JP4956657B2 - Washing machine - Google Patents

Description

  The present invention relates to a washing machine having an electrostatic atomizer that generates charged fine particle water using an electrostatic atomization phenomenon.

  As a conventional washing machine, as a washing operation, one that performs a series of operations of washing → rinsing → dehydration, or one that performs a series of operations of washing → rinsing → dehydration → drying is known. The latter washing machine is usually called a washing / drying machine, and is known from Patent Document 1 and the like.

  However, any type of washing machine merely performs washing (washing → rinsing → dehydration or washing → rinsing → dehydration → drying) and does not perform sterilization or deodorization.

  Therefore, a washing machine with a deodorizing function in which an ozone generator is provided in the washing machine has been proposed, and what is desired to be sterilized and deodorized is put into a washing tub and sterilized and deodorized by ozone. However, the washing machine with a deodorizing function provided with this ozone generator has a high toxicity of ozone, so it is necessary to treat ozone at a high temperature. If the door is opened immediately after the operation ends, ozone and high-temperature gas may scatter from the opening of the washing tub to the outside, which may cause toxicity due to ozone or risk of burns due to high temperatures. There is a problem that the door cannot be opened and contents such as clothes cannot be taken out immediately, and there is a risk of ozone toxicity and burns if the door is opened while the ozone generator is in operation. There is a problem that the door cannot be opened while the generator is in operation, and clothes and the like can be additionally placed in the washing tub so that it cannot be sterilized or deodorized.

  In addition, when an ozone generator is installed in the washing machine to release ozone into the washing tub, washing water enters the ozone generator from the ozone discharge section into the washing tub, causing problems such as electric leakage. There is a fear.

JP 2004-194476 A

  The present invention has been invented in view of the above-described conventional problems, and can effectively sterilize and deodorize laundry, and the washing water enters the electrostatic atomizer and causes electrical trouble. It is an object of the present invention to provide a washing machine that can prevent this.

  In order to solve the above-described problems, the washing machine according to the present invention generates charged fine particle water in the washing tub 2 and puts the laundry in the washing tub 2 provided in the washing machine body 7 to wash the laundry. An electrostatic atomizing device 3 for discharging the electrostatic atomizing device 3 is provided, and the electrostatic atomizing device 3 is disposed in a place different from the washing tub 2 in the washing machine body 7 and is generated by the electrostatic atomizing device 3. A discharge path 16 meandering in the vertical direction for discharging the particulate water into the washing tub 2 is provided, and a drainage means 23 is provided in the discharge path 16 meandering up and down.

  By adopting such a configuration, even when cleaning water enters the discharge path from the opening at the end of the discharge path 16 during the washing operation in the washing tub 2, the valley 16a portion of the discharge path 16 meandering in the vertical direction Since the water accumulated in the valley 16a portion of the discharge path 16 is drained by the drainage means 23, the electrostatic atomizer 3 is operated and charged. When discharging the particulate water into the washing tub 2, the charged particulate water can be smoothly discharged into the washing tub 2 through the discharge path 16 and adhered to the laundry or the washing tub 2 to be sterilized and deodorized.

  The present invention has been invented in view of the above-described conventional problems, and can effectively sterilize and deodorize laundry, and the washing water enters the electrostatic atomizer and causes electrical trouble. It is an object of the present invention to provide a washing machine that can prevent this.

(A) is a schematic sectional drawing of the washing machine of this invention, (b) is a schematic expanded sectional view which shows a shutter part. It is a schematic block diagram of the electrostatic atomizer used for the same as the above. It is a flowchart which shows an example of the washing operation mode same as the above. It is a flowchart which shows the other example of washing operation mode same as the above. It is a schematic sectional drawing of other embodiment of this invention.

  Hereinafter, the present invention will be described based on embodiments shown in the accompanying drawings.

  FIG. 1 shows an example of a washing machine 1 called a washing / drying machine having a washing function and a drying function as the washing machine 1.

  A washing tub 2 is housed inside a washing machine main body 7 constituting the outline of the washing machine 1, and the washing tub 2 is constituted by a water tub 8 in which a rotating drum 9 is arranged. The rotating drum 9 has a large number of small holes and is rotated by a motor 10. A water supply channel 11 and a drainage channel 12 are connected to the water tank 8.

  Although not shown in the drawings, the water tank 8 is provided with an outlet for ejecting hot air or cold air, and hot air or cold air is ejected into the water tank 8 to dry the laundry in the rotary drum 9. Can be done.

  An opening 13 is provided in the washing tub 2, and a door 4 is provided in the opening 13 so as to be freely opened and closed.

