JP2020092765A - Dishwasher - Google Patents

Abstract

To provide a dishwasher to be stably used for a long term.SOLUTION: A dishwasher 1 includes a first sensor 10 for sensing a first operation to move a mobile body 7 from a first position to a second position; and a second sensor 20 for sensing a second operation to move the mobile body 7 toward the second position from a first operation detection position being a position of the mobile body 7 when the first sensor 10 has detected the first operation. A control section C1 includes a rapid operation detection section C11 for stopping a pump 62 to cancel a washing operation when the first sensor 10 detects the first operation, and also detecting execution of a rapid operation to rapidly move the mobile body 7 from the first position to the second position based on a lapsed time from detection of the first operation by the first sensor 10 to detection of the second operation by the second sensor 20.SELECTED DRAWING: Figure 1

Description

The present invention relates to dishwashers.

Patent Document 1 discloses an example of a conventional dishwasher. This dishwasher includes a housing, a washing tank, and a lid. The housing has a housing opening. The case opening opens the side surface side of the case and connects the inside and the outside of the case. The cleaning tank is provided in the housing. The cleaning tank has an opening whose upper surface side is open and accommodates dishes. The lid is arranged on the upper side in the housing and can close and open the opening of the cleaning tank.

The cleaning tank is pulled out from the inside of the housing through the housing opening and the first position where the cleaning tank is housed in the housing to close the housing opening and the opening is closed by the lid by a user's manual operation. The opening is opened by the lid and is movable to and from the second position where the dishes can be put in and taken out.

In addition, this dishwasher includes a nozzle, a pump, and a control unit that are provided inside the housing. The nozzle sprays cleaning water into the cleaning tank. The pump supplies cleaning water to the nozzle. The control unit controls the pump.

Furthermore, this dishwasher is equipped with a lock sensor. The lock sensor detects an operation for moving the cleaning tank from the first position to the second position, that is, the rotation of the lock lever.

In such a dishwasher, the control unit operates the pump in a state where the opening is closed by the lid, and executes a cleaning operation of spraying cleaning water from the nozzle into the cleaning tank. Then, when the lock sensor detects the rotation of the lock lever, the control unit stops the pump to stop the cleaning operation. As a result, it is possible to suppress the problem that the cleaning water sprayed from the nozzle leaks into the housing through the gap between the opening of the cleaning tank and the lid.

JP, 2016-112041, A

However, in the above-mentioned conventional dishwasher, when a rapid operation of rapidly moving the cleaning tank from the first position to the second position is performed, a small amount of cleaning water sprayed from the nozzle immediately before stopping the pump is used. It is difficult to suppress dripping inside the housing or outside the dishwasher outside the housing from the gap between the opening of the cleaning tank and the lid. For this reason, in this dishwasher, a small amount of washing water dropped inside the housing is erroneously detected as a water leak, a component in the housing to which the dropped washing water adheres may malfunction, and the dishwasher There is a risk of soiling the area around the installation location. Further, when the user cannot recognize the sudden operation, there is a possibility that the above-mentioned trouble may occur again or another trouble may be induced. As a result, it is desired that this dishwasher can be used stably for a longer period of time.

The present invention has been made in view of the above conventional circumstances, and an object of the present invention is to provide a dishwasher that can be stably used for a longer period of time.

The dishwasher of the present invention includes a housing,
A cleaning tank provided in the housing, having an opening formed by opening the side surface or the upper surface side, and a washing tank in which dishes are stored;
A lid capable of closing and opening the opening,
A nozzle provided in the housing for injecting cleaning water into the cleaning tank;
A pump provided in the housing for supplying the cleaning water to the nozzle;
A control unit that is provided in the housing and controls the pump;
The movable body, which is one of the cleaning tank and the lid, is a first position where the opening is closed by the lid, and the opening is opened by the lid, and the dishes can be taken in and out by a manual operation. Movable to and from the second position,
The control unit is a dishwasher that performs a cleaning operation of operating the pump in a state where the opening is closed by the lid and injecting the cleaning water from the nozzle into the cleaning tank,
A first sensor that detects a first motion for moving the movable body from the first position toward the second position;
A second motion detecting a second motion further moving the movable body toward the second position from a first motion detection position which is a position of the movable body when the first sensor detects the first motion; Further comprising a sensor,
When the first sensor detects the first operation, the control unit stops the pump to stop the cleaning operation, and the first sensor detects the first operation before the first operation. 2 Rapid operation for detecting that a rapid operation for rapidly moving the movable body from the first position to the second position is performed based on the elapsed time until the sensor detects the second motion. It is characterized in that it includes a detector.

In the dishwasher of the present invention, the sudden operation detection unit sets the movable body to the first position based on the elapsed time from when the first sensor detects the first motion to when the second sensor detects the second motion. It is detected that a sudden operation of rapidly moving from the second position to the second position is performed. Therefore, the control unit can appropriately perform various processes corresponding to the abrupt operation based on the detection of the abrupt operation by the abrupt operation detection unit, and suppress the recurrence of the defect, the leaving of the defect, or the induction of another defect. ..

Therefore, the dishwasher of the present invention can be used stably for a longer period of time.

It is desirable that the dishwasher of the present invention further includes an informing unit that makes an informing. The control unit preferably controls the notification unit to notify the occurrence of the sudden operation when the sudden operation detection unit detects the sudden operation. In this case, the control unit controls the notification unit to notify the user of the occurrence of the sudden operation, so that the recurrence of the sudden operation can be suppressed.

