32a is too large, the movement of clothing is hindered during washing or drying. Therefore, as shown in FIG. 7, the amount of protrusion is reduced by using a flat slit shape, and the opening 2c and the outlet The surface shape of the portion 32a is changed smoothly. Further, the flow path 32b and the flow path 32c are configured so that there is no useless protrusion or a sudden change in the flow direction, and the flow path area gradually decreases toward the nozzle 32d. By doing so, it is possible to reduce the pressure loss and fluid sound that occur when high-speed wind flows through the flow paths 32b and 32c.

  A water supply port 60 supplies water into the flow path 32b and is connected to the mist water supply electromagnetic valve 16e by a water supply hose 61.

  The flow of wind during the drying operation is as follows. When the blower unit 28 is operated and the heater 31 is energized, high-speed warm air blows into the washing and dewatering tub 3 from the nozzle 32d (arrow 41), hits the wet clothing, warms the clothing, and moisture evaporates from the clothing. The air that has become hot and humid flows from the through hole provided in the washing and dewatering tub 3 to the outer tub 2 and is sucked into the drying duct 29 from the air inlet 2a and flows from the bottom to the top in the drying duct 29 (arrow 42). Cooling water from the water cooling and dehumidifying mechanism flows down on the wall surface of the drying duct 29, and the hot and humid air is cooled and dehumidified by contacting with the cooling water, and becomes dry low temperature air and enters the filter duct 27 (arrow 43). . The lint is removed through the mesh filter 8a provided in the filter duct 27, enters the intake duct 33, and is sucked into the blower unit 28 (arrow 44). Then, it is heated again by the heater 31 and circulates so as to blow into the washing and dewatering tub 3. During this time, the washing and dewatering tub 3 is rotated forward and backward at a low speed to lift the garment to the vicinity of the nozzle 32d so that high-speed warm air directly hits the garment.

Water mist is generated as follows. If the mist water supply electromagnetic valve 16e is opened when the air blowing unit 28 is operated and high-speed wind is blowing from the n nozzle 32d, water is supplied from the water supply port 60 into the flow path 32b. Then, along with the flow of air, it flows through the flow path 32 b and flows out from the nozzle 32 d into the washing and dewatering tub 3. Since there is a large speed difference between the high-speed wind and water ejected from the nozzle 32d and the air in the washing and dewatering tub 3, the water is strongly stirred and misted by this speed difference. Then, it diffuses into the washing and dehydrating tank 3 together with the high-speed wind, adheres to the clothing, and wets the clothing substantially uniformly. The amount of water needs to be set according to the air volume and the wind speed in order to efficiently mist and spread it uniformly on the clothing. If the amount of water is small, the uniformity is improved, but it takes time to wet the garment. If the amount of water is large, the uniformity is deteriorated and uneven moistening occurs, but it can be moistened in a short time. For example, when the air volume is 1.5 m ³ / min and the wind speed is 100 m / s, about 0.05 to 0.2 L / min is preferable.

  Further, in the above embodiment, water is supplied into the flow path 32b. However, when the heater 31 is a sheathed heater, steam is generated by supplying water to the heater surface, and this is blown onto clothing with high-speed wind. You may make it attach. Since steam is smaller in size than mist, it can easily reach every corner of the garment, and can dampen the garment uniformly.

  FIG. 8 is an example of the results of examining the wind speed ejected from the nozzle 32d and the finish of the clothes after drying when the drying operation as described above is performed. The wind speed and the air volume were adjusted by changing the rotation speed of the motor 28a and the area of the nozzle 32d. The wind speed is a value calculated from the result of measuring the air volume pressure characteristics of the blower unit 28. The air pressure characteristics were measured with the apparatus shown in FIG. An orifice is attached to the suction port of the pressure equalizing box and the discharge port of the blower unit 28, and the air volume and the pressure of the intake port and the discharge port of the blower unit 28 are measured while varying the diameter of the orifice and the rotation speed of the motor 28a. The characteristics were determined. Then, the pressure of the air inlet and outlet of the air blowing unit 28 when the air blowing unit 28 is mounted on the washing / drying machine is measured, the air volume is obtained from the above air volume pressure characteristics, and the value obtained by dividing the air volume by the nozzle area is the air speed. It was.

