Disclosed is a new beekeeping-related structure of a honeycomb frame to be emptied while inside a beehive box of a beehive, which enables the honeycomb to be conveniently opened by an opening mechanism to draining position, i.e., to honey extraction position, and thus also to drain it very quickly from honey.
Honey and wax processing machines and apparatus; machines
and apparatus for uncapping honey; honey extraction
machines. Honeycombs; comb foundations for beehives; beehives; parts
and fittings for beehives.
Honey and wax processing machines and apparatus; Machines and apparatus for uncapping honey; Honey extraction machines. Artificial honeycombs for beehives; Comb foundations for beehives; Beehives; Parts and fittings for beehives.
Honeycombs; comb foundations for beehives; beehives; parts and fittings for beehives, namely, sections of polystyrene specially adapted for beehives and polystyrene boxes specially adapted for beehive boxes
7.
Supercharger for feeding honey and beeswax mixture into a honey and beeswax separation screw
Embodiments of the invention concern a supercharger (1) for feeding honey and beeswax mixture into a honey and beeswax separation screw, which comprises at least a filter pipe (3), a pipe connection fitting (4), an inlet pipe (7) for honey and beeswax mixture and an inlet pipe connection (6) for the honey and beeswax mixture inlet pipe. In an embodied supercharger, the pipe connection fitting (4) is connected radially to the side of the filter pipe (3) and to the other end of the pipe connection fitting is connected the inlet pipe (7) for honey and beeswax mixture using the inlet pipe connection (6) for the honey and beeswax mixture inlet pipe.
B01D 29/03 - Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups Filtering elements therefor with flat filtering elements self-supporting
B01D 36/00 - Filter circuits or combinations of filters with other separating devices
B30B 9/12 - Presses specially adapted for particular purposes for squeezing-out liquid from liquid-containing material, e.g. juice from fruits, oil from oil-containing material using pressing worms or screws co-operating with a permeable casing
8.
A CLEANER FOR PIERCER SPIKES OF A DEVICE FOR PRICKING HONEYCOMB FRAMES
A cleaner (1) for piercer spikes (6) of a device for pricking honeycomb frames. The cleaner (1) for the piercer spikes (6) of a device for pricking honeycomb frames (3) is installed to the device and cleans the piercer spikes (6) automatically during the usage of the device. A plate-like cleaning member (2) is placed on both sides of the honeycomb frame (3) located inside the device so that the piercer spikes (6) pierce the wax caps of the honeycomb frame (3) after first piercing this plate-like cleaning member (2) on both sides of the honeycomb frame (3). In this cleaning member (2) the holes for piercing it by the piercer spikes are oval slots (11) so that each vertically inline located line of piercer spikes (6) moves through one oval slot-shaped aperture when the device is processing honeycomb frames (3). When the piercer spikes (6) are moving away from the honeycomb frame (3), the edges of the oval slot-shaped apertures wipe the piercer spikes (6) clean.
It is an object of the description of embodiments of the invention to provide a new beekeeping-related structure (1) of a honeycomb frame to be emptied while inside a beehive box of a beehive, which enables the honeycomb to be conveniently opened by means of an opening mechanism to draining position, i.e., to honey extraction position, and thus also to drain it very quickly from honey.
Embodiments of the invention concern a supercharger (1) for feeding honey and beeswax mixture into a honey and beeswax separation screw, which comprises at least a filter pipe (3), a pipe connection fitting (4), an inlet pipe (7) for honey and beeswax mixture and an inlet pipe connection (6) for the honey and beeswax mixture inlet pipe. In an embodied supercharger, the pipe connection fitting (4) is connected radially to the side of the filter pipe (3) and to the other end of the pipe connection fitting is connected the inlet pipe (7) for honey and beeswax mixture using the inlet pipe connection (6) for the honey and beeswax mixture inlet pipe.
B30B 9/14 - Presses specially adapted for particular purposes for squeezing-out liquid from liquid-containing material, e.g. juice from fruits, oil from oil-containing material using pressing worms or screws co-operating with a permeable casing operating with only one screw or worm
C11B 1/10 - Production of fats or fatty oils from raw materials by extracting
11.
