JP3713791B2 - Dishwasher - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a dishwasher / dryer that supplies washing water and air to dishware through a washing nozzle with a single electric motor.
[0002]
[Prior art]
  A conventional dishwasher will be described below. As shown in FIG. 9, a conventional dishwasher dries a dish basket 34 containing tableware 33 and the like in a predetermined place, and then puts in a detergent and starts operation.
[0003]
  While the operation is started, first, the water supply valve 29 is operated to supply the cleaning water 30 to the cleaning tank 28. Subsequently, the cleaning pump 31 pressurizes the cleaning water 30 and sprays it from the cleaning nozzle 32 together with the detergent. Thus, the cleaning process is performed. In this cleaning process, the heating element 35 provided in the cleaning tank 28 is energized to heat the cleaning water 30 to a predetermined cleaning temperature.
[0004]
  After a predetermined time of the washing process, the washing water 30 containing the dirt washed off from the tableware 33 and the like is then discharged out of the apparatus by the drainage pump 36. Subsequently, the cleaning water 30 is newly supplied and sprayed again from the cleaning nozzle 32, so that the dishes 33 and the like soiled with detergent, leftovers (foods that have adhered to the dishes as dirt) are etc. Execute the rinsing process. When this rinsing process is completed, the washing water 30 is again discharged out of the machine. This rinsing process is repeated three times in succession. At this time, the leftovers are collected in a filter 37 provided in the washing tank 28.
[0005]
  When the rinsing process ends, the heating element 35 is energized to enter the drying process for drying the tableware 33 and the like. In this drying process, air outside the apparatus is sent to the heating element 35 by the blower 38 and heated. The heated air is supplied to the washing tank 28 to dry the tableware 33 and the like, and is discharged from the exhaust port 39 to the outside of the apparatus. When the drying process for a predetermined time is completed, the tableware 33 and the like are dried. This completes the operation of the dishwasher.
[0006]
[Problems to be solved by the invention]
  However, the conventional dishwasher has the following problems. The conventional dishwasher includes a washing pump 31 that pressurizes the washing water 30 and injects the washing water 30 from the washing nozzle 32, a drain pump 36 that discharges the washing water 30 to the outside of the machine, and an outside air washing tank 28. The cleaning pump 31, the drain pump 36, and the blower 38 are provided with electric motors 43, 44, and 45 for driving the cleaning impeller 40, the drain impeller 41, and the blower fan 42, respectively. Therefore, since the dishwasher has three electric motors, there is a problem that the dishwasher cannot be configured in a space-saving and low-cost configuration.
[0007]
  In order to solve the problems of the conventional configuration as described above, the inventors have provided a blower fan 46 in an electric motor 43 that drives the cleaning pump 31, as shown in FIG. It is proposed to provide a dishwasher drier installed in a ventilation passage 47 connecting the outside of the machine and the washing tub 28.
[0008]
  With such a configuration, simply by driving the motor 43, the cleaning pump 31 operates in the cleaning and rinsing process, and the cleaning water 30 is jetted from the cleaning nozzle 32 to clean the tableware 33. In the drying process, the blower fan 46 is operated. It operates and air outside the machine is supplied into the washing tank 28 through the air passage 47 to dry the tableware 33 and the like.
[0009]
  Incidentally, the configuration shown in FIG. 10 has the following problems. That is, as shown in FIG. 10, the cleaning water 30 is blown through the blowing path 47 during the cleaning process.46The air passage 47 is long and has a complicated shape. Moreover, since the ventilation fan 46 is provided in the washing | cleaning pump 31, the washing | cleaning pump 31 and the surrounding part do not necessarily become a simple structure.
[0010]
  Further, in the conventional configuration, as shown in FIGS. 11 and 12, in the drying process, the outside air supplied into the cleaning tank 28 by the blower 38 or the blower fan 46 enters the tableware 33 and the cleaning tank 28. The air is not evenly distributed and is discharged from the exhaust port 39 to the outside of the machine. Therefore, since the tableware 33 cannot be dried uniformly, the satisfactory drying performance of the tableware 33 cannot be obtained even if a predetermined drying time is obtained.
