JP7042446B2 - dishwasher - Google Patents

Description

The present invention relates to a dishwasher provided with an ion generating unit.

In a conventional dishwasher, dishes and other objects to be washed are stored inside the washing tank and washed with washing water sprayed from a washing nozzle. In general, a dishwasher is provided with a drying unit, and warm air is blown into the washing tank to dry the dishes after washing.

Further, a dishwasher equipped with an electrostatic atomizer that generates ion particles to disinfect and deodorize objects to be washed such as tableware and a washing tank has been developed (see, for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 2008-237489

However, there may be a case where it is desired to sufficiently distribute the charged fine particle water generated by the electrostatic atomizer in the washing tank.

Therefore, an object of the present invention is to provide a dishwasher capable of sufficiently distributing the charged fine particle water generated by the electrostatic atomizer in the washing tank.

The dishwasher according to the present invention includes a washing tank for storing objects to be washed and a washing tank.
A cleaning nozzle for cleaning the object to be cleaned and
A main air passage that communicates the intake port that takes in outside air with the washing tank and supplies the outside air as it is or by heating it to the washing tank.
Charged fine particle water and / and an ion generating part that generates ions,
A bypass air passage that supplies charged fine particle water and / and ions generated by the ion generating portion to the main air passage, and
Equipped with
The ion generating portion and the substrate portion for applying a voltage to the ion generating portion are provided apart from each other.

According to the dishwasher according to the present invention, the charged fine particle water generated by the electrostatic atomizer can be sufficiently distributed in the washing tank.

It is a schematic perspective view which shows the structure of the dishwasher which concerns on Embodiment 1. FIG. It is a schematic perspective view which looked at the lower part of the washing tub from the upper side of the dishwasher of FIG. It is a schematic perspective view which shows the iontophoresis and drying unit in the dishwasher which concerns on Embodiment 1. FIG. It is a schematic perspective view seen from the back surface of the iontophoresis and drying unit of FIG. It is a schematic sectional drawing which shows the structure of the electrostatic atomization generator. It is a front view of the ion generation unit in the dishwasher which concerns on Embodiment 2. FIG. It is a back view of the ion generation part of FIG. 6A. It is a schematic perspective view which shows the state of incorporating an ion generation unit into an ion introduction and drying unit.

The dishwasher according to the first aspect includes a washing tank for storing the object to be washed and a washing tank.
A cleaning nozzle for cleaning the object to be cleaned and
A main air passage that communicates the intake port that takes in outside air with the washing tank and supplies the outside air as it is or by heating it to the washing tank.
Charged fine particle water and / and an ion generating part that generates ions,
A bypass air passage that supplies charged fine particle water and / and ions generated by the ion generating portion to the main air passage, and
Equipped with
The ion generating portion and the substrate portion for applying a voltage to the ion generating portion are provided apart from each other.

According to the above configuration, since the electrostatic atomizer that functions as the ion generator is provided not in the main air passage but in the bypass air passage branched from the main air passage, the charged fine particles generated by the electrostatic atomizer are provided. Water can be sufficiently distributed in the washing tank. Further, the substrate portion can be arranged in an insulated section.

In the first aspect of the dishwasher according to the second aspect, the ion generating unit includes charged fine particle water and / and a discharge electrode and a counter electrode for generating ions.
The discharge electrode and the counter electrode are provided in the bypass air passage, and the substrate portion is provided apart from the discharge electrode and the counter electrode.

According to the above configuration, since the electrostatic atomizer that functions as the ion generator is provided not in the main air passage but in the bypass air passage branched from the main air passage, the charged fine particles generated by the electrostatic atomizer are provided. Water can be sufficiently distributed in the washing tank. Further, the substrate portion can be arranged in an insulated section.

In the second aspect of the dishwasher according to the third aspect, the discharge electrode and the counter electrode of the ion generating portion and the substrate portion may be arranged on both sides of the main air passage, respectively. ..

With the above configuration, it is possible to protect the substrate portion from the moisture flowing back in the main air passage during the cleaning step and the rinsing step in which the blower fan is not driven.