The dishwasher of the present invention preferably further includes a storage unit that stores information. Then, when the sudden operation detecting unit detects the sudden operation, the control unit desirably stores the occurrence of the sudden operation in the storage unit. In this case, for example, by confirming the information about the occurrence of the sudden operation stored in the storage unit during the maintenance work, removal of a small amount of washing water dropped inside the housing or outside the dishwasher outside the housing, and It is possible to perform maintenance or replacement of the components inside the housing to which the dropped cleaning water adheres. Further, for example, by letting the maintenance person inform the user of the causal relationship between the sudden operation and the malfunction, the recurrence of the sudden operation can be suppressed.

It is desirable that the control unit stores the number of times of sudden operation detection in the storage unit. In this case, it is possible to improve the accuracy of identifying the cause of the failure by checking the information on the number of times of detection of the sudden operation stored in the storage unit during the maintenance work.

It is desirable that the control unit is connected to the external information terminal via the network, and when the sudden operation detecting unit detects the sudden operation, it transmits the authentication number of the control unit and the occurrence of the sudden operation to the external information terminal. .. In this case, for example, the maintenance person can quickly grasp the occurrence of the sudden operation via the external information terminal, so that the efficiency of the maintenance work can be realized.

The dishwasher of the present invention is provided between the housing and the movable body, and manually operates to lock the movable body at the first position and prevent the movable body from moving at the first position. It is desirable to further include a lock mechanism that switches between the unlocked state and the unlocked state. The first sensor is preferably a lock sensor that detects that the lock mechanism has switched from the locked state to the unlocked state. The second sensor is a second motion detection position that is a position of the movable body set to the second position side with respect to the first motion detection position and is a position before a gap is formed between the opening and the lid. A position sensor that detects that the movable body has moved is desirable. In this case, since the first sensor and the second sensor can detect a sudden operation before a gap is formed between the opening and the lid, the accuracy of detecting the sudden operation is improved. Here, the reason why the detection accuracy of the sudden operation is improved will be described in more detail. If the second motion detection position is set to a position after a gap has been created between the opening and the lid, a sudden operation is performed until immediately after the gap is created, and the cleaning water jumps out of the cleaning tank. Even if it does, by suddenly moving the movable body to the second motion detection position and delaying the detection timing of the second sensor, it becomes impossible to detect a sudden operation. In this respect, with the above configuration, by detecting a sudden operation before the lid opens the opening of the cleaning tank, it is possible to prevent erroneous detection (non-detection) that is not detected even when the cleaning water jumps out of the cleaning tank.

It is desirable that the housing has a housing opening that opens a side surface of the housing and connects the inside and the outside of the housing. The movable body is preferably a cleaning tank having an opening whose upper surface side is open. It is desirable that the lid is arranged on the upper side in the housing. Then, the cleaning tank is manually operated to be housed in the housing to close the housing opening and the opening is closed, and the cleaning tank is pulled out from inside the housing through the housing opening to open the opening. It is desirable that the table can be moved to and from the second position where dishes can be taken in and out. In this case, it has a general configuration as a dishwasher installed in a system kitchen of a house. Since it is assumed that this dishwasher has a high frequency of sudden operations due to various uses by various users, the operational effects of the present invention can be certainly enjoyed.

According to the dishwasher of the present invention, it can be used stably for a longer period of time.

FIG. 1 is a schematic cross-sectional view of the dishwasher of the first embodiment, showing a state in which the washing tank is at the first position. 2 is a schematic cross-sectional view similar to FIG. 1, showing a state in which the lock lever is operated and the cleaning tank is slightly moved from the first position to the second position. FIG. 3 is a schematic cross-sectional view similar to FIG. 1, showing a state in which the cleaning tank has moved further toward the second position and the lid has been raised. FIG. 4 is a schematic cross-sectional view similar to FIG. 1, showing a state in which the cleaning tank has moved to the second position. 5A to 5C are partial cross-sectional views illustrating the detection operation of the lock lever and the position sensor. FIG. 6 is a block diagram of the dishwasher of the first embodiment. FIG. 7 is a flowchart of the interruption processing program during the washing operation according to the dishwasher of the first embodiment. FIG. 8 is a flowchart of the sudden operation detection program according to the dishwasher of the first embodiment. FIG. 9 is a schematic cross-sectional view of the dishwasher of the second embodiment. FIG. 10 is a block diagram showing a connection between a control unit and an external information terminal according to a modified dishwasher.

Embodiments 1 and 2 embodying the present invention will be described below with reference to the drawings.

(Example 1)
As shown in FIGS. 1 to 4, the dishwasher 1 of the first embodiment is an example of a specific aspect of the dishwasher of the present invention. The dishwasher 1 is a front drawer type installed under the top plate CT1 of the system kitchen.

<Case, cleaning tank and lid>
The dishwasher 1 includes a housing 9, a washing tank 7, and a lid 8. In this embodiment, the side surface of the substantially box-shaped housing 9 facing the user who uses the system kitchen, that is, the left side of the paper surface of FIGS. 1 to 4 is defined as the front surface of the housing 9. The right side of the paper surface of FIG. 4 is defined as the back side of the housing 9.

The top surface side of the housing 9 is covered with the top plate CT1. The housing 9 has a housing opening 9H. As shown in FIG. 4, the housing opening portion 9H opens a wide range from the upper end portion to the lower end portion on the front surface side of the housing 9, and connects the inside of the housing 9 and the outside.

