JP7001260B2 - Toilet tank detection device, temporary toilet equipped with this, toilet tank warning notification system, toilet tank warning notification method and toilet tank warning notification program - Google Patents

Description

The present invention relates to a toilet tank detection device, a temporary toilet provided with the toilet tank detection device, a toilet tank warning notification system, a toilet tank warning notification method, and a toilet tank warning notification program.

Conventionally, various temporary toilets have been used at construction sites, outdoor event venues, shelters in the event of a disaster, etc. (for example, Patent Document 1).
Such a temporary toilet is generally provided with a toilet tank for accommodating filth and sewage. Then, depending on the condition of sewage and sewage in the toilet tank, the manager has come to perform maintenance such as pumping work.

Japanese Unexamined Patent Publication No. 2016-125247

However, in such a temporary toilet, it is necessary to go to the site and visually check the condition of filth and sewage in the toilet tank, so that there is a problem that it takes time and effort to confirm the condition.

In view of the above, the present invention relates to a toilet tank detection device capable of easily and quickly grasping the state of filth and sewage in the toilet tank, a temporary toilet provided with the same, a toilet tank warning notification system, and a toilet tank warning notification method. And to provide a toilet tub warning notification program.

The stool tank detection device described in the present application is a stool tank detection device provided in the stool tank of a temporary toilet and connected to a notification device for notifying a warning, and the height of filth and sewage in the stool tank. It is provided with an output unit that detects the height, outputs these detection results to the notification device, and notifies the notification device of a warning according to the height of the sewage and the sewage.

According to one aspect of the present application, the state of filth and sewage in the toilet tank can be easily and quickly grasped.

It is an overall block diagram of the toilet tank warning notification system which concerns on 1st Embodiment of this invention. It is explanatory drawing which shows the temporary toilet of FIG. It is explanatory drawing which shows the warning signal table which the notification server stores. It is a flowchart which shows the processing operation of the control part of a notification server. It is explanatory drawing which shows the state of filth and sewage in a stool tank. It is explanatory drawing which shows the other situation of filth and sewage in a stool tank. It is explanatory drawing which shows the warning signal table which concerns on 2nd Embodiment of this invention. It is a flowchart which shows the processing operation of the control part which concerns on 2nd Embodiment of this invention. It is a flowchart which shows the processing operation of the 1st warning notification processing of FIG. It is a flowchart which shows the processing operation of the 2nd warning notification processing of FIG. It is a flowchart which shows the processing operation of the 3rd warning notification processing of FIG. It is a flowchart which shows the processing operation after the reference numeral A of FIG. It is explanatory drawing which shows the 1st modification of the warning signal table which concerns on this invention. It is explanatory drawing which shows the 2nd modification of the warning signal table which concerns on this invention. It is explanatory drawing which shows the 3rd modification of the warning signal table which concerns on this invention.

[First Embodiment]
Hereinafter, the toilet tank detection device according to the first embodiment of the present invention, a temporary toilet provided with the toilet tank detection device, a toilet tank warning notification system, a toilet tank warning notification method, and a toilet tank warning notification program will be described with reference to the drawings.
FIG. 1 is an overall configuration diagram showing a toilet tank warning notification system 50.
The toilet tank warning notification system 50 includes a toilet tank detection device 1, a temporary toilet 10 including the toilet tank detection device 1, a notification server (notification device) 100, and a management terminal (notification device) 200.
The toilet tank detection device 1 includes a control unit (output unit) 2, a communication unit 3, a storage unit 4, a sewage detection unit 5, and a sewage detection unit 6.
The control unit 2 is composed of, for example, a CPU or the like, and controls the entire device. Further, the control unit 2 outputs the detection results of the sewage detection unit 5 and the sewage detection unit 6 to the notification server 100 via the communication unit 3.

The communication unit 3 is composed of, for example, various communication devices, and outputs the detection result output by the control unit 2 to the notification server 100 under the control of the control unit 2.
The storage unit 4 is composed of, for example, a hard disk, a memory, or the like, and stores various programs, work data, and the like in addition to the detection results of the sewage detection unit 5 and the sewage detection unit 6.
The filth detection unit 5 is composed of various detection devices such as an ultrasonic sensor, and is provided in the vicinity of the pumping port 15 of the stool tank 11 described later to determine the height of filth in the vicinity of the opening 11a in the stool tank 11. To detect. Then, the filth detection unit 5 outputs the detection result to the control unit 2 when the filth reaches a predetermined height.
The sewage detection unit 6 comprises various detection devices such as a water pressure sensor, and is provided in the vicinity of the suction port 15 of the sewage tank 11 described later, and detects the height of sewage at the peripheral portion in the sewage tank 11. Then, the sewage detection unit 6 outputs the detection result to the control unit 2 when the sewage reaches a predetermined height.

As shown in FIG. 2, the temporary toilet 10 includes the above-mentioned toilet tank detection device 1, the toilet tank 11, the wall surface portion 12, and the toilet seat portion 13.
An opening 11a, which is a through hole, is provided on the upper surface of the toilet tank 11. The toilet tank 11 is adapted to contain filth and sewage that fall from the toilet seat portion 13 through the opening 11a. On the back side of the toilet tank 11, a pumping port 15 for pumping sewage and sewage, and a pumping cap 14 for opening and closing the pumping port 15 are provided. Through the pumping port 15, the manager performs a pumping operation or a leveling operation for leveling filth.
The cap 14 is provided with a support rod 16 in the vertical direction, and the support rod 16 is provided with an L-shaped plate 7. The above-mentioned sewage detection unit 6 is provided on the horizontal base portion of the L-shaped plate 7. Further, the above-mentioned filth detection unit 5 is provided on the vertical wall portion of the L-shaped plate 7.
Under such a configuration, when the filth in the toilet tank 11 reaches a predetermined height (80% height in the present embodiment), the filth detection unit 5 outputs the detection result to the control unit 2. When the sewage in the toilet tank 11 reaches a predetermined height (80% height in the present embodiment), the sewage detection unit 6 outputs the detection result to the control unit 2. Needless to say, in FIG. 2, the control unit 2, the communication unit 3, the storage unit 4, and the like of the toilet tank detection device 1 are omitted.

The wall surface portion 12 is provided on the upper surface of the toilet tank 11. The wall surface portion 12 includes four side surface portions 12a arranged in a rectangular shape so as to surround the toilet seat portion 13, and a ceiling portion 12b provided at the upper end portion of the side surface portions 12a.
An opening / closing door 12c is provided on the side surface portion 12a arranged in the front of the wall surface portion 12.
The toilet seat portion 13 is provided above the opening 11a on the upper surface of the toilet tank 11. Further, the toilet seat portion 13 includes a flapper 13a that opens and closes the opening 11a.
Under such a configuration, the user enters the wall surface portion 12 through the opening / closing door 12c and uses the toilet seat portion 13.

