JP4303519B2 - Automatic power on / off control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an automatic power on / off control device that is interposed between a power source and a load and automatically turns on / off the power to / from the load.
[0002]
[Prior art]
FIG. 6 shows a configuration diagram of a conventional external light, and FIG. 7 shows a circuit diagram of the external light. In FIG. 6 and FIG. 7, the outside light 2PA is a street light or a road light, and a pole 20 standing on the ground, a light source 21 (load) such as a discharge lamp attached to the upper end, And a ballast 22 and an automatic flasher 23 electrically connected to the light source 21 via the internal electric wire C3, and a cutout switch 24 electrically connected to the automatic flasher 23 via the internal electric wire C4. It is comprised by. In addition, the black circle of FIG. 7 shows a connection location.
[0003]
In the above configuration, the automatic flasher 23 senses that the surroundings are bright, turns off the light source 21 to turn off the light source 21 to save power, senses that the surroundings are dark, and turns on the lighting source. The light source 21 is turned on.
[0004]
According to the external light 2PA having such a configuration, when the surroundings become dark due to daylight, the automatic blinker 23 starts to supply power to the light source 21, and when the surroundings become bright due to sunlight, the automatic blinker 23 Thus, power supply to the light source 21 can be stopped.
[0005]
In addition, Patent Document 1 describes a power supply device similar to the above-mentioned outdoor lamp. This power supply device includes a breaker, an automatic flasher, a test switch, and a relay. A power source is connected to the primary side of the breaker, and a load is connected to the secondary side via a relay. Is characterized in that it is wired so as to control the relay by opening or closing one of the circuits.
[0006]
Further, Patent Document 2 is a cylindrical pole that has an upper vent and a lower vent and communicates between them, and has a means for convection of air between the upper vent and the lower vent. Paul is disclosed.
[0007]
In addition to the basic time switch function, Patent Document 3 and the like incorporate the data so that the annual sunrise time and sunset time can be used, so that the sunrise time and sunset time can be set. A solar time switch is described in which the load on time and off time can be determined based on the reference.
[0008]
[Patent Document 1]
JP 2002-170691 A
[Patent Document 2]
JP 2001-349095 A
[Patent Document 3]
JP-A-9-269386
[0009]
[Problems to be solved by the invention]
However, since the conventional external light shown in FIGS. 6 and 7 uses an automatic flasher that needs to receive ambient light, the wires reciprocate in the axial direction within the pole, and the wiring becomes complicated. In order not to be affected by the lighting, a mounting hole must be drilled at a high place outside the pole, and an automatic flasher must be installed. It was.
[0010]
Further, in the configuration in which the automatic flasher is installed outside the pole, there is a problem that the replacement period of the automatic flasher is accelerated because the characteristic deterioration of the light receiving unit is accelerated due to salt damage in the surrounding environment, for example, near the coast.
[0011]
Moreover, in the conventional structure using an automatic flasher and a cutout switch for an external lamp having a discharge lamp and a ballast, there is a problem that the wiring work is troublesome because there are many wiring connection points.
[0012]
The present invention has been made in view of the above circumstances, is easy to wire, can be installed anywhere, can be easily installed, can protect the breaker and solar time switch from the surrounding environment, An object of the present invention is to provide an automatic power on / off control device that facilitates work.
[0013]
[Means for Solving the Problems]
The automatic power on / off control device according to the first aspect of the present invention for solving the above-mentioned problems has a primary power input terminal and a secondary power output terminal, and these primary power input terminal and secondary side A breaker that disconnects the primary power input terminal and the secondary power output terminal so that they can be reset when the current value flowing between the power output terminals exceeds a predetermined value or during a shut-off operation, and a time-limit power input section A time-side power output unit, a time measuring means for measuring the current time, and a calendar means for outputting a predetermined time in the morning and a predetermined time determined every day depending on the position of the sun throughout the year, the current time obtained from the time measuring means A solar time switch that opens and closes between the time-side power input unit and the time-side power output unit based on the time and a predetermined time obtained from the calendar means, and has at least one opening. That the case body and the opening is formed by openably closed to the lid, at least one of Moisture-proof bushing The end of the input electric wire from the power source and the output electric wire to the load are drawn into the inside so as to be sealed, and the end of the input electric wire is electrically connected to the primary power input terminal. The solar time in a state in which the breaker is housed inside and the end of the secondary power output terminal and the output wire are electrically connected to the time-side power input unit and the time-side power output unit, respectively. With a moisture-proof case that houses the switch inside The solar time switch is arranged on one end side in the longitudinal direction of the case body with the time-side power input section and the time-side power output section facing the other end side of the case body, and the breaker is A secondary power output terminal is disposed in a direction facing the timed power input portion of the solar time switch, and the primary power input terminal is disposed at the other end in the longitudinal direction of the case body. Is facing the moisture-proof bushing It is characterized by that.