  The experimental conditions are as shown in the figure, and the testing machine is a drum-type washing and drying machine having a washing and dewatering tank having a diameter of 600 mm and a volume of 75 L, and the amount of cloth is 2 kg. The results of the thin cotton pajamas trousers with the most wrinkles were shown, although the evaluation of the finish was carried out with various garments. Although the evaluation is a five-step sensory evaluation by visual observation, an example of the finished condition with respect to the sensory evaluation value is shown in FIG. The blowing direction of the wind from the nozzle 32d was made to face substantially the center of the bottom wall of the washing and dewatering tank 3. The result is an average value of three evaluators. For reference, FIG. 15 shows the finished condition when the clothes are hung and dried without being dried. (A) is the case where it is dried as it is after dehydration, and (b) is the case where it is dried after lightly extending the dehydration lines. (A) is dry with dehydrated wrinkles, and the sensory evaluation value is about 4, and (b) is dehydrated wrinkles are reduced, but many shallow wrinkles still remain, and the sensory evaluation value is about 4.5. It is.

From the figure,
(A) The finish improves as the wind speed increases. However, the finish is saturated with respect to the wind speed, and if the wind speed is too high, the finish tends to deteriorate. Also, the greater the air volume, the lower the wind speed at which the finish is saturated. When the air volume is 0.8 m ³ / min, the sensory evaluation value is about 3 at a wind speed of about 140 m / s. When the air volume is 1.0 m ³ / min, the sensory evaluation value is about 3.3 at a wind speed of about 130 m / s, and the air volume is 1.3 m ^3. At a wind speed of 120 m / s, the sensory evaluation value is about 3.9, and at an air volume of 1.5 m ³ / min, the sensory evaluation value is about 4.0 at a wind speed of about 110 m / s, and about 100 m / s at an air volume of 1.7 m ³ / min. The sensory evaluation value is about 4.2, and the finish is hardly improved even if the wind speed is increased further. Moreover, when the air volume is 1.5 m ³ / min or more, a finish equivalent to hanging drying can be obtained.
(B) If the wind speed is the same, the finish is better when the air volume is larger. However, the improvement degree of the finish when the air volume is increased from 1.5 m ³ / min to 1.7 m ³ / min is small. For this reason, even if the air volume is increased more than necessary, it is not expected to improve the finish.

  Thus, the larger the wind speed and volume, the better the finish. It is desirable to set the air volume and the wind speed in consideration of the balance between the two instead of increasing one of them. Specifically, not only the finish but also the current value (in the case of a household 100V commercial power source, the total of the blower unit 28, the heater 31, the motor 4, and the control device 38 is 15 A or less), the drying performance, and the wind circulate. It is necessary to determine the air speed and air volume in consideration of the flow path area of the duct and the mounting on the washer / dryer.

If the sensory evaluation value is 3 or more, it can be easily finished even when ironing after drying. If the sensory evaluation value is 4 or more, there is little dissatisfaction even if the clothes after drying are worn as they are. To the sensory evaluation value 3 or more, the air volume 0.8 m ³ / min at a wind speed of about 140 m / s or more, about 110m / s or more air flow 1.0 m ³ / min, air velocity about at air flow 1.3 m ³ / min 92m / s or more, wind speed of 1.5m ³ / min and wind speed of about 75m / s or more, air volume of 1.7m ³ / min and wind speed of about 70m / s or more, at least 0.8m ³ / min is required. . Although the air volume greatly affects the drying performance, if the air volume is too small, the drying time is extended. Therefore, the air volume is required to be 0.8 m ³ / min or more from the viewpoint of the drying performance.