Further, as shown in FIG. 1, the notification server 100 notifies the administrator via the management terminal 200 of a warning according to the state of filth and sewage in the toilet tank 11.
The notification server 100 includes a control unit (warning signal output unit) 101, a communication unit 102, and a storage unit 103.
The control unit 101 is composed of, for example, a CPU or the like, and controls the entire device. Further, the control unit 101 inputs the detection results of the sewage detection unit 5 and the sewage detection unit 6 output by the toilet tank detection device 1 via the communication unit 102. Then, the control unit 101 generates various warning signals based on the warning signal table stored in the storage unit 103, and outputs various warning signals to the management terminal 200 via the communication unit 102.
The communication unit 102 is composed of, for example, various communication devices, and inputs the detection result output by the toilet tank detection device 1, or manages various warning signals output by the control unit 101 under the control of the control unit 2. Output to 200.

The storage unit 4 is composed of, for example, a hard disk, a memory, or the like, and stores various programs, work data, and the like, as well as the detection results of the sewage detection unit 5 and the sewage detection unit 6 input by the control unit 101. Further, the storage unit 4 stores the warning signal table shown in FIG.
The warning signal table is a table for the control unit 101 to generate various warning signals based on the detection results of the sewage detection unit 5 and the sewage detection unit 6. In the present embodiment, the threshold value for filth with respect to the height of filth is set to a height of 80%, it is set to be ON when the height of filth is 80% or more, and it is OFF when it is less than 80%. Is set to. On the other hand, the threshold value for sewage with respect to the height of sewage is also set to a height of 80%, and is set to be ON when the height of sewage is 80% or more, and is set to be OFF when the height of sewage is less than 80%. Has been done. The% indicating the height of sewage and sewage may be a ratio to the total volume or a ratio to the height of MAX. Further,% indicating the height of filth and sewage may be set to different heights or may be set to the same height.
Under such a configuration, as shown in the warning signal table, the control unit 101 has a pumping warning signal, a leveling warning signal, and a sensor abnormality warning signal based on the detection results of the sewage detection unit 5 and the sewage detection unit 6. And generate a warning signal of one of the continuous detection signals.

Further, as shown in FIG. 1, the management device 200 includes a control unit 201, a communication unit 202, a storage unit 203, and a notification unit 204.
The control unit 201 is composed of, for example, a CPU or the like, and controls the entire device. Further, the control unit 201 inputs various warning signals output by the notification server 100 via the communication unit 202. Then, the control unit 201 outputs a warning notification instruction to the notification unit 204 based on the various warning signals to notify the various warnings.
The communication unit 202 is composed of, for example, various communication devices, and inputs various warning signals output by the notification server 100.

The storage unit 203 is composed of, for example, a hard disk, a memory, or the like, and stores various programs, work data, and the like in addition to various warning signals input by the control unit 201.
The notification unit 204 is composed of, for example, a speaker, a monitor, or the like, and notifies the administrator of a warning in response to a warning notification instruction output by the control unit 201. Specifically, the notification unit 204 notifies the administrator of a warning by sound, vibration, light, characters, images, or the like.

Next, the processing operation of the toilet tank detection device 1, the temporary toilet 10 provided with the toilet tank detection device 1, the toilet tank warning notification system 50, the toilet tank warning notification method, and the toilet tank warning notification program will be described with reference to FIG.
FIG. 4 is a flowchart showing the processing operation of the control unit 101.
The control unit 101 reads out the output of the communication unit 102 (step S1), and determines whether the detection result output from the filth detection unit 5 is ON or OFF (step S2). Then, when the control unit 101 determines that the detection result output from the sewage detection unit 5 is ON (step S2: ON), the control unit 101 determines whether the detection result output from the sewage detection unit 6 is ON or OFF. (Step S3). When the control unit 101 determines that the detection result output from the sewage detection unit 6 is ON (step S3: ON), the control unit 101 reads out the warning signal table stored in the storage unit 103, and draws a warning based on this warning signal table. A signal is generated and output to the management terminal 200 via the communication unit 102 (step S4, warning signal output step). Needless to say, the circled numbers in the warning signal table in FIG. 3 correspond to the circled numbers in each processing operation in FIG.
The control unit 201 inputs the pumping warning signal via the communication unit 202, and causes the notification unit 204 to notify the pumping warning that the filth and sewage are in the pumping status. That is, the notification unit 204 notifies the administrator by warnings such as sound pronunciation and character display that the sewage and sewage in the toilet tank 11 have reached a predetermined height and need to be pumped. As a result, the manager can recognize that a large amount of filth and sewage are contained in the toilet tub 11 and the timing of pumping has arrived, and the manager performs the pumping work in the toilet tank 11.

FIG. 5 is an explanatory diagram showing the state of sewage and sewage in the toilet tank 11 when the control unit 101 generates a pumping warning signal.
Since the sewage threshold value by the sewage detection unit 6 is set to 80%, when the sewage height W1 reaches 80% in the toilet tank 11, the sewage detection unit 6 outputs the detection result to the control unit 2. .. Further, since the filth threshold value by the filth detection unit 5 is also set to 80%, when the filth height T1 reaches 80% in the stool tank 11, the filth detection unit 5 sends the detection result to the control unit 2. Output. The detection results of the sewage detection unit 6 and the sewage detection unit 5 are output via the communication unit 3 and input to the control unit 101 of the notification server 100.
At this time, the height W1 of the sewage and the height T1 of the filth both exceed 80%, and a large amount of the sewage and the sewage are contained in the entire toilet tank 11 and need to be pumped.
By notifying the administrator of the pumping warning that the notification unit 204 is in such a pumping situation, the manager recognizes that the filth and sewage are in the pumping situation, and the pumping in the toilet tank 11 is performed. Work is done.

Further, when the control unit 101 determines in step S3 that the detection result from the sewage detection unit 6 is OFF (step S3: OFF), the control unit 101 outputs a leveling warning signal based on the warning signal table stored in the storage unit 103. It is generated and output to the management terminal 200 via the communication unit 102 (step S5, warning signal output step). The control unit 201 inputs the leveling warning signal via the communication unit 202, and causes the notification unit 204 to notify the leveling warning that the filth is in the leveling state. As a result, the manager can recognize that the filth in the stool tank 11 needs to be leveled, and performs the leveling work in the stool tank 11.

