JP3103155U - Hybrid decorative light source device - Google Patents

Abstract

An object of the present invention is to provide a hybrid decorative light source device that can use not only solar power but also wind power to reduce running costs.
An electronic changeover switch is provided on a controller of a hybrid decorative light source device, and the electronic changeover switch has a base end portion of an outlet cord and a solar power generation cord connected to a solar power generation device. A base end portion 20A of the wind power generation cord 30 connected to the base end portion 20A of the power generation device 20 and the wind power generation device 32 is provided. The controller 12 is provided with a voltage detector 42, which is connected to the electronic changeover switch 14 and connected to the outlet cord 16, the solar power cord 20, and the wind power cord 30 to determine whether the electric voltage can be charged. Is detected. The storage battery 46 for charging electricity is connected to a light source cord 60 to which a number of LED lights 64 are attached.
[Selection] Figure 2

Description

  The present invention relates to a hybrid decorative light source device which is mainly used for lighting a decorative light source such as an LED light at night, which is used to decorate a house fence, a tree, a Christmas tree, or the like.

2. Description of the Related Art In recent years, a decorative light source device that decorates a decorative light source made of a bean light or the like on a fence of a house, a tree, a Christmas tree, or the like and turns on the decorative light source at night has been widely used.
Conventionally, when the decorative light source of the decorative light source device is turned on, the plug of the outlet cord connected to the controller of the decorative light source device is inserted into an outlet provided indoors or outdoors to light the decorative light source.
However, when a large number of decorative light sources are turned on for a long period of time, the electricity cost consumed by the decorative light source device becomes high, and the running cost increases.
In order to reduce the running cost of the decorative light source device, a decorative light source device is connected to a solar power generation device, and the power generated by the solar power generation device is preferentially used to reduce the running cost. Has been proposed.
However, when the weather is fine, the electricity generated by the solar power generator can be used for the decorative light source device.However, the solar power generator does not operate at night, rainy weather, cloudy weather, etc. The decorative light source of the decorative light source device is turned on with electricity supplied from a power company by inserting a plug into an outlet.
As a result, it is difficult to keep running costs low even in this type of decorative light source device.

  The present invention has been made in view of the above facts, and is a hybrid decorative light source that can reduce running costs by using wind power when solar power is not available by using not only solar power but also wind power. An apparatus is provided.

