JP6111412B2 - Drum washing machine - Google Patents

Description

  The present invention relates to a drum type washing machine for washing clothes and the like.

  Conventionally, this type of drum type washing machine performs washing by washing a laundry such as clothes in a rotating tub, executing a series of steps of rinsing and dewatering.

  In the dehydration step of centrifugally dewatering the moisture contained in the clothing by high-speed rotation of the rotating tub, the dehydrated water droplets scatter from the clothing and adhere to the inner wall surface of the water tub. The adhering water droplets are moved on the inner wall surface of the water tank by the air flow generated in the water tank by the rotation of the rotating tank, and discharged from the drainage port provided at the bottom of the water tank to the outside through the drainage route. (For example, refer to Patent Document 1).

  FIG. 9 shows a conventional drum-type washing machine described in Patent Document 1. In FIG. In FIG. 9, a water tank 52 is elastically supported in a casing 51, and a cylindrical rotating tank 53 is rotatably provided in the water tank 52. The rotating tank 53 is rotationally driven by a motor 54 attached to the outside of the rear surface of the water tank 52. A large number of holes 55 are provided in the peripheral side surface of the rotating tub 53 to communicate with the water tank 52.

  A concave drainage 56 is provided at the bottom of the water tank 52, and a drainage port 57 is provided at the bottom of the drainage 56. The water droplets centrifugally dehydrated from the clothing due to the high-speed rotation of the rotating tank 53 in the dehydrating process collide with the inner wall surface of the water tank 52 through the hole 55 of the rotating tank 53, and the inner wall surface of the water tank 52 due to the fan effect by the rotation of the rotating tank 53. , Collected in the drainage section 56, and discharged out of the water tank 52 from a drainage port 57 provided in the lowermost part.

JP 2005-65920 A

  However, in the conventional configuration, when the rotating tank 53 is rotated at a high speed (for example, 1200 rotations) in the dehydration process, an air flow in the rotation direction of the rotating tank 53 is generated by the hole 55 of the rotating tank 53. Since the rotating tank support 58 also has a fan effect, an air flow from the rear to the front of the water tank 52 is generated. Therefore, since the water droplets dehydrated from the clothing and collected in the drainage unit 56 move forward through the drainage unit 56 due to the influence of the airflow, the waterdrop does not fall into the drainage hole 57 provided behind the drainage unit 56. There was a problem that drainage was difficult. Furthermore, water droplets are scattered again from the drainage part 56 to the inner wall surface of the water tank 52 due to the influence of the air current, and return to the inside of the rotating tank 53 from the front opening 59 due to the influence of the air current to wet the clothes inside. There was a problem that it took.

  The present invention solves the above-described conventional problems, and an object of the present invention is to provide a drum type washing machine that smoothly drains water outside the water tank during the dehydration operation and has improved dewatering performance.

In order to solve the above-described conventional problems, a drum-type washing machine of the present invention includes a water tank having an opening on the front side, a rotating tank rotatably disposed in the water tank, and a motor that rotationally drives the rotating tank. A concave drainage provided at the bottom of the water tank, a first drainage port provided at the lowest part of the drainage, drainage means for draining the wash water in the water tank, and the first drainage comprising a drainage path for discharging the washing water in the water tank to the outside of the housing through the mouth and the drainage means, and a lid which covers most of the upper opening of the drainage portion from above, the drainage unit, the A second drainage port is provided between the end of the drainage part and the end of the lid part, and in the dehydration step, the water that has reached the drainage part is moved by the airflow flowing in the direction of dehydration rotation of the rotary tank. The drainage channel formed below the lid by gravity from the second drainage port A drum-type washing machine configured to fall and be discharged from the first drainage port through the drainage path, and the second drainage port includes an end on the front side of the drainage unit; L-shaped between the front end portion of the lid portion and between the end portion on the advancing side in the dewatering rotation direction of the rotating tank and the end portion on the advancing side in the dewatering rotation direction of the lid portion. Is formed .

  As a result, it is possible to accelerate the drainage of water accumulated in the drainage section by the air flow generated in the water tank by the rotation of the rotating tank during the dehydration process, and prevent the water droplets from returning to the rotating tank and improve the dewatering performance. Can be made.

  The drum type washing machine of the present invention can promote drainage of water accumulated in the drainage section during the dehydration process, and can improve dewatering performance.

