JP3199141U - Detector - Google Patents

Abstract

A detector capable of efficiently replacing an auxiliary battery is provided. A detector 1 for detecting a predetermined gas to be detected in the ambient atmosphere, wherein a main battery 8 that supplies power to the time measuring means 4 and power supply from the main battery 8 to the time measuring means 4 are performed. And an auxiliary battery 9 that supplies power to the time measuring means 4 when there is not, the time measuring means 4 measures the power supply time of the auxiliary battery 9. Preferably, the main battery 8 supplies power to each functional unit including the time measuring means 4, and the auxiliary battery 9 supplies power only to the time measuring means 4. [Selection] Figure 1

Description

  The present invention relates to detector technology.

Conventionally, a detector technique for detecting a predetermined gas to be detected in the ambient atmosphere has been known (see Patent Document 1).
In the detector, a bump test (functional inspection) or the like is performed by an operator periodically (for example, once / day). When such a functional inspection is performed, the inspection time and the inspection contents are recorded in handwriting by the operator.

Some detectors have time measuring means and a storage device, and are configured to store detected information, alarmed information, and the like together with the time of detection, etc., but the stored information is used by the user. For example, even if operated by an operator at the time of a function test, the stored information cannot be extracted.
And it is examined that the detector can be configured so that such information can be pulled out by an operator and the stored information can be used effectively.

JP 2013-29473 A

However, the detector includes an auxiliary battery that supplies power to the timing means when power is not supplied from the main battery because power is not supplied from the main battery to the timing means when the main battery is replaced. It can be considered.
However, since the auxiliary battery supplies power to the timing means when power is not supplied from the main battery, if the auxiliary battery is replaced periodically, the auxiliary battery will not be installed even though the remaining battery level is sufficient. As a result, the maintenance cost increases.

  This invention is made | formed in view of the above situations, and makes it a subject to provide the detector which can replace | exchange an auxiliary battery efficiently.

  The problems to be solved by the present invention are as described above. Next, means for solving the problems will be described.

  That is, according to the first aspect of the present invention, there is provided a detector for detecting a predetermined gas to be detected in the ambient atmosphere, the main battery supplying power to the time measuring means, and supplying power from the main battery to the time measuring means. And an auxiliary battery that supplies power to the time measuring means when not in use.

  According to a second aspect of the present invention, the main battery supplies power to each functional unit including the timing means, and the auxiliary battery supplies power only to the timing means.

  According to a third aspect of the present invention, there is provided a remaining amount detecting means for detecting the remaining amount of the auxiliary battery.

  According to a fourth aspect of the present invention, the remaining amount detecting unit also detects a remaining battery level of the main battery, and the remaining amount detecting unit determines a remaining battery level of the main battery based on a fluctuation tendency of the voltage of the main battery. And the remaining battery level of the auxiliary battery is detected based on the power supply time of the auxiliary battery.

  According to a fifth aspect of the present invention, the information processing device further comprises notification means for notifying that the remaining battery level of the main battery or the auxiliary battery has decreased, and the notification means notifies that the remaining battery level of the main battery has decreased. And the aspect which alert | reports that the battery remaining charge of the said auxiliary battery fell is comprised so that it may differ.

  According to a sixth aspect of the present invention, the informing means informs a decrease in the remaining battery level of the main battery in a stepwise manner according to the voltage fluctuation tendency of the main battery, and the power supply time of the auxiliary battery is a predetermined time or more. This is a notification that the remaining battery level of the auxiliary battery has decreased.

The effects of the present invention are as follows.
That is, according to the present invention, the auxiliary battery can be exchanged efficiently.

The block diagram which shows the detector which concerns on embodiment of this invention. The perspective view of a detector similarly. The figure which similarly shows the display part of a detector. The figure which shows the state of the battery remaining charge of the main battery of a detector similarly. The figure which similarly shows the state of the battery remaining amount of the auxiliary battery of a detector. The flowchart which similarly shows operation | movement of a detector. The flowchart which similarly shows operation | movement of a detector. The flowchart which similarly shows operation | movement of a detector. The flowchart which similarly shows operation | movement of a detector. The flowchart which similarly shows operation | movement of a detector. The flowchart which similarly shows operation | movement of a detector. The flowchart which similarly shows operation | movement of a detector.

  Next, the detector which concerns on 1st embodiment of this invention is demonstrated using FIGS. 1-6.

As shown in FIGS. 1 to 5, the detector 1 has a function of detecting a detection target (predetermined gas to be detected in the surrounding atmosphere), a notification function, and the like, and is configured to be portable (portable type). Is done.
The detector 1 includes a control unit 2, a sensor 3, a timing unit 4, a notification unit 5, a remaining amount detection unit 6, and other functional units, an operation unit 7, a main battery 8, and an auxiliary battery 9. Prepare.

The control unit 2 of the detector 1 controls various operations of the detector 1.
The control unit 2 includes a storage device 10 that stores various types of information.

The sensor 3 of the detector 1 is a detection unit that detects a detection target, and detects a change in the external environment.
The sensor 3 is a gas sensor that detects a gas to be detected (concentration of the gas to be detected), and includes a methane sensor, an oxygen sensor, a CO sensor, a city gas sensor, or the like. In the sensor 3, for example, the methane sensor can detect methane gas, the oxygen sensor can detect oxygen gas, the CO sensor can detect carbon monoxide gas generated by incomplete combustion, and the city gas sensor can leak gas such as hydrocarbon gas. Any known semiconductor sensor element, contact combustion sensor element, or the like can be used.

The time measuring means 4 of the detector 1 is constituted by a real time clock IC, and measures various operation times of the detector 1. The time measuring means 4 includes, for example, a time during which a bump test (functional inspection) is performed, a time when the sensor 3 is moved, a time notified by the notification means 5, a power supply time by the main battery 8 and the auxiliary battery 9 (total power supply time) ) Etc. are measured.
Information relating to the time measured by the time measuring means 4 is stored in the storage device 10 of the control unit 2.
The time measuring means 4 can also be configured by the real time clock function of the control unit 2. By comprising in this way, the detector 1 can be comprised compactly.

The notification means 5 of the detector 1 notifies various states of the detector 1.
The notifying means 5 notifies that the concentration of the gas to be detected detected by the sensor 3 is a predetermined value or more (a predetermined threshold value or more), or that the remaining battery level of the main battery 8 or the auxiliary battery 9 has decreased. .
For example, the notification unit 5 provides a notification by performing a predetermined display on the display unit 11, generating a buzzer sound or sound, or lighting a lamp. The notification unit 5 includes a display unit 11 and a lamp unit 12.

The remaining amount detection means 6 of the detector 1 detects the remaining battery level of the main battery 8 or the auxiliary battery 9.
The remaining amount detection means 6 has a configuration in which the configuration for detecting the remaining battery level of the main battery 8 and the configuration for detecting the remaining battery level of the auxiliary battery 9 are different.
As a configuration for detecting the remaining battery level of the main battery 8 in the remaining battery level detection means 6, the remaining battery level of the main battery 8 is detected based on the voltage fluctuation tendency detected by the control unit 2.
As a configuration for detecting the remaining battery level of the auxiliary battery 9 in the remaining battery level detection means 6, the remaining battery level of the auxiliary battery 9 is detected based on the power supply time (total power supply time) measured by the time measuring means 4. . The remaining amount detecting means 6 determines that when the power supply time of the auxiliary battery 9 (cumulative power supply time) becomes equal to or longer than a predetermined time, the remaining battery level of the auxiliary battery 9 is reduced to a predetermined B level or less. The remaining battery level of the battery 9 is detected.