As shown in FIG. 1, the cleaning tank 7 is provided in the housing 9. A slide rail mechanism (not shown) is arranged between the bottom of the cleaning tank 7 and the bottom wall of the housing 9. As shown in FIG. 4, the cleaning tank 7 can be pulled out from the inside of the housing 9 by its slide rail mechanism. The cleaning tank 7 is an example of the “movable body” in the present invention.

The cleaning tank 7 has an opening 7H. The opening 7H opens the upper surface side of the cleaning tank 7. A handle portion 7G is provided at an upper end portion on the front surface side of the cleaning tank 7. The handle portion 7G is gripped by the user when the user manually inserts and removes the cleaning tank 7.

As shown in FIGS. 1 to 4, the lid body 8 is arranged on the upper side in the housing 9, and can close and open the opening 7H of the cleaning tank 7. The lid 8 is adapted to move up and down between the positions shown in FIGS. 1 and 2 and the positions shown in FIGS. 3 and 4 by interlocking with the loading and unloading of the cleaning tank 7 by an unillustrated interlocking mechanism. There is.

The position of the cleaning tank 7 shown in FIG. 1 is the first position where the drawing distance is zero. The cleaning tank 7 is housed in the housing 9 to close the housing opening 9H and the opening 7H is closed by the lid 8 in the first position.

The position of the cleaning tank 7 shown in FIG. 2 has moved from the first position shown in FIG. 1 to the front side of the housing 9 by a short drawing distance L1. The lid 8 closes the opening 7H of the cleaning tank 7 until the cleaning tank 7 moves more than the drawing distance L1.

The position of the cleaning tank 7 shown in FIG. 3 is moved from the first position shown in FIG. 1 to the front side of the housing 9 by a drawing distance L2 longer than the drawing distance L1. When the cleaning tank 7 moves more than the drawing distance L1, the lid body 8 moves upward so as not to interfere with the cleaning tank 7, and starts opening the opening 7H of the cleaning tank 7. At this time, gaps G1 and G2 are formed between the opening 7H of the cleaning tank 7 and the lid 8. The gap G1 is a gap generated between the opening 7H and the lid body 8 on the inner side of the housing 9. The gap G2 is a gap generated between the opening 7H and the lid body 8 on the front surface side of the housing 9.

The position of the cleaning tank 7 shown in FIG. 4 is the second position moved from the first position shown in FIG. 1 to the front side of the housing 9 by the maximum extraction distance L3. The cleaning tank 7 is pulled out from the inside of the housing 9 through the housing opening 9H in the state of being in the second position, and the opening 7H is opened by the lid 8. Thus, the user can store the tableware TW1 in the cleaning tank 7 or take out the tableware TW1 from the cleaning tank 7 through the opening 7H exposed to the outside of the housing 9.

When the cleaning tank 7 is pushed from the position shown in FIG. 4 to the position shown in FIG. 1 by the manual operation of the user, the lid 8 operates in the opposite manner to the above by the interlocking mechanism not shown.

As shown in FIG. 1, a water supply pipe P1, a water supply solenoid valve 69, a drain pipe P2, a water leak sensor 32, and the like are provided in the housing 9.

The water supply pipe P1 supplies water to the cleaning tank 7 from a water supply source (not shown) provided outside the dishwasher 1. The water supply solenoid valve 69 opens and closes the water supply pipe P1 to switch between supplying and stopping water to the cleaning tank 7. The drain pipe P2 drains the wash water in the wash tank 7 to the outside of the dishwasher 1. The water leakage sensor 32 is composed of an electrode sensor and detects that water leakage from the cleaning tank 7 is accumulated on the bottom wall of the housing 9.

At the bottom of the cleaning tank 7, a water storage section 71 for storing cleaning water is provided. In addition, a dish basket 70 is arranged in the cleaning tank 7. The tableware TW1 is placed on the tableware basket 70. The tableware TW1 is, for example, a food/drink device such as a bowl, a plate, and a glass, and a food/drink tool such as a chopstick, a spoon, and a fork.

A heater 63, a temperature sensor 33, a drying fan 68, and a water level detection tank 30 are assembled in the cleaning tank 7, and move with the cleaning tank 7 when the cleaning tank 7 is taken in and out.

The heater 63 heats the cleaning water stored in the water storage portion 71 of the cleaning tank 7 or the air in the cleaning tank 7. The temperature sensor 33 detects the temperature of the cleaning tank 7.

The drying fan 68 is rotated while the heater 63 is operating to supply warm air into the cleaning tank 7 to dry the tableware TW1. The warm air supplied into the washing tank 7 by the drying fan 68 is exhausted to the outside of the dishwasher 1 through the ventilation port 7E formed in the front surface of the washing tank 7.

The water level detection tank 30 is connected to the water storage section 71 of the cleaning tank 7 via a communication pipe P3. A float type water level sensor 31 is provided in the water level detection tank 30. The water level sensor 31 detects the water level of the cleaning water in the cleaning tank 7.

<Nozzle and pump>
The dishwasher 1 further includes a nozzle 61 and a pump 62.

The nozzle 61 is arranged in the cleaning tank 7. The nozzle 61 sprays cleaning water into the cleaning tank 7 through the plurality of discharge holes. The spraying direction of the nozzle 61 changes in various directions in order to reliably clean the plurality of tableware TW1 stacked in the cleaning tank 7 or to clean the inner wall surface of the cleaning tank 7 and the tableware basket 70. It is like this.