Sectional drawing of the principal part of the drum type washing machine in Embodiment 1 of this invention AA sectional view of the drum type washing machine in FIG. Partial cutaway perspective view of the drainage section of the drum type washing machine Schematic diagram of airflow near the water tank of the drum type washing machine Schematic diagram of airflow near the water tank of the drum type washing machine Schematic diagram of airflow near the water tank of the drum type washing machine AA sectional view of a drum type washing machine in Embodiment 2 of the present invention. Sectional drawing of the principal part of the drum-type washing machine in Embodiment 3 of this invention. Sectional view of the main part of a conventional drum-type washing machine

The drum type washing machine of the present invention includes a water tank having an opening on the front side, a rotating tank rotatably disposed in the water tank, a motor for rotating the rotating tank, and a recess provided in a lower part of the water tank. A drainage part having a shape, a first drainage port provided at the lowest part of the drainage part, drainage means for draining washing water in the water tank, and the water tank via the first drainage port and the drainage means A drainage path for draining the washing water inside the casing and a lid part that covers most of the upper open part of the drainage part from above, the drainage part comprising an end part of the drainage part and the lid part A second drainage port is provided between the end portion, and in the dehydration step, the water that has reached the drainage unit is moved by an airflow flowing in the direction of dehydration rotation of the rotary tub, and is separated from the second drainage port by gravity. Falls into the drainage channel formed below the lid, and from the first drainage port, the A drum-type washing machine configured to be discharged out of the machine through a water path, wherein the second drain port includes a front end portion of the drainage portion and a front end portion of the lid portion. And an L-shaped portion between the end of the rotating tub in the direction of dewatering rotation and the end of the lid in the direction of dewatering rotation .

  This makes it possible to promote the drainage of water accumulated in the drainage section of the aquarium by utilizing the forward airflow generated in the aquarium during the dehydration process, and the water accumulated in the drainage section of the aquarium is generated by the high-speed rotation of the rotating tank It is possible to suppress the trapping in the air flow and return to the inside of the rotating tank, and improve the dehydration performance.

The said structure WHEREIN: You may provide a said 2nd drain outlet further between the edge part of the back side of the said waste_water | drain part, and the edge part of the back side of the said cover part .

  Thereby, in the dehydration process of rotating the rotating tub 4 at a high speed, in the intermediate dehydration process at a lower speed than the main dehydration process, the forward airflow generated in the water tank is weak, and water accumulated in the rear part of the drainage part is provided below the lid part. The waste water can be drained quickly from the first drainage port.

  In the above configuration, an exhaust port provided in the water tank, a blower port that introduces drying air into the rotary tank, a circulation air passage that connects the exhaust port and the blower port, and a blower to the circulation air passage A blowing means, a heating means for heating the drying air sent to the water tank, and a control means for controlling the washing and drying operation, and may have a drying function.

  Thus, water drops that reach the drainage part during the dehydration process and move forward by the airflow can be drained from the second drainage port, and the waterdrops are prevented from returning to the inside of the rotating tank, thereby improving the dewatering performance. In addition, it is possible to efficiently dry the washed clothes and the like in the same rotating tub, thereby shortening the operation time and power consumption. Also, by smoothly discharging water droplets outside the machine during the dehydration operation, the ingress of water droplets into the circulation air passage due to the air current is suppressed, and the air volume flowing through the drying filter device and the circulation air passage is ensured, and the drying performance Can be maintained well.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
1 is a cross-sectional view of a main part of a drum type washing machine according to a first embodiment of the present invention, FIG. 2 is a cross-sectional view taken along line AA of FIG. 1, and FIG. 3 is a drainage part of the drum type washing machine. FIG.

  1 to 3, the water tank 1 is elastically supported by a plurality of suspension mechanisms 3 inside a housing 2 of a drum type washing machine. The rotating tub 4 has a loading port 6 for taking in and out the laundry 5 on the front side, is configured in a substantially bottomed cylindrical shape, and is disposed in the water tub 1. The rotating tub 4 is rotatably provided on the rotating shaft 4a and accommodates laundry 5 such as clothes.

  The peripheral wall 7 of the rotating tub 4 is provided with a large number of holes 8 over the entire circumference, and the stirring baffle for lifting the laundry 5 in the rotating direction of the rotating tub 4 is provided inside the peripheral side wall 7 of the rotating tub 4. 9 is provided. The water tank 1, the rotating tank 4, and the rotating shaft 4 a are provided to be tilted forward and upward at an angle θ (for example, 10 to 20 °) with respect to the horizontal.