[0014]
According to a second aspect of the present invention, in the automatic power on / off control device according to the first aspect, the solar time switch may have another predetermined time instead of at least one of the predetermined time in the morning and the predetermined time in the evening. It has the setting means to set, It is characterized by the above-mentioned.
[0015]
According to a third aspect of the present invention, in the automatic power on / off control device according to the first or second aspect, the solar time switch is forced between the time-side power input unit and the time-side power output unit according to an operation. Forcibly opening and closing means.
[0016]
According to a fourth aspect of the present invention, in the automatic power on / off control device according to any one of the first to third aspects, the lid is made of resin and is transparent.
[0017]
According to a fifth aspect of the present invention, in the automatic power on / off control device according to any one of the first to fourth aspects, a lower case constituting an outer shell of the solar time switch is integrally formed in the case body. It is characterized by being.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a configuration diagram of an automatic power on / off control device according to an embodiment of the present invention, FIG. 2 is a configuration diagram of an external light in which the automatic power on / off control device is used, and FIG. FIG. 4 is a diagram showing a state in which the automatic power on / off control device is stored in the outdoor light, and FIG. 5 is a circuit diagram of the external light in which the automatic power on / off control device is stored.
[0019]
The exterior light 2 shown in FIG. 2 is a street light, a street light, etc., the pole 20, the light source 21 (load) such as a discharge lamp attached to the upper end, and the interior of the pole 20 through the internal electric wire C3. The ballast 22 is electrically connected to the light source 21, and the automatic power on / off control device 1 of this embodiment is housed in the pole 20.
[0020]
As shown in FIGS. 3 and 4, the pole 20 has a rectangular opening 20 a extending in the vertical direction at a position near the ground where the work can be performed on the ground. The control device 1 is stored and installed. In the example of FIG. 4, the automatic power on / off control device 1 is screwed to the mounting plate 201 provided in the pole 20 with two upper and lower screws S <b> 1. The opening 20a is closed by screwing a larger rectangular lid 200 onto the pole 20.
[0021]
The automatic power on / off control device 1 is interposed between a commercial power source (not shown) and the light source 21, and automatically turns on / off the power source 21, as shown in FIGS. In addition, the following moisture-proof case, breaker 13 and solar time switch 14 are provided.
[0022]
The moisture-proof case is composed of a case body 10, a lid 11, a pair of moisture-proof bushings 12, 12, and a moisture-proof packing 11b, and houses the breaker 13 and the solar time switch 14 in an airtight state. is there. Details of the case body 10 and the lid body 11 will be described later.
[0023]
The breaker 13 is a so-called no-fuse breaker similar to the conventional one. That is, it has a pair of primary power supply input terminals 131 and 131 and a pair of secondary power supply output terminals 132 and 132, and a current value flowing between the input terminals 131 and 131 and the output terminals 132 and 132 is a predetermined value. The input terminal 131, 131 and the output terminal 132, 132 are configured to be disconnected by the operation unit 130 so that the return operation can be freely performed.
[0024]
The solar time switch 14 is similar to the solar time switch disclosed in Patent Document 3 and the like, and in addition to the basic time switch function, the data can be used so that the annual sunrise time and sunset time can be used. By incorporating it, the load on time and off time can be determined based on the sunrise time and the sunset time.
[0025]
More specifically, the upper case 141 having an opening at the rear and the lower case 142 integrally formed on the inner surface of the bottom 100 of the case body 10 and having the opening at the front are fixed to each other by a pair of screws S14 and S14. Thus, the outline of the solar time switch 14 is configured.
