WO2017064525A1

WO2017064525A1 - Metallic tilting stand for honey extractors

Info

Publication number: WO2017064525A1
Application number: PCT/GR2016/000052
Authority: WO
Inventors: Christos-Stavros KAVALIERATOS; Nikolaos DIMITROPOULOS
Original assignee: Kavalieratos Christos-Stavros; Dimitropoulos Nikolaos
Priority date: 2015-10-12
Filing date: 2016-10-12
Publication date: 2017-04-20
Also published as: GR1008938B

Abstract

According to the present invention, the tilting stand has the characteristic that fits easily to all known types of honey extractors and consists of a motionless support frame (1) that incorporates an axis (12) around of whom rotates a tilting frame (2) on top of which the honey extractor is placed. The tilting frame (2) at the horizontal level position offers a robust support for the honey extractor during centrifugation function and additionally a very good absorption of the vibrations that are generated because of the honey extractor centrifugation function, and has the ability to tilt the honey extractor (at an angle) at drain out position with just a slight push of the honey extractor, where it can be absolutely safely secured, in order that the filling of the settler containers with honey to become more effective. This way we can achieve better honey drain out (faster velocity and more quantity), easier and faster cleaning of the honey extractor and less vibrations and noise generation.

Description

D E S C R I P T I O N

Metallic tilting stand for honey extractors The invention refers to a metallic tilting stand, on top of which the honey extractor is placed, in other words the barrel that incorporates frame cassettes and is used for honey extraction by centrifugation from the removable frames of the beehive, in order finally to drain out into special collecting containers.

Up to now, all known honey extractors, no matter their size, weight and functioning (electrically or manually) they do not have a stand, but instead legs that support them on the ground surface. The bottom of the honey extractors (bottom of the barrel) is not inclining but either horizontal or resembles a standing circular cone and at some point of the external surface of the barrel incorporates a cannula from where the honey that has been previously extracted from the frames and has been collected at the bottom of the honey extractor drains out into the collecting containers. The fact that the bottom of the honey extractor lies in parallel to the ground, has the consequence that the honey drains out slowly via the cannula and finally a layer of honey remains at the bottom of the barrel and does not drain out of the honey extractor at all, so the barrel of the honey extractor empties very slowly, an important part of the honey harvest (according to the size of the honey extractor) remains at the bottom of the honey extractor and represents a loss of the production procedure and finally the barrel of the honey extractor either demands a lot of cleaning effort from the remains of honey and other foreign particles (beeswax, pollen, wood pieces, bees) before the next honey extraction or remains uncleaned and the remains of honey and foreign particles mix up with the next honey variety altering its quality. The metallic tilting stand for honey extractors according to the present invention has the characteristic that can be easily adapted to all known types of honey extractors and is made up of a motionless support frame that incorporates an axis around of whom rotates a tilting frame on top of which the honey extractor is placed. The tilting frame at horizontal position offers a robust support during the centrifugation function of the honey extractor and has the ability to move the honey extractor at atilt (at an angle) drain out position by just a simple and easy manual push, where the honey extractor is absolutely safely stabilized, in order to increase honey drain out into the collecting container in a more productive way. In such a simple manner the movement towards the opposite direction can also be achieved. That can be achieved because the frame on which the honey extractor is placed, rotates around the axis that is incorporated at the support frame and the honey extractor moves at a sagittal plane from the horizontal functioning position to the atilt drain out position and vice-versa, in between the extreme points of its orbit that are determined by terminal metallic fixation systems ("stops"), both at the horizontal and atilt positions, securing this way a robust and safe stabilization of the tilting frame and of the honey extractor that is placed on top of it (tilting frame). There is the option of three in total secure positions of the tilting frame, one horizontal and two at an angle and the tilting frame is safely secured at all three positions, both automatically and manually.

The metallic tilting stand for honey extractors, according to the present invention, offers many advantages. Because the honey extractor that is placed on top of the tilting frame can be safely secured at an angle, honey drain out via the cannula can be ideal. That is because the driving force that is exerted on honey by gravity is increased so the honey drain out velocity via the cannula is increased and on the other hand smaller quantities of honey can drain out via the cannula that in a different always horizontal position would remain at the bottom of the honey extractor. This way, increased drain out velocity can be achieved decreasing drain out time into the collecting containers and on the other hand almost all the quantity of the extracted honey can drain out, with minimum, almost zero losses remaining at the bottom of the honey extractor. At the same time, having increased the quantity of honey that drains out of the honey extractor, according to the invention, the honey extractor by the end of the drain out period remains with very few traces of honey and other contaminating foreign bodies, so in parallel to the increase of honey production, an easier and quicker cleaning procedure of the honey extractor can be achieved. Additionally, the atilt position of the honey extractor during its cleaning, allows for better cleaning water drain out and the included salts, that in a different situation their presence in larger quantities inside the honey extractor would contaminate the quality of the honey of a future harvest. Finally, because the honey extractor is placed securely on top of the stand and the stand on the ground and the two frames of the stand (motionless support frame and tilting frame) are combined at horizontal position in such a stable way, the vibrations that are generated by the centrifugation function of the honey extractor are absorbed by the stand and this way the vibrations' transmission from the centrifugation of the beehive frames to the edges of the honey extractor is decreased thus decreasing the noise during functioning.

Figure 1 shows a prospective view of the metallic tilting stand for honey extractors at horizontal position (centrifugation function position of the honey extractor) and more specific, of the motionless support frame (1), of the tilting frame (2) on top of which the honey extractor is placed and of the honey extractor (3) itself.

