CN219514997U - Artificial honeycomb - Google Patents

Abstract

The utility model provides an artificial honeycomb, which aims to solve the technical problems that: how to improve the survival rate of living insects during the period from emergence to delivery. The utility model comprises a honeycomb shell and a honeycomb cavity, wherein the honeycomb shell is provided with a pit, and an air hole is opened at the bottom of the pit and is communicated with the honeycomb cavity. The utility model has the positive effects that: during the period from eclosion to throwing, the ventilation holes filled with cotton clusters are in a ventilation state, and living insects in the honeycomb cavities are also in a ventilation state, so that the survival rate of the living insects is obviously improved. The utility model is suitable for being put in dry farms and forest farms.

Description

Artificial honeycomb

Technical Field

The utility model relates to an artificial honeycomb.

Background

CN113197161a discloses a method for throwing artificial honeycomb by unmanned aerial vehicle, mainly comprising the steps of firstly adopting non-natural hatching means to eclosion parasitic ovum on the ground to live insects, then taking the artificial honeycomb filled with live insects onto unmanned aerial vehicle, punching flying holes before throwing, and finally throwing, so as to increase the parasitic rate of live insects onto pest ovum on plant. The artificial honeycomb (such as CN 209121027U) is formed by buckling an upper shell 1 and a lower shell 2 before flying away from the hole, and comprises a honeycomb shell and a honeycomb cavity, wherein the honeycomb cavity is a closed container. That is, the living insects are placed in the honeycomb cavities from the ground to the period from the lifting operation of the unmanned aerial vehicle, the flying off of the holes and the throwing (hereinafter referred to as the period from the eclosion to the throwing), and the living insects are always in the closed spherical container, so that the ventilation condition is extremely poor, and the survival rate of the living insects is inevitably influenced.

Disclosure of Invention

In order to solve the technical problems, the utility model aims to provide an artificial honeycomb.

The purpose of the utility model is realized in the following way: including honeycomb shell and honeycomb chamber, characterized by: the honeycomb shell is provided with pits, and air holes are opened at the bottoms of the pits and are communicated with the honeycomb cavities.

The use method comprises the steps of firstly placing parasitic eggs into honeycomb cavities, buckling an upper shell and a lower shell, and plugging ventilation holes by using loose cotton clusters into pits, wherein the loosening degree of the cotton clusters is based on ventilation, namely, the ventilation holes plugged with the cotton clusters are kept in a ventilation state, and live insects after emergence are prevented from escaping from the ventilation holes. After the parasitic eggs in the honeycomb cavities are eclosion, the utility model filled with living insects is taken to an unmanned plane, and flying holes are drilled before throwing. Finally, putting in, and enabling the living insects to leave from the flying-away hole.

Compared with the prior art, the utility model has the following positive effects: during the period from eclosion to throwing, the ventilation holes filled with cotton clusters are in a ventilation state, and living insects in the honeycomb cavities are also in a ventilation state, so that the survival rate of the living insects is obviously improved.

Drawings

The utility model is further described below with reference to the drawings.

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic view of the upper and lower cases of the present utility model when opened.

Detailed Description

The upper shell 1 and the lower shell 2 are buckled to form a honeycomb shell, a cylindrical pit 4 is arranged on the upper shell 1 of the honeycomb shell, and an air hole 3 is opened at the bottom of the pit and is communicated with a honeycomb cavity 5.

The use method comprises the steps of firstly placing parasitic eggs into honeycomb cavities, buckling an upper shell and a lower shell, and plugging ventilation holes by using loose cotton clusters into pits, wherein the loosening degree of the cotton clusters is based on ventilation, namely, the ventilation holes plugged with the cotton clusters are kept in a ventilation state, and live insects after emergence are prevented from escaping from the ventilation holes. After the parasitic eggs in the honeycomb cavities are eclosion, the utility model filled with living insects is taken to an unmanned plane, and flying holes are drilled before throwing. Finally, putting in, and enabling the living insects to leave from the flying-away hole.

If the legged bees need to be put in a forest farm, legged bee pupas can be put in the honeycomb cavities of the utility model, the process is the same as the above, and the legged bee pupas emerge to survive insects and leave from the flying holes.

The utility model is suitable for being put in dry farms and forest farms.

Claims (2)

1. An artificial honeycomb comprising a honeycomb shell and a honeycomb cavity, characterized in that: the honeycomb shell is provided with pits, and air holes are opened at the bottoms of the pits and are communicated with the honeycomb cavities.

2. An artificial honeycomb according to claim 1, wherein: the pit is cylindrical.