[0026]
A pair of power input terminals 143 and 143 and a pair of power output terminals 144 and 144 are disposed on the lower surface of the outer shell, and an operation unit 145 including a plurality of buttons and the like is disposed above the power input terminals 143 and 143. A portion 146 is disposed. In the example of FIG. 1, the pair of power input terminals 143 and 143 and the pair of power output terminals 144 and 144 are terminals composed of screws with flat washers and terminal plates with screw holes. However, the time-side power input unit and the time-side power output unit of the present invention are not limited to such terminals, and may be lead wires, for example.
[0027]
A microcomputer, a memory, a timer, various circuit units, and the like constituting various functional units are housed inside the outer shell. In the example of FIG. 1B, the substrate P1 on which the operation unit 145 and the display unit 146 are mounted is screwed to the inner surface of the bottom of the upper case 141, and the power input terminals 143 and 143, the power output terminal 144, 144, a microcomputer, a memory, a timer, various circuit units and the like are mounted, and the board P2 electrically connected to the board P1 has an opening edge of the upper case 141 so that the component side is housed in the upper case 141 It is mounted on the side. That is, parts other than the lower case 142 constituting the solar time switch 14 are provided in the upper case 141, and the parts are placed on the lower case 142 and screwed with the screws S14 and S14. Thus, the assembly of the moisture proof case to the case body 10 is completed.
[0028]
And as said various function parts, the time part which time-measures the present time, the calendar part which outputs the predetermined time of the morning determined every day by the position of the sun through the year and the predetermined time of the evening, and the present time obtained from the time part On the basis of a predetermined time obtained from the calendar unit, an open / close unit that opens and closes between the power input terminals 143 and 143 and the power output terminals 144 and 144 is provided. Thereby, for example, when the current time obtained from the timekeeping unit becomes a predetermined time in the evening obtained from the calendar unit, the space between the power input terminals 143 and 143 and the power output terminals 144 and 144 is closed. On the other hand, when the current time obtained from the time measuring unit becomes a predetermined morning time obtained from the calendar unit, the power input terminals 143 and 143 and the power output terminals 144 and 144 are opened.
[0029]
In addition, as various function units, a setting unit that sets another predetermined time instead of at least one of the predetermined time in the morning and the predetermined time in the evening in accordance with an operation input to the operation unit 145 is provided. Thus, for example, if a predetermined time at night or midnight is set instead of a predetermined time in the morning, and the current time obtained from the time measuring unit becomes the predetermined time at night or midnight, the power input terminals 143 and 143 and The space between the power output terminals 144 and 144 is opened.
[0030]
Further, as various functional units, a forcible opening / closing unit that forcibly opens and closes between the power input terminals 143 and 143 and the power output terminals 144 and 144 according to an operation input to the operation unit 145 is provided. Thus, if the operation unit 145 is opened / closed, the power input terminals 143 and 143 and the power output terminals 144 and 144 can be forcibly opened and closed.
[0031]
The case main body 10 and the lid body 11 will be described in detail. The case main body 10 is made of, for example, resin, and the upper portion 101, the lower portion 102, the left portion 103, and the right portion 104 are respectively extended forward from the bottom portion 100. It is formed in a box shape having a vertically long rectangular opening 10a on the front side. The number of openings is not limited to one. For example, a structure having a partition in the center and two openings in the front may be used.
[0032]
Flange portions 100a and 100b are extended from the upper and lower ends to the bottom portion 100 in the vertical direction. The flange portion 100a is provided with a harpoon-shaped hole 100c that is inserted through the head portion of the screw S1 and can be hooked to the head portion through the foot portion. On the other hand, the flange portion 100b is formed with a slit 100d for inserting the foot portion of the screw S1. Thereby, the case main body 10 is temporarily fixed to the mounting plate 201 by the screw S1 for the hole 100c, and is screwed to the mounting plate 201 by the screw S1 for each of the hole 100c and the slit 100d.
[0033]
A pair of holes 102a and 102a are formed in the lower portion 102, and an input electric wire C1 from a commercial power source and a light source 21 are sealed from the holes 102a and 102a with a pair of moisture-proof bushings 12 and 12, respectively. Each end part with the output electric wire C2 is drawn into the moisture-proof case. The input electric wire C1 includes a pair of electric wires C11 and C11 made of a conductor wire and an insulating coating covering the conductor wire, and a sheath C10 that further covers them. The output electric wire C2 is also composed of a pair of electric wires C21 and C21 made of a conductor wire and an insulating coating covering the conductor wire, and a sheath C20 further covering them.
