JP3823421B2 - Washing machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a washing machine in which a pulsator performs washing without stirring laundry (clothing) by a laundry placement net.
[0002]
[Prior art]
  As shown in FIG. 20, a conventional washing method using a laundry placing net has a laundry placing net 33 in the middle of the side wall height of a washing and dewatering tank 32 having a pulsator 31 at the bottom. The laundry is placed on the laundry placement net 33, a predetermined amount of water and detergent is added, and the upper surface of the laundry placement net 33 is generated by the suction force generated by rotating the pulsator 31. The laundry was washed without damaging the clothes by causing a water flow (suction water flow) from above to below and forcing the wash water to pass through the inside of the laundry.
[0003]
[Problems to be solved by the invention]
  In this system, the cleaning power is determined by the strength of the suction water flow caused by the rotation of the pulsator 31, but the cleaning water sucked from the upper side to the lower side by the rotation of the pulsator 31 is sent to the outside, And hits the side wall of the washing / dehydrating tub 32 and rebounds to the inside of the washing / dehydrating tub 32. And since the turbulent flow is generated below the laundry placing net 33 and the suction force is hindered, the suction water flow cannot be strengthened and the cleaning power is limited.
[0004]
  An object of the present invention is to prevent a turbulent flow from being generated below a laundry loading net and to secure a high cleaning power by strengthening a suction water flow caused by rotation of a pulsator.
[0005]
[Means for Solving the Problems]
  In order to achieve the above object, the present invention provides a pulsator at the inner bottom of the washing and dewatering tub, and provides a laundry loading net substantially in the middle of the side wall height direction of the washing and dewatering tub. A plurality of tear holes are provided in the side wall portion of the washing and dewatering tank below the position where the laundry placement net is installed.The laundry loading net has a non-perforated flat plate on its outer periphery, and stops the upward water flow due to the rotation of the pulsator on this flat plate,The water flow caused by the rotation of the pulsator flows from the inside of the washing / dehydrating tub to the outside through the tear hole.
[0006]
  As a result, the washing water sucked from the upper side to the lower side by rotating the pulsator, sent to the outside, attached to the upper surface of the pulsator, and led to the vicinity of the side wall of the washing / dehydrating tub is placed on the side wall portion of the washing / dehydrating tub. Since it flows from the inside of the washing and dewatering tub to the outside through the peeling hole, no turbulent flow is generated below the laundry placing net. Therefore, a high cleaning power can be ensured by strengthening the suction water flow caused by the rotation of the pulsator.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
  According to the first aspect of the present invention, there is provided a pulsator disposed on an inner bottom portion of a washing and dewatering tub, and a laundry placement provided in a substantially horizontal direction in the middle of the side wall height direction of the washing and dewatering tub. And a plurality of tear holes in the side wall portion of the washing and dewatering tub below the position where the laundry placement net is installed, and the pulsator via the tear holes It is configured so that the water flow caused by the rotation of the water flows from the inside to the outsideThe laundry-loading net has a non-perforated flat plate on the outer periphery thereof, and the flat water is stopped by the rotation of the pulsator on the flat plate. With a structure that leadsBy placing the laundry on the laundry placement net, the pulsator prevents the laundry from being directly agitated and damaged, and by the rotation of the pulsator, it is sucked from above to below, Water was sent to the outside, followed by the top surface of the pulsator, and led to the vicinity of the side wall of the washing and dewatering tankThe washing water hits the outer peripheral portion having a non-perforated flat plate of the laundry placement net, is not leaked onto the laundry placement net, and is led to the tear hole in the side wall portion of the washing / dehydrating tub,It flows from the inside of the washing and dehydrating tub to the outside through the hole in the side wall of the washing and dehydrating tub.Get outThus, it is possible to prevent turbulent flow below the laundry placing net, strengthen the suction water flow caused by the rotation of the pulsator, and ensure high cleaning power.
[0008]
The invention according to claim 2 is a pulsator disposed on the inner bottom of the washing / dehydrating tub, and a laundry placement net provided in a substantially horizontal direction in the middle of the side wall height of the washing / dehydrating tub. Comprising The side wall portion of the washing and dewatering tub below the position where the laundry placing net is installed has a plurality of tear holes, through which the water flow caused by the rotation of the pulsator The washing and dewatering tub is configured to flow from the inside to the outside of the dewatering tub, and is provided with a convex portion located above the tear hole. In addition, the washing water is guided to the outside through the above-mentioned hole, and when the laundry is placed on the laundry loading net, the pulsator directly agitates and damages the laundry. In addition, the washing water that is sucked from the top to the bottom by the rotation of the pulsator, sent to the outside, attached to the top surface of the pulsator, and led to the vicinity of the side wall of the washing / dehydrating tub A net for placing laundry on the convex part located above Without leaking upward, it is led to the tear hole in the side wall portion of the washing and dehydrating tank, and flows out from the inside of the washing and dewatering tank through the tear hole in the side wall portion of the washing and dehydrating tank. Further, it is possible to prevent turbulent flow below the laundry placing net, strengthen the suction water flow, and ensure high cleaning power.
