JP4659227B2 - Dishwasher with state detection device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention is provided with a light emitting unit that emits light, a light receiving unit that receives light from the light emitting unit, and a control unit that controls the operation of the light emitting unit and the light receiving unit. A state detection device configured to discriminate between a light receiving state and a light shielding state based on light detected by the light receiving unit.PlaceThe present invention relates to a dishwasher provided.
[0002]
[Prior art]
The state detection device as described above is configured to discriminate between a light receiving state in which light is emitted from the light emitting unit to receive light from the light emitting unit and a light shielding state in which the light from the light emitting unit is shielded. It is used to detect the position of the door that opens and closes the main body of the dishwasher, and the door is in the closed position when it is determined as the light receiving state based on the light detected by the light receiving unit. If it is determined that the door is in the light blocking state, the door is determined to be in the open position.
[0003]
And in the dishwasher using the above-mentioned state detection device, when it is determined that the door position state is the closed position, each operation such as the washing operation and the rinsing operation is performed, and the door position state is When it is determined that the position is in the open position, each operation is stopped and each operation is performed with the door open. ing.
[0004]
[Problems to be solved by the invention]
In the state detection device as described above, if an abnormality such as an open failure of the light emitting unit where the light emitting unit stops emitting light or a short failure of the light receiving unit where light is always detected by the light receiving unit occurs, the light receiving state Even if the light is not appearing, it may be judged as the light receiving state, or conversely, it may be judged as the light shielding state even though the light shielding state is not appearing. There is a possibility that the determination is erroneously performed due to the occurrence of an abnormality such as a short circuit failure of the light receiving unit.
[0005]
In addition, when a short-circuit failure occurs in the light receiving unit, the light receiving unit erroneously receives light even though the light receiving unit is not receiving light. Will also be determined as a light receiving state.
Further, when an open failure of the light emitting unit occurs, the light emitting unit stops emitting light, so that the light receiving unit cannot receive light and is erroneously determined to be in the light shielding state even though it is not in the light shielding state.
[0006]
In the conventional state detection device, when an abnormality such as an open failure of the light emitting unit or a short failure of the light receiving unit occurs, there is a possibility that the light receiving state and the light shielding state may be erroneously determined. Is used to detect the position of the door that opens and closes the main body of the dishwasher.If an abnormality such as an open failure of the light emitting unit or a short failure of the light receiving unit occurs, the position of the door is mistakenly detected. There is a risk of discriminating, and each operation such as a cleaning operation may be performed with the door open.
Therefore, the dishwasher equipped with the conventional state detection device may not be able to be operated on the safe side when an abnormality such as an open failure of the light emitting unit or a short failure of the light receiving unit occurs.
[0007]
  The present invention has been made paying attention to such a point, and its purpose is to make it possible to reliably determine even if an abnormality such as an open failure of a light emitting unit or a short failure of a light receiving unit occurs. Condition detection devicePlaceIn addition, the present invention is to provide a dishwasher that can be operated on the safe side even if an abnormality such as an open failure of a light emitting unit or a short failure of a light receiving unit occurs.
[0008]
[Means for Solving the Problems]
  In order to achieve this object, according to the first aspect of the present invention, a light emitting unit that emits light, a light receiving unit that receives light from the light emitting unit, and the operation of the light emitting unit and the light receiving unit are provided. Control means for controlling,
  A state detection device configured to discriminate between a light receiving state and a light shielding state based on light detected by the light receiving unit.Dishwasher withIn
  The control means controls the operation of the light emitting unit so as to blink the light from the light emitting unit at a set blinking cycle,
  When the light receiving unit detects a blinking state in which light is blinking at the set blinking cycle, the light receiving unit is configured to determine the light receiving state,
  The control unit is configured to determine that the light is abnormal when the light receiving unit detects a lighting state in which light is continuously detected for longer than the set blinking cycle.And
  The state detection device is configured to discriminate between the light reception state and the light shielding state based on light detected by the light receiving unit and detect a position state of a movable detector included in the dishwasher. Has been.
[0009]
That is, the control unit is configured to control the operation of the light emitting unit so that the light from the light emitting unit blinks at the set blinking cycle, and to determine the light receiving state when the light receiving unit detects the blinking state. Therefore, when an abnormality such as an open failure of the light emitting unit or a short circuit failure of the light receiving unit occurs, it can be prevented from being mistakenly determined as a light receiving state, and an open failure of the light emitting unit or a short circuit of the light receiving unit is prevented. It is possible to determine the light reception state when the light reception state appears when no abnormality such as a failure has occurred, and an abnormality such as an open failure of the light emitting unit or a short failure of the light reception unit occurs. However, it is possible to reliably determine the light receiving state.