[0034]
The input electric wire C1 and the output electric wire C2 may be electric wires wired from the commercial power source and the light source 21, respectively, but in the present embodiment, they are electric wires cut in advance to a predetermined length, as shown in FIG. The electric wire C1 is connected to the electric wire from the commercial power source, and the output electric wire C2 is connected to the electric wire from the light source 21 and the ballast 22. In addition, the pair of moisture-proof bushings 12 and 12 are configured to seal the pair of holes 102a and 102a separately. However, the pair of moisture-proof bushings 12 and 12 are integrated, and the pair of holes 102a and 102a are integrated into one. The structure may be a hole.
[0035]
On the left side portion 103, a pair of screwing portions 103a and 103a are provided on the left and right sides so as to protrude leftward. On the other hand, the right side portion 104 is provided with a pair of bearing portions 104a and 104a on the upper and lower sides.
[0036]
The lid 11 is made of, for example, a transparent resin, has an opening 11a on the rear side, and is formed in a box shape that closes the opening 10a of the case body 10. A pair of protrusions 113a and 113a are provided on the left side portion 113 of the lid 11 at positions corresponding to the pair of screwing portions 103a and 103a in the left side portion 103 of the case body 10, respectively. Is provided with an insertion hole for inserting the foot of the screw S2. On the other hand, on the right side portion 114 of the lid body 11, a pair of shaft portions 114 a, which are pivotally supported so that the opening 10 a of the case body 10 can be opened and closed by a pair of bearing portions 104 a and 104 a in the right side portion 104 of the case body 10. 114a is provided. In short, the pair of bearings 104a and 104a and the pair of shafts 114a and 114a constitute a pair of hinges. In addition, a groove is provided around the edge of the opening 11a of the lid body 11, and a moisture-proof packing 11b is embedded in the groove.
[0037]
Accordingly, the edge of the opening 11a of the lid 11 that is pivotally supported by the pair of bearing portions 104a and 104a of the case body 10 is aligned with the edge of the opening 10a of the case body, and the opening 10a is closed by the lid 11. In this state, if the foot portion of the screw S2 is inserted into the insertion hole formed in each protrusion 113a of the lid body 11 and screwed into the corresponding screwing portion 103a, the lid body 11 becomes the case body 10. It is fixed with the inside sealed. A protrusion that bites into the moisture-proof packing 11b is provided around the edge of the opening 10a of the case body 10 to further enhance the moisture-proof effect (see FIG. 1C).
[0038]
In the moisture-proof case having the above configuration, the breaker 13 is housed in a state where the end of the input wire C1 is electrically connected to the input terminals 131 and 131, and a pair of wires L1 from the output terminals 132 and 132 is stored. , L1 and the end of the output electric wire C2 are housed in a state in which the solar time switch 14 is housed in a state in which the ends are electrically connected to the power input terminals 143 and 143 and the power output terminals 144 and 144, respectively.
[0039]
Next, an example of an assembly procedure of the automatic power on / off control device 1 having the above configuration will be described. First, the breaker 13 is screwed to a predetermined position in the case body 10 using a pair of screws S13 and S13, and the upper case 141 provided with components other than the lower case 142 that constitutes the solar time switch 14 is provided. The lower case 142 formed integrally with the case body 10 is screwed using a pair of screws S14 and S14.
[0040]
Thereafter, both end portions of the input electric wire C1 and the output electric wire C2 are inserted into the case main body 10 from the holes 102a and 102a of the case main body 10, respectively, and between the holes 102a and 102a and the input electric wires C1 and the output electric wires C2. The moisture-proof bushings 12, 12 are inserted into the gaps, respectively, and the gaps are sealed.
[0041]
Thereafter, the conductor wires of both wires C11 at the end of the input wire C1 are electrically connected to the input terminals 131 and 131 of the breaker 13, respectively, and the conductor wires of both wires C21 at the end of the output wire C2 are The solar time switch 14 is electrically connected to the power output terminals 144 and 144, respectively. Moreover, the output terminals 132 and 132 of the breaker 13 and the power input terminals 143 and 143 of the solar time switch 14 are electrically connected using a pair of electric wires L1 and L1, respectively.
[0042]
Thereafter, the lid 11 is pivotally supported on the bearing portions 104a and 104a of the case body 10, the edge of the opening 11a of the lid 11 is aligned with the edge of the opening 10a of the case body, and the opening 10a is made to the lid 11. It is blocked by. In this state, the foot portion of the screw S2 is inserted into the insertion hole formed in each protrusion 113a of the lid body 11, and is screwed to the corresponding screwing portion 103a.
