JP4089746B1 - Dishwasher - Google Patents

Abstract

A sufficient amount of outside air is mixed with exhaust in a cleaning tank during a drying operation to reduce the temperature of the exhaust.
At the start of the drying operation, the air flow to the first air passage 11 is made smaller than the air amount to the second air passage 13 by the mixing variable means 16 and is discharged from the exhaust port as the drying operation proceeds. The amount of air in the cleaning tank is increased.
[Selection] Figure 1

Description

  The present invention relates to a dishwasher which is installed in a kitchen or the like and performs storing, automatic cleaning, and drying of an object to be cleaned.

  Conventionally, this type of dishwasher has a configuration in which outside air is blown into a washing tub to dry the object to be washed after the washing is finished, and high temperature and humidity in the washing tub is discharged (for example, Patent Documents). 1).

FIG. 7 shows a conventional dishwasher described in Patent Document 1. In FIG. As shown in FIG. 7, a cleaning tank 1 for storing an object to be cleaned, a cleaning means 4 having a cleaning nozzle 2 for injecting cleaning water and a cleaning pump 3 for pressurizing the cleaning water, and a heating means 5 for heating the cleaning water. And a blower 6 that blows outside air into the cleaning tank 1, an exhaust port 7 that exhausts air inside the cleaning tank 1, and an exhaust assisting means 8 that mixes the outside air provided in the exhaust port 7.
JP 2000-166847 A

  However, in the above-mentioned conventional configuration, the fresh external air is mixed with the exhaust as a substream by the fluid force of the high-temperature and high-humidity mainstream that flows into the exhaust port, and the exhaust that can reduce the temperature of the exhaust in the hot and humid cleaning tank However, there was a problem that there was not enough air volume to cool down enough to avoid the hot air feeling.

  An object of the present invention is to solve the above-described conventional problems, and to reduce the temperature of the exhaust gas by mixing a sufficient amount of outside air into the exhaust in the cleaning tank during the drying operation.

In order to solve the above-described conventional problems, the dishwasher of the present invention includes a mixing unit that mixes the outside air and the washing tank inside air arranged on the upstream side of the exhaust port, and a first blower that blows outside air to the washing tank. And a second blower for blowing outside air in the mixing section, and a mixing variable means for setting a mixing ratio between the outside air and the cleaning tank inside air .

As a result, the flow rate ratio between the outside air flowing through the mixing section and the washing tank inside air can be freely set during the drying operation, so that both the reliable prevention of hot air feeling due to exhaust with reduced temperature and humidity and the improvement of the drying performance can be achieved. .

The dishwasher / dryer of the present invention can achieve both the reliable prevention of hot air feeling and the improvement of drying performance due to exhaust with reduced temperature and humidity discharged during the drying operation .

According to a first aspect of the present invention, there is provided a cleaning tank for storing an object to be cleaned, a cleaning means for spraying and circulating cleaning water to the object to be cleaned, a heating means for heating the cleaning water, and an exhaust port for discharging moisture inside the cleaning tank. A mixing unit that is arranged upstream of the exhaust port and mixes outside air with the cleaning tank inside air discharged from the cleaning tank, and blows outside air into the cleaning tank and sends the cleaning tank inside air into the mixing unit a first blowing path placing the first fan, performing the mixing section a second blowing path arranged a second blower for blowing outside air directly has a city, the during drying operation the first blower and By providing the mixing variable means for controlling the air volume of the second blower and setting the mixing ratio of the cleaning tank inside air and the outside air in the mixing section, the drying inside the high temperature and high humidity cleaning tank A sufficient amount of outside air is mixed with the air (cleaning tank inside air) at the mixing section for cooling and exhausted. Possible to achieve both the prevention of hot air feeling of exhaust gas by cooling and moisture reduction and improvement of drying performance.

In the second invention, in particular, the mixing variable means of the first invention can improve the controllability of the exhaust temperature by changing the air volume ratio of the cleaning tank internal air to increase with the progress of the drying operation. The drying time can be shortened or the drying performance can be improved by increasing the air volume in the washing tank .