The pump 62 is attached to the lower side of the water storage portion 71 of the cleaning tank 7, and moves with the cleaning tank 7 when the cleaning tank 7 is taken in and out. The pump 62 supplies the cleaning water stored in the water storage portion 71 of the cleaning tank 7 to the nozzle 61 to inject it during the normal rotation operation. The sprayed cleaning water is stored in the water storage unit 71, and thus is repeatedly supplied to the nozzle 61 by the pump 62. Further, the pump 62 discharges the cleaning water in the cleaning tank 7 to the outside of the dishwasher 1 via the residual food filter 67 and the drain pipe P2 during the reverse operation.

<Lock mechanism, lock sensor and position sensor>
As shown in FIGS. 1 and 5, the dishwasher 1 further includes a lock mechanism 5, a lock sensor 10, and a position sensor 20. The lock sensor 10 is an example of the “first sensor” in the present invention. The position sensor 20 is an example of the “second sensor” in the present invention.

The lock mechanism 5 is configured to have an engagement protrusion 9T and a lock lever 50. The engaging convex portion 9T is provided on the upper end portion on the front surface side of the housing 9 and projects downward. The lock lever 50 is rotatably provided near the handle portion 7G on the front surface side of the cleaning tank 7. That is, the lock mechanism 5 is provided between the housing 9 and the cleaning tank 7.

The lock lever 50 has an input portion 51, an engaging claw portion 52, and a sensor contact portion 53. As will be described below, the lock mechanism 5 is configured to be switched between a locked state and an unlocked state by a manual operation on the input unit 51.

1 and 5A show a state in which the cleaning tank 7 is at the first position and the user is not gripping the handle portion 7G. In this state, the lock lever 50 is biased by a biasing means (not shown) and is in a locked state. In the locked state, the lock lever 50 prevents the cleaning tank 7 at the first position from moving in the pulling direction by engaging the engaging claw portion 52 with the engaging convex portion 9T of the housing 9. ..

FIG. 5B shows a state in which the cleaning tank 7 is at the first position and the user holds the input portion 51 of the lock lever 50 together with the handle portion 7G. In this state, the lock lever 50 is rotated against the biasing means (not shown) and is in the unlocked state. In the unlocked state, the lock lever 50 moves in the direction in which the cleaning tank 7 at the first position is pulled out by separating the engaging claw portion 52 from the engaging convex portion 9T of the housing 9 downward. To allow that.

2 and 5C show a state in which the cleaning tank 7 has moved from the first position by a short drawing distance L1 in a state in which the user holds the input portion 51 of the lock lever 50 together with the handle portion 7G. In this state, the apex of the engaging claw portion 52 of the lock lever 50 is moved to the front side of the housing 9 from the engaging convex portion 9T of the housing 9. Therefore, even if the user does not touch the input portion 51 of the lock lever 50, the lock lever 50 allows the cleaning tank 7 to move in the direction in which the cleaning tank 7 is pulled out.

As shown in FIGS. 1 and 5, the lock sensor 10 is a micro switch disposed near the lock lever 50 on the front surface side of the cleaning tank 7. In the lock sensor 10, the contact portion 10A faces the sensor contact portion 53 of the lock lever 50.

As shown in FIGS. 1 and 5A, the lock sensor 10 switches to the ON state when the contact portion 10A is pushed by the sensor contact portion 53, and detects that the lock lever 50 is in the locked state. ..

As shown in FIG. 5B, the lock sensor 10 is switched to the OFF state when the sensor contact portion 53 is separated from the contact portion 10A, and the lock lever 50 is switched from the locked state to the unlocked state. Detect.

That is, in the lock sensor 10, the user manually switches the lock lever 50 from the locked state to the unlocked state in order to move the cleaning tank 7 from the first position shown in FIG. 1 to the second position shown in FIG. The motion, that is, the first motion is detected.

The first motion detection position, which is the position of the cleaning tank 7 when the lock sensor 10 detects the first motion, is the first position shown in FIG. When the lock lever 50 is switched from the locked state to the unlocked state, the position of the cleaning tank 7 is slightly displaced due to the sliding contact between the engaging protrusion 9T and the engaging claw 52, but this is within the error range.

As shown in FIGS. 1 and 5, the position sensor 20 is arranged at the lower end portion on the front surface side of the cleaning tank 7. The position sensor 20 has a sensor housing 21, a micro switch 22, and a slide member 23.

The sensor housing 21 is fixed to the cleaning tank 7, and moves with the cleaning tank 7 when the cleaning tank 7 is taken in and out. The micro switch 22 is fixed to the sensor housing 21. The contact portion 22A of the microswitch 22 projects upward from the upper surface of the microswitch 22.

The slide member 23 is slidably supported by the sensor housing 21. The slide direction of the slide member 23 is parallel to the direction in which the cleaning tank 7 is taken in and out. The slide member 23 is urged by an urging means (not shown) so as to slide toward the inner side of the housing 9 with respect to the sensor housing 21.

A protrusion 34 is formed on the lower portion of the slide member 23. The protrusion 34 is a substantially block-shaped protrusion protruding toward the front side of the paper surface of FIG. The protrusion 34 is arranged at a position where it can come into contact with the fixed piece 9U protruding upward from the bottom wall of the housing 9 from the front side of the housing 9.

