RU2067827C1 - Bee family keeping unit - Google Patents

Abstract

FIELD: agriculture, in particular, apiculture. SUBSTANCE: bee keeping unit has hermetically sealed syrup vessel with inspection hole, heating members with thermoregulator and pipeline system. Syrup vessel may be mounted on surface such as pavilion roof. Pipelines have unions for supplying syrup into feeders of each beehive section. EFFECT: increased efficiency, simplified construction, wider operational capabilities by easy mounting on any surface or area for honey collection and other purposes. 4 dwg

Description

 The invention relates to beekeeping.

 By auto N 1616560, a device for keeping bee colonies is known, where the rear walls of the bee compartments are made in the form of a frame with removable inserts made in the form of a sieve or foam sheet, and windows with removable latches are located under the lower part of the frame.

 A disadvantage of the known technical solution is the low productivity when feeding bees with sugar syrup.

 This goal is achieved by the fact that a sealed syrup tank is installed on the roof of the pavilion, equipped with inspection windows, heating elements and a temperature regulator. The tank contains a conical bottom, which is connected to a vertical pipe using fittings, flexible pipes and couplings. On both sides, horizontal distribution pipes are connected to the vertical pipeline, equipped with curved pipes that are passed through the openings of the rear walls of the compartments (doors) to the feeders. Horizontal distribution pipelines rest on rotary curved metal rods pivotally mounted on doors. The feeder is made in the form of a frame; light perforated plates are located in it. Above these holes, valves are connected pivotally connected to each other by a spring and a winch using a flexible rod.

 The novelty of the technical solution is due to the fact that the use of horizontal distribution pipes equipped with curved pipes passed through the openings of the doors to the feeders and the connection of horizontal pipes with a sealed tank through a vertical pipe equipped with fittings and flexible pipes provide automatic syrup supply. As a result, productivity is improved.

 In a patent study of the claimed technical solution, a similar set of features was not found.

 The invention is illustrated by drawings, where figure 1 shows the installation for the maintenance of bee colonies, a cross section; figure 2 is the same, a top view; figure 3 shows the valve; figure 4 shows the liners.

 The installation consists of a mobile pavilion 1 made of a biaxial trolley. Two buildings are located along the side walls of the pavilion, in which there are compartments 3 for keeping bees, frames 4 are installed in them. In each compartment 3 there are doors 5. There are 6 guides in the doors 5, in which removable inserts 7,8,9 are made, made in the form of frames or valves of insulation. The insert 7 is made in the form of a frame with a one-sided polyethylene sieve covered with a layer of wax. The insert 8 is made in the form of a frame, in the lower base of which there is a feeder 10 for feeding bees with sugar syrup. The liner 9 is made in the form of a valve of a heater, contains grooves and is made of foam. In each building there are notches 11. On the roof 12 of pavilion 1, a sealed tank 13 for syrup is rigidly fixed. The tank 13 is equipped with a viewing window 14, heating elements 15, thermostat 16, a sealed cover 17, a conical bottom 18. The bottom 18 is rigidly connected to a vertical pipe 19, on which the fittings 20. The pipe 19 is connected to a horizontal distribution pipe 21 using fittings 20 and flexible nozzles 22. To the horizontal pipe 21, curved nozzles 23 are rigidly fixed. The nozzles are arranged at a certain equal interval. The nozzles 23 have the same size and the same bend configuration. Curved pipes 23 are passed through openings 24 in the doors 5 and installed inside the feeder 10. The pipe 10 is supported and fixed in a proper position by means of a curved metal rod 25. The rods 25 are pivotally fixed in the rings. Rotary valves 26 are pivotally fixed above the holes 24. The valves 26 are interconnected by a spring 27 and a winch 28 by means of a flexible rod 29. Each valve 26 has a semicircular notch 30 on its side. A crane 31 is installed on the pipeline 19. The syrup is transported to the pavilion on a tank trailer (not shown in the drawing). The winch 28 is equipped with a ratchet mechanism 32 and a handle 33. A perforated light plate 34 is installed in the feeder 10.

The device operates as follows. We rotate the handle 33 of the winch 28. The winch 28 with the help of a flexible rod 29 moves all the gate valves 26 to the side, opening all the openings at the same time 24. In the hole 24 we install and pass all the nozzles 23, lowering them into the feeders 10, then move the horizontal pipe 21 from bottom to top until it stops, turn the curved rods 25 through 90 ^o . In this case, the pipe 21, relying on the curved rods 25, is fixed by them in the proper position. Then we unlock the ratchet mechanism 32 of the winch 28. In this case, under the force of the springs 27, the gate valves 26 are moved to their original position using cutouts 30, reliably cover all the gaps and move all the nozzles to the edge of the hole 24. At the same time, all the gaps of the holes reliably overlap, thereby preventing the passage of bees through the gaps of the hole. Similarly, we install the pipeline 21 in the second and third tiers, then install similarly on all three tiers in the second building. After that, we make a hermetic connection of horizontal pipelines 21 with a vertical pipeline 19 using fittings 20, flexible pipes 22 and couplings 23.

 At a beekeeping apiary, a sugar syrup is prepared on the cooking apparatus (not shown in the drawing). The syrup is cooled to the proper temperature and transported to the apiary on a tank trailer. Open the lid 16, move the hose that is contained in the tank. Using a pump mounted on a trailer, we pump the syrup from the tank to tank 13 (not shown in the drawing). We monitor through the viewing window 14. As soon as the liquid level moves to a certain level, we stop pumping the syrup from the tank to the tank 13. Then we move the hose to its original position. Likewise, refuel tanks in 2, 3, 4. pavilions.

 We close the lid 17 tightly and open the valve 31. The syrup moves from the tank 13 through the pipe 21 and the curved pipes 23 to the feeders 10. As soon as the syrup enters the feeder, the plate 34 pops up. In this case, the supply of syrup and maintaining the proper level of liquid in the feeder are carried out automatically. As soon as the syrup level in the feeder 10 decreases due to eating by the bees, the hole 23 in the pipe 24 passes air, it moves through the pipe 24, pipe 21, pipe 22, pipe 19 into an airtight tank 13. From the tank, the same amount of syrup is transferred to the feeder 10. Spontaneous leakage of syrup from the tank is excluded, since the vacuum holds the syrup. In the feeder 10, plate 34 floats. Bees sit on plate 34, poking their proboscis into perforated holes. Then the syrup is processed and transferred by the bees to the framework, partially eaten by the bees. Syrup is supplied only in a warm form.

 Using the claimed technical solution in the national economy of the country will increase productivity when feeding bees with sugar syrup. YYY2

Claims (1)

 Installation for keeping bee colonies, including a mobile pavilion with summer houses and arrival boards, along the side walls of which are housings with compartments for bees equipped with doors, rollers, feeders and replaceable inserts mounted on guides, and a winch with a drive, characterized in that it is equipped a sealed syrup tank connected to vertical and horizontal pipelines installed on the roof of the pavilion and made with a viewing window, a sealed lid, heating elements with t a thermoregulator and a cone-shaped bottom passing into a vertical pipe on which the fittings are installed, guides for interchangeable inserts are placed in the doors and holes are made in which curved pipes are connected, connected at one end to the feeders and connected to flexible pipes connecting the horizontal pipes with fittings at the other vertical pipeline, while horizontal pipelines are installed with the possibility of fixation on curved rotary rods, above the holes in the doors hinged CREPLA rotary valves, interconnected by a spring, a flexible rod with a winch.

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