  An electrostatic atomizer 3 is provided in the washing machine body 7 and outside the washing tub 2 (that is, outside the water tub 8). The electrostatic atomizer 3 is placed in a case 14 and a fan 26 is provided in the case 14. One end of an air supply hose constituting the air supply path 15 is connected to the case 14 so that the other end of the air supply hose is open to the washing machine body 7 and communicates with the outside. Further, one end of a discharge hose constituting the discharge path 16 is connected to the case 14, and the other end of the discharge hose is disposed at the end of the opening 13 of the washing tub 2, so It faces.

  The electrostatic atomizer 3 electrostatically discharges the dew condensation water generated on the discharge electrode 17, cooling means for supplying water to the discharge electrode 17 by generating moisture in the air as dew condensation water, and the discharge electrode 17. A high voltage application unit 19 for applying a high voltage to the discharge electrode 17 for atomization is provided.

  FIG. 2 shows a schematic configuration diagram of the electrostatic atomizer 3 used in the present invention. In the embodiment shown in FIG. 2, the Peltier unit 18 constitutes a cooling means, and water is supplied to the discharge electrode 17 by cooling the moisture in the air and generating condensed water by the cooling means. Yes.

  The Peltier unit 18 has a pair of Peltier circuit boards 27 each having a circuit formed on one side of an insulating plate made of alumina or aluminum nitride having high thermal conductivity, facing each other so that the circuits face each other, and arranged in multiple rows. BiTe-based thermoelectric element 28 is sandwiched between both Peltier circuit boards 27 and adjacent thermoelectric elements 28 are electrically connected by circuits on both sides, to thermoelectric element 28 made through Peltier input lead wire 29. Is configured such that heat is transferred from one Peltier circuit board 27 side toward the other Peltier circuit board 27 side. Further, a cooling unit 21 is connected to the outside of the one side Peltier circuit board 27, and a heat radiating unit 20 is connected to the outside of the other side Peltier circuit board 27. Then, an example of a heat radiating fin is shown as the heat radiating portion 20. A rear end portion of the discharge electrode 17 is connected to the cooling portion 21 of the Peltier unit 18.

  The discharge electrode 17 is surrounded by a cylinder 30 made of an insulating material, and a window 30 a that communicates the inside and outside of the cylinder 30 is provided on the peripheral wall of the cylinder 30. Further, a ring-shaped counter electrode 25 is disposed at the tip opening of the cylindrical body 30, and the discharge electrode 17 is positioned so that the center of the ring of the ring-shaped counter electrode 25 is positioned on the extension line of the axial center of the discharge electrode 17. And the counter electrode 25 are opposed to each other.

  In the electrostatic atomizer 3, when the Peltier unit 18 is energized, the cooling unit 21 is cooled, and when the cooling unit 21 is cooled, the discharge electrode 17 is cooled, and moisture in the air is condensed and discharged. Water (condensation water) is supplied to the electrode 17.

  When a high voltage is applied between the discharge electrode 17 and the counter electrode 25 in a state where water is supplied to the discharge electrode 17 in this way, the discharge electrode is caused by the high voltage applied between the discharge electrode 17 and the counter electrode 25. The Coulomb force acts between the water supplied to the distal end portion 17 and the counter electrode 25, and the liquid level of the water locally rises in a cone shape (tailor cone). When the tailor cone is formed in this way, the electric charge concentrates on the tip of the tailor cone and the electric field strength in this portion increases, thereby increasing the Coulomb force generated in this portion and further growing the tailor cone. . When the tailor cone grows like this and the charge concentrates on the tip of the tailor cone and the density of the charge becomes high, the water at the tip of the tailor cone has a large energy (repulsive force of the charge that has become dense). In response to this, a large amount of nanometer-sized charged fine particle water charged negatively by repeating splitting and scattering (Rayleigh splitting) exceeding the surface tension is generated. The generated charged fine particle water is discharged into the washing tub 2 through the discharge path 16. In this case, the fan 26 is operated during the operation of the electrostatic atomizer 3, and by the operation of the fan 26, external air enters the case 14 containing the electrostatic atomizer 3 through the air supply path 15, and the discharge path. Since an air flow that flows into the washing tub 2 from 16 is generated, the charged fine particle water is discharged into the rotating drum 9 along the air flow.

  Further, an openable / closable shutter 5 is provided to prevent water stretched in the washing tub 2 during washing from entering the electrostatic atomizer 3 via the discharge path 16. The shutter 5 is opened and closed by a driving means. When the electrostatic atomizer 3 is operated, the shutter 5 is automatically opened. When the electrostatic atomizer 3 is stopped, the shutter 5 is opened. It is controlled by the control unit so as to be automatically opened.