  In the case of clothing that is difficult to wrinkle, a finish with a sensory evaluation value of 3 or higher can be obtained even at a value lower than the above, but it is common to dry various clothing at the same time, and the wind speed should be adjusted according to clothing that tends to wrinkle. It is better to decide.

  The reason why the wrinkle of clothing is reduced by applying high-speed wind to the clothing will be described with reference to FIG. FIG. 9A is a schematic diagram when the high-speed wind 41 from the nozzle 32d hits the clothing. Here, the case where there is other clothing on the back of the clothing is shown. When the wind hits the garment, the garment is forced to spread by the wind (arrow (1)), and after being struck by the garment, the direction of flow is changed and the wind flowing along the garment surface is pulled to the left and right (arrow (2)) ) Acts. The wrinkles of clothes are stretched by the force of (1) and (2). When the amount of clothes in the washing / dehydrating tub 3 is large, wrinkles are stretched mainly by the force of (1) because there are many other clothes that are difficult to move freely around the clothes directly hit by the wind. When the amount of clothing is small, the clothing moves freely, and the clothing hit by the wind looks like a windsock while being pushed in the direction of the wind, and the force (2) due to the wind flowing along the clothing surface also acts. I will be stretched. When the amount of clothing is small, the clothing tends to spread during drying and wrinkles are unlikely to occur, so the force (1) is considered here.

  As shown in FIG. 9B, the force F of (1) can be expressed by the product of Q and V, where Q is the amount of wind blown from the nozzle 32d and V is the wind speed. In addition, the wind (jet) blown from the nozzle 32d is affected by a large speed difference from the surrounding air and the viscosity of the air, while entraining the surrounding air and expanding the width of the flow, and at that time, the jet itself reduces the velocity V. (However, when the distance X from the nozzle 32d is very small (from the core area of the jet, in the case of a circular nozzle, from the nozzle to a position about 6 times the nozzle diameter), the velocity V is Almost constant). That is, as the distance X from the nozzle 32d increases, the force that the clothing per unit area receives (the pressure that the clothing receives from the wind) decreases. Therefore, the closer the clothes are to the nozzle 32d, the greater the effect of stretching the wrinkles.

If the result of FIG. 8 is rearranged by force F, it will become like FIG. In FIG. 8, the air volume Q is displayed as a volumetric flow rate, but it was converted to a mass flow rate by applying the air density (1.24 kg / m ³ at 20 ° C.). As can be seen from the figure, the finished sensory evaluation value increases as the force F increases, but is almost saturated when the force F is 3.5 N or more, and the sensory evaluation value is about 4.7. The sensory evaluation value varies somewhat, but falls within the range of the broken line in the figure. It can be seen that in order to obtain a sensory evaluation value of 3 or more, the force F should be about 2.2 N or more.

  FIG. 11 summarizes the experimental results from 1 kg to 4 kg in the same manner as FIG. It can be seen that the greater the amount of fabric, the greater the force F required to obtain the same sensory evaluation value. This is because the larger the amount of cloth, the larger the amount of clothing with respect to the volume of the washing and dewatering tub 3 and the more difficult the clothing spreads. Therefore, a greater force is required to stretch the wrinkles. In addition, the sensory evaluation value saturates at a certain force or higher. Therefore, the best finish can be obtained without flowing unnecessary wind by controlling the air volume and speed so that the optimum force is applied according to the amount of cloth. Power consumption can be reduced. As a method of controlling the air volume and the air speed, the method of controlling the rotation speed of the blower unit 28 (increasing the rotation speed as the cloth volume increases) is the easiest, but the area of the nozzle 32d is made variable to control the area. The method is fine.

