JP6871564B2 - Washing and drying machine - Google Patents

Description

The present invention relates to a washer / dryer.

Conventionally, a so-called swirl-type washing machine (fully automatic washing machine) that uses a pulsator placed at the bottom of the washing / dehydrating tub to generate a stream of water in the washing / dehydrating tub to wash clothes is equipped with a clothes drying function. A dryer is known. An example of such a washer / dryer is described in Patent Document 1, for example.

In the washer / dryer of Patent Document 1, a hot air supply unit for supplying high-temperature air into the washing / dehydrating tub is arranged on a top plate having a laundry inlet. The outer tub in which the washing tub dehydration tub is arranged is covered with an outer tub cover whose upper surface opening has an inner lid. The warm air generated by the hot air supply unit is blown into the washing / dehydrating tub from above the outer tub through the hot air duct connected to the outer tub cover. In the washing and dehydrating tub, the laundry is agitated by the pulsator.

Japanese Unexamined Patent Publication No. 2007-054368

In the above-mentioned washer-dryer, since the laundry is agitated by the pulsator, the laundry is inevitably difficult to move dynamically. Therefore, there is a concern that the laundry is likely to be dried while being shrunk, and the laundry to be dried is likely to be wrinkled.

The present invention has been made in view of such a problem, and an object of the present invention is to provide a washer / dryer capable of reducing wrinkles generated in the laundry to be dried.

The washer / dryer according to the first aspect of the present invention includes an outer tub elastically supported in a housing, a washing / dehydrating tub rotatably arranged in the outer tub and accommodating laundry, and the washing / dehydrating tub. A drying device for drying the laundry in the washing / dehydrating tub and a pulsator rotatably arranged at the bottom of the washing / dehydrating tub are provided. Here, the drying device is used to wash the blower, the first air passage through which the first wind sent from the blower flows, and the first air flowing through the first air passage from above. A nozzle that blows out toward the bottom of the dehydration tank, an opening that is provided in the first air passage and a part of the first wind that flows through the first air passage flows out, and the opening. A second air passage that is connected and the part of the wind flows out from the opening, a wind deceleration unit that decelerates the part of the wind, and a wind deceleration unit provided in the second air passage and decelerating by the wind deceleration unit. It includes a heater for heating the part of the wind, and an introduction part for introducing a second wind formed by heating the part of the wind with the heater into the outer tank. The wind deceleration unit includes a wind guide unit provided in the first air passage and directing the part of the wind flowing through the first air passage toward the opening. The blower is a centrifugal fan, and the first wind sent from the centrifugal fan and flowing through the first air passage has a different flow velocity in a direction perpendicular to the flow of the first wind. The first air passage is a first wall surface that follows the flow of the first wind and is located on the side where the flow velocity is high, and a second wall surface that faces the first wall surface and is located on the side where the flow velocity is slow. The opening is formed in the second wall surface including the wall surface of the above.

According to the above configuration, since the first wind can be strongly blown from the nozzle to the laundry, the laundry can easily spread in the washing / dehydrating tub, and the laundry is less likely to wrinkle during drying. Moreover, a part of the wind of the first wind flowing through the first air passage is heated in the second air passage after being reduced by the wind deceleration portion because its flow velocity is dammed by the wind guide portion. Since it is heated by the vessel, the wind in contact with the heater is satisfactorily heated, and as a result, a high-temperature second wind can be generated in the second air passage. Then, by introducing the high temperature second wind, the inside of the outer tank can be satisfactorily warmed. As a result, the laundry can be satisfactorily dried by the introduction of the second wind while suppressing the occurrence of wrinkles in the laundry by the blowing of the first wind. Further, a wind having a slower flow velocity can be guided to the heater of the second air passage, and the wind can be heated more satisfactorily by the heater.

The washer / dryer according to the second aspect of the present invention includes an outer tub elastically supported in a housing, a washing / dehydrating tub rotatably arranged in the outer tub and accommodating laundry, and the washing / dehydrating tub. A drying device for drying the laundry in the washing / dehydrating tub and a pulsator rotatably arranged at the bottom of the washing / dehydrating tub are provided. Here, the drying device is used to wash the blower, the first air passage through which the first wind sent from the blower flows, and the first air flowing through the first air passage from above. A nozzle that blows out toward the bottom of the dehydration tank, an opening that is provided in the first air passage and a part of the first wind that flows through the first air passage flows out, and the opening. A second air passage that is connected and the part of the wind flows out from the opening, a wind deceleration unit that decelerates the part of the wind, and a wind deceleration unit provided in the second air passage and decelerating by the wind deceleration unit. It includes a heater for heating the part of the wind, and an introduction part for introducing a second wind formed by heating the part of the wind with the heater into the outer tank. The second air passage has a structure in which the second wind flows in a direction orthogonal to the opening direction of the opening, and the heater heats a part of the wind passing through the inside thereof. has a flat shape in a direction in which the portion of the wind to pass through, Ru disposed in said second air passage so as to close the opening.

