JP2012038220A - Power supply stopping method of waterproof equipment and waterproof equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power supply stopping method of waterproof equipment and waterproof equipment which can prevent a power supply of the waterproof equipment from easily moving from an ON state to an OFF state without changing the power supply of the waterproof equipment from the ON state to the OFF state by reversible operations.SOLUTION: Waterproof equipment 1 comprises an electric circuit inside a waterproof housing 10 and a power supply of the waterproof equipment 1 is moved from the OFF state to the ON state by a predetermined first operation. A power supply stopping method of the waterproof equipment 1 comprises: a first step for making the power supply of the waterproof equipment 1 in a stand-by state until turning into the OFF state by a predetermined second operation, which is different from the first operation, without an operation opposite to the first operation, when the power supply of the waterproof equipment 1 is in the ON state; and a second step for making the power supply of the waterproof equipment 1 in the OFF state by the operation opposite to the first operation and an operation opposite to the second operation, in the stand-by state.

Description

  The present invention relates to a method for stopping power supply of a waterproof device and a waterproof device.

  High electrical resistance is required for electrical equipment used in humid environments such as kitchens and bathrooms. For example, Patent Document 1 (but not disclosed at the time of filing this application) discloses a waterproof device in which an electric circuit is arranged inside a casing having a waterproof structure. The waterproof device is a setting member for setting an electric circuit, a detection member for detecting the setting member, and a detection result by the detection unit. And a setting unit for setting an electric circuit. According to this waterproof device, when the operator places the setting member described above at a predetermined position of the waterproof device, the setting member is detected by the detection unit, and the power of the waterproof device is turned on by the setting unit. It becomes a state. When the setting member is removed from a predetermined position when the power source of the waterproof device is in the ON state, and the setting member is not detected by the detection unit, the power source of the waterproof device is detected by the setting unit. Is turned off.

Japanese Patent Application No. 2010-000822

  However, such a waterproof device has room for improvement regarding an operation for stopping the power supply. For example, a reversible operation, that is, a setting member is moved from a predetermined position to an operation in which the power is turned on such that the setting member is disposed at a predetermined position when the waterproof device is turned on. Since the power supply is turned off by the operation to be taken out, the waterproof device may be turned off if the above-described reversible operation is mistakenly performed by the operator.

  The present invention has been made in view of the above, and the power of the waterproof device can be easily switched from the ON state to the OFF state without reversing the power of the waterproof device from the ON state to the OFF state. It is an object of the present invention to provide a method for stopping the power supply of a waterproof device and a waterproof device that can be prevented from shifting to a state.

  In order to solve the above-described problems and achieve the object, the method for stopping the power supply of the waterproof device according to claim 1 is a waterproof device configured to include an electric circuit inside a waterproof housing, In the method for stopping the power supply of the waterproof device in which the power supply of the waterproof device is turned from the OFF state to the ON state by performing the predetermined first operation, when the power supply of the waterproof device is in the ON state, the first The first operation of setting the waterproof device to a standby state until the power is turned off by performing a predetermined second operation different from the first operation without performing an operation opposite to the operation of the first operation. A second step of turning off the power of the waterproof device by performing an operation opposite to the first operation and an operation opposite to the second operation in the standby state. including.

  The waterproof device power supply stopping method according to claim 2 is the waterproof device power supply stopping method according to claim 1, wherein in the first step, the state after the second operation is a predetermined value. By continuing the time, the waterproof device is put into a standby state until the power is turned off.

  According to a third aspect of the present invention, there is provided a waterproof device power supply stopping method according to the first or second aspect, wherein the electrical circuit is set on an outer surface side of the waterproof housing. A holding portion for holding a first setting tool for forming the first setting tool is formed, and the first operation is an operation of placing the first setting tool on the holding portion.

  According to a fourth aspect of the present invention, there is provided a waterproof device power supply stopping method according to any one of the first to third aspects, wherein the waterproof device power supply stop method is different from the first setting tool. The setting tool is arranged so as to be close to a predetermined position of the waterproof casing.

  According to a fifth aspect of the present invention, there is provided the waterproof device power supply stopping method according to claim 5, wherein the waterproof device is configured to include an electric circuit inside the waterproof casing, and the first setting for setting the electric circuit is provided. In the method for stopping the power supply of the waterproof device in which the power supply of the waterproof device is turned from the OFF state to the ON state by arranging the device in a holding portion formed on the outer surface side of the waterproof housing, the waterproof device The second setting tool different from the first setting tool is brought close to a predetermined position of the waterproof housing without removing the first setting tool from the holding portion when the power source of the battery is ON. In this standby state, the first setting tool is placed in the standby state until the waterproof device is turned off by continuing the state of the arrangement for a predetermined time. Removed from the holding part, and By the second setting device that is separated from a predetermined position of the waterproof casing, and a second step of the power of the waterproof device in the OFF state.

  The waterproof device according to claim 6 is a waterproof device configured by including an electric circuit inside a waterproof housing, and the waterproof device is configured by performing a predetermined first operation. In the waterproof type device in which the power source is turned from the OFF state to the ON state, when the power source of the waterproof type device is in the ON state, a predetermined second operation is performed without performing an operation reverse to the first operation. If performed, the waterproof device is set in a standby state until the power is turned off, and in the standby state, an operation reverse to the first operation and an operation reverse to the second operation are performed. A control unit that turns off the power supply of the waterproof device.

  According to the method for stopping the power supply of the waterproof device according to claim 1 or the waterproof device according to claim 6, when the power supply of the waterproof device is in the ON state, the operator performs a predetermined first operation. Even when a reversible operation such as the reverse operation is performed, the power supply is in a standby state by the operator performing the predetermined second operation without the power supply being turned off. In the state, when the operator performs the operation opposite to the first operation and the operation opposite to the second operation, the power source is turned off, so that the power source does not easily shift from the ON state to the OFF state. It is possible to prevent the power from being turned off due to an erroneous operation by the operator.

  According to the method for stopping the power supply of the waterproof device according to claim 2, in the first step, the operator continues the state after the second operation for a predetermined time, so that the power supply of the waterproof device is in a standby state. Therefore, when the operator operates with the intention of turning off the power, the power can be turned off, and the power can be further prevented from being turned off by an operator's erroneous operation. be able to.

  According to the method for stopping the power supply of the waterproof device according to claim 3, since the first operation is an operation of placing the first setting tool on the holding portion, the setting of the electric circuit can be performed without impairing the waterproof property. It can be done easily.

  According to the method for stopping the power supply of the waterproof device according to claim 4, the second operation is such that the second setting tool different from the first setting tool is arranged close to a predetermined position of the waterproof housing. Therefore, the electric circuit can be easily set without impairing waterproofness. In addition, since the second operation and the first operation are different operations, it is possible to prevent the power from being turned off due to an erroneous operation by the operator.