  As the amount of cloth increases, the maximum sensory evaluation value decreases. At 1 kg of cloth, the sensory evaluation value is about 4.8, about 4.7 at 2 kg, about 4.2 at 3 kg. The amount is about 3.5 at 4 kg and about 2.6 at 5 kg. From this figure, the force F required for the sensory evaluation value of 3 or more is about 0.8 N or more when the fabric weight is 1 kg, about 3.0 N or more when 3 kg, and about 3.4 N or more when 4 kg. In this experiment, the sensory evaluation value 3 could not be achieved with a fabric weight of 5 kg. From the above, it is preferable that the force F be 0.8 N or more even when the amount of fabric is small.

  Thus, the force for obtaining the required finish differs depending on the volume of the washing and dewatering tub 3 and the amount of cloth. Therefore, the volume of the washing / dehydrating tub 3 per amount of cloth is defined as a volume ratio (= volume of the washing / dehydrating tub 3 / cloth amount). Then, when the result of FIG. 10 is arranged by the product of the force F and the volume ratio, FIG. 12 is obtained. As can be seen from the figure, the finished sensory evaluation value falls within the range of the broken line in the figure with respect to the product of the force and the volume ratio. This figure includes an index (force F, the volume of the washing / dehydrating tub 3 and the amount of cloth) related to the dry finish. By using this figure, the conditions for obtaining the target finish are shown. Can lead.

  In order to obtain a sensory evaluation value of 3 or more, the product of force and volume ratio may be about 62 N · L / kg or more. As an example, a condition for obtaining a sensory evaluation value of 3 or more is obtained when the volume of the washing and dewatering tub 3 is 75 L and the amount of cloth is 4 kg.

Volume ratio = 75/4 = 18.75 L / kg, and force F = 62 / 18.75 = 3.31 N. Next, if the air volume is determined to be 1.65 m ³ / min (= 0.0341 kg / s) in consideration of the drying performance, the wind speed is about 97 m / s (= 3.31 / 0.0341). Therefore, the area of the nozzle 32d may be set to 2.83 × 10 ⁻⁴ m ² (283 mm ² ) in order to obtain this air volume and speed.

  In this embodiment, the blower unit 28 has a fan impeller diameter of 140 mm, a blade thickness of 8.1 mm, and a rotational speed of 15000 revolutions per minute. As a result, the fan discharge pressure is about 7000 Pa (at an air temperature of 30 ° C.), and the above-described air volume and speed are obtained.

  As described above, to improve the finish, the force F is increased (the air volume Q is increased or the wind speed V is increased), and the distance X between the nozzle and the garment is decreased (the garment is brought closer to the nozzle).

  In order to increase the air volume Q, it is necessary to increase the rotational speed of the fan of the blower unit 28 or to increase the outer diameter or blade height of the fan. Also, it is better to reduce the pressure loss by increasing the area of the duct through which the hot air passes. In particular, in the case of the water cooling method using water for dehumidification, if the flow velocity of the air flowing through the drying duct 29 is too high, a phenomenon that the cooling water is blown off by the wind occurs. When the cooling water reaches the filter 8a and the heater 31, the pressure loss due to the filter 8a getting wet or the cooling water evaporates in the heater 31 and the temperature of the hot air decreases, leading to a significant decrease in drying efficiency. For this reason, it is essential to increase the flow path area of the drying duct 29. For this reason, when the air volume is significantly increased, the size of the duct and the blower unit increases, leading to an increase in the size of the housing 1, and it becomes difficult to install the washing and drying machine in the home.

  On the other hand, in order to increase the wind speed V, the air blowing unit 28 may be a pressure type to reduce the nozzle area. When a general turbofan is used as the blower unit 28, there are a method of increasing the diameter of the fan impeller at a low rotational speed and a method of increasing the rotational speed while keeping the diameter of the fan impeller small. High-speed rotation has the advantage that it can be mounted in the same housing as the conventional one.

  In the experimental result of the finish shown in FIG. 8, when the wind speed was too high, a phenomenon that the finish was deteriorated was observed. This cannot be explained above. Observing the movement of the clothing during the experiment, it was found that if the wind speed was too high, there was a phenomenon in which the clothing was twisted by the wind. Therefore, this is a cause of deterioration of the finish.