SUPERCHARGER FOR FEEDING HONEY AND BEESWAX MIXTURE INTO A HONEY AND BEESWAX SEPARATION SCREW
Embodiments of the invention concern a supercharger (1) for feeding honey and beeswax mixture into a honey and beeswax separation screw, which comprises at least a filter pipe (3), a pipe connection fitting (4), an inlet pipe (7) for honey and beeswax mixture and an inlet pipe connection (6) for the honey and beeswax mixture inlet pipe. In an embodied supercharger, the pipe connection fitting (4) is connected radially to the side of the filter pipe (3) and to the other end of the pipe connection fitting is connected the inlet pipe (7) for honey and beeswax mixture using the inlet pipe connection (6) for the honey and beeswax mixture inlet pipe.
B30B 9/14 - Presses specially adapted for particular purposes for squeezing-out liquid from liquid-containing material, e.g. juice from fruits, oil from oil-containing material using pressing worms or screws co-operating with a permeable casing operating with only one screw or worm
C11B 1/10 - Production of fats or fatty oils from raw materials by extracting
12.
Device for pricking the wax caps of a honeycomb frame
Disclosed is a honeycomb frame wax cap pricking device including base frame, spike assemblies and a movement mechanism, wherein the pricking mechanism of the pricking device has a rotatable eccentric mechanism.
A device for uncapping wax cappings (13) that cover honeycombs (14). Before extracting, the sealed honeycombs (14) have to be uncapped in order to be able to spin the honey out of the honeycombs (14). The cutting system of this device allows, besides full-sized honeycombs (14), also a precise uncapping of undersized honeycombs (14) or shallow and deformed honeycomb structures, which cannot be uncapped using traditional cutting systems. The device includes rotatably mounted perforating elements (11, 12), and supporting elements (5, 6), on which the perforating elements (11, 12) are mounted. Secondly, the supporting elements are pivoted on a base for turning movement. Thirdly, the device has supporting elements equipped with a spring for pressing them against the honeycomb (14) with such a force that enables the piercing elements to go through the wax cappings (13) and into the honeycombs without damaging the other structures of honeycomb frame (2).
It is shown in the invention a honeycomb frame wax cap pricking device (1) comprising base frame (27), spike assemblies (5) and a movement mechanism, wherein the pricking mechanism of the pricking device (1) has a rotatable eccentric mechanism.
It is shown in the invention a honeycomb frame wax cap pricking device (1) comprising base frame (27), spike assemblies (5) and a movement mechanism, wherein the pricking mechanism of the pricking device (1) has a rotatable eccentric mechanism.
The aim of this invention is a new structure of honeycomb frame which is emptied inside a frames box of beehive. The new honeycomb frame structure enables faster emptying and is remarkably simpler in construction and therefore much more reliable. This honeycomb frame structure consists of new kind of cell forming lists and new kind of top bar, bottom bar and end bars of the honeycomb frame and also the draining mechanism and honey collecting piping and a honey tank inside the beehive. The new structure of honeycomb frame is characterized by the fact that cell part lists are mounted in a row into special guiding grooves in bottom bar and top bar. The special guiding grooves allow the up and down movement for every second cell forming list, the path of movement being defined by the draining mechanism. One extreme position of this movement is the closed position in which the cells are intact. The second extreme position is the opened position in which the cells are broken, wherein the honey from cells flows downwardly toward a canal located inside the bottom bar and from the channel to the honey collection piping. The new honeycomb frame and the associated honey collection piping allow the use of several boxes filled with these new honeycomb frames on top of each other in beehives. In addition, a significant advantage of the use of the new honeycomb frames is that the draining mechanism of the new honeycomb frame does not get stuck due to the new structure of cell forming lists, wherein the cells do not break open on the middle of the hexagon side but from the upper and lower corners of cell hexagons.
The present invention in the field of beekeeping is a new structure of a light-weight and rigid, caselike rotor of the honey extractor, wherein the spin axis is horizontally mounted. Said new structure enables the assembling of the rotor by bolts without welding retaining nevertheless the rigidity and the mechanical durability typical to the welded rotor structure. One further benefit is the ease of maintenance and changing the spare parts, as there is no longer a need for disassembling the welded joints. The new structure also enables assembling the rotor in a modular way for versions having different lengths. In this new rotor structure (1) there are 2-4 sectors, thin end flanges (2) and reinforcement guide rails (3) connecting said end flanges, and support bars for the honeycomb frames. The shapes of the end flanges (2) of the rotor (1) depend on the amount of said sectors.