[0009]
According to a third aspect of the present invention, there is provided a pulsator disposed at the inner bottom of the washing / dehydrating tub, and a laundry placement net provided in a substantially horizontal direction in the middle of the side wall height of the washing / dehydrating tub. A plurality of tear holes in the side wall portion of the washing and dewatering tub below the position where the laundry placing net is installed, and the pulsator is rotated through the tear holes. The water flow is configured to flow from the inside of the washing / dehydrating tub to the outside, and a covering member is provided outside the washing / dehydrating tub to cover the tear hole through a gap. By placing it on the laundry loading net, the pulsator prevents the laundry from being directly agitated and damaged, and by rotating the pulsator, the pulsator is sucked from the upper side to the lower side, and the water is sent to the outside to feed the upper surface of the pulsator. Washing led to the vicinity of the side wall of the washing and dewatering tank Is able to prevent turbulent flow below the laundry loading net by flowing out from the inside of the washing and dehydrating tank through the tear hole in the side wall portion of the washing and dehydrating tank, The suction water flow caused by the rotation of the pulsator can be strengthened to ensure high cleaning power. Also, during normal washing with the laundry loading net removed, the laundry can jump out of the washing / dehydration tank and be damaged. Can be prevented.
[0010]
  Claim4The invention described in claim 1 is the above-mentioned claim 1.~ 3In the invention described in 1), a circulation water channel is provided for guiding the washing water toward the upper side of the side wall of the washing and dewatering tank by a pumping action when the pulsator is rotated, and a discharge port is provided above the circulation water channel. The washing water is discharged to the inside of the washing / dehydration tank, and by pouring the washing water over the entire laundry on the laundry loading net, it is possible to wash even with a small amount of water. In addition, the washing power can be further improved by continuously passing the washing water through the laundry.
[0011]
  Claim5The invention described in claim 1 is the above-mentioned claim 1.~ 3In the invention described in (1), a circulating water channel is provided that guides the washing water toward the upper side of the side wall of the washing and dewatering tank by a pump action when the pulsator rotates, and a discharge port is provided in communication with the circulating water channel. At least a part of the outlet is positioned below the water level at the time of washing, and the washing water is discharged from the discharge port toward the inside of the washing and dewatering tank, and the washing water is placed inside the laundry. By continuously passing the water, the cleaning power is improved, and by discharging the cleaning water at a position below the water level at the time of cleaning, the discharged cleaning water falls on the water surface and bubbles are generated. Can be eliminated.
[0012]
  Claim6The invention described in claim 15In the invention described in the above, the discharge port has an opening shape that is long in a substantially vertical direction, and the cleaning power is improved by continuously passing the cleaning water through the inside of the laundry, and below the water level at the time of cleaning. By discharging the cleaning water at the position, it is possible to prevent the discharged cleaning water from falling on the water surface and generating bubbles. In addition, since it has an opening shape that is long in a substantially vertical direction, the discharge water pressure can be increased, so that the water pressure is applied from the side to the lower part of the laundry from the side, and a high cleaning power can be secured evenly..
[0013]
The invention according to claim 7 is the invention according to any one of claims 1 to 6, wherein the tear hole in the side wall of the washing and dewatering tub has a substantially horizontally long shape, and from above by rotation of the pulsator. Washed water that is sucked downward, sent to the outside, attached to the top surface of the pulsator, led to the vicinity of the side wall of the washing and dewatering tub, and flows along the outer peripheral portion through the tear hole efficiently Can flow from the inside of the washing and dewatering tank to the outside, strengthening the suction water flow and ensuring high cleaning power.
[0014]
Claim8The invention described in claim 1 above7In the invention described in the above, it has a control means for controlling the rotation of the pulsator, and according to the type of the laundry, the number of rotations of the pulsator, the rotation time, and the rotation direction are controlled to suppress the damage to the clothing, Can remove dirt.
[0015]
  Claim9The invention described in claim 1 above8In the invention described in the above, the back blade of the pulsator is a bent shape having a lag angle on one rotation direction side, and the amount of circulating water can be increased by the rotation direction of the pulsator, so that a high detergency is achieved. Can be secured.
[0016]
  Claim10The invention described in claim 1 above9In the invention described in the above, the apparatus has an antifoaming agent introduction device for introducing the antifoaming agent and a control means for controlling the addition of the antifoaming agent. This prevents foaming and ensures high cleaning power.
[0017]
【Example】
  Embodiments of the present invention will be described below with reference to the drawings.
[0018]
  (Example 1)
  As shown in FIGS. 1 and 2, the washing machine outer frame 1 has a water receiving tub 3 suspended by a suspension rod 2 inside. The washing / dehydrating tub 4 is rotatably arranged in the water receiving tub 3, and a pulsator 5 is rotatably arranged on the inner bottom portion of the washing / dehydrating tub 4. The motor 6 drives the pulsator 5 and the washing / dehydrating tub 4 via the V belt 7 and the speed reduction mechanism 8.
[0019]
  The laundry placing net 9 is detachably disposed on the side wall of the washing / dehydrating tub 4, and the tear hole 10 is provided for installing the laundry placing net 9 on the side wall of the washing / dehydrating tub 4. A plurality of water is provided below the position, and the water flow caused by the rotation of the pulsator 5 flows from the inside of the washing and dewatering tub 4 to the outside through the tear hole 10.
[0020]
  The operation in the above configuration will be described. Laundry (clothing) is set on the laundry placing net 9, and then a predetermined amount of water and detergent are added, and then the operation is started. As a result, the motor 6 is driven, and the pulsator 5 rotates via the V belt 7 and the speed reduction mechanism 8. Since the laundry is separated from the pulsator 5 by the laundry placement net 9, the laundry is not directly agitated by the rotation of the pulsator 5.