  In order to reduce the distance X between the nozzle 32d and the garment, the number of rotations of the washing and dewatering tub 3 is appropriately controlled so that the garment is lifted up near the nozzle 32d so that the wind as fast as possible directly hits the garment. To do. The clothes are lifted upward by the centrifugal force generated by the rotation of the washing and dewatering tank 3 and the lifter 3b. For this reason, the number of rotations has an optimum value according to the diameter of the washing and dewatering tub 3, and the number of rotations decreases as the diameter increases. Also, the lifter 3b is preferably high. However, if the height of the lifter 3b is high, a high torque is required to lift the clothes soaked in water, and the motor 4 needs to be a high-output thing. Therefore, the shape of the lifter 3b is considered in consideration of the output of the motor. Need to be determined.

  In order to further reduce the distance X between the nozzle 32d and the garment, the nozzle 32d may be provided near the place through which the garment always passes during drying. That is, the position of the nozzle 32d may be set to the lower side of the washing and dewatering tank 3 (the lower side of the outer tank cover 2d) where the lifter 3b lifts the clothes.

  FIG. 16 is a block diagram of the control device 38 of the washing / drying machine. A microcomputer 50 is connected to the operation button input circuit 51, the water level sensor 34, and the temperature sensor 52 connected to the switches 12, 13, 13a, and various information signals in the user's button operation, washing process, and drying process. Receive. The output from the microcomputer 50 is connected to the drive circuit 54 and connected to the water supply electromagnetic valve 16, the drain valve 25, the motor 4, the blower unit 28, the heater 31, etc., and controls opening / closing, rotation, and energization thereof. Further, it is connected to a 7-segment light emitting diode display 14, a light emitting diode 56 and a buzzer 57 for notifying the user of the operating state of the washing machine.

  FIG. 17 shows details of the operation panel 6. 13, 13a to 13h are operation switches, 14e to 14k are 7-segment light emitting diode indicators, 56a to 56d are light emitting diodes, and the light on the light emitting diodes highlights characters on the operation panel 6. 13a is a washing course, 13b is a washing / drying course, and 13c is operated when setting a drying course. 13e to 13h are switches used when manually setting the time and number of times of washing, rinsing, dehydration, and drying, and display the set values on the light emitting diode indicators 14e to 14h according to these operations. A high finish switch 13d is used for drying with good finish. When the switch is pressed, the light emitting diode 56d is turned on.

  The microcomputer 50 is activated when the power switch 39 is pressed and the power is turned on, and executes a basic control processing program for washing and drying as shown in FIG.

Step S101
Check the condition of the washing dryer and make initial settings.

Step S102
The indicator 14 of the operation panel 6 is turned on, and a washing / drying course is set according to an instruction input from the operation switch 13. A course is set by pressing the washing switch 13a when only washing is performed, pressing the 13b washing / drying switch when continuously performing washing to drying, and pressing the 13c drying switch when performing only drying. When these operation button switches are pressed, the light emitting diode 56a is turned on. Each time the operation button switch is pressed, the light-emitting diodes that are turned on are switched, moving from standard to meticulously to handmade, and the operation content of the set course is switched. In this embodiment, a case will be described in which a drying course is selected by pressing the drying switch 13c and the high finishing switch 13d. When the finishing course is set, the set value (drying time) stored in advance in the microcomputer 50 is displayed on the display 14h. If necessary, the set value can be changed by pressing the 13h switch.

Step S103
The process branches after monitoring the instruction input from the start switch 12 of the operation panel 6. Although not shown in the figure, when the start switch 12 is pressed, cloth amount sensing is performed. In the cloth amount sensing, for example, the washing and dewatering tub 3 is rotated at a low speed or accelerated to a specified number of rotations and measured from the current value of the motor 4 at that time. And the time until drying is completed is displayed on the display 14k.