According to the above configuration, the laundry can be satisfactorily dried by the introduction of the second wind while suppressing the generation of wrinkles of the laundry by the blowing of the first wind. Further, since the heater is arranged in the second air passage so as to close the opening, that is, the flat direction is the same as the opening direction of the opening, the flat direction is the second wind. In the direction in which the second air passage is orthogonal to the flow direction of the second wind, that is, in the width direction, as compared with the case where the heater is arranged in the second air passage so as to be parallel to the flow direction of the second air. It can be prevented from becoming large, and the second air passage can be made compact.

The washer / dryer according to the third aspect of the present invention includes an outer tub elastically supported in a housing, a washing / dehydrating tub rotatably arranged in the outer tub and accommodating laundry, and the washing / dehydrating tub. A drying device for drying the laundry in the washing / dehydrating tub and a pulsator rotatably arranged at the bottom of the washing / dehydrating tub are provided. Here, the drying device is used to wash the blower, the first air passage through which the first wind sent from the blower flows, and the first air flowing through the first air passage from above. A nozzle that blows out toward the bottom of the dehydration tank, an opening that is provided in the first air passage and a part of the first wind that flows through the first air passage flows out, and the opening. A second air passage that is connected and the part of the wind flows out from the opening, a wind deceleration unit that decelerates the part of the wind, and a wind deceleration unit provided in the second air passage and decelerating by the wind deceleration unit. It includes a heater for heating the part of the wind, and an introduction part for introducing a second wind formed by heating the part of the wind with the heater into the outer tank. The introduction section includes an introduction pipe that is passed through the inside of the nozzle and through which the second wind flows. The first wind flows around the introduction pipe in the nozzle, and the second wind flowing through the introduction pipe blows out together with the first wind into the washing / dehydrating tub.
According to the above configuration, the laundry can be satisfactorily dried by the introduction of the second wind while suppressing the generation of wrinkles of the laundry by the blowing of the first wind. Further, since the second wind can be carried to the lower part of the outer tank by the force of the first wind, the inside of the outer tank can be effectively warmed by the second wind.
In the washer / dryer according to the first, second or third aspect, the second air passage has a throttle portion downstream of the heater and a narrower flow path than the other portions. Can be configured.

According to the above configuration, since the second wind is likely to stay on the outlet side of the heater, the flow velocity of the wind introduced into the heater can be further reduced, and the wind passing through the heater is more favorable. It is heated.

According to the present invention, it is possible to provide a washer / dryer capable of reducing wrinkles generated in the laundry to be dried.

The effects or significance of the present invention will be further clarified by the description of the embodiments shown below. However, the following embodiments are merely examples when the present invention is put into practice, and the present invention is not limited to those described in the following embodiments.

FIG. 1 is a side sectional view of the fully automatic washer / dryer according to the embodiment. FIG. 2 is a perspective view of the pulsator according to the embodiment. FIG. 3 is a perspective view showing a state in which the drying device is installed above the outer tank cover according to the embodiment. FIG. 4 (a) is a perspective view of the drying apparatus according to the embodiment in a state where the top surface of the ventilation duct is omitted, and FIG. 4 (b) is a view of FIG. 4 (a) according to the embodiment. It is sectional drawing of the blower cut by the AA'line of. 5 (a) and 5 (b) are a perspective view and a side view of the nozzle according to the embodiment, respectively. FIG. 6 is a diagram for explaining the direction of the outlet of the nozzle when the washing / dehydrating tub is viewed from above according to the embodiment. 7 (a) and 7 (b) are diagrams schematically showing the movement of the laundry in the washing / dehydrating tub in the drying step according to the embodiment. FIG. 8 is a perspective view of the drying device according to the first modification, in which the top surface of the ventilation duct is omitted. FIG. 9A is a perspective view of the drying device according to the modified example 2, and FIG. 9B is a side view of the nozzle according to the modified example 2. FIG. 10 is a perspective sectional view of a main part of the drying apparatus cut at the BB'cross section of FIG. 9A according to the second modification.

Hereinafter, the fully automatic washer / dryer 1 which is an embodiment of the washer / dryer of the present invention will be described with reference to the drawings.

FIG. 1 is a side sectional view of the fully automatic washer / dryer 1 according to the present embodiment.

The fully automatic washer / dryer 1 includes a housing 10 that constitutes the appearance. The housing 10 includes a square tubular body portion 11 whose upper and lower surfaces are open, a top plate 12 that covers the upper surface of the body portion 11, and a pedestal 13 that supports the body portion 11. The top plate 12 is formed with a loading port 14 for loading laundry. The input port 14 is covered with an openable and closable upper lid 15.

Inside the housing 10, the outer tank 20 is elastically suspended and supported by four suspension rods 21 having a vibration isolator. The upper surface of the outer tank 20 is covered with the outer tank cover 22. The outer tank cover 22 is formed with an opening 22a having a size substantially the same as that of the charging port 14 at a position corresponding to the charging port 14. The opening 22a is covered with an inner lid 23 so as to be openable and closable.