FIG. 6 is an explanatory diagram showing the state of sewage and sewage in the toilet tank 11 when the control unit 101 generates a leveling warning signal.
Since the threshold value for sewage by the sewage detection unit 6 is set to 80%, the height W1 of the sewage has not reached 80% in the toilet tank 11, and the sewage detection unit 6 controls the detection result by the control unit 2. Do not output to. On the other hand, since the filth threshold value by the filth detection unit 5 is also set to 80%, when the filth height T1 reaches 80% in the stool tank 11, the filth detection unit 5 sends the detection result to the control unit 2. Output. The detection result of the filth detection unit 5 is output via the communication unit 3 and input to the control unit 101 of the notification server 100.
At this time, the height W1 of the sewage has not reached 80%, and only the height T1 of the filth exceeds 80%. Therefore, the sewage is locally accumulated in a part of the toilet tank 11. , A lot of filth and sewage have not been accommodated yet. That is, in the stool tank 11, the filth should be leveled.
The notification unit 204 notifies the administrator of the leveling warning notifying the manager that the leveling situation is such, so that the manager recognizes that the filth is in the leveling state and the inside of the toilet tank 11 Leveling work is performed.

Further, when the control unit 101 determines in step S2 that the detection result from the sewage detection unit 5 is OFF (step S2: OFF), the control unit 101 determines whether the detection result from the sewage detection unit 6 is ON or OFF. Determination (step S6). When the control unit 101 determines that the detection result from the sewage detection unit 6 is ON (step S6: ON), the control unit 101 generates a sensor abnormality warning signal based on the warning signal table stored in the storage unit 103, and generates a sensor abnormality warning signal, and the communication unit 101. It is output to the management terminal 200 via 102 (step S7, warning signal output step). The control unit 201 inputs the sensor abnormality warning signal via the communication unit 202, and causes the notification unit 204 to notify the sensor abnormality warning of the sensor abnormality status. As a result, the manager can recognize that the sewage detection unit 5 or the sewage detection unit 6 is in an abnormal state, and performs maintenance work on the sewage detection unit 5 or the sewage detection unit 6.
The fact that the detection result of the sewage detection unit 5 is OFF and the detection result of the sewage detection unit 6 is ON means that the sewage has not reached 80% in the toilet tank 11, and only the sewage has reached 80%. It means that you are doing it. In general, the height of filth is higher than the height of sewage, so it is usually not possible for sewage alone to reach 80% in this way. Therefore, when the detection result of the sewage detection unit 5 is OFF and the detection result of the sewage detection unit 6 is ON, it is assumed that the sewage or sewage is in a detection abnormality state, that is, the sewage detection unit 5 or the sewage detection unit. Assuming that the sensor of No. 6 is abnormal, the notification unit 204 is notified of the detection abnormality warning.

Further, when the control unit 101 determines in step S6 that the detection result from the sewage detection unit 6 is OFF (step S6: OFF), the control unit 101 outputs a continuous detection signal based on the warning signal table stored in the storage unit 103. It is generated and output to the management terminal 200 via the communication unit 102 (step S8, warning signal output step). The control unit 201 inputs the continuous detection signal via the communication unit 202, and causes the notification unit 204 to notify the continuous detection warning that the filth and sewage are in the continuous detection status.
The fact that the detection result of the sewage detection unit 5 is OFF and the detection result of the sewage detection unit 6 is OFF means that the sewage has not reached 80% in the toilet tank 11 and the sewage has reached 80%. It means that it is not. That is, it means that the amount of sewage and sewage contained in the toilet tank 11 has not reached the level required for pumping. Therefore, when the detection result of the sewage detection unit 5 is OFF and the detection result of the sewage detection unit 6 is also OFF, it is assumed that the sewage or sewage is in a continuous detection status in which the detection should be continued, and the notification unit 204 is informed. Notify a continuation detection warning.
As a result, the manager can recognize that the amount of filth or sewage in the toilet tank 11 is still less than the amount required for pumping (continuous detection status), and the management can be continued.

Based on the above, according to the toilet tank detection device 1 in the present embodiment, the temporary toilet 10 provided with the toilet tank detection device 1, the toilet tank warning notification system 50, the toilet tank warning notification method and the toilet tank warning notification program, the control unit 2 is high in waste. Since both the height of the sewage and the height of the sewage are detected and the notification server 100 is warned via the notification unit 204 based on these detection results, the state of sewage and sewage in the toilet tank 11 can be easily and quickly checked. Can be grasped.
Further, when the height T1 of filth exceeds a predetermined threshold value for sewage and the height of sewage exceeds a predetermined threshold value for sewage, the control unit 2 warns the notification server 100 via the notification unit 204. Is notified, so that the pumping status in the toilet tank 11 can be easily and quickly grasped.
Further, when the sewage height T1 exceeds the predetermined sewage threshold value and the sewage height does not exceed the predetermined sewage threshold value, the control unit 2 smoothes the sewage to the notification server 100 via the notification unit 204. Since the warning is notified, the leveling status in the toilet tank 11 can be easily and quickly grasped.

Further, when the sewage height T1 does not exceed the predetermined sewage threshold value and the sewage height exceeds the predetermined sewage threshold value, the control unit 2 sends a sensor to the notification server 100 via the notification unit 204. Since the abnormality warning is notified, the detection abnormality by the sewage detection unit 5 or the sewage detection unit 6 can be easily and quickly grasped.
Further, when the sewage height T1 does not exceed the predetermined sewage threshold value and the sewage height does not exceed the predetermined sewage threshold value, the control unit 2 continues to the notification server 100 via the notification unit 204. Since the detection warning is notified, it is possible to easily and quickly grasp that the sewage and sewage in the toilet tank 11 are in the continuous detection state.

(Embodiment 2)
Next, a second embodiment of the present invention will be described.
This embodiment and the first embodiment have the same basic configuration, and here, mainly different points will be described.
In the present embodiment, three threshold values for the height of sewage and three threshold values for the height of sewage are set. That is, as shown in FIG. 7, in order from the highest sewage height, 80% in height is the first sewage threshold, 60% in height is the second threshold for sewage, and 20% in height is the third. It is set as the threshold value for sewage.
Further, in order from the highest filth height, 80% of the height is set as the first filth threshold, 60% of the height is set as the second filth threshold, and 20% of the height is set as the third filth threshold. ing.
Various warning signals are associated with each other as a warning signal table stored by the storage unit 103 by the first to third sewage thresholds and the first to third sewage thresholds.

Further, the sewage detection unit 5 and the sewage detection unit 6 periodically detect the height of the sewage or sewage in the toilet tank 11 at predetermined timings, and periodically output the detection result to the control unit 2. The control unit 2 periodically outputs the detection result to the notification server 100.
The control unit 101 of the notification server 100 has various warning signals associated with the first to third sewage thresholds and the first to third sewage thresholds based on the detection result output by the control unit 2. Is generated periodically, and various warnings are periodically notified to the notification unit 204.

