CN111149783A - Electric shock insect killing device for automatic crop insect pest detecting and reporting system - Google Patents

Abstract

The invention discloses an electric shock insect killing device for an automatic crop insect pest detecting and reporting system, which comprises a trap lamp, an insulating platform, an insect receiving platform and a plurality of electric pole groups, wherein the trap lamp is arranged on the electric pole groups; each electric pole group consists of two direct current electric poles which are respectively a positive pole and a negative pole, and a plurality of electric pole groups are vertically arranged at the periphery of the trap lamp; the trap lamp penetrates through the insulating platform and is fixed to the top of the measuring and reporting system, each direct current pole is vertically fixed to the insulating platform, and a gap is reserved between the bottom of each direct current pole and the insect receiving platform; and an eccentric shaft motor is arranged on the insulating platform, so that the insulating platform can drive all the electric poles to vibrate left and right simultaneously. The invention is helpful for crop pests to automatically identify the image acquisition conditions of the insect samples, simplifies equipment, reduces energy consumption, and enables the crop pests automatic detection and reporting system to be popularized in a large area by utilizing solar energy or wind energy.

Description

Electric shock insect killing device for automatic crop insect pest detecting and reporting system

Technical Field

The invention relates to the technical field of agricultural insect and pest control, in particular to an electric shock insect killing device for an automatic crop insect pest detecting and reporting system.

Background

Under the drive of the agricultural scientific market in China, in the process that the traditional crop plant protection monitoring work is shifted from manual measurement and prediction to automatic measurement and prediction, the application of the crop insect pest automatic measurement and prediction system is in the starting stage. At present, the popularization of related equipment is restricted by various conditions, wherein the most serious problem is that the energy consumption is high, the whole machine is generally more than 200W, and the equipment cannot be installed without an alternating current power grid, so that the equipment cannot work under the condition that a large-area farmland or a remote mountain forest has no power grid.

The traditional crop pest situation observation and prediction lamp mainly comprises two pest killing methods: one is infrared heating for killing pests, and the other is medicinal pest killing. The heating and insect killing method has large power consumption and brings obstacles for directly adopting solar energy or wind energy to supply power; the method of poisoning insects with drugs can have adverse effects on both the environment and the operator. In addition, the traditional crop pest situation observation and prediction lamp belongs to sampling detection equipment, but the volume of the traditional crop pest situation observation and prediction lamp is several times larger than that of similar insecticidal lamp equipment, the structure is complex, and the cost is high.

If only from the view of insecticidal function, the electric net insecticidal has been fairly popular, but the main reason that has not been applied to the crop pest situation forecasting lamp is: firstly, the large insects are not easy to kill, the small insects are easy to explode, and the subsequent identification of the insects is not facilitated; secondly, the insects are easy to be netted and are gathered more and more, and the normal collection work of the insect samples is influenced.

Therefore, the technical problem to be solved by the technical staff in the art is how to provide an electric shock insect killing device for an automatic crop insect pest detection and reporting system, which is energy-saving, environment-friendly, simple in structure and capable of retaining the integrity of insect sampling.

Disclosure of Invention

In view of this, the invention provides an electric shock pest killing device for an automatic crop pest detection and reporting system, which is beneficial to automatically identifying insect sample image acquisition conditions by crop pests, simplifies equipment, reduces energy consumption, and enables the automatic crop pest detection and reporting system to be widely popularized by utilizing solar energy or wind energy.

In order to achieve the purpose, the invention adopts the following technical scheme:

an electric shock insect killing device for an automatic crop insect pest detecting and reporting system comprises a trap lamp, an insulating platform, an insect receiving platform and a plurality of electric pole groups;

each electric pole group consists of two direct current electric poles which are respectively a positive pole and a negative pole, and a plurality of electric pole groups are vertically arranged at the periphery of the trap lamp;

the insect trapping lamp penetrates through the insulating platform and is fixed to the top of the measuring and reporting system, each direct current pole is vertically fixed to the insulating platform, a gap is reserved between the bottom of each direct current pole and the corresponding insect receiving platform, and the bottoms of the pole groups are opposite to the insect receiving platforms so as to be convenient for shooting and extracting insect images;

and an eccentric shaft motor is arranged on the insulating platform, so that the insulating platform can drive all the electric poles to vibrate left and right simultaneously.