  A rotating shaft support portion 4b is provided on the back surface of the rotating tub 4 in order to increase the strength with the rotating shaft 4a, and a plurality of ribs are formed radially around the rotating shaft 4a. A motor 10 that rotationally drives the rotating tub 4 is provided outside the rear surface side of the water tub 1 so as to rotate the rotating tub 4 forward and backward. The motor 10 is constituted by a brushless DC motor or the like, and the rotation speed can be freely changed by inverter control.

A door body 11 that opens and closes the insertion port 6 is provided on the front surface of the housing 2. The opening 1 a of the water tank 1 facing the inlet 6 is airtightly connected to the housing 2 by a flexible packing 12 that can be expanded and contracted. The door body 11 is provided with a transparent window so that the inside of the rotating tub 4 can be seen from the outside.

  When the door body 11 is closed, the packing 12 provided in the opening 1a of the water tank 1 is in close contact with the inner surface of the door body 11, and the water tank 1 becomes a water-tight and air-tight space, and each step of washing, rinsing and dehydration is performed. When running, water and air are not leaked to the outside.

  A water supply valve (water supply means) 13 is attached in the housing 2, and a water supply path 14 communicating with the water tank 1 is connected to the water supply valve 13 through a detergent case (not shown). By opening and closing the water supply valve 13, it is possible to supply and stop tap water into the water tank 1.

  The bottom of the aquarium 1 is provided with a concave drainage portion 15 that is recessed downward so that bubbles generated during washing are not hindered in the intermediate dehydration step performed after draining the washing water used in the washing step. A first drain port 16 is provided at the rearmost portion of the portion 15 which is substantially the lowest portion. The drainage part 15 is formed long in the direction in which the rotating shaft 4a extends from the rear part of the water tank 1 to the front.

  The bottom surface of the drainage unit 15 is provided to be inclined forward and upward at an angle θ (for example, 10 to 20 °) with respect to the horizontal similarly to the rotating shaft 4 a and is substantially parallel to the peripheral side surface of the water tank 1. Further, an inclined portion 15 a that is inclined forward and upward toward the peripheral side surface of the water tank 1 is provided at the front end portion of the drainage portion 15. The angle of the inclined portion 15a is steeper than the angle θ with respect to the horizontal by the depth of the concave shape in which the drainage portion 15 is recessed downward.

  A drainage path 17 is connected to the first drainage port 16, and a drainage valve (drainage means) 18 is provided. By opening and closing the drain valve 18, the washing water in the water tank 1 can be drained and stopped.

  The drainage part 15 is provided with a cover part 19 so as to cover most of the concave upper open part recessed downward from above, and a drainage channel 20 is formed below the cover part 19. A second drain port 21 is provided between the front end 19 a of the lid 19 and the front end 15 b of the drain 15.

  The second drainage port 21 is disposed substantially in the vicinity of the front end portion of the drainage portion 15, is located at the rear end portion of the drainage portion 15, and proceeds in the dewatering rotation direction (arrow B) of the rotary tank 4. It is provided in front of the first drain port 16 provided close to the end 15c on the side.

  The drainage portion 15 has a second drainage port 21 between the end portion 15c on the advancing side in the dewatering rotation direction (arrow B) of the rotating tub 4 and the end portion 19b on the advancing side in the dewatering rotation direction of the lid portion 19. Provided. That is, the second drainage port 21 is formed in a substantially L shape along the front end portion 15 b of the drainage portion 15 and the end portion 15 c on the dewatering rotation direction side of the rotating tub 4. Is connected to the drainage channel 17 through the first drainage port 16 at the rear thereof.

  The control means 22 is disposed at the lower front part in the housing 2 and controls the motor 10, the water supply valve 13, the drain valve 18 and the like, and sequentially controls each step of washing, rinsing and dehydration.

  About the drum type washing machine comprised as mentioned above, the operation | movement and an effect | action are demonstrated below. By inputting the selection of the driving course and the time of each process from the operation display unit 23 provided at the upper front of the housing 2, the control means 22 performs a series of processes from washing to rinsing and dehydration based on the set contents. It can be executed as an operation.

When washing is performed, the door body 11 is opened, the laundry 5 is put into the rotating tub 4, and an operation course or the like is input from the operation display unit 23 to start the operation. Water and detergent are supplied inside, and the rotating tub 4 is rotationally driven by the motor 10 to start the washing process.