Next, the processing operation of the toilet tank detection device 1, the temporary toilet 10 equipped with the toilet tank detection device 1, the toilet tank warning notification system 50, the toilet tank warning notification method, and the toilet tank warning notification program will be described with reference to FIGS. 8 to 12. ..
FIG. 8 is a flowchart showing the processing operation of the control unit 101.
The control unit 101 reads out the output of the communication unit 102 (step S1), and whether the detection result output from the filth detection unit 5 is equal to or higher than the first filth threshold value (80%) or the second filth threshold value (step S1). It is determined whether it is 60%) or more and less than the first filth threshold value (80%) or less than the second filth threshold value (60%) (step S10).
When the control unit 101 determines that the detection result is equal to or higher than the first filth threshold value (80%) (step S10: 80 or higher), the control unit 101 performs the first warning notification process (step S11). Further, when the control unit 101 determines that the detection result is equal to or more than the second filth threshold value (60%) and less than the first filth threshold value (80%) (step S10: 60 or more and less than 80). , A second warning notification process is performed (step S12), and if it is determined that the value is less than the second filth threshold value (60%) (less than step S10: 60), a third warning notification process is performed (step S13). ).

FIG. 9 is a flowchart showing the processing operation of the first warning notification process of the control unit 101.
As described above, the circled numbers in each processing operation in FIG. 9 correspond to the circled numbers in the warning signal table in FIG. 7.
The control unit 101 has a detection result output from the sewage detection unit 6 that is equal to or higher than the first sewage threshold value (80%) or is equal to or higher than the second sewage threshold value (60%) and is the first sewage. It is determined whether it is less than the threshold value (80%) or less than the second threshold value (60%) for sewage (step S100).
When the control unit 101 determines that the detection result is equal to or higher than the first sewage threshold value (80%) (step S100: 80 or higher), the control unit 101 generates a pumping warning signal based on the warning signal table stored in the storage unit 103. Is output to the management terminal 200 via the communication unit 102 (step S101, warning signal output step).
Here, the detection result of the height of sewage is equal to or higher than the first threshold for sewage (80%), and the detection result of the height of sewage is equal to or higher than the first threshold for sewage (80%). Means that the height of each of the sewage and the sewage in the toilet tank 11 is 80% or more, so that the sewage and the sewage are in the state of being pumped.
In the same manner as described above, the control unit 201 inputs a pumping warning signal via the communication unit 202, and notifies the notification unit 204 of a pumping warning notifying that filth and sewage are in the pumping status.

Further, in step S100, the control unit 101 determines that the detection result is equal to or more than the second sewage threshold value (60%) and less than the first sewage threshold value (80%) (step S100: 60). (More than 80), a leveling warning signal and a pre-pumping warning signal are generated based on the warning signal table stored in the storage unit 103, and output to the management terminal 200 via the communication unit 102 (step S102, warning signal output step). ).
Here, the detection result of the height of sewage is equal to or higher than the first threshold for sewage (80%), and the detection result of the height of sewage is the second threshold for sewage (60%) and the first sewage. The fact that it is between the threshold (80%) means that the height of the sewage in the toilet tank 11 is 80% or more and the height of the sewage is 60% or more and less than 80%. It means that it is in a leveling situation, and that filth and sewage are approaching the pumping situation, and that the pumping situation is reached as soon as filth and sewage are added.
The control unit 201 inputs a leveling warning signal and a pre-pumping warning signal via the communication unit 202 to notify that the filth is in the leveling state and that the filth and sewage are in the pre-pumping state. Notify the notification unit 204 of the pre-pumping warning.

Further, in step S100, when the control unit 101 determines that the detection result is less than the third sewage threshold value (60%) (step S100: less than 60), the detection result is the third sewage threshold value (20). %) Or more is determined (step S103). When the control unit 101 determines that the detection result is equal to or higher than the third sewage threshold value (20%) (step S103: Yes), the control unit 101 generates a leveling warning signal based on the warning signal table stored in the storage unit 103. Is output to the management terminal 200 via the communication unit 102 (step S104, warning signal output step).
Here, the detection result of the height of sewage is equal to or higher than the first threshold for sewage (80%), and the detection result of the height of sewage is the third threshold for sewage (20%) and the second sewage. The fact that it is between the threshold (60%) means that the height of the sewage in the toilet tank 11 is 80% or more and the height of the sewage is 20% or more and less than 60%. Means that is in a leveling situation.
In the same manner as described above, the control unit 201 inputs a leveling warning signal via the communication unit 202, and causes the notification unit 204 to notify the leveling warning that the filth is in the leveling state.

Further, in step S103, when the control unit 101 determines that the detection result is not equal to or higher than the third sewage threshold value (20%) (step S103: No), the control unit 101 leaks sewage based on the warning signal table stored in the storage unit 103. An abnormality warning signal is generated and output to the management terminal 200 via the communication unit 102 (step S105, warning signal output step).
Here, the detection result of the height of sewage is equal to or higher than the first threshold for sewage (80%), and the detection result of the height of sewage is less than the third threshold for sewage (20%). The height of the sewage in the toilet tank 11 is 80% or more and the height of the sewage is less than 20%, so that the height of the sewage is abnormally low with respect to the height of the filth. Means. As the height of filth increases, the height of sewage usually increases accordingly. Therefore, if the height of filth is 80% or more and the height of sewage is less than 20%, sewage is convenient. There is a high possibility that the tank 11 is leaking.
The control unit 201 inputs a sewage leakage abnormality warning signal via the communication unit 202, and notifies the notification unit 204 of a sewage leakage warning notifying that the sewage is leaking from the toilet tank 11.
As a result, the manager can recognize that there is a high possibility that sewage is leaking, and maintenance of the toilet tank 11 is performed.

FIG. 10 is a flowchart showing the processing operation of the second warning notification process of the control unit 101.
The control unit 101 has a detection result output from the sewage detection unit 6 that is equal to or higher than the first sewage threshold value (80%) or is equal to or higher than the second sewage threshold value (60%) and is the first sewage. It is determined whether it is less than the threshold value (80%) or less than the second threshold value (60%) for sewage (step S200).
When the control unit 101 determines that the detection result is equal to or higher than the first sewage threshold value (80%) (step S200: 80 or higher), the control unit 101 generates a sensor abnormality warning signal based on the warning signal table stored in the storage unit 103. Then, it is output to the management terminal 200 via the communication unit 102 (step S201, warning signal output step).
Here, the detection result of the height of the sewage is between the second threshold value for filth (60%) and the threshold value for the first filth (80%), and the detection result of the height of the sewage is the first sewage. The fact that the threshold value (80%) or more means that the height of the sewage in the toilet tank 11 is 60% or more and less than 80%, and the height of the sewage is 80% or more. It means that the height of sewage is abnormally high with respect to the height.
In the same manner as described above, the control unit 201 inputs a sensor abnormality warning signal via the communication unit 202, and notifies the notification unit 204 of a detection abnormality warning indicating that filth or sewage is in a detection abnormality status.

