JP4604355B2 - Dishwasher - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a dishwasher for home use or business use.
[0002]
[Prior art]
The structure of the conventional dishwasher is demonstrated using FIG. 1 is a main body, 2 is a washing tank, 3 is a lid for opening and closing the opening of the washing tank, 4 is an exhaust port provided in the lid 3, and 5 is a tableware basket for storing tableware such as tableware (hereinafter referred to as tableware). Further, it is supported by a rail surface 7 provided on the side surface of the cleaning tank 2 through a rotating roller 6. Reference numeral 8 denotes a cleaning pump for supplying cleaning water. Reference numeral 9 denotes a cleaning nozzle installed below the cleaning tank 2. The cleaning water supplied by the cleaning pump 8 is sprayed from below onto the tableware stored in the tableware basket 5. . Reference numeral 10 denotes a drainage pump for discharging the cleaning water stored in the cleaning tank to the outside of the apparatus. Reference numeral 11 denotes a control device that controls the operation of the cleaning pump 8, the drainage pump 10, and the like. 12 is a water supply hose and 13 is a drainage hose. Reference numeral 14 denotes a heater used for heating cleaning water and heating air during drying, and is provided at the bottom of the cleaning tank 2. Reference numeral 15 denotes a blower for drying.
[0003]
When washing dishes, the dishes are stored in the dish basket 5 of the washing tub 2, and detergent is put in to start operation. When the operation is started, first, a water supply step of supplying a predetermined amount of cleaning water to the cleaning tank 2 is performed so that the operation of the cleaning pump 8 supplying the cleaning water is stabilized. The cleaning pump 8 has a centrifugal blade (not shown) and an electric motor (not shown) for driving the centrifugal blade. Subsequently, a main washing process is performed in which the washing water supplied by the washing pump 8 and heated by the heater 14 is jetted from the jet port 16 of the washing nozzle 9 together with the detergent. At this time, the washing water is jetted vertically or obliquely upward from the jet nozzle 16 of the washing nozzle 9. Further, the cleaning nozzle 9 is rotated substantially horizontally by the jet reaction force. The tableware is washed by the action of the collision force, detergent, heat, etc. of the washing water sprayed from the washing nozzle 9 rotating in this way.
[0004]
After passing through the main washing process for a predetermined time, the process enters a draining process in which cleaning water containing dirt washed off from tableware and the like is discharged to the outside by the drainage pump 10. Subsequently, a water supply process for newly supplying cleaning water, a rinsing process for spraying cleaning water from the cleaning nozzle 9 in order to rinse the dishes contaminated with detergents and residual vegetables (stained dishes are also called residual vegetables), The draining step is continuously repeated four times to complete the cleaning step. The final rinsing step is called a heating rinsing step in which the washing water temperature is raised to about 70 ° C., and the tableware is rinsed with hot water. And the main washing process and the rinse process which performs several rinses are called a washing process.
[0005]
Subsequently, air is sent from the outside of the machine into the washing tub 2 by the blower 15 through the blow duct 17 to the washing tub 2 through the blower opening 18, and the heater 14 is operated intermittently to produce hot air. A drying process for evaporating water droplets adhering to is performed.
[0006]
The following proposals have been made as cleaning methods for improving the cleaning performance using a plurality of cleaning nozzles. For example, as shown in Japanese Patent Laid-Open No. 5-305050, a method of injecting cleaning water from multiple directions with a cleaning mechanism constituted by one cleaning pump and a plurality of cleaning nozzles, or Japanese Patent Laid-Open No. 5-176875. As shown in the publication, there has been proposed one using a plurality of cleaning pumps and a plurality of cleaning nozzles.
[0007]
Further, as shown in JP-A-6-30853, a configuration in which a three-way valve is frequently used to divide water has been proposed.
Furthermore, as shown in Japanese Patent Application Laid-Open No. 11-19019, there has been proposed a water diversion switching configuration in which the rising at the time of starting the cleaning pump and the rotation direction of the cleaning nozzle are linked.
[0008]
[Problems to be solved by the invention]
However, the conventional configuration has the following problems. For example, in the configuration shown in Japanese Patent Laid-Open No. 5-305050, since water is sprayed from a plurality of cleaning nozzles at the same time, the amount of water supplied in the cleaning tank must be increased. This is because when the amount of water supply is insufficient, air enters the cleaning pump, resulting in an air stagnation state, and the discharge performance of the cleaning pump is rapidly reduced, making it impossible to clean the dishes. In this case, it is necessary to increase the amount of water supply according to the number of cleaning nozzles, but the temperature rise time of the cleaning water becomes longer, resulting in longer operation time, increased power consumption, increased water consumption, Since a large washing pump is required, it has a number of problems such as an increase in running cost and an increase in noise and vibration caused by injecting a large amount of washing water at a time.
[0009]
In the configuration shown in Japanese Patent Laid-Open No. 5-176875, a washing pump is required for each washing nozzle, and since the volume of the mechanism portion in the entire dishwasher increases as well as the problem due to an increase in the amount of water supply, There was a problem that the volume necessary for washing could not be secured sufficiently, or the dishwasher main body became larger than necessary.
[0010]
In addition, the configuration shown in Japanese Patent Laid-Open No. 6-30853 is a configuration used for a dishwasher that handles washing water mixed with leftovers and foreign matters, when it is difficult to ensure operational reliability or when there are many diversion channels. In addition, the number of three-way valves is increased, a peculiar noise is generated during valve operation, or the cost is increased.
Furthermore, the configuration shown in Japanese Patent Application Laid-Open No. 11-19019 has a problem that it is difficult to exhibit a predetermined cleaning performance due to low operation reliability because of a mechanism that switches only by water pressure.
[0011]
In addition, a mechanism part is a component for implement | achieving washing | cleaning and drying arrange | positioned at the washing tank lower part etc., and is a general term for a washing | cleaning pump, a drainage pump, an air blower, a control apparatus, etc.