The invention according to claim 1 provides a changeover switch provided inside the controller, an outlet cord arranged so that a base end can be connected to the changeover switch, and a base end connectable to the changeover switch. A solar power generation cord, a solar power generation device to which a distal end of the solar power generation cord is connected, a wind power generation cord having a base end connected to the changeover switch, and a wind power generation cord. A wind power generator to which the tip of the cord is connected, the outlet cord, the solar power cord, electricity supplied from the outlet connected to the wind power cord, and the power generated by the solar power generator and the wind power generator. A voltage detector for detecting whether or not the voltage of the charged electricity is chargeable and transmitting a determination result signal to the changeover switch to switch the changeover switch; A storage battery connected to the changeover switch and charged with electricity supplied from the outlet and the electricity generated by the solar power generation device and the wind power generation device, a lighting switch connected to the storage battery, and connected to the lighting switch A light sensor that turns on a lighting switch when a predetermined darkness is sensed and turns off a lighting switch when a predetermined brightness is sensed, a light source code connected to the lighting switch and provided with a large number of decorative light sources, It is characterized by having.
The invention according to claim 2 provides a changeover switch provided inside the controller, an outlet cord arranged so that a base end can be connected to the changeover switch, and a base end connectable to the changeover switch. A solar power generation cord, a solar power generation device to which a distal end of the solar power generation cord is connected, a wind power generation cord having a base end connected to the changeover switch, and a wind power generation cord. A wind power generator to which the tip of the cord is connected, the outlet cord, the solar power cord, electricity supplied from the outlet connected to the wind power cord, and the power generated by the solar power generator and the wind power generator. A voltage detector for detecting whether or not the voltage of the charged electricity is chargeable and transmitting a determination result signal to the changeover switch to switch the changeover switch; A storage battery connected to the changeover switch and charged with electricity supplied from the outlet and the electricity generated by the solar power generation device and the wind power generation device, a lighting switch connected to the storage battery, and connected to the lighting switch A light sensor that turns on a lighting switch when a predetermined darkness is sensed and turns off a lighting switch when a predetermined brightness is sensed, a flash control device connected to the light switch, and a flash control device connected to the flash control device And a light source code provided with a large number of decorative light sources.
The invention according to claim 3 provides a changeover switch provided inside the controller, an outlet cord whose base end is connectable to the changeover switch, and a base end connectable to the changeover switch. A solar power generation cord, a solar power generation device to which a distal end of the solar power generation cord is connected, a wind power generation cord having a base end connected to the changeover switch, and a wind power generation cord. A wind power generator to which a tip of a power cord is connected, an AC / DC converter provided in an intermediate portion of the wind power cord to convert AC power generated by the wind power generator into DC power, and the outlet Power cord, solar power cord, electricity supplied from the outlet connected to the wind power cord, and voltage of electricity generated by the solar power generator and wind power generator A voltage detector that detects whether or not charging is possible and sends a determination result signal to the changeover switch to switch the changeover switch; electricity supplied from an outlet connected to the changeover switch and the solar power generation device; A storage battery charged with electricity generated by the wind power generator, a lighting switch connected to the storage battery, and a lighting switch connected to the lighting switch and, when a predetermined darkness is sensed, turns on the lighting switch and sets a predetermined brightness. An optical sensor for turning off a lighting switch when sensed, a blinking control device connected to the lighting switch, and a light source code connected to the blinking control device and provided with a large number of decorative light sources. It is characterized by:
The invention of claim 4 is characterized in that the decorative light source is an LED light.

Since the hybrid decorative light source device of the present invention can supply electricity for lighting the decorative light source not only from the solar power generator but also from the wind power generator, the decorative light source can be turned on by the wind power generator when the solar power generator cannot be operated. This has an excellent effect that running costs can be kept low.
In addition, the hybrid decorative light source device of the present invention turns on the decorative light source with electricity generated by a solar power generator or a wind power generator as much as possible. Has an excellent effect that the distant cause of the can be removed.
The hybrid decorative light source device of the present invention is also environmentally friendly because the decorative light source is turned on by preferentially using electricity generated by the solar power generation device and the wind power generation device that have little adverse effect on the environment. Has the effect.
In addition, the present invention of claim 4 uses an LED light with low power consumption as a decoration light source in addition to the above-described excellent effect, so that it is possible to further reduce power consumption and to achieve an excellent decoration effect. Having.

  The following embodiment is shown as an example of the best mode for carrying out the invention.