[0010]
In other words, if an open failure of the light emitting unit occurs, the light emitting unit will not emit light, so the light receiving unit will not be able to detect the blinking state. It is possible to prevent the flashing state from being detected by the light receiving unit even when the light blocking state appears, and to prevent the light receiving state from being erroneously determined. .
If a short-circuit failure occurs in the light receiving unit, the light receiving unit erroneously receives light even though the light receiving unit is not receiving light. Even if appears, it is possible to prevent the light receiving unit from detecting the blinking state and erroneously determining the light receiving state.
[0011]
Incidentally, the short-circuit failure of the light-receiving unit is not only when the light-receiving unit has a short-circuit failure, but also in the short-circuit mode of the control means input that receives the signal obtained from the light-receiving unit, the short-circuit failure of the light-emitting unit drive circuit element, In addition, it can be detected even in the case of a light emitting unit drive side failure of the control means output, and the light emitting unit open failure is not only when the light emitting unit has an open failure, but also in the open mode of the control means input, the light emitting unit driving It can also be detected in an open failure of a circuit element and an open-side failure of the control means output.
Therefore, even if various faults occur in the circuit excluding the control means, it is possible to reliably determine the light receiving state, and it is possible to detect the state with extremely high reliability.
[0012]
As described above, according to the first aspect of the present invention, it is possible to reliably determine the light receiving state even if an abnormality such as an open failure of the light emitting unit or a short failure of the light receiving unit occurs. It has been possible to provide a state detection device that can reliably perform a determination even when an abnormality such as an open failure of a light receiving unit or a short circuit failure of a light receiving unit occurs.
[0014]
  According to the first aspect of the present invention, when the control means detects a lighting state in which light is continuously detected for a longer time than the set blinking period, it is determined that there is an abnormality. Thus, it is possible to determine that an abnormality such as a short-circuit failure of the light receiving unit has occurred.
  For example, if a short-circuit failure occurs in the light receiving unit, the light receiving unit erroneously receives light even though the light receiving unit is not receiving light. Thus, the lighting state is detected, and it is possible to determine that an abnormality such as a short-circuit failure of the light receiving unit has occurred.
  Therefore, DepartureEven if an abnormality such as an optical unit open failure or a light receiving unit short-circuit failure occurs, it is possible to determine whether a light receiving unit short-circuit failure or other abnormality has occurred while reliably determining the light receiving state. It becomes.
[0016]
  According to the invention of claim 1,, Equipped with a state detection device for discriminating between the light receiving state and the light blocking state, and based on the determination of the light receiving state and the light blocking state by the state detecting device, movable detection of a door or the like that opens and closes the main body of the dishwasher Since it is configured to detect the position state of the body, based on the determination result of the state detection device, the position state of the movable detector included in the dishwasher is a position state where the operation of the dishwasher can be performed. Or a state where the operation of the dishwasher should not be executed.
  Therefore, based on the determination of the state detection device, when the operation of the dishwasher can be executed, the operation of the dishwasher is executed, and when the operation of the dishwasher should not be executed, The operation can be stopped, and the operation of the dishwasher can be accurately executed or stopped.
[0017]
  MoreoverThe stateThe control means in the state detection device can reliably determine the light receiving state even if an abnormality such as an open failure of the light projecting unit or a short circuit failure of the light receiving unit occurs. When the light receiving state is determined, the position of the movable detector is determined to be a position state in which the operation of the dishwasher can be performed. The operation can be executed, and when the operation of the dishwasher should not be executed, the operation of the dishwasher can be accurately prevented.
  Therefore, it has been possible to provide a dishwasher that can be operated on the safe side even when an abnormality such as an open failure of the light emitting unit or a short failure of the light receiving unit occurs using the state detection device. .
[0018]
  Claim2According to the invention described above, the state detection device detects the position state of the door that opens and closes the main body as the position state of the movable detector, and detects the light reception state as the closed position of the door. It is configured.