Further, in step S200, the control unit 101 determines that the detection result is equal to or more than the second sewage threshold value (60%) and less than the first sewage threshold value (80%) (step S200: 60). (More than 80), a pre-pumping warning signal is generated based on the warning signal table stored in the storage unit 103, and is output to the management terminal 200 via the communication unit 102 (step S202, warning signal output step).
Here, the detection result of the height of the sewage is between the second threshold value for filth (60%) and the threshold value for the first filth (80%), and the detection result of the height of the sewage is the second sewage. The fact that it is between the threshold value (60%) and the threshold value for first sewage (80%) means that the heights of sewage and sewage in the toilet tank 11 are both 60% or more and less than 80%. It means that filth and sewage are in the pre-pumping situation.
In the same manner as described above, the control unit 201 inputs a pre-pumping warning signal via the communication unit 202 to notify the notification unit 204 of a pre-pumping warning notifying that filth and sewage are in the pre-pumping situation.

Further, in step S200, when the control unit 101 determines that the detection result is less than the third sewage threshold value (60%) (step S200: less than 60), the detection result is the third sewage threshold value (20). %) Or not (step S203). When the control unit 101 determines that the detection result is equal to or higher than the third sewage threshold value (20%) (step S203: Yes), the control unit 101 generates a continuous detection signal based on the warning signal table stored in the storage unit 103. It is output to the management terminal 200 via the communication unit 102 (step S204, warning signal output step).
Here, the detection result of the height of the sewage is between the second threshold value for filth (60%) and the threshold value for the first filth (80%), and the detection result of the height of the sewage is the second sewage. Being between the threshold value (60%) and the third threshold value for sewage (20%) means that the height of the sewage in the toilet tank 11 is 60% or more and less than 80%, and the height of the sewage is high. Since the value is 20% or more and less than 60%, it means that the amount of sewage and sewage contained in the toilet tank 11 is still small for the pumping operation.
In the same manner as described above, the control unit 201 inputs a continuous detection signal via the communication unit 202, and causes the notification unit 204 to notify the continuous detection warning that the filth or sewage is in the continuous detection status.

Further, in step S203, when the control unit 101 determines that the detection result is not equal to or higher than the third sewage threshold value (20%) (step S203: No), the control unit 101 leaks sewage based on the warning signal table stored in the storage unit 103. An abnormality warning signal is generated and output to the management terminal 200 via the communication unit 102 (step S205, warning signal output step).
Here, the detection result of the height of the sewage is between the second threshold value for filth (60%) and the threshold value for the first filth (80%), and the detection result of the height of the sewage is the third sewage. If it is less than the threshold value (20%), the height of the sewage in the toilet tank 11 is 60% or more and less than 80%, and the height of the sewage is less than 20%. It means that the height of sewage is abnormally low with respect to the height.
In the same manner as described above, the control unit 201 inputs a sewage leak abnormality warning signal via the communication unit 202, and sends a sewage leak warning to the notification unit 204 to notify that the sewage is leaking from the toilet tank 11. Notify.

11 and 12 are flowcharts showing the processing operation of the third warning notification process of the control unit 101.
The control unit 101 determines whether or not the detection result output from the filth detection unit 5 is equal to or higher than the third filth threshold value (20%) (step S300).
When the control unit 101 determines that the detection result is equal to or higher than the third sewage threshold value (20%) (step S300: Yes), the detection result output from the sewage detection unit 6 is the first sewage threshold value (80). %) Or more, the second sewage threshold (60%) or more and less than the first sewage threshold (80%), or less than the second sewage threshold (60%). It is determined whether or not there is (step S301).
When the control unit 101 determines that the detection result is equal to or higher than the first sewage threshold value (80%) (step S301: 80 or higher), the control unit 101 generates a sensor abnormality warning signal based on the warning signal table stored in the storage unit 103. Then, it is output to the management terminal 200 via the communication unit 102 (step S302, warning signal output step).
Here, the detection result of the height of the sewage is between the third threshold value for filth (20%) and the threshold value for the second filth (60%), and the detection result of the height of the sewage is the first sewage. The fact that the threshold value (80%) or more means that the height of the sewage in the toilet tank 11 is 20% or more and less than 60%, and the height of the sewage is 80% or more. It means that the height of sewage is abnormally high with respect to the height.
In the same manner as described above, the control unit 201 inputs a sensor abnormality warning signal via the communication unit 202, and notifies the notification unit 204 of a detection abnormality warning indicating that filth or sewage is in a detection abnormality status.

In step S301, when the control unit 101 determines that the detection result is the second sewage threshold value (60%) or more and less than the first sewage threshold value (80%) (step S301: 60 or more and 80). Less than), a sensor abnormality warning signal is generated based on the warning signal table stored in the storage unit 103, and is output to the management terminal 200 via the communication unit 102 (step S303, warning signal output step).
Here, the detection result of the height of the sewage is between the third threshold for filth (20%) and the threshold for the second filth (60%), and the detection result of the height of the sewage is the second sewage. The fact that it is between the threshold for sewage (60%) and the threshold for sewage (80%) means that the height of sewage in the toilet tank 11 is 20% or more and less than 60%, and the height of sewage is high. Since the value is 60% or more and less than 80%, it means that the height of the sewage is abnormally high with respect to the height of the filth.
In the same manner as described above, the control unit 201 inputs a sensor abnormality warning signal via the communication unit 202, and causes the notification unit 204 to notify the detection abnormality warning that the filth or sewage is in the detection abnormality status.

Further, in step S301, when the control unit 101 determines that the detection result is less than the third sewage threshold value (60%) (step S301: less than 60), the detection result is the third sewage threshold value (20). %) Or not (step S304). When the control unit 101 determines that the detection result is equal to or higher than the third sewage threshold value (20%) (step S304: Yes), the control unit 101 generates a continuous detection signal based on the warning signal table stored in the storage unit 103. It is output to the management terminal 200 via the communication unit 102 (step S305, warning signal output step).
Here, the detection result of the height of the sewage is between the second threshold value for filth (60%) and the threshold value for the third filth (20%), and the detection result of the height of the sewage is the second sewage. Being between the threshold value (60%) and the third threshold value for sewage (20%) means that the height of sewage in the toilet tank 11 is 20% or more and less than 60%, and the height of sewage is high. Since the value is 20% or more and less than 60%, it means that the amount of sewage and sewage contained in the toilet tank 11 is still small for the pumping operation.
In the same manner as described above, the control unit 201 inputs a continuous detection signal via the communication unit 202, and causes the notification unit 204 to notify the continuous detection warning that the filth or sewage is in the continuous detection status.