  The washing machine 1 provided with the electrostatic atomizer 3 having the above-described configuration has, for example, at least two washing operation modes as a washing operation for washing the laundry.

  The first washing operation mode is as shown in the flow chart of FIG. 3. As a series of washing operations, washing (washing operation of laundry) → rinsing (rinsing operation of laundry) → dehydration (dehydration operation of laundry) ) → drying (drying operation of the laundry) → sterilization / deodorization (operation of the electrostatic atomizer 3).

Further, the second washing operation mode is as shown in the flow chart of FIG. 4. As a series of washing operations, washing (washing washing operation) → rinsing (washing washing operation) → dehydration (laundry washing) Dehydration operation) is a mode that operates in the order of sterilization / deodorization (operation of electrostatic atomizer 3), and is automatically operated by the control unit by washing and specifying one of the operation modes. .
The washing operation mode is selected and designated by operating a mode selection button provided in an operation unit (not shown) provided in the washing machine 1.

  When washing with the washing machine 1 of the present invention, first, the door 4 is opened, the laundry is put into the rotating drum 9 through the opening 13, and the detergent is further closed, the door 4 is closed and the washing operation mode is set. specify. Here, when the first washing operation mode is designated, the washing tub 2 is automatically filled with water, the rotating drum 9 is rotated to perform the washing operation, and when the washing operation is completed, the rinsing operation is performed, and the rinsing operation is performed. When the operation is completed, the water is drained and the dehydration operation is completed. When the dehydration operation is completed, the operation is performed as a drying operation. When the drying operation is completed, the operation is performed as a sterilization / deodorization operation. Automatically opens), discharges charged fine particle water into the washing tub 2, and automatically closes the shutter 5 at the same time as the operation of the electrostatic atomizer 3 after a certain period of time is completed. When the sterilization / deodorization operation ends, a series of washing operations in the first washing operation mode is stopped.

  When the second washing operation mode is designated, the washing tub 2 is automatically filled with water, the rotating drum 9 is rotated to perform the washing operation, and when the washing operation is completed, the rinsing operation is completed and the rinsing operation is completed. Then, the water is drained and the dehydration operation is performed. When the dehydration operation is completed, the sterilization / deodorization operation is performed (in this case, the operation of the electrostatic atomizer 3 is started, and the shutter 5 is automatically opened). When the fine particle is generated and the charged fine particle water is discharged into the washing tub 2 and the operation of the electrostatic atomizer 3 after a certain time is finished, the shutter 5 is automatically closed and the sterilization / deodorization operation is finished. A series of washing operations in the second washing operation mode is stopped.

  Regardless of the washing operation mode, the electrostatic atomizer 3 is operated at the last stage of the series of washing operation modes, and the laundry that has been dried or dewatered in the rotating drum 9 by the charged fine particle water is finished. It will be sterilized and deodorized.

  In any of the washing operation modes described above, the shutter 5 is controlled to be opened only while the electrostatic atomizer 3 is in operation, and closed when the electrostatic atomizer 3 is not in operation. Therefore, when the electrostatic atomizer 3 is not operated (in the case of cleaning operation, rinsing operation, drying operation, etc.), the shutter 5 is closed, and the cleaning water or the like is discharged from the discharge unit 6 to the electrostatic atomizer 3 side. Will not invade. Therefore, even though the electrostatic atomizer 3 is provided in the washing machine 1 and the laundry in the washing tub 2 is sterilized and deodorized with the charged fine particle water, the washing water is discharged from the electrostatic atomizer 3. So that it does not cause electrical trouble.

  In the above embodiment, when the electrostatic atomizer 3 is operated at the final stage of the washing operation mode, charged fine particles are generated and discharged into the rotating drum 9, and are floated in the rotating drum 9 and dried or dried. Since the charged fine particle water adheres to the laundry after dehydration and has radicals, the laundry can be sterilized and deodorized. In particular, since it is a nanometer-sized charged fine particle water, it can fly through the washing tub 2 and penetrate deep into the inside of the laundry fibers, thereby more effectively deodorizing and sterilizing.

  In the sterilization / deodorization operation performed at the end of the washing operation, the charged fine particles may be discharged into the rotating drum 9 while rotating the rotating drum 9 containing the laundry. In this case, the rotation operation may be performed only in one direction, or may be performed reciprocally. Thus, when the charged fine particle water is discharged into the rotary drum 9, the laundry put in the rotary drum 9 is rotated in the rotary drum 9 by rotating the rotary drum 9 while the laundry is in the same state. The charged fine particle water can be adhered to every corner of the laundry.