Preferably, in the electric shock insect killing device for the automatic crop insect pest detection system, the electric pole group comprises a first electric pole group for electric shock of small insects and a second electric pole group for electric shock of large insects.

Preferably, in the electric shock pest killing device for the automatic crop pest detection and reporting system, the distance between the two positive poles and the two negative poles of the first pole group is 2-4 mm.

Taking rice as an example, the body length of the small pest brown planthopper is 3.6-4.8mm, and the leaf hopper is 4.6-6 mm. The distance between the two electric poles in the first electric pole group cannot be larger than the body length of the small insects, and the small insects are ensured to be electrically shocked.

Preferably, in the electric shock pest killing device for the automatic crop pest detection and reporting system, a distance between the two positive poles and the two negative poles of the second pole group is 10-15 mm.

Taking rice as an example, the pests with larger body forms, namely the cnaphalocrocis medinalis wing exhibition is 16-19mm, the chilo suppressalis wing exhibition is 20-31mm, and the distance between two electric poles in the second electric pole group cannot be larger than the body length of the large insects, so that the large insects are ensured to be electrically shocked.

Preferably, in the electric shock insect killing device for the automatic crop insect pest detection and reporting system, the distance between any two electric pole groups is 40-50 mm.

Taking rice as an example, the largest pests to be detected are the sesamia inferens wing spread of 27-30mm and the chilo suppressalis wing spread of 20-31 mm. The distance between the outer of pole group and pole group is greater than big worm wing exhibition width, can effectively guarantee that big small pest can both walk between pole group and pole group, and increases the randomness that pest striking pole group, and then reaches the scattered worm that falls, reduces the overlapping rate of insect on connecing the worm platform.

Preferably, in the electric shock pest killing device for the automatic crop pest detection system, the applied voltage of the first electric rod group is 1600-2000V, the applied voltage of the second electric rod group is 2000-2800V, and the current is less than 10 muA.

Experimental observation shows that for small insects, when the voltage is less than 1600V, the phenomenon that the small insects are stunned but not killed occurs; and when the voltage is more than 2000V, the phenomena of damage, slurry explosion or scorching of the small insects can occur. Likewise, for large insects, stunning occurs at less than 2000V and scorching occurs at more than 2800V. The first electric pole group and the second electric pole group are used for killing insects in the two voltage ranges, the obtained insect integrity rate is 100%, and the body state color of the insects is basically unchanged.

Preferably, in the electric shock insect killing device for the automatic crop insect pest detecting and reporting system, the electric pole group is provided with a plurality of layers, wherein,

each layer of the electric pole group consists of a plurality of first electric pole groups; or

Each layer of the electric pole group consists of a plurality of second electric pole groups; or

Every layer the pole group is by a plurality of crisscross setting in proper order first pole group and a plurality of the second pole group is constituteed.

Preferably, in the electric shock insecticidal device for automatic crop pest detection and reporting system, the electric pole group is provided with two layers, the inner layer is a plurality of the first electric pole group is arranged near the periphery of the trap lamp, and the outer layer is a plurality of the second electric pole group is arranged at the periphery of the first electric pole group.

Because smaller insects are likely to be stunned when touching the first electric pole group, and the smaller insects are unlikely to touch two electric poles of the second electric pole group simultaneously to be shocked, the second electric pole group is arranged at the outer side, and the first electric pole group is arranged at the inner side, so that the probability that smaller insects touch the first electric pole group is reduced.

Preferably, in the electric shock insecticidal device who is used for crops insect pest automatic survey and report system of above-mentioned, the pole group is provided with more than two-layer, and the inlayer is a plurality of first pole group sets up and is close to the periphery of moth-killing lamp, it is outmost a plurality of second pole group is fixed in the outermost edge of insulating platform, the intermediate level then sets up in proper order in a staggered manner first pole group second pole group.