[0012]
[Means for Solving the Problems]
  In order to solve the above-mentioned conventional problems, the dishwasher of the present invention includes a washing pump for supplying washing water, a plurality of washing means, and between the washing pump and each washing means.Rotates using drive motor as drive sourceIn the configuration provided with the water distribution means, the cross-sectional area of at least one water distribution discharge port and the cleaning discharge path is made larger than that of the discharge port. With this water distribution means, the cleaning water discharged from the cleaning pump can be supplied to any cleaning means while sequentially switching to each cleaning means, so that the dishes can be washed from multiple directions without increasing the amount of water supply. Water can be jetted. Moreover, since the passage pressure loss of the water distribution means can be reduced, it is possible to prevent the discharge pressure of the cleaning water discharged from the cleaning means from being lowered.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
  The invention according to claim 1 of the present invention includes a tableware basket for storing tableware and the like, a cleaning tank for storing the tableware basket, a cleaning pump for supplying cleaning water, and a plurality of cleaning means arranged in the cleaning tank. And water supply means for switching and supplying the cleaning water from the cleaning pump to each of the cleaning means, and a plurality of cleaning discharge paths for connecting each of the cleaning means and the water distribution means. A water conveyance part for introducing the cleaning water sent, a water distribution part provided with a discharge port for discharging the cleaning water guided from the water conveyance part, and a cleaning discharge path for introducing the cleaning water from the discharge port of the water distribution part A diversion outlet having a plurality of diversion outlets, and driving means for moving the position of the discharge outlet of the diversion section to a position corresponding to the diversion outlet of the diversion outlet,The drive means rotates the water diversion unit using a drive motor as a drive source,The opening area of the water distribution outlet is configured to be larger than the opening area of the outlet.
[0014]
  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to spray wash water from multiple directions with respect to arbitrary tableware, without increasing a water supply amount, and can implement | achieve high washing | cleaning performance in a short time. Furthermore, energy saving and water saving can be realized by reducing the number of times of rinsing. In addition, since the setting position and setting method of the tableware to the tableware basket are not selected, it is possible to provide a dishwasher with more excellent setability. Moreover, since the pressure loss of the washing water passing through the water dividing means can be reduced, a high washing discharge pressure can be obtained without using an excessive washing pump.
According to a second aspect of the present invention, in the configuration described in the first aspect, the drive motor is configured to continuously rotate.
According to a third aspect of the present invention, in the configuration described in the second aspect, the driving motor is configured to rotate at a constant speed.
[0015]
  Claims of the invention4The invention described in claim 1Any one of -3In addition to the configuration described in the above, the water diversion part of the water diversion means has a discharge port with a bottomed cylindrical shape.Side or bottomA rotating water diverting unit provided on the surface and rotated by a driving means, and a water diversion taking part is a bottomed cylindrical shape covering the rotating water diverting unit.Side or bottomsurfacePosition facing the discharge portIt has the structure which provided the water distribution discharge port in this.
[0016]
ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to spray wash water from multiple directions with respect to arbitrary tableware, without increasing a water supply amount, and can implement | achieve high washing | cleaning performance in a short time. Furthermore, energy saving and water saving can be realized by reducing the number of times of rinsing. In addition, since the setting position and setting method of the tableware to the tableware basket are not selected, it is possible to provide a dishwasher with more excellent setability. Moreover, since the pressure loss of the washing water passing through the water dividing means can be reduced, a high washing discharge pressure can be obtained without using an excessive washing pump.
[0017]
  Claims of the invention5The invention described in claim4In addition to the configuration described in (1), the hole shape of the water distribution outlet is a rectangular or substantially elliptical shape having a longer length in the circumferential direction than the hole shape of the outlet.
[0018]
According to the present invention, cleaning water can be discharged from the cleaning means communicating with the water distribution outlet for a longer time than other cleaning means. In addition, it is not realized by changing the rotation speed of the drive source that drives the rotating water distribution unit, but it is possible to realize a configuration in which the discharge time of the cleaning means is changed while the rotation speed is constant. For this reason, it is possible to sufficiently inject cleaning water even for tableware that is difficult to remove with an inexpensive configuration. Also, the dishes can be washed in a short time.
[0019]
  Claims of the invention6The invention described in claim5In addition to the configuration described above, the cleaning discharge path has a passage that changes the sectional area of the water discharge outlet to the passage sectional area of the cleaning discharge path.
[0020]
According to the present invention, it is possible to prevent an increase in the amount of circulating cleaning water due to the enlargement of the passage. Therefore, the heating time can be shortened by reducing the amount of water supply, and the cleaning time and energy saving can be realized.
[0021]
In addition to the structure described in any one of claims 1 to 6, the opening length in the moving direction of the discharge port is the same as that of the adjacent water discharge port. It is configured to be equal to or longer than the length between the holes with the water discharge outlet.
  Claims of the invention8According to the invention described in the above, the table includes a tableware basket for storing tableware, a cleaning tank for storing the tableware basket, a cleaning pump for supplying cleaning water, a plurality of cleaning means arranged in the cleaning tank, and a cleaning pump. Water supply means for switching and supplying cleaning water to each cleaning means, and a plurality of cleaning discharge paths connecting each cleaning means and the water distribution means, wherein the water distribution means supplies the cleaning water fed by the cleaning pump. A water diverting part for introducing a cleaning water from a water guiding part for guiding, a water discharging part for discharging the washing water guided from the water guiding part, and a water diverting part for introducing the cleaning water from the water discharging part. A plurality of diversion outlets, and driving means for moving the position of the outlet of the diversion part to a position corresponding to the diversion outlet of the diversion outlet, and opening the movement direction of the outlet The length is approximately the same as the distance between adjacent water discharge outlets. It is intended to as one, or more.
[0022]
According to the present invention, the discharge port always coincides with any one of the cleaning discharge paths, so that an excessive pressure increase in the path from the cleaning pump to the cleaning means can be prevented. Therefore, the durability reliability due to the overload to the connection part or seal part in the cleaning path is not significantly reduced.
[0023]
  Claims of the invention9The invention described in claim8In addition to the configuration described in the above, the water diversion part of the water diversion means has a discharge port with a bottomed cylindrical shape.Side or bottomThe water diversion unit is provided on the surface and is rotated by the driving means, and the water diversion unit is configured to cover the rotation diversion unit with the diversion outlet of the cleaning discharge path for introducing the cleaning water from the discharge port of the rotation diversion unit. Bottomed cylindricalSide or bottomsurfacePosition facing the discharge portThe circumferential length of the discharge port is substantially the same as or longer than the arc length between the holes of the adjacent water discharge ports.
[0024]
According to the present invention, the discharge port always coincides with any one of the cleaning discharge paths, so that an excessive pressure increase in the path from the cleaning pump to the cleaning means can be prevented. Therefore, the durability reliability due to the overload to the connection part or seal part in the cleaning path is not significantly reduced.