Step S104
Dry operation 1 is executed. While the washing and dewatering tub 3 is rotated forward and backward at a low speed (30 to 50 rotations per minute), the blower unit 28 is operated at a high speed, and the heater 31 is energized (weak mode) to supply warm air to the washing and dewatering tub 3. Blow inside and raise the temperature of clothing. The reason why the heater 31 is set to the weak mode is that when the air blowing unit 28 is rotated at a high speed, the air volume increases, the current of the heater 31 increases, and when the heater is set to the strong mode, the allowable current value (15 A) is exceeded. In the present embodiment, the rotation speed of the blower unit 28 is set to 15000 rotations per minute. The input current of the blower unit 28 at 15000 revolutions per minute is about 4 A, the heater 31 is about 6 A, and the motor 4 and the control device 38 are about 1 A. At the same time, the mist water supply electromagnetic valve 16e is opened to spray water on the clothing in the form of mist. The mist diffuses while spreading in the washing / dehydrating tank 3 along with the warm air. As a result, the clothes are moistened almost uniformly while warming. Part of the mist is warmed by warm air and steamed, so it is easy to spread throughout the garment and the garment can be moistened evenly.

  In this step, mist may be sprayed on the clothing without energizing the heater 31. In this case, since steam is not generated, the amount of water to be supplied is preferably set smaller than that when the heater is energized in order to uniformly wet the clothing. By doing so, the size of the mist is reduced, and uniform mist spraying is possible.

Step S105
The process branches after confirming whether the elapsed time from the start of drying has reached a predetermined time. In the next step S106, the garment needs to be moistened so that wrinkles on the garment can be easily removed, and the dryness of the garment (= the mass of the dry cloth / the mass of the compress) is about 0.95. Although this time varies depending on the flow rate of water to be supplied and the amount of clothing, the flow rate of water to be supplied is determined according to the specifications of the mist water supply electromagnetic valve 16e, so that the time is set according to the amount of clothing.

Step S106
Dry operation 2 is executed. The mist water supply electromagnetic valve 16e is closed while the forward / reverse rotation of the washing and dewatering tub 3 and the high speed rotation of the blower unit 28 and the energization of the heater 31 are maintained. The wet clothes in the washing and dewatering tub 3 are blown at high speed to dry the wrinkles. Since the clothes are only slightly moist, drying and wrinkling can be completed in a relatively short time (less than 30 minutes for 1 kg of clothes). FIG. 15C shows the state of the cotton pajamas trousers subjected to finish drying according to the present embodiment. This pajamas are obtained by finishing and drying FIG. 15A, and it can be seen that wrinkles are almost completely removed.

Step S107
If the drying time is manually set in step S102, the process branches when a predetermined time has elapsed.

Step S108
Perform cooling operation. While the forward / reverse rotation of the washing and dewatering tub 3 is kept as it is, the rotational speed of the blower unit 28 is lowered (9000 revolutions per minute), the energization of the heater 31 is stopped, and air is blown. The number of rotations of the blower unit 28 is reduced because if the blower unit 28 is kept at 13,000 revolutions per minute during blowing, the temperature of the circulating air is unlikely to drop due to the compression work of the fan and the heat from the fan motor 28a. This is because the driving time becomes longer.

  Air is blown for a predetermined time or until the circulating air reaches a predetermined temperature or lower, the clothing is cooled, and the drying operation is terminated. At this time, if the supply of the cooling water to the water cooling / dehumidifying mechanism is continued, the temperature of the circulating air can be lowered efficiently.

  As described above, according to the present embodiment, high-speed wind and mist are directly blown on the wrinkled clothing in the initial stage of the drying operation, so that the clothing can be uniformly moistened and the clothing can be easily wrinkled. To do. In the second half of the drying operation, the moisture of the clothes is evaporated by the high-speed hot air, and the clothes are spread by the wind, so that the wrinkles of the clothes are stretched and a dry finish with less wrinkles can be realized. For this reason, it is possible to reduce the labor and electricity cost of ironing clothes after drying, and energy saving can be realized in a broad sense.