Because the electric pole components are layered and are distributed in a staggered manner, the positions of the electric shock insects are different, the falling positions of the insects after being killed are dispersed, the overlapping rate of the insects is reduced, and the automatic identification work of subsequent insect images is facilitated.

Through the technical scheme, compared with the prior art, the invention discloses and provides the electric shock insect killing device for the automatic crop insect pest detecting and reporting system, and the electric shock insect killing device has the following advantages:

(1) the electric shock energy consumption of the electric shock insect killing device for the automatic crop insect pest detecting and reporting system is 10-12W, the traditional infrared heating energy consumption is about 100W, the energy consumption is saved by about 10 times, the electric shock insect killing device can completely work by solar energy or wind energy, and compared with drug insect killing, the electric shock insect killing device is energy-saving, environment-friendly, non-toxic and harmless, and can not influence the environment and human bodies;

(2) the invention can realize electric shock insect falling at different positions, the insect falling on the insect receiving platform is random, and the insect tiling can be realized without additionally arranging tiling equipment, thereby reducing the overlapping rate of insect image shooting; the traditional tiling equipment mostly adopts a centrifugal mode to throw away the collected insect samples, and the process can damage part of the insect samples and cause a great amount of insect dust to appear in the bin, thereby influencing the image recognition effect;

(3) because the invention adopts high voltages of different levels, the phenomena of killing of big insects or breaking and pulp explosion of small insects can not occur, so that the insect sample is more complete and is convenient to identify; compared with the traditional infrared heating method that the temperature of the part close to the heater is higher due to the unbalance of the heating area, the insect is easy to turn black, and certain color difference is generated with the insect far away from the heater, so that the insect is not easy to identify, the electric shock insect killing method can keep the original appearance of the insect;

(4) the invention adopts the vertical distribution of the electric pole and the vibration of the platform, thus effectively solving the problem of hanging the net by insects;

(5) the invention simplifies the internal structure (such as an insect collecting box, an infrared heater, an insect blocking cover plate, an insect homogenizing device, an insect receiving barrel and the like) of the traditional crop insect condition forecasting lamp, not only reduces the cost, but also reduces the volume of the whole machine, and is beneficial to the installation and popularization of automatic crop insect pest forecasting devices.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a second drawing illustrating the overall structure of the present invention;

FIG. 3 is a first schematic structural diagram according to embodiment 1 of the present invention;

FIG. 4 is a second schematic structural diagram according to embodiment 1 of the present invention;

fig. 5 is a schematic structural diagram of embodiment 2 of the present invention.

In the figure:

1 is the moth-killing lamp, 2 is insulating platform, 3 is to connect the worm platform, 4 is the direct current pole, 5 is the pole group, 51 is first pole group, 52 is the second pole group, 6 is the eccentric shaft motor, 7 is rain-proof cover.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention discloses an electric shock pest killing device for an automatic crop pest detecting and reporting system, which is beneficial to automatically identifying insect sample image acquisition conditions by crop pests, simplifies equipment, reduces energy consumption and enables the automatic crop pest detecting and reporting system to be popularized in a large area by utilizing solar energy or wind energy.

The invention provides an electric shock insect killing device for an automatic crop insect pest detecting and reporting system, which comprises a trap lamp 1, an insulating platform 2, an insect receiving platform 3 and a plurality of electric pole groups 5, wherein the electric pole groups are arranged on the electric pole groups;

each pole group 5 consists of two direct current poles 4 which are respectively a positive pole and a negative pole, and a plurality of pole groups 5 are vertically arranged at the periphery of the trap lamp 1;

the trap lamp 1 penetrates through the insulating platform 2 and is fixed at the top of the measuring and reporting system, each direct current pole 4 is vertically fixed on the insulating platform 2, and a gap is reserved between the bottom of each direct current pole 4 and the insect receiving platform 3;

an eccentric shaft motor 6 is arranged on the insulating platform 2.

In order to further optimize the above technical solution, the electric pole group 5 includes a first electric pole group 51 for electric shock of small insects and a second electric pole group 52 for electric shock of large insects.