[0043]
As a result, the lid 11 is fixed to the case main body 10 in a sealed state, and the assembly of the automatic power on / off control device 1 is completed.
[0044]
In addition, you may replace the back and front of each said procedure suitably. Further, the lid 11 is screwed to the case body 10 using the screws S2 and S2 after the automatic power on / off control device 1 is screwed to the mounting plate 201 in the pole 20 by the mounting procedure described later. But you can. Further, the lid body 11 may also be pivotally supported by the bearing portions 104a and 104a of the case body 10 after the case body 10 is screwed to the mounting plate 201 in the pole 20 by an attachment procedure described later.
[0045]
Next, an example of a procedure for attaching the automatic power on / off control device 1 to the outside lamp 2 will be described. First, the screw S1 is temporarily attached to a predetermined position of the mounting plate 201. Thereafter, the automatic power on / off control device 1 is temporarily fixed to the mounting plate 201 through the hole 100c of the case body 10 through the screw S1 temporarily screwed to the mounting plate 201. Then, the screw S1 is further screwed, and another screw S1 is inserted into the slit 100d of the case body 10 and screwed to the mounting plate 201. As a result, the automatic power on / off control device 1 is screwed to the mounting plate 201.
[0046]
Thereafter, the input wire C1 is connected to a wire from a commercial power source, and the output wire C2 is connected to the light source 21 and the wire to the ballast 22. Thereby, the installation of the automatic power on / off control device 1 in the outside lamp 2 is completed.
[0047]
As described above, according to the present embodiment, compared to a conventional external light using an automatic flasher that needs to receive ambient light, the automatic flasher does not cause the electric wire to reciprocate in the axial direction within the pole. 2, since only the electric wire to the light source 21 is required, wiring within the pole is facilitated, and the breaker 13 and the solar time switch 14 are accommodated in the moisture-proof case, and the holes of the moisture-proof case are accommodated. By installing the ends of the input electric wire C1 and the output electric wire C2 into the moisture-proof case so that they are sealed with the moisture-proof bushings 12, 12, the moisture-proof case can be installed in the highly humid pole 20. The moisture-proof case can be installed anywhere on the pole 20 regardless of the installation location, and the installation work can be simplified by appropriately selecting the installation location. Even if they are located near the coast, it is possible to protect the circuit breaker 13 and the solar time switch 14 and the like salt damage by the surrounding environment.
[0048]
Moreover, compared with the conventional structure (refer FIG. 7) which uses the automatic blinker 23 and the cutout switch 24 with respect to the external light which has the light source 21 and the ballast 22, as shown in FIG. 5, the input electric wire C1 and the output electric wire C2 Since the number of connection points is reduced from 14 to 9, the connection work can be facilitated.
[0049]
Further, the input / output (supply) path of the power source (electric power) between the commercial power source and the light source 21 is based on the current time obtained from the time measuring unit and the predetermined time obtained from the calendar unit at the solar time switch 14. Since it is opened and closed, for example, power supply to the light source 21 can be started at the sunset time, and power supply to the light source 21 can be stopped at the sunrise time.
[0050]
Further, the power supply to the solar time switch 14 can be stopped by shutting off the breaker 13, so that work such as repair of the solar time switch 14 and the load side is facilitated.
[0051]
Further, since the solar time switch 14 has a setting unit for setting another predetermined time instead of at least one of the predetermined time in the morning and the predetermined time in the evening, for example, power supply to the light source 21 is performed at the sunset time. The power supply to the light source 21 can be stopped at night or at midnight instead of the sunrise time. As a result, the power consumption of the outdoor light can be reduced.
[0052]
Further, since the solar time switch 14 has a forcible opening / closing portion that forcibly opens and closes between the power input terminals 143 and 143 and the power output terminals 144 and 144 according to an operation, the time zone installed in the outside light 2 is daytime. In the case of the conventional outside light using the automatic flasher 23, it is confirmed whether the light source 21 is turned on by covering the light receiving portion of the automatic flasher 23 and blocking sunlight, or as shown in FIG. In addition, it is necessary to check whether or not the light source 21 is lit by separately providing a test switch 25 for test lighting and operating this, whereas according to the present embodiment, the light source 21 It can be easily confirmed whether 21 lights up.