  According to the method for stopping the power supply of the waterproof device according to claim 5, the first setting is performed after the operator places the first setting tool on the holding portion when the power supply of the waterproof device is in the ON state. Even when a reversible operation is performed such as removing the tool from the holding unit, the operator is reversible with respect to an operation for turning on the power source such as placing the first setting tool on the holding unit. Even when the operation, that is, the operation of taking out the first setting tool from the holding unit, is performed, the operator sets the first setting tool and the second setting tool without turning off the power. The power supply is changed from the ON state to the standby state by arranging the first setting tool and the second setting tool in a predetermined order and timing. By releasing on the basis of Since the OFF state from the standby state, power is easily able to prevent shifts from the ON state to the OFF state, by the operator of an erroneous operation, the power source can be prevented to become the OFF state.

FIG. 1 is a three-sided view illustrating an external appearance of a sensor as a waterproof device according to Embodiment 1, FIG. 1 (a) is a rear view of the sensor, FIG. 1 (b) is a side view of the sensor, and FIG. c) is a front view of the sensor. It is a figure which shows the detail of the sensor shown in FIG. 1, Fig.2 (a) is a rear view of a sensor, FIG.2 (b) is a sectional side view of a sensor. 3 is a block diagram functionally conceptually showing the electrical configuration of the waterproof device according to Embodiment 1. FIG. 4 is a table illustrating the contents of a setting table according to the first embodiment. 3 is a flowchart of a power supply stopping method according to the first embodiment. 3 is a flowchart of power supply stop processing according to the first embodiment. 12 is a table illustrating the contents of a setting table according to the second embodiment. 6 is a flowchart of a power supply stopping method according to the second embodiment. 7 is a flowchart of power supply stop processing according to the second embodiment. FIG. 10 is a flowchart of power supply stop processing according to Embodiment 2 following FIG. 9. FIG.

  Hereinafter, embodiments of a waterproof device according to the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to each embodiment.

  The application target of the waterproof device according to each embodiment is arbitrary, and can be applied to various electrical devices that are required to be waterproof and need to be able to be set and operated from the outside. For example, in a disaster prevention system, high humidity It can be applied to a sensor or a receiver installed in the environment. In the following embodiments, a case where the present invention is applied to a wireless constant temperature sensor will be described as an example.

[Embodiment 1]
First, the first embodiment will be described. In this form, the power supply of the electric circuit is stopped using the first setting tool and the second setting tool.

(Constitution)
FIG. 1 is a three-sided view showing the appearance of a sensor as a waterproof device according to Embodiment 1, FIG. 1 (a) is a rear view of the sensor, FIG. 1 (b) is a side view of the sensor, FIG. 1C is a front view of the sensor. FIG. 2 is a diagram showing details of the sensor shown in FIG. 1, FIG. 2 (a) is a rear view of the sensor, and FIG. 2 (b) is a side sectional view of the sensor. FIG. 3 is a block diagram functionally conceptually showing the electrical configuration of the waterproof device according to the first embodiment. As shown in FIGS. 1 to 3, the waterproof device 1 includes a waterproof housing 10, and a first setting tool 21 or a second setting tool 22 is appropriately disposed outside the waterproof housing 10.

(Configuration-first setting tool and second setting tool)
The first setting tool 21 and the second setting tool 22 are used for setting the electrical circuit of the waterproof device 1. The specific configuration of the first setting tool 21 and the second setting tool 22 is arbitrary, and for example, a magnet formed in a substantially rod shape can be used. The first setting tool 21 is for setting the power supply of the electrical circuit of the waterproof device 1 to the ON state, or for setting the power supply to the OFF state, and has a predetermined function of the electrical circuit of the waterproof device 1. This is for setting the operating state. Here, “the power source of the electric circuit is turned on” means, for example, a state where the electric circuit is set to the operation mode. In addition, “the power supply of the electric circuit is turned off” means, for example, a state where the electric circuit is set to the sleep mode. The “operation state of the predetermined function” includes, for example, the setting state of the wireless CH used when the sensor as the waterproof device 1 performs wireless communication via known wireless communication means (not shown). In the following, in order to set the use or non-use of the first setting tool 21a (hereinafter referred to as “first setting tool A” if necessary) for setting the use or non-use of the wireless CH1. The first setting tool 21b (hereinafter referred to as “first setting tool B” as necessary) will be described as an example. The second setting tool 22 is used to set the power supply of the electric circuit of the waterproof device 1 to the OFF state, and is used when a test (for example, a communication test) of the waterproof device 1 is performed. is there. The second setting tool 22 generates a stronger magnetic field than the first setting tool 21. In the first embodiment, the first setting tool 21 and the second setting tool 22 may have different structures from each other, or may have the same structure.

(Configuration-waterproof housing)
The waterproof casing 10 is a casing having a waterproof structure, and the battery 30, the display unit 60, and the circuit board 40 are mounted therein. The specific structure of the waterproof housing 10 is arbitrary, and is formed using, for example, a synthetic resin, and is configured by combining the first case 10a and the second case 10b as shown in FIG. A groove 10c is formed in a fitting portion between the first case 10a and the second case 10b, and a known O-ring 10d is attached to the groove 10c. When the O-ring 10d is appropriately compressed and closely contacts the wall surface of the groove 10c, the airtightness between the inside and outside of the space surrounded by the first case 10a and the second case 10b is maintained.

  In addition, a holding unit 50 is provided on the outer surface side of the waterproof housing 10. The holding unit 50 is a holding unit for holding the first setting tool 21 outside the waterproof housing 10, and includes a first holding unit 51 that holds the first setting tool 21a, and a first setting tool 21b. The second holding portion 52 is provided for holding. The specific structure of these holding | maintenance parts 50 is arbitrary, For example, the recessed part which can insert the 1st setting tool 21 formed in the substantially rod shape is formed in the outer surface side of the 1st case 10a. Furthermore, in order to prevent the first setting tool 21 inserted into the holding part 50 from falling off, the opening of the holding part 50 into which the first setting tool 21 is inserted is sealed with a screw 53. Alternatively, the first setting tool 21 can be prevented from falling off by sealing the holding portion 50 with a cap made of rubber or resin (not shown) instead of the screw 53. In addition, the cap and the first setting tool 21 are integrated, and the waterproof casing 10 is hooked through a string (not shown), thereby preventing the first setting tool 21 from being dropped or lost. it can. Further, the first holding unit 51 and the second holding unit 52 are formed in the same shape as each other. A desired setting may be made by inserting one setting tool 21a or the first setting tool 21b. Note that the second setting tool 22 is used when the waterproof device 1 is tested and does not need to be continuously held outside the waterproof housing 10. The holding part 50 for holding the second setting tool 22 is omitted. Of course, the test setting state may be continued by providing the holding unit 50 for holding the second setting tool 22.