In the third aspect, the dishwasher according to the fourth aspect has a first portion for accommodating the discharge electrode and the counter electrode of the ion generating portion, a second portion for accommodating the substrate portion, and the first portion. An ion generation unit having a third portion connecting the portion and the second portion.
By installing the first portion and the second portion on both sides of the main air passage, the first portion for accommodating the discharge electrode and the counter electrode is communicated with the main air passage to bypass the air passage. It may have an ion generation unit constituting the above.

Since the ion generation unit is unitized by the above configuration, it can be easily incorporated into the ion introduction and drying unit.

Hereinafter, the dishwasher according to the embodiment will be described with reference to the attached drawings. In the drawings, substantially the same members are designated by the same reference numerals.

(Embodiment 1)
FIG. 1 is a schematic perspective view showing the configuration of the dishwasher 10 according to the first embodiment. FIG. 2 is a schematic perspective view of the lower part of the washing tank 2 seen from above the dishwasher 10 of FIG. FIG. 3 is a schematic perspective view showing an iontophoresis and drying unit 20 in the dishwasher 10 according to the first embodiment. FIG. 4 is a schematic perspective view of the iontophoresis and drying unit 20 of FIG. 3 as viewed from the back surface. In the figure, for convenience, the X direction is shown from left to right on the front surface of the dishwasher, the depth direction is shown as the Y direction, and the vertical upper direction is shown as the Z direction. Further, in FIGS. 1 and 2, the front door is omitted to show the internal structure.

The dishwasher 10 according to the first embodiment includes a washing tank 2 for storing dishes and the like, and washing nozzles 5a, 5b and 5c for washing the dishes and the like. Further, the dishwasher 10 includes an electrostatic atomizer 18 that functions as an ion generating unit in the bypass air passage 14a of the main air passage 14. The electrostatic atomizer 18 produces negatively charged nanometer-sized charged fine particle water. The generated charged fine particle water joins the main air passage 14 from the bypass air passage 14a by the blower fan 12 which is a blower device, and is mixed with the air sent into the cleaning tank 2. The charged fine particle water mixed with air is supplied into the washing tank 2 to sterilize and deodorize the object to be washed such as tableware and the inner surface of the washing tank 2.

In the first embodiment, the electrostatic atomizer 18 (ion generation unit), the substrate unit 19, the blower fan 12 that also serves as the drying unit 16, and the main air passage 14 are included to introduce ions. The drying unit 20 is configured. With this configuration, charged fine particle water and / and ions are supplied into the washing tank 2 in combination with the air blower fan 12 for drying. Therefore, a dedicated blower or air passage for supplying charged fine particle water and / or ions from the ion generating portion to the washing tank 2 becomes unnecessary. This makes it possible to provide an inexpensive dishwasher.

According to the dishwasher according to the first embodiment, the electrostatic atomizer 18 that functions as an ion generating unit is provided not in the main air passage 14 but in the bypass air passage 14a branched from the main air passage, so that it is electrostatic. The charged fine particle water generated by the atomizer can be sufficiently distributed in the washing tank.

Each member constituting this dishwasher will be described below.

<Main body>
The main body 1 houses the washing tank 2. The main body 1 may be stored in a built-in type under, for example, a kitchen countertop, or may constitute a main body of a dishwasher that can be independently placed on a countertop or the like. ..

<Washing tank>
The washing tank 2 usually has an opening on the front side, and a tableware tray 4 for storing tableware and other objects to be washed is arranged from the front side. It should be noted that the structure may be such that an opening is provided at the upper part and a tableware tray for storing items to be washed such as tableware is arranged from the upper part.

<Door>
The door (not shown) is provided for the opening provided in the washing tank 2, and is provided on the front side when the opening is on the front side and on the upper side when the opening is on the upper side. Further, the door may be one or a combination of two or more doors. The door may be opened toward the front side and the door may be located at the lower front side in the open position or at the upper front side in the open position. Alternatively, it may open toward the left or right and the door may be located on the left or right side in the open position. In the case of two or more doors, the so-called double doors that open symmetrically or may open in the same direction may be used.

<Tableware tray>
The tableware tray (not shown) can be arranged from the front side of the washing tank 2 along the rail 3a provided on the side surface of the washing tank 2, for example. In the examples of FIGS. 1 and 2, the upper rail 3a and the lower rail 3b are provided, and the tableware trays can be arranged above and below.