[0011]
  Thus, as shown in FIG. 13, the inventors have proposed a dishwasher having a configuration in which the washing pump 31 is operated even in the drying process and air outside the machine is supplied from the washing nozzle 32. With such a configuration, the air outside the machine as well as the washing water 30 is jetted from the washing nozzle 32 and spreads uniformly into the tableware 33 and the washing tank 28. And the tableware 33 can be dried uniformly. However, in this configuration, a blower fan 46, a blower passage 47, and an on-off valve 48 are provided on one side of the electric motor 43 of the cleaning pump 31 to send outside air to the cleaning pump 31. Therefore, also in this case, the blower fan 46 exists, and the configuration of the cleaning pump 31 portion is not a simple configuration.
[0012]
  Then, in the conventional configuration, at the end of the rinsing process, the inside of the cleaning tank 28 is in a high temperature state, and the air in the cleaning tank 28 contains a large amount of steam. For this reason, at the start of the drying process, air containing a large amount of steam is discharged to the outside of the machine through the exhaust port 39, so that the user feels uncomfortable or the area around the dishwasher is hot and humid. May be in a state.
[0013]
  In the conventional configuration, since the tableware 33 is in a high temperature state at the end of the drying process, it is necessary to cool the tableware 33 to a predetermined temperature or less when the user uses the tableware 33 immediately after the completion of the drying process. There is. For this reason, even when the drying process is completed, an operation in which the blower 38 is operated to cool the tableware 33 is employed. However, this operation method requires a lot of time to cool the tableware 33 below a predetermined temperature.
[0014]
  The present invention has been made in view of the above problems, and an object thereof is to provide a dishwasher that makes the washing pump more space-saving and has a simple structure, and evenly spreads air outside the machine to the tableware to improve drying efficiency.
[0015]
[Means for Solving the Problems]
  In the dishwasher of the present invention,A drying path comprising a circulation path connecting the washing tank and the washing pump, a cold water pipe for cooling a part of the circulation path, a heating element built in the circulation path, and a control device for controlling driving of the electric motor, The air containing the steam in the cleaning tank is supplied to the circulation path by the cleaning pump, and is cooled by the water supplied to the cold water pipe when passing through the circulation path. Is heated by the heating element and supplied into the cleaning tank by the cleaning pump, and the electric motor is configured to rotate at a higher speed than during the cleaning process by the control device.Is. According to this invention,The washing pump can be operated during the drying process to increase the amount of air supplied into the washing tank to improve the drying performance of the tableware and to discharge air containing a large amount of steam outside the washing tank. In addition, the tableware can be dried by blowing dry high-temperature air into the washing tank.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
  The invention according to claim 1 is a cleaning tank, a tableware for storing tableware and the like, a cleaning pump for circulating cleaning water in the cleaning tank, an electric motor for driving the cleaning pump, and cleaning water for the tableware and the like. A cleaning nozzle having an injection hole for injectingSaidWashing tank andSaidA circulation path connecting the washing pump;A cooling water pipe that cools a part of the circulation path, a heating element built in the circulation path, and a control device that controls the drive of the electric motor; in the drying process, Steam containing air is supplied to the circulation path, and is cooled by water supplied to the cold water pipe when passing through the circulation path, and the cooled air is heated by the heating element, and the washing pump The electric motor is configured to rotate at a higher speed than during the cleaning process by the control device.Is a thingDuring the drying processOperate the cleaning pumpTeyoMore air can be supplied into the cleaning tank., FoodThe drying performance of the vessel is improved.
[0017]
  In the rinsing process, the washing water is heated to a predetermined rinsing temperature by the heating element, so that the air in the washing tank contains a large amount of steam at the end of the rinsing process. The air in the cleaning tank containing a large amount of steam is supplied to the cleaning pump through the circulation path by the operation of the cleaning pump in the drying process.
[0018]
  At this time, water is supplied to the cold water pipe by energizing the second water supply valve that controls the flow of water through the cold water pipe. For this reason, a part of the circulation path covered with the cold water pipe is cooled by the water flowing through the cold water pipe, so that the air in the cleaning tank is cooled when passing through the circulation path. And since the vapor | steam contained in this air is cooled and becomes a water droplet, air and a vapor | steam are isolate | separated. The air separated from the vapor is heated by a heating element, and is supplied into the cleaning tank by the cleaning pump through the cleaning nozzle and the injection hole. Then, dry hot air is supplied to the tableware.