[0021]
  As the pulsator 5 rotates, the washing water (washing liquid or rinsing liquid) on the upper part of the pulsator 5 is forcibly sent from the center of the washing / dehydrating tank 4 to the outside via the upper surface of the pulsator 5. Is done. For this reason, a suction water flow (water flow from the top to the bottom) occurs as shown by the arrow from the upper part to the lower part of the central portion of the washing water surface, and the inside of the laundry is forced to pass through. At this time, the water surface is falling. Moreover, since the wash water sent to the outside is sent to the outside of the washing and dewatering tank 4 through the tear hole 10, it causes a turbulent flow below the laundry placing net 9 and inhibits the suction water flow. Never do.
[0022]
  Then, by stopping the pulsator 5, the water surface returns to the original position, and the laundry sucks in the washing water. By repeating the rotation and stop of the pulsator 5, the dirt is removed.
[0023]
  As described above, according to the present embodiment, the suction water flow caused by the rotation of the pulsator 5 is sent to the outside of the washing and dewatering tank 4 through the tearing hole 10, so Since the turbulent flow can be prevented and the suction water flow can be strengthened, a high detergency can be secured without damaging the clothes.
[0024]
  (Example 2)
  As shown in FIGS. 3 and 4, a pulsator 5 is rotatably disposed on the inner bottom of the washing and dewatering tub 11, and a pump chamber 13 is formed on the outer periphery of the back blade 12 provided on the pulsator 5. A circulation path 14 communicating with the pump chamber 13 is formed on the side wall of the washing and dewatering tub 11 by water channel constituent members 15a and 15b. A discharge port 16 is provided in the upper part of the circulation path 14, and the cleaning water is discharged from the discharge port 16 toward the center of the washing and dewatering tank 11. Other configurations are the same as those of the first embodiment.
[0025]
  The operation in the above configuration will be described. The laundry is set on the laundry placing net 9, and after a predetermined amount of water and detergent are added, the operation is started. As a result, the motor 6 is driven, and the pulsator 5 and the back blade 12 of the pulsator 5 are rotated via the V-belt 7 and the speed reduction mechanism 8.
[0026]
  Since the laundry is separated from the pulsator 5 by the laundry placement net 9, the laundry is not directly agitated by the rotation of the pulsator 5. The washing water at the upper part of the pulsator 5 is forcibly sent from the center of the washing / dehydrating tank 11 to the outside via the upper surface part of the pulsator 5. For this reason, as shown by an arrow from the upper part to the lower part of the central portion of the washing water surface, a suction water flow is generated, and the inside of the laundry is forcibly passed. Moreover, since the wash water sent to the outside is sent to the outside of the washing and dewatering tank 11 through the tear hole 10, it causes turbulent flow below the laundry placing net 9 and inhibits the suction water flow. Never do.
[0027]
  On the other hand, the washing water in the washing and dewatering tub 11 is sent from the pump chamber 13 to the circulation path 14 by the rotation of the back blade 12 of the pulsator 5. The wash water sent to the circulation path 14 is discharged toward the center of the washing and dewatering tank 11 from the discharge port 16 provided in the upper part of the circulation path 14 and poured into the laundry on the laundry placing net 9. . The washing water is applied with a suction force by the rotation of the pulsator 5 and passes through the inside of the laundry.
[0028]
  As described above, according to the present embodiment, the suction water flow caused by the rotation of the pulsator 5 is supplied to the outside of the washing and dewatering tank 11 through the tearing hole 10, so that the lower part of the net 9 for placing the laundry Turbulent flow can be prevented and the suction water flow can be strengthened, and the washing water is poured from above onto the laundry set on the net 9 for placing the laundry, forcing the washing water into the laundry. By passing continuously, high detergency can be secured with less water and without damaging clothes.
[0029]
  (Example 3)
  As shown in FIGS. 5 and 6, a pulsator 5 is rotatably disposed on the inner bottom of the washing and dewatering tub 11, and a pump chamber 13 is formed on the outer periphery of the back blade 12 provided on the pulsator 5. A circulation path 14 communicating with the pump chamber 13 is formed on the side wall of the washing and dewatering tank 11 by water channel constituent members 17a and 17b. A discharge port 18 is provided in the circulation path 14 below the water level at the time of cleaning, and the cleaning water is discharged from the discharge port 18 toward the center of the washing and dewatering tank 11. Other configurations are the same as those in the first or second embodiment.
[0030]
  The operation in the above configuration will be described. The laundry is set on the laundry placing net 9, and after a predetermined amount of water and detergent are added, the operation is started. As a result, the motor 6 is driven, and the pulsator 5 and the back blade 12 of the pulsator 5 are rotated via the V-belt 7 and the speed reduction mechanism 8.
[0031]
  Since the laundry is separated from the pulsator 5 by the laundry placement net 9, the laundry is not directly agitated by the rotation of the pulsator 5. The washing liquid in the upper part of the pulsator 5 is forcibly fed from the center of the washing / dehydrating tank 11 to the outside via the upper surface part of the pulsator 5. For this reason, as shown by an arrow from the upper part to the lower part of the central portion of the washing water surface, a suction water flow is generated, and the inside of the laundry is forcibly passed. Moreover, since the wash water sent to the outside is sent to the outside of the washing and dewatering tank 11 through the tear hole 10, it causes turbulent flow below the laundry placing net 9 and inhibits the suction water flow. Never do.
[0032]
  On the other hand, the washing water in the washing and dewatering tub 11 is sent from the pump chamber 13 to the circulation path 14 by the rotation of the back blade 12 of the pulsator 5. The wash water sent to the circulation path 14 is discharged toward the center of the washing and dewatering tank 11 at a position below the wash water surface from the discharge port 18 provided in the circulation path 14, and this wash water is discharged from the pulsator 5. The suction force is applied by the rotation of and passes through the inside of the laundry. Moreover, since it discharges below the washing water surface, the washing water can be circulated without foaming.