In the third invention, in particular, the mixing variable means according to the first or second invention is configured such that the air volume of the first blower is smaller than the air volume of the second blower at the start of the drying operation. Can be gradually raised from the outside air temperature, so that high-temperature exhaust can be prevented, and operation reliability for preventing overshoot of the exhaust temperature can be improved .

In the fourth invention, in particular, the mixing variable means according to any one of the first to third inventions operates the second blower at the start of the drying operation and operates the first blower after a predetermined time has elapsed. As a result, high-temperature exhaust at the start of the drying operation can be reliably prevented.

In the fifth invention, in particular, the mixing variable means according to any one of the first to fourth inventions is characterized in that at least the first blower among the first blower or the second blower is operated intermittently during the drying operation. By controlling the flow, the flow in the mixing section is fluctuated to promote flow turbulence and to promote mixing of the outside air and the cleaning tank air, and the flow in the cleaning tank by intermittent air blowing into the cleaning tank It is possible to improve the drying performance by increasing the evaporation of moisture in the cleaning tank by causing fluctuations.

In the sixth aspect of the invention, in particular, the mixing variable means according to any one of the first to fifth aspects of the invention is an air volume control that increases the air volume of the first blower with the progress of the drying state in the cleaning tank during the drying operation. As a result, high-temperature exhaust can be prevented, and the drying time can be shortened or the drying performance can be improved by increasing the air volume in the cleaning tank.

In the seventh invention, in particular, the mixing variable means according to any one of the first to sixth inventions increases the air volume of the first blower with the progress of the drying state in the washing tank during the drying operation. By controlling the air volume to reduce the air volume of the second blower, the drying time can be shortened or the drying performance can be improved by increasing the air volume in the washing tank, and the energy consumption can be improved by reducing the power consumption in the blower. The comfort of the indoor space can be improved by reducing noise.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
FIG. 1 is a cross-sectional view showing the configuration of the dishwasher according to the first embodiment of the present invention. In FIG. 1, a cleaning means 4 having a cleaning nozzle 2 for jetting and circulating cleaning water to the object to be cleaned and a cleaning pump 3 for pressurizing the cleaning water below a cleaning tank 1 for storing the object to be cleaned such as tableware. And the heating means 5 which heats washing water and heats up is arrange | positioned. The drying means 6 includes an exhaust port 7 for discharging the air in the cleaning tank 1 (cleaning tank internal air) to the outside, and a mixing unit arranged on the upstream side of the exhaust port 7 for mixing the outside air and the cleaning tank internal air. 9, a first air passage 11 in which a first blower 10 for blowing outside air to the washing tank 1 and sending the inside air of the washing tank to the mixing unit 9 is disposed, and a second air for directly blowing outside air to the mixing unit 9. It has the 2nd ventilation path 13 which has arrange | positioned the air blower 12. As shown in FIG. An inlet 14 communicating with the first air passage 11 through which outside air flows is provided below the cleaning tank 1, and the air in the cleaning tank 1 (cleaning tank internal air) is discharged above the inlet 14 to mix the unit An outlet 15 leading to 9 is provided.

  Furthermore, the drying means 6 includes a mixing variable means 16 that controls the air volume of the first blower 10 and the second blower 12 during the drying operation and sets the mixing ratio of the outside air and the cleaning tank inside air in the mixing section 9. Yes. The mixing variable means 16 includes a first control unit 17 that controls the operation of the first blower 10, a second control unit 18 that controls the operation of the second blower 12, and a temperature detection provided on the downstream side of the mixing unit 9. A temperature control unit 20 that sets control amounts in the first control unit 17 and the second control unit 18 based on the detected temperature of the unit 19 is provided.

  In order to prevent the backflow of the airflow to the first blower 10 or the second blower 12, the check means 21 is disposed in the first blower passage 11 and the second blower passage 13. The cleaning tank 1 is provided with a water supply pipe 23 having a water supply valve 22 for supplying cleaning water and a drain pipe 25 having a drain valve 24 for draining the cleaning water, and a slide body 27 that can be drawn out from the housing 26. It is stored. The slide body 27 is provided with a vent 28 communicating with the outside.