[0019]
That is, since the state detection device is configured to detect the position state of the door that opens and closes the main body, based on the determination result of the state detection device, the door that can perform the operation of the dishwasher is closed. It is possible to determine the position and the open position of the door where the operation of the dishwasher should not be performed.
Therefore, the operation of the dishwasher can be performed when the door position state is determined to be the closed position, and the operation of the dishwasher can be stopped when the door position state is determined to be the open position. Thus, it is possible to accurately execute or stop the operation of the dishwasher according to the position state of the door.
[0020]
Further, the cooperative action with claim 1 enables the control means in the state detection device to reliably determine the light receiving state even if an abnormality such as an open failure of the light emitting unit or a short circuit failure of the light receiving unit occurs. Therefore, if the control means determines that it is in the light receiving state, the door position state is determined as the closed position, so that even if an abnormality such as a light emitting unit open failure or a light receiving unit short failure occurs, the door position state It is possible to reliably determine that is a closed position.
Therefore, it is possible to execute the operation of the dishwasher when the door is in the closed position, and to prevent the operation of the dishwasher with the door open. Even if an abnormality such as an open failure of the light emitting portion or a short failure of the light receiving portion occurs, it is possible to reliably operate on the safe side.
[0021]
  Claim3According to the present invention, the state detection device detects the position state of the water level detection body that moves up and down in accordance with the water level of the cleaning tank as the position state of the movable detection body, and detects the light blocking state as the water level detection. It is comprised so that it may detect as a setting water level position of a body.
[0022]
That is, since the state detection device is configured to detect the position state of the water level detector that moves up and down according to the water level of the cleaning tank, the set water level in the cleaning tank is determined based on the determination result of the state detection device. No hot water is stored, the water level detector does not reach the set water level position corresponding to the set water level, and hot water at the set water level is stored in the washing tank, and the water level detector corresponds to the set water level. It is possible to determine whether or not hot water at the set water level has been stored in the cleaning tank by determining from the state where the set water level has been reached.
Therefore, when it is determined that the water level detector has not reached the set water level position, hot water is supplied to the cleaning tank, and when it is determined that the water level detector has reached the set position, Therefore, it is possible to stop the supply of hot water and store hot water at a set water level in the cleaning tank.
[0023]
Further, when the control means in the state detecting device determines that the light is blocked, it is determined that the water level detecting body has reached the set water level position. When the control means determines that the light receiving state is detected, the water level detecting body reaches the set water level. It can be determined that it is not.
And, by the cooperative action with claim 1, even if an abnormality such as an open failure of the light emitting unit or a short failure of the light receiving unit occurs, the control means in the state detecting device can reliably determine the light receiving state. Therefore, when the control means determines that it is in the light receiving state, it can be determined that the water level detector has not reached the set water level position, so that even if an abnormality such as an open failure of the light emitting unit or a short failure of the light receiving unit occurs. Thus, it is possible to reliably determine a state where hot water of a set water level is not stored in the cleaning tank.
Therefore, it becomes possible to supply hot water to the cleaning tank when the water level of the cleaning tank is reliably lower than the set water level, and even though hot water of the set water level is stored in the cleaning tank, It is possible to accurately prevent hot water from being supplied to the cleaning tank, and to operate reliably on the safe side even if an abnormality such as an open failure of the light emitting unit or a short failure of the light receiving unit occurs. Become.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
A dishwasher using a state detection apparatus according to the present invention will be described with reference to the drawings.
[First Embodiment]
As shown in FIGS. 1 to 4, the dishwasher is capable of being housed and moved with respect to the main body 1 having an open front portion and being movable out of the main body 1. The upper surface of the cleaning tank 2 is closed with the cleaning tank 2 and the cleaning tank 2 stored in the main body 1, and the upper surface of the cleaning tank 2 is opened with the cleaning tank 2 pulled out from the main body 1. It is comprised from the inner cover part 3 and the control part H etc. which control the driving | operation of a dishwasher.
A cleaning pump 5 and the like are provided below the bottom of the cleaning tank 2, and a cleaning nozzle 6 and a heater 7 are disposed inside the cleaning tank 2, and the cleaning pump 5, the cleaning nozzle 6 and the heater 7, and the like. Is integrally assembled in the cleaning tank 2.
Further, a cleaning basket 8 for storing and placing tableware and the like is removably stored inside the cleaning tank 2, and a float that moves up and down according to the water level of the cleaning tank 2 is provided so that the water level of the cleaning tank 2 is a set water level. A contact-type water level sensor 4 is provided for detecting whether or not.