[0033]
  As described above, according to the present embodiment, the suction water flow caused by the rotation of the pulsator 5 is sent to the outside of the washing and dewatering tank 4 through the tear hole 10, so Turbulent flow can be prevented, and the suction water flow can be strengthened. Further, since the washing water is discharged toward the center of the washing and dewatering tank 11 at a position below the washing water surface, the washing water circulates without foaming. The washing water can be forced to continuously pass through the laundry, thereby ensuring a high washing power without damaging the clothes.
[0034]
  (Example 4)
  As shown in FIGS. 7 and 8, a discharge port 20 having an opening shape that is long in the vertical direction is provided below the water level at the time of cleaning in the circulation path 14 formed by the water channel members 19a and 19b. The washing water is discharged toward the center of the washing and dewatering tank 11. Other configurations are the same as those of the third embodiment.
[0035]
  The operation in the above configuration will be described. The washing water in the washing and dewatering tub 11 is sent from the pump chamber 13 to the circulation path 14 by the rotation of the pulsator 5 and the back blade 12 of the pulsator 5. The wash water sent to the circulation path 14 is discharged toward the center of the washing and dewatering tub 4 from the discharge port 20 provided in the circulation path 14, and the discharge port 20 has an opening shape that is long in a substantially vertical direction. Therefore, the discharge water pressure is high, and the water pressure can be applied from the side from the top to the bottom of the laundry.
[0036]
  As described above, according to this embodiment, the cleaning water is discharged toward the center of the washing and dewatering tank 11 from the discharge port 20 having an opening shape that is long in the vertical direction at a position below the cleaning water surface. Water can circulate without foaming and water pressure can be applied evenly from the upper part to the lower part of the laundry on the laundry loading net 9, ensuring high washing power without damaging clothes. be able to.
[0037]
  (Example 5)
  As shown in FIG. 9 and FIG. 10, the laundry placing net 21 has a non-perforated flat plate 21a on its outer peripheral portion, and stops the upward water flow caused by the rotation of the pulsator 5 on the flat plate 21a. The washing water is guided to the outside through the tear hole 10 of the dewatering tank 4. Other configurations are the same as those of the first embodiment.
[0038]
  The operation in the above configuration will be described. As the pulsator 5 rotates, the cleaning water on the top of the pulsator 5 is forcibly supplied from the center of the washing / dehydrating tub 4 to the outside via the upper surface of the pulsator 5. Is done. For this reason, as shown by an arrow from the upper part to the lower part of the central portion of the washing water surface, a suction water flow is generated, and the inside of the laundry is forcibly passed. Further, the washing water sent to the outside is concentrated in the tear hole 10 without leaking to the upper part of the laundry placing net 21 by the non-perforated flat plate 21 a on the outer peripheral portion of the laundry placing net 21. Since it is guided to the outside and sent to the outside of the washing and dewatering tub 4 through the tear hole 10, a turbulent flow is caused below the laundry placing net 21 and the suction water flow is not hindered.
[0039]
  As described above, according to the present embodiment, the suction water flow caused by the rotation of the pulsator 5 is intensively guided to the tear hole 10 by the non-perforated flat plate 21a on the outer peripheral portion of the laundry placing net 21. By feeding water to the outside of the washing and dewatering tank 4 through the perforation hole 10, turbulent flow under the laundry placing net 21 can be prevented and the suction water flow can be further strengthened, so that clothing is damaged. And high detergency can be secured.
[0040]
  In addition, although the present Example demonstrated the case where it replaced with the laundry placement net | network 9 of the said Example 1, and mounted | wore with the laundry placement net | network 21 which has the non-perforated flat plate 21a in the outer peripheral part, implementation was carried out. Similarly, the laundry placing nets 9 of Examples 2 to 4 can be similarly provided with the laundry placing net 21 having the non-perforated flat plate 21a on the outer peripheral portion. .
[0041]
  (Example 6)
  As shown in FIG. 11, the washing and dewatering tub 22 is provided with a convex portion 23 above the tear hole 10, and at this convex portion 23, the upward water flow caused by the rotation of the pulsator 5 is stopped. The cleaning water is configured to be guided to the outside through 10. Other configurations are the same as those of the first embodiment.
[0042]
  The operation in the above configuration will be described. As the pulsator 5 rotates, the washing water on the upper part of the pulsator 5 is forced to the outside from the center of the washing and dewatering tub 22 via the upper surface of the pulsator 5. Water is sent. For this reason, as shown by an arrow from the upper part to the lower part of the central portion of the washing water surface, a suction water flow is generated, and the inside of the laundry is forcibly passed. Further, the washing water sent to the outside is intensively guided to the tear hole 10 by the convex portion 23 provided in the washing and dewatering tank 22 without leaking to the upper part of the laundry placing net 9, Since it is sent to the outside of the washing and dewatering tank 22 through the tear hole 10, turbulent flow is caused below the laundry placing net 9, and the suction water flow is not hindered.
[0043]
  Thus, according to the present embodiment, the suction water flow caused by the rotation of the pulsator 5 is intensively guided to the tear hole 10 by the convex portion 23 provided in the washing and dewatering tub 22, and the tear hole 10 is formed. By supplying water to the outside of the washing and dewatering tank 22 through the turbulent flow under the laundry placing net 9 can be prevented and the suction water flow can be further strengthened, so that the clothes can be washed without damaging the clothes. Power can be secured.