1 and 2 show an embodiment of a hybrid decorative light source device according to the present invention.
As shown in FIG. 2, an electronic changeover switch 14 as a changeover switch is provided inside the box-shaped controller 12 of the hybrid decorative light source device 10. A base end 16A of the outlet cord 16 is connected to the electronic changeover switch 14 and an adapter 18 is provided at a distal end 16B of the outlet cord 16. The adapter 18 is provided with a plug 18A. By inserting the plug 18A into an outlet (not shown) provided indoors or outdoors, electricity can be supplied from a power company.
The electronic changeover switch 14 is provided with a base end 20A of a solar power generation cord 20 so as to be connectable, and a distal end 20B of the solar power generation cord 20 is connected to a solar panel 24 of a known solar power generation device 22. ing.
As shown in FIG. 1, a panel base 28 is provided at the upper end of a support 26 of the solar power generation device 22 in an inclined state, and the solar panel 24 is provided on the panel base 28.
As shown in FIG. 2, a base end 30 </ b> A of a wind power cord 30 is connected to the electronic changeover switch 14, and a distal end 30 </ b> B of the wind power cord 30 is connected to a known wind power generator 32. It is connected to a motor 34.
As shown in FIG. 1, a rotatable propeller 38 is provided at an upper end of a support 36 of the wind power generator 32. When the propeller 38 rotates by receiving the wind, the motor 34 rotates to generate electric power.
As shown in FIG. 2, an AC / DC converter 40 is provided at an intermediate portion of the wind power generation cord 30 so as to convert AC power generated by a motor 34 of a wind power generator 32 into DC power. ing.
Further, a voltage detector 42 is provided in the controller 12. The voltage detector 42 is connected to the electronic changeover switch 14 and to the outlet cord 16, the solar power cord 20, and the wind power cord 30, respectively.
The voltage detector 42 detects the electricity supplied from the outlet and the voltage of the electricity generated by the solar power generation device 22 and the wind power generation device 32, and detects whether the voltage of the electricity is a rechargeable voltage. , To judge.
When the voltage detector 42 determines that the voltage of the electricity generated by the solar power generation device 22 is a voltage that can charge the storage battery 46 connected to the electronic changeover switch 14 via the cord 44, A signal is sent to the changeover switch 14. Upon receiving this signal, the electronic changeover switch 14 is connected to the base end portion 20A of the solar power generation cord 20, whereby electricity generated by the solar power generation device 22 is charged in the storage battery 46.
When the voltage detector 42 determines that the voltage of the electricity generated by the solar power generation device 22 is not a chargeable voltage, the voltage detector 42 detects the voltage of the electricity generated by the wind power generation device 32 and It detects and determines whether or not the voltage from 32 is a voltage that can be charged. When it is determined that the voltage of the electricity generated by the wind power generator 32 is a chargeable voltage, a signal is sent to the electronic changeover switch 14. Upon receiving this signal, the electronic changeover switch 14 is connected to the base end portion 30A of the wind power generation cord 30, whereby the electricity generated by the wind power generation device 32 is charged in the storage battery 46.
When the voltage detector 42 determines that the voltage of the electricity generated by the solar power generator 22 and the voltage of the electricity generated by the wind power generator 32 are not both at a chargeable voltage, a signal is sent to the electronic changeover switch 14. ing. Upon receiving this signal, the electronic changeover switch 14 is connected to the base end portion 16A of the outlet cord 16 so that the storage battery 46 is charged with electricity from the outlet.
The voltage detector 42 is also connected to the storage battery 46. When the storage battery 46 is fully charged, the voltage detector 42 detects that the storage battery 46 is fully charged, and sends a signal to the electronic changeover switch 14 to stop supplying electricity to the storage battery 46. I have. As a result, the electronic changeover switch 14 is brought into a non-contact state with any of the outlet cord 16, the solar power cord 20, and the wind power cord 30, so that electric consumption can be stopped.
As shown in FIG. 2, the storage battery 46 is connected to a lighting switch 50 via a cord 48. An optical sensor 52 is connected to the lighting switch 50. The optical sensor 52 sends a signal to the lighting switch 50 to turn on the lighting switch 50 when it detects a predetermined darkness, and sends a signal to the lighting switch 50 when it senses a predetermined brightness. Then, the lighting switch 50 is turned off.
The lighting switch 50 is connected to a blinking control device 56 via a cord 54, and the blinking control device 56 is connected to a base end portion 60 </ b> A of the light source cord 60.
As shown in FIG. 1, a large number of branch cords 62 are branched into an intermediate portion 60B and a distal end portion 60C of the light source cord 60, and the distal end of the branch cord 62 serves as a decorative light source and consumes less power and is not easily broken. (Light Emitting Diode) as a light source is attached to an LED light 64.