In the outer tub 20, a substantially cylindrical washing / dehydrating tub 24 having an open upper surface is arranged. A large number of dehydration holes 24b are formed on the inner wall surface 24a of the washing / dehydrating tub 24 over the entire circumference. A balance ring 25 is provided on the upper part of the washing / dehydrating tub 24. A pulsator 26 is arranged at the bottom of the washing / dehydrating tub 24.

At the outer bottom of the outer tub 20, a drive unit 30 that generates torque for driving the washing / dehydrating tub 24 and the pulsator 26 is arranged. The drive unit 30 includes a drive motor 31 and a transmission mechanism unit 32. The transmission mechanism unit 32 has a clutch mechanism, and by the switching operation by the clutch mechanism, the torque of the drive motor 31 is transmitted only to the pulsator 26 in the washing step and the rinsing step to rotate only the pulsator 26, and in the dehydration step. , The torque of the drive motor 31 is transmitted to the pulsator 26 and the washing / dehydrating tub 24 to integrally rotate the pulsator 26 and the washing / dehydrating tub 24.

A drainage port 20a is formed on the outer bottom of the outer tank 20. A drain valve 40 is provided at the drain port portion 20a. The drain valve 40 is connected to the drain hose 41. When the drain valve 40 is opened, the water stored in the washing / dehydrating tub 24 and the outer tub 20 is discharged to the outside of the machine through the drain hose 41.

A housing portion 12a having an open upper surface is provided at the rear portion of the upper surface plate 12. The upper surface of the accommodating portion 12a is covered with the rear cover 16. In the accommodating portion 12a, a drying device 50 for drying the laundry in the washing / dehydrating tub 24 and a water supply device (not shown) for supplying water to the outer tub 20 are accommodated.

Next, the configuration of the pulsator 26 will be described in detail.

FIG. 2 is a perspective view of the pulsator 26 according to the present embodiment.

The pulsator 26 includes a substantially disk-shaped base 100, two blades 110 formed on the surface of the base 100 at a distance of 180 degrees, and two wall portions 120 formed on the outer peripheral edge of the base 100. including. The surface of the base 100 gently ascends and inclines toward the central portion 101.

Each blade portion 110 extends radially from the central portion 101 of the base 100 to the outer peripheral edge. On each blade portion 110, flat inclined surfaces 112 for pushing up the laundry upward are formed on both sides of the top portion 111 extending linearly and horizontally. The inclination angle α of the inclined surface 112 with respect to the surface perpendicular to the rotation axis direction X of the pulsator 26 is, for example, 45 degrees. If the inclination angle α is too small, when the pulsator 26 rotates during drying by the drying device 50, the laundry that has climbed the inclined surface 112 cannot be raised high. On the contrary, if the inclination angle α is too large, it becomes difficult for the laundry to climb the inclined surface 112 when the pulsator 26 rotates. Therefore, the inclination angle α is preferably set in the range of 30 degrees to 60 degrees.

A large number of water passage holes 130 are formed on the surfaces of the base 100 and the blade portion 110. The water passage hole 130 allows water to pass through the back side of the pulsator 26.

The wall portion 120 is formed in an arc shape along the outer peripheral edge of the base 100. When the laundry on the surface of the base 100 tries to move to the inner wall surface 24a side of the washing / dehydrating tub 24 by centrifugal force when the pulsator 26 is rotated, the wall portion 120 stops the laundry and the blade portion 110. To face the inclined surface 112 of. As a result, the laundry is satisfactorily flipped up by the inclined surface 112.

Next, the configuration of the drying device 50 will be described in detail.

FIG. 3 is a perspective view showing a state in which the drying device 50 is installed above the outer tank cover 22 according to the present embodiment. FIG. 4A is a perspective view of the drying device 50 in a state where the top surface of the ventilation duct 210 is omitted according to the present embodiment, and FIG. 4B is a view according to the present embodiment. 4 is a cross-sectional view of the blower 200 cut along the AA'line of 4 (a). 5A and 5B are perspective views and side views of the nozzle 260 according to the present embodiment, respectively. FIG. 6 is a diagram for explaining the direction of the outlet 261 of the nozzle 260 when the washing / dehydrating tub 24 is viewed from above according to the present embodiment.

The drying device 50 includes a blower 200, a ventilation duct 210, a heater 220, a first introduction duct 230, a second introduction duct 240, a lead-out duct 250, and a nozzle 260.

The blower 200 is a centrifugal fan of a high air volume and high static pressure type, and includes a fan casing 201, a fan 202, and a fan motor 203. The fan casing 201 is made of a resin material, a suction port 204 is formed on the bottom wall surface 201a, and a discharge port 205 is formed on the peripheral wall surface 201b. The fan 202 is arranged in the fan casing 201 so as to face the suction port 204. The fan motor 203 is arranged on the top wall surface 201c of the fan casing 201, and the motor shaft 203a faces the inside of the fan casing 201 and is connected to the fan 202.