[0044]
  In the present embodiment, the convex portion 23 is provided above the tear hole 10 in the first embodiment, but the convex portion is similarly disposed above the tear hole 10 in the second to fifth embodiments. By providing 23, the same effect can be obtained.
[0045]
  (Example 7)
  As shown in FIGS. 12 and 13, a substantially horizontally elongated tear hole 25 is provided in the side wall of the washing and dewatering tub 24. Other configurations are the same as those of the first embodiment.
[0046]
  The operation in the above configuration will be described. As the pulsator 5 rotates, the cleaning water on the pulsator 5 is forcibly sent from the center of the washing / dehydrating tub 24 to the outside via the upper surface of the pulsator 5. The For this reason, as shown by an arrow from the upper part to the lower part of the central portion of the washing water surface, a suction water flow is generated, and the inside of the laundry is forcibly passed. Further, the washing water sent to the outside follows the upper surface of the pulsator 5 and is led to the vicinity of the side wall of the washing / dehydrating tub 24 and tends to flow along the outer peripheral portion. Therefore, since the opening area is large with respect to the direction in which the water flows, the washing water can be efficiently flowed from the inside of the washing / dehydrating tub 24 to the outside, and below the laundry placing net 9. It does not cause turbulent flow and obstruct suction water flow.
[0047]
  As described above, according to the present embodiment, the suction water flow caused by the rotation of the pulsator 5 is efficiently sent to the outside of the washing and dewatering tub 24 through the tear holes 25 configured in a horizontally long shape, thereby the laundry. Since the turbulent flow below the placing net 9 can be prevented and the suction water flow can be further strengthened, a high detergency can be secured without damaging the clothes.
[0048]
  In addition, in this example, it replaces with the tear hole 10 of the said Example 1, and the substantially horizontally long tear hole 25 is provided, However, About Example 2-6, it is a substantially horizontally long shape similarly. By providing the hole 25, a similar effect can be obtained.
[0049]
  (Example 8)
  As shown in FIGS. 14 and 15, the covering member 27 is provided outside the washing / dehydrating tub 26 so as to cover the tear hole 10 provided in the side wall of the washing / dehydrating tub 26 through a gap. . Other configurations are the same as those of the first embodiment.
[0050]
  The operation in the above configuration will be described. The rotation of the pulsator 5 causes the washing liquid on the upper part of the pulsator 5 to be forced outward from the center of the washing and dewatering tub 26 via the upper surface of the pulsator 5. Water is sent. For this reason, a suction water flow is generated from the upper part to the lower part of the central portion of the washing water surface, and the laundry is forced to pass through. Further, since the washing water sent to the outside is sent to the outside of the washing / dehydrating tub 26 from the gap between the washing / dehydrating tub 26 and the covering member 27 through the tear hole 10, the washing water is placed on the laundry. A turbulent flow is caused below the net 9 and the suction water flow from above to below is not hindered.
[0051]
  Further, in the case of normal washing performed with the laundry placing net 9 removed, the cover member 27 that covers the tear hole 10 is provided outside the washing and dewatering tub 26. A part of the laundry will pop out and will not be damaged.
[0052]
  As described above, according to the present embodiment, the covering member 27 covering the tear hole 10 provided on the side wall of the washing / dehydrating tub 26 is provided outside the washing / dehydrating tub 26. In the case of normal washing performed with the net 9 removed, a part of the laundry can be prevented from jumping out from the tear hole 10 and being damaged.
[0053]
  In addition, in the present Example, it has comprised so that the tear hole 10 of the said Example 1 may be covered with the covering member 27, However, about Example 2-7, by providing the covering member 27 similarly, Similar effects can be obtained.
[0054]
  Example 9
  FIG. 16 shows a basic pattern of the water flow obtained by controlling the pulsator 5 by the control means (not shown) for controlling the rotation of the pulsator 5 of the second embodiment. The water flow pattern shown in FIG. 16A is a case where general clothes are washed, and the pulsator 5 is rotated at a high speed for a long time, and is reversed alternately left and right. Other configurations are the same as those of the second embodiment.
[0055]
  The operation in the above configuration will be described. As the pulsator 5 rotates, the washing liquid on the pulsator 5 is forcibly supplied from the center of the washing / dehydrating tub 4 to the outside via the upper surface of the pulsator 5. Is done. For this reason, a suction water flow is generated at the center of the washing water surface, and the inside of the laundry is forcibly passed. However, since the pulsator 5 rotates at a high speed for a long time, the suction force is large and the circulation is performed. Because the amount is large, it will effectively remove the dirt on the laundry. Further, although a large amount of washing water is sent to the outside, it is sent to the outside of the washing and dewatering tank 4 through the tear hole 10, so that a turbulent flow is caused below the laundry placing net 9. The suction water flow is not hindered.
[0056]
  On the other hand, the washing water in the washing and dewatering tub 4 is sent from the pump chamber 13 to the circulation path 14 by the rotation of the back blade 12 of the pulsator 5.
[0057]
  The wash water sent to the circulation path 14 is discharged toward the center of the washing and dehydrating tank 4 from the discharge port 16 provided in the upper part of the circulation path 14 and poured into the laundry on the laundry placing net 9. . The washing water is applied with a suction force by the rotation of the pulsator 5 and passes through the inside of the laundry.
