CN213639357U - Artificial honeycomb suitable for feeding trichogramma bee eggs in paddy field - Google Patents

Abstract

The utility model provides a be suitable for the artifical honeycomb of trichogrammatid bee ovum of input paddy field, the main points are: the spherical container is formed by buckling an upper hemispherical shell and a lower hemispherical shell, the upper hemispherical shell is provided with a baffle, and the center of the bottom of the lower hemispherical shell is provided with a balancing weight; the upper hemispherical shell is provided with a plurality of larva climbing holes, one side of the trichogramma bee card without bee eggs is adhered to the upper surface of the upper hemispherical shell baffle plate, so that the trichogramma bee card is positioned in the upper hemispherical shell cavity, and the side of the trichogramma bee card with the bee eggs faces upwards to face the larva climbing holes on the upper hemispherical shell; the upper shell and the lower shell are buckled, namely the upper shell and the lower shell are matched through threads. The utility model has the advantages that: after the bee card is put into a paddy field, the bee card can be prevented from being soaked by water, and the hatching efficiency of bee ova is obviously improved.

Description

Artificial honeycomb suitable for feeding trichogramma bee eggs in paddy field

Technical Field

The utility model relates to an artificial honeycomb of trichogramma ovum body.

Background

CN206782881U discloses a biological dispenser, which is described in paragraph 0062-0067, the biological container 500 can be an artificial honeycomb 500 containing trichogramma eggs, the specific structure of which is shown in fig. 6, the artificial honeycomb 500 is a sphere formed by two hemispherical shells 510, and the hemispherical surface of each hemispherical shell 510 is provided with a baffle 520. A connecting line is arranged between the two hemispherical shells 510. Bee eggs (not shown) are contained in the hemispherical shell 510 enclosed by the baffle 520, and the bee eggs comprise trichogramma eggs, and the baffle 520 is provided with a plurality of holes 530. The aperture 530 allows organisms to exit the biocontainer. The bio-dispenser works by bringing the artificial bee nest 500 into the installation gap between the two external rotor motors 310a and 310b for squeezing, acceleration and separation. The separated artificial bee nest 500 has two hemispherical shells 510 connected by a line, which hang on the plant of corn or other plants after free fall. The creature such as trichogramma bee eggs become larvae and then climb out of the holes 530 of the baffle 520 of the artificial bee nest (hereinafter, the holes 530 are referred to as larva climbing holes) to search for a control or parasitic object. Obviously, the artificial bee nest described in CN206782881U is suitable for being thrown in dry farmland where plants are grown. If the CN206782881U artificial honeycomb is thrown into a paddy field, after the artificial honeycomb divided into two hemispherical shells enters the paddy field, water can climb out of the larva holes and enter the hemispherical shells 510, so that bee eggs in the artificial honeycomb are soaked and submerged, and the hatching efficiency of the bee eggs is reduced.

The trichogramma eggs were adhered to cards, known in the art as trichogramma cards (see CN 204272968U).

Disclosure of Invention

In order to solve the technical problem, the utility model aims at providing an artificial honeycomb suitable for releasing trichogrammatid bee eggs in paddy fields.

The purpose of the utility model is realized like this: spherical container that forms by two upper and lower hemisphere shell locks sets up baffle, characterized by at upper hemisphere shell: a balancing weight is arranged at the center of the bottom of the lower hemispherical shell; the upper hemispherical shell is provided with a plurality of larva climbing holes, one side of the trichogramma bee card without bee eggs is adhered to the upper surface of the upper hemispherical shell baffle plate, so that the trichogramma bee card is positioned in the upper hemispherical shell cavity, and the side of the trichogramma bee card with the bee eggs faces upwards to face the larva climbing holes on the upper hemispherical shell; the upper shell and the lower shell are buckled, namely the upper shell and the lower shell are matched through threads.

Will the utility model discloses after throwing into the paddy field, because the effect of balancing weight makes the utility model discloses just like the tumbler down the casing stand in the paddy field all the time, bee card and larva climb out the hole and lie in on the level all the time, make water can not climb out the hole through the larva and get into this real neotype inner chamber, and then make the bee card avoid the blister. After hatching the larva, the bee eggs on the bee card climb out through the larva climbing hole, the utility model discloses later look for prevention and cure or parasitic object.

Compared with CN206782881U, the utility model has the positive effects that: after the bee card is put into a paddy field, the bee card can be prevented from being soaked by water, and the hatching efficiency of bee ova is obviously improved.

Drawings

The present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of the present invention.

Fig. 2 is a longitudinal sectional view of fig. 1.

Detailed Description

The spherical container is formed by buckling an upper hemispherical shell 1 and a lower hemispherical shell 2; a balancing weight 21 is arranged at the center of the bottom of the lower hemispherical shell; the upper hemispherical shell is provided with a baffle 12 (the lower hemispherical shell is not provided with the baffle), the upper hemispherical shell is provided with a plurality of larva climbing holes 11, the trichogramma bee card 3 is adhered to the upper surface of the baffle of the upper hemispherical shell by the side without bee eggs, so that the trichogramma bee card is positioned in the cavity of the upper hemispherical shell, and the trichogramma bee card faces upwards to the larva climbing holes on the upper hemispherical shell by the side with bee eggs; the upper shell and the lower shell are buckled, namely the upper shell and the lower shell are matched through threads.

Will be spherical the utility model discloses throw into in the paddy field after, because the effect of balancing weight makes the utility model discloses standing in the paddy field like the tumbler throughout, lower hemisphere shell interface and larva climb out the hole on the level, make water can not pass through the larva and climb out the hole and get into in this real neotype inner chamber, and then make the bee card avoid the blister. After hatching the larva, the bee eggs on the bee card climb out through the larva climbing hole, the utility model discloses later look for prevention and cure or parasitic object.

Claims (1)

1. The utility model provides a be suitable for artifical honeycomb of trichogrammatid bee ovum of input paddy field, the spherical container that forms by upper and lower two hemisphere shell locks sets up baffle, characterized by at last hemisphere shell: a balancing weight is arranged at the center of the bottom of the lower hemispherical shell; the upper hemispherical shell is provided with a plurality of larva climbing holes, one side of the trichogramma bee card without bee eggs is adhered to the upper surface of the upper hemispherical shell baffle plate, so that the trichogramma bee card is positioned in the upper hemispherical shell cavity, and the side of the trichogramma bee card with the bee eggs faces upwards to face the larva climbing holes on the upper hemispherical shell; the upper shell and the lower shell are buckled, namely the upper shell and the lower shell are matched through threads.

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