  Further, a back cover 11 is provided so that the entire back surface or part of the waterproof device 1 is covered. The back cover 11 may be a mounting bracket for attaching the waterproof device 1 to, for example, a ceiling surface or a wall surface. Note that the waterproof casing 10 does not need to be opened and closed when the first setting tool 21 is attached or detached and the back cover 11 is attached or detached, so that the waterproof performance of the waterproof casing 10 can be easily and reliably maintained. .

(Configuration-Waterproof housing-Battery)
The battery 30 supplies power to each part of the waterproof device 1. As the battery 30, a known dry battery or rechargeable battery can be used.

(Configuration-Waterproof housing-Display section)
The display unit 60 supplies power to each unit of the waterproof device 1. As this display part 60, a well-known LED lamp, a fluorescent lamp, etc. can be used.

(Configuration-Waterproof housing-Circuit board)
The circuit board 40 is a board on which an electric circuit (not shown) for realizing various functions of the waterproof device 1 is mounted, and includes a detection unit 41, a control unit 42, and a storage unit 43. .

  The detection unit 41 is a detection unit that detects the first setting tool 21 or the second setting tool 22 arranged outside the waterproof housing 10, and includes a first detection unit 41a and a second detection unit 41b. It has. Among these, the first detection unit 41a includes a first detection unit 41a1 (hereinafter referred to as “first detection unit A” if necessary) and a first detection unit 41a2 (hereinafter referred to as “first”. 1 detection unit B ").

  The specific configuration of the detection unit 41 is arbitrary, and when the first setting tool 21 and the second setting tool 22 are magnets as described above, for example, the first setting tool 21 and the second setting tool 22 are used. A magnetic sensor such as a reed switch for detecting the magnetism or a Hall element can be used as the detector 41. In addition, the first detection unit 41 a is disposed on the circuit board 40 so as to hold a relationship between the holding unit 50 and an appropriate position and / or orientation. For example, when the first detection unit 41a operates by detecting magnetism in a direction orthogonal to the detection surface of the first detection unit 41a, the first detection unit 41a1 faces the first holding unit 51. The first detection unit 41 a 2 is arranged at a position facing the second holding unit 52. Thereby, the 1st setting tool 21 inserted in the holding | maintenance part 50 is arrange | positioned in the direction which emits a magnetism in the direction orthogonal to the detection surface of the 1st detection part 41a, The 1st detection part It can be detected by 41a. In addition, since the magnetic strength of the 1st setting tool 21 detected by the 1st detection part 41a becomes strong by making the 1st detection part 41a and the holding | maintenance part 50 approach, the erroneous detection by disturbance Can be prevented. For the second detection unit 41b, when the test of the waterproof device 1 is performed, a position near the position where the operator sets the second setting tool 22 close to the waterproof device 1, for example, the peripheral edge of the circuit board 40 Placed in the section.

  The control unit 42 is a control unit that controls each part of the waterproof device 1. Specifically, the control unit 42 is a CPU, various programs that are interpreted and executed on the CPU (a basic control program such as an OS, and an OS that is activated on the OS). And an internal memory such as a RAM for storing programs and various types of data.

  The control unit 42 includes a setting unit 42a in terms of functions. The setting unit 42 a is a setting unit that sets an electric circuit according to the detection result of the detection unit 41. The specific operation of the setting unit 42a is arbitrary. For example, when a reed switch is used as the detection unit 41, the power is turned on / off according to opening / closing of the reed switch, wireless CH setting, etc. Set up the electrical circuit. Further, when a Hall element is used as the detection unit 41, the output of the Hall element is periodically read, and an electric circuit is set such as switching of an operation mode according to the output. Details of the processing executed by the control unit 42 will be described later.

  The storage unit 43 includes a setting table 43a for reference when the setting unit 42a sets an electric circuit. The storage unit 43 is configured using a rewritable recording medium, and for example, a non-volatile recording medium such as a flash memory or a recording medium such as a ROM that stores a control program for the waterproof device 1 can be used. Further, the function of the setting table 43a may be realized by a conditional branch operation such as an IF statement or a SWICH statement in the control program of the waterproof device 1.

  FIG. 4 is a table illustrating the contents of the setting table 43a according to the first embodiment. As shown in FIG. 4, the setting table 43a corresponds to the table items “first setting tool A”, “first setting tool B”, “second setting tool”, and “setting contents”. Information is stored in association with each other.

  The information stored corresponding to the items “first setting tool A”, “first setting tool B”, and “second setting tool” includes the first setting tool 21 corresponding to each item name and This is information for specifying the detection content of the second setting tool 22, for example, “present” indicating that the first setting tool 21 or the second setting tool 22 has been detected, the first setting tool 21 or the second setting tool 22. “None” indicating that the setting tool 22 is not detected is stored. The information stored corresponding to the item “setting content” is information for specifying the setting content of the electric circuit performed by the setting unit 42 a according to the detection result of the detection unit 41.

  For example, in the case where the second setting tool 22 is not detected, the first setting tool 21a is inserted into the first holding unit 51 and the first setting tool 21a is inserted by the first detection unit 41a1. When the first setting tool 21b is not inserted into the second holding unit 52 and the first setting tool 21b is not detected by the first detection tool 41a2, the electric circuit is turned on. And a setting to use the wireless CH1.

  Moreover, it is a case where the 2nd setting tool 22 is not detected, Comprising: When the 1st setting tool 21b is inserted in the 2nd holding | maintenance part 52, the said 1st setting tool 21b is set by the 1st detection part 41a2. When the first setting tool 21a is not inserted into the first holding part 51 and the first setting part 21a is not detected by the first detection part 41a1, the electric circuit is turned on. And a setting to use the wireless CH2.

  In addition, when the second setting tool 22 is not detected, the first setting tool 21 a is inserted into the first holding part 51 and the first setting tool 21 b is inserted into the second holding part 52. Accordingly, when the first detection unit 41a1 and the first detection unit 41a2 detect the first setting tool 21a and the first setting tool 21b, the power supply of the electric circuit is set to the ON state. The wireless CH set immediately before is set to be used. Or you may comprise so that it may be set to use radio | wireless CH3 different from radio | wireless CH1 and CH2.

  Further, the second setting tool 22 is detected by the second detection unit 41b by arranging the second setting tool 22 so as to be close to the second detection unit 41b. Since the first setting tool 21a is not inserted into the first holding unit 51 and the first setting tool 21b is not inserted into the second holding unit 52, the first detection unit 41a1 and the first setting unit 21a When the first setting tool 21a and the first setting tool 21b are not detected by the detection unit 41a2, test processing is executed.