In order to further optimize the above technical solution, the distance between the two positive and negative dc poles 4 in the first pole group 51 is 2-4 mm.

In order to further optimize the technical scheme, the distance between the two positive and negative DC poles 4 in the second pole group 52 is 10-15 mm.

In order to further optimize the above technical solution, the distance between any of the pole groups 5 is 40-50 mm.

In order to further optimize the above technical solution, the applied voltage of the first electrode set 51 is 1600-.

In order to further optimize the above technical solution, the pole group 5 is provided with several layers, wherein,

each layer of the electric pole group 5 consists of a plurality of first electric pole groups 51; or

Each layer of the electric pole group 5 consists of a plurality of second electric pole groups 52; or

Each layer of the electric pole group 5 is composed of a plurality of first electric pole groups 51 and a plurality of second electric pole groups 52 which are arranged in a staggered mode in sequence.

In order to further optimize the technical scheme, the electric pole groups 5 are provided with two layers, the inner layer is formed by arranging a plurality of first electric pole groups 51 at the periphery close to the trap lamp 1, and the outer layer is formed by arranging a plurality of second electric pole groups 52 at the periphery of the first electric pole groups 51.

In order to further optimize the technical scheme, the electric pole groups 5 are provided with more than two layers, the innermost layer is a plurality of first electric pole groups 51 arranged at the periphery close to the trap lamp 1, the outermost layer is a plurality of second electric pole groups 52 fixed at the outermost edge of the insulating platform 2, and the middle layer is sequentially provided with the first electric pole groups 51 and the second electric pole groups 52 in a staggered manner.

Example 1

Referring to the accompanying drawings 1-4, the present embodiment discloses an electric shock insect killing device for an automatic crop insect pest detecting and reporting system, which comprises a trap lamp 1, an insulating platform 2, an insect receiving platform 3 and an inner layer and an outer layer of electric pole sets 5 sequentially arranged on the periphery of the trap lamp, wherein the inner layer of electric pole set 5 comprises a plurality of first electric pole sets 51, the outer layer of electric pole set 5 comprises a plurality of second electric pole sets 52, the insulating platform 2 is provided with an eccentric shaft motor 6, and each electric pole set 5 comprises two direct current electric poles 4 which are respectively a positive pole and a negative pole.

The trap lamp 1 penetrates through the insulating platform 2 and is fixed on a rain cover 7 at the top of the measuring and reporting system, each direct current pole 4 is vertically fixed on the insulating platform 2, and a gap is reserved between the bottom of each direct current pole 4 and the insect receiving platform 3;

wherein, the first electric pole group 51 is used for electrically shocking the small insects, the second electric pole group 52 is used for electrically shocking the large insects, and the distance between any adjacent electric pole groups 5 is 40-50 mm; the distance between two positive and negative DC poles 4 in the first pole group 51 is 2-4mm, and the distance between two positive and negative DC poles 4 in the second pole group 52 is 10-15 mm; the applied voltage of the first electrode set 51 is 1600-2000V, the applied voltage of the second electrode set 52 is 2000-2800V, and the current is less than 10 μ A.

Example 2

Referring to fig. 5, the present embodiment discloses an electric shock insect killing apparatus for an automatic crop insect pest detecting and reporting system, which includes a trap lamp 1, an insulating platform 2, an insect receiving platform 3, and three layers of electric pole sets 5 sequentially arranged at the periphery of the trap lamp, wherein the inner layer electric pole set 5 is composed of a plurality of first electric pole sets 51, the outer layer electric pole set 5 is composed of a plurality of second electric pole sets 52, the middle layer electric pole set 5 is composed of first electric pole sets 51 and second electric pole sets 52 which are sequentially staggered, the insulating platform 2 is provided with an eccentric shaft motor 6, and each electric pole set 5 is composed of two dc electric poles 4 which are respectively a positive pole and a negative pole.