The operation unit 7 of the detector 1 is configured by an operation tool such as a switch or a touch panel, and performs a detection operation by the sensor 3 when operated by an operator.
When the operation unit 7 is operated by the operator, the power supply time (total power supply time) of the auxiliary battery 9 by the time measuring means 4 is reset. It should be noted that the power supply time of the auxiliary battery 9 by the time measuring means 4 (total power supply time can also be determined by operating the PC connected to the detector 1 or removing the auxiliary battery 9 from the socket. ) May be reset.

The main battery 8 of the detector 1 supplies power to various types (functional units) of the detector 1. In the main battery 8, when the remaining battery level decreases and the battery voltage becomes a predetermined voltage or lower (for example, 2.1 V or lower), the function unit does not operate.
The main battery 8 is composed of a primary battery (dry battery). The main battery 8 is disposed in the case and can be replaced.
In addition, the main battery 8 of the detector 1 can also be comprised with a secondary battery (rechargeable battery).

The auxiliary battery 9 of the detector 1 supplies power to the time measuring means 4. When the remaining battery level of the auxiliary battery 9 decreases to a predetermined voltage or lower (for example, 1.05 V or lower), the time measuring means 4 does not operate.
The auxiliary battery 9 is composed of a primary battery (coin battery). The auxiliary battery 9 is disposed in the case and can be replaced.

  Next, a series of operations in which the main battery 8 or the auxiliary battery 9 in the detector 11 supplies power to the timing means 4 will be described with reference to FIG.

As shown in FIG. 6, first, in the detector 1, the control unit 2 determines whether or not the main battery 8 is supplying power to the time measuring means 4 (step S11).
At this time, the control unit 2 determines whether the main battery 8 is supplying power to the timing means 4 by detecting the voltage of the main battery 8. The controller 2 supplies power to the timing means 4 when the main battery 8 is removed, or when the remaining battery level in which the timing means 4 can operate is not left in the main battery 8. It is determined that it is not done.
When the control unit 2 determines that the main battery 8 is supplying power to the timing unit 4, the control unit 2 determines whether the main battery 8 is supplying power to the timing unit 4 (step S11). ) Is repeated.
When the control unit 2 determines that the main battery 8 is not supplying power to the time measuring means 4, the process proceeds to step S12.

Next, the auxiliary battery 9 performs an operation of supplying power to the time measuring means 4 (step S12).
At this time, the time measuring means 4 measures the power supply time (total power supply time) of the auxiliary battery 9.
If the operation of supplying power to the timing means 4 is performed after the operation of supplying power to the timing means 4 by the auxiliary battery 9 (step S12), the auxiliary battery 9 measures the timing means 4 The control unit 2 determines whether or not the main battery 8 is supplying power to the time measuring means 4 (step S11).

  As described above, in the detector 1, the main battery 8 or the auxiliary battery 9 supplies power to the timing means 4.

As described above, when the auxiliary battery 9 is not supplied with power from the main battery 8 to the timing means 4, power is supplied to the timing means 4, and the timing means 4 measures the power supply time of the auxiliary battery 9. In the detector 1, the remaining battery level of the auxiliary battery 9 is predicted from the power supply time of the auxiliary battery 9 to the timing means 4, and the auxiliary battery 9 can be used until immediately before the remaining battery level runs out (battery runs out). It is possible to suppress an increase in maintenance costs (replacement maintenance costs for the auxiliary battery 9).
Therefore, according to the detector 1, the auxiliary battery 9 can be exchanged efficiently.
Moreover, according to the detector 1, since the voltage suddenly decreases immediately before the auxiliary battery 9 runs out of the remaining battery charge (battery exhaustion) like the button battery, the remaining battery charge is detected even if the voltage fluctuation tendency is detected. Even if it is difficult for the operator to recognize that the battery is about to run out (battery is exhausted), it is possible to reliably detect a decrease in the remaining battery level of the auxiliary battery 9.

Further, as described above, in the detector provided with the remaining amount detection means 6 for detecting the remaining battery level of the auxiliary battery 9, the remaining battery level detection means 6 detects the remaining battery level of the auxiliary battery 9. Thus, the auxiliary battery 9 can be used until immediately before the battery is exhausted (battery runs out), and the maintenance cost can be prevented from increasing.
Therefore, according to the detector 1, the auxiliary battery 9 can be exchanged efficiently.

Further, as described above, in the detector 1, the remaining amount detection unit 6 detects a voltage drop of the auxiliary battery 9 based on the power supply time of the auxiliary battery 9. Since the voltage drop of the auxiliary battery 9 is detected based on the above, the auxiliary battery 9 can be used until immediately before the remaining battery level is exhausted (battery exhaustion), and the maintenance cost can be prevented from increasing.
Therefore, according to the detector 1, the auxiliary battery 9 can be exchanged efficiently.
Further, in the detector 1, the voltage of the auxiliary battery 9 suddenly decreases immediately before the auxiliary battery 9 runs out of battery power (out of battery) like the button battery. Even if it is difficult for the operator to recognize that it is immediately before (battery runs out), it is possible to reliably detect a decrease in the remaining battery level of the auxiliary battery 9.

The main battery 8 of the detector 1 supplies power to the functional units (the control unit 2, the sensor 3, the notification unit 5, the remaining amount detection unit 6, etc.) including the time measuring unit 4.
The auxiliary battery 9 does not supply power to the sensor 3 or the like, and supplies power only to the timing means 4.

As described above, the auxiliary battery 9 does not supply power to the sensor 3 and supplies power only to the timing means 4. In the detector 1, the auxiliary battery 9 does not supply power to the sensor 3. When the power is not supplied from the main battery 8 to the timing means 4, the power is supplied to the sensor 3 and the battery runs out, so that no power is supplied from the auxiliary battery 9 to the timing means 4. Can be prevented.
Further, in the detector 1, since the auxiliary battery 9 supplies power only to the timing means 4, when the main battery 8 does not supply power to the timing means 4, other functional units (such as the sensor 3) It is possible to prevent the power from being supplied from the auxiliary battery 9 to the time measuring means 4 due to the power being supplied to the functional units other than the time measuring means 4).
Therefore, according to the detector 1, when power is not supplied from the main battery 8 to the timing means 4, information detected without power being supplied, alarmed information, and the like are stored together with the detected time. It is possible to suppress a state in which no operation is performed.

The notification means 5 of the detector 1 notifies that the remaining battery level of the main battery 8 or the auxiliary battery 9 has decreased.
The notification means 5 is configured so that a mode for notifying that the remaining battery level of the main battery 8 has decreased and a mode for notifying that the remaining battery level of the auxiliary battery 9 has decreased. For example, the notification means 5 is different in the display mode of the display unit 11 or the lighting mode of the lamp unit 12 when the remaining battery level of the main battery 8 is decreased and when the remaining battery level of the auxiliary battery 9 is decreased. Configured as follows.