  Moreover, it is a case where the 2nd setting tool 22 is detected by the 2nd detection part 41b, Comprising: When the 1st setting tool 21a is inserted in the 1st holding | maintenance part 51, the said 1st detection part 41a1 concerned When the first setting tool 21a is detected and the first setting tool 21b is not inserted into the second holding unit 52 and the first setting tool 21b is not detected by the first detection unit 41a2, Run the test process.

  Moreover, it is a case where the 2nd setting tool 22 is detected by the 2nd detection part 41b, Comprising: When the 1st setting tool 21b is inserted in the 2nd holding | maintenance part 52, the said 1st detection part 41a2 concerned When the first setting tool 21b is detected, the first setting tool 21a is not inserted into the first holding unit 51, and the first setting tool 21a is not detected by the first detection unit 41a1, Run the test process.

  Moreover, it is a case where the 1st setting tool 21a and the 1st setting tool 21b are detected by the 1st detection part 41a1 and the said 1st detection part 41a2, Comprising: An operator sets the 2nd setting tool 22 in it. When the second setting unit 22 is detected by the second detection unit 41b by placing the second detection unit 41b close to the second detection unit 41b, standby until the power of the electric circuit is turned off. Set to state. However, the power supply of such an electric circuit is set to the standby state because the operator performs a predetermined procedure of the power stop method of FIG. 5 described later, and in the power stop processing of FIG. However, this is limited to the case where the first setting tool 21 or the second setting tool 22 is detected in a predetermined order and timing (in the example of FIG. 6 to be described later, the processes of SB1 to SB6). If the detection unit 41 does not detect the first setting tool 21 or the second setting tool 22 in a predetermined order and timing because the operator has not followed the predetermined procedure of this method, The circuit power is set to the ON state and the wireless CH set immediately before is set to be used.

  Moreover, it is a case where the 2nd setting tool 22 is not detected by the 2nd detection part 41b, Comprising: The 1st setting tool 21a is not inserted in the 1st holding | maintenance part 51, but the 1st setting tool 21b. If the first detector 21a and the first detector 21b are not detected by the first detector 41a1 and the first detector 41a2 because they are not inserted into the second holder 52, Set the circuit power to OFF. However, the power supply of such an electric circuit is set to the OFF state by the operator following a predetermined procedure of the power supply stop method of FIG. 5 described later after the power supply of the electric circuit is in a standby state. 6, which will be described later, this is limited to the case where the detection unit 41 does not detect the first setting tool 21 or the second setting tool 22 in a predetermined order and timing (in the example of FIG. 6 described later). , Processing of SB7 to SB9). When the detection unit 41 detects the first setting tool 21 or the second setting tool 22 in a predetermined order and timing because the operator has not followed the predetermined procedure of this method, The power is set to the ON state and the wireless CH set immediately before is set to be used.

(How to stop power)
Next, a power stop method and a power stop process of the waterproof device 1 configured as described above will be described. First, the power stop method performed by the worker will be briefly described. FIG. 5 is a flowchart of the power supply stopping method according to the first embodiment (steps are abbreviated as “S” in the following description of each process). In this description, as shown in FIG. 2, the first setting tool 21 b is inserted into the second holding part 52 in a state where nothing is contained, whereby the power supply of the electric circuit is set to the ON state. It is assumed that the wireless CH 2 is used, and such a setting state is maintained (hereinafter, a power stop process according to the first embodiment described later and a power stop method according to the second embodiment). The same applies to the power-off process).

  As shown in FIG. 5, first, the first setting tool 21 is arranged by inserting the first setting tool 21a into the first holding part 51 (SA1). The operation of inserting the first setting tool 21 into the holding unit 50 corresponds to the predetermined first operation in the claims. Next, while maintaining the state where the first setting tool 21a is inserted into the first holding part 51 and the state where the first setting tool 21b is inserted into the second holding part 52, a first predetermined time (for example, , 2 to 4 sec) to wait (SA2). After the first predetermined time has elapsed, the second setting tool 22 is arranged by arranging the second setting tool 22 so as to be close to the second detection unit 41b (SA3). Next, the state in which the first setting tool 21a is inserted into the first holding part 51, the state in which the first setting tool 21b is inserted into the second holding part 52, and the second setting tool 22 as the second detection part The state of being arranged close to 41b is continued for a second predetermined time (for example, 20 seconds) (SA4). The operation of arranging the second setting tool 22 so as to be close to the second detection unit 41b corresponds to the predetermined second operation in the claims. Subsequently, after the second predetermined time has elapsed, the first setting tool 21a is extracted from the first holding unit 51 within the third predetermined time (for example, 60 sec) after the second predetermined time has elapsed, The arrangement of the first setting tool 21 and the second setting tool 22 is released by extracting the first setting tool 21b from the second holding unit 52 and separating the second setting tool 22 from the second detection unit 41b. (SA5). The third predetermined time corresponds to the predetermined time in the claims.

(Power stop processing)
Next, the power stop process executed by the waterproof device 1 will be described in association with the power stop method of SA1 to SA5 shown in FIG. FIG. 6 is a flowchart of the power supply stop process according to the first embodiment. This process is started at a predetermined cycle while the battery 30 is installed in the waterproof casing 10 except when the first setting tool 21 is inserted into the holding unit (hereinafter, the embodiment). The same applies to the power supply stop processing according to 2).

  As shown in FIG. 6, first, the control unit 42 determines whether or not the first detection unit 41a has detected the first setting tool 21 (SB1). The specific determination method is arbitrary. For example, when the first detection unit 41a1 detects magnetism of a certain intensity or more, the control unit 42 determines that the first setting tool 21a has been detected (hereinafter referred to as “the first setting tool 21a”). The same applies to SB4, SB8, SB10, SB11, SD1, SD4, SD9, SD11, and SD13-15 described later).

  As a result, when the first setting tool 21 is arranged in SA1, the first detection unit 41a1 detects the first setting tool 21a, and the first detection unit 41a2 detects the first setting tool 21b. When it determines with having detected (SB1, Yes), the setting part 42a refers to the setting table 43a, and according to the detection result of the 1st setting tool 21 and the 2nd setting tool 22, of an electric circuit. While keeping the power ON, it is set to use the wireless CH (here, wireless CH2) set immediately before (SB2).

  Next, while the operator is waiting at SA2, the control unit 42 waits until a first predetermined time (for example, 2 to 4 sec) elapses (SB3). Here, before the first predetermined time elapses (SB3, No), the first setting unit 21a is not detected by the first detection unit 41a1, and the first setting is performed by the first detection unit 41a2. When the tool 21b is no longer detected or the second setting tool 22 is detected by the second detection unit 41b (SB10, Yes), the control unit 42 switches the power supply of the electric circuit from the ON state to the OFF state. This processing is terminated while maintaining the ON state without making any changes. Thereby, for example, when the power supply of the electric circuit is in an ON state, an operation reversible with respect to an operation for turning on the power supply such that the first setting tool 21b is inserted into the second holding unit 52, that is, By performing the operation of extracting the first setting tool 21b from the second holding unit 52, it is possible to prevent the power supply of the electric circuit from being turned on from the off state.