  When the rotating tub 4 rotates at a predetermined speed (for example, about 50 rpm), the laundry 5 is lifted in the rotating direction by the stirring baffles 9 provided at a plurality of locations on the inner peripheral surface, and from above in the rotating tub 4. Washing is performed by repeating tapping by dropping for a predetermined time.

  After the washing process, the rinsing process and the dehydrating process are executed to complete the washing. In the rinsing process, first, the drain valve 18 is opened to drain the washing water used in the previous process, and the rotating tub 4 is rotated at a high speed (for example, 900 rpm), so that dirt, detergent, etc. contained in the laundry 5 An intermediate dehydration process for dehydrating the water together with water, a water supply process for opening the water supply valve 13 and supplying water to the water tank 1, and rotating the rotating tank 4 at a predetermined speed (for example, about 50 rpm) to stir the laundry 5 The rinsing process is performed sequentially.

  After performing the rinsing process a predetermined number of times, the draining process of draining the washing water of the previous process by opening the drain valve 18, rotating the rotating tub 4 at a high speed (for example, 900 to 1700 rpm), and the moisture and detergent contained in the laundry 5 This dehydration step is performed to dehydrate the portion.

  Here, FIG. 4 to FIG. 6 schematically show the air flow generated in the water tank 1 during the high-speed rotation of the rotating tank 4 in the dehydration process.

  In the intermediate dehydration process and the main dehydration process in which the rotating tub 4 rotates at a high speed, the rotating shaft support portion 4b provided on the back surface of the rotating tub 4 and provided with radial ribs supporting the rotating shaft 4a has a fan effect. As shown in FIG. 4, it flows between the outside of the peripheral side wall 7 of the rotating tub 4 and the water tank 1 from the rear to the front, enters the rotating tank 4 from the inlet 6 on the front side, and enters the inside of the rotating tank 4. The airflow C flowing from the front to the rear is generated.

  Further, due to the viscosity of the outside of the peripheral side wall 7 of the rotary tank 4 and the air, and the fan effect in which the hole 8 provided in the peripheral side wall 7 becomes a resistor, as shown in FIG. B) Airflow occurs in the direction. Therefore, in the water tank 1, during the intermediate dehydration process and the main dehydration process, as shown in FIG. Occur.

  In general, the distance between the inner wall surface of the water tank 1 and the outer surface of the peripheral side wall 7 of the rotating tank 4 is about 10 to 15 mm, and since the distance from the air flow source is close, the flow in the vicinity of the inner wall surface of the water tank 1 The airflow is dominant.

  When the drain part 15 is not provided with the lid part 19, the water scattered by the centrifugal force from the hole 8 of the rotating tank 4 during the dehydration process receives the centrifugal force and the inertial force of the rotating tank 4 at a high speed, It scatters in an oblique direction and adheres to the inner wall surface of the water tank 1. The water droplets adhering to the inner wall surface of the water tank 1 move forward and clockwise on the inner wall surface of the water tank 1 by the airflow ho and reach the drainage part 15.

  Most of the water droplets collected in the drainage part 15 move forward through the drainage part 15 due to the influence of the airflow, even though the bottom part of the drainage part 15 is tilted forward. It becomes difficult to drain from 16.

  Then, the water accumulated near the front end of the drainage unit 15 returns to the inner wall surface of the water tank 1 over the inclined part 15a due to the influence of the airflow ho. By repeating this, the water droplets circulating around the front of the water tank 1 are affected by the air current C, and a part of the water drops enter the rotary tank 4 again from the inlet 6 and adhere to the clothing.

  In the present invention, the drainage portion 15 is provided with the second drainage port 21 in front of the first drainage port 16, and the second drainage port 21 is provided in the vicinity of the front end of the drainage portion 15. By utilizing the forward airflow generated in the water tank 1 during the process, the water accumulated in the drainage part 15 of the water tank 1 can be drained from the second drain port 21.

  Further, the drainage portion 15 is provided with a lid portion 19 that forms a drainage channel 20 below, and a second drainage port 21 between the front end portion 15 b of the drainage portion 15 and the front end portion 19 a of the lid portion 19. Therefore, the drainage channel 20 for draining from the second drainage port 21 can be formed integrally with the water tank, and no new drainage hose or the like is required. Can be prevented.