  Further, in the sterilization / deodorization operation performed at the end of the washing operation, the fan 26 is operated at the same time so that charged fine particle water is sent to every corner of the rotary drum 9 and is put into the rotary drum 9. The charged fine particle water can be adhered to every corner of the rotary drum 9, and the charged fine particle water can be brought to the water tank 8 through the small hole of the rotary drum 9. Deodorized. In this case, although not shown, the air supplied by the fan 26 may be heated by a heater to be warm air, and the charged fine particle water may be discharged into the rotating drum 9 by being put on the warm air. That is, when the electrostatic atomizer 3 is operated and a high voltage is applied to the discharge electrode 17 to generate charged fine particle water, ozone is generated although it is a small amount, but generation of charged fine particles by generating warm air. In this case, ozone that is slightly generated is decomposed quickly. In this case, since the amount of generated ozone is very small, the amount of warm air may be small, and the sound wind may be a relatively low temperature.

  In the above embodiment, the washing machine 1 is provided with the first washing operation mode and the second washing operation mode, and the electrostatic atomizer 3 is operated as one stage of a series of washing operation modes to disinfect Although an example in which the deodorizing operation is performed is shown, the sterilization / deodorizing operation may be performed by operating the electrostatic atomizer 3 independently of the cleaning operation mode. Control is performed so that the shutter 5 is opened only during the operation of the generator 3 and the shutter 5 is closed while the operation of the electrostatic atomizer 3 is stopped.

  Next, another embodiment will be described with reference to FIG. In the present embodiment, the electrostatic atomizer 3 is disposed at a location different from the washing tub 2 of the washing machine body 7 (above the washing tub 2 in the embodiment of FIG. 5). The atomizer 3 and the washing tub 2 are communicated. The discharge path 16 meanders in the vertical direction, and a drainage small hole 23a constituting the drainage means 23 is provided at the bottom of the valley 16a, and one end of a drainage pipe 23b is connected to the drainage small hole 23a. When water accumulates in the valley 16a portion of the discharge path 16 meandering up and down, the water is drained into the washing tub 2 or the drainage channel 12 through the drain pipe 23b.

  In this embodiment, even if washing water scatters in the washing tub 2 and enters the discharge path 16 from the end opening of the discharge path 16 in the washing operation and the rinsing operation, the inside of the discharge path 16 meandering vertically. Thus, water does not enter the electrostatic atomizer 3 located in the back of the discharge path 16 meandering up and down and accumulated in the valleys 16a of the water. The washing water accumulated in the valley 16a in the discharge path 16 is drained into the washing tub 2 or the drainage channel 12 through the drain pipe 23b. Therefore, during the sterilization / deodorization operation in which the electrostatic atomizer 3 is operated to generate charged fine particle water and discharge the charged fine particle water into the washing tub 2 through the discharge path 16, the valley 16 a in the discharge path 16. Thus, the charged fine particle water can be smoothly discharged into the washing tub 2 through the discharge path 16.

  In the present embodiment, the discharge path 16 meanders in the vertical direction so that the washing water does not enter the electrostatic atomizer 3, and other configurations and operations are the same as those in the above-described embodiment. Therefore, explanation is omitted.

  Further, the example of the washing machine 1 referred to as a washing / drying machine having a washing function and a drying function has been described as the washing machine 1. However, in the washing machine having only the washing function as the washing machine 1, washing in the washing machine 1 is performed. A series of washing operations for washing the laundry is performed by washing the laundry, rinsing the laundry, dehydrating the laundry, drying the laundry, and driving the electrostatic atomizer 3. May be sequentially performed for disinfecting and deodorizing the laundry by discharging the product into the washing tub 2.

  In the embodiment shown in the attached drawings, an example of the electrostatic atomizer 3 that generates charged fine particle water by applying a high voltage between the discharge electrode and the counter electrode is shown. There may be.

DESCRIPTION OF SYMBOLS 1 Washing machine 2 Washing tub 3 Electrostatic atomizer 16 Discharge path 23 Drain means

Claims (1)

  An electrostatic atomizing device is provided in a washing machine that puts laundry in a washing tub provided in a washing machine main body and performs washing to generate charged fine particle water and discharge it into the washing tub. Is arranged in a place different from the washing tub in the washing machine main body, and a discharge path meandering in the vertical direction is provided to discharge charged fine particle water generated by the electrostatic atomizer to the washing tub. A washing machine characterized in that a drainage means is provided in the discharge path.

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