CN112913804A

CN112913804A - Time-controlled multi-light-source multiband insecticidal lamp and trapping and killing method thereof

Info

Publication number: CN112913804A
Application number: CN202110274227.5A
Authority: CN
Inventors: 严汉强; 莫泽东; 孟自立; 罗春花; 严娟霞; 闫新胜; 严俊云
Original assignee: Hunan Fengwei Industrial Co ltd
Current assignee: Hunan Fengwei Industrial Co ltd
Priority date: 2021-03-15
Filing date: 2021-03-15
Publication date: 2021-06-08

Abstract

Time control multi-light source multiband insecticidal lamp relates to insecticidal lamp technical field. The insect attracting lamp is provided with an insect attracting illuminator, the insect attracting illuminator consists of a plurality of luminous bodies capable of independently emitting light, the controller consists of a light controller, a time sequence control module in control connection with the light controller and a spectrum driving assembly in control connection with the time sequence control module, the spectrum driving assembly is provided with a plurality of spectrum drivers in control connection with the plurality of luminous bodies respectively, and the plurality of luminous bodies respectively emit insect attracting spectra with different wavelengths. Also includes a trapping method. The invention can trap and kill various specific pests at the same time in a targeted manner, the trapping and killing rate of the specific pests reaches over 79 percent, the total trapping and killing efficiency is improved by over 2 times, the false killing rate of natural enemies is as low as 2.75 percent, and the black area under the lamp is reduced by 45 percent.

Description

Time-controlled multi-light-source multiband insecticidal lamp and trapping and killing method thereof

Technical Field

The invention relates to the technical field of insecticidal lamps, in particular to a time-controlled multi-light-source multiband insecticidal lamp and a trapping and killing method thereof.

Background

Along with the improvement of the food safety consciousness of people, in the field of agricultural production, the solar insecticidal lamp is more and more paid attention to by people as an environment-friendly insecticidal mode. However, most of the existing insecticidal lamps adopt common light sources with wide light wave range, cannot trap and kill certain pests in a targeted manner, have poor trapping and killing effects, and also kill natural enemies of the pests by mistake; some light sources with narrow light wave range can only trap and kill specific pests. Because the life habits of each kind of pests are different, the activity time at night is different, if only a certain kind of pests are trapped and killed, the effective working time is short, the most time is ineffective work, the trapping and killing efficiency is low, and the trapping and killing effect is poor.

For example, a frequency oscillation type insecticidal lamp control system disclosed in the patent publication No. CN 107037799 a (2017.08.11), and the technology disclosed in paragraph [0015] of the specification is: the insect killing lamp terminal is provided with a plurality of insect killing lamp terminals, each insect killing lamp terminal is internally provided with a frequency vibration type insect killing lamp, each frequency vibration type insect killing lamp emits light sources with different wave bands, and the frequency vibration type insect killing lamps with different wavelengths kill different insects. The limitations of this disclosed technique are: each pest killing lamp can only trap and kill one pest, and a plurality of trap lamps with different wave band light sources are required to be installed for trapping and killing various pests in the same field, so that the equipment investment is large, and the utilization rate of the pest killing lamps is low.

For another example, a variable frequency solar pest killing lamp with patent publication No. CN 112273348A (2021.01.29) discloses the following technologies: a frequency conversion type solar insect killing lamp comprises a lamp holder arranged on a lamp pole; the lamp cap utilizes the lamp tube arranged in the lamp cap to emit ultraviolet light to induce insects, and utilizes the intelligent controller connected to the lamp tube to adjust and change the lamp tube to emit the ultraviolet light with different wavelengths to induce different insects; the lamp holder positioned on the periphery of the lamp tube is provided with a high-voltage net which surrounds the lamp holder in a surrounding mode, and the high-voltage net is used for killing pests which are attracted by low-temperature plasmas generated by ultraviolet light discharge emitted by the lamp tube; the lamp tube and the high-voltage network are powered by a clean energy system; the intelligent control ware adjustment changes the fluorescent tube and sends different insects of the induced difference of ultraviolet light of different wavelength, has realized the efficient insecticidal on energy-concerving and environment-protective basis, handles the insect of different grade type, and applicable to that can be fine is outdoor, park square, farmland, no power, inconvenient region, application range is wide. The problems of this disclosed technique are: because the intelligent controller adjusts and changes the single lamp tube to emit the ultraviolet light with different wavelengths to induce different insects, only one wavelength of ultraviolet light can be emitted to induce one insect at any time, and other insects which move at the same time cannot be effectively trapped and killed; and the problem of how to adopt which light wave to trap and kill which insects at any time aiming at the life habits of different insects is not solved.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and discloses a time-controlled multi-light-source multiband insecticidal lamp which has multiple light sources and can emit light with multiple different wavelengths at different time periods to simultaneously trap and kill different pests according to the life habits of the different pests and a trapping and killing method thereof, so that the insecticidal effect and the use efficiency of the solar insecticidal lamp are improved.