A cam 35 is formed on the slide member 23. The cam 35 has a flat surface 35A and an inclined surface 35B. The flat surface 35A extends downward and extends parallel to the direction in which the cleaning tank 7 is taken in and out. The inclined surface 35B is connected to the edge of the flat surface 35A on the front surface side of the housing 9. The inclined surface 35B is inclined upward to the front surface side of the housing 9.

As shown in FIGS. 1, 5(a) and 5(b), when the cleaning tank 7 is in the first position, the slide member 23 is not shown in the state where the protrusion 34 and the fixing piece 9U are in contact with each other. It slides to the front side of the housing 9 with respect to the sensor housing 21 against the biasing means. The micro switch 22 is switched to the ON state when the contact portion 22A is pushed by the flat surface 35A of the cam 35.

As shown in FIG. 2 and FIG. 5C, the slide member 23 moves while the cleaning tank 7 moves from the first position by the short pull-out distance L1 while the projection 34 and the fixing piece 9U are in contact with each other. It is biased by a biasing means (not shown) and slides toward the back of the housing 9 with respect to the sensor housing 21. Therefore, the micro switch 22 is switched to the OFF state by the contact portion 22A shifting to the state of contacting the inclined surface 35B of the cam 35 and protruding upward. In this embodiment, the pull-out distance L1 is set to about several mm to several tens of mm.

The position where the cleaning tank 7 moves from the first position by the short pull-out distance L1 is the second motion detection position. The second motion detection position is the first motion detection position, that is, the position of the cleaning tank 7 which is set to the second position side from the first position, and is located between the opening 7H of the cleaning tank 7 and the lid 8. This is the position before the gaps G1 and G2 shown in FIG. The position sensor 20 detects that the cleaning tank 7 has moved to the second operation detection position when the contact portion 22A of the micro switch 22 contacts the inclined surface 35B of the cam 35.

That is, the position sensor 20 detects the second operation of further moving the cleaning tank 7 toward the first operation detection position, that is, from the first position to the second position by the user's manual operation.

When the cleaning tank 7 is pulled out from the second motion detection position shown in FIG. 2 as shown in FIGS. 3 and 4, the protrusion 34 and the fixing piece 9U are separated from each other, and the slide member 23 is at the position shown in FIG. 5(c). The state of sliding to is maintained.

<Control unit, storage unit, operation unit, display unit, notification unit>
As shown in FIGS. 1 and 6, the dishwasher 1 further includes a control unit C1, a storage unit C12, an operation unit 40, a display unit 41, and a notification unit 42.

The controller C1 is also arranged below the handle 7G on the front surface side of the cleaning tank 7. The control unit C1 is an electronic circuit unit including a CPU, a memory, an interface circuit, and the like (not shown). The storage unit C12 is a memory that configures the control unit C1 and includes storage elements such as a ROM and a RAM.

The storage unit C12 stores various programs such as a cleaning operation execution program executed by the control unit C1 to operate the dishwasher 1. The storage unit C12 also stores the interruption processing program during the cleaning operation shown in FIG. 7 and the sudden operation detection program shown in FIG. Further, the storage unit C12 stores various information such as setting information of the dishwasher 1, usage history information, and defect detection information as needed.

As shown in FIG. 6, detection signals of the water level sensor 31, the water leakage sensor 32, the temperature sensor 33, the lock sensor 10, and the micro switch 22 of the position sensor 20 are input to the control unit C1. Then, the control unit C1 controls the operations of the heater 63, the pump 62, the water supply solenoid valve 69, and the drying fan 68 by outputting a control signal via the drive circuit 60.

Further, as will be described in detail later, when the control unit C1 executes the sudden operation detection program shown in FIG. 8, a part of the control unit C1 functions as the sudden operation detection unit C11.

As schematically shown in FIG. 1, the operation section 40 and the display section 41 are arranged in a unitized state at the upper end on the front surface side of the cleaning tank 7. The operation unit 40 has a plurality of buttons and the like (not shown). The display unit 41 has a display element capable of displaying numbers and characters, a lamp, and the like.

As illustrated in FIG. 6, the operation unit 40 transmits the user's input operation to the control unit C1. The display unit 41 displays the information transmitted from the control unit C1.

When the cleaning tank 7 is in the range from the first position shown in FIG. 1 to the second motion detection position shown in FIG. 2, the entire operation unit 40 and display unit 41 are hidden by the top plate CT1 of the system kitchen. There is. For this reason, the user cannot operate and visually recognize the operation unit 40, and cannot visually recognize the display unit 41.

On the other hand, the cleaning tank 7 is pulled out from the second motion detection position shown in FIG. 2 as shown in FIGS. 3 and 4, so that the entire operation unit 40 and the display unit 41 are located at a level higher than the top plate CT1 of the system kitchen. Move forward. Therefore, the user can operate and visually recognize the operation unit 40, and can also visually recognize the display unit 41.

Since the operation unit 40 and the display unit 41 are arranged as described above, the dishwasher 1 executes the washing operation in the following procedure. That is, in a state where the cleaning tank 7 is pulled out as shown in FIGS. 3 and 4, after the user operates the operation unit 40 to instruct to start the cleaning operation, the cleaning tank 7 is moved to the first position shown in FIG. Push in. As a result, the control unit C1 operates the pump 62 and performs a cleaning operation of injecting cleaning water into the cleaning tank 7 from the nozzle 61 on condition that both the lock sensor 10 and the position sensor 20 are turned on. That is, the control unit C1 confirms the state in which the opening 7H of the cleaning tank 7 is closed by the lid 8 and then operates the pump 62 to execute the cleaning operation.