  As described above, the notification unit 5 is configured so that the mode in which the remaining battery level of the main battery 8 is informed is different from the mode in which the battery level of the auxiliary battery 9 is decreased. In the detector 1, since the notification means 5 notifies in a different manner when the remaining battery level of the main battery 8 decreases and when the remaining battery level of the auxiliary battery 9 decreases, the remaining battery level of the main battery 8 It is possible to prevent the operator from misidentifying that the battery level has decreased and that the remaining battery level of the auxiliary battery 9 has decreased.

  The notification means 5 of the detector 1 notifies the lowering of the remaining battery level of the main battery 8 step by step according to the fluctuation tendency of the voltage of the main battery 8. The notification means 5 is comprised by the bar graph 11a of the display part 11, for example (refer FIG. 3). At this time, the notification means 5 turns on all the bar graphs 11a when the remaining battery level of the main battery 8 is maximum, and decreases the bar graph 11a that is turned on every time the remaining battery level of the main battery 8 decreases. The lowering of the remaining battery level of the main battery 8 is notified step by step.

The notification means 5 of the detector 1 assumes that when the power supply time (total power supply time) of the auxiliary battery 9 becomes equal to or longer than a predetermined time, the remaining battery level of the auxiliary battery 9 is reduced to a predetermined B level or lower. Then, it is notified that the remaining battery level of the auxiliary battery 9 has decreased. For example, the notification unit 5 is configured by a clock 11b of the display unit 11, and when the power supply time (total power supply time) of the auxiliary battery 9 is equal to or longer than a predetermined time, the clock 11b of the display unit 11 is displayed. Lights up to notify that the battery level of the auxiliary battery 9 has decreased (see FIG. 3).
The predetermined time is 90% to 95% of the time (for example, 24 months) when the time keeping means 4 continues to operate from the time when the battery level of the auxiliary battery 9 is maximum (24 months). For example, it is set to about 21 to 23 months.

  As described above, the notification unit 5 notifies the lowering of the remaining battery level of the main battery 8 step by step according to the fluctuation tendency of the voltage of the main battery 8, and the power supply time of the auxiliary battery 9 becomes a predetermined time or more. The detector 1 that notifies that the remaining battery level of the auxiliary battery 9 has decreased can reliably report the decrease in the remaining battery level of the main battery 8, and the remaining battery level of the auxiliary battery 9 Can be notified with a simple configuration.

Next, a second embodiment of the detector 1 of the present invention will be described with reference to FIGS. 1, 4, 5, and 7 to 12. FIG.
In addition, about description of the detector 1 of FIG.1, FIG.4, FIG.5 and FIGS. 7-12, the part similar to the detector 1 of FIGS. 1-6 is abbreviate | omitted suitably, and the detection of FIGS. The description will focus on the parts different from the container 1.

  As shown in FIGS. 1, 4, and 5, the detector 1 includes a control unit 2, a sensor 3, a timing unit, a notification unit 5, a remaining amount detection unit 6, and other functional units, and an operation unit 7. The main battery 8 and the auxiliary battery 9 are provided.

As a configuration for detecting the remaining battery level of the main battery 8 in the remaining level detection means 6 of the detector 1, the remaining battery level of the main battery 8 is detected based on the voltage fluctuation tendency detected by the control unit 2.
When the remaining amount detection means 6 of the detector 1 detects that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1, the notification means 5 sets the remaining battery level of the main battery 8 to the first predetermined level. Informs that it is A level X1.
The first predetermined A level X1 is set to about 95% of the maximum remaining battery level of the main battery 8, for example. Further, for example, the first predetermined A level X1 is set to 2.4V when the maximum voltage value of the main battery 8 is 3.0V.
The remaining battery level detection means 6 detects the remaining battery level of the main battery 8 by detecting the voltage a predetermined number of times every predetermined time, and determining the average value of the detected voltage or the range of the detected voltage many times. The remaining battery level may be used, or the remaining battery level may be detected every predetermined time, and the remaining battery level may be detected by comparison with the previous detection value.

In the detector 1, when the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is the second predetermined A level X2 which is higher than the first predetermined A level X1, the notifying means 5 It can also be set as the structure which alert | reports that the battery remaining charge of the main battery 8 is the 2nd predetermined A level X2.
The second predetermined A level X2 has a lower urgency for notifying that the remaining battery level of the main battery 8 is lower than the first predetermined A level X1, for example, about the maximum remaining battery level of the main battery 8. Set to 97%. Further, for example, the second predetermined A level X2 is set to 2.6V when the maximum voltage value of the main battery 8 is 3.0V.

When the remaining amount detection means 6 detects that the remaining battery level of the main battery 8 is the third predetermined A level X3 which is lower than the first predetermined A level X1, the notification means 5 detects the battery of the main battery 8 It can also be set as the structure which alert | reports that residual amount is the 3rd predetermined A level X3.
The third predetermined A level X3 is higher in urgency for notifying that the remaining battery level of the main battery 8 is lower than the first predetermined A level X1, for example, about the maximum remaining battery level of the main battery 8 Set to 90%. Further, for example, the third predetermined A level X3 is set to 2.2V when the maximum voltage value of the main battery 8 is 3.0V.

  In the detector 1, the predetermined A level of the remaining battery level of the main battery 8 is a plurality of predetermined A levels (for example, the first predetermined A level X1 and the first predetermined A level X1) among the first predetermined A level X1 to the third predetermined A level X3. The second predetermined A level X2) may be selected and set. At this time, when the remaining amount detection unit 6 detects that the remaining battery level of the main battery 8 is the predetermined A level, the notification unit 5 determines that the remaining battery level of the main battery 8 is high. Each of the preset A levels is notified.

As described above, the notification unit 5 confirms that the remaining battery level of the main battery 8 is a plurality of predetermined A levels selected and set from the first predetermined A level X1 to the third predetermined A level X3. In the detector 1 to notify, it can be notified in a plurality of stages according to the remaining battery level of the main battery 8 that it is immediately before the remaining battery level of the main battery 8 runs out.
Note that a predetermined A level of the remaining battery level of the main battery 8 (a predetermined A level selected from the first predetermined A level X1 to the third predetermined A level X3, or a first predetermined A level X1 to a third predetermined level). The value of A level X3) can be set in advance and cannot be changed. Alternatively, the setting can be changed by operating the operation unit 7.

As a configuration for detecting the battery remaining amount of the auxiliary battery 9 in the remaining amount detecting means 6 of the detector 1, the battery remaining amount of the auxiliary battery 9 is determined based on the power supply time (total power supply time) measured by the time measuring means. Detected.
When the remaining amount detecting means 6 detects that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1, the notifying means 5 determines that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1. Notify that. The first predetermined B level Y1 is set to about 95% of the maximum remaining battery level of the auxiliary battery 9, for example. When the power supply time (cumulative power supply time) of the auxiliary battery 9 measured by the time measuring means reaches T1, the remaining battery level of the auxiliary battery 9 is detected to be equal to or less than the first predetermined B level Y1. The notification means 5 notifies that the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1 as detected by the means 6.