[0053]
Further, since the lid 11 is transparent, the inside of the moisture-proof case can be confirmed even when the opening 10a of the case body 10 is closed by the lid 11, so that the breaker 13 can be used during construction or inspection. And the state of the solar time switch 14 can be quickly confirmed.
[0054]
Further, since the lower case 142 constituting the outline of the solar time switch 14 is integrally formed in the case body 10, there is no need to separately prepare a lower case for the outline of the solar time switch 14. Can be reduced. In addition, since the depth dimension of the moisture-proof case can be reduced, the moisture-proof case can be stored in a narrower pole.
[0055]
In the present embodiment, the pair of holes 102a and 102a are formed in the case main body 10, but the present invention is not limited to this, and a pair of cutout grooves may be formed in the case main body 10. The pair of holes or the pair of cutout grooves may be formed in the lid 11, but the structure formed in the case main body 10 is more desirable.
[0056]
【The invention's effect】
As is apparent from the above, the invention according to claim 1 has a primary side power input terminal and a secondary side power output terminal, and between these primary side power input terminal and secondary side power output terminal. Breaker that cuts between the primary power input terminal and secondary power output terminal so that the return operation can be freely performed when the current value exceeds the specified value or during shut-off operation, time-side power input section, and time-side power output And a calendar means for outputting a predetermined time in the morning and a predetermined time determined in the evening depending on the position of the sun throughout the year, the current time obtained from the time measuring means and the calendar means A time switch that opens and closes between the time-side power input unit and the time-side power output unit, and a case body having at least one opening. Each end of the input wire from the power source and the output wire to the load is drawn into the interior so as to seal the opening from at least one hole. The breaker is housed in a state where the end of the secondary side is electrically connected to the primary side power input terminal, and the end of the secondary side power output terminal and the output wire are respectively connected to the time side power input part. And a moisture-proof case that houses the solar time switch in an electrically connected state to the time-side power output unit. The solar time switch is arranged on one end side in the longitudinal direction of the case body with the time-side power input section and the time-side power output section facing the other end side of the case body, and the breaker is A secondary power output terminal is disposed in a direction facing the timed power input portion of the solar time switch, and the primary power input terminal is disposed at the other end in the longitudinal direction of the case body. Is facing the moisture-proof bushing Therefore, compared with the conventional outdoor light that uses an automatic flasher that needs to receive ambient light, the automatic flasher does not cause the electric wire to reciprocate in the axial direction within the pole, thus facilitating wiring within the pole. In addition, the breaker and solar time switch are stored in a moisture-proof case, and at least one Moisture-proof bushing In order to seal this from the outside, it is possible to install a moisture-proof case in a humid pole by drawing each end of the input cable from the power supply and the output cable to the load. The moisture-proof case can be installed anywhere on the pole regardless of the choice, and the installation work is simplified by selecting the installation location as appropriate, and even if it is installed near the coast, the breaker and the The solar time switch can be protected. Also, for external lamps with discharge lamps and ballasts, connection to the input wires from the power supply and output wires to the load is sufficient and the number of connections is reduced compared to the conventional configuration using an automatic flasher and cutout switch. There is an effect that the wiring work becomes easy. In addition, the power input / output path between the power source and the load is opened and closed at the solar time switch based on the current time obtained from the time measuring means and the predetermined time obtained from the calendar means. Power supply to the load can be started at the time, and power supply to the load can be stopped at the sunrise time. Furthermore, since the power supply to the solar time switch can be stopped by shutting off the breaker, operations such as repair of the solar time switch and load are facilitated.
[0057]
According to a second aspect of the present invention, in the automatic power on / off control device according to the first aspect, the solar time switch may have another predetermined time instead of at least one of the predetermined time in the morning and the predetermined time in the evening. Since the setting means for setting is provided, for example, power supply to the load can be started at the sunset time, and power supply to the load can be stopped at night or at midnight instead of the sunrise time. Thereby, the power consumption of the load can be reduced.
[0058]
According to a third aspect of the present invention, in the automatic power on / off control device according to the first or second aspect, the solar time switch is forced between the time-side power input unit and the time-side power output unit according to an operation. For example, when the time zone installed in the outdoor light is during the daytime, the conventional outdoor light using the automatic flasher covers the light receiving part of the automatic flasher and blocks sunlight. Therefore, it is necessary to check whether the light source is turned on, or to provide a test switch for test lighting separately and to operate it to check whether the light source is turned on. Accordingly, it is possible to easily confirm whether or not the light source is lit by the forced opening / closing means.