  On the other hand, the first detection unit 41a1 detects the first setting tool 21a, the first detection unit 41a2 detects the first setting tool 21b, and the second detection unit 41b In the state where the second setting tool 22 is not detected (SB10, No), after the first predetermined time has elapsed (SB3, Yes), the control unit 42 is configured so that the second detection unit 41b is the second one. It is determined whether or not the setting tool 22 has been detected (SB4).

  As a result, when it is determined that the second setting tool 22 has been detected by the second setting tool 22 being arranged in SA3 (SB4, Yes), the control section. 42 waits until a second predetermined time (for example, 20 sec) elapses (SB5). Here, before the second predetermined time elapses (SB5, No), the first setting unit 21a is not detected by the first detection unit 41a1, and the first setting is performed by the first detection unit 41a2. When the tool 21b is no longer detected or the second setting tool 22 is no longer detected by the second detection unit 41b (SB11, No), the control unit 42 turns off the power of the electric circuit from the ON state. This process is terminated while maintaining the ON state without setting the state.

  On the other hand, the first setting tool 21a is detected by the first detection unit 41a1 by continuing the state after the first setting tool 21 and the second setting tool 22 are arranged in SA4. In a state where the first setting tool 21b is detected by the first detection unit 41a2 and a state where the second setting tool 22 is detected by the second detection unit 41b (SB11, Yes), After the predetermined time of 2 has elapsed (SB5, Yes), the setting unit 42a refers to the setting table 43a, and according to the detection results of the first setting tool 21 and the second setting tool 22, Set the standby state until the power is turned off. (SB6). Thereby, if the second predetermined time has not passed after the second setting tool 22 is arranged, the power source of the electric circuit does not enter the standby state, so that the power source of the electric circuit is not easily turned off. can do. Further, the control unit 42 causes the display unit 60 to blink (or turn on) until a third predetermined time to be described later elapses (SB6). Thereby, it can alert | report that the power supply of an electric circuit is a standby state with respect to an operator. In addition, the step after the second setting tool 22 is arranged for the second predetermined time period to change the power supply of the electric circuit from the ON state to the standby state is the first step in the claims. It corresponds to a step.

  Next, before the third predetermined time (for example, 60 sec) elapses from the processing of SB6 (SB7, No), the control unit 42 determines whether or not the first detection unit 41a1 has detected the first setting tool 21a. Then, it is determined whether or not the first detection unit 41a2 has detected the first setting tool 21b and whether or not the second detection unit 41b has detected the second setting tool 22 (SB8).

  As a result, it is determined that the first detection unit 41a1 has detected the first setting tool 21a, and it is determined that the first detection unit 41a2 has detected the first setting tool 21b, or the second detection unit 41b. If it is determined that the second setting tool 22 has been detected (SB8, Yes) and the third predetermined time has elapsed (SB7, Yes), the control unit 42 waits for the power supply of the electric circuit. From this state, the standby state is changed to the ON state, and this process is terminated. It is determined that the first detection unit 41a1 has detected the first setting tool 21a, the first detection unit 41a2 is determined to have detected the first setting tool 21b, and the second detection unit 41b has If it is determined that the second setting tool 22 has been detected and the third predetermined time has elapsed, the control unit 42 may return to immediately before SB4 without terminating the process. In this case, the operator once separates the second setting tool 22 from the second detection unit 41b and then arranges the second setting tool 22 so as to be close to the second detection unit 41b again. , The process of SB4 is performed. Thereby, in the power supply stop method, the work amount can be reduced compared with the work amount when starting over from the beginning.

  On the other hand, before the third predetermined time has elapsed (SB7, No), the arrangement of the first setting tool 21 and the second setting tool 22 is canceled in SA5, whereby the first detection unit 41a1 is If it is determined that the first setting tool 21a is not detected, the first detection unit 41a2 is determined not to detect the first setting tool 21b, and the second detection unit 41b does not detect the second setting tool 22 When it is determined (SB8, No), the setting unit 42a refers to the setting table 43a and waits for the power supply of the electric circuit according to the detection results of the first setting tool 21 and the second setting tool 22. The state is set to the OFF state (SB9), and this process ends. As a result, if the arrangement of the first setting tool 21 and the second setting tool 22 is not released within the third predetermined time, the power supply of the electric circuit will not be turned off. It is possible not to be in the OFF state. Note that the step in which the power supply of the electric circuit is turned off from the standby state by releasing the arrangement of the first setting tool 21 and the second setting tool 22 corresponds to the second step in the claims. To do

(effect)
As described above, according to the first embodiment, when the electric circuit of the waterproof device 1 is turned on, the worker performs a reversible operation such as an operation reverse to the predetermined first operation. Even if the power of the electric circuit is not turned off, the operator performs a predetermined second operation so that the power of the electric circuit is in a standby state. In this standby state, the worker Since the power supply of this electric circuit is turned off by performing the operation opposite to the first operation and the operation opposite to the second operation, the power supply of this electric circuit is easily changed from the ON state to the OFF state. Therefore, it is possible to prevent the electric circuit from being turned off due to an erroneous operation by the operator.

  Further, in the first step, the operator continues the state after the second operation for a predetermined time, so that the power source of the electric circuit of the waterproof device 1 is in a standby state. When an operation is performed with the intention of turning off the power supply, the power supply of the electric circuit can be turned off, and it is further avoided that the power supply of the electric circuit is turned off by an operator's mistaken operation. can do.

  In addition, the first operation is an operation in which the first setting tool 21a is arranged in the first holding part 51 and the first setting tool 21b is arranged in the second holding part 52, so that the waterproof property is impaired. Therefore, the electric circuit can be set easily.

  In addition, the second operation is an operation of disposing the second setting tool 22 different from the first setting tool 21 so as to be close to the second detection unit 41b, and thus the electric circuit without impairing the waterproof property. Can be easily set. In addition, since the second operation and the first operation are different operations, it is possible to prevent the power from being turned off due to an erroneous operation by the operator.