When the fan 202 is rotationally driven by the fan motor 203, air is taken into the central portion of the fan 202 through the suction port 204, and the taken-in air is sent out to the outer periphery of the fan 202. As a result, wind is generated in the fan casing 201, and the generated wind is sent out from the discharge port 205. The maximum air volume of the blower 200 is, for example, ^{about 3 m 3} / min, and the maximum static pressure is, for example, about 11 kPa.

The ventilation duct 210 has a vertically flat square box shape, and is integrally formed with the fan casing 201 on the right side of the fan casing 201. The ventilation duct 210 is divided into a first air passage 211 and a second air passage 212 by a partition wall surface 213 extending to the left and right inside the ventilation duct 210. The first air passage 211 corresponds to the first air passage of the present invention, and the second air passage 212 corresponds to the second air passage of the present invention.

The first air passage 211 is long in the left-right direction, and the left end portion is connected to the discharge port 205 of the fan casing 201. At the right end of the first air passage 211, a first outlet 214 is formed on the bottom wall surface 211a. The wind sent out from the discharge port 205 flows in the first air passage 211 in the right direction, that is, toward the first outlet 214. Hereinafter, the wind flowing through the first air passage 211 will be referred to as a "first wind".

The blower 200 is a centrifugal fan, and the flow velocity of the wind sent from the discharge port 205 becomes faster toward the outside of the fan casing 201, that is, toward the rear side of FIG. 4A. Therefore, in the first air passage 211, the flow velocity of the first wind flowing on the rear wall surface 211b side is larger than the flow velocity of the first wind flowing on the partition wall surface 213 side which is the front wall surface facing the rear wall surface 211b. The rear wall surface 211b and the partition wall surface 213 are wall surfaces along the first wind flow direction. The rear wall surface 211b corresponds to the first wall surface of the present invention, and the partition wall surface 213 corresponds to the wall surface and the second wall surface of the present invention.

An opening 215 is formed in the partition wall surface 213 in the vicinity of the discharge port 205. The opening 215 allows the first air passage 211 and the second air passage 212 to communicate with each other. The guide plate 216 is provided so as to project into the first air passage 211 from the edge of the opening 215 opposite to the discharge port 205. The guide plate 216 is tilted toward the discharge port 205 from the direction perpendicular to the partition wall surface 213. On the discharge port 205 side of the guide plate 216, two straightening vanes 217 that are parallel to the guide plate 216 and have a smaller overhang amount than the guide plate 216 are provided so as to project from the opening 215. The guide plate 216 corresponds to the wind guide portion and the wind deceleration portion of the present invention.

A part of the first wind flowing through the first air passage 211 is dammed by the guide plate 216 and is guided by the guide plate 216 toward the opening 215, and the opening 215 to the second air passage 212 It flows in. At this time, a part of the wind toward the opening 215 is rectified by the rectifying plate 217 and smoothly flows to the opening 215. However, since some of the wind is temporarily dammed by the guide plate 216, its flow velocity decreases.

The second air passage 212 is long in the left-right direction and is adjacent to the front side of the first air passage 211. At the right end of the second air passage 212, a second outlet 218 is formed on the bottom wall surface 212a.

The heater 220 is, for example, a PTC heater, which heats the wind passing through the inside thereof. Further, the heater 220 has a rectangular parallelepiped shape that is flat in the direction in which the wind passes. The heater 220 is arranged in the second air passage 212 so as to close the opening 215, that is, the flat direction is the same as the opening direction of the opening 215.

A part of the wind flowing out into the second air passage 212 through the opening 215 passes through the heater 220 and is heated by the heater 220. Hereinafter, the wind heated by the heater 220 will be referred to as a "second wind". The second wind flows in the second air passage 212 toward the second outlet 218 in a direction orthogonal to the opening direction of the opening 215.

The first introduction duct 230 is a flexible duct, is made of an elastic material such as rubber, and has a bellows portion 231 in an intermediate portion. The upper end of the first introduction duct 230 is connected to the first outlet 214 of the first air passage 211. The second introduction duct 240 is a flexible duct, which is made of an elastic material such as rubber and has a bellows portion 241 in the intermediate portion. The upper end of the second introduction duct 240 is connected to the second outlet 218 of the second air passage 212. Further, the lead-out duct 250 is a flexible duct, is made of an elastic material such as rubber, and has a bellows portion 251 in an intermediate portion. The upper end of the lead-out duct 250 is connected to the suction port 204 of the fan casing 201.

As shown in FIG. 3, in the outer tank cover 22, the first introduction port 22b is formed on the right side behind the opening 22a, the second introduction port 22c is formed in front of the first introduction port 22b, and the left side is formed. The outlet 22d is formed in. The lower end of the first introduction duct 230 is connected to the first introduction port 22b. Further, the lower end of the second introduction duct 240 is connected to the second introduction port 22c. Further, the lower end of the lead-out duct 250 is connected to the lead-out port 22d. The second introduction port 22c corresponds to the introduction part of the present invention.