It is an external view which shows the drum type washing-drying machine of this invention. It is a perspective view which cut | disconnects a part of housing | casing of the drum type washing machine of this invention, and shows an internal structure. It is a rear view which removes the back cover of the drum type washing machine of the present invention, and shows an internal structure. It is a side view which shows the internal structure of the drum type washing machine of this invention. It is a top view which cut | disconnects the upper part of the housing | casing of the drum type washing machine of this invention, and shows an internal structure. It is a front view of the outer tank cover which provided the warm air blowing outlet. It is AA sectional drawing of the warm air blower outlet in FIG. It is an experimental result of the sensory evaluation value of the finish of the clothing after a wind speed and drying. It is a schematic diagram when the high-speed wind blown from the nozzle hits clothing. It is an experimental result of force (product of air volume and wind speed) and sensory value of the finished clothes after drying. It is an experimental result of the finish sensory evaluation value for every cloth amount of the finish of clothing after strength and drying. It is an experimental result of the product of force and volume ratio and the finished sensory evaluation value. It is an apparatus for measuring the air volume pressure characteristics of the blower unit. It is a photograph which shows a sensory evaluation value and the finishing condition of clothing. It is a photograph which shows the finishing condition of hanging-drying and the finishing condition which finished and dried hanging clothes. It is a block diagram of the control system of the washing and drying machine shown in FIG. It is a front view which shows the operation panel of the drum type washing machine of this invention. It is a flowchart which shows a part of control process which the microcomputer in the controller of the control system shown in FIG. 16 performs.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Housing | casing 2 Outer tub 2d Outer tub cover 3 Washing / dehydrating tub 4, 28a Motor

6 Operation panel 8 Dry filter 9 Doors 12 and 13 Operation switch 16 Water supply electromagnetic valve 16e Mist water supply electromagnetic valve 27 Filter duct 28 Blower unit 28b Fan case 29 Drying duct 31 Heater 32 Hot air outlet 32d Nozzle 33 Intake duct 38 Control device 60 Water supply

Claims (2)

In a drum-type washing / drying machine having a drying operation, which includes a rotating drum in which clothing is stored, a motor that drives the rotating drum, and a casing that supports the rotating drum.
In the case of performing only the drying operation, means for blowing a wind having an air volume of 0.8 m ³ / min or more and a wind speed of 70 m / s or more directly on the clothes accommodated in the rotating drum during the drying operation is provided. The means for blowing the air includes a blowing means, a heating means provided on the discharge side of the blowing means, a nozzle provided downstream of the heating means, and a humidifying means provided between the nozzle and the heating means. It has a door,
The motor, the blowing means, the heating means, and a control means for controlling the humidification means, and the drying drum is rotated by the motor to perform a drying operation,
In the initial stage of the drying operation, the air blowing means, the heating means, and the humidifying means are operated to spray the mist on the wrinkled clothes to moisten the clothes, and the humidifying means is operated from the middle of the drying operation. A drum-type washing and drying machine characterized by stopping . In a drum-type dryer having a rotary drum for storing clothes, a motor for driving the rotary drum, and a casing for supporting the rotary drum, and performing a drying operation.
When only the drying operation is performed, 0.8 m is directly applied to the clothes accommodated in the rotating drum during the drying operation. ^Three Means for blowing air having an air volume of not less than / min and a wind speed of not less than 70 m / s. The means for blowing the air is a blowing means, a heating means provided on the discharge side of the blowing means, and the heating means A nozzle provided downstream, and a humidifying means provided between the nozzle and the heating means,
The motor, the blowing means, the heating means, and a control means for controlling the humidification means, and the drying drum is rotated by the motor to perform a drying operation,
In the initial stage of the drying operation, the air blowing means, the heating means, and the humidifying means are operated to spray the mist on the wrinkled clothes to moisten the clothes, and the humidifying means is operated from the middle of the drying operation. A drum dryer characterized by stopping.

Images