[0025]
  Claims of the invention10According to the invention described in the above, the table includes a tableware basket for storing tableware, a cleaning tank for storing the tableware basket, a cleaning pump for supplying cleaning water, a plurality of cleaning means arranged in the cleaning tank, and a cleaning pump. Water supply means for switching and supplying cleaning water to each cleaning means, and a plurality of cleaning discharge paths connecting each cleaning means and the water distribution means, wherein the water distribution means supplies the cleaning water fed by the cleaning pump. A water diverting part for introducing a cleaning water from a water guiding part for guiding, a water discharging part for discharging the washing water guided from the water guiding part, and a water diverting part for introducing the cleaning water from the water discharging part. A plurality of diversion outlets, and driving means for moving the position of the outlet of the diversion part to a position corresponding to the diversion outlet of the diversion outlet, and the length of the discharge port in the moving direction. The length of the moving direction of any diversion outlet is adjacent to the diversion discharge It is an substantially the same as the Anakan length plus the length of the water diversion discharge port, or more.
[0026]
According to the present invention, since the amount of circulating cleaning water discharged from the cleaning pump can always be kept constant, there is no pressure fluctuation to the connection part or seal part in the cleaning discharge path, and durability reliability is ensured. Will not be reduced. In addition, the cleaning energy discharged from the cleaning means varies periodically when viewed from each cleaning means alone, but when viewed from the entire cleaning means, a constant cleaning energy can always be given to the tableware. The dishes can be washed well.
[0027]
  According to an eleventh aspect of the present invention, in addition to the structure described in the tenth aspect, the water diversion portion of the water diversion means is a rotation which is provided with a discharge port on a bottomed cylindrical surface and is rotated by a drive means. A diversion outlet is provided on the bottomed cylindrical surface that covers the rotary diversion section. The diversion outlet is provided with a diversion outlet of a cleaning discharge path for introducing cleaning water from the discharge opening of the rotary diversion section. The circumferential length of the discharge port is substantially the same as the length obtained by adding the arc length of an arbitrary water discharge port and the arc length between holes of adjacent water discharge ports and the water discharge port, or More than that.
[0028]
According to the present invention, since the amount of circulating cleaning water discharged from the cleaning pump can always be kept constant, there is no pressure fluctuation to the connection part or seal part in the cleaning discharge path, and durability reliability is ensured. Will not be reduced. In addition, the cleaning energy discharged from the cleaning means varies periodically when viewed from each cleaning means alone, but when viewed from the entire cleaning means, a constant cleaning energy can always be given to the tableware. The dishes can be washed well.
[0029]
【Example】
Embodiments of the present invention will be described below with reference to the drawings.
[0030]
Example 1
1 is a cross-sectional view of a dishwasher according to a first embodiment of the present invention. FIG. 2 is a partial cross-sectional view showing the structure of the water dividing means of the dishwasher and the flow of the washing water. FIG. 3 is an exploded perspective view showing a water distribution structure of the dishwasher. FIG. 4 is a partial cross-sectional view showing the water dividing means of the dishwasher. FIG. 5 is a diagram showing changes in the discharge pressures of the cleaning nozzles and the cleaning pump per one cycle of the rotating water diversion unit of the dishwasher. FIG. 6 is a perspective view showing the configuration of another cleaning means of the dishwasher. FIG. 7 is a perspective view showing the configuration of another cleaning means of the dishwasher. FIG. 8 is a perspective view showing the configuration of another cleaning means of the dishwasher. FIG. 9 is a perspective view showing the structure of another cleaning means of the dishwasher. FIG. 10 is a perspective view showing the configuration of another cleaning means of the dishwasher. Moreover, FIG. 11 is a perspective view which shows the structure of the other washing | cleaning means of the dishwasher.
[0031]
In FIG. 1, 21 is a main body, 22 is a washing tank, 23 is a lid for opening and closing the opening of the washing tank, 24 is an exhaust port provided in the lid 23, 25 is a tableware basket for storing tableware, and a rotating roll The rail 26 is supported by a rail surface 27 provided on the side surface of the cleaning tank 22. 28 is a cleaning pump for supplying cleaning water, 29 is a cleaning nozzle (cleaning means) installed on the bottom surface of the cleaning tank 22, and the cleaning water is rotated from a plurality of jets 17 to the tableware stored in the tableware basket 25. While spraying. Similarly, 30 is a cleaning nozzle (cleaning means) installed above the cleaning tank 22, 31 is a cleaning nozzle (cleaning means) installed on the back of the cleaning tank 22, and 32 is installed on the left side of the cleaning tank 22. It is a cleaning nozzle. Although not shown, there are also cleaning nozzles (cleaning means) that spray the cleaning water while rotating on the right side of the cleaning tank 22, and a total of five cleaning nozzles (cleaning means) are provided. Further, the cleaning pump is disposed horizontally, and the cleaning pump water supply port 103 is provided at the lowermost portion of the cleaning pump. The cleaning pump discharge port 36 is provided above the cleaning pump water supply port 103 and protrudes substantially in the horizontal direction. In addition, a water distribution outlet 44 is provided at a position higher than the cleaning pump outlet 36. This is because the cleaning pump 28 will not start if air accumulates in the water diversion device 35 during water supply. 33 is a drainage pump for discharging the wash water stored in the wash tank 22 to the outside of the machine. Reference numeral 34 denotes a heater used for heating cleaning water and heating air during drying, and is provided at the bottom of the cleaning tank 22. Reference numeral 35 denotes a water diversion device (a water diversion unit) provided in a discharge path 37 that communicates the cleaning pump discharge port 36 with each cleaning nozzle, and sequentially supplies the cleaning water to each cleaning nozzle. Reference numeral 38 denotes a control device (control means) that controls the operation of the cleaning pump 28, the drainage pump 30, the water diversion device 35, and the like. The cleaning nozzle 29, the cleaning nozzle 30, the cleaning nozzle 31, the cleaning nozzle 32, and the right side cleaning nozzle (not shown) constitute a cleaning means. In this embodiment, the cleaning pump is described in the horizontal arrangement, but the effects of the invention in the present embodiment can be obtained in the vertical arrangement or in other cases.