The nozzle 260 has a hollow shape having a circular cross section that gently curves toward the front of the nozzle 260, and the tip portion 260a thereof has a tapered shape in which the front side and the rear side of the nozzle 260 are inclined. At the tip of the nozzle 260, a rectangular slit-shaped outlet 261 extending in the left-right direction of the nozzle 260 is formed. In the present embodiment, the opening angle β formed by the opening direction D of the outlet 261 with respect to the axial direction L of the nozzle 260 is set in the range of, for example, 30 degrees to 60 degrees.

An annular flange portion 262 is provided at the upper end portion of the nozzle 260. The nozzle 260 is attached to the first introduction port 22b of the outer tank cover 22 from below using the flange portion 262. The nozzle 260 is connected to the lower end of the first introduction duct 230 via the first introduction port 22b.

In the state where the nozzle 260 is attached to the outer tank cover 22, the axial direction L of the nozzle 260 is parallel to the vertical direction. Therefore, the outlet 261 of the nozzle 260 has an opening angle β from the vertical direction and is oblique. Look down. If the opening angle β of the air outlet 261 is too small, that is, if the opening direction D of the air outlet 261 is too close to directly below, the force of the wind blown from the air outlet 261 becomes too strong in the downward direction of the laundry. It gets stuck. On the other hand, if the opening angle β of the outlet 261 becomes too large, that is, if the opening direction D of the outlet 261 is too close to the horizontal direction, the momentum of the warm air blown from the outlet 261 becomes too weak in the downward direction. , The wrinkle smoothing effect of the laundry, which will be described later, is reduced. Therefore, as described above, the opening angle β of the outlet 261 may be set in the range of 30 degrees to 60 degrees.

Further, as shown in FIG. 6, the nozzle 260 is arranged in the upper part of the washing / dehydrating tub 24 near the inner wall surface 24a of the washing / dehydrating tub 24 so as to avoid the balance ring 25. The direction of the nozzle 260 is set so that the outlet 261 opens in a direction that does not face the center P of the pulsator 26 when the washing / dehydrating tub 24 is viewed from above. That is, when the clockwise direction of FIG. 6 is the normal rotation direction A of the pulsator 26 and the counterclockwise direction of FIG. 6 is the reverse direction B of the pulsator 26, the outlet 261 is directed to the normal rotation direction A side. The outlet 261 may be directed to the reverse direction B side. Further, the destination of the outlet 261 is half from the center P of the pulsator 26, that is, a region on the outer peripheral side of the length of 1 / 2R shown in FIG. 6, as shown by the diagonal ellipse in FIG.

Next, the operation of the fully automatic washer / dryer 1 will be described.

In the fully automatic washer / dryer 1, the washing operation, the washing / drying operation, or the drying operation of various operation courses is performed. The washing operation is an operation in which only washing is performed, and a washing step, an intermediate dehydration step, a rinsing step, and a final dehydration step are executed in order. The washing / drying operation is an operation in which washing and drying are continuously performed, and a drying step is executed following the final dehydration step. The drying operation is an operation in which only drying is performed, and only the drying step is executed.

In the washing step and the rinsing step, the pulsator 26 rotates in the forward rotation direction A and the reverse rotation direction B with water accumulated in the washing / dehydrating tub 24. A stream of water is generated in the washing / dehydrating tub 24 due to the rotation of the pulsator 26. In the washing process, the laundry is washed by the generated water stream and the detergent contained in the water. In the rinsing process, the generated water stream rinses the laundry.

In the intermediate dehydration step and the final dehydration step, the washing / dehydrating tub 24 and the pulsator 26 are integrally rotated at high speed. The laundry is dehydrated by the action of the centrifugal force generated in the washing / dehydrating tub 24.

In the drying step, the blower 200 and the heater 220 operate in the drying device 50. High-speed wind is sent from the blower 200 to the ventilation duct 210 as the first wind. The first wind sent to the ventilation duct 210 mainly flows through the first air passage 211, flows out from the first outlet 214, and reaches the nozzle 260 through the first introduction duct 230 (FIG. 4 (a). ) See the solid arrow). Then, the first wind blows vigorously from the outlet 261 of the nozzle 260 toward the outer peripheral region of the pulsator 26 shown in FIG. 6 at the bottom of the washing / dehydrating tub 24. In the present embodiment, the flow velocity of the warm air immediately after being blown out from the outlet 261 of the nozzle 260, that is, the initial flow velocity is about 100 m / s. The initial flow velocity is preferably 50 m / s or more, preferably 80 m / s or more. As described above, the warm air blown from the outlet 261 has a significantly stronger force than the warm air having a flow velocity of about 20 m / s blown into the washing / dehydrating tank 24 in the conventional drying step.

On the other hand, of the first wind sent to the ventilation duct 210, a part of the wind passing through the partition wall surface 213 side is dammed by the guide plate 216 and heads toward the opening 215 while reducing its flow velocity, and the opening 215 Flows out into the second air passage 212. A part of the wind flowing out from the opening 215 is heated by the heater 220, becomes a second wind having a high temperature, for example, about 80 ° C., flows through the second air passage 212, and flows out from the second outlet 218. .. The second wind flowing out from the second air passage 212 passes through the second introduction duct 240 and is introduced into the outer tub 20, that is, into the washing / dehydrating tub 24 from the second introduction port 22c (FIG. 4A). See dashed arrow).