<Washing nozzle (cleaning means)>
Using the cleaning nozzles (cleaning means) 5a, 5b, and 5c, cleaning water is sprayed onto the object to be cleaned such as tableware stored in the tableware tray in the cleaning tank 2 for cleaning. The cleaning nozzles 5a, 5b, and 5c may be appropriately arranged.
Further, a heater for heating the washing water may be provided to make the washing water hot water.

<Iontophoresis and drying unit>
The ion introduction and drying unit 20 includes an electrostatic atomizer 18 (ion generation unit), a substrate unit 19, a drying unit 16, a blower fan 12 for both the ion generation unit 18 and the drying unit 16, and a main wind. It is composed of a road 14 and a bypass air passage 14a.

<Main wind path>
The main air passage 14 communicates the intake port 11 that takes in outside air with the outlet 6 to the washing tank 2. The outlet 6 into the cleaning tank 2 of the main air passage 14 is provided at the lower part of the cleaning tank 2 as shown in FIG. 2, for example. Further, the outlet 6 is not limited to the lower portion of the cleaning tank 2, and may be provided at any of the side portion, the front portion, the upper portion, or a plurality of these locations. It should be noted that the intake port 11 does not necessarily have to be provided on the top surface of the main body 1 as long as it can take in outside air. Further, air may be taken in from between the main body 1 and the cleaning tank 2, and in this case, air may be taken in from the side surface or the bottom surface of the main body.

<Bypass airway>
The bypass air passage 14a is an air passage that branches from the main air passage 14, and as shown in FIGS. 3 and 4, after branching from the main air passage 14, it rejoins the main air passage 14. The bypass air passage 14a is configured to have a smaller cross-sectional area perpendicular to the flow direction of the air passage than the main air passage 14. As a result, if the flow velocity is the same in each air passage, the flow rate flowing through the bypass air passage 14a is smaller than the flow rate flowing through the main air passage 14. By increasing the cross-sectional area in the bypass air passage 14a as compared with the inlet of the bypass air passage 14a, the flow velocity in the bypass air passage 14a is made slower than the flow velocity at the inlet, that is, the flow velocity in the main air passage 14. You may. As a result, the dew condensation water required for the generation of the charged fine particle water is less likely to be blown off, and the generation of the dew condensation water and the generation of the charged fine particle water in the bypass air passage 14a can be appropriately controlled.
Further, at the confluence portion from the bypass air passage 14a to the main air passage 14, the flow direction from the outlet of the bypass air passage 14a is arranged so as to match the flow direction of the main air passage 14 (substantially downward direction), and the main wind is arranged. It merges along the flow direction of the road 14.

<Blower fan>
The blower fan 12 is provided on the intake port 11 side of the main air passage 14. As a result, the ventilation of the ion generating section 18 and the drying section 16 can be shared. The blower fan 12 in the present embodiment is arranged on the upstream side (positive pressure) of the electrostatic atomizer 18 with respect to the air flow, but is located on the downstream side (negative) of the electrostatic atomizer 18. The air may be arranged in the pressure) and the air entering the bypass air passage 14a from the main air passage 14 may be drawn by the blower fan 12.

<Electrostatic atomizer (ion generator)>
FIG. 5 is a schematic configuration diagram of an electrostatic atomizer 18 that functions as an ion generating unit. In the electrostatic atomizer 18, as shown in FIG. 5, the electrostatic atomizer 18 first cools the moisture in the air by the cooling unit 18b composed of the Peltier unit 18a and the like to remove the dew condensation water. Generate. The generated dew condensation water is supplied to the discharge electrode 18c. In this case, the discharge electrode 18c may be directly cooled, and the water in the air may be condensed directly on the discharge electrode 18c.
Then, with the dew condensation water supplied to the discharge electrode 18c, a high voltage is applied from the substrate portion 19 between the discharge electrode 18c and the counter electrode 18d. At this time, the dew condensation water at the tip of the discharge electrode 18c receives a large amount of energy (repulsive force of high-density electric charge). As a result, negatively charged nanometer-sized charged fine particle water or ions are generated and released. The released charged fine particle water or ions are introduced into the cleaning tank 2 through the confluence portion from the bypass air passage 14a to the main air passage 14.