[0025]
Inside the main body 1, a pair of left and right slide mechanisms 9 are provided for storing and moving the cleaning tank 2 with respect to the main body 1 and moving it out of the main body 1. Is stored and moved with respect to the main body 1 and is pulled out from the main body 1 while maintaining a horizontal posture or a substantially horizontal posture.
The front surface of the cleaning tank 2 is provided with a door 10 for opening and closing the main body 1, and the door 10 is provided with a handle 11 for pulling out the cleaning tank 2 from the main body 1. When housed in the main body 1, the front portion of the main body 1 is closed by the door 10.
Then, with the cleaning tank 2 pulled out from the main body 1, tableware and the like can be stored in and removed from the cleaning basket 8, and the cleaning pump 4, the cleaning nozzle 5, The heater 7 is operated to perform each operation such as a cleaning operation and a drying operation.
[0026]
The inner lid 3 is disposed on the inner upper surface of the main body 1 in a state of being biased to the front side of the main body 1 by a coil spring 12 for inner lid, Is moved in the storage direction of the cleaning tank 2 when the cleaning tank 2 is stored in the main body 1, and is pushed by the cleaning tank 2 so that the inner lid 3 is stored in the cleaning tank 2, that is, behind the main body 1. The contact part 3a for moving to the side is provided.
[0027]
Then, using the cam mechanism, the inner lid 3 is moved downward in conjunction with the movement of the cleaning tank 2 in the storage direction (rear side of the main body 1), and the pulling direction (main body of the cleaning tank 2) An inner lid guide mechanism 13 for moving the inner lid portion 3 upward in conjunction with the movement toward the front side of the portion 1 is provided.
The inner lid guide mechanism 13 is configured to support the inner lid portion 3 at four positions, front, rear, left and right of the main body portion 1, and guided pins 13 a provided on the inner lid portion 3 are attached to the main body portion 1. The inner lid 3 is configured to move upward or downward by the action of a cam mechanism that guides along a cam groove formed in the guide body 13b.
[0028]
In addition, as shown in FIG. 2, when the cleaning tank 2 is moved in the storage direction (rear side of the main body 1) from the state where the cleaning tank 2 is pulled out from the main body 1, When the cleaning tank 2 comes into contact with the portion 3a and the cleaning tank 2 is further moved in the storage direction (rear side of the main body 1), the contact portion 3a of the inner lid 3 is pushed by the cleaning tank 2, and the inner lid The portion 3 and the cleaning tank 2 are integrally moved in the storing direction (rear side of the main body portion 1).
When the inner lid 3 and the cleaning tank 2 are integrally moved in the storing direction (rear side of the main body 1), the inner lid 3 is moved downward by the action of the cam mechanism in the inner lid guide mechanism. When the cleaning tank 2 is stored in the main body 1, that is, when the cleaning tank 2 is moved to the storage position, the upper surface of the cleaning tank 2 is closed.
[0029]
As shown in FIGS. 3 and 4, when the cleaning tub 2 is moved from the state in which the cleaning tub 2 is accommodated in the main body 1 in the pulling direction (the front side of the main body 1), the coil spring 12 for the inner lid is used. The urging force and the cam mechanism in the inner lid guide mechanism 13 cause the inner lid portion 3 to move in the pulling direction while moving upward, so that the washing tub 2 is pulled out from the main body portion 1 in a state where it is pulled out. It is comprised so that the upper surface part of 2 may be opened.
[0030]
In addition, when the cleaning tank 2 is moved in the storage direction from the state where the cleaning tank 2 is pulled out from the main body 1 on both sides of the inner side surface portion of the main body 1, the cleaning tank 2 is stored using a toggle mechanism. An auxiliary mechanism A for providing auxiliary guidance to the position is provided.
Then, the auxiliary mechanism A is configured to assist the cleaning tank 2 in the pull-out direction using the toggle mechanism when the cleaning tank 2 is moved in the pull-out direction from the state where the cleaning tank 2 is held in the storage position. Has been.
[0031]
A lock mechanism 14 is provided for holding the cleaning tank 2 in the storage position as the cleaning tank 2 is moved to the storage position with respect to the main body 1, and the lock mechanism 14 is used for a pulling operation on the handle portion 11. Along with this, the cleaning tank 2 is configured to be released from being held in the storage position.