  As described above, according to the first embodiment, when the power of the electric circuit of the waterproof device 1 is in the ON state, the power is turned on such that the operator inserts the first setting tool 21b into the second holding unit 52. Even when a reversible operation is performed with respect to the operation for performing the operation, that is, an operation of extracting the first setting tool 21b from the second holding unit 52 is performed, the power of the electric circuit is not turned off. When the operator arranges the first setting tool 21 and the second setting tool 22 based on a predetermined order and timing, the power of the electric circuit is changed from the ON state to the standby state, and in this standby state, Since the operator releases the arrangement of the first setting tool 21 and the second setting tool 22 based on a predetermined order and timing, the power of the electric circuit is changed from the standby state to the OFF state. Times Power can easily be prevented from migrating from the ON state to the OFF state, by the operator of an erroneous operation, the power supply of the electric circuit can be prevented from becoming to the OFF state.

[Embodiment 2]
Next, a second embodiment will be described. In this form, the power supply of the electric circuit is stopped using only the first setting tool 21 of the first embodiment. The configuration of the second embodiment is substantially the same as the configuration of the first embodiment unless otherwise specified, and the configuration substantially the same as the configuration of the first embodiment is the same as that used in the first embodiment. The same reference numerals and / or names are assigned as necessary, and the description thereof is omitted.

  FIG. 7 is a table illustrating the contents of the setting table 43a according to the second embodiment. As shown in FIG. 7, the information stored corresponding to the items “first setting tool A”, “first setting tool B”, and “second setting tool” is, for example, the first setting “Yes” indicating that the tool 21 or the second setting tool 22 has been detected, “No” indicating that the first setting tool 21 or the second setting tool 22 has not been detected, or the first setting “---” is stored in which the detection result of the tool 21 or the second setting tool 22 does not affect the setting contents.

  For example, when the second setting tool 22 is detected by the second detection unit 41b by arranging the second setting tool 22 so as to be close to the second detection unit 41b, The test process is executed regardless of the detection results of the first detection unit 41a1 and the first detection unit 41a2 for the other first setting tool 21a and the second setting tool 22b.

  Moreover, it is a case where the 2nd setting tool 22 is not detected by the 2nd detection part 41b, Comprising: The 1st setting tool 21a is inserted in the 1st holding | maintenance part 51, and the 1st setting tool 21b is 2nd. When the first setting unit 21a and the first setting unit 21b are detected by the first detection unit 41a1 and the first detection unit 41a2 by being inserted into the holding unit 52, the electric circuit is turned off. Set to the standby state until it enters the state. However, the power supply of such an electric circuit is set to the standby state because the operator performs a predetermined procedure of the power supply stop method of FIG. 8 to be described later, in the power supply stop process of FIG. 9 to be described later. However, it is limited to the case where the first setting tool 21 is detected in a predetermined order and timing (in the example of FIG. 9 described later, the processing of SD1 to SD7). In addition, when the detection unit 41 does not detect the first setting tool 21 in a predetermined order and timing because the operator has not followed the predetermined procedure of this method, the electric circuit is turned on. In addition to the setting, the wireless CH set immediately before is set to be used.

  Moreover, it is a case where the 2nd setting tool 22 is not detected by the 2nd detection part 41b, Comprising: The 1st setting tool 21a is not inserted in the 1st holding | maintenance part 51, but the 1st setting tool 21b. Is not inserted into the second holding unit 52, the first setting unit 21a and the first setting unit 21b are not detected by the first detection unit 41a1 and the first detection unit 41a2. Set the circuit power to OFF. However, the power supply of such an electric circuit is set to the OFF state by the operator following a predetermined procedure of the power supply stop method of FIG. 8 described later after the power supply of the electric circuit is in a standby state. In the power supply stop process of FIG. 9 described later, this is limited to the case where the detection unit 41 does not detect the first setting tool 21 in a predetermined order and timing (in the example of FIG. 9 described later, processes of SD8 to SD12). . In addition, when the detection unit 41 detects the first setting tool 21 in a predetermined order and timing because the operator has not followed the predetermined procedure of this method, the power supply of the electric circuit is set to the ON state. At the same time, the wireless CH set immediately before is set to be used.

(How to stop power)
Next, a power stop method and a power stop process of the waterproof device 1 configured as described above will be described. First, the power stop method performed by the worker will be briefly described. FIG. 8 is a flowchart of the power supply stopping method according to the second embodiment.

  As shown in FIG. 8, first, after the first setting tool 21 b is extracted from the second holding part 52, the first setting tool 21 a is inserted into the first holding part 51, whereby the first setting tool 21 a is inserted. (SC1). Next, while maintaining the state in which the first setting tool 21 is inserted into the first holding unit 51, it waits for a first predetermined time (for example, 2 to 4 seconds) (SC2). After the first predetermined time has elapsed, the first setting tool 21b is arranged by inserting the first setting tool 21b extracted from the second holding part 52 into the second holding part 52 again (SC3). Next, the state where the first setting tool 21a is inserted into the first holding part 51 and the state where the first setting tool 21b is inserted into the second holding part 52 are continued for a second predetermined time (for example, 20 seconds) ( SC4). Subsequently, by removing the first setting tool 21b from the second holding part 52 within a third predetermined time (for example, 60 seconds) after the second predetermined time has elapsed, the first setting tool 21b The arrangement is canceled (SC5). Then, while maintaining the state where the first setting tool 21 is inserted into the first holding unit 51, the process waits until a fourth predetermined time (for example, 2 to 4 seconds) elapses (SC6). Then, after the fourth predetermined time has elapsed and within the third predetermined time after the second predetermined time has elapsed, the first setting tool 21a is removed from the first holding portion 51, thereby The setting tool 21a is released (SC7).

(Power stop processing)
Next, the power stop process executed by the waterproof device 1 will be described in association with the power stop method of SC1 to SC7 shown in FIG. FIG. 9 is a flowchart of power supply stop processing according to the second embodiment. FIG. 10 is a flowchart of the power stop process according to the second embodiment following FIG.

  As shown in FIGS. 9 and 10, first, the control unit 42 determines whether or not the first detection unit 41a1 has detected the first setting tool 21a (SD1). As a result, when it is determined that the first detection tool 41a1 has detected the first setting tool 21a by arranging the first setting tool 21a in SC1 (SD1, Yes), the setting part. 42a refers to the setting table 43a, and according to the detection results of the first setting tool 21 and the second setting tool 22, maintains the setting of the ON state of the power supply of the electric circuit and the setting to use the wireless CH1 (SD2).

  Next, while the operator is waiting at SC2, the control unit 42 waits until a first predetermined time (for example, 2 to 4 sec) elapses (SD3). Here, before the first predetermined time has elapsed (SD3, No), the first setting unit 21a is not detected by the first detection unit 41a1, and the first setting is performed by the first detection unit 41a2. When the tool 21b is detected or the second setting tool 22 is detected by the second detector 41b (SD13, Yes), the control unit 42 changes the power supply of the electric circuit from the ON state to the OFF state. Without this, the process is terminated while maintaining the ON state.