<Board part>
The substrate unit 19 supplies a voltage to the ion generation unit 18. The board portion 19 includes, for example, a transformer that generates a high voltage. The substrate portion 19 also supplies a voltage to the Peltier unit 18a. The substrate portion 19 is provided apart from the discharge electrode 18c and the counter electrode 18d constituting the ion generation portion 18. As a result, the substrate portion 19 can be arranged in the insulated section. Further, the electrostatic atomizer 18 and the substrate portion 19 are arranged separately on the left and right sides of the main air passage 14. In this case, the discharge electrode 18c and the counter electrode 18d of the electrostatic atomizer 18 are provided facing the bypass air passage 14a, but the substrate portion 19 is provided in both the bypass air passage 14a and the main air passage 14. It is placed in a section that does not face. As a result, the substrate portion 19 can be protected from the moisture flowing back through the main air passage 14 during the cleaning step and the rinsing step in which the blower fan 12 is not driven. In this case, it is more preferable that the substrate portion 19 is arranged not on the front side of the dishwasher 10 but on the back side. As a result, the substrate portion 19 can be arranged as far as possible from the moisture from the front side of the dishwasher 10.
It should be noted that the electrostatic atomization generator 18 cannot sufficiently exhibit the performance of generating charged fine particle water or ions even if the humidity around the device 18 is too high or too low. The humidity in the washing tank 2 increases during and immediately after washing the dishes, and the humidity in the washing tank 2 decreases during and immediately after the dishes are dried. Therefore, it is most effective in the environment of the dishwasher 10 to generate charged fine particle water or ions by the electrostatic atomization generator 18 while taking in the outside air and discharge it into the washing tank 2 together with the outside air.

The ion generation unit 18 is not limited to the electrostatic atomizer that generates charged fine particle water. For example, it may be an ion generator in which a Peltier unit is not provided, or an ion generator that generates positive and negative ions as a discharge state between a pair of electrodes.

<Dry part>
The drying portion 16 is provided in the main air passage 14 after the bypass air passage 14a joins the main air passage 14. For example, a heater may be arranged in the drying unit 16. The drying unit 16 can heat the taken-in outside air into warm air.
In the drying step, the blower fan 12 is driven to take in outside air from the intake port 11. At this time, dust or the like may be removed from the outside air by, for example, a filter (not shown). The taken-in outside air is heated by the drying portion 16 via the main air passage 14, becomes warm air, and is supplied into the washing tank 2 from the outlet 6. If the filter is arranged in the main air passage 14 on the upstream side of the flow of the outside air entering the bypass air passage 14a, the air from which dust and the like have been removed as much as possible is sent to the electrostatic atomizer 18, so that the electrostatic atomizer It is possible to prevent the 18 from becoming dirty and the performance from deteriorating as much as possible. The object to be washed such as tableware and the washing tank 2 are dried by the warm air supplied to the washing tank 2. After that, the air containing water is discharged from the exhaust port 7. The drying portion 16 may include a dehumidifying portion. Further, in the drying step, the intake port may be switched between the outside air and the inside of the washing tank 2, or the air in the washing tank 2 may be taken in and circulated through the intake port 11.
The drying unit 16 may not be operated while the electrostatic atomizer 18 is being operated.

(Embodiment 2)
FIG. 6A is a front view of the ion generation unit 30 in the dishwasher according to the second embodiment. FIG. 6B is a back view of the ion generation unit 30 of FIG. 6A. FIG. 7 is a schematic perspective view showing how the ion generation unit 30 is incorporated into the ion introduction and drying unit 20.

In the dishwasher according to the second embodiment, in comparison with the dishwasher according to the first embodiment, the first portion 32 for accommodating the electrostatic atomizer 18 and the second portion 34 for accommodating the substrate portion 19 are static. An ion generation unit 30 having a third portion 36 that accommodates a wire rod (not shown) that connects the atomizing device 18 and the substrate portion 19 and connects the first portion 32 and the second portion 34. It differs in that it includes. In the ion generation unit 30, the first portion 32 and the second portion 34 are installed on both sides of the main air passage 14, so that the first portion 32 accommodating the discharge electrode 18c and the counter electrode 18d is the main air passage. It is communicated with 14 to form a bypass air passage 14a. Since the substrate portion 19 is arranged in a section that does not face either the bypass air passage 14a or the main air passage 14, the main air passage is used during a cleaning step or a rinsing step in which the blower fan 12 is not driven. The substrate portion 19 can be protected from the moisture flowing back through the 14.