  Moreover, since the drainage part 15 is provided with the cover part 19 which forms the drainage channel 20 in the downward direction, the space which does not receive the influence of airflow ho between the cover part 19 and the bottom face of the water tank 1 is made during a dehydration process. . Water droplets scattered by the centrifugal force from the hole 8 of the rotating tank 4 during the dehydration process adhere to the inner wall surface of the water tank 1, circulate in the water tank 1 due to the influence of the airflow ho, and reach the drainage part 15.

  The water that has reached the drainage section 15 flows from the second drainage port 21 provided between the front end 15b of the drainage section 15 and the front end 19a of the lid 19 to the lower side of the lid 19 by gravity. It falls into the drainage channel 20 which is the formed space, and is discharged from the first drainage port 16 through the drainage channel 17 to the outside of the machine.

  Further, the water that has reached the drainage part 15 is moved to the end part 15c on the dehydration rotation direction side of the drainage part 15 by the airflow flowing in the dehydration rotation direction of the rotary tank 4, and the end part 19b on the rotation direction side of the lid part 19 is reached. From the second drainage port 21 provided between the first drainage port 16 and the drainage channel 20, which is a space formed below the lid portion 19 due to gravity, and discharged from the first drainage port 16 through the drainage channel 17 to the outside of the machine. Is done.

  As a result, water droplets affected by the airflow ho can be drained from the second drain port 21 without accumulating in front of the drainage section 15, so that the water droplets circulating around the water tank 1 during the dehydration process are rotated. 4 can be prevented from returning to 4 and the dewatering performance can be improved.

  As described above, in the present embodiment, the water tank 1 provided in the housing 2, the rotary tank 4 rotatably disposed in the water tank 1, the motor 10 that rotationally drives the rotary tank 4, and the water tank 1, a concave drainage 15 provided at the bottom of the first drain, a first drainage 16 provided at the lowest part of the drainage 15, a drainage means 18 for draining the wash water in the water tank 1, and a first drainage 16 and a drainage passage 17 for discharging the washing water in the water tank 1 to the outside of the housing 2 via the drainage means 18, and the drainage unit 15 has a second drainage port 21 in front of the first drainage port 16. The drainage of the water collected in the drainage part 15 of the water tank 1 can be promoted by utilizing the forward airflow generated in the water tank 1 during the dehydration process, and the water droplets return to the rotary tank 4. Can be prevented and the dehydration performance can be improved.

(Embodiment 2)
FIG. 7 is a cross-sectional view taken along line AA of the drum type washing machine according to the second embodiment of the present invention. A feature of the present embodiment is that a second drain port 21 is provided on the rear end 19 c side of the lid portion 19. Other configurations are the same as those of the first embodiment, the same reference numerals are given to the same configurations, and the detailed description of the first embodiment is used.

A second drain port 21 is provided between the rear end 19 c of the lid portion 19 provided in the drainage portion 15 and the rear end of the drainage portion 15. Further, the second drainage port 21 is located between the front end 15b of the drainage part 15 and the front end 19a of the lid part 19 and the end part of the drainage part 15 on the dehydration rotation direction side of the rotating tub 4. It is formed in a slit shape between 15 c and the end portion 19 b on the rotation direction side of the lid portion 19, and is provided in a substantially U shape along the periphery of the lid portion 19.

  By providing the second drain port 21 on the rear end 19c side of the lid portion 19, in the dehydration process in which the rotating tub 4 is rotated at a high speed, in the intermediate dehydration process at a lower speed than the main dehydration process, The airflow is weak, and the water accumulated in the rear part of the drainage part 15 can be quickly drained from the second drainage port 21.

(Embodiment 3)
FIG. 8 is a cross-sectional view of an essential part of a drum type washing machine according to the third embodiment of the present invention. A feature of the present embodiment is a so-called washing / drying machine in which a drum type washing machine is provided with a drying device and has both a washing function and a drying function. It can be dried.

  Hereinafter, the drying apparatus will be described. In FIG. 8, an exhaust port 31 is provided on the peripheral side wall of the upper front portion of the water tank 1, and a blower port 32 for introducing drying air is provided on the back surface of the water tank 1. The exhaust port 31 and the blower port 32 are connected to each other by a circulation air passage 33 extending from the front upper side of the water tank 1 toward the rear side.

  The circulation air passage 33 includes a drying filter device 34 that captures lint that passes through the circulation air passage 33 together with the drying air, a blower fan (blowing means) 35 that supplies the drying air to the rotating tub 4, and drying air. A dehumidifying means 36 for performing dehumidification and a heating means 37 for heating the dehumidified drying air are provided.