  2 is a cross-sectional view showing the configuration of the check means 21 shown in FIG. 1. The check means 21 is a pressure of a fluid (indicated by an arrow in the drawing), that is, the first blower 10 or the second blower 12. A damper 29 that opens and closes with the wind pressure is arranged. The damper 29 is not only closed by wind pressure when a reverse flow is generated, but the fulcrum 30 of the damper 29 is disposed and supported above the center of gravity of the damper 29 and is received by a valve seat 31 slightly inclined from the vertical plane. When the first blower 10 or the second blower 12 is stopped, the damper 29 is closed by its own weight.

  FIG. 3 is an operation state diagram showing the control operation of the mixing variable means 16 shown in FIG. 1, and the air volume of the first blower 10 and the second blower 12 is dried by the control of the mixing variable means 16 at the start of the drying operation. As the time T elapses, the air volume ratio R of the cleaning tank air to the total air volume discharged from the exhaust port 7 is increased. In FIG. 3, the case where the air volume of the second blower 12 is zero and the air volume discharged from the exhaust port 7 is all the cleaning tank internal air sent from the first blower 10 is displayed as 1.

  FIG. 4 is an operation state diagram showing another control operation of the mixing variable means 16 shown in FIG. 1, and the blower air volume of the first blower 10 and the second blower 12 is controlled by the control of the mixing variable means 16 at the start of the drying operation. Q is changed as the drying operation time T elapses. At the start of the drying operation, the air flow rate of the first blower 10 is made smaller than the air flow rate of the second blower 12 to lower the exhaust temperature, and the drying in the cleaning tank 1 is performed. Air volume control is performed to increase the air volume of the first blower 10 with the progress of the situation, and further, the air volume of the first blower 10 is increased with the progress of the drying state in the cleaning tank 1 and the air volume of the second blower 12 is increased. Air volume control is performed to reduce the air flow.

  About the dishwasher comprised as mentioned above, the operation | movement and an effect | action are demonstrated below. First, the slide body 27 is pulled out from the housing 26 to store the tableware, which is the object to be cleaned, in the cleaning tank 1, and the slide body 27 is returned to its original state to start cleaning. When the cleaning operation is started, the water supply valve 22 is opened and water is supplied from the water supply pipe 23 to the cleaning tank 1. When a predetermined amount of water is supplied, the water supply valve 22 is closed and the water supply is stopped. When a certain cleaning pump 3 is operated, hot water is ejected from the cleaning nozzle 2 and sprayed on the tableware that is the object to be cleaned.

  The cleaning nozzle 2 is rotated by the reaction force of the cleaning water jetting, so that the cleaning water is spread over the object to be cleaned, thereby improving the cleaning performance. Here, the case where the heating means 5 is operated and washed with warm water is shown. However, if the object to be cleaned is weakly soiled, the heating means 5 may be operated without operating the water supply temperature, and the object to be cleaned may be contaminated. If it is strong, wash with detergent. When the cleaning operation is completed, the drain valve 24 is opened, and the cleaning water is drained from the drain pipe 25 to the outside of the housing 26. When draining is completed, the drain valve 24 is closed.

  In the next rinsing operation, water is supplied in the same manner as in the cleaning operation without adding detergent, and hot water is ejected from the cleaning nozzle 2 by the operation of the heating means 5 and the cleaning pump 3 and sprayed on the tableware to be cleaned. Let Since the object to be cleaned is dried after the rinsing operation, the object to be cleaned is preferably warmed in the rinsing operation. If the rinsing operation is performed with high-temperature water of about 70 ° C. to 80 ° C., the object to be cleaned is removed. In addition to being easy to dry in the drying process, the object to be cleaned can be sterilized at the same time. After the rinsing operation is completed, the rinsing water in the cleaning tank 1 is drained in the same manner as at the end of the cleaning operation.

  In the drying operation to be performed next, the first blower 10 and the second blower 12 are operated in order to discharge the air in the cleaning tank 1 that has become hot and humid due to the rinsing operation and dry the objects to be cleaned. The air is sent to the first air passage 11 and the second air passage 13. While the air sent to the 1st ventilation path 11 with the 1st air blower 10 sends the air (cleaning tank inside air) in the high-temperature, high-humidity washing tank 1 from the outlet 15 to the mixing part 9, The air sent to the second air passage 13 by the second air blower 12 and the air in the cleaning tank are mixed to lower the temperature and exhaust from the exhaust port 7. When the air inside the washing tank is cooled with the outside air, a part of the water contained in the washing tank is condensed and removed, so that the exhaust from the exhaust port 7 not only lowers the temperature but also reduces the moisture. It becomes.