[0019]
  Therefore, even after the rinsing process is completed and the drying process is started, the dry hot air is blown into the dishes and the washing tank without discharging the air containing a large amount of steam to the outside of the washing tank. Drying can be performed.
[0020]
  The invention according to claim 2A cooling step of lowering the tableware and the like to a predetermined temperature or less after the drying step, wherein the cooling step cools the air supplied to the circulation path by the washing pump with the water supplied to the cold water pipe, and the cooled air is Provided into the washing tank by the washing pump I tried to payAfter completion of the drying process, the second water supply valve is energized to supply water to the cold water pipe. Then, the electric motor is driven to operate the cleaning pump, and the heating element is de-energized. Thus, the cooling step is performed. At this time, the air in the cleaning tank is cooled when passing through the circulation path. The cooled air is supplied to the cleaning tank by the cleaning pump through the cleaning nozzle and the injection hole without being heated by the heating element. Therefore, since cold air is supplied to the tableware, the tableware in a high temperature state is cooled by the cold air after the drying process. Therefore, it is possible to cool the tableware in a high temperature to a predetermined temperature or less in a short time after the drying process.
[0021]
  The invention according to claim 3A water storage tank for storing cleaning water to be supplied to the cleaning tank, a water supply path for supplying cleaning water to the water storage tank, a water supply valve for supplying the cleaning water in the water storage tank to the cleaning tank, and the water storage tank, The cleaning water heated by heat exchange with the cleaning tank is supplied when passing through the water supply path, and the heated water stored in the water storage tank is used as cleaning water in the rinsing process. Supplied toAt the start of the cleaning and rinsing process, the water stored in the water storage tank is supplied into the cleaning tank by energizing the third water supply valve connecting the cleaning tank and the water storage tank. And during washing | cleaning and a rinse process except the last rinse process, water is stored in a water storage tank through the water supply path provided in the separation tank vicinity by supplying with electricity to a water supply valve. At this time, since the washing water is also supplied into the separation tank provided in the washing tank by the partition plate, the washing water flowing in the separation tank is heat-exchanged with the water passing through the water supply path. By this operation, the water stored in the water tank is heated. And since this heated water is supplied in a washing tank as washing water of the next rinse process, the time which heats washing water to predetermined temperature can be shortened.
[0022]
  In the drying process, air containing a large amount of steam is supplied to the cleaning pump through the circulation path by the operation of the cleaning pump. At this time, by energizing the water supply valve, water is stored in the water storage tank through the water supply path. For this reason, since water flows through the water supply path during the drying process, the air in the cleaning tank containing a large amount of steam is cooled when passing through the separation tank. And since the vapor | steam contained in this air is cooled and becomes a water droplet, air and a vapor | steam are isolate | separated. Accordingly, dry air is supplied into the cleaning tank by the cleaning pump through the cleaning nozzle and the injection hole.
[0023]
  Therefore, even when the drying process starts, the tableware can be dried without discharging air containing a large amount of steam to the outside of the washing tank. Further, the water stored in the water tank is heated and stored in the water tank because it exchanges heat with the air in the washing tank when passing through the water supply path. Therefore, in the next operation, heated water is supplied as cleaning water into the cleaning tank, so that the time for heating the cleaning water to a predetermined temperature can be shortened.
[0024]
  Therefore, even when the drying process is started, the tableware can be dried without discharging air containing a large amount of steam to the outside of the washing tank, and the water heated in the washing and rinsing process is used as washing water. Since it can supply, the time which heats wash water to predetermined temperature can be shortened, and the total operation time of a dishwasher can be shortened.
[0025]
【Example】
  Hereinafter, embodiments of the present invention will be described with reference to FIGS.