One of the technical solutions of the present invention is: time control multi-light source multiband insecticidal lamp, including the lamp body, establish the lamp lid on lamp body upper portion, establish the moth-killing lamp below the lamp lid, establish the controller in the lamp lid, establish the insect-catching ware in the lamp body lower part, establish the lamp pole between lamp lid and insect-catching ware, establish the high voltage electric network outside the moth-killing lamp, its special character lies in: the insect attracting lamp is provided with an insect attracting illuminator, the insect attracting illuminator is composed of a plurality of luminous bodies capable of independently emitting light, the controller is composed of a light controller, a time sequence control module in control connection with the light controller, and a spectrum driving assembly in control connection with the time sequence control module, the spectrum driving assembly is provided with a plurality of spectrum drivers which are respectively in control connection with the plurality of luminous bodies, and the plurality of luminous bodies respectively emit insect attracting spectra with different wavelengths.

Furthermore, the trap lamp is composed of a luminous body fixing part and a luminous body arranged on the luminous body fixing part.

Further, the light emitter fixing part is of a disc-shaped structure or a cone-shaped structure.

Further, the luminous body is an LED luminous ring.

Further, the number of the luminous bodies can be 2-5.

Further, the plurality of spectral drivers may be provided with 2-5 corresponding to the number of the luminous bodies.

The second technical solution of the invention is as follows: the trapping and killing method of the time-controlled multi-light-source multiband insecticidal lamp is characterized in that: when the light controller is started, the time sequence control module starts 1 to a plurality of driving light-emitting bodies in the spectrum driver in a time-sharing mode to trap and kill pests by different wave band lights.

Further, after the light controller is started, the timing control module starts the first spectrum driver to drive the first light emitter to emit the insect trapping spectrum with the optical wavelength of 320-580nm, and the light controller 10 is operated until the light controller is closed, and 1-2 hours after the light controller is started, the second spectrum driver drives the second light emitter to emit the insect trapping spectrum with the optical wavelength of 320-365nm, and the third spectrum driver drives the third light emitter to emit the insect trapping spectrum with the optical wavelength of 365-395 nm.

Furthermore, 3-4 hours after the light controller is started, the third spectrum driver drives the third light-emitting body to emit the insect-attracting spectrum with the light wavelength of 365-.

Furthermore, 5-6 hours after the light controller is started, the third spectrum driver drives the third light emitter to emit the insect attracting spectrum with the light wavelength of 365-.

The invention is provided with a plurality of spectrum drivers and luminous bodies which work independently, so that the luminous bodies can emit insect trapping spectra with different wavelengths at the same time, specific pests can be trapped and killed in a targeted manner, the specific pest trapping and killing rate reaches over 79 percent, the total trapping and killing efficiency is improved by over 2 times, and the natural enemy false killing rate is as low as 2.75 percent. And through the innovative luminous body structure, the light radiation range is enlarged, and the black area under the lamp is reduced by 45%. Meanwhile, automatic intelligent control can be realized by setting programs, and remote intelligent control can also be realized by using a mobile phone.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a second schematic structural diagram according to an embodiment of the present invention;

FIG. 3 is a schematic bottom view of a trap lamp according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a controller according to an embodiment of the present invention.

Description of reference numerals: 1-solar device, 2-lamp body, 3-wire, 4-controller, 5-lamp cover, 6-high voltage network, 7-illuminator, 7 a-first illuminator, 7 b-second illuminator, 7 c-third illuminator, 7 d-fourth illuminator, 7 e-fifth illuminator, 8-lamp pole, 9-insect receiver, 10-light controller, 11-time sequence control module, 12-spectrum drive assembly, 12 a-first spectrum driver, 12 b-second spectrum driver, 12 c-third spectrum driver, 12 d-fourth spectrum driver, 12 e-fifth spectrum driver, 13-insect-attracting lamp, 14-illuminator fixed part.

Detailed Description

In order that the invention may be more clearly understood, the invention will now be further described with reference to figures 1 to 4.