If it demonstrates, the lock mechanism 14 will be provided in the latching | locking part 14a provided in the main-body part 1, and the back surface part of the door 10, as shown in FIGS. And a hook portion 14b.
The hook portion 14b is integrally formed with a handle portion 11 for pulling out the cleaning tank 2 from the main body portion 1, and an integral member 15 of the hook portion 14b and the handle portion 11 is arranged around the locking horizontal axis 16. The handle 11 is provided with a handle cover portion 11a. The handle portion 11 is provided with a handle cover portion 11a. It has been.
[0032]
Further, on the back surface of the door 10, the position of the door 10 is determined as a closed position that closes the front surface of the main body 1 and an open position that opens the front surface of the main body 1. The holding state of the cleaning tank 2 at the cleaning position by the lock mechanism 14 is discriminated between a locked state where the cleaning tank 2 is held at the storage position and an unlocked state where the holding of the cleaning tank 2 at the storage position is released. A state detection mechanism 17 is provided as a state detection device.
That is, in the first embodiment, the state detection device according to the present invention detects the position state of the door that opens and closes the main body as the position state of the movable detector, and sets the light receiving state as the closed position of the door. Configured to detect.
[0033]
As shown in FIGS. 5 to 9, the state detection mechanism 17 includes a light emitting unit 18 that emits light, a light receiving unit 19 that receives light from the light emitting unit 18, and operations of the light emitting unit 18 and the light receiving unit 19. The state detection unit 20 is configured as a control unit for controlling the state, and the state detection unit 20 discriminates the light receiving state and the light blocking state based on the light detected by the light receiving unit 19 to determine the position state of the door 10. In addition, the holding state of the cleaning tank 2 at the cleaning position by the lock mechanism 14 is determined.
[0034]
In other words, the integral member 15 of the hook portion 14b and the handle portion 11 is swingable around the state detecting horizontal axis 21 and urged rearward by the state detecting coil spring 22. A sensor flag 23 is provided. When the sensor flag 23 swings, the light receiving unit 19 receives light from the light emitting unit 18 and the light from the light emitting unit 18 is blocked by the sensor flag 23. Any one of the light shielding states appears.
The sensor flag 23 shields the light from the contact portion 23 a that contacts the locking portion 14 a provided in the main body 1 and the light emitting portion 18 as the cleaning tank 2 moves to the storage position. It is comprised from the light-shielding part 23b.
[0035]
The state detection unit 20 controls the operation of the light emitting unit 18 so that the light from the light emitting unit 18 blinks at the set blinking cycle, and the light receiving unit 19 blinks the light at the set blinking cycle. When detected, the light receiving state is determined.
Moreover, the state detection part 20 is comprised so that it may discriminate | determine that it is abnormal when the light-receiving part 19 detects the lighting state which detects light continuously for longer than a setting blinking period.
[0036]
More specifically, as shown in FIGS. 10 and 11, the drive circuit of the light emitting unit 18 is a flashing circuit that repeats Low and Hi at the set flashing cycle so that the light emitting unit 18 flashes at the set flashing cycle. When the input signal detected by the light receiving unit 19 is a blinking signal that repeats Low and Hi at a set blinking cycle, the light receiving state is determined.
When the input signal is in the Low state, it is determined as abnormal, and when the input signal is in the Hi state, it is determined as the light shielding state.
[0037]
In addition, if an open failure of the light emitting unit 18 occurs, the light emitting unit 18 does not emit light, so even if the input signal is in the Hi state and the light receiving state appears, it is not determined that the light receiving state, and the light blocking state. If a short circuit failure occurs in the light receiving unit 19, the light receiving unit 19 erroneously receives light even though the light receiving unit 19 does not receive light. Is in a low state and is determined to be abnormal.
Then, when neither the open failure of the light-emitting unit 18 nor the short-circuit failure of the light-receiving unit 19 occurs and the light-receiving state appears, it is determined that the light-receiving state is detected, Even if a short circuit failure of the light receiving unit 19 occurs, the light receiving state is reliably determined.
[0038]
The cleaning tank 2 is moved to the storage position, the storage state in which the cleaning tank 2 is held in the storage position, and the holding of the cleaning tank 2 in the storage position is released by the pulling operation on the handle portion 11 from the storage state. The operation of the lock mechanism 14 and the determination of the state detection mechanism 17 in each of the intermediate state and the state in which the cleaning tank 2 is moved in the pull-out direction from the intermediate state and the cleaning tank 2 is pulled out from the main body 1. Add a description.