  In the detector 1, when the remaining amount detection means 6 detects that the battery remaining amount of the auxiliary battery 9 is the second predetermined B level Y2 which is higher than the first predetermined B level Y1, the notification means 5 It can also be set as the structure which alert | reports that the battery remaining charge of the auxiliary battery 9 is the 2nd predetermined B level Y2. The second predetermined B level Y2 has a lower urgency for notifying that the remaining battery level of the auxiliary battery 9 is lower than the first predetermined B level Y1, and is, for example, about the maximum remaining battery level of the auxiliary battery 9. Set to 97%. When the power supply time (cumulative power supply time) of the auxiliary battery 9 measured by the time measuring means reaches T2, it is detected that the remaining battery level of the auxiliary battery 9 is equal to or lower than the second predetermined B level Y2. The notification means 5 notifies that the remaining battery level of the auxiliary battery 9 is not more than the second predetermined B level Y2 as detected by the means 6. The power supply time (cumulative power supply time) T2 of the auxiliary battery 9 is set to a cumulative time shorter than T1.

  When the remaining amount detecting means 6 detects that the remaining battery level of the auxiliary battery 9 is the third predetermined B level Y3 which is lower than the first predetermined B level Y1, the notifying means 5 detects the battery of the auxiliary battery 9 It can also be set as the structure which alert | reports that residual amount is the 3rd predetermined B level Y3. The third predetermined B level Y3 has a higher urgency for notifying that the remaining battery level of the auxiliary battery 9 is lower than the first predetermined B level Y1, for example, about the maximum remaining battery level of the auxiliary battery 9 Set to 90%. When the power supply time (cumulative power supply time) of the auxiliary battery 9 measured by the time measuring means reaches T3, the remaining battery level is detected to be less than or equal to the third predetermined B level Y3. The notification means 5 notifies that the remaining battery level of the auxiliary battery 9 is not more than the third predetermined B level Y3 as detected by the means 6. The power supply time (cumulative power supply time) T3 of the auxiliary battery 9 is set to a cumulative time longer than T1.

In the detector 1, the predetermined B level of the remaining battery level of the auxiliary battery 9 is a plurality of predetermined B levels (for example, the first predetermined B level Y1 and the first predetermined B level Y1). The second predetermined B level Y2) may be selected and set.
At this time, when the remaining amount detecting means 6 detects that the remaining battery level of the auxiliary battery 9 is at a predetermined B level, the notification means 5 detects the remaining battery level of the auxiliary battery 9. Are informed that the predetermined B levels are set.

As described above, the notification unit 5 confirms that the remaining battery level of the auxiliary battery 9 is a plurality of predetermined B levels selected and set from the first predetermined B level Y1 to the third predetermined B level Y3. In the detector 1 to notify, it is possible to notify that the battery level of the auxiliary battery 9 is about to run out in a plurality of stages according to the battery level of the auxiliary battery 9.
A predetermined B level of the remaining battery level of the auxiliary battery 9 (a predetermined B level selected from the first predetermined B level Y1 to the third predetermined B level Y3, or a first predetermined B level Y1 to a third predetermined level). The value of the B level Y3) can be set in advance and cannot be changed. Alternatively, the setting can be changed by operating the operation unit 7.

  Next, in the detector 1, the remaining battery level of the main battery 8 is not more than the first predetermined A level X1, or the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1. When the amount detecting means 6 detects, the remaining battery level of the main battery 8 is not more than the first predetermined A level X1, or the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1, A series of operations in which the notification means 5 notifies will be described with reference to FIG.

As shown in FIG. 7, first, in the detector 1, based on the battery remaining amount of the main battery 8 detected by the remaining amount detecting means 6, is the battery remaining amount of the main battery 8 equal to or lower than the first predetermined A level X1? The controller 2 determines whether or not (step S31).
When the control unit 2 determines that the remaining battery level of the main battery 8 is not equal to or lower than the first predetermined A level X1, the process proceeds to step S32.
When the control unit 2 determines that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1, the process proceeds to step S33.

Next, based on the remaining battery level of the auxiliary battery 9 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1 (step). S32).
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is not equal to or lower than the first predetermined B level Y1, the process proceeds to step S31.
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1, the process proceeds to step S33.

  Next, the notifying means 5 notifies that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1 or that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1. (Step S33).

  As described above, it is detected that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1 or that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1. When the means 6 detects, it is informed that the remaining battery level of the main battery 8 is not more than the first predetermined A level X1, or that the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1. Means 5 notifies.

As described above, the notification unit 5 indicates that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1, or that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1. In the detector 1 to notify, the remaining battery level of the main battery 8 is the first predetermined A level X1 or less, or the remaining battery level of the auxiliary battery 9 is the first predetermined B level Y1 or less. Since the notification means 5 notifies when the detection means 6 detects, the main battery 8 or the auxiliary battery 9 is informed that the remaining battery level of the main battery 8 or the auxiliary battery 9 is exhausted (battery is exhausted), and the main battery 8 is used until immediately before the remaining battery level is exhausted. Or the auxiliary | assistant battery 9 can be used and it can suppress that a maintenance expense (the replacement maintenance expense of the main battery 8 or the auxiliary | assistant battery 9) increases.
Therefore, according to the detector 1, the main battery 8 or the auxiliary battery 9 can be exchanged efficiently.

At this time, in the detector 1, the predetermined A level of the remaining battery level of the main battery 8 is any one predetermined A level from the first predetermined A level X1 to the third predetermined A level X3, or a plurality of levels It can also be configured to be selected and set to a predetermined A level.
Further, in the detector 1, the predetermined B level of the remaining battery level of the auxiliary battery 9 is any one of the predetermined B levels Y1 to the third predetermined B level Y3 or a plurality of predetermined B levels. It can also be configured to be selected and set for the level.

  Next, in the detector 1, the remaining amount detection means that the remaining battery level of the main battery 8 is not more than the first predetermined A level X1 and the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1. 6 detects that the remaining battery level of the main battery 8 is not more than the first predetermined A level X1 and that the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1. A series of operations will be described with reference to FIG.

As shown in FIG. 8, first, in the detector 1, based on the battery remaining amount of the main battery 8 detected by the remaining amount detecting means 6, is the battery remaining amount of the main battery 8 less than or equal to the first predetermined A level X1? The control unit 2 determines whether or not (step S41).
When the control unit 2 determines that the remaining battery level of the main battery 8 is not equal to or lower than the first predetermined A level X1, the control unit 2 determines whether the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1. The operation (step S41) is repeated.
When the control unit 2 determines that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1, the process proceeds to step S42.

Next, based on the remaining battery level of the auxiliary battery 9 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1 (step). S42).
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is not equal to or lower than the first predetermined B level Y1, the process proceeds to step S41.
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1, the process proceeds to step S43.

  Next, the notification means 5 notifies that the remaining battery level of the main battery 8 is not more than the first predetermined A level X1 and that the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1 (step S43). ).

  As described above, the remaining amount detecting means 6 indicates that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1. When detected, the notification means 5 notifies that the remaining battery level of the main battery 8 is not more than the first predetermined A level X1 and that the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1.

