CN204579602U - A kind of mango Scirothrips dorsalis monitoring device - Google Patents

Abstract

The utility model discloses a kind of mango Scirothrips dorsalis monitoring device, p-anisaldehyde lures core to be arranged on the middle position of blue insects trap board, solar panel is arranged on the periphery of blue insects trap board, blue insects trap board is horizontally arranged with some roads trap groove, trap groove inside is provided with electrical network, solar panel is connected with described electrical network and worm-collecting device, and worm-collecting device is arranged on the side of blue insects trap board, and trap groove is the entrance that arc-shaped comes together in described worm-collecting device at end.Mango Scirothrips dorsalis monitoring device of the present utility model lures core and blue insects trap board to lure mango Scirothrips dorsalis by p-anisaldehyde, by the electrical network in trap groove by its electrocution, is collected by worm-collecting device, and count results is accurate, and operating efficiency is high.

Description

A kind of mango Scirothrips dorsalis monitoring device

Technical field

The utility model belongs to diseases and pests controlling field, particularly relates to a kind of mango Scirothrips dorsalis monitoring device.

Background technology

Mango can be subject to the infringement of various insect in the course of cultivation, wherein the primary pest in florescence and tender tip vegetative period has thrips, digramma brauni porthesia similis (fues.), Chlumetia transversa, leafhopper, cecidomyiia, tip saddle to resemble, and Scirothrips dorsalis is the most common and can one of the insect of causing serious harm, produce to mango in recent years and cause heavy losses.At the torrid zone, subtropics mango growing area, Scirothrips dorsalis occurs with the mango phenophase closely related, from mango initial bloom stage or the tender tip are extracted out, Scirothrips dorsalis can be monitored, along with the progress of florescence and tip phase, Scirothrips dorsalis population density, with the speed increment of decades of times, all can find Scirothrips dorsalis group at flower fringe, fruitlet fruit face and tender leaf blade back.The phenomenons such as mango easily causes fallen flowers, flower head drying after being injured, fruit face is coarse, tender leaf chlorosis drops, have had a strong impact on the economic benefit that mango is produced.Have multiple to the monitoring method of thrips at present.Fruit tree uses the most generally attack method, and its monitoring method is:

When mango blooms, one staff takes funeral broker's dish level to be placed in below colored fringe, another people right-hand man is intersected, left hand pinches at below thumb and forefinger fringe base portion of blossoming, the parallel funeral broker of being placed in of colored fringe is allowed to coil top, then use hand thumb and middle finger top attack main colored fringe leftward, the thrips part of Hua Suishang is due to the frightened seemingly-dead and pallet that drops, and part is owing to affecting by attack power the pallet that drops.After every attack once, the thrips on pallet is counted, often spend fringe attack more than 3 times.In monitor on field, each fruit tree needs the colored fringe in more than 2, each direction, five directions, attack all directions, draws the data of a monitoring point.

The shortcoming of attack method is:

(1) attack method is only applicable to the mango florescence, cannot monitor, and the injury of Scirothrips dorsalis to fruit is huge, directly causes tremendous economic to lose, and then causes bearing basal shoot Quality Down in next year to the injury of the tip in mango tender tip phase and fruit phase;

(2) during thrips drops pallet to counting, there is considerable part to jump out pallet, cause count results to be forbidden;

(3) attack method must work simultaneously above two people, and spend fringe to carry out repeatedly attack one by one, labor intensive is many, and the time is long.

Utility model content

The purpose of this utility model is to provide a kind of mango Scirothrips dorsalis monitoring device, is intended to solve the problem that attack method is only applicable to the mango florescence, count results is inaccurate, labor intensive is many, the time is long.

The utility model is that mango Scirothrips dorsalis monitoring device comprises blue insects trap board to realize like this kind of, p-anisaldehyde lures core, solar panel, electrical network, worm-collecting device;

Described p-anisaldehyde lures core to be arranged on the middle position of blue insects trap board, described solar panel is arranged on the periphery of blue insects trap board, described blue insects trap board is horizontally arranged with some roads trap groove, described trap groove inside is provided with electrical network, described solar panel is connected with described electrical network and worm-collecting device, described worm-collecting device is arranged on the side of blue insects trap board, described some roads trap groove is arranged in parallel, some roads trap groove is the entrance that arc-shaped comes together in described worm-collecting device at end, luring at described p-anisaldehyde on the blue insects trap board of core position lures core to be provided with a circle trap groove around p-anisaldehyde, the described circle trap groove luring core to arrange around p-anisaldehyde is crossing with the trap groove that described some roads be arranged in parallel.

Further, the porch of described worm-collecting device is provided with mini-fan, described mini-fan comprises housing, louvre blade, be placed on the motor in described housing, described housing comprises fore shell and back cover, described fore shell and back cover are respectively equipped with the first standing groove and the second standing groove, fork and trace is provided with between first standing groove and the second standing groove, described motor is placed on fork between described first standing groove and the second standing groove and trace, described trace lays respectively at the both sides of housing, the rotating shaft at louvre blade two ends is rotationally connected with one end of fork respectively.

Further, longitudinal cable-through hole and the slide opening of longitudinal direction is had in the front and back of described fore shell and back cover, housing bottom described motor is also provided with adjusting rod and connection cord, what described adjusting rod rotated is located in housing, one end of adjusting rod is stretched out outside the slide opening of housing, described connection cord is through cable-through hole, and the other end of adjusting rod is connected with one end of connection cord, and the other end of connection cord is connected with a trace.