[0026]
  Example 1
  In FIG. 1, reference numeral 1 is a cleaning tank, 2 is a water supply valve for supplying cleaning water 3 into the cleaning tank 1, 4 is a cleaning pump, and 5 is an impeller. A control device 7 for controlling the number is provided. Reference numeral 8 denotes a cleaning nozzle having a plurality of injection holes 9 for injecting the cleaning water 3. Reference numeral 10 denotes a tableware basket for storing the tableware 11 and the like in the washing tank 1, 12 is a drainage pump for discharging the washing water 3, and 13 is a filter for collecting leftovers. Reference numeral 14 denotes a circulation path that connects the cleaning tank 1 and the cleaning pump 4, and reference numeral 15 denotes an air supply path that supplies outside air into the cleaning tank 1, and is connected to a part of the circulation path 14. Reference numeral 16 denotes a heating element, which is housed in the circulation path 14 after the blower path 15 is connected. Reference numeral 17 denotes a switching valve, which closes the air passage 15 during the cleaning process, and opens the air passage 15 at other times. Reference numeral 18 denotes an exhaust port.
[0027]
  The operation of the above configuration will be described below. A predetermined amount of detergent is put into the washing tub 1, the tableware 11 and the like are stored in the tableware basket 10, and the operation is started. Here, first, the cleaning water 3 is supplied by energizing the water supply valve 2. When the cleaning water 3 reaches a predetermined amount, the electric motor 6 is driven and the cleaning pump 4 is operated. When the cleaning pump 4 is operated, the cleaning water 3 containing the detergent is pressurized by the impeller 5 and supplied to the cleaning nozzle 8, and the cleaning water 3 is jetted from the injection holes 9 provided in the cleaning nozzle 8. In this way, a cleaning process for cleaning the tableware 11 and the like is performed.
[0028]
  In this cleaning process, as shown in FIG. 2, the switching valve 17 is operated by the flow of the cleaning water 3 to close the blower path 15. Further, when the heating element 16 is energized, the cleaning water 3 is heated to a predetermined cleaning temperature. After a predetermined time of the washing process, the washing water 3 containing dirt and the like washed away from the tableware 11 and the like is drained by the drainage pump 12. Subsequently, the cleaning water 3 is newly supplied and sprayed from the injection holes 9 provided in the cleaning nozzle 8, thereby rinsing the dishes 11 and the like soiled with detergent, leftovers, and the like. After completion of this process, the washing water 3 is discharged outside the apparatus. Also in this step, the washing water 3 is rinsed by the heating element 16 and heated to a predetermined temperature. And this process is repeated 3 times continuously and a rinse process is complete | finished. The leftovers are collected in a filter 13 provided in the washing tank 1. After the rinsing process, the process proceeds to the drying process.
[0029]
  In the drying process, the electric motor 6 is driven to operate the cleaning pump 4. At this time, since the washing water 3 is discharged to the outside of the apparatus, the switching valve 17 opens the blower path 15 as shown in FIG. Then, as shown in FIG. 4, the air outside the apparatus is supplied to the cleaning pump 4 through the air blowing path 15 by the operation of the cleaning pump 4. Then, the air outside the machine is pressurized by the cleaning pump 4 and sent to the cleaning nozzle 8 through the injection hole 9.Washing tank1 is supplied. The outside air supplied to the cleaning tank 1 dries the cleaned dishes 11 and the like and is discharged from the exhaust port 18 to the outside of the apparatus. Thus, the tableware 11 and the like are dried for a predetermined time, the drying process is finished, and the operation of the dishwasher is finished.
[0030]
  According to the first embodiment of the present invention configured as described above, as shown in FIG. 4, in the drying process, the electric motor 6 is driven to operate the cleaning pump 4. At this time, if the electric motor 6 operates at the same rotational speed as in the cleaning process, the air outside the apparatus cannot be sufficiently supplied into the cleaning tank 1, so that the electric motor 6 is made higher than that in the cleaning process by the control of the control device 7. Rotate by rotation. By doing so, more outside air can be supplied into the cleaning tank 1. Therefore, since the air outside the machine is injected into the cleaning tank 1 from the injection hole 9, it is uniformly supplied into the tableware 11 and the cleaning tank 1. And the drying performance of the tableware 11 improves.
[0031]
  As described above, both the cleaning water 3 and the air outside the machine are supplied to the cleaning tank 1 through the cleaning nozzle 8 and the injection hole 9 by one cleaning pump 4 and one electric motor 6. It is not necessary to separately provide a blower fan that feeds the air into the cleaning tank 1 and the air passage 15 can be easily formed, so that the cleaning pump 4 and the like can be made more space-saving and simple. And since the air outside a machine is injected in the washing tank 1 from the injection hole 9, the air outside a machine can be uniformly supplied in the tableware 11 and the washing tank 1. FIG.