[0032]
2 and 3, 39 is a water guiding portion (water diverting means) that guides the cleaning water fed by the cleaning pump 28, and 40 is a discharge port 41 (switching portion) that discharges the cleaning water guided from the water guiding portion 39. Is a rotating water diversion unit (switching unit) provided on a substantially cylindrical side surface, and rotates with the driving motor 42 (switching unit) as a driving source. Reference numeral 43 denotes a substantially cylindrical diversion outlet (diversion means) that includes the rotary diversion section 40 and has diversion outlets 44 (diversion means) that communicate with the five cleaning discharge paths 37. . The diversion outlet 44 and the cleaning discharge path 37 communicating with the diversion outlet 44 are constituted by two types having different passage cross-sectional areas, and a pair of the diversion outlet upper 44a and the passage of the cleaning discharge path A 37a communicating therewith. The cross-sectional area is configured to be larger than the opening area of the discharge port 41, and the cross-sectional area is set to be larger than the cross-sectional areas of the other four sets of water distribution discharge port B 44b and the cleaning discharge path B 37b communicating therewith. Yes. In this case, when the rotary diversion part 40 rotates and the discharge port 41 and the diversion discharge port upper 44a coincide with each other, no passage loss occurs when the washing water that has exited from the discharge port 41 enters the diversion discharge port upper 44a. It is configured to maintain the positional relationship. Reference numeral 45 denotes a rotating shaft (switching unit) that connects the driving shaft 80 (switching unit) of the driving motor 42 and the rotating water diverting unit 40. An oil seal 46 (switching unit) is provided. In the present embodiment, only one water diverter outlet 44a is configured to be larger than the opening area of the outlet 41. However, the effect of the present invention can be obtained with two, three, or all. Needless to say.
[0033]
Further, a rotation detection disk 67 having a rotation angle detection slit 50 and a fixed position detection slit 51 on the outer peripheral portion is coaxially fixed to the rotation shaft 45, and a rotation angle detection sensor 47 (light) fixed to the water guide portion 39. The rotation angle of the rotary water diversion unit 40 can be detected by a sensor using the light emission and reception. Reference numeral 48 denotes a fixed position sensor (a sensor that utilizes light reception / emission) for aligning the hole positions of the discharge port 41 and the water diversion discharge port 44, and the position of the discharge port 41 and the specific water diversion discharge port 44. It is provided at a position where it matches the hole. By using the two sensors 47 and 48, the cleaning water can be discharged from the specific cleaning means, and the control means can know which outlet 41 and the center of the water diversion outlet 44 coincide with each other. It can be done. In addition, the fixed position detecting slit 51 is used while the rotation detecting disk 67 rotates, while both the rotation angle detecting sensor 47 and the fixed position sensor 48 detect light, or in a state where light is not detected. It is arranged at a position that only happens once. Further, the plurality of rotation angle detection slits 50 provided in the rotation detection disk 67 are arranged at positions where the holes of the water diversion outlet 44 and the holes of the discharge outlet 41 are aligned. With such an arrangement, the control device determines that only the rotation angle detection sensor 47 detects light or no longer detects the time when the hole positions of the discharge port 41 and the water diversion port 44 match. When both the rotation angle detection sensor 47 and the fixed position sensor detect light or no longer detect light, it is determined that the rotation water diversion unit 40 has come to a fixed position. Reference numeral 49 denotes a drive motor support frame (water diverting means) for fixing the drive motor 42 to the water guide section 39. As for the support of the driving motor 42, it is also possible to integrally form the driving motor supporting frame 49 in a state where the driving motor supporting frame 49 is positioned on the water guide portion 39.
[0034]
Note that the switching unit 101 that sequentially divides the cleaning water into each cleaning nozzle includes a rotating water dividing unit 40, a discharge port 41, a driving motor 42, a rotating shaft 45, an oil seal 46, and a driving motor support. And a driving frame 80. Also, the cleaning / discharging path 37 (including the cleaning / discharging path A 37a and the cleaning / discharging path B 37b) water guide section 39, the diversion outlet 43, the diversion outlet 44 (the diversion outlet A 44a and the diversion outlet B 44b). ), And the switching unit 101 constitutes a water diversion means (= water diversion device 35).
[0035]
Further, although the number of discharge ports 41 has been described as one in this embodiment, the effect of the present invention can be obtained if the number is less than the number of discharge paths 37.
Further, in the present embodiment, the position of the discharge port 41 is described with a configuration provided on the side surface of the rotary water diversion unit 40. However, the discharge port 41 is provided on a surface substantially perpendicular to the rotation shaft 45, and The water diversion outlet 44 provided in 43 is also provided in a position facing the discharge opening 41, or the rotating water diversion part is constituted by a substantially conical shape and a substantially spherical shape, and the discharge opening is provided on any surface thereof. Even if it is a water distribution means, the effect of this invention is acquired.
[0036]
Further, the driving motor 42 described in the present embodiment uses a DC motor that is easily controlled by the control device 38 so that the rotational speed can be changed and the rotational direction can be easily switched. It is also possible to use a gear motor, a stepping motor, or a direct current motor to which a transmission is added in consideration of use in the above. Furthermore, depending on the control method and the size of the motor, an AC motor or an ultrasonic motor may be used.
[0037]
Further, in the description of the present embodiment, in order to detect the fixed position of the rotating water diversion unit 40 and the rotation angle at the time of rotation, an optical sensor using a light receiving and emitting element, and a rotation detection for passing and blocking light. Although it is realized by a combination of the disks 67, when a limit switch is used instead, when both an optical sensor and a limit switch are used, a magnetic sensor or an ultrasonic sensor may be used. Further, the same effect can be realized by using a stepping motor that can also control the rotation speed and the switching of the rotation direction, or a motor with an encoder (not shown).
[0038]
Further, a gap necessary for maintaining the rotation is provided between the rotating water separating unit 40 and the water separating taking-out unit 43 even if foreign matter is mixed. However, a seal member (not shown) made of rubber, resin, Teflon-based seal material or the like is used to eliminate leakage water between the water diversion outlet 44 and the outlet 41. If it comprises in a clearance gap, the leak water to those other than the washing nozzle which is discharging can be eliminated. As a result, water supply volume can be further reduced, cleaning performance can be improved by increasing cleaning discharge pressure, cleaning water heating time can be shortened, operation time can be reduced, power consumption can be reduced, and water consumption can be reduced. realizable.