  As described above, the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is not more than the first predetermined A level X1 and the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1. The notification means 5 notifies that the remaining battery level of the main battery 8 is not more than the first predetermined A level X1 and the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1. The device 1 does not notify when the remaining battery level of either the main battery 8 or the auxiliary battery 9 is low, the battery level of the main battery 8 is equal to or lower than the first predetermined A level X1, and the battery of the auxiliary battery 9 When the remaining amount is equal to or lower than the first predetermined B level Y1, it is possible to prevent the maintenance cost from increasing.

At this time, in the detector 1, the predetermined B level of the remaining battery level of the main battery 8 is one predetermined B level (for example, a second predetermined level) from the first predetermined A level X1 to the third predetermined A level X3. It may be configured to be selected and set to A level X2 or third predetermined A level X3).
Further, in the detector 1, the predetermined B level of the remaining battery level of the auxiliary battery 9 is any one predetermined B level (for example, the second predetermined B level) from the first predetermined B level Y1 to the third predetermined B level Y3. Y2 or the third predetermined B level Y3) may be selected and set.

  For example, when the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the second predetermined B level Y2. The detector 1 is set so that the notification means 5 notifies that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the second predetermined B level Y2. Then, when the remaining battery level of either the main battery 8 or the auxiliary battery 9 is low, no notification is given, the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1, and the remaining battery level of the auxiliary battery 9 Is notified when the second predetermined B level is Y2 or less, and an increase in maintenance costs can be suppressed. Moreover, in the detector 1, it can prevent more reliably that it will be in the state where the battery remaining charge of the auxiliary battery 9 became exhausted.

  For example, when the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the third predetermined B level Y3. The detector 1 is set to notify that the remaining battery level of the main battery 8 is not more than the first predetermined A level X1 and the remaining battery level of the auxiliary battery 9 is not more than the third predetermined B level Y3. Then, when the remaining battery level of either the main battery 8 or the auxiliary battery 9 is low, no notification is given, the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1, and the remaining battery level of the auxiliary battery 9 Can be used when the battery level is equal to or lower than the third predetermined B level Y3, and the auxiliary battery 9 can be used until immediately before the remaining battery level is exhausted.

  For example, when the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the second predetermined B level Y2. The detector 1 is set so that the notification means 5 notifies that the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the second predetermined B level Y2. Then, no notification is given when the remaining battery level of either the main battery 8 or the auxiliary battery 9 is low, the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2, and the remaining battery level of the auxiliary battery 9 Is notified when the second predetermined B level is Y2 or less, and an increase in maintenance costs can be suppressed. Moreover, in the detector 1, it can prevent more reliably that it will be in the state which the battery remaining of the main battery 8 and the auxiliary battery 9 became lost.

  For example, when the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the third predetermined B level Y3. The detector 1 is set so that the notification means 5 notifies that the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the third predetermined B level Y3. Then, no notification is given when the remaining battery level of either the main battery 8 or the auxiliary battery 9 is low, the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2, and the remaining battery level of the auxiliary battery 9 Can be used when the battery level is equal to or lower than the third predetermined B level Y3, and the auxiliary battery 9 can be used until immediately before the remaining battery level is exhausted. Moreover, in the detector 1, it can prevent more reliably that it will be in the state where the battery remaining charge of the main battery 8 became exhausted.

  For example, when the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is equal to or lower than the third predetermined A level X3 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the third predetermined B level Y3. The detector 1 is set so that the notification means 5 notifies that the remaining battery level of the main battery 8 is equal to or lower than the third predetermined A level X3 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the third predetermined B level Y3. Then, no notification is given when the remaining battery level of either the main battery 8 or the auxiliary battery 9 is low, the remaining battery level of the main battery 8 is equal to or lower than the third predetermined A level X3, and the remaining battery level of the auxiliary battery 9 Can be used when the battery level is equal to or lower than the third predetermined B level Y3, and the main battery 8 and the auxiliary battery 9 can be used until immediately before the remaining battery level is exhausted.

  For example, when the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1. The detector 1 is set so that the notification means 5 notifies that the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1. Then, no notification is given when the remaining battery level of either the main battery 8 or the auxiliary battery 9 is low, the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2, and the remaining battery level of the auxiliary battery 9 Is notified when it is equal to or lower than the first predetermined B level Y1, and an increase in maintenance costs can be suppressed. Moreover, in the detector 1, it can prevent more reliably that it will be in the state where the battery remaining charge of the main battery 8 became exhausted.

  For example, when the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is equal to or lower than the third predetermined A level X3 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1. The detector 1 is set so that the notification means 5 notifies that the remaining battery level of the main battery 8 is equal to or lower than the third predetermined A level X3 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1. Then, no notification is given when the remaining battery level of either the main battery 8 or the auxiliary battery 9 is low, the remaining battery level of the main battery 8 is equal to or lower than the third predetermined A level X3, and the remaining battery level of the auxiliary battery 9 Can be used when the battery level is equal to or lower than the first predetermined B level Y1, and the main battery 8 can be used until immediately before the remaining battery level is exhausted, thereby preventing an increase in maintenance costs.

In the detector 1, the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1 or that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1. The notification means 5 notifies that the remaining battery level of the main battery 8 is not more than the first predetermined A level X1 or that the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1. When the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is not more than the first predetermined A level X1 and the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1, A configuration in which the notification means 5 notifies that the remaining battery level of the battery 8 is equal to or lower than the first predetermined A level X1 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1 is combined. You can also
At this time, in the detector 1, the predetermined A level of the remaining battery level of the main battery 8 is any one predetermined A level from the first predetermined A level X1 to the third predetermined A level X3, or a plurality of levels It can also be configured to be selected and set to a predetermined A level.
Further, in the detector 1, the predetermined B level of the remaining battery level of the auxiliary battery 9 is any one of the predetermined B levels Y1 to the third predetermined B level Y3 or a plurality of predetermined B levels. It can also be configured to be selected and set for the level.

  For example, the remaining battery level of the main battery 8 is lower than the first predetermined A level X1, the remaining battery level of the auxiliary battery 9 is lower than the first predetermined B level Y1, or the remaining battery level of the main battery 8 is When the remaining amount detecting means 6 detects that the battery level of the auxiliary battery 9 is equal to or lower than the second predetermined A level X2, and the battery level of the auxiliary battery 9 is equal to or lower than the second predetermined B level Y2, the remaining battery level of the main battery 8 is One predetermined A level X1 or lower, the remaining battery level of the auxiliary battery 9 is lower than the first predetermined B level Y1, or the remaining battery level of the main battery 8 is lower than the second predetermined A level X2 and auxiliary In the detector 1 set to notify that the remaining battery level of the battery 9 is equal to or lower than the second predetermined B level Y2, the remaining battery level of the main battery 8 is exhausted at the first predetermined A level X1. And the auxiliary battery 9 at the first predetermined B level Y1. To notify that the battery power is lost, until just before the battery is eliminated can use a primary battery 8 or the auxiliary battery 9, it is possible to suppress the increase maintenance costs. Furthermore, the detector 1 notifies the main battery 8 and the auxiliary battery 9 in a state where the remaining battery level of the main battery 8 becomes the second predetermined A level X2 and the remaining battery level of the auxiliary battery 9 reaches the second predetermined B level Y2. It can prevent more reliably that it will be in the state where the battery remaining charge of the battery 9 was lost.