In the washing / dehydrating tub 24, the pulsator 26 repeats the rotation in the forward rotation direction A and the rotation in the reverse rotation direction B.

7 (a) and 7 (b) are diagrams schematically showing the movement of the laundry in the washing / dehydrating tub 24 in the drying step according to the present embodiment. In FIGS. 7A and 7B, only the pulsator 26, the nozzle 260, and the laundry are drawn.

When the pulsator 26 rotates, as shown in FIG. 7A, the laundry is pushed by the blade portion 110 of the pulsator 26 and slides up the inclined surface 112 of the blade portion 110 in the traveling direction of the blade portion 110. It is flipped up. When the pulsator 26 rotates in the forward rotation direction A, the first wind from the nozzle 260 is strongly blown onto the laundry from the direction opposite to the direction in which the flipped laundry travels. As shown in FIG. 7B, since the acceleration force in the traveling direction and the blowing force of warm air act on the laundry in opposite directions, these forces spread the laundry in the horizontal direction, and the laundry is spread. The wrinkles are smoothed out. Here, during stirring by the pulsator 26, the laundry tends to collect on the outer peripheral side of the pulsator 26 due to centrifugal force, but since the destination of the outlet 261 of the nozzle 260 is the region on the outer peripheral side of the pulsator 26, the laundry is on the outer peripheral side. Warm air easily hits the laundry that has been flipped up.

Further, the high temperature second wind introduced from the second introduction port 22c warms the inside of the outer tub 20, that is, the inside of the washing / dehydrating tub 24, whereby the laundry is dried.

The air in the outer tank 20 is taken out from the outlet 22d, passes through the outlet duct 250, and is taken into the blower 200, that is, the fan casing 201.

<Effect of embodiment>
As described above, according to the present embodiment, the first wind is strongly blown from the nozzle 260 to the laundry that has been bounced upward by the action of the inclined surface 112 of the pulsator 26. Therefore, the washing / dehydrating tub 24 The laundry spreads easily inside, and wrinkles are less likely to occur on the laundry when it dries.

Further, according to the present embodiment, a part of the first wind flowing through the first air passage 211 is decelerated by the guide plate 216 and flows out from the opening 215 to the second air passage 212, and the flow velocity. A part of the reduced wind is passed through the heater 220. As a result, a part of the wind passing through the heater 220 is satisfactorily heated, and as a result, a hot second wind can be generated in the second air passage 212. Then, by introducing the high temperature second wind, the inside of the outer tub 20, that is, the inside of the washing / dehydrating tub 24 can be satisfactorily warmed. Therefore, it is possible to satisfactorily dry the laundry by introducing the second wind while suppressing the occurrence of wrinkles in the laundry by blowing the first wind. Further, it is not necessary to use a new blower to generate the second wind, only the blower 200 is required, and the cost increase can be suppressed.

In the case where the first wind flowing through the first air passage 211 at high speed is heated by the heater 220, the first wind cannot be heated satisfactorily because the heater 220 passes through quickly, and the first wind cannot be heated well. Is hard to get hot. Therefore, it is not possible to satisfactorily heat the inside of the outer tub 20, that is, the inside of the washing / dehydrating tub 24. Therefore, although wrinkles on the laundry are less likely to occur, the drying performance tends to deteriorate.

Further, according to the present embodiment, since the opening 215 is provided in the partition wall surface 213 located on the side where the flow velocity of the first wind passing through the first air passage 211 is slow, the opening 215 is provided in the rear wall surface 211b. A part of the slower wind can be guided to the heater 220 of the second air passage 212, and the part of the wind can be heated more satisfactorily by the heater 220.

Further, according to the present embodiment, the second air passage 212 is configured such that the second wind flows in the direction orthogonal to the opening direction of the opening 215, so that the heater 220 closes the opening 215. That is, since the flat direction is arranged in the second air passage 212 so as to be the same as the opening direction of the opening 215, the heater is arranged so that the flat direction is parallel to the flow direction of the second wind. Compared with the case where the 220 is arranged in the second air passage 212, the second air passage 212 can be prevented from becoming larger in the direction orthogonal to the second wind flow direction, that is, in the width direction. The two air passages 212 and the ventilation duct 210 can be made compact.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above embodiments and the like, and the embodiments of the present invention can be changed in various ways other than the above. is there.

<Change example 1>
FIG. 8 is a perspective view of the drying device 50 in a state where the top surface of the ventilation duct 210 is omitted according to the first modification.