Embodiment 1: the timing control multi-light source multiband insecticidal lamp comprises a lamp body 2, a lamp cover 5 arranged at the upper part of the lamp body 2, an insect trapping lamp 13 arranged below the lamp cover 5, a controller 4 arranged in the lamp cover 5, an insect receiver 9 arranged at the lower part of the lamp body 2, a lamp post 8 arranged between the lamp cover 5 and the insect receiver 9, and a high-voltage power grid 6 arranged outside the insect trapping lamp 15, and is characterized in that: the insect attracting lamp 13 is provided with an insect attracting illuminator 7, the insect attracting illuminator 7 is composed of a plurality of luminous bodies 7a-n which can independently emit light, the controller 4 is composed of a light controller 10, a time sequence control module 11 which is in control connection with the light controller 10, and a spectrum driving assembly 12 which is in control connection with the time sequence control module 11, the spectrum driving assembly 12 is provided with a plurality of spectrum drivers 12a-n which are respectively in control connection with the luminous bodies 7a-n, and the luminous bodies 7a-n respectively emit insect attracting spectra with different wavelengths.

The embodiment is provided with the plurality of spectrum drivers and the luminous bodies which work independently, so that the plurality of luminous bodies emit the insect trapping spectrums with different wavelengths at the same time, specific pests can be trapped and killed in a targeted manner, the specific pest trapping and killing rate reaches over 79 percent, the total trapping and killing efficiency is improved by over 2 times, and the false killing rate of natural enemies is reduced.

In the embodiment, the insect attracting lamp 13 is composed of a light body fixing part 14 and a light body 7 arranged on the light body fixing part 14.

In the embodiment, the light emitter fixing portion 14 has a disk-shaped structure or a cone-shaped structure. This is favorable to the overall arrangement of a plurality of luminous bodies, can reduce more than 45% of black area under the lamp simultaneously by a wide margin compared with prior art.

In the embodiment, the controller 4 is assembled by adopting a conventional light controller, a timing controller and a light driver product in the electronic industry.

In the embodiment, the controller 4 is a DIY-USB controller manufactured by Shenzhen Yi Fei optoelectronic technology, Inc.

In an embodiment, the light 7 is an LED light ring. Is beneficial to prolonging the service life and reducing the production cost.

In an embodiment, the plurality of spectrum drivers may be provided with 2-5 corresponding to the number of illuminants, i.e. the first spectrum driver 12a, the second spectrum driver 12b, or the first spectrum driver 12a, the second spectrum driver 12b, the third spectrum driver 12c, the fourth spectrum driver 12d, or the first spectrum driver 12a, the third spectrum driver 12c, the fourth spectrum driver 12d, the fifth spectrum driver 12 e. The luminous bodies are provided with 2-5, namely a first luminous body 7a and a second luminous body 7b or a first luminous body 7a and a second luminous body 7b and a third luminous body 7c and a fourth luminous body 7d and a fifth luminous body 7 e. The arrangement of the plurality of spectrum drivers and the plurality of luminous bodies which work independently can realize that the plurality of luminous bodies can emit insect trapping spectrums with different wavelengths at the same time, and overcome the problem that the efficiency of trapping and killing pests is restricted by the prior art that only one spectrum driver can enable the luminous bodies to emit the insect trapping spectrums with only one wavelength at the same time.

Embodiment 2: the trapping and killing method of the time-controlled multi-light-source multiband insecticidal lamp is characterized in that: when the light controller 10 is started, the time sequence control module 11 starts 1 to a plurality of the light emitters 7a-n in the spectrum drivers 12a-n in different time periods to trap and kill pests with different wave band light.

In an embodiment, after the light controller 10 is started, the timing control module 11 starts the first spectrum driver 12a to drive the first light emitter 7a to emit the insect trapping spectrum with the optical wavelength of 320-.

In an embodiment, 3-4 hours after the light controller 10 is started, the third spectrum driver 12c drives the third light emitter 7c to emit the insect-attracting spectrum with the light wavelength of 365-.

In the embodiment, 5-6 hours after the light controller 10 is started, the third spectrum driver 12c drives the third light emitter 7c to emit the insect-attracting spectrum with the light wavelength of 365-.

In the embodiment, a DIY-USB controller manufactured by Shenzhen Yi Fei optoelectronic technology Limited is adopted. And setting a fixed program for automatic control or carrying out remote intelligent control by using a mobile phone.

The embodiment 2 can pertinently and regularly control the plurality of the luminous bodies to emit the insect trapping spectrums with different wavelengths according to the life habits and the emergence time of the pests, can trap and kill specific pests, and improves the trapping and killing efficiency by 2 to 7 times compared with the prior art.