The figure FIG 1 shows the present invention of the new structure of the filter assembly of the beeswax separation screw 1 that comprises cylindrical filter components 2,3,4 attached to each other one after the other. One of these cylindrical filter components composes of a cylindrical filter pipe 5, at the ends of which there are mounted flanges 6. The filter components 2, 3 and 4 are tightly attached one after the other with bolts so that the opposite flanges of the filter components 2, 3, 4 mounted one after the other settle against each other. The first filter component 4 of the structure 1 is open at its top under the feed hopper 7 and the following filter components 3 and 2 are closed, the sides of said filter components 2,3 and 4 having small holes on them, through which the increasing pressure forces the honey out. The other end of the filter component 4 Is mounted to the body of the beeswax separation screw with bolts. The structure 1 is beneficial also when composed of only two filter components 4 and 2, mounted one after the other, in case of which the filter component 4 comprises the whole length of the compression zone.
B30B 9/14 - Presses specially adapted for particular purposes for squeezing-out liquid from liquid-containing material, e.g. juice from fruits, oil from oil-containing material using pressing worms or screws co-operating with a permeable casing operating with only one screw or worm
C11B 11/00 - Recovery or refining of other fatty substances, e.g. lanolin or waxes
19.
STRUCTURE OF THE FILTER ASSEMBLY OF A BEESWAX SEPARATION SCREW
The figure FIG 1 shows the present invention of the new structure of the filter assembly of the beeswax separation screw 1 that comprises cylindrical filter components 2,3,4 attached to each other one after the other. One of these cylindrical filter components composes of a cylindrical filter pipe 5, at the ends of which there are mounted flanges 6. The filter components 2, 3 and 4 are tightly attached one after the other with bolts so that the opposite flanges of the filter components 2, 3, 4 mounted one after the other settle against each other. The first filter component 4 of the structure 1 is open at its top under the feed hopper 7 and the following filter components 3 and 2 are closed, the sides of said filter components 2,3 and 4 having small holes on them, through which the increasing pressure forces the honey out. The other end of the filter component 4 Is mounted to the body of the beeswax separation screw with bolts. The structure 1 is beneficial also when composed of only two filter components 4 and 2, mounted one after the other, in case of which the filter component 4 comprises the whole length of the compression zone.
B30B 9/14 - Presses specially adapted for particular purposes for squeezing-out liquid from liquid-containing material, e.g. juice from fruits, oil from oil-containing material using pressing worms or screws co-operating with a permeable casing operating with only one screw or worm
C11B 11/00 - Recovery or refining of other fatty substances, e.g. lanolin or waxes
In the field of beekeeping, uncapping and extracting the honeycomb frames are the main stages in the honey processing. The present invention is a loading device used for moving uncapped honeycomb frames from the uncapping device into the extractor. The movement mechanism of said device is built around a guide rail being mounted next to a loading rack. Not always being mounted exactly horizontally, the loading device has to work also when pushing or pulling the honeycomb frames toward the extractor on the loading rack slightly sloping up or down. The device adapts to the changes of the angle and the height of the loading rack automatically.
This invention is a new device for uncapping wax cappings (13) that cover honeycombs (14). Before extracting, the sealed honeycombs (14) have to be uncapped in order to be able to spin the honey out of the honeycombs (14). The cutting system of this device allows, besides full-sized honeycombs (14), also a precise uncapping of undersized honeycombs (14) or shallow and deformed honeycomb structures, which cannot be uncapped using traditional cutting systems. The device comprises rotatably mounted perforating elements (11, 12), and supporting elements (5, 6), on which said perforating elements (11, 12) are mounted. Secondly, the supporting elements are pivoted on a base for turning movement. Thirdly, the device has supporting elements equipped with a spring for pressing them against the honeycomb (14) with such a force that enables the piercing elements to go through the wax cappings (13) and into the honeycombs (14) without damaging the other structures of honeycomb frame (2).
This invention is a new device for uncapping wax cappings (13) that cover honeycombs (14). Before extracting, the sealed honeycombs (14) have to be uncapped in order to be able to spin the honey out of the honeycombs (14). The cutting system of this device allows, besides full-sized honeycombs (14), also a precise uncapping of undersized honeycombs (14) or shallow and deformed honeycomb structures, which cannot be uncapped using traditional cutting systems. The device comprises rotatably mounted perforating elements (11, 12), and supporting elements (5, 6), on which said perforating elements (11, 12) are mounted. Secondly, the supporting elements are pivoted on a base for turning movement. Thirdly, the device has supporting elements equipped with a spring for pressing them against the honeycomb (14) with such a force that enables the piercing elements to go through the wax cappings (13) and into the honeycombs (14) without damaging the other structures of honeycomb frame (2).