Since the ion generation unit 30 is unitized, it can be easily incorporated into the ion introduction and drying unit 20, for example, as shown in FIG. 7. As a result, the discharge electrode 18c, the counter electrode 18d, and the substrate portion 19 can be arranged on both sides of the main air passage 14, respectively. In FIG. 7, the electrostatic atomizer 18 and the substrate portion 19 are attached to the iontophoresis and drying unit 20 side, but the electrostatic atomizer 18 and the wire rod and the like connected to the substrate portion 19 are attached. If all of the above are attached to the ion generation unit 30 side in advance, it is only necessary to attach the ion generation unit 30 to the ion introduction and drying unit 20, so that the incorporation can be further facilitated.

According to the dishwasher according to the first and second embodiments, after a series of washing steps, a rinsing step, and a drying step, the washing tank 2 is used by the electrostatic atomizer (ion generation unit) 18 during storage. It is possible to perform deodorization and sterilization by supplying charged fine particle water and / and ions to the (deodorization / sterilization step). Specifically, the blower fan 12 is driven to take in outside air, and the electrostatic atomizer 18 generates charged fine particle water and / or ions, and the washing tank 2 is generated from the bypass air passage 14a via the main air passage 14. Supply to. By repeating this deodorizing / sterilizing step at the time of storage, the generation of odor and the growth of bacteria can be suppressed.
Further, the deodorizing / sterilizing step may be performed prior to the cleaning step. This makes it possible to suppress odors and sterilize before the cleaning step. Further, the configuration according to the present invention may be mounted on a dishwasher having a so-called drying portion or the like having no cleaning function and blowing air to dry the dishes.

It should be noted that the present disclosure includes appropriately combining any of the various embodiments and / or embodiments described above, and the respective embodiments and / or embodiments. The effects of the examples can be achieved.

According to the dishwasher according to the present invention, the electrostatic atomizer that functions as an ion generator is provided not in the main air passage but in the bypass air passage branched from the main air passage, so that the electrostatic atomizer generates the electrostatic atomizer. The charged fine particle water can be sufficiently distributed in the washing tank.

1 Main body 2 Cleaning tank 5a, 5b, 5c Cleaning nozzle (cleaning means)
6 Outlet port 7 Exhaust port 10 Dishwasher 11 Intake port 12 Blower fan 14 Main air passage 14a Bypass air passage 16 Drying part 18 Electrostatic atomizer (ion generation part)
18a Peltier unit 18b Cooling part 18c Discharge electrode 18d Opposite electrode 19 Substrate part 20 Iontophoresis and drying unit 30 Ion generation unit 32 1st part 34 2nd part 36 3rd part

Claims (3)

A washing tank for storing items to be washed and
A cleaning nozzle for cleaning the object to be cleaned and
A drying unit including a main air passage that communicates the intake port for taking in outside air with the washing tank and supplies the outside air to the washing tank as it is or by heating it.
Charged fine particle water and / and an ion generating part that generates ions,
A bypass air passage that supplies charged fine particle water and / and ions generated by the ion generating portion to the main air passage, and
Equipped with
The ion generating portion and the substrate portion for applying a voltage to the ion generating portion are provided apart from each other .
An ion generation unit having a first portion for accommodating the ion generating portion, a second portion for accommodating the substrate portion, and a third portion for connecting the first portion and the second portion.
By installing the first portion and the second portion apart from each other on both sides of the main air passage, the first portion for accommodating the ion generating portion is communicated with the main air passage and the bypass is used. A dishwasher having an ion generation unit constituting an air passage, to which the ion generation unit in which the ion generation unit and the substrate portion are housed is attached to the drying unit . The ion generating portion includes charged fine particle water and / and a discharge electrode and a counter electrode for generating ions.
The dishwasher according to claim 1, wherein the discharge electrode and the counter electrode are provided in the bypass air passage, and the substrate portion is provided apart from the discharge electrode and the counter electrode. The dishwasher according to claim 2, wherein the discharge electrode and the counter electrode of the ion generating portion and the substrate portion are respectively arranged on both sides of the main air passage.

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