[0039]
FIG. 4 shows that the water diversion outlets 44 provided on the side surfaces of the rotating water diversion unit 40 and the discharge ports 41 communicating with the respective cleaning nozzles are sequentially matched, and the cleaning water is sequentially supplied to the respective nozzles. It shows how to do. And the case where the discharge port 41 is provided in the cylindrical side surface of the rotation water dividing part 40 and the case where the discharge port 41 is comprised in the plane part provided in the cylindrical side surface are shown in figure. Therefore, when the discharge port 41 is provided on the cylindrical side surface of the rotary diversion part 40, the circumferential length L2 of the discharge port 41 is an arc between holes between the adjacent water discharge port 44 and the water discharge port 44. It is configured to be equal to or longer than the length L1. Moreover, when the discharge port 41 is provided in the plane part of the cylindrical side surface of the rotation diversion part 40, it comprises so that the length L3 of the discharge port 41 may become more than the arc length L1 between holes.
[0040]
FIG. 5 shows how the spray force of each cleaning nozzle and the discharge pressure of the cleaning pump 28 change during one rotation of the rotary water diversion unit 40.
6, 7, 8, 9, and 10 show combinations of the configuration of the cleaning nozzle provided at the tip of the water diverter (not shown). It cleans tableware and cooking utensils. Specifically, in a drawer type dishwasher, a combination of rotating nozzles 68, 69, and 97 (FIG. 6) that injects cleaning water while rotating, and a combination of a rotating nozzle 52 and a rod-shaped nozzle 53 that injects cleaning water while rotating ( 7), a combination of the rotating nozzle 54 and the fixed nozzle 55 (FIG. 8), and when the rotating nozzles 56, 57 are configured in two upper and lower stages (FIG. 9), the upper two 61, 62 and the lower two 63 , 64, when 65 and 66 rotating nozzles are provided on each of the left and right side surfaces (FIG. 10), when only a plurality of fixed nozzles 58, 59 and 60 are configured (FIG. 11), Various combinations are possible depending on the size and shape of the washing tank, or the conditions such as one or two cups, such as combining nozzles (not shown). In the cleaning method that the effect of the present invention is obtained.
[0041]
Next, the operation and action of the water diversion device 35 (water diversion means) which is a characteristic configuration of the present embodiment will be described. First, the cleaning water supplied by the cleaning pump 28 passes through the water guide section 39 and is discharged from a discharge port 41 provided in the rotating water dividing section 40. At this time, the rotary water diversion unit 40 is continuously rotated at a low speed by the driving motor 42, and the discharge ports 41 are sequentially aligned with the five water distribution discharge ports 44 in sequence. When the holes are aligned, they pass through the respective cleaning discharge paths 37, and the cleaning nozzle 29 (lower surface), the right side cleaning nozzle (not shown), the cleaning nozzle 31 (rear surface), the cleaning nozzle 32 (left side surface), and the cleaning nozzle. Wash water is sequentially sent to 30 (top). At this time, since the water diversion outlet 44a and the cleaning discharge path 37a have a passage section larger than the opening area of the discharge opening 41, passage pressure loss due to switching of the washing water direction can be reduced. Therefore, since a washing pump having a smaller size can be used, an energy saving, low noise, and low cost dishwasher can be realized.
[0042]
In addition, the control device 38 operates at a certain time for all the cleaning nozzles for a certain period of time in the case of operation using the fixed position sensor 48 and in the case of operation using the fixed position sensor 48 and the rotation angle detection sensor 47. An operation of injecting cleaning water from an arbitrary cleaning nozzle can also be performed. To explain the operation, the rotary diversion unit 40 has a diversion port 44 and a discharge port 41 communicating with the cleaning nozzle 29 (lower surface) by the functions of the fixed position sensor 48 and the rotation angle detection sensor 47 provided. At the coincidence, one end is stopped, and cleaning water is jetted from the cleaning nozzle 30 for a certain period of time. Then, in order to supply cleaning water to the cleaning nozzle 29 next, the rotating water diversion unit 40 rotates the discharge port 41 until it coincides with the water distribution discharge port 44 communicating with the cleaning nozzle 29. Then, after stopping for a certain injection time, a series of operations such as rotating the rotating water diversion unit is performed again. Therefore, as shown in FIG. 5, regarding the injection force of each cleaning nozzle and the movement of the rotating water dividing unit 40, when the rotating water dividing unit 40 is continuously rotated, the discharge port 41 and the water dividing discharge port 44 Since the hole area gradually changes, the injection force continuously changes. However, when a temporary stop is applied in the middle, the maximum injection force can be maintained for a certain period of time.
[0043]
Thus, conventionally, in the case of a configuration using a plurality of cleaning nozzles, it has been necessary to supply cleaning water to each cleaning nozzle at a time, so a large cleaning pump and a large amount of water supply are required. However, according to the configuration of the present invention, the cleaning water discharged from the cleaning pump is switched by the diversion device, and the cleaning pump capacity and the water supply amount necessary for operating a single cleaning nozzle are switched. A plurality of cleaning nozzles can be operated.
As a result, it is possible to provide a dishwasher that achieves downsizing of the product due to downsizing of the mechanism part or expansion of tableware capacity, significant energy saving, water saving, and shortening of operation time.
[0044]
In addition, in the conventional cleaning method of spraying from the top and bottom simultaneously, the original performance may not be able to be exhibited due to the interference of the water flow on the tableware. It can contribute to cleaning efficiently without interfering with each other.
[0045]
Further, the circumferential length L2 of the discharge port 41 is configured to be equal to or greater than the arc length L1 between the adjacent water discharge ports 44 and the water discharge port 44. While the water diversion unit 40 is rotating, the hole is always slightly aligned with any water diversion outlet 44 regardless of where the discharge port 41 is located, and no washing water is discharged from any washing nozzle. Can be prevented. In other words, by preventing the cleaning pump from being closed, the pressure increase in each part of the cleaning discharge path is alleviated, the cleaning water is prevented from leaking from the seal part and the joint part, and the durability is improved. It is something that can be done.
[0046]
Further, in this embodiment, the control device controls so that the cleaning nozzle for finally spraying the cleaning water is sprayed from the cleaning nozzle provided on the top surface or the side surface of the cleaning tank in the main cleaning process or the rinsing process. . First, the configuration will be described. The position of the fixed-position detection slit 51 provided in the rotation detection disk 67 is set at the water discharge outlet 44 for discharging cleaning water to the discharge nozzle 41 and the cleaning nozzle 30 provided above the cleaning tank 22. It is provided to match.