Note that the cleaning operation is not only an operation of cleaning the tableware TW1 stored in the cleaning tank 7, but also an operation of cleaning the cleaning tank 7 and the tableware basket 70 when the tableware TW1 is not stored in the cleaning tank 7. Is included.

As shown in a simplified manner in FIG. 1, the notification section 42 is also arranged below the handle section 7G on the front surface side of the cleaning tank 7. The notification unit 42 is, for example, a buzzer that generates a warning sound, a speaker that generates a warning message, or a lamp that emits a warning light. As shown in FIG. 6, the notification unit 42 is connected to the control unit C1. The control unit C1 controls the notification unit 42 to notify the user of a warning or the like when various problems occur.

<Discontinuation processing during cleaning operation>
In the dishwasher 1, the user may interrupt the washing operation and pull out the washing tank 7 due to various reasons such as addition and removal of the dish TW1 during the washing operation. Here, since the operation unit 40 and the like are arranged as described above, the operation unit 40 cannot be operated to interrupt the cleaning operation during the cleaning operation, and the user manually operates the lock lever 50. It is necessary to pull out the cleaning tank 7 after interrupting the cleaning operation by switching from the locked state to the unlocked state.

Therefore, in the dishwasher 1, the control unit C1 executes the interruption processing program during the washing operation shown in FIG. 7 in the background from the start to the end of the washing operation.

When the interruption processing program during the cleaning operation shown in FIG. 7 is started, the control unit C1 determines in step S101 whether the lock sensor 10 is turned off.

When the lock lever 50 is switched from the locked state to the unlocked state, the lock sensor 10 is switched from ON to OFF, so “Yes” is obtained in step S101, and the process proceeds to step S102. On the other hand, if the lock lever 50 is still in the locked state, the lock sensor 10 is ON, so “No” in the step S101, and the step S101 is repeated.

When the process proceeds from step S101 to step S102, the control unit C1 immediately stops the pump 62 and stops the cleaning operation. As a result, the cleaning water is not jetted from the nozzle 61.

Next, the control unit C1 proceeds to step S103 to execute the interruption process of the cleaning operation for the components other than the pump 62 as well.

Next, the control unit C1 proceeds to step S104 and determines whether or not the lock sensor 10 is turned on and the micro switch 22 of the position sensor 20 is turned on.

If “Yes” in step S104, the control unit C1 restarts the cleaning operation. On the other hand, if “No” in the step S104, the step S104 is repeated. Then, the control unit C1 ends this program when the cleaning operation ends.

<Sudden operation detection processing by the sudden operation detection unit>
In the dishwasher 1, when the user manually interrupts the washing operation, a rapid operation is performed in which the washing tank 7 is rapidly moved from the first position shown in FIG. 1 to the second position shown in FIG. There are cases. In this case, a small amount of cleaning water sprayed from the nozzle 61 immediately before stopping the pump 62 is discharged from the gaps G1 and G2 formed between the opening 7H of the cleaning tank 7 and the lid 8 as shown in FIG. There is a risk of dripping inside 9 or outside the dishwasher 1 outside the housing 9.

Therefore, when the control section C1 executes the sudden operation detection program shown in FIG. 8, a part of the control section C1 functions as the sudden operation detection section C11. The controller C1 is configured to execute the sudden operation detection program shown in FIG. 8 in the background while the dishwasher 1 is powered on.

When the sudden operation detection program shown in FIG. 8 is started, the sudden operation detection unit C11 determines in step S201 whether or not the cleaning operation is being performed. If "Yes" in step S201, the process proceeds to step S202. On the other hand, if “No” in the step S201, the step S201 is repeated.

After shifting from step S201 to step S202, the sudden operation detection unit C11 determines whether or not the lock sensor 10 is turned off.

When the lock lever 50 switches from the locked state to the unlocked state, the lock sensor 10 switches from ON to OFF. That is, the lock sensor 10 detects the first motion. Therefore, the result in step S202 is "Yes", and the process proceeds to step S203. On the other hand, if the lock lever 50 is still in the locked state, the lock sensor 10 is ON, so “No” in the step S202, and the step S202 is repeated.

When the process proceeds from step S202 to step S203, the sudden operation detection unit C11 starts measuring the elapsed time from when the lock sensor 10 detects the first motion to when the position sensor 20 detects the second motion.

Next, the sudden operation detection unit C11 proceeds to step S204 and determines whether or not the micro switch 22 of the position sensor 20 is turned off.

When the cleaning tank 7 moves to the first motion detection position, that is, from the first position to the second motion detection position, the micro switch 22 of the position sensor 20 is turned off. That is, the position sensor 20 detects the second motion. Therefore, the result in step S204 is “Yes”, and the process proceeds to step S205. On the other hand, if the cleaning tank 7 has not moved to the second motion detection position, the micro switch 22 of the position sensor 20 is turned on, so "No" in step S204 and step S204 is repeated.

After shifting from step S204 to step S205, the sudden operation detection unit C11 ends the measurement of the elapsed time.

Next, the sudden operation detection unit C11 proceeds to step S206 and determines whether the elapsed time is shorter than a preset threshold value.

In the case of "Yes" in step S206, the sudden operation detection unit C11 detects that the sudden operation of rapidly moving the cleaning tank 7 from the first position to the second position has been performed. Then, the process proceeds to step S207.