Mango Scirothrips dorsalis monitoring device of the present utility model lures core and blue insects trap board to lure mango Scirothrips dorsalis by p-anisaldehyde, by the electrical network in trap groove by its electrocution, is collected by worm-collecting device, and count results is accurate, and operating efficiency is high.

Accompanying drawing explanation

Fig. 1 is the structural representation of the mango Scirothrips dorsalis monitoring device that the utility model embodiment provides;

In figure: 1, blue insects trap board; 2, p-anisaldehyde lures core; 3, solar panel; 4, electrical network; 5, worm-collecting device; 6, trap groove.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with embodiment, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Below in conjunction with drawings and the specific embodiments, application principle of the present utility model is further described.

Refer to Fig. 1:

The utility model is achieved in that a kind of mango Scirothrips dorsalis monitoring device comprises blue insects trap board 1, p-anisaldehyde lures core 2, solar panel 3, electrical network 4, worm-collecting device 5;

Described p-anisaldehyde lures core 2 to be arranged on the middle position of blue insects trap board 1, described solar cell 3 plate is arranged on the periphery of blue insects trap board 1, described blue insects trap board 1 is horizontally arranged with some roads trap groove 6, described trap groove 6 inside is provided with electrical network 4, described solar panel 3 is connected with described electrical network 4 and worm-collecting device 5, described worm-collecting device 5 is arranged on the side of blue insects trap board 1, described some roads trap groove 6 is arranged in parallel, some roads trap groove 6 is the entrance that arc-shaped comes together in described worm-collecting device 5 at end, luring at described p-anisaldehyde on the blue insects trap board 1 of core 2 position lures core 2 to be provided with a circle trap groove around p-anisaldehyde, the described circle trap groove luring core 2 to arrange around p-anisaldehyde is crossing with the trap groove that described some roads be arranged in parallel.

Further, the porch of described worm-collecting device 5 is provided with mini-fan, described mini-fan comprises housing, louvre blade, be placed on the motor in described housing, described housing comprises fore shell and back cover, described fore shell and back cover are respectively equipped with the first standing groove and the second standing groove, fork and trace is provided with between first standing groove and the second standing groove, described motor is placed on fork between described first standing groove and the second standing groove and trace, described trace lays respectively at the both sides of housing, the rotating shaft at louvre blade two ends is rotationally connected with one end of fork respectively.

Further, longitudinal cable-through hole and the slide opening of longitudinal direction is had in the front and back of described fore shell and back cover, housing bottom described motor is also provided with adjusting rod and connection cord, what described adjusting rod rotated is located in housing, one end of adjusting rod is stretched out outside the slide opening of housing, described connection cord is through cable-through hole, and the other end of adjusting rod is connected with one end of connection cord, and the other end of connection cord is connected with a trace.

The utility model when in use, core one end scissors that lures containing p-anisaldehyde lure is cut off, opening up stapler is fixed in the centre of backboard, at 1.2 ~ 1.5m place, bottom of every strain tree body, select by the position of direct sunlight, the blue insects trap board 1 of band lure not to be fixed, when mango Scirothrips dorsalis through trap groove 6 time by electrical network 4 electrocution, insect is sucked worm-collecting device 5 inside by the mini-fan rotation generation negative pressure that the porch of worm-collecting device 5 is installed, after monitoring, take off worm-collecting device 5 and count.

Mango Scirothrips dorsalis monitoring device of the present utility model lures core 2 and blue insects trap board 1 to lure mango Scirothrips dorsalis by p-anisaldehyde, by the electrical network in trap groove 6 by its electrocution, is collected by worm-collecting device 5, and count results is accurate, and operating efficiency is high.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (3)

1. a mango Scirothrips dorsalis monitoring device, is characterized in that, described mango Scirothrips dorsalis monitoring device comprises blue insects trap board, p-anisaldehyde lures core, solar panel, electrical network, worm-collecting device;

Described p-anisaldehyde lures core to be arranged on the middle position of blue insects trap board, described solar panel is arranged on the periphery of blue insects trap board, described blue insects trap board is horizontally arranged with some roads trap groove, described trap groove inside is provided with electrical network, described solar panel is connected with described electrical network and worm-collecting device, described worm-collecting device is arranged on the side of blue insects trap board, described some roads trap groove is arranged in parallel, some roads trap groove is the entrance that arc-shaped comes together in described worm-collecting device at end, luring at described p-anisaldehyde on the blue insects trap board of core position lures core to be provided with a circle trap groove around p-anisaldehyde, the described circle trap groove luring core to arrange around p-anisaldehyde is crossing with the trap groove that described some roads be arranged in parallel.

2. mango Scirothrips dorsalis monitoring device as claimed in claim 1, it is characterized in that, the porch of described worm-collecting device is provided with mini-fan, described mini-fan comprises housing, louvre blade, be placed on the motor in described housing, described housing comprises fore shell and back cover, described fore shell and back cover are respectively equipped with the first standing groove and the second standing groove, fork and trace is provided with between first standing groove and the second standing groove, described motor is placed on fork between described first standing groove and the second standing groove and trace, described trace lays respectively at the both sides of housing, the rotating shaft at louvre blade two ends is rotationally connected with one end of fork respectively.

3. mango Scirothrips dorsalis monitoring device as claimed in claim 1, it is characterized in that, longitudinal cable-through hole and the slide opening of longitudinal direction is had in the front and back of described fore shell and back cover, housing bottom described motor is also provided with adjusting rod and connection cord, what described adjusting rod rotated is located in housing, and one end of adjusting rod is stretched out outside the slide opening of housing, and described connection cord is through cable-through hole, the other end of adjusting rod is connected with one end of connection cord, and the other end of connection cord is connected with a trace.