[0047]
In the rinsing process, the cleaning water is sequentially ejected from each cleaning nozzle. When the end time of the process comes, the control device 38 rotates the rotational speed and position of the rotating water diversion unit 40, and a certain ejection time from above. In consideration of the above, the rotation water diversion unit 40 is temporarily stopped based on the signal from the fixed position sensor 48, and the cleaning water is controlled to be jetted from above for a certain period of time. An example of a specific injection method is shown below.
Usually, in the operation program, the main washing time and the rinsing time are set by both the time and the washing water temperature. Moreover, the heating rinse process performed at the end of a rinse process performs the driving | running which is complete | finished when the washing water temperature becomes about 70 degree | times. The rinsing process includes a rinsing process that is managed in a time of 2 to 3 times, and a heating rinsing process that controls the cleaning water temperature up to about 70 degrees and that is controlled at the cleaning water temperature. Therefore, in the main washing process and the rinsing process managed by the time, the operation is started after moving the rotary diversion unit 40 to a fixed position first, and the injection time and the stop time of each cleaning nozzle of the rotary diversion unit 40 are set. A method is conceivable in which the control device controls such that it is set and sprayed from a cleaning nozzle provided on the top surface or side surface at the end of operation. In the heating rinsing process, since the amount of water supplied and the temperature of the cleaning water at the time of water supply fluctuate, the end time of the heating rinsing cannot be specified. A method of ending the operation when the cleaning water temperature rises to near the temperature at which the heating rinsing is completed is set. Alternatively, after the temperature rises, a method may be considered in which spraying is performed from a cleaning nozzle provided on the top surface or the side surface and then the process is terminated. Further, in the process of stopping the operation by time management, the operation of the present embodiment can also be realized by changing the injection time or the stop time during operation in accordance with the end time. In addition, what is necessary is just to determine a realization method according to the driving | operation characteristic of arbitrary processes regarding these driving | running operations.
[0048]
Therefore, since the washing water is sprayed from above on the tableware at the end of any step, the contaminants can be easily separated from the tableware, and can be reliably rinsed. In addition, it is possible to suppress the reattachment of the cup to the yarn bottom, and it is possible to improve the washing performance, such as discharging fine leftovers attached to the tableware out of the machine at an early stage of the washing process.
[0049]
In addition, regarding the process of rinsing from above, the effect can be obtained if it is performed at least several times in the rinsing process, but if it is performed in all the rinsing processes and the main washing process, it is more effective. Needless to say.
[0050]
Further, regarding the ejection time of each cleaning means, in the configuration of the present invention, the control device controls the rotation angle detection sensor 47, the fixed position sensor 48, and the driving motor 42, so that the cleaning water of each cleaning nozzle is controlled. The injection time can be arbitrarily set. When cleaning tableware, there are some that are easy to clean depending on the type of contamination attached to the tableware, and some that require time to clean. For example, rice grains attached to a tea bowl are difficult to remove, and dirt from a drinking cup is relatively easy to remove. Moreover, the dish basket of the dishwasher is designed to limit the setting position to some extent according to the type of these dishes, and the jet from the washing nozzle is also designed accordingly.
[0051]
However, the spraying time is longer for cleaning nozzles that spray cleaning water toward the position where teacups, etc. that are difficult to remove dirt are set, or for small items that can be easily cleaned by spraying from above. In consideration of the ease of removal of dirt, such as lengthening the length of time, and the injection direction that is easily removed due to the arrangement of dishes, the washing nozzle ejection time can be set accordingly. As an example, the spraying time is 30 seconds for a place where it is difficult to remove dirt, the spraying time is 5 seconds for a place where dirt is easily removed, and 10 seconds for other places.
[0052]
In this way, by performing the operation with the optimal jetting time according to the characteristics of the dishes and dirt, in the washing of the dishwasher in which dishes with different difficulty of removing dirt are mixed, there is no more leftover and more efficiently. The cleaning performance can be obtained.
Moreover, the injection time in the main washing process and the rinsing process will be described. In the present invention, as described above, the time during which the discharge port 41 is stopped once is sprayed from an arbitrary cleaning nozzle for a certain period of time, and in particular, the spraying time in the main washing process is the first spraying time. The injection time in the process is defined as the second injection time.
[0053]
Further, the control device performs an operation for making the first injection time longer than the second injection time. In the first place, in the main washing process, in order to peel off the contaminants adhering to the tableware, cleaning is performed by combining the cleaning power such as chemical power and heat with the detergent. Higher washing performance can be obtained by applying a large amount of washing water at a time than washing by dividing the amount of water into several times. On the other hand, the process of rinsing is focused on washing out fine dirt adhered to the dishes and the washing tub by repeating the spray of washing water and several times of drainage and water supply in a short time. It is possible to rinse in a shorter time reliably by spraying wash water uniformly from multiple directions. That is, it is better to perform cleaning reliably while taking a long first injection time, and to increase the number of times of injection from each cleaning nozzle although the second injection time is short. As an example, the first injection time is 10 seconds and the second injection time is 5 seconds.
Therefore, high cleaning performance can be realized by performing cleaning with an optimal ejection time set for each cleaning.
[0054]
It should be noted that the water splitting configuration described in this embodiment, the operation method of injecting from above at the end of the operation, the difference in the injection time in the main washing process and the rinsing process, and the injection time of each cleaning nozzle in any process The settable operation method is not necessarily carried out integrally, and can be carried out independently. Even if it is not performed in all the cleaning steps, the effect can be obtained even if it is performed in any of the steps.
In addition, in the present embodiment, the movement of the rotation diversion unit has been described mainly as a movement that repeats rotation and stop, but even when performing an operation of continuously moving in each step, by varying the rotation speed An operation similar to that of the present embodiment can be performed. Further, even when rotating at a constant speed, the effects of the first and second aspects of the invention can be obtained.
[0055]
In addition to the main body shape and the cleaning nozzle configuration used in the present invention, those shown in FIGS. 6, 7, 8, 9, and 10 can be considered. It can be obtained.