Further, in step S304, when the control unit 101 determines that the detection result is not equal to or higher than the third sewage threshold value (20%) (step S304: No), the control unit 101 leaks sewage based on the warning signal table stored in the storage unit 103. An abnormality warning signal is generated and output to the management terminal 200 via the communication unit 102 (step S306, warning signal output step).
Here, the detection result of the height of the sewage is between the second threshold value for filth (60%) and the threshold value for the third filth (20%), and the detection result of the height of the sewage is the third sewage. If it is less than the threshold value (20%), the height of the sewage in the toilet tank 11 is 20% or more and less than 60%, and the height of the sewage is less than 20%. It means that the height of sewage is abnormally low with respect to the height.
In the same manner as described above, the control unit 201 inputs a sewage leak abnormality warning signal via the communication unit 202, and sends a sewage leak warning to the notification unit 204 to notify that the sewage is leaking from the toilet tank 11. Notify.

Further, in step S300, when the control unit 101 determines that the detection result is not equal to or higher than the third filth threshold value (20%) (step S300: No), it is output from the sewage detection unit 6 as shown in FIG. The detection result is at least the first sewage threshold (80%), at least the second sewage threshold (60%), and at least less than the first sewage threshold (80%). It is determined whether the threshold value for sewage is less than the second threshold value (60%) (step S310).
When the control unit 101 determines that the detection result is equal to or higher than the first sewage threshold value (80%) (step S310: 80 or higher), the control unit 101 generates a sensor abnormality warning signal based on the warning signal table stored in the storage unit 103. Then, it is output to the management terminal 200 via the communication unit 102 (step S311; warning signal output step).
Here, the detection result of the height of sewage is less than the third threshold for sewage (20%), and the detection result of the height of sewage is equal to or more than the first threshold for sewage (80%). Is that the height of the sewage in the toilet tank 11 is less than 20% and the height of the sewage is 80% or more, so that the height of the sewage is abnormally higher than the height of the filth. Means.
In the same manner as described above, the control unit 201 inputs a sensor abnormality warning signal via the communication unit 202, and causes the notification unit 204 to notify the detection abnormality warning that the filth or sewage is in the detection abnormality status.

In step S310, when the control unit 101 determines that the detection result is the second sewage threshold value (60%) or more and less than the first sewage threshold value (80%) (step S310: 60 or more and 80). Less than), a sensor abnormality warning signal is generated based on the warning signal table stored in the storage unit 103, and is output to the management terminal 200 via the communication unit 102 (step S312, warning signal output step).
Here, the detection result of the height of sewage is less than the third threshold for sewage (20%), and the detection result of the height of sewage is the second threshold for sewage (60%) and the first sewage. The fact that it is between the threshold (80%) means that the height of the sewage in the toilet tank 11 is less than 20% and the height of the sewage is 60% or more and less than 80%. It means that the height of sewage is abnormally high with respect to the height of filth.
In the same manner as described above, the control unit 201 inputs a sensor abnormality warning signal via the communication unit 202, and causes the notification unit 204 to notify the detection abnormality warning that the filth or sewage is in the detection abnormality status.

Further, in step S310, when the control unit 101 determines that the detection result is less than the third sewage threshold value (60%) (step S310: less than 60), the detection result is the third sewage threshold value (20). %) Or more is determined (step S313). When the control unit 101 determines that the detection result is equal to or higher than the third sewage threshold value (20%) (step S313: Yes), the control unit 101 generates a sensor abnormality warning signal based on the warning signal table stored in the storage unit 103. Is output to the management terminal 200 via the communication unit 102 (step S314, warning signal output step).
Here, the detection result of the height of sewage is less than the third threshold for sewage (20%), and the detection result of the height of sewage is the threshold for second sewage (60%) and the third sewage. The fact that it is between the threshold (20%) means that the height of the sewage in the toilet tank 11 is less than 20% and the height of the sewage is 20% or more and less than 60%. It means that the height of sewage is abnormally high with respect to the height of filth.
In the same manner as described above, the control unit 201 inputs a sensor abnormality warning signal via the communication unit 202, and notifies the notification unit 204 of a detection abnormality warning indicating that filth or sewage is in a detection abnormality status.

Further, in step S313, when the control unit 101 determines that the detection result is not equal to or higher than the third sewage threshold value (20%) (step S313: No), the control unit 101 continuously detects based on the warning signal table stored in the storage unit 103. A signal is generated and output to the management terminal 200 via the communication unit 102 (step S315, warning signal output step).
Here, the detection result of the height of sewage is less than the third threshold for sewage (20%), and the detection result of the height of sewage is less than the third threshold for sewage (20%). Since the height of the sewage in the sewage tank 11 is less than 20% and the height of the sewage is also less than 20%, the amount of sewage and sewage contained in the sewage tank 11 can be used for pumping work. Means that there are still few.
In the same manner as described above, the control unit 201 inputs a continuous detection signal via the communication unit 202, and causes the notification unit 204 to notify the continuous detection warning that the filth or sewage is in the continuous detection status.

Based on the above, according to the toilet tank detection device 1 in the present embodiment, the temporary toilet 10 provided with the toilet tank detection device 1, the toilet tank warning notification system 50, the toilet tank warning notification method and the toilet tank warning notification program, the control unit 2 has a high amount of waste. When the amount exceeds a predetermined sewage threshold and the height of the sewage is between the first sewage threshold and the second sewage threshold, the notification server 100 is warned via the notification unit 204. And since the pre-pumping warning is notified, it is possible to easily and quickly grasp whether the filth or sewage is in the leveling state and the pre-pumping situation.
Further, the control unit 2 has a sewage height between the first sewage threshold and the second sewage threshold, and the sewage height is between the first sewage threshold and the second sewage threshold. Since the notification server 100 is notified of the pre-pumping warning via the notification unit 204, it is possible to easily and quickly grasp that the filth and sewage are in the pre-pumping situation.
Further, since the control unit 2 causes the notification server 100 to notify various warnings via the notification unit 204 based on the first to third sewage thresholds and the first to third sewage thresholds. It is possible to easily and quickly grasp a more appropriate situation according to the finer height of filth and sewage.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications and modifications can be made.
For example, the number of sewage threshold values set or the number and combination of sewage threshold values can be changed as appropriate. Specifically, as shown in FIG. 13, for sewage, a first sewage threshold value (80%) and a second sewage threshold value (60%) are set, and for filth, the first filth Two threshold values (80%) and a second threshold value for filth (60%) may be set. In this case, it goes without saying that the control unit 101 outputs various warning signals to the management terminal 200 according to the detection results from the sewage detection unit 5 and the sewage detection unit 6, and causes the notification unit 204 to notify the warning.
Further, as shown in FIG. 14, one of the first sewage thresholds (80%) is set for sewage, and the first sewage threshold (80%) and the second sewage threshold (80%) are set for sewage. 60%) and a third threshold value for filth (20%) may be set.
Further, as shown in FIG. 15, regarding sewage, a first filth threshold (80%), a second filth threshold (60%), and a third filth threshold (20%) are set. And for filth, one of the first sewage thresholds (80%) may be set.
Of course, the number of threshold settings may be four or more.