In this modified example, in the second air passage 212, a throttle portion 219 having a narrower flow path than other portions is provided downstream of the heater 220. The throttle portion 219 is configured such that the first protrusion 219a and the second protrusion 219b of the chevron shape face each other at a predetermined interval so as to form a flow path narrower than the other portions. In this way, when the throttle portion 219 is provided, the second wind tends to stay on the outlet side of the heater 220, so that the flow velocity of the wind introduced into the heater 220 can be further reduced. The wind passing through 220 is heated even better.

<Change example 2>
FIG. 9A is a perspective view of the drying device 50 according to the modified example 2, and FIG. 9B is a side view of the nozzle 270 according to the modified example 2. FIG. 10 is a perspective sectional view of a main part of the drying apparatus 50 cut at the BB'cross section of FIG. 9A according to the second modification.

In the drying device 50 of this modified example, a nozzle 270 is provided instead of the nozzle 260 of the above embodiment. Further, unlike the above embodiment, the second air passage 212 is not provided with the second outlet 218, and the second introduction duct 240 connected to the second outlet 218 is not provided. Instead, in the second air passage 212, a third outlet 281 is formed on the partition wall surface 213, and the outflow pipe 282 extends from the third outlet 281 to the central portion of the first outlet 214. At the end of the outflow pipe 282 on the first outlet 214 side, connecting ribs 283 provided on both sides thereof are connected to the opening edge of the first outlet 214. As a result, the outflow pipe 282 is fixed in the first air passage 211.

The upper part 270a of the nozzle 270 has a cylindrical shape, and the lower part 270b has a tapered shape and extends in the downward oblique direction. A circular outlet 271 is formed at the tip of the lower portion 270b of the nozzle 270. The opening angle β formed by the opening direction D of the outlet 271 with respect to the axial direction L of the nozzle 270 is preferably set in the range of 30 degrees to 60 degrees, as in the nozzle 260 of the above embodiment (FIG. 9 (FIG. 9). b) See).

An annular flange portion 272 is formed at the upper end of the nozzle 270, and a plurality of insertion holes 273 are formed in the flange portion 272. The nozzle 270 is attached to the first introduction port 22b of the outer tank cover 22 from below. At this time, a screw (not shown) through which the insertion hole 273 of the flange portion 272 is passed is stopped around the first introduction port 22b. The nozzle 270 is connected to the lower end of the first introduction duct 230 via the first introduction port 22b.

Inside the nozzle 270, an introduction pipe 274 is provided integrally with the nozzle 270. The introduction pipe 274 has a shape that bends in response to the bending of the nozzle 270, and the introduction port 275 opens toward the outlet 271. In the introduction pipe 274, a portion near the introduction port 275 is fixed to the inner wall surface of the nozzle 270 by connecting ribs 276 provided on both sides thereof. The introduction pipe 274 is connected to the outflow pipe 282 via a third introduction duct 290 inserted inside the first introduction duct 230. The third introduction duct 290 is a flexible duct, is made of an elastic material such as rubber, and has a bellows portion 291 in an intermediate portion. The introduction pipe 274 corresponds to the introduction part of the present invention.

In the drying device 50 of this modified example, the high-temperature second wind generated in the second air passage 212 flows out from the third outlet 281 and the second wind that flows out flows out to the outflow pipe 282 and the third introduction duct 290. And discharged from the inlet 275 through the inlet tube 274 (see dashed arrow in FIG. 10). On the other hand, the first wind that has flowed through the first air passage 211 flows out from the first outlet 214, flows around the third introduction duct 290 in the first introduction duct 230, and reaches the nozzle 270. .. The first wind that has flowed into the nozzle 270 flows around the introduction pipe 274 and is blown out from the outlet 271 together with the second wind discharged from the introduction port 275 (see the solid arrow in FIG. 10).

As a result, the second wind is carried to the lower part of the washing / dehydrating tub 24 by the force of the first wind. Therefore, in the configuration of this modified example, the inside of the outer tub 20, that is, the inside of the washing / dehydrating tub 24 can be effectively warmed by the second wind.

<Other changes>
In the above embodiment, the nozzle 260 of the drying device 50 is arranged on the rear side of the opening 22a of the outer tub cover 22, that is, on the rear side of the upper part of the washing / dehydrating tub 24. However, the position of the nozzle 260 is not limited to this, and may be changed as appropriate. For example, the nozzle 260 may be arranged in front of the opening 22a of the outer tank cover 22.

In addition to the nozzles 260 and 270 and the pulsator 26, nozzles and pulsators of various shapes may be used.

Further, the blower 200 may be a fan other than the centrifugal fan, and the heater 220 may be a heater other than the PTC heater.

Further, in the above embodiment, the guide plate 216 is used to allow a part of the first wind to flow out to the second air passage 212 after reducing its flow velocity. However, the wind deceleration portion that decelerates a part of the first wind may have a configuration other than the guide plate 216, and the wind may be formed in the second air passage 212 before being heated by the heater 220. You may try to reduce the flow velocity of. In this case, for example, the heater 220 may be arranged at a slight distance from the opening 215, and a resistance plate acting as a wind resistance may be arranged on the upstream side of the heater 220.