[0056]
Further, in this embodiment, the water diversion means is configured to provide the water diversion outlet 44 on the outer peripheral surface of the water diversion outlet and switch the rotation diversion part by rotating it with the drive motor 42. Instead of this, it is also possible to use a driving means that drives in the axial direction by a magnetic force such as a plunger, so that the water diversion part is driven in the axial direction and switched to the water diversion outlet arranged in the axial direction. In this case, the diversion outlet is directed in the same direction, and piping can be facilitated.
[0057]
(Example 2)
FIG. 12 is a cross-sectional view showing a water distribution configuration of the dishwasher according to the second embodiment of the present invention.
FIG. 13 is an exploded perspective view showing a water distribution structure of the dishwasher.
[0058]
The difference from the first embodiment is that, as shown in FIGS. 12 and 13, the hole shape of the water diverter outlet 76 is configured as a rectangle that is longer in the circumferential direction than the hole shape of the outlet 41. The cleaning discharge path A 77 is substantially the same as the passage 78 for changing the cross-sectional area of the water discharge outlet A 76 to the cross-sectional area of the cleaning discharge path B 37 b and the passage cross-sectional area of the water discharge outlet B 44 b. A passage 79 is formed. Further, the rotation of the rotating water diversion unit 40 is constituted by a driving motor 75 that simply rotates continuously at a constant speed without using position detection or rotation angle detection. The basic configuration and operation for realizing the water distribution means are the same as those in the first embodiment, and the same reference numerals have the same structure and the description thereof is omitted.
[0059]
Next, the operation and action will be described. The time during which each cleaning nozzle ejects cleaning water at one time becomes shorter as the circular arc length in the circumferential direction of the water distribution outlet is longer because the rotating water diverter 40 rotates at a constant speed. The configuration of the present embodiment is configured such that the hole shape of the water diverting discharge port 76 is a rectangle having a longer length in the circumferential direction than the hole shape of the discharge port 41, and the circular shape of the water diverting discharge port 76. Since the length is longer than the length in the circumferential direction, the spraying time of the cleaning nozzle is also longer than the others.
[0060]
As a result, the cleaning nozzle that cleans the rice grain soil that has been difficult to remove conventionally can reduce the cleaning time itself by discharging the cleaning water for a longer time than the other cleaning nozzles. In addition, in order to perform the above-described operation, conventionally, a driving motor for rotating the rotating water diverting unit is varied, and a detecting unit for detecting the position of the cleaning discharge path is provided. Although there were problems, this configuration does not require them, and a simple and low-cost configuration can be achieved.
[0061]
Furthermore, by providing a passage 78 that changes the cross-sectional area of the water diverting discharge port 76 to the passage cross-sectional area of the cleaning discharge passage B 37b, it is possible to prevent an increase in the amount of circulating cleaning water due to the expansion of the passage, so that the amount of water supply can be reduced. Heating time can be shortened by reduction, and cleaning time can be shortened and energy saving can be realized.
[0062]
Note that the cross-sectional shape of the discharge port and the cleaning discharge path described in this embodiment may be a substantially rectangular shape, a substantially circular shape, a substantially oval shape, or a combination of these shapes, but the effect of the present invention can be obtained in any case. It is In addition, the hole shape of the diversion outlet and the variable passage described in the present embodiment are not necessarily integrated, and can be performed independently.
[0063]
Example 3
FIG. 14 is a partial cross-sectional view of the water distribution means of the dishwasher according to the third embodiment of the present invention, and FIG. 15 shows the changes in the discharge pressures of the cleaning nozzles and the cleaning pump per one cycle of the rotating water distribution section of the dishwasher. It is shown.
[0064]
The difference from the first embodiment is that, as shown in FIG. 14, the length of the discharge port 41 in the circumferential direction is substantially the same as the length obtained by adding the arc length of the water distribution discharge port 44 and the arc length between the holes. Or more. The basic configuration and operation for realizing the water distribution means are the same as those in the first embodiment, and the same reference numerals have the same structure and the description thereof is omitted.
[0065]
According to the configuration of the present invention, it is possible to secure a cleaning / discharging path having an area equal to the opening area of the discharge port 41 regardless of the position of the discharge port 41 while the rotary water diversion unit 40 is rotating. Therefore, as shown in FIG. 15, since the washing pump 28 only has a steady load, the amount of circulating washing water discharged from the washing pump can always be kept constant. For this reason, the pressure fluctuation to the connection part and the seal part in the cleaning / discharging path does not occur, and the durability reliability is not lowered. In addition, the cleaning energy discharged from the cleaning means varies periodically when viewed from each cleaning means alone, but when viewed from the entire cleaning means, a constant cleaning energy can always be given to the tableware. The dishes can be washed well.
[0066]
【The invention's effect】
As described above, according to the first aspect of the present invention, it becomes possible to spray cleaning water from a plurality of directions to any tableware without increasing the amount of water supply, and high cleaning performance can be achieved in a short time. realizable. Furthermore, energy saving and water saving can be realized by reducing the number of times of rinsing.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a dishwasher according to a first embodiment of the present invention.
FIG. 2 is a partial cross-sectional view showing the structure of water dividing means and the flow of washing water in the dishwasher
FIG. 3 is an exploded view showing a water distribution structure of the dishwasher
FIG. 4 is a partial cross-sectional view showing water distribution means of the dishwasher
FIG. 5 is a diagram showing a change in discharge pressure of each cleaning nozzle and cleaning pump per one cycle of a rotating water diversion unit of the dishwasher
FIG. 6 is a perspective view showing the configuration of another cleaning means of the dishwasher
FIG. 7 is a perspective view showing the configuration of another cleaning means of the dishwasher
FIG. 8 is a perspective view showing the configuration of another cleaning means of the dishwasher
FIG. 9 is a perspective view showing the configuration of another cleaning means of the dishwasher
FIG. 10 is a perspective view showing the configuration of another cleaning means of the dishwasher
FIG. 11 is a perspective view showing the configuration of another cleaning means of the dishwasher
FIG. 12 is a cross-sectional view showing the water distribution configuration of the dishwasher according to the second embodiment of the present invention.
FIG. 13 is an exploded perspective view showing a water distribution structure of the dishwasher
FIG. 14 is a partial cross-sectional view of the water diversion means of the dishwasher according to the third embodiment of the present invention.