The trap lamp 1 penetrates through the insulating platform 2 and is fixed on a rain cover 7 at the top of the measuring and reporting system, each direct current pole 4 is vertically fixed on the insulating platform 2, and a gap is reserved between the bottom of each direct current pole 4 and the insect receiving platform 3;

wherein, the first electric pole group 51 is used for electrically shocking the small insects, the second electric pole group 52 is used for electrically shocking the large insects, and the distance between any adjacent electric pole groups 5 is 40-50 mm; the distance between two positive and negative DC poles 4 in the first pole group 51 is 2-4mm, and the distance between two positive and negative DC poles 4 in the second pole group 52 is 10-15 mm; the applied voltage of the first electrode set 51 is 1600-2000V, the applied voltage of the second electrode set 52 is 2000-2800V, and the current is less than 10 μ A.

The results of examples 1-2 and the conventional insecticidal mode were analyzed and tested according to various indexes, and the results are shown in table 1.

TABLE 1

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. 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 (9)

1. An electric shock insect killing device for an automatic crop insect pest detecting and reporting system is characterized by comprising an insect trapping lamp (1), an insulating platform (2), an insect receiving platform (3) and a plurality of electric pole groups (5);

each electric pole group (5) consists of two direct current electric poles (4) which are respectively a positive pole and a negative pole, and a plurality of electric pole groups (5) are vertically arranged at the periphery of the trap lamp (1);

the trap lamp (1) penetrates through the insulating platform (2) and is fixed to the top of a measuring and reporting system, each direct current pole (4) is vertically fixed to the insulating platform (2), and a gap is reserved between the bottom of each direct current pole (4) and the insect receiving platform (3);

an eccentric shaft motor (6) is installed on the insulating platform (2).

2. An electric shock insect killing device for an automatic crop insect pest detection system according to claim 1, wherein the electric pole group (5) comprises a first electric pole group (51) for electric shock of small insects and a second electric pole group (52) for electric shock of large insects.

3. An electric shock insect killing device for an automatic crop insect pest detecting and reporting system according to claim 2, wherein the distance between the DC poles (4) of the two positive and negative poles in the first pole group (51) is 2-4 mm.

4. An electric shock insect killing device for an automatic crop insect pest detecting and reporting system according to claim 2, characterized in that the distance between the DC poles (4) of the two positive and negative poles in the second pole group (52) is 10-15 mm.

5. An electric shock insect-killing device for an automatic crop insect pest detecting and reporting system according to claim 1 or 2, wherein the distance between any electric pole groups (5) is 40-50 mm.

6. The electric shock insect killing device for the automatic crop insect pest detection and reporting system as claimed in claim 2, wherein the applied voltage of the first electric rod set (51) is 1600-2000V, the applied voltage of the second electric rod set (52) is 2000-2800V, and the current is less than 10 μ A.

7. An electric shock insect-killing device for automatic crop insect pest detecting and reporting system according to any one of claims 1 or 2, wherein the electric pole group (5) is provided with a plurality of layers, wherein,

each layer of the electric pole group (5) consists of a plurality of first electric pole groups (51); or

Each layer of the electric pole group (5) consists of a plurality of second electric pole groups (52); or

Each layer of the electric pole group (5) is composed of a plurality of first electric pole groups (51) and a plurality of second electric pole groups (52) which are arranged in a staggered mode in sequence.

8. An electric shock insect killing device for an automatic crop insect pest detecting and reporting system according to claim 7, wherein the electric pole sets (5) are provided with two layers, the inner layer is that a plurality of the first electric pole sets (51) are arranged near the periphery of the trap lamp (1), and the outer layer is that a plurality of the second electric pole sets (52) are arranged near the periphery of the first electric pole sets (51).

9. The electric shock insect killing device for the automatic crop insect pest detecting and reporting system according to claim 7, wherein the electric pole set (5) is provided with more than two layers, the innermost layer is a plurality of first electric pole sets (51) arranged at the periphery close to the insect inducing lamp (1), the outermost layer is a plurality of second electric pole sets (52) fixed at the outermost edge of the insulating platform (2), and the middle layers are sequentially arranged in a staggered manner on the first electric pole sets (51) and the second electric pole sets (52).

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