  For example, the remaining battery level of the main battery 8 is lower than the first predetermined A level X1 and the remaining battery level of the auxiliary battery 9 is lower than the first predetermined B level Y1, or the remaining battery level of the main battery 8 is When the remaining amount detecting means 6 detects that the remaining battery level of the auxiliary battery 9 is less than or equal to the second predetermined B level Y2, the remaining battery level of the main battery 8 is first. The battery level of the auxiliary battery 9 is equal to or lower than the predetermined A level X1 and the battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1, or the battery level of the main battery 8 is equal to or lower than the third predetermined A level X3. In the detector 1 set so that the notification means 5 notifies that the remaining battery level of the battery is equal to or lower than the second predetermined B level Y2, the notification is made when the remaining battery level of either the main battery 8 or the auxiliary battery 9 is low. Without, the battery remaining amount of the main battery 8 is the first predetermined A level X1 And the remaining amount of the auxiliary battery 9 becomes the first predetermined B level Y1, or the remaining amount of the main battery 8 becomes the third predetermined A level X3 and the remaining amount of the auxiliary battery 9 becomes the second predetermined B level. It is possible to more reliably prevent the remaining state of the main battery 8 and the auxiliary battery 9 from being lost by informing in the state of Y2.

  For example, the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1, the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1, and the remaining battery level of the main battery 8 is equal to the third predetermined level. When the remaining amount detecting means 6 detects that the battery level of the auxiliary battery 9 is equal to or lower than the A level X3 or that the remaining battery level of the auxiliary battery 9 is equal to or lower than the third predetermined B level Y3, the remaining battery level of the main battery 8 One predetermined A level X1 or less and the remaining battery level of the auxiliary battery 9 is the first predetermined B level Y1 or less, the remaining battery level of the main battery 8 is the third predetermined A level X3 or less, or auxiliary In the detector 1 set to notify that the remaining battery level of the battery 9 is not more than the third predetermined B level Y3, the remaining battery level of the main battery 8 becomes the first predetermined A level X1, or Notification in the state where the remaining amount of the auxiliary battery 9 is the first predetermined B level Y1 In the state where the battery remaining amount of the main battery 8 becomes the first predetermined A level X1 and the remaining amount of the auxiliary battery 9 becomes the first predetermined B level Y1, it is possible to suppress an increase in maintenance costs. it can. Further, the detector 1 notifies that the remaining battery level of the main battery 8 is exhausted at the third predetermined A level X3, and notifies that the remaining battery level of the auxiliary battery 9 is exhausted at the third predetermined B level Y3. Thus, it is possible to more reliably prevent the main battery 8 or the auxiliary battery 9 from being depleted.

In addition, the detector 1 may be configured so that the manner of notification by the notification unit 5 is different for each condition notified by the notification unit 5 when the notification unit 5 is configured to notify in multiple stages as described above. it can.
For example, the notifying means 5 notifies when the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1, and when the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined A level X1. The notification mode is different from the notification mode when the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the second predetermined A level X2. Configured.
In the detector 1 configured as described above, the operator can recognize that the remaining battery level of the main battery 8 or the auxiliary battery 9 has decreased for each condition notified by the notification means 5.

The detector 1 may be configured such that the first predetermined A level X1 of the remaining battery level of the main battery 8 notified by the notification unit 5 varies depending on the remaining battery level of the auxiliary battery 9.
In the following, the first predetermined A level X1 of the remaining battery level of the main battery 8 that is notified by the notification means 5 according to the remaining battery level of the auxiliary battery 9 varies, and the first predetermined A level of the remaining battery level of the main battery 8 that has fluctuated. A series of operations in which the notification unit 5 notifies that X1 will be described with reference to FIG.

As shown in FIG. 9, first, in the detector 1, the remaining amount detecting means 6 detects the remaining amount of the auxiliary battery 9 (step S51).
After the remaining amount detecting means 6 detects the remaining battery level of the auxiliary battery 9, the process proceeds to step S52.

Next, the control unit 2 performs control to vary the first predetermined A level X1 of the remaining battery level of the main battery 8 according to the remaining battery level of the auxiliary battery 9 detected by the remaining battery level detection unit 6 (step S52).
At this time, the control unit 2 compares the value of the first predetermined A level X1 of the battery remaining amount of the main battery 8 when the remaining battery amount of the auxiliary battery 9 detected by the remaining amount detecting means 6 is relatively large. When the remaining battery level of the auxiliary battery 9 detected by the remaining battery level detection means 6 is relatively low, the value of the first predetermined A level X1 of the remaining battery level of the main battery 8 is set relatively high. Control.
After the control unit 2 performs control to vary the first predetermined A level X1 of the remaining battery level of the main battery 8 based on the remaining battery level of the auxiliary battery 9 detected by the remaining battery level detection unit 6, the process proceeds to step S53. .

Next, the remaining amount detecting means 6 detects the remaining amount of the main battery 8 (step S53).
After the remaining amount detecting means 6 detects the remaining amount of the main battery 8, the process proceeds to step S54.

Next, based on the remaining battery level of the main battery 8 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the main battery 8 is equal to or less than the first predetermined A level X1 (step). S54).
At this time, the control unit 2 determines whether or not the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1 based on the first predetermined A level X1 changed in step S53.
When the control unit 2 determines that the remaining battery level of the main battery 8 is not equal to or lower than the first predetermined A level X1, the process proceeds to step S51.
When the control unit 2 determines that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1, the process proceeds to step S55.

  Next, the notifying means 5 notifies that the remaining battery level of the main battery 8 is not more than the first predetermined A level X1 (step S55).

  As described above, the first predetermined A level X1 of the remaining battery level of the main battery 8 that is notified by the notification unit 5 varies depending on the remaining battery level of the auxiliary battery 9, and the first remaining battery level of the main battery 8 that has changed. The notifying means 5 notifies that it is the predetermined A level X1.

In the configuration in which the first predetermined A level X1 of the remaining battery level of the main battery 8 notified by the notification unit 5 varies, the remaining battery level of the auxiliary battery 9 is any of the first predetermined B level Y1 to the third predetermined B level Y3 or less. As a result, the first predetermined A level X1 of the remaining battery level of the main battery 8 changes to one of the first predetermined A level X1 to the third predetermined A level X3 (or the first predetermined A level X1 does not change). The notification means 5 can also be configured to notify that the remaining battery level of the main battery 8 that has changed is a predetermined A level (or a predetermined A level that does not change).
In the following, the first predetermined A level X1 of the remaining battery level of the main battery 8 is changed to the first predetermined A level X1 by the battery remaining amount of the auxiliary battery 9 being any of the first predetermined B level Y1 to the third predetermined B level Y3 or less. A series of operations in which the notification unit 5 notifies that the battery level of the main battery 8 that has changed to any one of the third predetermined A level X3 and has changed is the predetermined A level will be described with reference to FIG.

As shown in FIG. 10, first, in the detector 1, based on the battery remaining amount of the auxiliary battery 9 detected by the remaining amount detecting means 6, is the battery remaining amount of the auxiliary battery 9 lower than the third predetermined B level Y3? The control unit 2 determines whether or not (step S61).
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is equal to or lower than the third predetermined B level Y3, the process proceeds to step S62.
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is not equal to or lower than the third predetermined B level Y3, the process proceeds to step S63.