Further, in the above embodiment, the second introduction port 22c is provided on the upper part of the outer tank 20, that is, on the outer tank cover 22. However, a configuration may be adopted in which the second introduction port 22c is provided in the lower part of the side wall of the outer tank 20 and the second introduction duct 240 is extended to that position. In this case, a high-temperature second wind can be introduced from the lower position in the outer tank 20.

In addition, various modifications of the embodiment of the present invention can be made as appropriate within the scope of the technical idea shown in the claims.

1 Fully automatic washer / dryer
20 outer tank
22c 2nd introduction port (introduction part)
24 Washing / dehydrating tub
26 Parseta
50 Drying device
200 Blower 201b Rear wall surface (first wall surface)
211 First air passage (first air passage)
212 2nd wind path (2nd wind path)
213 Partition wall surface (wall surface, second wall surface)
215 opening
216 Guide plate (wind guide, wind deceleration)
219 Aperture section
220 heater
260 nozzle
270 nozzle
274 Introduction pipe (introduction part)

Claims (4)

An outer tank elastically supported inside the housing,
A washing / dehydrating tub that is rotatably arranged in the outer tub and accommodates laundry,
A drying device for drying the laundry in the washing / dehydrating tub,
A pulsator, which is rotatably arranged at the bottom of the washing / dehydrating tub, is provided.
The drying device is
Blower and
The first air passage through which the first wind sent from the blower flows, and
A nozzle that blows out the first wind that has flowed through the first air passage from above toward the bottom of the washing / dehydrating tub.
An opening provided in the first air passage and through which a part of the first wind flowing through the first air passage flows out.
A second air passage that connects to the opening and allows a part of the wind to flow out from the opening.
A wind deceleration unit that decelerates a part of the wind,
A heater provided in the second air passage and heating the part of the wind decelerated by the wind deceleration unit, and a heater.
Look including a introduction portion for introducing the second wind the part of the wind formed by heating with the heater in the outer tub,
The wind deceleration unit includes a wind guide unit provided in the first air passage and directing the part of the wind flowing through the first air passage toward the opening.
The blower is a centrifugal fan and
The first wind sent from the centrifugal fan and flowing through the first air passage has a different flow velocity in a direction perpendicular to the flow of the first wind.
The first air passage is a first wall surface that follows the flow of the first wind and is located on the side where the flow velocity is high, and a second wall surface that faces the first wall surface and is located on the side where the flow velocity is slow. Including the wall surface
The opening is formed in the second wall surface.
A washer / dryer that features that. An outer tank elastically supported inside the housing,
A washing / dehydrating tub that is rotatably arranged in the outer tub and accommodates laundry,
A drying device for drying the laundry in the washing / dehydrating tub,
A pulsator, which is rotatably arranged at the bottom of the washing / dehydrating tub, is provided.
The drying device is
Blower and
The first air passage through which the first wind sent from the blower flows, and
A nozzle that blows out the first wind that has flowed through the first air passage from above toward the bottom of the washing / dehydrating tub.
An opening provided in the first air passage and through which a part of the first wind flowing through the first air passage flows out.
A second air passage that connects to the opening and allows a part of the wind to flow out from the opening.
A wind deceleration unit that decelerates a part of the wind,
A heater provided in the second air passage and heating the part of the wind decelerated by the wind deceleration unit, and a heater.
Including an introduction portion for introducing a second wind formed by heating a part of the wind with the heater into the outer tank.
The second air passage has a configuration in which the second wind flows in a direction orthogonal to the opening direction of the opening .
The heater heats the part of the wind passing through the inside thereof and has a flat shape in the direction in which the part of the wind passes, and enters the second air passage so as to close the opening. Be placed,
A washer / dryer that features that. An outer tank elastically supported inside the housing,
A washing / dehydrating tub that is rotatably arranged in the outer tub and accommodates laundry,
A drying device for drying the laundry in the washing / dehydrating tub,
A pulsator, which is rotatably arranged at the bottom of the washing / dehydrating tub, is provided.
The drying device is
Blower and
The first air passage through which the first wind sent from the blower flows, and
A nozzle that blows out the first wind that has flowed through the first air passage from above toward the bottom of the washing / dehydrating tub.
An opening provided in the first air passage and through which a part of the first wind flowing through the first air passage flows out.
A second air passage that connects to the opening and allows a part of the wind to flow out from the opening.
A wind deceleration unit that decelerates a part of the wind,
A heater provided in the second air passage and heating the part of the wind decelerated by the wind deceleration unit, and a heater.
Including an introduction portion for introducing a second wind formed by heating a part of the wind with the heater into the outer tank.
The introduction portion includes an introduction pipe that is passed through the inside of the nozzle and through which the second wind flows.
The first wind flows around the introduction pipe in the nozzle and
The second wind flowing through the introduction pipe blows out together with the first wind into the washing / dehydrating tub.
A washer / dryer that features that. In the washer / dryer according to any one of claims 1 to 3,
The second air passage has a throttle portion downstream of the heater and a narrower flow path than the other portions.
A washer / dryer that features that.

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