CN205124810U - Solar energy bugZapper is used in pond - Google Patents

Abstract

The utility model provides a solar energy bugZapper is used in pond, includes banks, high voltage electric network, photosensitive sensor, solar cell panel, battery and controller. This bugZapper passes through light and attracts the worm moth to the high voltage electric network around, catches and kills the worm moth, reduces the insect pest, the aquatic is fallen into to worm moth after the electric shock, becomes the fodder of fish, the power supply of adoption solar energy reduces the cost that erects the electric wire, installation protective barrel avoids exposing to wind and rain and causes the short circuit of electric wire netting circuit.

Description

Fish pond solar deinsectization lamp

Technical field

The utility model relates to a kind of solar deinsectization device, is especially applicable to fish pond and utilizes solar energy can kill the bug killing equipment of worm moth.

Background technology

The general noctivagation life of worm moth is mostly pest; Worm moth has phototaxis, can spiral round bright object.According to the phototaxis of worm moth, night installs bug killing equipment above fish pond, under worm moth is attracted to light, kills worm moth, reduces insect pest, the worm moth falling into fish pond can be become the feed of fish simultaneously.

At present used on the market insect killing lamp is according to the phototaxis of insect, and high-voltage fence is placed in lamp body peripheral, particularly, the insect killing lamp of outdoor use can be subject to the piping and druming of rainwater, can cause short circuit and dangerous.

Summary of the invention

For improving the safety of insect killing lamp, what be suitable for outdoor fish pond kills worm moth, and the utility model provides a kind of fish pond solar deinsectization lamp.

The utility model solves the technical scheme that its technical problem adopts: fish pond solar deinsectization lamp comprises support, control box, solar panel, lamp group, lampshade, high-voltage fence, protection cylinder, light sensor, its medium-height trestle is asymmetrical cross, support long-armed on lay a light sensor, this light sensor is electrically connected with the controller of control box; Be placed in support bottom in control box, inside have controller and accumulator, accumulator is electrically connected with controller; Solar panel is fixed on support, and is connected with control box internal controller, storage battery, by power storage in accumulator; Lampshade is conical, and be placed in support long arm end, circle is provided with one group of hook in lampshade, be provided with lamp group under lampshade, lamp group is socketed high-voltage fence outward, is socketed with protection cylinder outside high-voltage fence; Protection cylinder upper edge is provided with one group of hook; High-voltage fence is cylindrical shape, without going to the bottom; Lamp group is cylindrical shape lamppost is embedded with more than one LED; High-voltage fence, lamp group are electrically connected with controller respectively by wire.Accumulator selects rated voltage to be 6 volts, and capacity is 4 ampere-hours.

Controller circuitry is made up of power management module, booster circuit and control module.Power management module control solar panel to charge in batteries and discharge process, at discharge process, accumulator as power supply, by booster circuit, for electrical network provides up to 1400 volts of high direct voltages; Accumulator as power supply, by control module, for LED group provides 3 volts of voltages.The sunshine luminance signal of light sensor compares with setting voltage by control module, and control power management module is to the break-make of booster circuit and whether provide power supply to LED group.When sunshine luminance signal is more than or equal to setting voltage, think and be in " daytime ", disconnect booster circuit, do not provide power supply to LED group; When sunshine luminance signal is less than setting voltage, think and be in " night ", closed booster circuit, and provide power supply to LED group, LED group is shinny, attracts worm moth, produces high direct voltage simultaneously, catch and kill worm moth on electrical network.

The beneficial effects of the utility model are, attract, around worm moth to high-voltage fence, to catch and kill worm moth, reduce insect pest by light; Worm moth after electric shock is fallen in water, becomes the feed of fish; Adopt solar powered, reduce the cost installed electric wiring; Protection cylinder being installed, causing mains-power circuit short circuit from exposing to wind and rain.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is structural representation of the present utility model.

Fig. 2 is controller circuitry schematic diagram of the present utility model.

Wherein in Fig. 1: 1. control box, 2. controller, 3. accumulator, 4. electric wire, 5. support, 6. solar panel, 7. light sensor, 8. lamp group, 9. lampshade, 10. high-voltage fence, 11. protection cylinder, 12. hooks.

Embodiment

By Fig. 1, this solar deinsectization lamp is placed in limit, fish pond, the long-armed of support stretches to fish pond central authorities, and the worm moth after electric shock is fallen on the water surface.During use, protection cylinder is taken off, by the hook clasp joint of protection cylinder by linking up with and in lampshade when not using.

Claims (3)

1. a fish pond solar deinsectization lamp, it is characterized in that this insect killing lamp comprises support, control box, solar panel, lamp group, lampshade, high-voltage fence, protection cylinder, light sensor, support is asymmetrical cross, support long-armed on lay a light sensor, this light sensor is electrically connected with the controller in control box; Be placed in support bottom in control box, inside have controller and accumulator, accumulator is electrically connected with controller; Solar panel is fixed on support, and is connected with control box internal controller, storage battery, by power storage in accumulator; Lampshade is conical, and be placed in support long arm end, circle is provided with one group of hook in lampshade, be provided with lamp group under lampshade, lamp group is socketed high-voltage fence outward, is socketed with protection cylinder outside high-voltage fence; Protection cylinder upper edge is provided with one group of hook; High-voltage fence, lamp group are electrically connected with controller respectively by wire.

2. fish pond according to claim 1 solar deinsectization lamp, is characterized in that: described lamp group is cylindrical shape lamppost is embedded with more than one LED.

3. fish pond according to claim 1 solar deinsectization lamp, it is characterized in that: described controller is made up of power management module, booster circuit and control module, power management module controls solar panel to charge in batteries and discharge process, at discharge process, accumulator is as power supply, by booster circuit, for electrical network provides up to 1400 volts of high direct voltages; Accumulator as power supply, by control module, for LED group provides 3 volts of voltages; The sunshine luminance signal of light sensor compares with setting voltage by control module, and control power management module is to the break-make of booster circuit and whether provide power supply to LED group.