[0039]
In the storage state, as shown in FIG. 5, by moving the cleaning tank 2 to the storage position, the hook portion 14b is locked to the locking portion 14a to hold the cleaning tank 2 in the storage position, and the sensor. The contact portion 23a of the flag 23 is pushed downward by the contact with the locking portion 14a, and the sensor flag 23 swings around the state detecting horizontal axis 21 as shown in FIG. In addition, a light receiving state in which the light from the light emitting unit 18 is received by the light receiving unit 19 is revealed, and the state detecting unit 20 is configured to determine the light receiving state.
Further, in the intermediate state, as shown in FIG. 6, the integral member 15 of the hook portion 14b and the handle portion 11 is swung around the locking horizontal axis core 16 as the handle portion 11 is pulled. The locking of the hook portion 14b to the locking portion 14a is released, the holding of the cleaning tank 2 in the storage position is released, and the locking member 11 is pulled around the horizontal axis 16 for locking the integral member 15 by the pulling operation. , The contact between the contact portion 23 a and the locking portion 14 a of the sensor flag 23 is released, and the sensor flag 23 is rotated around the state detection horizontal axis 21 by the biasing force of the state detection coil spring 22. As shown in FIG. 9B, a state where the light from the light-emitting unit 18 is shielded by the light-shielding unit 23b appears so that the state detection unit 20 determines that the light is shielded. Has been.
[0040]
In the pulled-out state, as shown in FIG. 7, when the cleaning tank 2 is pulled out from the main body 1 and the pulling operation on the handle 11 is released, the integral member 15 of the hook 14b and the handle 11 is The coil spring swings around the locking horizontal axis 16 by the urging force of the winding spring, and its position is maintained by the action of a not-illustrated stopper, and the sensor flag 23 urges the state detecting coil spring 22. Accordingly, as shown in FIG. 9B, the light detection unit 20b determines that the light from the light emitting unit 18 is blocked by the light blocking unit 23b while maintaining the light blocking state. Is configured to do.
[0041]
In this way, the single state detection mechanism 17 determines whether the position state of the door 10 is the closed position or the open position, and the holding state of the cleaning tank 2 at the cleaning position by the lock mechanism 14 is It is configured to determine whether it is in the locked state or in the unlocked state, and determine whether it is in the storage state, or in the intermediate state or in the drawer state.
[0042]
When the state detection unit 20 determines that the light reception state is detected, the control unit H determines the storage state, performs each operation such as a cleaning operation and a drying operation, and determines that the state detection unit 20 determines that the light shielding state occurs. Each operation such as a cleaning operation and a drying operation is stopped by discriminating between the state and the drawing state.
Moreover, if the control part H discriminate | determines from the accommodation state, it will be notified to a user that the washing tank 2 was hold | maintained by the alerting buzzer, the audio | voice, etc. in the accommodation position.
[0043]
In addition, when the state detection mechanism 17 determines that it is in the light receiving state, the controller H determines that it is in the housed state, so that even if an abnormality such as an open failure of the light emitting unit 18 or a short failure of the light receiving unit 19 occurs, It is configured to be able to reliably determine the storage state, operate reliably when in the storage state, and prevent erroneous operation when in the intermediate state or in the pulled out state Yes.
Even when the operation of a washing operation or the like is not performed, a temporary stop switch provided in an operation unit (not shown) is not operated, and a pulling operation is performed on the handle unit 11, and the cleaning tank 2 is pulled out from the main body unit 1, The intermediate state in which the pulling operation is performed on the handle portion 11 is determined, the operation is stopped quickly, and the washing water 2 is accurately prevented from splashing when the washing tank 2 is pulled out from the main body portion 1. Even if an abnormality such as 18 open failure or light receiving unit 19 short-circuit failure occurs, the operation is surely performed on the safe side.
[0044]
[Second Embodiment]
This 2nd Embodiment is another embodiment of the water level sensor in the said 1st Embodiment, This water level sensor is demonstrated based on drawing.
Since other configurations are the same as those in the first embodiment, detailed description thereof will be omitted by using the same reference numerals.