  The dehumidifying means 36 and the heating means 37 are constituted by a general heat pump device, the dehumidifying means 36 is constituted by a heat absorber, and the heating means 37 is constituted by a radiator. The heat pump device includes a compressor (not shown) that compresses the refrigerant, a radiator (heating means) 37 that radiates heat of the compressed high-temperature and high-pressure refrigerant, and a throttle means that reduces the pressure of the high-pressure refrigerant. (Not shown) and a heat absorber (dehumidifying means) 36 that draws heat from the surroundings of the refrigerant whose pressure has been reduced to a low pressure is connected by a pipe line (not shown) so that the refrigerant circulates. Other configurations are the same as those of the first embodiment, the same reference numerals are given to the same configurations, and the detailed description of the first embodiment is used.

  Drying air blown by the blower fan 35 is supplied from the blower opening 32 to the rotary tub 4, and comes into contact with the laundry 5 such as clothes stirred in the rotary tub 4, becoming damp air and the exhaust outlet 31. Flows into the circulation air passage 33. The air dampened by removing moisture from the clothing passes through a heat absorber 36 provided in the circulation air passage 33, is cooled and dehumidified, is heated by a heat radiator 37, becomes hot dry air, and rotates from the blower port 32. It is supplied to the tank 4 and flows into the circulation air passage 33 from the exhaust port 31 and circulates. The control means 22 controls the washing operation and the drying operation.

  Even in the drum-type washing and drying machine having a drying function, water droplets that have reached the drainage section 15 during the dehydration process can be drained from the second drainage port 21, and the waterdrops are prevented from returning into the rotating tub 4. Thus, the dewatering performance can be improved, and the washed clothes can be continuously dried efficiently in the same rotating tub 4, thereby shortening the operation time and power consumption.

  Also, by smoothly discharging water droplets outside the machine during the dehydration operation, the ingress of water droplets into the circulation air passage 33 due to the air current is suppressed, and the amount of air flowing through the drying filter device 34 and the circulation air passage 33 is secured. The drying performance can be maintained well.

  Instead of the heat pump device, a heater may be used as the heating means, and a water-cooled or air-cooled heat exchanger may be used as the dehumidifying means.

  As described above, the drum type washing machine according to the present invention can promote drainage of water accumulated in the drainage part during the dehydration process, and can improve the dewatering performance, and thus is useful as a drum type washing machine. .

DESCRIPTION OF SYMBOLS 1 Water tank 2 Case 4 Rotating tank 10 Motor 15 Drainage part 16 First drainage port 17 Drainage path 18 Drainage valve (drainage means)
19 Lid portion 20 Drainage channel 21 Second drainage port

Claims (3)

A water tank having an opening on the front side;
A rotating tank disposed rotatably in the water tank;
A motor for rotationally driving the rotating tub,
A concave drainage provided at the bottom of the aquarium;
A first drain outlet provided at the lowest part of the drainage part;
Drainage means for draining the wash water in the water tank;
A drainage path for discharging the wash water in the water tank to the outside of the housing through the first drainage port and the drainage means ;
A lid that covers most of the upper open part of the drainage part from above ,
The drainage portion is provided with a second drainage port between an end portion of the drainage portion and an end portion of the lid portion ,
In the dehydration step, the water that has reached the drainage part is moved by the airflow flowing in the direction of dehydration rotation of the rotary tub, and falls from the second drainage port to the drainage channel formed below the lid part by gravity. A drum-type washing machine configured to be discharged out of the machine through the drainage path from the first drainage port,
The second drainage port includes an end on the front side of the drainage part and an end on the front side of the lid part, an end part on the advancing side in the dewatering rotation direction of the rotating tank, and the lid part. A drum-type washing machine formed in an L-shape between the end portion on the traveling side in the dewatering rotation direction . The drum type washing machine according to claim 1, wherein the second drainage port is further provided between a rear end portion of the drainage portion and a rear end portion of the lid portion . An exhaust port provided in the water tank;
A blower opening for introducing drying air into the rotary tank;
A circulation air passage connecting the exhaust port and the blower port,
A blowing means for blowing air to the circulation air passage;
Heating means for heating the drying air sent to the water tank;
Control means for controlling washing and drying operation,
The drum type washing machine according to claim 1 or 2 , comprising a drying function.