Next, based on the remaining battery level of the main battery 8 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2 (step). S62).
When the control unit 2 determines that the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2, the process proceeds to step S67.
When the control unit 2 determines that the remaining battery level of the main battery 8 is not equal to or less than the second predetermined A level X2, the process proceeds to step S61.

Next, based on the remaining battery level of the auxiliary battery 9 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1 (step). S63).
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1, the process proceeds to step S64.
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is not equal to or lower than the first predetermined B level Y1, the process proceeds to step S65.

Next, based on the remaining battery level of the main battery 8 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the main battery 8 is equal to or less than the first predetermined A level X1 (step). S64).
When the control unit 2 determines that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1, the process proceeds to step S67.
When the control unit 2 determines that the remaining battery level of the main battery 8 is not equal to or lower than the first predetermined A level X1, the process proceeds to step S61.

Next, based on the remaining battery level of the auxiliary battery 9 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the auxiliary battery 9 is equal to or lower than the second predetermined B level Y2 (step). S65).
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is equal to or lower than the second predetermined B level Y2, the process proceeds to step S66.
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is not equal to or less than the second predetermined B level Y2, the process proceeds to step S61.

Next, based on the remaining battery level of the main battery 8 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the main battery 8 is equal to or lower than a third predetermined A level X3 (step). S66).
When the control unit 2 determines that the remaining battery level of the main battery 8 is equal to or lower than the third predetermined A level X3, the process proceeds to step S67.
When the control unit 2 determines that the remaining battery level of the main battery 8 is not equal to or lower than the third predetermined A level X3, the process proceeds to step S61.

  As described above, the first predetermined A level X1 of the remaining battery level of the main battery 8 is set to the first predetermined level by the battery level of the auxiliary battery 9 being any of the first predetermined B level Y1 to the third predetermined B level Y3 or lower. The notification means 5 notifies that the level of the remaining battery level of the main battery 8 changes to any one of the A level X1 to the third predetermined A level X3.

As described above, the first predetermined A level X1 of the remaining battery level of the main battery 8 that is notified by the notification unit 5 varies depending on the remaining battery level of the auxiliary battery 9. When the remaining battery level of the auxiliary battery 9 is relatively large, the value of the first predetermined A level X1 of the remaining battery level of the main battery 8 is relatively low, and the auxiliary battery 9 detected by the remaining battery level detection means 6 When the remaining battery level is relatively low, the value of the first predetermined A level X1 of the remaining battery level of the main battery 8 is relatively high, and the first predetermined A level of the remaining battery level of the main battery 8 according to the degree of urgency Vary X1.
Therefore, according to the detector 1, it can prevent more reliably that the battery remaining of the main battery 8 and the auxiliary | assistant battery 9 will be lost, suppressing that a maintenance cost increases.

Further, as described above, when the remaining amount detecting means 6 detects that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1, the notifying unit 5 determines that the remaining battery level of the main battery 8 is the first. In the detector 1, which notifies when the remaining amount detecting means 6 detects that it is equal to or lower than the predetermined A level X1, the remaining battery level of the auxiliary battery 9 detected by the remaining amount detecting means 6 is the first predetermined B level Y1. In this case, the first predetermined A level X1 of the remaining battery level of the main battery 8 is set according to the degree of urgency without changing the value of the first predetermined A level X1 of the remaining battery level of the main battery 8.
Further, as described above, when the remaining amount detecting means 6 detects that the remaining battery level of the auxiliary battery 9 is equal to or lower than the second predetermined B level Y2, the notifying unit 5 indicates that the remaining battery level of the main battery 8 is third. When the remaining amount detecting means 6 detects that the battery level of the auxiliary battery 9 is lower than the predetermined A level X3, and when the remaining capacity detector 6 detects that the remaining battery level of the auxiliary battery 9 is lower than the third predetermined B level Y3 The notification means 5 notifies when the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2. In the detector 1, the remaining amount detecting means 6 detects the remaining amount. When the remaining battery level of the auxiliary battery 9 is relatively large, the value of the first predetermined A level X1 of the remaining battery level of the main battery 8 is relatively low, and the auxiliary battery 9 detected by the remaining capacity detection unit 6 is detected. When the remaining battery level is relatively low, the first remaining battery level of the main battery 8 Relatively high value of the constant A level X1, varying the first predetermined level A X1 battery level of the main battery 8 depending on the urgency.
Therefore, according to the detector 1, it can prevent more reliably that the battery remaining of the main battery 8 and the auxiliary | assistant battery 9 will be lost, suppressing that a maintenance cost increases.

The detector 1 may be configured such that the first predetermined B level Y1 of the remaining battery level of the auxiliary battery 9 notified by the notification unit 5 varies depending on the remaining battery level of the main battery 8.
In the following, the first predetermined B level Y1 of the remaining battery level of the auxiliary battery 9 notified by the notification unit 5 according to the remaining battery level of the main battery 8 varies, and the first predetermined B level of the remaining battery level of the auxiliary battery 9 that has fluctuated. A series of operations in which the notifying unit 5 notifies that it is Y1 will be described with reference to FIG.

As shown in FIG. 11, first, in the detector 1, the remaining amount detecting means 6 detects the remaining amount of the main battery 8 (step S71).
After the remaining amount detecting means 6 detects the remaining battery level of the main battery 8, the process proceeds to step S72.

Next, the control unit 2 performs control to vary the first predetermined B level Y1 of the battery remaining amount of the auxiliary battery 9 according to the battery remaining amount of the main battery 8 detected by the remaining amount detecting means 6 (step S72).
At this time, the control unit 2 compares the value of the first predetermined B level Y1 of the battery remaining amount of the auxiliary battery 9 when the remaining amount of the main battery 8 detected by the remaining amount detecting means 6 is relatively large. If the remaining amount of the main battery 8 detected by the remaining amount detection means 6 is relatively low, the value of the first predetermined B level Y1 of the remaining amount of the auxiliary battery 9 is set relatively high. Control.
After the control unit 2 performs control to vary the first predetermined B level Y1 of the battery remaining amount of the auxiliary battery 9 according to the battery remaining amount of the main battery 8 detected by the remaining amount detecting means 6, the process proceeds to step S73. .

Next, the remaining amount detecting means 6 detects the remaining battery level of the auxiliary battery 9 (step S73).
After the remaining amount detecting means 6 detects the remaining battery level of the auxiliary battery 9, the process proceeds to step S74.

Next, based on the remaining battery level of the auxiliary battery 9 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the auxiliary battery is equal to or lower than the first predetermined B level Y1 (step). S74).
At this time, the control unit 2 determines whether or not the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1 based on the first predetermined B level Y1 changed in step S73.
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is not equal to or lower than the first predetermined B level Y1, the process proceeds to step S71.
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1, the process proceeds to step S75.

  Next, the notification means 5 notifies that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1 (step S75).

  As described above, the first predetermined B level Y1 of the remaining battery level of the auxiliary battery 9 notified by the notification unit 5 varies depending on the remaining battery level of the main battery 8, and the first remaining battery level of the changed auxiliary battery 9 varies. The notifying means 5 notifies that it is the predetermined B level Y1.