The operation of the hybrid decorative light source device 10 of the embodiment will be described.
When using the hybrid decorative light source device 10, the plug 18A is inserted in advance into an outlet provided indoors or outdoors.
In the hybrid decorative light source device 10, when sunlight hits the solar panel 24 of the solar power generation device 22 in fine weather, the solar panel 24 converts the light energy of the sunlight into electric energy and generates electric power.
When the wind blows and the propeller 38 of the wind power generator 32 rotates, the motor 34 rotates and the motor 34 generates power.
On the other hand, the voltage detector 42 detects the voltage of the electricity generated by the solar power generation device 22 and detects and determines whether the voltage of the electricity generated by the solar power generation device 22 is a voltage that can be charged. I do. When the voltage detector 42 determines that the voltage of the electricity generated by the solar power generation device 22 is a chargeable voltage, it sends a signal to the electronic changeover switch 14 so that the electronic changeover switch 14 Connected to the base end 20A of the cord 20. Thereby, the electricity generated by the solar power generation device 22 is charged in the storage battery 46.
When the sun goes down and darkens, and the light sensor 52 detects a predetermined darkness set in advance, the light sensor 52 sends a signal to the lighting switch 50 to turn on the lighting switch 50. Thereby, the electricity charged in the storage battery 46 is energized, and the LED light 64 is turned on in a blinking state to light up the surroundings. When the sun rises and becomes bright and the light sensor 52 senses a predetermined brightness set in advance, the light sensor 52 sends a signal to the lighting switch 50 to turn off the lighting switch 50. As a result, the electricity charged in the storage battery 46 does not conduct, and the LED light 64 is turned off.
When the voltage detector 42 detects the voltage of the electricity generated by the solar power generation device 22 and determines that the voltage is not a chargeable voltage, the voltage of the electricity generated by the wind power generation device 32 is determined. Detects and determines whether or not is at a chargeable voltage. When it is determined that the voltage of the electricity generated by the wind power generator 32 is a voltage that can be charged, a signal is sent to the electronic changeover switch 14, and the electronic changeover switch 14 is turned to the base end of the wind power cord 30. Connect to 30A. Thus, the electricity generated by the wind power generator 32 is charged in the storage battery 46.
Therefore, in the hybrid decorative light source device 10, even when the solar power generation device 22 cannot be operated at night or due to the weather or the like, if the wind is blowing, the electricity generated by the wind power generation device 32 is charged in the storage battery 46. Therefore, the LED light 64 can be turned on.
If the voltage detector 42 determines that the voltage of the electricity generated by the solar power generator 22 and the voltage of the electric power generated by the wind power generator 32 are not at a rechargeable voltage, the voltage detector 42 operates the electronic changeover switch 14. And the electronic changeover switch 14 is connected to the base end 16A of the outlet cord 16. As a result, the electricity supplied from the power company is charged in the storage battery 46, so that even in such a case, the LED light 64 can be turned on.
Accordingly, in the hybrid decorative light source device 10, the LED light 64 can be turned on in a blinking state by using the electric power generated by the solar power generation device 22 or the wind power generation device 32 preferentially. The running cost of the hybrid decorative light source device 10 can be kept low by keeping the electricity consumption extremely low.
In addition, since the hybrid decorative light source device 10 does not use electricity supplied from the power company as much as possible, it is possible to prevent one cause of the power shortage problem from occurring.
Furthermore, since the hybrid decorative light source device 10 mainly generates electricity with the environmentally-friendly solar power generation device 22 and wind power generation device 32 to obtain electricity, it does not adversely affect the environment.

  In the embodiment, the blinking control device 56 is provided to turn on the LED light 64 in a blinking state. However, when the LED light 64 is turned on without blinking, it is needless to say that the blinking control device 56 is not required. It is.

  In the embodiment, the example in which the LED light 64 which consumes less power and is not easily broken is used as the decorative light source. However, the decorative light source is not necessarily limited to the LED light 64. The good thing is, of course.

It is a general | schematic whole perspective view of the hybrid decorative light source device of an Example. It is a block diagram of a hybrid decorative light source device of an example.