  In particular, when rinsing operation is performed with high-temperature water, the high temperature and high humidity air in the cleaning tank 1 is not directly discharged from the exhaust port 7. The air volume to the first air passage 11 serving as the air volume is made smaller than the air volume to the second air passage 13 so that high-temperature exhaust is not emitted.

  For this reason, during the drying operation, a sufficient amount of outside air is mixed in the mixing section for cooling with the air in the high-temperature and high-humidity cleaning tank (air in the cleaning tank), and the hot air feeling of the exhaust is reduced by cooling the exhaust and reducing the moisture. Both prevention and improvement in drying performance can be achieved.

  Further, as shown in FIG. 3, the air volume is changed by the mixing variable means 16 so that the air volume ratio of the cleaning tank air increases with the progress of the drying operation, thereby stabilizing the exhaust temperature and improving the drying property. Therefore, the controllability of the exhaust temperature can be improved, and further, the drying time can be shortened or the drying performance can be improved by increasing the amount of air in the cleaning tank.

  Further, since the moisture in the exhaust gas can be reduced by condensing the moisture in the cleaning tank air when the cleaning tank internal air is cooled by the outside air, it is possible to improve the comfort by reducing the humidity increase in the installed room or the like.

  Further, as shown in FIG. 4, when the drying operation is started, the air volume of the first blower 10 is less than the air volume of the second blower 12, and a small amount of high temperature and high humidity is generated in a large amount of outside air sufficiently cooler than the air in the cleaning tank. By mixing the air in the washing tank, the temperature of the exhaust gas flowing out from the exhaust port 7 can be lowered, and the exhaust temperature can be gradually raised from the outside air temperature, so that high temperature exhaust can be prevented and the exhaust temperature overshoot The operation reliability for prevention can be improved.

  Moreover, the enthalpy of the air in the washing tank 1 falls with the progress of the drying in the washing tank 1 by performing the air volume control that increases the air volume of the first blower 10 as the drying situation in the washing tank 1 progresses. Therefore, the exhaust temperature tends to decrease, and even if the air volume of the first blower 10 is increased, it becomes easy to prevent the exhaust temperature from rising and the drying of the object to be cleaned is promoted. Thus, high-temperature exhaust can be prevented, and the drying time can be shortened or the drying performance can be improved by increasing the amount of air in the cleaning tank.

  Further, the air volume in the cleaning tank is increased by controlling the air volume to increase the air volume of the first blower 10 and reduce the air volume of the second blower 12 as the drying state in the cleaning tank 1 progresses. It is possible to achieve both shortening of drying time and improvement of drying performance by reducing the air volume of the second blower 12, thereby reducing power consumption in the blower, improving energy saving and reducing noise of the blower indoors. The comfort of the space can be improved.

  Further, when the forward flow from the blower is stopped in the first air passage 11 or the second air passage 13 as shown in FIG. 2, the air passages 11 and 12 are closed to prevent the reverse flow of the airflow. By providing the stop means 21, the airflow is prevented from flowing backward toward the other blower when one blower is operating, and the occurrence of corrosion due to condensation due to the outflow of moisture to the blower or its suction side is prevented. It is possible to improve the durability and reliability of the equipment by preventing the occurrence of problems such as corrosion by the high-humidity cleaning tank air flowing back into the machine body due to the reverse flow.

  In addition, since the backflow of the airflow can be prevented, it is possible to set a large range of change in the airflow ratio of the first blower 10 and the second blower 12, improve the temperature controllability, stabilize the airflow mixing operation, and increase the temperature. Exhaust can be reliably prevented.

  In addition, by providing the check means 21 in both the first air passage 11 and the second air passage 13, even if there is high humidity air in the cleaning tank 1 such as a cleaning process or an excessive process, the check means 21 is closed. The non-return means 21 prevents the moisture from flowing out to the blower side, prevents the occurrence of corrosion in the machine body, and improves the durability and reliability of the equipment. It is possible to reduce the outflow from the slide body 27, improve the comfort of the indoor space by reducing the outflow of moisture, and further improve the energy saving by reducing the heat radiation.