FIG. 15 is a view showing a change in discharge pressure of each washing nozzle and washing pump per one cycle of a rotating water diversion unit of the dishwasher;
FIG. 16 is a block diagram of a conventional dishwasher
[Explanation of symbols]
17 Injection port
21 Body
22 Washing tank
23 Lid
25 Tableware Basket
28 Washing pump
29 Cleaning nozzle (cleaning means)
30 Cleaning nozzle (cleaning means)
31 Cleaning nozzle (cleaning means)
32 Cleaning nozzle (cleaning means)
33 Drainage pump
35 water diverter
37 Cleaning discharge path
37a Cleaning discharge path A
37b Cleaning discharge path B
38 Control device (control means)
39 Water conveyance part (water diversion means)
40 Rotating water diversion part (water diversion means)
41 Discharge port
42 Driving motor 42 (driving means, water dividing means)
43 Water removal part (water distribution means)
44 water outlet
44a Diverging outlet
44b Water distribution outlet B
45 Rotating shaft
49 Driving motor support frame
50 Slit for rotation angle
51, 75 Driving motor (driving means)
52 Rotating nozzle (cleaning means)
53 Bar-shaped nozzle (cleaning means)
54 Rotating nozzle (cleaning means)
55 Fixed nozzle (cleaning means)
56 Rotating nozzle (cleaning means)
57 Rotating nozzle (cleaning means)
58 Fixed nozzle (cleaning means)
59 Fixed nozzle (cleaning means)
60 Fixed nozzle (cleaning means)
69 Drainage route
76 minutes water outlet
77 Cleaning discharge path A
78, 79 passage

Claims (11)

A dish basket for storing tableware, a washing tank for storing the dish basket, a washing pump for supplying washing water, a plurality of washing means disposed in the washing tank, and washing water from the washing pump for each washing means Water supply means for switching to supply, a plurality of cleaning discharge paths connecting each cleaning means and the water distribution means, the water distribution means, a water guide portion for guiding the cleaning water sent by the cleaning pump, Divided water outlet provided with a diversion part provided with a discharge port for discharging cleaning water guided from the water conveyance part and a plurality of diversion outlets for a cleaning discharge path for introducing cleaning water from the discharge port of this diversion part And a drive unit that moves the position of the discharge port of the water distribution unit to a position corresponding to the water discharge port of the water extraction unit, the drive unit using the drive motor as a drive source It rotates the parts, the opening area of the diversion discharge port , Dishwasher having the structure larger than the opening area of the discharge port. The dishwasher according to claim 1, wherein the drive motor is configured such that the water diverter continuously rotates. The dishwasher according to claim 2, wherein the drive motor is configured such that the water diverter rotates at a constant speed. Diversion of the water diversion means, a rotating diversion unit which is rotated by drive means provided discharge ports on the sides or bottom surface of the bottomed cylindrical, diversion extraction unit, a bottomed cylindrical covering the rotating diversion unit dishwasher according to any one of claims 1 to 3 having a structure in which a diversion discharge port at a position facing the discharge port side or bottom surface of the form. The dishwasher / dryer according to claim 4 , wherein a hole shape of the water discharge outlet is a rectangular or substantially elliptical shape having a longer length in the circumferential direction than the hole shape of the outlet. The dishwasher / dryer according to claim 5 , wherein the cleaning / discharging path has a passage that changes the cross-sectional area of the water discharge outlet to a passage sectional area of the cleaning / discharging path B. The opening length in the moving direction of the discharge port is configured to be equal to or greater than the inter-hole length between the adjacent water discharge port and the water discharge port according to any one of claims 1 to 6. Dishwasher.   A dish basket for storing tableware, a washing tank for storing the dish basket, a washing pump for supplying washing water, a plurality of washing means disposed in the washing tank, and washing water from the washing pump for each washing means Water supply means for switching to supply, a plurality of cleaning discharge paths connecting each cleaning means and the water distribution means, the water distribution means, a water guide portion for guiding the cleaning water sent by the cleaning pump, Divided water outlet provided with a diversion part provided with a discharge port for discharging cleaning water guided from the water conveyance part and a plurality of diversion outlets for a cleaning discharge path for introducing cleaning water from the discharge port of this diversion part And a driving means for moving the position of the discharge port of the water distribution unit to a position corresponding to the water distribution discharge port of the water distribution take-out unit, and the opening lengths in the moving direction of the discharge ports are adjacent to each other The length between holes of the diversion outlet and the diversion outlet is almost the same as or Dishwasher to be more. Diversion of the water diversion means, a rotating diversion unit which is rotated by drive means provided discharge ports on the sides or bottom surface of the bottomed cylindrical, diversion extraction unit, from the discharge port of the rotary diversion unit provided at a position facing the diversion outlet of the washing discharge passage for introducing the wash water to the discharge port side or bottom surface of the bottomed cylindrical shape that covers the rotating diversion unit, the circumferential length of the discharge port The dishwasher according to claim 8 , wherein the dishwasher / dryer is substantially equal to or longer than an arc length between holes between adjacent water discharge outlets.   A dish basket for storing tableware, a washing tank for storing the dish basket, a washing pump for supplying washing water, a plurality of washing means disposed in the washing tank, and washing water from the washing pump for each washing means Water supply means for switching to supply, a plurality of cleaning discharge paths connecting each cleaning means and the water distribution means, the water distribution means, a water guide portion for guiding the cleaning water sent by the cleaning pump, Divided water outlet provided with a diversion part provided with a discharge port for discharging cleaning water guided from the water conveyance part and a plurality of diversion outlets for a cleaning discharge path for introducing cleaning water from the discharge port of this diversion part And a drive means for moving the position of the discharge port of the water distribution unit to a position corresponding to the water distribution discharge port of the water distribution take-out unit, and the length of the discharge port in the moving direction is an arbitrary amount. The water discharge outlet and the water discharge outlet adjacent to the length in the moving direction of the water discharge outlet Length plus the inter-hole length and substantially the same or dishwasher to more. Diversion of the water diversion means, a rotating diversion unit which is rotated by drive means provided discharge ports on the sides or bottom surface of the bottomed cylindrical, diversion extraction unit, from the discharge port of the rotary diversion unit provided at a position facing the diversion outlet of the washing discharge passage for introducing the wash water to the discharge port side or bottom surface of the bottomed cylindrical shape that covers the rotating diversion unit, the circumferential length of the discharge port 11. The length according to claim 10 , wherein the arc length of an arbitrary water discharge outlet is substantially equal to or greater than a length obtained by adding an arc length between holes of adjacent water discharge outlets and water discharge outlets. Dishwasher.

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