[0058]
  Thereafter, by rotating the pulsator 5 in the opposite direction, the laundry on the laundry placing net 9 is moved, the washing water poured from the discharge ports 16 is evenly applied to the entire laundry, and washing and rinsing are performed evenly. be able to.
[0059]
  Thus, by rotating the pulsator 5 at a high speed for a long time, a large amount of washing water is poured from above the laundry, and the washing water is forced to pass through the inside of the laundry with a strong suction force, thereby removing dirt. By powerfully dropping and reversing left and right, the position of the laundry can be moved, the washing water can be applied evenly, and washing and rinsing can be performed evenly.
[0060]
  Further, the water flow pattern shown in FIG. 16B is a case where delicate clothes are washed, and the pulsator 5 rotates in the same direction at a low speed for a short time. By eliminating friction between clothes when moving the laundry, gently pouring the wash water from above and passing the wash water softly inside the laundry, the damage of the clothes is suppressed and the dirt is removed.
[0061]
  As described above, according to the present embodiment, the control means for controlling the rotation of the pulsator 5 controls the number of rotations, the rotation time, and the direction of rotation of the pulsator 5 according to the type of laundry, thereby preventing damage to clothing. Can suppress and remove dirt.
[0062]
  In this embodiment, the rotation of the pulsator 5 of the second embodiment is controlled by the control means. However, the rotation of the pulsator 5 of the first embodiment or the third to eighth embodiments is similarly performed. By controlling, the same effect can be obtained.
[0063]
  (Example 10)
  As shown in FIGS. 17 and 18, the back blade 29 of the pulsator 28 is formed in a bent shape having a delay angle on the one rotation direction side. Other configurations are the same as those of the second embodiment.
[0064]
  The operation of the above configuration will be described. The rotation of the pulsator 28 causes the washing liquid on the upper part of the pulsator 28 to be forced outward from the center of the washing and dewatering tub 11 via the upper surface of the pulsator 28. Water is sent. For this reason, a suction water flow is generated from the upper part to the lower part of the central portion of the washing water surface, and the laundry is forced to pass through. Moreover, since the wash water sent to the outside is sent to the outside of the washing and dewatering tank 11 through the tear hole 10, it causes turbulent flow below the laundry placing net 9 and inhibits the suction water flow. Never do.
[0065]
  On the other hand, the washing water in the washing and dewatering tub 11 is sent from the pump chamber 13 to the circulation path 14 by the rotation of the back blade 29 of the pulsator 28. The wash water sent to the circulation path 14 is discharged toward the center of the washing and dewatering tank 11 from the discharge port 16 provided in the upper part of the circulation path 14 and poured into the laundry on the laundry placing net 9. .
[0066]
  This washing water passes through the inside of the laundry by the rotation of the pulsator 28. Since the back blade 29 is formed in a bent shape having a delay angle on the one rotation direction side, if it is rotated in the direction shown by the arrow in FIG. 18, the pump-up capability can be increased and the circulation rate can be increased.
[0067]
  As described above, according to the present embodiment, the amount of circulation can be increased and the cleaning power can be improved by rotating the back blade 29 configured in a bent shape having a delay angle on one rotation direction side.
[0068]
  (Example 11)
  As shown in FIG. 19, it has the antifoamer injection | throwing-in apparatus 30 and the control means (not shown) which controls injection | throwing-in of an antifoamer. Other configurations are the same as those of the ninth embodiment.
[0069]
  The operation in the above configuration will be described. As the pulsator 5 rotates, the washing liquid on the upper part of the pulsator 5 is forcibly supplied from the center of the washing and dewatering tank 11 to the outside via the upper surface of the pulsator 5. Is done. For this reason, a suction water flow is generated from the upper part to the lower part of the central portion of the washing water surface, and the laundry is forced to pass through. Moreover, since the wash water sent to the outside is sent to the outside of the washing and dewatering tank 11 through the tear hole 10, it causes turbulent flow below the laundry placing net 9 and inhibits the suction water flow. Never do.
[0070]
  On the other hand, the washing water in the washing and dewatering tub 11 is sent from the pump chamber 13 to the circulation path 14 by the rotation of the back blade 12 of the pulsator 5. The wash water sent to the circulation path 14 is discharged toward the center of the washing and dewatering tank 11 from the discharge port 16 provided in the upper part of the circulation path 14 and poured into the laundry on the laundry placing net 9. . The washing water passes through the inside of the laundry by the rotation of the pulsator 5.
[0071]
  When the rotation of the pulsator 5 is high speed or when it is rotating for a long time, the control means adds a predetermined amount of antifoaming agent to suppress foaming of the washing water.
[0072]
  Thus, since it has a control means which controls addition of an antifoamer, foaming of washing water can be controlled and high washing power can be obtained.
[0073]
【The invention's effect】
  As described above, according to the first aspect of the present invention, the pulsator disposed on the inner bottom portion of the washing and dewatering tub, and the substantially horizontal direction provided in the middle of the side wall height direction of the washing and dewatering tub. A laundry loading net, and a plurality of tear holes are formed in a side wall portion of the washing and dewatering tub below the position of the laundry loading net. The water flow by the rotation of the pulsator is configured to flow from the inside of the washing / dehydrating tub to the outside.The laundry-loading net has a non-perforated flat plate on the outer periphery thereof, and the flat water is stopped by the rotation of the pulsator on the flat plate. With a structure that leadsBecauseBy placing the laundry on the laundry loading net, the pulsator prevents the laundry from being directly agitated and damaged, and the pulsator rotates so that it is sucked from the top down and fed to the outside. Along the top of the pulsator,It was led to the side wall of the washing and dewatering tankThe washing water hits the outer peripheral portion having a non-perforated flat plate of the laundry placement net, is not leaked onto the laundry placement net, and is led to the tear hole in the side wall portion of the washing / dehydrating tub,It flows from the inside of the washing and dehydrating tub to the outside through the hole in the side wall of the washing and dehydrating tub.Get outThus, it is possible to prevent turbulent flow below the laundry placing net, strengthen the suction water flow caused by the rotation of the pulsator, and ensure high cleaning power.
