SU1676552A1 - Beehive - Google Patents

Abstract

The invention relates to beekeeping, in particular to the ventilation of ul. The purpose of the invention is to optimize the microclimate control in the hive. Independent two-stage ventilation exhaust pipes 6 are installed in the housing of the ul. The lower end portion 7 of the tube is lowered into the housing and provides for the extraction of cold, raw air from the lower part. The central portion 8 is located on the ceiling mesh cover 2 and is heated by the club radiation and provides traction in the tube 6. The air discharge from the tube 6 is provided with a shortened end portion 7. The ventilation system provides variation of the traction force in the tubes 6 depending on the amount of heat radiation bee club and more intensive ventilation of the part of the nest where the bee club is located. 2 sludge.

Description

The invention relates to beekeeping, in particular to a ventilation system in a hive,

The aim of the invention is to optimize the regulation of the microclimate in the hive.

Figure 1 schematically shows a beehive, a plan view; figure 2 is the same, vertical section.

The beehive contains a housing 1 with a ceiling coating 2. A cover is installed on the ceiling coating 3. The ceiling coating is made of frames 4 with a mesh inserted in them 5. The ventilation exhaust pipes 6 are made of two cranks and consist of three straight sections. The lower end portion 7 is located in the housing 1. The central portion 8 with a shortened end portion 9 is placed on the ceiling covering. The tubes are made of thin-walled moisture- and air-tight material having high thermal conductivity of the horizontal sections 8. To create a decrease in thermal conductivity at the end sections 7, they are wrapped with a moisture-proof heat-insulating tape. The diameter of the tube does not exceed 8-10 mm to create the highest possible air velocity, which helps to avoid the formation of a crust (ice) at the outlet. For the same purpose, a wire cap 9 coated with two layers of gauze is installed over the outlet ends of the tubes. On the ceiling cover 2 in winter, an insulation pad 10 is made, made for convenience of two halves.

The hive is used as follows.

When preparing the hive for wintering, ventilation tubes 6 are installed in the corners of the hull as shown in the drawings. The heat radiation of the bee club affects the central sections of 8 tubes 6, heats them and thereby creates traction in the tubes. The created draft removes the most stagnant moist and cold air concentrated in the corners of the nest, in its lower zone. The presence of several independent tubes 6 provides individual ventilation of various zones of the socket. Since the heat radiation of the nest is directly dependent on the need of the bee colony for fresh air inflow, the traction force is actually regulated by the bee club itself. The inflow of fresh air into the hive is provided through a notch (not shown) or through cracks in the hive. Elongated end sections 7, lowered into the lower zone of the housing 1, remove the coldest moist air from it.

The ventilation system of the proposed hive provides a time-free and synchronous change in the thrust in the tubes 6 depending on the heat radiation of the bee club and more intensive ventilation of that part of the nest where the bee club is currently located.

Claims (1)

Claim A beehive, comprising a housing with a ceiling covering mounted on it with the formation of an underwing space by a cover and exhaust ventilation elements installed in the housing, characterized in that, in order to optimize the climate control in the hive, each exhaust ventilation element is made in the form of a two-pipe end with vertical and rectilinear horizontal sections, while the hole of the lower end section is placed in the bottom area of the housing, and the horizontal section is placed on the ceiling and which is made mesh.