[0032]
  It is better to rotate the electric motor 6 at a higher rotation under the control of the control device 7 so as to send more air outside the machine to the washing nozzle 8 and to rotate the washing nozzle 8 by the air outside the machine.
[0033]
  Further, the impeller 5 is made larger so that air outside the apparatus can be sufficiently supplied into the cleaning tank 1 even when the motor 6 is running at a low speed, and in the cleaning process, the motor 6 is lower than the drying process under the control of the control device 7. You may make it a structure which rotates by rotation.
[0034]
  If the impeller 5 is made larger, the load acting on the electric motor 6 is greatly different between the cleaning water 3 and the air. That is, when the cleaning water 3 is pressurized, the load acting on the electric motor 6 is large, so the electric motor 6 rotates at a low rotation, and when the air is pressurized, the load acting on the electric motor 6 is small, so the electric motor 6 rotates at a high rotation. Therefore, depending on the size of the impeller 5, the number of rotations of the electric motor 6 can be changed between cleaning and drying. Therefore, the control device 7 may be omitted.
[0035]
  (Example 2)
  Since the overall configuration is the same as that of the first embodiment, description thereof is omitted. However, in FIG. 5, 19 is a cold water pipe configured to cover a part of the outside of the circulation path 14. Reference numeral 20 denotes a second water supply valve.
[0036]
  According to the second embodiment of the present invention configured as described above, since the cleaning water 3 is heated to the predetermined rinsing temperature by the heating element 16 in the rinsing process, the air in the cleaning tank 1 contains a large amount of steam at the end of the rinsing process. Is included. The air in the cleaning tank 1 containing a large amount of steam is supplied to the cleaning pump 4 through the circulation path 14 by the operation of the cleaning pump 4 in the drying process. At this time, water is supplied to the cold water pipe 19 by energizing the second water supply valve 20.
[0037]
  For this reason, as shown in FIG. 5, a part of the circulation path 14 covered with the cold water pipe 19 is cooled by the water flowing through the cold water pipe 19, so that the air in the cleaning tank 1 passes through the circulation path 14. When cooled. And since the vapor | steam contained in this air is cooled and becomes the water droplet 21, air and a vapor | steam are isolate | separated. The air separated from the vapor is heated by the heating element 16 and supplied to the cleaning tank 1 by the cleaning pump 4 through the cleaning nozzle 8 and the injection hole 9. Then, dry hot air is supplied to the tableware 11.
[0038]
  Therefore, even if the rinsing process is completed and the drying process is started, the dry hot air is blown into the tableware 11 and the cleaning tank 1 without discharging air containing a large amount of steam to the outside of the cleaning tank 1. The tableware 11 can be dried.
[0039]
  In addition, after the drying process is completed, the second water supply valve 20 is energized to supply water to the cold water pipe 19. And the electric motor 6 is driven, the washing pump 4 is operated, and the heat generating body 16 is de-energized. Thus, the cooling step is performed. At this time, the air in the cleaning tank 1 is cooled when passing through the circulation path 14. The cooled air is supplied to the cleaning tank 1 by the cleaning pump 4 through the cleaning nozzle 8 and the injection hole 9 without being heated by the heating element 16. For this reason, since cold air is supplied to the tableware 11, the high temperature tableware 11 is cooled by the cold air after the drying process is completed.
[0040]
  Therefore, the hot tableware 11 can be cooled to a predetermined temperature or less in a short time after the drying step.
[0041]
  Note that the water droplets 21 that have been cooled and separated from the air flow into the path to the drain pump 12, so that they are not supplied again into the cleaning tank 1 as steam.
[0042]
  In addition, as shown in FIG. 6, by connecting the cold water pipe 19 to the path to the drainage pump 12, the drainage pump 12 discharges water that flows through the cold water pipe 19 and cools a part of the circulation path 14. Also good.