  FIG. 5 is an operation state diagram showing another control example of the control operation of the mixing variable means 16 shown in FIG. In FIG. 5, the second blower 12 is first operated at the start of the drying operation, and then the first blower 10 is operated with a slight time lapse ΔT. First, the low temperature outside air flows out from the exhaust port 7. In this state, the mixing of the high-temperature and high-humidity cleaning tank air is started, so that high-temperature exhaust at the start of the drying operation can be reliably prevented.

  FIG. 6 is an operation state diagram showing another control example of the blower control operation in the mixing variable means 16 shown in FIG. In FIG. 6, the air volume is controlled by intermittent operation that repeatedly turns on and off during the drying operation. The input of the blower is turned on for a time Ton and then turned off for a time Tof, and the time Ton is lengthened. Or by decreasing the time Tof, the blower air volume Q is sequentially increased. Furthermore, not only the lengths of time Ton and Tof but also the instantaneous value Won of the blower input is changed, and particularly when increasing the air volume, the air volume control width is increased by increasing Won.

  In particular, at least the first blower 10 of the first blower 10 or the second blower 12 during the drying operation is intermittently operated so as to be repeatedly turned on and off during the air flow control, so that the cleaning tank 1 is intermittently blown into the cleaning tank 1. It is possible to increase the evaporation performance of the water in the cleaning tank 1 by changing the flow in the interior, thereby improving the drying performance. In addition, since the flow in the mixing unit 9 varies, the turbulence of the flow can be promoted and the mixing of the outside air and the cleaning tank inside air can be promoted. Even if the time average air volume is the same, the flow speed fluctuation is large during intermittent operation and the flow turbulence can be increased, so that drying and mixing can be promoted.

  In addition, although the control example by the 1st air blower 10 was demonstrated, even in the case of the 2nd air blower 12, by applying this on-off intermittent operation, time Ton is shortened with time, or time Tof is lengthened. Needless to say, the air flow rate Q of the blower may be reduced sequentially, and both the first blower 10 and the second blower 12 are intermittently operated repeatedly to repeat on / off, thereby further enhancing the flow turbulence and promoting the drying. Can promote mixing.

  As described above, in the present embodiment, the outside air is directly blown to the first air passage and the mixing unit in which the first blower that blows outside air to the washing tank and sends the inside air of the washing tank to the mixing unit is arranged. A drying unit having a second air passage in which a second blower is disposed is provided, and the drying unit includes a mixing variable unit that controls the air volume of the first fan and the second fan and sets a mixing ratio during a drying operation. Therefore, during the drying operation, a sufficient amount of outside air is mixed with the air in the high-temperature and high-humidity cleaning tank (air in the cleaning tank) for cooling, and the hot air feeling of the exhaust is reduced by cooling the exhaust and reducing the moisture. Both prevention and improvement in drying performance can be achieved.

  Further, the mixing variable means of the present embodiment can improve the controllability of the exhaust temperature by changing the mixing variable means so that the air volume ratio of the cleaning tank internal air increases as the drying operation proceeds, and further the cleaning tank By increasing the amount of internal air, the drying time can be shortened or the drying performance can be improved.

  In addition, the first air passage or the second air passage of the present embodiment is provided with a check means for preventing backflow in at least one of the first air passage or the second air passage, so that the air volume ratio is increased. It is possible to set a large range of change in temperature and improve temperature controllability, stabilize the air volume mixing operation, and reliably prevent high-temperature exhaust. In addition, it is possible to improve the durability reliability of the device by preventing the occurrence of problems such as corrosion by causing the air in the cleaning tank with high humidity to flow back into the machine body due to the reverse flow.

  In addition, the check means of the present embodiment is closed when the forward flow is stopped, thereby preventing the occurrence of corrosion due to condensation due to the outflow of moisture to the blower or its suction side. It is possible to improve the comfort of the indoor space by improving the durability reliability of the equipment and reducing the outflow of moisture.

  Further, the mixing variable means of the present embodiment is such that the exhaust air temperature is gradually increased from the outside air temperature by setting the air volume of the first blower to be smaller than the air volume of the second fan at the start of the drying operation. Therefore, high-temperature exhaust can be prevented, and operational reliability for preventing exhaust temperature overshoot can be improved.