[0059]
According to a fourth aspect of the present invention, in the automatic power on / off control device according to any one of the first to third aspects, since the lid is made of resin and is transparent, the opening of the case body is the lid Since the inside of the moisture-proof case can be confirmed even in a state where it is blocked by the above, it is possible to quickly confirm the state of the breaker and the solar time switch at the time of construction or inspection.
[0060]
According to a fifth aspect of the present invention, in the automatic power on / off control device according to any one of the first to fourth aspects, a lower case constituting an outer shell of the solar time switch is integrally formed in the case body. Therefore, there is no need to prepare a separate lower case for the outer shell of the solar time switch, so the number of parts can be reduced, and the depth of the moisture-proof case can be reduced. A moisture-proof case can be stored.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an automatic power on / off control device according to an embodiment of the present invention, where (a) is a cross-sectional view seen from the front, (b) is a cross-sectional view seen from the right, and (c) is a cross-sectional view. It is sectional drawing seen from the top.
FIG. 2 is a configuration diagram of an external light in which an automatic power on / off control device is used.
FIGS. 3A and 3B are explanatory views of a storage location of the automatic power on / off control device in the outside light, where FIG. 3A is a side view of the outside light excluding the upper part, and FIG. 3B is an enlarged view of a portion A in FIG.
FIGS. 4A and 4B are views showing a state in which the automatic power on / off control device is housed in an external light, where FIG. 4A is a side view, and FIG. 4B is a cross-sectional view from above.
FIG. 5 is a circuit diagram of an external light that houses an automatic power on / off control device.
FIG. 6 is a configuration diagram of a conventional outdoor lamp.
FIG. 7 is a circuit diagram of the external light.
FIG. 8 is a circuit diagram in the case where a test switch is further provided in the external light.
[Explanation of symbols]
1 Automatic power on / off control device
10 Case body
11 Lid
12 Moisture-proof bushing
13 Breaker
14 Solar time switch
2 outdoor lights
20 poles
21 Light source
22 Ballast

Claims (5)

A primary-side power input terminal and a secondary-side power output terminal, and when the current value flowing between the primary-side power input terminal and the secondary-side power output terminal exceeds a predetermined value or during a shut-off operation, these 1 A breaker that cuts between the secondary power input terminal and the secondary power output terminal so that the return operation can be freely performed;
A time-side power input unit, a time-side power output unit, a time measuring means for measuring the current time, and a calendar means for outputting a predetermined time in the morning and a predetermined time determined in the day depending on the position of the sun throughout the year. A solar time switch that opens and closes between the time-side power input unit and the time-side power output unit based on a current time obtained from the means and a predetermined time obtained from the calendar means;
Each end of the input wire from the power source and the output wire to the load is configured by a case body having at least one opening and a lid that closes the opening so as to be openable and closable from at least one moisture-proof bushing. The breaker is housed in a state where the end portion of the input wire is electrically connected to the primary power input terminal, and the secondary power output terminal and the output wire A moisture-proof case in which the solar time switch is housed in a state in which ends are electrically connected to the time-side power input unit and the time-side power output unit, respectively . The time-side power input part and the time-side power output part are arranged on one end side in the longitudinal direction toward the other end side of the case body, The secondary power output terminal is disposed in a direction facing the time-side power input portion of the solar time switch, and the primary power input terminal is on the other end side in the longitudinal direction of the case body. auto power On off control apparatus characterized that you have to face the moisture-proof bushing is disposed.   2. The automatic power on / off control according to claim 1, wherein the solar time switch has setting means for setting another predetermined time instead of at least one of the predetermined time in the morning and the predetermined time in the evening. apparatus.   3. The automatic power on / off device according to claim 1, wherein the solar time switch has a forced opening / closing means for forcibly opening / closing the time side power input unit and the time side power output unit according to an operation. Off control device.   4. The automatic power on / off control device according to claim 1, wherein the lid is made of resin and is transparent. 5.   5. The automatic power on / off control device according to claim 1, wherein a lower case constituting an outer shell of the solar time switch is integrally formed in the case main body. 6.

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