Further, the values of each threshold value are set to 80%, 60% and 20%, but the value is not limited to this and can be changed as appropriate. It may be 70%, 50%, 10%, or any other value. Further, when the height of sewage or sewage does not reach the threshold value, the sewage detection unit 5 or the sewage detection unit 6 does not output the detection result, but the present invention is not limited to this, and an OFF signal may be output. ..
Further, the sewage detection unit 6 detects the height of the sewage at the peripheral portion in the toilet tank 11, but the detection location is not limited to this and can be changed as appropriate.
Further, the filth detection unit 5 detects the height of filth in the vicinity of the opening in the toilet tank 11, but the detection is not limited to this, and the detection location can be changed as appropriate.
Further, the detection timings of the sewage detection unit 5 and the sewage detection unit 6 can be appropriately changed. For example, the sewage detection unit 5 and the sewage detection unit 6 may always detect, may detect at a predetermined timing, or may detect according to an instruction from the management terminal 100.
Further, in the warning signal table, various warning signals according to the filth threshold value and the sewage threshold value can be appropriately changed.

Further, the sensors of the sewage detection unit 5 and the sewage detection unit 6 can be appropriately changed. For example, as sensors, ultrasonic waves (time difference due to reflection of ultrasonic waves), infrared rays (received light by a one-dimensional light receiving sensor and measured by triangular method, etc.), infrared laser (time difference of laser reflection (TOF)), microwaves (time difference of laser reflection (TOF)), microwaves ( Frequency change of returning signal), image (photographed by camera and detected by software), color (RGB value detected from reflected light of white light), electrode (detection of change in resistance value between electrodes), electrostatic capacity (Detects changes in capacitance between the electrode and the target substance), pressure (resistance value changes when pressure (water pressure) is applied by a piezoelectric film, etc.), weight (measures the mass of the stool tank), float (measures the mass of the stool tank), float ( A switch that turns on and off due to ups and downs), contact (a switch that turns on and off due to contact with an object), and the like can be used.

Further, the sewage detection unit 5 and the sewage detection unit 6 are provided in the vicinity of the suction port 15, respectively, but the present invention is not limited to this, and their installation positions can be changed as appropriate. For example, the sewage detection unit 5 and the sewage detection unit 6 may be attached to the flapper 13a that opens and closes the toilet seat portion 13, or the pumping cap 14, the central portion inside the toilet tank 11, or the outside of the toilet tank 11. It may be attached to such as.
Further, it is said that one sewage detection unit 5 and one sewage detection unit 6 are provided, but the present invention is not limited to this, and the number of these installations can be changed as appropriate, and a plurality of them may be installed. The combination of numbers can be changed as appropriate.
Further, it is said that the sewage detection unit 5 and the sewage detection unit 6 are separately provided, but the present invention is not limited to this, and the sewage detection unit 5 and the sewage detection unit 6 are combined with one detection unit for sewage. The height of the sewage and the height of the sewage may be detected. In that case, the height of filth and the height of sewage may be detected from the detection result of one detection unit, or the installation location and detection location of one detection unit can be changed by a motor or an electromagnet. The height of the sewage and the height of the sewage may be detected by moving the detection unit.

Further, it is assumed that the toilet tank detection device 1, the notification server 100, and the management terminal 200 are connected via a network, but the present invention is not limited to this, and these configurations can be appropriately changed. For example, the toilet tub detection device 1 may have functions such as a control unit 101, a storage unit 103, and a notification unit 204 to notify various warnings, and the toilet tub detection device 1 may have a control unit 101 and a storage unit. The notification server 100 may notify the notification unit 204 of various warnings by having a function such as 103. Further, the notification server 100 may have a function such as the notification unit 204 to notify various warnings. That is, each of the above-mentioned functional units constituting the toilet tank detection device 1, the notification server 100, the management terminal 200, and the toilet tank warning notification system 50 may be provided in a single computer, or may communicate via a communication network. It may be distributed and provided in a plurality of possible computers.

Further, a program for realizing the functions of the toilet tank detection device 1, the notification server 100, the management terminal 200, and the toilet tank warning notification system 50 is recorded on a computer-readable recording medium, and the program recorded on the recording medium. May be loaded into a computer system and executed to perform various processes. The term "computer system" as used herein includes hardware such as an OS and peripheral devices.
Further, the "computer system" includes the homepage providing environment (or display environment) if the WWW system is used.

Further, the "computer-readable recording medium" refers to a portable medium such as a flexible disk, a magneto-optical disk, a ROM, a CD-ROM, or a DVD, and a storage device such as a hard disk built in a computer system. Further, a "computer-readable recording medium" is a communication line for transmitting a program via a network such as the Internet or a communication line such as a telephone line, and dynamically holds the program for a short period of time. In that case, it also includes those that hold the program for a certain period of time, such as the volatile memory inside the computer system that is the server or client. Further, the above-mentioned program may be for realizing a part of the above-mentioned functions, and may be further realized for realizing the above-mentioned functions in combination with a program already recorded in the computer system.
Needless to say, the above embodiments and modifications can be combined in various ways.

Further, the following additional notes are shown with respect to the above-described embodiment.
(Appendix 1)
It is a toilet tank detection device installed in the toilet tank of a temporary toilet and connected to a notification device that notifies a warning.
Output that detects the height of filth and the height of sewage in the toilet tank, outputs these detection results to the notification device, and notifies the notification device of a warning according to the height of the filth and the sewage. A toilet tank detection device equipped with a unit.

(Appendix 2)
The output unit is
When the height of the filth exceeds a predetermined threshold value for sewage and the height of the sewage exceeds a predetermined threshold value for sewage, the notification of a pumping warning notifying that the filth or the sewage is in a pumping situation. The toilet tank detection device according to Appendix 1, which informs the device.

(Appendix 3)
The output unit is
When the height of the filth exceeds a predetermined threshold value for sewage and the height of the sewage does not exceed the predetermined threshold value for sewage, the notification device gives a leveling warning notifying that the filth is in a leveling state. The toilet tank detection device according to the appendix 1 or the appendix 2.

(Appendix 4)
The output unit is
When the height of the sewage does not exceed the predetermined threshold value for sewage and the height of the sewage exceeds the threshold value for sewage, the detection abnormality warning for notifying the detection abnormality status of the filth or the sewage is notified. The toilet tank detection device according to any one of Supplementary note 1 to Supplementary note 3 for notifying the device.

(Appendix 5)
The output unit is
Continuous detection of the height of filth and the height of sewage in the toilet tub when the height of the sewage does not exceed the predetermined threshold value for sewage and the height of the sewage does not exceed the predetermined threshold value for sewage. The toilet tank detection device according to any one of Supplementary note 1 to Supplementary note 4, wherein a continuous detection warning for notifying the situation is notified to the notification device.