[0045]
As shown in FIG. 12, the water level sensor 24 includes a storage unit 25 whose water level varies according to the water level of the cleaning tank 2, and a float 26 as a water level detector that moves up and down according to the water level of the storage unit 25. A light emitting unit 27 that emits light, a light receiving unit 28 that receives light from the light emitting unit 27, a state detection unit 29 as a control unit that controls the operation of the light emitting unit 27 and the light receiving unit 28, and the like. ing.
And the float 26 moves up and down according to the water level of the storage part 25, and as shown to (A) of FIG. 12, the light-receiving state which receives the light from the light emission part 27 in the light-receiving part 28, FIG. As shown in (b), any one of the light shielding states in which the light from the light emitting unit 27 is shielded by the float 26 appears, and the state detecting unit 29 detects the light detected by the light receiving unit 28. Based on the above, the light receiving state and the light shielding state are determined.
That is, in the second embodiment, the state detection device according to the present invention detects the position state of the float 26 that moves up and down according to the water level of the washing tank as the position state of the movable detector, and floats the light shielding state. It is comprised so that it may detect as 26 setting water level positions.
[0046]
Incidentally, although not shown, the cleaning tank 2 is connected to a hot water supply path for supplying hot water for rinsing and rinsing to the cleaning tank 2 and a drainage path for draining hot water in the cleaning tank 2. The supply path is provided with a hot water solenoid valve for switching between a state in which hot water is supplied to the cleaning tank 2 and a state in which it is stopped, and a drain path is switched between a state in which hot water in the cleaning tank 2 is discharged and a state in which it is stopped. A drainage pump is provided.
And the control part H controls the action | operation of a hot water solenoid valve and a drainage pump, supplies hot water so that the water level of the washing tank 2 may become a setting water level, or discharges the hot water in the washing tank 2 outside. It is configured.
[0047]
The state detection unit 29 controls the operation of the light emitting unit 27 so that the light from the light emitting unit 27 blinks at a set blinking cycle, and the light receiving unit 28 blinks the light at the set blinking cycle. When detected, the light receiving state is determined.
Moreover, the state detection part 29 is comprised so that it may discriminate | determine that it is abnormal when the light-receiving part 28 detects the lighting state which detects light continuously for longer than a setting blinking period.
[0048]
More specifically, as shown in FIGS. 10 and 11, the drive circuit of the light emitting unit 27 is a blinking circuit that repeats Low and Hi at the set blinking cycle so that the light emitting unit 27 blinks at the set blinking cycle. When the input signal detected by the light receiving unit 28 is a blinking signal that repeats Low and Hi at a set blinking cycle, the light receiving state is determined.
When the input signal is in the Low state, it is determined as abnormal, and when the input signal is in the Hi state, it is determined as the light shielding state.
[0049]
In other words, when an open failure of the light emitting unit 27 occurs, the light emitting unit 27 does not emit light. Therefore, even if the input signal is in the Hi state and the light receiving state appears, the light receiving state is not determined, and the light blocking state is determined. If a short-circuit failure occurs in the light receiving unit 28, the light receiving unit 28 is receiving light even though the light receiving unit 28 is not receiving light. It becomes a state and is configured to be determined as abnormal.
Then, when neither the open failure of the light emitting unit 27 nor the short failure of the light receiving unit 28 has occurred and the light receiving state appears, the light receiving unit 27 is discriminated as the light receiving state, Even if a short-circuit failure occurs in the light receiving unit 28, the light receiving state is reliably determined.
[0050]
And if the state detection part 29 discriminate | determines from the light reception state, the control part H will discriminate | determine that the position state of the float 26 is not a setting water level position, and will discriminate | determine that the water level of the washing tank 2 has not reached the setting water level. Then, when hot water is supplied to the cleaning tank 2 and the state detection unit 29 determines that the light is blocked, the position of the float 26 is determined to be the set water level, and the water level of the cleaning tank 2 reaches the set water level. It is discriminated that the state is being performed, and the supply of hot water to the cleaning tank 2 is stopped.
[0051]
In other words, when the state detection unit 29 determines that the light receiving state is detected, the control unit H determines that the water level of the cleaning tank 2 has not reached the set water level, thereby causing an open failure of the light emitting unit 27 or the light receiving unit 28. When the water level of the cleaning tank 2 has not reached the set water level even if an abnormality such as a short circuit failure occurs, the water level of the cleaning tank 2 has not reached the set water level. Supplying hot water to the washing tank 2 and accurately preventing hot water from being supplied to the washing tank 2 in spite of the fact that hot water at the set water level is stored in the washing tank 2; Even if an abnormality such as an open failure of the light emitting unit 27 or a short circuit failure of the light receiving unit 28 occurs, the operation is surely performed on the safe side.