In the configuration in which the first predetermined B level Y1 of the remaining battery level of the auxiliary battery 9 notified by the notification unit 5 varies, the remaining battery level of the main battery 8 is any of the first predetermined A level X1 to the third predetermined A level X3 or less. As a result, the first predetermined B level Y1 of the remaining battery level of the auxiliary battery 9 changes to one of the first predetermined B level Y1 to the third predetermined B level Y3 (or the first predetermined B level Y1 does not change). The notification means 5 can also be configured to notify that the battery level of the auxiliary battery 9 that has changed is a predetermined B level (or a predetermined B level that does not change).
In the following, the first predetermined B level Y1 of the battery remaining amount of the auxiliary battery 9 is changed to the first predetermined B level Y1 by the battery remaining amount of the main battery 8 being any of the first predetermined A level X1 to the third predetermined A level X3 or less. A series of operations in which the notification unit 5 notifies that the battery level of the auxiliary battery 9 that has changed to any one of the third predetermined B level Y3 and has changed is the predetermined B level will be described with reference to FIG.

As shown in FIG. 12, first, in the detector 1, based on the battery remaining amount of the main battery 8 detected by the remaining amount detecting means 6, is the battery remaining amount of the main battery 8 less than or equal to the third predetermined A level X3? The control unit 2 determines whether or not (step S81).
When the control unit 2 determines that the remaining battery level of the main battery 8 is equal to or lower than the third predetermined A level X3, the process proceeds to step S82.
When the control unit 2 determines that the remaining battery level of the main battery 8 is not equal to or lower than the third predetermined A level X3, the process proceeds to step S83.

Next, based on the remaining battery level of the auxiliary battery 9 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the auxiliary battery 9 is equal to or lower than the second predetermined B level Y2 (step). S82).
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is equal to or lower than the second predetermined B level Y2, the process proceeds to step S87.
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is not equal to or less than the second predetermined B level Y2, the process proceeds to step S81.

Next, based on the remaining battery level of the main battery 8 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the main battery 8 is equal to or less than the first predetermined A level X1 (step). S83).
When the control unit 2 determines that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1, the process proceeds to step S84.
When the control unit 2 determines that the remaining battery level of the main battery 8 is not equal to or lower than the first predetermined A level X1, the process proceeds to step S85.

Next, based on the remaining battery level of the auxiliary battery 9 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1 (step). S84).
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1, the process proceeds to step S87.
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is not equal to or lower than the first predetermined B level Y1, the process proceeds to step S81.

Next, based on the remaining battery level of the main battery 8 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2 (step). S85).
When the control unit 2 determines that the remaining battery level of the main battery 8 is equal to or lower than the second predetermined A level X2, the process proceeds to step S86.
When the control unit 2 determines that the remaining battery level of the main battery 8 is not equal to or less than the second predetermined A level X2, the process proceeds to step S81.

Next, based on the remaining battery level of the auxiliary battery 9 detected by the remaining battery level detection means 6, the control unit 2 determines whether or not the remaining battery level of the auxiliary battery 9 is equal to or lower than the third predetermined B level Y3 (step). S86).
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is equal to or lower than the third predetermined B level Y3, the process proceeds to step S87.
When the control unit 2 determines that the remaining battery level of the auxiliary battery 9 is not equal to or lower than the third predetermined B level Y3, the process proceeds to step S81.

  As described above, the first predetermined B level Y1 of the remaining battery level of the auxiliary battery 9 is set to the first predetermined level by the battery level of the main battery 8 being any one of the first predetermined A level X1 to the third predetermined A level X3 or lower. The notification means 5 notifies that the battery level of the auxiliary battery 9 has changed to any one of the B level Y1 to the third predetermined B level Y3 and is the first predetermined B level Y1.

As described above, the first predetermined B level Y1 of the remaining battery level of the auxiliary battery 9 that is notified by the notification unit 5 varies depending on the remaining battery level of the main battery 8. In the detector 1, the remaining amount detection unit 6 detects the battery level. When the remaining amount of the main battery 8 is relatively large, the value of the first predetermined B level Y1 of the remaining amount of the auxiliary battery 9 is relatively low, and the main battery 8 detected by the remaining amount detecting means 6 When the remaining battery level is relatively low, the value of the first predetermined B level Y1 of the remaining battery level of the auxiliary battery 9 is relatively high, and the first predetermined B level of the remaining battery level of the auxiliary battery 9 according to the degree of urgency Vary Y1.
Therefore, according to the detector 1, it can prevent more reliably that the battery remaining of the main battery 8 and the auxiliary | assistant battery 9 will be lost, suppressing that a maintenance cost increases.

  In the detector 1, the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is equal to or lower than the first predetermined A level X1 or that the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1. The notification means 5 notifies that the remaining battery level of the main battery 8 is not more than the first predetermined A level X1 or that the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1. When the remaining amount detecting means 6 detects that the remaining battery level of the main battery 8 is not more than the first predetermined A level X1 and the remaining battery level of the auxiliary battery 9 is not more than the first predetermined B level Y1, A configuration in which the notification means 5 notifies that the remaining battery level of the battery 8 is equal to or lower than the first predetermined A level X1 and the remaining battery level of the auxiliary battery 9 is equal to or lower than the first predetermined B level Y1 is combined. In addition to the notification means 5 depending on the remaining battery level of the auxiliary battery 9. The first predetermined A level X1 of the remaining battery level of the main battery 8 to be notified varies, and the first predetermined B level of the remaining battery level of the auxiliary battery 9 that is notified by the notification means 5 according to the remaining battery level of the main battery 8. A configuration in which the level Y1 varies can also be adopted.

DESCRIPTION OF SYMBOLS 1 Detector 2 Control part 3 Sensor (detection means)
4 Timekeeping means 5 Notification means 6 Remaining amount detection means 7 Operation section 8 Main battery 9 Auxiliary battery 10 Storage device 11 Display section 12 Lamp section

Claims (6)

A detector for detecting a predetermined gas to be detected in the surrounding atmosphere,
A main battery for supplying power to the timing means;
An auxiliary battery that supplies power to the timing means when power is not supplied from the main battery to the timing means,
The time measuring means is a detector for measuring a power supply time of the auxiliary battery. The main battery supplies power to each functional unit including the time measuring means,
The auxiliary battery supplies power only to the timing means.
The detector according to claim 1. Comprising a remaining amount detecting means for detecting a remaining battery level of the auxiliary battery,
The detector according to claim 1 or 2. The remaining amount detecting means also detects a remaining battery level of the main battery,
The remaining amount detecting means detects a remaining battery level of the main battery based on a fluctuation tendency of the voltage of the main battery, and detects a remaining battery level of the auxiliary battery based on a power supply time of the auxiliary battery.
The detector according to claim 3. A notification means for notifying that a remaining battery level of the main battery or the auxiliary battery has decreased;
The notification means is configured so that a mode for notifying that the remaining battery level of the main battery has decreased and a mode for notifying that the battery level of the auxiliary battery has decreased are different.
The detector according to claim 4. The notification means notifies stepwise of a decrease in the remaining battery level of the main battery according to the fluctuation tendency of the voltage of the main battery, and the auxiliary battery is turned on when the power supply time of the auxiliary battery reaches a predetermined time or more. Notify that the battery charge is low,
The detector according to claim 5.

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