[0074]
According to the invention described in claim 2, the pulsator provided on the inner bottom of the washing and dewatering tub, and the laundry load provided in a substantially horizontal direction in the middle of the side wall height direction of the washing and dewatering tub. A plurality of tear holes are formed in a side wall portion of the washing and dewatering tub below a position where the laundry placing net is installed. The water flow by rotation of the sweater is configured to flow from the inside of the washing / dehydrating tub to the outside, and the washing / dehydrating tub is provided with a convex portion located above the tear hole, and the convex portion is provided with the pallet. Stopping upward water flow due to rotation of the sweater and guiding the washing water to the outside through the above-mentioned tear hole, so that the pulsator can be washed by placing the laundry on the laundry loading net. Stir directly to prevent damage, and by rotating the pulsator, The washing water sucked downward from the water, sent to the outside, attached to the top surface of the pulsator, and led to the vicinity of the side wall of the washing / dehydrating tub hits the convex part located above the tear hole and placed on the laundry Without leaking over the net for the washing and dewatering tank, it is led to the tear hole in the side wall of the washing and dehydrating tank, and from the inside of the washing and dehydrating tank to the outside through the tear hole in the side wall of the washing and dehydrating tank By flowing out, turbulent flow below the laundry placing net can be prevented, the suction water flow can be strengthened, and high detergency can be secured.
[0075]
According to invention of Claim 3, the pulsator arrange | positioned in the inner bottom part of the washing and dewatering tub, and the laundry mounting | wearing provided in the substantially horizontal direction in the middle of the side wall height direction of the said washing and dewatering tub And a plurality of tear holes in the side wall portion of the washing and dewatering tub below the position where the laundry placing net is installed, and the pulsator The water flow by rotation is configured to flow from the inside of the washing / dehydrating tub to the outside, and the outer side of the washing / dehydrating tub is provided with a covering member that covers the tear hole through the gap, so that the laundry is washed. By placing it on the net for placing objects, the pulsator prevents the laundry from being directly agitated and damaged, and by rotating the pulsator, the pulsator is sucked from the upper side to the lower side and is sent to the outside to be fed to the upper surface of the pulsator Along the side wall of the washing and dehydration tank Is able to prevent turbulent flow below the laundry loading net by flowing out from the inside of the washing and dehydrating tank through the tear hole in the side wall portion of the washing and dehydrating tank, The suction water flow caused by the rotation of the pulsator can be strengthened to ensure high cleaning power. Also, during normal washing with the laundry loading net removed, the laundry can jump out of the washing / dehydration tank and be damaged. Can be prevented.
[0076]
  Claims4According to the invention described in (2), a circulating water channel that guides the washing water toward the upper side of the side wall of the washing and dewatering tub is provided by a pump action during rotation of the pulsator, and a discharge port is provided above the circulating water channel. Since the washing water is discharged from the discharge port toward the inside of the washing and dewatering tub, the washing water can be poured into the entire laundry on the laundry loading net from above, so that even less water can be washed. In addition, the washing power can be further improved by continuously passing the washing water through the laundry.
[0077]
  Claims5According to the invention described in the above, a circulation water channel is provided that guides the washing water toward the upper side of the side wall of the washing and dewatering tank by a pump action when the pulsator rotates, and a discharge port is provided in communication with the circulation water channel, and Since at least a part of the discharge port is positioned below the water level at the time of washing, and the washing water is discharged from the discharge port toward the inside of the washing and dewatering tub, the washing water is placed inside the laundry. By continuously passing the water, the cleaning power is improved, and by discharging the cleaning water at a position below the water level at the time of cleaning, the discharged cleaning water falls on the water surface and bubbles are generated. Can be eliminated.
[0078]
  Claims6According to the invention described in the above, since the discharge port is formed in an opening shape that is long in a substantially vertical direction, the cleaning power is improved by continuously passing the cleaning water through the laundry, and the level is lower than the water level at the time of cleaning. By discharging the cleaning water at the position, it is possible to prevent the discharged cleaning water from falling on the water surface and generating bubbles. In addition, since it has an opening shape that is long in a substantially vertical direction, the discharge water pressure can be increased, so that the water pressure is applied from the side to the lower part of the laundry from the side, and a high cleaning power can be secured evenly..
[0079]
According to the seventh aspect of the present invention, since the tear hole on the side wall of the washing / dehydrating tub has a substantially horizontally long shape, the pulsator is rotated so that it is sucked from the top to the bottom and supplied to the outside. Wash water that is led to the vicinity of the side wall of the washing / dehydrating tub along the top of the pulsator and flows along the outer periphery efficiently flows from the inside of the washing / dehydrating tub to the outside through the tear hole. It is possible to increase the suction water flow and secure a high cleaning power.
[0080]
  According to the invention described in claim 8, since the covering member for covering the tear hole through the gap is provided on the outside of the washing and dewatering tub, the laundry loading net is removed. When washing, the laundry can be prevented from jumping out of the washing / dehydration tank and being damaged..