  On the other hand, the state where the first setting tool 21a is detected by the first detection unit 41a1, the state where the first setting tool 21b is not detected by the first detection unit 41a2, and the second detection unit 41b. In the state where the second setting tool 22 is not detected at (SD13, No), after the first predetermined time has elapsed (SD3, Yes), the control unit 42 is connected to the first detection unit 41a2. It is determined whether or not one setting tool 21b is detected (SD4).

  As a result, when the first setting tool 21b is arranged in SC3 and it is determined that the first detection unit 41a2 has detected the first setting tool 21b (SD4, Yes), the setting unit 42a refers to the setting table 43a, maintains the power of the electric circuit in the ON state according to the detection results of the first setting tool 21 and the second setting tool 22, and the wireless CH set immediately before (Here, wireless CH1) is set to be used (SD5).

  Next, the control unit 42 stands by until a second predetermined time (for example, 20 sec) elapses (SD6). Here, before the second predetermined time elapses (No in SD6), the first setting unit 21a is not detected by the first detection unit 41a1, and the first setting is performed by the first detection unit 41a2. When the tool 21b is no longer detected or the second setting tool 22 is detected by the second detection unit 41b (SD14, Yes), the control unit 42 switches the power supply of the electric circuit from the ON state to the OFF state. This processing is terminated while maintaining the ON state without making any changes.

  On the other hand, by continuing the state after the first setting tool 21 and the second setting tool 22 are arranged in SC4, the first setting tool 21a is detected by the first detection unit 41a1. In a state where the first detector 21b is detected by the first detector 41a2 and when the second detector 22b is not detected by the second detector 41b (No in SD14), the second After the predetermined time elapses (SD6, Yes), the setting unit 42a refers to the setting table 43a and determines the power supply of the electric circuit according to the detection results of the first setting tool 21 and the second setting tool 22. Is set to a standby state from the ON state to the OFF state (SD7). Further, the control unit 42 causes the display unit 60 to blink (or turn on) until a third predetermined time to be described later elapses (SD7).

  Next, before the third predetermined time (for example, 60 sec) has elapsed from the processing of SD7 (SD8, No), the control unit 42 determines whether or not the first detection unit 41a2 has detected the first setting tool 21b. Is determined (SD9).

  As a result, when it is determined that the first detection unit 41a2 has detected the first setting tool 21b (SD9, Yes) and the third predetermined time has elapsed (SD8, Yes), the control unit 42 Does not change the power supply of the electric circuit from the standby state to the OFF state, but from the standby state to the ON state, and ends this processing.

  On the other hand, before the third predetermined time elapses (SD8, No), the first detection unit 41a2 detects the first setting tool 21b by releasing the arrangement of the first setting tool 21b in SC5. When it determines with not (SD9, No), the control part 42 maintains the power supply of an electric circuit in a standby state. Thereafter, while the operator is waiting at SC6, the control unit 42 waits until a fourth predetermined time (for example, 2 to 4 sec) elapses (SD10). Here, before the fourth predetermined time has elapsed (SD10, No), the first setting unit 21a is not detected by the first detection unit 41a1, and the first setting is performed by the first detection unit 41a2. When the tool 21b is detected or the second setting tool 22 is detected by the second detector 41b (SD15, Yes), the control unit 42 changes the power supply of the electric circuit from the standby state to the OFF state. Without this, the standby state is turned ON, and this process is terminated.

  On the other hand, in a state where the first setting tool 21a is detected by the first detection unit 41a1, in a state where the first setting tool 21b is not detected by the first detection unit 41a2, and in the second detection unit 41b In a state in which the second setting tool 22 is not detected (SD15, No), after the fourth predetermined time has elapsed (SD10, Yes), the control unit 42 uses the first setting tool 21a as the first setting tool 21a. Is detected (SD11).

  As a result, when it is determined that the first detection unit 41a1 has detected the first setting tool 21a (SD11, Yes), the control unit 42 returns to immediately before SD8. On the other hand, when it is determined in SC7 that the first detection unit 41a1 does not detect the first setting tool 21a by releasing the arrangement of the first setting tool 21a (SD11, No), the setting is performed. The unit 42a refers to the setting table 43a and sets the power supply of the electric circuit from the standby state to the OFF state in accordance with the detection results of the first setting tool 21 and the second setting tool 22 (SD12), and this processing Exit.

(effect)
As described above, according to the second embodiment, when the power supply of the electric circuit of the waterproof device 1 is in the ON state, the operator places the first setting tool 21a and the first setting tool 21b in a predetermined order and timing. By arranging based on this, the power supply of this electric circuit becomes in a standby state, and in this standby state, the operator arranges the first setting tool 21a and the first setting tool 21b based on a predetermined order and timing. Since the power supply of this electric circuit is turned off by releasing the power supply, even if the predetermined second operation shown in the first embodiment is omitted, the power supply of this electric circuit is easily changed from the ON state to the OFF state. Therefore, it is possible to prevent the electric circuit from being turned off due to an erroneous operation by the operator.

[Modifications to Embodiments]
Although the embodiments of the present invention have been described above, the specific configuration and means of the present invention are arbitrarily modified and improved within the scope of the technical idea of each invention described in the claims. be able to. Hereinafter, such a modification will be described.

(About problems to be solved and effects of the invention)
First, the problems to be solved by the invention and the effects of the invention are not limited to the above-described contents, and the present invention solves the problems not described above or has the effects not described above. There are also cases where only some of the described problems are solved or only some of the described effects are achieved.

(About distribution and integration)
Further, each of the electrical components described above is functionally conceptual and does not necessarily need to be physically configured as illustrated. That is, the specific form of distribution or integration of each part is not limited to the one shown in the figure, and all or a part thereof is functionally or physically distributed or integrated in arbitrary units according to various loads or usage conditions. Can be configured.

(About the first setting tool and the first detector)
In each of the above-described embodiments, the case where a magnet is used as the first setting tool 21 and a magnetic detection element such as a Hall element is used as the first detection unit 41a has been described as an example, but other means are used. May be. For example, a non-translucent material may be used as the first setting tool 21. In this case, a translucent holding unit 50 is formed in the waterproof housing 10, and the light projecting unit and the light receiving unit are arranged as the first detection unit 41 a so as to narrow the holding unit 50 inside the waterproof housing 10. . When the holding unit 50 holds the first setting tool 21, the light detection unit cannot receive the light projected from the light projecting unit, so that the first detection unit 41 a holds the first setting tool 21. Can be detected.

  Alternatively, a conductor such as a metal may be used as the first setting tool 21 and a capacitance sensor may be used as the first detection unit 41a. In this case, a capacitance sensor is arranged in the vicinity of the holding unit 50 inside the waterproof housing 10. The first detection unit 41a may detect the first setting tool 21 based on a change in capacitance detected by the capacitance sensor when the first setting tool 21 is inserted into the holding unit 50. it can.