[0052]
    [Another embodiment]
(1) In the said 1st Embodiment, the example which adapted the state detection apparatus concerning this invention to discriminate | determine opening / closing of the door 10 in a dishwasher is shown, In the said 2nd Embodiment, the state detection concerning this invention is shown. Although the example which applied the apparatus as the water level sensor 24 in a dishwasher was shown, the state detection apparatus concerning this invention is not restricted to these, The position state of the other movable detector with which a dishwasher is equipped is shown. Can be adapted to detectThe
[0054]
(2In the first and second embodiments, the inner lid portion 3 is moved upward or downward by the inner lid guide mechanism 13 using the cam mechanism, and the cleaning tank 2 is stored in the main body portion 1 for cleaning. The upper surface of the tank 2 is closed, and the upper surface of the cleaning tank 2 is opened with the cleaning tank 2 pulled out from the main body 1. The inner lid portion 3 is moved downward in conjunction with the movement of the cleaning tank 2 in the storage direction, and the inner lid portion 3 is moved upward in conjunction with the movement of the cleaning tank 2 in the pulling direction. The upper surface portion of the cleaning tank 2 may be closed while being housed in the main body portion 1, and the upper surface portion of the cleaning tank 2 may be opened while the cleaning tank 2 is pulled out from the main body portion 1. Is possible.
  That is, the inner lid guide mechanism 13 is not limited to the one using the cam mechanism, and can be implemented by being configured by another mechanism such as a link mechanism.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view of a dishwasher.
FIG. 2 is a schematic side view of the dishwasher in a state where the washing tank is held in the storage position.
FIG. 3 is a schematic side view of the dishwasher in a state where the washing tank is being pulled out from the main body.
FIG. 4 is a schematic side view of the dishwasher in a state where the washing tank is pulled out from the main body.
FIG. 5 is a side view showing the main part of the dishwasher in a state where the washing tank is held in the storage position.
FIG. 6 is a side view showing a main part of the dishwasher in a state where the holding of the washing tank in the storage position is released.
FIG. 7 is a side view showing the main part of the dishwasher when the washing tank is pulled out from the main body and moved.
FIG. 8 is a plan view showing a main part of the dishwasher in a state where the washing tank is held in the storage position.
FIG. 9 is a perspective view showing a light receiving state and a light shielding state in the state detection mechanism.
FIG. 10 is a diagram illustrating a driving state of a light emitting unit and an input state of a light receiving unit in a state detection mechanism.
FIG. 11 is a circuit diagram of a state detection mechanism.
FIG. 12 is a side view showing a light receiving state and a light shielding state when the state detecting device is applied to a water level sensor.
[Explanation of symbols]
1 Body
17 State detection device
18 Light emitter
19 Light receiver
20 Control means
10 Door as a movable detector
26 Water level detector as a movable detector

Claims (3)

A light emitting unit that emits light, a light receiving unit that receives light from the light emitting unit, and a control unit that controls operation of the light emitting unit and the light receiving unit are provided,
The control means is a dishwasher including a state detection device configured to determine a light receiving state and a light shielding state based on light detected by the light receiving unit,
The control means controls the operation of the light emitting unit so as to blink the light from the light emitting unit at a set blinking cycle,
When the light receiving unit detects a blinking state in which light is blinking at the set blinking cycle, the light receiving unit is configured to determine the light receiving state,
The control means is configured to determine that the light is abnormal when detecting a lighting state in which light is continuously detected for a period longer than the set blinking cycle .
The state detection device is configured to discriminate between the light reception state and the light shielding state based on light detected by the light receiving unit and detect a position state of a movable detector included in the dishwasher. A dishwasher that has been . The said state detection apparatus is comprised so that the position state of the door which opens and closes a main-body part may be detected as a position state of the said movable detection body, and a light reception state may be detected as a closed position of the said door. The dishwasher described . The state detecting device detects a position state of a water level detecting body that moves up and down in accordance with a water level of the washing tank as a position state of the movable detecting body, and detects a light shielding state as a set water level position of the water level detecting body. The dishwasher according to claim 1 configured as described above .

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