Example 1: the multi-band insect killing lamp comprises a lamp body 2, a lamp cover 5 is arranged on the upper portion of the lamp body 2, a hanging ring is arranged on the lamp cover 5, a controller 4 is arranged in the lamp cover 5, the controller 4 is connected with a solar device 1 through an electric wire in a power supply transmission mode, an insect attracting lamp 13 is arranged below the lamp cover 5, and the insect attracting lamp 13 is composed of a luminous body fixing portion 14 and a luminous body 7 arranged on the luminous body fixing portion 14. The luminous body fixing part 14 is a disc-shaped structure, and the luminous body 7 is an LED luminous ring and is fixed on the fixing part 14. An insect receiver 9 is arranged at the lower part of the lamp body 2, and the insect receiver 9 adopts a traditional structure. A lamp post 8 is arranged between the lamp cover 5 and the insect receiver 9, a high-voltage power grid 6 is arranged outside the insect trapping lamp 15, and the insect trapping lamp 13 consists of 3 insect trapping light emitters, namely a first light emitter 7a, a second light emitter 7b and a third light emitter 7 c. The controller 4 is composed of a light controller 10, a timing control module 11 in control connection with the light controller 10, and a spectrum driving assembly 12 in control connection with the timing control module 11. The spectral drive assembly 12 is provided with 3 spectral drivers, namely a first spectral driver 12a, a second spectral driver 12b, a third spectral driver 12 c. The spectrum driver 12a drives the light wavelength emitted by the illuminant 7a to be 320-580nm, and the phototaxis pests are generally killed. The spectrum driver 12b drives the light emitted by the light emitting body 7b to have the wavelength of 350-400 nm, and mainly traps and kills pests such as tryporyza incertulas, chilo suppressalis, meadow moth, sesamophora inferens and the like; the light wavelength emitted by the light emitting body 7c is driven by the spectrum driver 12c to be 500-560nm, so that pests such as tobacco hornworm, black tail leafhopper, fruit fly, aedes upset, greenhouse trialeurodes vaporariorum and the like are mainly trapped and killed. The controller 4 is assembled by adopting a conventional light controller, a time sequence controller and a light driver product in the electronic industry.

Example 2: the multi-band insect killing lamp comprises a lamp body 2, a lamp cover 5 is arranged on the upper portion of the lamp body 2, a hanging ring is arranged on the lamp cover 5, a controller 4 is arranged in the lamp cover 5, the controller 4 is connected with a power supply through an electric wire, an insect attracting lamp 13 is arranged below the lamp cover 5, and the insect attracting lamp 13 is composed of a luminous body fixing portion 14 and a luminous body 7 arranged on the luminous body fixing portion 14. The luminous body 7 is an LED luminous ring which is annularly arranged by adopting an LED luminous belt. The light emitter fixing portion 14 has a hollow cone-shaped structure, and the first light emitter 7a, the second light emitter 7b, the third light emitter 7c, the fourth light emitter 7d, and the fifth light emitter 7e are provided on the light emitter fixing portion 14 from top to bottom. An insect receiver 9 is arranged at the lower part of the lamp body 2, and the insect receiver 9 adopts a traditional structure. A lamp post 8 is arranged between the lamp cover 5 and the insect receiver 9, a high-voltage power grid 6 is arranged outside the insect trapping lamp 15, and the insect trapping lamp 13 consists of 5 insect trapping light emitters, namely a first light emitter 7a, a second light emitter 7b, a third light emitter 7c, a fourth light emitter 7d and a fifth light emitter 7 e. The controller 4 is composed of a light controller 10, a timing control module 11 in control connection with the light controller 10, and a spectrum driving assembly 12 in control connection with the timing control module 11. The spectral drive assembly 12 is provided with 5 spectral drivers, namely a first spectral driver 12a, a second spectral driver 12b, a third spectral driver 12c, a fourth spectral driver 12d, a fifth spectral driver 12 e. The spectrum driver 12a drives the light wavelength emitted by the illuminant 7a to be 320-580nm, and the phototaxis pests are generally killed. The spectrum driver 12b drives the light wavelength emitted by the luminous body 7b to be 320-365nm, and mainly traps and kills pests such as the wheat moth, the tryporyza incertulas, the suda salina and the like; the light wavelength emitted by the light-emitting body 7c is 365-; the light wavelength emitted by the light-emitting body 7d is 395-450nm driven by the spectrum driver 12d, and the pests such as sogatella furcifera, brown planthopper, bradysia odoriphaga, fringed orbital elephant, Asiatic corn borer and the like are intensively trapped and killed. The light wavelength emitted by the light emitting body 7e is driven by the spectrum driver 12e to be 450-580nm, and the pests such as diamondback moth, black tail leafhopper, bemisia tabaci, fruit fly, thrips occidentalis and the like are mainly trapped and killed. The controller 4 adopts a DIY-USB controller produced by Shenzhen Yifei photoelectric technology Limited. The LED luminous strip adopts a market product DC12V5050LED strip.