[0043]
  (Example 3)
  Since the overall configuration is the same as in the first and second embodiments, description thereof is omitted. However, in FIGS. 7 and 8, reference numeral 22 denotes a water storage tank, and water is stored in the water storage tank 22 through the water supply path 23 by energizing the water supply valve 2. Reference numeral 24 denotes a third water supply valve. When the third water supply valve 24 is energized, the water stored in the water storage tank 22 is supplied into the cleaning tank 1. Reference numeral 25 denotes a separation tank separated from the cleaning tank 1 by the partition plate 26. Reference numeral 27 denotes a water outlet provided in the partition plate 26, and the cleaning water 3 is supplied not only from the separation tank 25 but also to the circulation path 14 through this water outlet 27 in the cleaning and rinsing steps.
[0044]
  According to the third embodiment of the present invention thus configured, water stored in the water storage tank 22 is supplied into the cleaning tank 1 by energizing the third water supply valve 24 at the start of the cleaning and rinsing process. Is done. Then, water is stored in the water storage tank 22 through the water supply path 23 by energizing the water supply valve 2 during the cleaning and rinsing process except the final rinsing process. At this time, as shown in FIG. 7, since the cleaning water 3 is also supplied into the separation tank 25, the cleaning water 3 flowing through the separation tank 25 is heat-exchanged with water passing through the water supply path 23. By this operation, the water stored in the water storage tank 21 is heated. And since this heated water is supplied in the washing tank 1 as the washing water 3 of the next rinse process, the time which heats the washing water 3 to predetermined temperature can be shortened.
[0045]
  In the drying process, as shown in FIG. 8, air containing a large amount of vapor is supplied to the cleaning pump 4 through the circulation path 14 by the operation of the cleaning pump 4. At this time, by energizing the water supply valve 2, the water storage tank is connected via the water supply path 23.22Water is stored inside. For this reason, since water flows into the water supply path 23 during the drying process, the air in the cleaning tank 1 containing a large amount of steam is cooled when passing through the separation tank 25. And since the vapor | steam contained in this air is cooled and becomes the water droplet 21, air and a vapor | steam are isolate | separated. Accordingly, dry air is supplied into the cleaning tank 1 through the cleaning nozzle 8 and the injection hole 9 by the cleaning pump 4.
[0046]
  Therefore, the tableware 11 can be dried without discharging the air containing a large amount of steam to the outside of the washing tank 1 even when the drying process is started. Further, the water stored in the water storage tank 22 is heated and stored in the water storage tank 22 because it exchanges heat with the air in the cleaning tank 1 when passing through the water supply path 23. Accordingly, in the next operation, heated water is supplied as the cleaning water 3 into the cleaning tank 1, so that the time for heating the cleaning water 3 to a predetermined temperature can be shortened.
[0047]
  As mentioned above, even if a drying process starts, the tableware 11 can be dried without discharging | emitting the air containing a lot of vapor | steam outside the washing tank 1, and the water heated by the washing | cleaning and the rinsing process can be performed. Since it can supply as washing water 3, the time which heats washing water 3 to predetermined temperature can be shortened, and the total operation time of a dishwasher can be shortened.
[0048]
【The invention's effect】
  As described above, the invention according to claim 1 of the present invention includes a cleaning tank, a tableware basket for storing tableware and the like, a cleaning pump for circulating cleaning water in the cleaning tank, and an electric motor for driving the cleaning pump; A cleaning nozzle having an injection hole for injecting cleaning water onto tableware and the like;SaidWashing tank andSaidA circulation path connecting the washing pump;A cooling water pipe that cools a part of the circulation path, a heating element built in the circulation path, and a control device that controls the drive of the electric motor; in the drying process, Steam containing air is supplied to the circulation path, and is cooled by water supplied to the cold water pipe when passing through the circulation path, and the cooled air is heated by the heating element, and the washing pump Since the electric motor is configured to rotate at a higher speed than during the cleaning process by the control device, the amount of air supplied into the cleaning tank is increased to improve the drying performance of the dishes. Can be washed The tableware can be dried by blowing dry high-temperature air into the washing tank without discharging air containing a large amount of steam to the outside of the septic tank.