On the other hand, in the case of “No” in step S206, the sudden operation detection unit C11 determines that the sudden operation has not been performed, and ends this program. Then, the sudden operation detection unit C11 repeatedly executes this program while the power of the dishwasher 1 is turned on.

After shifting from step S206 to step S207, the sudden operation detection unit C11 controls the notification unit 42 to notify the occurrence of the sudden operation by, for example, a warning sound, a warning message, or a warning light emission.

Next, the sudden operation detection unit C11 proceeds to step S208 and stores the occurrence of the sudden operation in the storage unit C12.

Next, the abrupt operation detection unit C11 proceeds to step S209, stores the number of abrupt operation detections in the storage unit C12, and then ends this program. Then, the sudden operation detection unit C11 repeatedly executes this program while the power of the dishwasher 1 is turned on.

<Effect>
In the dishwasher 1 of the first embodiment, as shown in FIG. 8, the sudden operation detection unit C11 is an elapsed time from when the lock sensor 10 detects the first motion to when the position sensor 20 detects the second motion. Based on the above, it is detected that a sudden operation of rapidly moving the cleaning tank 7 from the first position to the second position is performed. Therefore, the control unit C1 appropriately performs various processes corresponding to the abrupt operation based on the detection of the abrupt operation by the abrupt operation detection unit C11 to cause the recurrence of the defect, the leaving of the defect, or the induction of another defect. Can be suppressed.

Specifically, the control unit C1 controls the notification unit 42 to notify the user of the occurrence of the sudden operation, so that the recurrence of the sudden operation can be suppressed. In addition, the control unit C1 controls the storage unit C12 to record the occurrence of a sudden operation and the number of times the sudden operation is detected, so that the record can be confirmed during maintenance work to check the inside of the housing 9 or the housing. It is possible to remove a small amount of washing water dropped outside the dishwasher 1 outside the washing machine 9 and to maintain or replace the components inside the housing 9 to which the dropped washing water adheres. Further, by letting the maintenance person inform the user of the causal relationship between the sudden operation and the malfunction, the recurrence of the sudden operation can be suppressed. Further, by confirming the information on the number of times of detection of the sudden operation stored in the storage unit C12 during the maintenance work, the accuracy of identifying the cause of the malfunction can be improved.

Therefore, the dishwasher 1 of the first embodiment can be used stably for a longer period of time.

In addition, in this dishwasher 1, the lock sensor 10 as the first sensor and the position sensor 20 as the second sensor allow the gap G1 shown in FIG. 3 between the opening 7H of the cleaning tank 7 and the lid 8. Since the sudden operation can be detected before G2 occurs, the accuracy of detecting the sudden operation is improved. Here, the reason why the detection accuracy of the sudden operation is improved will be described in more detail. If the second motion detection position is set to a position after the gaps G1 and G2 are formed between the opening 7H and the lid body 8, a rapid operation is performed until immediately after the gaps G1 and G2 are formed. Even if the cleaning water jumps out of the cleaning tank 7, the cleaning tank 7 is slowly moved to the second motion detection position and the detection timing of the position sensor 20 is delayed, so that the sudden operation cannot be detected. In this respect, by the above configuration, by detecting a sudden operation before the lid 8 opens the opening 7H of the cleaning tank 7, the false detection (non-detection) is not detected even when the cleaning water jumps out of the cleaning tank 7. Can be prevented.

Further, in the dishwasher 1, the cleaning tank 7 as a movable body is manually operated to be housed in the housing 9 to close the housing opening 9H and the opening 7H to be closed by the lid 8. It is movable between a position and a second position in which the tableware TW1 is pulled out from inside the housing 9 through the housing opening 9H and the opening 7H is opened by the lid 8. That is, the dishwasher 1 is a general configuration installed in a system kitchen of a house, and it is assumed that the frequency of sudden operations will increase due to various uses by various users. You can definitely enjoy the effect.

(Example 2)
As shown in FIG. 9, the dishwasher 2 according to the second embodiment includes a housing 209, a cleaning tank 207 that is housed in the housing 209 and does not move, and is rotatably supported on the front side of the housing 209. And a lid 208. The lid 208 is an example of the “movable body” in the present invention. The dishwasher 2 can be installed below or above the top plate of the system kitchen.

The cleaning tank 207 has an opening 207H whose front side is open. The lid 208 can be rotated manually between a first position shown by a solid line in FIG. 9 and a second position shown by a two-dot chain line in FIG. 9. The lid 208 closes the opening 207H of the cleaning tank 207 in the state of being in the first position shown by the solid line in FIG. On the other hand, in the state where the lid 208 is in the second position shown by the chain double-dashed line in FIG. 9, the opening 207H is opened to allow the dishes to be taken in and out.

The dishwasher 2 includes a lock sensor 210 as a first sensor and a position sensor 220 as a second sensor.

The lock sensor 210 is arranged at the upper end on the front side of the housing 209. The lock sensor 210 detects a first operation for moving the lid body 208 from the first position to the second position, that is, the lock lever 250 is switched from the locked state to the unlocked state.

The position sensor 220 is arranged at the lower end on the front surface side of the housing 209. The position sensor 220 further moves the lid body 208 from the first movement detection position, which is the position of the lid body 208 when the lock sensor 210 detects the first movement, that is, the first position, toward the second position. 2 Detect motion.