[0081]
Claims9According to the invention described in the above, since the back blade of the pulsator has a bent shape having a delay angle on the one rotation direction side, the amount of circulating water can be increased depending on the rotation direction of the pulsator. Can be secured.
[0082]
  Claims10According to the invention described in the above, since the defoaming agent charging device for charging the antifoaming agent and the control means for controlling the charging of the antifoaming agent are included, the defoaming agent is added when foaming is large due to the amount of circulating water. This prevents foaming and ensures high cleaning power.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a washing machine according to a first embodiment of the present invention.
[Fig. 2] Front view of the washing and dewatering tank of the washing machine
FIG. 3 is a longitudinal sectional view of a washing machine according to a second embodiment of the present invention.
FIG. 4 is an enlarged front view of the circulation channel and discharge port of the washing machine.
FIG. 5 is a longitudinal sectional view of a washing machine according to a third embodiment of the present invention.
FIG. 6 is an enlarged front view of the circulating water channel and discharge port of the washing machine.
FIG. 7 is a longitudinal sectional view of a washing machine according to a fourth embodiment of the present invention.
FIG. 8 is an enlarged front view of the circulation channel and discharge port of the washing machine
FIG. 9 is a longitudinal sectional view of a washing machine according to a fifth embodiment of the present invention.
FIG. 10 is a plan view of a laundry placement net of the washing machine
FIG. 11 is a longitudinal sectional view of a washing machine according to a sixth embodiment of the present invention.
FIG. 12 is a longitudinal sectional view of a washing machine according to a seventh embodiment of the present invention.
FIG. 13 is a front view of a washing and dewatering tank of the washing machine.
FIG. 14 is a longitudinal sectional view of an essential part of a washing machine according to an eighth embodiment of the present invention.
FIG. 15 is a front view of a washing and dewatering tank of the washing machine.
FIG. 16A is a diagram showing an example of the water flow of the washing machine according to the ninth embodiment of the present invention.
  (B) The figure which shows the other example of the water flow of the washing machine
FIG. 17 is a longitudinal sectional view of a washing machine according to a tenth embodiment of the present invention.
[Figure 18] Back view of pulsator of the washing machine
FIG. 19 is a longitudinal sectional view of a washing machine according to an eleventh embodiment of the present invention.
FIG. 20 is a longitudinal sectional view of a conventional washing machine
[Explanation of symbols]
  4 washing and dewatering tank
  5 Pulsator
  9 Laundry net
  10 hole

Claims (10)

A pulsator disposed on the inner bottom of the washing / dehydrating tub, and a laundry laying net provided in a substantially horizontal direction in the middle of the side wall height of the washing / dehydrating tub. The side wall portion of the washing and dewatering tank below the installation position of the net has a plurality of tear holes, through which the water flow caused by the rotation of the pulsator is from the inside of the washing and dewatering tank. configured to flow to the outside, the laundry mounting net has a flat imperforate peripherally thereof, stop an upward flow due to the rotation of the pulsator in the flat plate, the relief holes through it, washing machines where the structure directing wash water to the outside. A pulsator disposed on the inner bottom of the washing / dehydrating tub, and a laundry laying net provided in a substantially horizontal direction in the middle of the side wall height of the washing / dehydrating tub. The side wall portion of the washing and dewatering tank below the installation position of the net has a plurality of tear holes, through which the water flow caused by the rotation of the pulsator is from the inside of the washing and dewatering tank. configured to flow to the outside, the washing and dewatering tank includes a convex portion which is positioned above the relief holes provided in the convex portion, stopping the upward flow due to the rotation of the pulsator, wherein the the and via holes, washing machines where the structure directing wash water to the outside. A pulsator disposed on the inner bottom of the washing / dehydrating tub, and a laundry laying net provided in a substantially horizontal direction in the middle of the side wall height of the washing / dehydrating tub. The side wall portion of the washing and dewatering tank below the installation position of the net has a plurality of tear holes, through which the water flow caused by the rotation of the pulsator is from the inside of the washing and dewatering tank. configured to flow to the outside, on the outside of the washing and dewatering tank, washing machines provided with a cover member for covering the relief holes through the gap. A circulating water channel is provided to guide the washing water upwardly through the side wall of the washing and dewatering tank by a pump action when the pulsator rotates. A discharge port is provided above the circulation water channel, and the washing water is washed from the discharge port. The washing machine according to any one of claims 1 to 3 , wherein the washing machine is configured to discharge toward the inside of the cum dewatering tank. A circulating water channel is provided that guides the washing water toward the upper side of the side wall of the washing and dewatering tank by a pump action when the pulsator rotates, and a discharge port is provided in communication with the circulating water channel, and at least a part of the discharge port is provided. The washing machine according to any one of claims 1 to 3 , wherein the washing machine is configured to be positioned below a water level at the time of washing and to discharge the washing water from the discharge port toward the inside of the washing and dewatering tank. The washing machine according to claim 5, wherein the discharge port has an opening shape that is long in a substantially vertical direction. The washing machine according to any one of claims 1 to 6, wherein the tear hole on the side wall of the washing and dewatering tub has a substantially horizontally long shape. The washing machine according to any one of claims 1 to 7 , further comprising a control unit that controls rotation of the pulsator. The washing machine according to any one of claims 1 to 8 , wherein a back blade of the pulsator has a bent shape having a delay angle on one rotation direction side. The washing machine according to any one of claims 1 to 9 , further comprising a defoaming agent feeding device for feeding the antifoaming agent and a control means for controlling the feeding of the antifoaming agent.

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