  Further, the mixing variable means of the present embodiment is such that the mixing variable means first starts the second blower at the start of the drying operation, and then starts the first blower over time, thereby starting the drying operation. High temperature exhaust can be reliably prevented.

  Further, the mixing variable means of the present embodiment is such that the mixing variable means performs the air volume control in which at least the first blower of the first blower or the second blower is operated intermittently during the drying operation. The flow of air in the cleaning tank is fluctuated to promote disturbance of the flow and promote mixing of the outside air with the air in the cleaning tank. In addition, intermittent flow to the cleaning tank causes fluctuations in the flow in the cleaning tank. It is possible to improve the drying performance by increasing the evaporation of moisture in the water.

  Further, the mixing variable means of the present embodiment prevents high-temperature exhaust by performing air volume control that increases the air volume of the first blower with the progress of the drying condition in the washing tank during the drying operation. In addition, the drying time can be shortened or the drying performance can be improved by increasing the air volume in the washing tank.

  Further, the mixing variable means of the present embodiment is an air volume that increases the air volume of the first blower and reduces the air volume of the second blower with the progress of the drying state in the washing tank during the drying operation. By controlling the air flow rate in the washing tank, the drying time can be shortened or the drying performance can be improved, the energy consumption can be improved by reducing the power consumption in the blower, and the noise of the blower can be reduced. Comfort can be improved.

  As described above, the dishwasher according to the present invention can surely prevent the hot air feeling of the exhaust temperature during drying and can be cooled according to the generated high-temperature and high-humidity air conditions. It can be applied to household appliances such as electric water heaters.

The block diagram of the dishwasher in Embodiment 1 of this invention Sectional view of the check means in FIG. 1 of the dishwasher Operation state diagram showing control operation of mixing variable means in FIG. 1 of the dishwasher Operation state diagram showing another control operation of the mixing variable means in FIG. 1 of the dishwasher Operation state diagram showing another control operation of the mixing variable means in FIG. 4 of the dishwasher Operation state diagram showing another control operation of the mixing variable means of the dishwasher Configuration of conventional dishwasher

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Washing tank 4 Washing means 5 Heating means 6 Drying means 7 Exhaust port 9 Mixing part 10 1st air blower 11 1st air flow path 12 2nd air blower 13 2nd air flow path 16 Mixing variable means 21 Check means

Claims (7)

A cleaning tank for storing an object to be cleaned, a cleaning means for spraying and circulating cleaning water to the object to be cleaned, a heating means for heating the cleaning water, an exhaust port for discharging moisture inside the cleaning tank, and an exhaust port Arranged on the upstream side is a mixing unit that mixes outside air with the cleaning tank inside air discharged from the cleaning tank, and a first blower that blows outside air to the cleaning tank and sends the cleaning tank inside air to the mixing unit The first air passage and the second air passage in which the second air fan that directly blows outside air to the mixing unit is disposed, and the air volume of the first air fan and the second air fan during the drying operation A dishwasher provided with a mixing variable means for controlling the mixing ratio and setting the mixing ratio of the inside air and outside air in the mixing section . The dishwasher / dryer according to claim 1, wherein the mixing variable means changes the air volume ratio of the air in the washing tank to increase as the drying operation proceeds. 3. The dishwasher according to claim 1, wherein the mixing variable means is configured such that the air volume of the first blower is less than the air volume of the second blower at the start of the drying operation. The dishwasher according to any one of claims 1 to 3, wherein the mixing variable means operates the second blower at the start of the drying operation and operates the first blower after a predetermined time has elapsed. 5. The dishwasher according to claim 1, wherein the mixing variable unit performs air volume control in which at least the first blower of the first blower or the second blower is intermittently operated during the drying operation. 6. The dishwasher according to claim 1, wherein the mixing variable unit performs air volume control for increasing the air volume of the first blower with the progress of the drying state in the washing tank during the drying operation. The mixing variable means performs air volume control for increasing the air volume of the first blower and reducing the air volume of the second blower as the drying state in the cleaning tank progresses during the drying operation. A dishwasher according to item 1.