Example 3: the trapping and killing method of the time-controlled multi-light-source multiband insecticidal lamp adopts the following steps to control: when the light controller 10 is started, the timing control module 11 starts the first spectrum driver 12a to drive the first light emitter 7a to emit the insect trapping spectrum with the light wavelength of 320 and 580nm, and the light controller 10 is turned off; within 2 hours after the light controller 10 is started, the second spectrum driver 12b drives the second light emitter 7b to emit the insect trapping spectrum with the light wavelength of 320-365 nm; the third spectrum driver 12c drives the third illuminant 7c to emit an insect-attracting spectrum with a light wavelength of 365-. Within 4 hours after the light controller 10 is started, the third spectrum driver 12c drives the third light emitter 7c to emit the insect attracting spectrum with the light wavelength of 365-. Within 6 hours after the light controller 10 is started, the third spectral driver 12c drives the third light emitter 7c to emit the insect attracting spectrum with the light wavelength of 365-. Because the controller 4 adopts a DIY-USB controller produced by Shenzhen Yifei photoelectric technology Limited, the controller can be automatically controlled by a set program and can also be remotely and intelligently controlled by a mobile phone.

The effect comparison of the embodiment of the invention and the comparative example is as follows:

note: the insecticidal effect was measured for 30 days under the same conditions.

The above examples are only intended to aid the understanding of the method of the invention and its innovative part. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. Time control multi-light source multiband insecticidal lamp, including the lamp body, establish the lamp lid on lamp body upper portion, establish the moth-killing lamp below the lamp lid, establish the controller in the lamp lid, establish the insect-catching device in the lamp body lower part, establish the lamp pole between lamp lid and insect-catching device, establish the high voltage electric network in the moth-killing lamp outside, its characterized in that: the insect attracting lamp is provided with an insect attracting illuminator, the insect attracting illuminator is composed of a plurality of luminous bodies capable of independently emitting light, the controller is composed of a light controller, a time sequence control module in control connection with the light controller, and a spectrum driving assembly in control connection with the time sequence control module, the spectrum driving assembly is provided with a plurality of spectrum drivers which are respectively in control connection with the plurality of luminous bodies, and the plurality of luminous bodies respectively emit insect attracting spectra with different wavelengths.

2. The time-controlled multi-light-source multiband insecticidal lamp of claim 1, wherein: the trap lamp is composed of a luminous body fixing part and a luminous body arranged on the luminous body fixing part, wherein the luminous body fixing part is of a disc-shaped structure or a cone-shaped structure.

3. The time-controlled multi-light-source multiband insecticidal lamp according to claim 2, wherein: the luminous body is an LED luminous ring.

4. The time controlled multi-light source multi-band insecticidal lamp according to any one of claims 1-3, characterized in that: the number of the luminous bodies is 2-5.

5. The time-controlled multi-light-source multiband insecticidal lamp of claim 1, wherein: the number of the light-emitting bodies corresponding to the spectrum driver is 2-5.

6. The method for trapping and killing the time-controlled multi-light-source multiband insecticidal lamp according to claims 1 to 5, characterized in that: the following steps are taken: when the light controller is started, the time sequence control module starts 1 to a plurality of driving light-emitting bodies in the spectrum driver in a time-sharing mode to trap and kill pests by different wave band lights.

7. The method for trapping and killing the time-controlled multi-light-source multiband insecticidal lamp according to claim 6, wherein: when the light controller is started, the timing sequence control module starts the first spectrum driver to drive the first light-emitting body to emit the insect trapping spectrum with the optical wavelength of 320-580nm, the light controller is operated until the light controller is closed, in addition, within 1-2 hours after the light controller is started, the second spectrum driver drives the second light-emitting body to emit the insect trapping spectrum with the optical wavelength of 320-365nm, and the third spectrum driver drives the third light-emitting body to emit the insect trapping spectrum with the optical wavelength of 365-395 nm.

8. The method of claim 7 wherein: 3-4 hours after the light controller is started, the third spectrum driver drives the third light-emitting body to emit the insect-attracting spectrum with the light wavelength of 365-.

9. The method of claim 8, wherein: 5-6 hours after the light controller is started, the third spectrum driver drives the third light-emitting body to emit the insect-attracting spectrum with the light wavelength of 365-.

10. The time-controlled multi-light-source multiband insecticidal lamp of claim 1, wherein: the controller adopts a DIY-USB controller.