(Regarding the first operation and the second operation)
In the above-described embodiment, the first operation is an operation of arranging the first setting tool 21a in the first holding unit 51 and arranging the first setting tool 21b in the second holding unit 52. The second operation has been described as the operation of arranging the second setting tool 22 different from the first setting tool 21 so as to be close to the second detection unit 41b, but is not limited thereto. For example, the first operation may be an operation of vibrating the waterproof device 1 in the vertical direction a predetermined number of times, and the second operation may be an operation of vibrating the waterproof device 1 in the horizontal direction a predetermined number of times. In this case, a known vibration sensor unit for detecting the first setting tool 21 and the second setting tool 22 is arranged inside the waterproof housing 10.

(How to stop the power)
In the first embodiment described above, in SA1, it has been described that the first setting tool 21 is disposed by simply inserting the first setting tool 21a and the first setting tool 21b into the holding unit 50. However, the present invention is not limited thereto. Instead, the order and timing of arranging the first setting tool 21 may be changed. For example, the first setting tool 21b is inserted into the second holding part 52 after a predetermined time has elapsed after the first setting tool 21a is inserted into the first holding part 51, thereby arranging the first setting tool 21. May be. Similarly, in SA5, the first setting tool 21a is simply extracted from the first holding unit 51, the first setting tool 21b is extracted from the second holding unit 52, and the second setting is performed within the third predetermined time. It has been described that the arrangement of the first setting tool 21a, the first setting tool 21b, and the second setting tool 22 is released by separating the setting tool 22 from the second detection unit 41b. After a predetermined time has elapsed since the setting tool 22 is separated from the second detection unit 41b, the first setting tool 21a is extracted from the first holding unit 51, and the first setting tool 21b is removed from the second holding unit. The arrangement of the first setting tool 21 a, the first setting tool 21 b, and the second setting tool 22 may be canceled by extracting from 52.

  In the second embodiment, the first setting tool 21a is arranged after the first setting tool 21a is arranged in SC1 and SC3. However, the present invention is not limited to this, and the first setting tool 21a and the first setting tool 21a are arranged. You may change the order and timing which arrange | position the 1st setting tool 21b. For example, the first setting A may be arranged after the first setting tool 21b is arranged. Similarly, in SC5 and SC7, it has been described that the arrangement of the first setting tool 21b is released and then the arrangement of the first setting tool A is released. For example, the arrangement of the first setting tool 21a is released. After that, the arrangement of the first setting B may be canceled.

(About power shutdown processing)
In the first embodiment described above, in SB7 and SB8, it is determined that the first detection unit 41a1 has detected the first setting tool 21a, and the first detection unit 41a2 has detected the first setting tool 21b. When the third predetermined time elapses after the determination or the second detection unit 41b continues to determine that the second detection unit 41b has detected the control unit 22b, the control unit is turned on. Although it has been described that the electric circuit is controlled by 42, the present invention is not limited to this. For example, the first detection unit 21a, the first setting unit 21b, and the second setting unit 22 are not released, and a disturbance magnetic field is generated by electrical wiring, illumination, or the like, so that the first detection unit The first setting tool 21a is not detected at 41a1, the first setting tool 21b is not detected at the first detection unit 41a2, and the second setting tool 22 is detected at the second detection unit 41b. In the case where the power supply of the electric circuit is not changed, the electric circuit may be controlled by the control unit 42 so that the power supply of the electric circuit does not change from the standby state to the OFF state but changes from the standby state to the ON state. In this case, a known sensor unit for detecting the presence / absence of the first setting tool 21 and the second setting tool 22 by a method other than magnetism (for example, light) is provided inside the waterproof housing 10. It arrange | positions in the vicinity of the 1st detection part 41a or the 2nd detection part 41b, respectively.

DESCRIPTION OF SYMBOLS 1 Waterproof type apparatus 10 Waterproof housing | casing 10a 1st case 10b 2nd case 10c Groove part 10d O-ring 11 Back cover 21 1st setting tool 21a 1st setting tool A
21b First setting tool B
22 second setting tool 30 battery 40 circuit board 41 detection unit 41a first detection unit 41a1 first detection unit A
41a2 1st detection part B
41b 2nd detection part 42 Control part 42a Setting part 43 Storage part 43a Setting table 50 Holding part 51 1st holding part 52 2nd holding part 53 Screw 60 Display part

Claims (6)

A waterproof device comprising an electric circuit inside a waterproof housing, wherein the waterproof device is switched from an OFF state to an ON state by performing a predetermined first operation. In the power shutdown method of
By performing a predetermined second operation different from the first operation without performing an operation opposite to the first operation when the power supply of the waterproof device is in an ON state, the waterproof device A first step of setting the power supply of the device to a standby state until the power is turned off;
A second step of turning off the power of the waterproof device by performing an operation opposite to the first operation and an operation opposite to the second operation in the standby state;
To stop the power supply of waterproof type equipment. In the first step, by continuing the state after the second operation for a predetermined time, the waterproof device is put into a standby state until the power is turned off.
The method for stopping power supply of the waterproof device according to claim 1. A holding portion for holding a first setting tool for setting the electric circuit is formed on the outer surface side of the waterproof casing,
The first operation is an operation of arranging the first setting tool in the holding unit.
The method for stopping the power supply of the waterproof device according to claim 1 or 2. The second operation is an operation of arranging a second setting tool different from the first setting tool so as to be close to a predetermined position of the waterproof housing.
The method for stopping the power supply of the waterproof device according to any one of claims 1 to 3. A waterproof device configured to include an electric circuit inside the waterproof casing, wherein a first setting tool for setting the electric circuit is provided on a holding portion formed on an outer surface side of the waterproof casing. In the method of stopping the power supply of the waterproof device in which the power supply of the waterproof device is turned from the OFF state to the ON state by being arranged,
When the power supply of the waterproof device is in an ON state, a second setting tool different from the first setting tool is removed from the holding unit without removing the first setting tool from the holding portion. A first step of placing the waterproof device in a standby state until the power is turned off by continuing the state of being placed close to the position for a predetermined time;
In the standby state, the power supply of the waterproof device is turned off by removing the first setting tool from the holding unit and separating the second setting tool from a predetermined position of the waterproof housing. A second step of:
To stop the power supply of waterproof type equipment. A waterproof device comprising an electric circuit inside a waterproof housing, wherein the waterproof device is switched from an OFF state to an ON state by performing a predetermined first operation. In
When the waterproof device is in the ON state, when the predetermined second operation is performed without performing the operation opposite to the first operation, the waterproof device is in the OFF state. And wait until
In the standby state, when an operation opposite to the first operation and an operation opposite to the second operation are performed, a control unit that turns off the power of the waterproof device,
Waterproof equipment.

Images