The dishwasher 2 according to the second embodiment includes a control unit and a sudden operation detection unit similar to the control unit C1 and the sudden operation detection unit C11 according to the dishwasher 1 according to the first embodiment. Then, the control unit and the sudden operation detecting unit detect the sudden operation based on the detection results of the lock sensor 210 and the position sensor 220. Accordingly, the dishwasher 2 can appropriately perform various kinds of processing corresponding to a sudden operation to suppress the recurrence of a defect, the leaving of a defect, or the induction of another defect. For example, the dishwasher 2 can remove a small amount of wash water that has dropped outside the dishwasher 2 outside the housing 209, and can prevent the surroundings of the installation place of the dishwasher 2 from becoming dirty.

(Modification)
As shown in FIG. 10, the control unit C1 according to the dishwasher 1 of the first embodiment may include the network connection interface C13. In this case, the control unit C1 is connected to the external information terminal PC1 via the network N1. Then, when the sudden operation detection unit C11 detects the sudden operation, the control unit C1 transmits to the external information terminal PC1 a data signal that combines the authentication number of the control unit C1 and the occurrence of the sudden operation into one. .. The external information terminal PC1 is a host computer or the like owned by the maintenance company.

In this modified example, the maintenance company can quickly recognize the occurrence of an abrupt operation in the dishwasher 1 via the external information terminal PC1, so that the efficiency of the maintenance work can be realized.

Although the present invention has been described above with reference to the first and second embodiments, the present invention is not limited to the above first and second embodiments, and may be appropriately modified and applied without departing from the spirit thereof. Needless to say.

For example, the first sensor is the lock sensor 10 in the first embodiment, and the first sensor is the lock sensor 210 in the second embodiment, but the configuration is not limited to this. The first sensor may be a position sensor that detects that the movable body has moved from the first position before the second sensor.

INDUSTRIAL APPLICATION This invention can be utilized for a dishwasher, a kitchen facility, etc.

1, 2... Dishwasher 9, 209... Housing 7H, 207H... Opening TW1... Dishware 7,207... Wash tank (7... Movable body)
8, 208... Lid body (208... Movable body)
61... Nozzle 62... Pump C1... Control part 10,210... 1st sensor (lock sensor)
20, 220... Second sensor (position sensor)
C11... Sudden operation detection unit 42... Notification unit C12... Storage unit N1... Network PC1... External information terminal 5... Lock mechanism G1, G2... Gap between opening and lid 9H... Housing opening

Claims (7)

Housing and
A cleaning tank provided in the housing, having an opening formed by opening the side surface or the upper surface side, and a washing tank in which dishes are stored;
A lid capable of closing and opening the opening,
A nozzle provided in the housing for injecting cleaning water into the cleaning tank;
A pump provided in the housing for supplying the cleaning water to the nozzle;
A control unit that is provided in the housing and controls the pump;
The movable body, which is one of the cleaning tank and the lid, is a first position where the opening is closed by the lid, and the opening is opened by the lid, and the dishes can be taken in and out by a manual operation. Movable to and from the second position,
The control unit is a dishwasher that performs a cleaning operation of operating the pump in a state where the opening is closed by the lid and injecting the cleaning water from the nozzle into the cleaning tank,
A first sensor that detects a first motion for moving the movable body from the first position toward the second position;
A second motion detecting a second motion further moving the movable body toward the second position from a first motion detection position which is a position of the movable body when the first sensor detects the first motion; Further comprising a sensor,
When the first sensor detects the first operation, the control unit stops the pump to stop the cleaning operation, and the first sensor detects the first operation before the first operation. 2 Rapid operation for detecting that a rapid operation for rapidly moving the movable body from the first position to the second position is performed based on the elapsed time until the sensor detects the second motion. A dishwasher including a detector. Further comprising an informing section for informing,
The dishwasher according to claim 1, wherein the control unit controls the notification unit to notify the occurrence of the sudden operation when the sudden operation detection unit detects the sudden operation. Further comprising a storage unit for storing information,
The dishwasher according to claim 1 or 2, wherein the control unit stores the occurrence of the sudden operation in the storage unit when the sudden operation detection unit detects the sudden operation. The dishwasher according to claim 3, wherein the control unit stores the number of detections of the sudden operation in the storage unit. The control unit is connected to an external information terminal via a network, and when the sudden operation detection unit detects the sudden operation, the authentication number of the control unit and the occurrence of the sudden operation are transmitted to the external information terminal. The dishwasher according to claim 3, wherein the dishwasher is transmitted to. A locked state, which is provided between the housing and the movable body, prohibits movement of the movable body at the first position and allows movement of the movable body at the first position by the manual operation. Further equipped with a lock mechanism that switches to an unlocked state
The first sensor is a lock sensor that detects that the lock mechanism has switched from the locked state to the unlocked state,
The second sensor is a position of the movable body which is set closer to the second position than the first motion detection position and is a position before a gap is formed between the opening and the lid. The dishwasher according to any one of claims 1 to 5, which is a position sensor that detects that the movable body has moved to a two-motion detection position. The housing has a housing opening that opens a side surface side of the housing and allows the inside and the outside of the housing to communicate with each other,
The movable body is the cleaning tank having the opening formed by opening the upper surface side,
The lid is arranged on the upper side in the housing,
The cleaning tank is housed in the housing by the manual operation to close the housing opening, and the first position where the opening is closed, and from inside the housing through the housing opening. The dishwasher according to any one of claims 1 to 6, wherein the dishwasher is pulled out to open the opening, and is movable between the second position where the dishes can be taken in and out.

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