Explanation of reference numerals

DESCRIPTION OF SYMBOLS 10 Hybrid decoration light source device 12 Controller 14 Electronic changeover switch 16 Outlet cord 20 Solar power generation code 22 Solar power generation device 30 Wind power generation code 32 Wind power generation device 40 AC / DC converter 42 Voltage detector 46 Storage battery 50 Lighting switch 52 Optical sensor 56 Flashing control device 60 Light source code 64 LED light

Claims (4)

  A changeover switch provided inside the controller, an outlet cord arranged to connect the base end to the changeover switch, and a solar power generation cord arranged to connect the base end to the changeover switch And a solar power generation device to which a distal end of the solar power generation cord is connected, a wind power generation cord arranged such that a base end can be connected to the changeover switch, and a front end of the wind power generation cord connected to the changeover switch. The wind power generator, the outlet cord, the solar power cord, the electricity supplied from the outlet connected to the wind power cord and the voltage of the electricity generated by the solar power generator and the wind power generator can be charged A voltage detector for detecting and determining whether or not the switch is selected and sending a determination result signal to the switch to switch the switch; Storage battery for charging the electricity supplied from the outlet and the electricity generated by the solar power generation device and the wind power generation device, a lighting switch connected to the storage battery, and a predetermined darkness connected to the lighting switch and connected to the lighting switch. A light sensor that turns on a lighting switch when sensing the light and turns off the lighting switch when a predetermined brightness is sensed, and a light source code connected to the lighting switch and provided with a number of decorative light sources. A hybrid decorative light source device.   A changeover switch provided inside the controller, an outlet cord arranged to connect the base end to the changeover switch, and a solar power generation cord arranged to connect the base end to the changeover switch And a solar power generation device to which a distal end of the solar power generation cord is connected, a wind power generation cord arranged such that a base end can be connected to the changeover switch, and a front end of the wind power generation cord connected to the changeover switch. The wind power generator, the outlet cord, the solar power cord, the electricity supplied from the outlet connected to the wind power cord and the voltage of the electricity generated by the solar power generator and the wind power generator can be charged A voltage detector for detecting and determining whether or not the switch is selected and sending a determination result signal to the switch to switch the switch; Storage battery for charging the electricity supplied from the outlet and the electricity generated by the solar power generation device and the wind power generation device, a lighting switch connected to the storage battery, and a predetermined darkness connected to the lighting switch and A light sensor that turns on a lighting switch when sensing the brightness and turns off the lighting switch when a predetermined brightness is sensed; a blinking control device connected to the lighting switch; and a number of decorations connected to the blinking control device and connected to the blinking control device. And a light source code provided with a light source.   A changeover switch provided inside the controller, an outlet cord arranged to connect the base end to the changeover switch, and a solar power generation cord arranged to connect the base end to the changeover switch And a solar power generation device to which a distal end of the solar power generation cord is connected, a wind power generation cord arranged such that a base end can be connected to the changeover switch, and a front end of the wind power generation cord connected to the changeover switch. A wind power generator, an AC / DC converter that is provided at an intermediate portion of the wind power generator cord and converts AC electricity generated by the wind power generator into DC electricity, the outlet cord, and a solar power cord. Whether the voltage of the electricity connected to the wind power cord and supplied from the outlet and the voltage of the electricity generated by the solar power generator and the wind power generator can be charged or not. A voltage detector that performs intellectual judgment and sends a judgment result signal to the changeover switch to switch the changeover switch, electricity connected to the changeover switch, supplied from an outlet, and generated by the solar power generation device and the wind power generation device. A storage battery charged with electricity, a lighting switch connected to the storage battery, and a lighting switch connected to the lighting switch and turning on the lighting switch when a predetermined darkness is detected, and turning off the lighting switch when a predetermined brightness is detected. A hybrid, comprising: a light sensor, a flicker control device connected to the lighting switch, and a light source code connected to the flicker control device and provided with a large number of decorative light sources. Decorative light source device. The hybrid decorative light source device according to claim 1, wherein the decorative light source is an LED light.

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