[0049]
  Also,The invention according to claim 2A cooling step of lowering the tableware and the like to a predetermined temperature or less after the drying step, wherein the cooling step cools the air supplied to the circulation path by the washing pump with the water supplied to the cold water pipe, and the cooled air is Since the cleaning pump supplies the cleaning tank, the hot tableware can be cooled to a predetermined temperature or less in a short time after the drying process.
[0050]
  Also,The invention described in claim 3A water storage tank for storing cleaning water to be supplied to the cleaning tank, a water supply path for supplying cleaning water to the water storage tank, a water supply valve for supplying the cleaning water in the water storage tank to the cleaning tank, and the water storage tank, The cleaning water heated by heat exchange with the cleaning tank is supplied when passing through the water supply path, and the heated water stored in the water storage tank is used as cleaning water for the rinsing process in the cleaning tank. Thus, the time for heating the cleaning water to a predetermined temperature can be shortened, and the operation time can be shortened.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a dishwasher in Embodiment 1 of the present invention.
[Fig. 2] Operation diagram of switching valve in the washing process of the dishwasher
Fig. 3 Operation diagram of switching valve in the drying process of the dishwasher
FIG. 4 is a longitudinal sectional view in the drying process of the dishwasher
FIG. 5 is a longitudinal sectional view of a dishwasher in Embodiment 2 of the present invention.
FIG. 6 is a longitudinal sectional view of the chilled water pipe of the dishwasher connected to a drain pump.
FIG. 7 is a longitudinal sectional view of a dishwasher in Embodiment 3 of the present invention.
FIG. 8 is a longitudinal sectional view of the dishwasher drying process.
FIG. 9 is a longitudinal sectional view of a conventional dishwasher
FIG. 10 is a longitudinal sectional view when a washing pump and a blower fan of a conventional dishwasher are operated by a single electric motor.
FIG. 11 is a longitudinal sectional view of a conventional dishwasher drying process.
FIG. 12 is a longitudinal sectional view in a drying process when a washing pump and a blower fan of a conventional dishwasher are operated by a single electric motor.
FIG. 13 is a longitudinal sectional view when a washing pump and a blower fan of a conventional dishwasher are operated by a single electric motor and air outside the machine is blown from the washing pump.
[Explanation of symbols]
  1 Washing tank
  3 Washing water
  4 Washing pump
  5 Impeller
  6 Electric motor
  7 Control device
  8 Cleaning nozzle
  9 Injection hole
  14 Circulation route
  15 Air path
  16 Heating element
  17 Switching valve
  18 Exhaust port
  19 Cold water pipe
  20 Second water supply valve
  22 Water tank
  23 Water supply route
  24 Third water supply valve
  25 Separation tank
  26 Partition plate

Claims (3)

A cleaning tank, a tableware container for storing tableware, a cleaning pump for circulating cleaning water in the cleaning tank, an electric motor for driving the cleaning pump, and a cleaning nozzle having an injection hole for injecting cleaning water to the tableware and the like a nozzle, wherein the cleaning tank and the circulation path connecting the washing pump, a cold water pipe for cooling a portion of the circulation path, wherein a heating element which is furnished to the circulation path, the control device for controlling the driving of said electric motor In the drying step, air containing steam in the cleaning tank is supplied to the circulation path by the cleaning pump, and is cooled by the water supplied to the cold water pipe when passing through the circulation path. supplies to the cleaning tank by the cooled the washing pump is heated by the heating element of air, the motor, food where the structure is rotated at a higher speed than during the cleaning process by the control device Wash dryer. A cooling step of lowering the tableware and the like to a predetermined temperature or less after the drying step, wherein the cooling step cools the air supplied to the circulation path by the washing pump with the water supplied to the cold water pipe, and the cooled air is The dishwasher / dryer according to claim 1, wherein the dishwasher is supplied into the washing tank by the washing pump . A water storage tank for storing cleaning water to be supplied to the cleaning tank, a water supply path for supplying cleaning water to the water storage tank, a water supply valve for supplying the cleaning water in the water storage tank to the cleaning tank, and the water storage tank, The cleaning water heated by heat exchange with the cleaning tank is supplied when passing through the water supply path, and the heated water stored in the water storage tank is used as cleaning water in the rinsing process. The dishwasher according to claim 1, wherein the dishwasher is supplied to the dishwasher.

Images