(Appendix 6)
The predetermined sewage threshold is set to at least two stages of a high set first sewage threshold and a low set second sewage threshold.
The output unit is
When the height of the sewage exceeds the predetermined sewage threshold value and the height of the sewage is between the first sewage threshold value and the second sewage threshold value, the sewage level is leveled. The flight according to any one of Supplementary note 2 to Supplementary note 5, which notifies the notification device of a leveling warning notifying that the situation is present and a pre-pumping warning notifying that the filth and the sewage are in the pre-pumping situation. Tank detector.

(Appendix 7)
The predetermined filth threshold is set to at least two stages of a high first filth threshold and a low second filth threshold.
The predetermined sewage threshold is set to at least two stages of a high set first sewage threshold and a low set second sewage threshold.
The output unit is
The height of the sewage is between the first sewage threshold and the second sewage threshold, and the height of the sewage is the first sewage threshold and the second sewage threshold. The toilet tank detection device according to any one of Supplementary note 2 to Supplementary note 6, which notifies the notification device of a pre-pumping warning notifying that the filth and the sewage are in a pre-pumping situation when the waste is between.

(Appendix 8)
The toilet tank detection device according to any one of the items 1 to 7 and the toilet tank detection device.
A temporary toilet provided with a toilet tank provided with the toilet tank detection device.

(Appendix 9)
The toilet tank detection device according to any one of the items 1 to 7 and the toilet tank detection device.
A toilet tank warning notification system including the notification device for notifying the warning.

(Appendix 10)
A warning notification method for notifying a warning by the notification device according to the detection result of the toilet tank detection device according to any one of Supplementary note 1 to Supplementary note 7.
A warning signal output step in which the warning signal output unit of the notification device outputs a warning signal to notify the notification unit of the notification device according to the detection result output from the output unit of the toilet tank detection device. Warning notification method including.

(Appendix 11)
It is a warning notification program in the notification device that notifies a warning according to the detection result of the toilet tank detection device according to any one of Supplementary note 1 to Supplementary note 7.
A warning signal output step in which the warning signal output unit of the notification device outputs a warning signal to notify the notification unit of the notification device according to the detection result output from the output unit of the toilet tank detection device. Warning notification program including.

1 Toilet tank detection device 2 Control unit (output unit)
10 Temporary toilet 11 Toilet tank 50 Warning notification system 100 Notification server (notification device)
101 Control unit (warning signal output unit)
200 Management terminal (notification device)
204 Notification unit

Claims (9)

It is a toilet tank detection device installed in the toilet tank of a temporary toilet and connected to a notification device that notifies a warning.
Output that detects the height of filth and the height of sewage in the toilet tank, outputs these detection results to the notification device, and notifies the notification device of a warning according to the height of the filth and the sewage. Equipped with a part
The output unit is
When the height of the filth exceeds a predetermined threshold value for sewage and the height of the sewage does not exceed the predetermined threshold value for sewage, the notification device gives a leveling warning notifying that the filth is in a leveling state. A toilet tank detection device that informs the user. It is a toilet tank detection device installed in the toilet tank of a temporary toilet and connected to a notification device that notifies a warning.
Output that detects the height of filth and the height of sewage in the toilet tank, outputs these detection results to the notification device, and notifies the notification device of a warning according to the height of the filth and the sewage. Equipped with a part
The output unit is
When the height of the sewage does not exceed the predetermined threshold value for sewage and the height of the sewage exceeds the threshold value for sewage, the detection abnormality warning for notifying the detection abnormality status of the filth or the sewage is notified. A toilet tank detection device that notifies the device. It is a toilet tank detection device installed in the toilet tank of a temporary toilet and connected to a notification device that notifies a warning.
Output that detects the height of filth and the height of sewage in the toilet tank, outputs these detection results to the notification device, and notifies the notification device of a warning according to the height of the filth and the sewage. Equipped with a part
The output unit is
Continuous detection of the height of filth and the height of sewage in the toilet tub when the height of the sewage does not exceed the predetermined threshold value for sewage and the height of the sewage does not exceed the predetermined threshold value for sewage. A toilet tank detection device that notifies the notification device of a continuous detection warning that informs the situation. It is a toilet tank detection device installed in the toilet tank of a temporary toilet and connected to a notification device that notifies a warning.
Output that detects the height of filth and the height of sewage in the toilet tank, outputs these detection results to the notification device, and notifies the notification device of a warning according to the height of the filth and the sewage. Equipped with a part
The output unit is
When the height of the filth exceeds a predetermined threshold value for sewage and the height of the sewage exceeds a predetermined threshold value for sewage, the notification of a pumping warning notifying that the filth or the sewage is in a pumping situation. Let the device know
The predetermined sewage threshold is set to at least two stages of a high set first sewage threshold and a low set second sewage threshold.
The output unit is
When the height of the sewage exceeds the predetermined sewage threshold value and the height of the sewage is between the first sewage threshold value and the second sewage threshold value, the sewage level is leveled. A toilet tank detection device that notifies the notification device of a leveling warning notifying that the situation is present and a pre-pumping warning notifying that the filth and the sewage are in the pre-pumping situation. It is a toilet tank detection device installed in the toilet tank of a temporary toilet and connected to a notification device that notifies a warning.
Output that detects the height of filth and the height of sewage in the toilet tank, outputs these detection results to the notification device, and notifies the notification device of a warning according to the height of the filth and the sewage. Equipped with a part
The output unit is
When the height of the filth exceeds a predetermined threshold value for sewage and the height of the sewage exceeds a predetermined threshold value for sewage, the notification of a pumping warning notifying that the filth or the sewage is in a pumping situation. Let the device know
The predetermined filth threshold is set to at least two stages of a high first filth threshold and a low second filth threshold.
The predetermined sewage threshold is set to at least two stages of a high set first sewage threshold and a low set second sewage threshold.
The output unit is
The height of the sewage is between the first sewage threshold and the second sewage threshold, and the height of the sewage is the first sewage threshold and the second sewage threshold. A toilet tank detection device that notifies the notification device of a pre-pumping warning notifying that the filth and the sewage are in a pre-pumping situation when the waste is in between. The toilet tank detection device according to any one of claims 1 to 5.
A temporary toilet provided with a toilet tank provided with the toilet tank detection device. The toilet tank detection device according to any one of claims 1 to 5.
A toilet tank warning notification system including the notification device for notifying the warning. A stool warning notification method for notifying a warning by the notification device according to the detection result of the stool detection device according to any one of claims 1 to 5.
A warning signal output step in which the warning signal output unit of the notification device outputs a warning signal to notify the notification unit of the notification device according to the detection result output from the output unit of the toilet tank detection device. Toilet tank warning notification method including. A stool warning notification program in the notification device that notifies a warning according to the detection result of the stool detection device according to any one of claims 1 to 5.
A warning signal output step in which the warning signal output unit of the notification device outputs a warning signal to notify the notification unit of the notification device according to the detection result output from the output unit of the toilet tank detection device. Includes stool warning notification program.

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