Figure 2 shows a prospective view of the metallic tilting stand for honey extractors at atilt position (drain out position of the honey extractor) and more specific, of the motionless support frame (1), of the tilting frame (2) on top of which the honey extractor is placed and of the honey extractor (3) itself and additionally the ability of the tilting frame (and the honey extractor that is placed on top of it) to move bipolarly at a sagittal plane (4). Figure 3 shows another view of the metallic tilting stand for honey extractors at atilt position (drain out position of the honey extractor) more tilted and more specific of the motionless support frame (1), of the tilting frame (2) on top of which the honey extractor is placed and of the honey extractor (3) itself and additionally the ability of the tilting frame (and the honey extractor that is placed on top of it) to move bipolarly at a sagittal plane (4).

Figure 4 shows the different parts that make up the motionless support frame (1) and more specific, the metallic fixation places of the stand (5), that they incorporate a hole through which the fixation screw (6) passes and fixes the stand on the ground with the aid of a safety washer (7), the horizontal position's terminal metallic fixation systems ("stops") (8) that incorporate a hole with thread (9) in which stabilization screws (32) are screwed in and are permanently mounted at the posterior side of the support frame (1), the final atilt position's terminal metallic fixation systems ("stops") (10), that are permanently mounted at the anterior side of the support frame (1), the rotation axis' stabilization plates (11) that are permanently mounted on frame (1), rotation axis (12) of the tilting frame (2) on top of which the honey extractor is placed that is permanently mounted on frame (1), the horizontal position's metallic fixation blades (13) of frame (2) that incorporate holes with thread in which screws (14) are screwed in and are permanently mounted on the support frame (1), the posterior cylindrical dumpers that incorporate internal reciprocating piston for negative acceleration of the movement of the tilting frame - posterior amortisseurs (15), the anterior cylindrical dumpers that incorporate internal reciprocating piston for negative acceleration of the movement of the tilting frame - anterior amortisseurs (16), the lower amortisseurs' fixation places (17) that incorporate holes for the passing through of the safety amortisseurs' screws (18) and are permanently mounted on frame (1), the safety nuts (19) of the safety amortisseurs' screws (18), the first atilt positions' safety hole (20), the mounted safe stabilization points via movable pin (21), the driving and automatic safe stabilization plate via movable pin (22) and the terminal safe stabilization hole (23). Figure 5 shows the different parts that make up the tilting frame (2) on top of which the honey extractor is placed and more specific, the movable stabilization pins (24) that move inside the driving canals (25) and are secured at the mounted safe stabilization points (21) and at the first atilt positions' safety holes (20), the automatic movable stabilization pin (26) with spring wire (27), that moves inside the driving canal (28) and secures at the terminal safe stabilization hole (23), the upper amortisseurs' fixation places (29) that incorporate holes for the passing through of the screws that are permanently mounted on amortisseurs (15) and (16) and are permanently mounted on frame (2), safety nuts (30) that secure the screws that are permanently mounted on amortisseurs (15) and (16), the holes with thread (31) where the safety screws (32) are screwed in at the posterior ones and where the safety screws (14) are screwed in at the anterior ones, the holes (33) where axis (12) is mounted and the honey extractor's legs' fixation places (34), that are permanently mounted on frame (2) and incorporate holes for the passing through of the screws (35) that are secured by safety nuts (36).

At the drawings that are here presented, several parts with specific technical characteristics have been used (e.g. amortisseurs, metallic blades, places with holes with thread) but that does not exclude the use of other similar parts from the market or custom made parts that support similar function.

The invention is described below functioning and in reference to the attached drawings, where:

Figure (1) presents the tilting stand for honey extractors, on top of which a honey extractor is already placed at horizontal (parallel to the ground) position, that offers a robust support at the centrifugation function position of the honey extractor and at the same time better absorption of the vibrations that are generated during the centrifugation function of the honey extractor. That can be achieved because: a) The tilting stand for honey extractors is securely fixed on the ground, because of the metallic fixation places of the stand (5), that they incorporate a hole through which the fixation screw (6) passes and fixes the stand on the ground with the aid of a safety washer (7), b) the honey extractor is fixed securely on top of the tilting stand because of the honey extractor's legs' fixation places (34), that are permanently mounted on frame (2) and incorporate holes for the passing through of the screws (35) that are secured by safety nuts (36), c) frames (1) and (2) are combined and safely secured with each other at the horizontal position because of the horizontal position's terminal metallic fixation systems ("stops") (8) that incorporate a hole with thread (9) in which stabilization screws (32) are screwed in and are permanently mounted at the posterior side of the support frame (1), because of the horizontal position's metallic fixation blades (13) of frame (2) that incorporate a hole with thread in which screws (14) are screwed in and are permanently mounted on the support frame (1), because of the mounted safe stabilization points via movable pin (21), the driving and automatic safe stabilization plate via movable pin (22) and the terminal safe stabilization hole (23) and because of the upper amortisseurs' fixation places (29) that incorporate holes for the passing through of the amortisseurs' (15) and (16) permanently mounted screws and are permanently mounted on frame (2), the safety nuts (30) that secure in place the amortisseurs' (15) and (16) permanently mounted screws and the safety nuts (19) for the amortisseurs' safety screws (18).

Figure (2) presents the position of the honey extractor at the first atilt position, that offers a robust support at the drain out position of the honey extractor, where the ideal honey drain out velocity can be achieved via the cannula, having as results the decreased honey drain out time from the honey extractor barrel to the collecting (settler) containers and on the other hand the drain out of the maximum possible (almost all) quantity of honey, with minimum, almost zero honey losses remaining at the bottom of the honey extractor barrel. That can be achieved because: a) The tilting stand for honey extractors is securely fixed on the ground, because of the metallic fixation places of the stand (5), that they incorporate a hole through which the fixation screw (6) passes and fixes the stand on the ground with the aid of a safety washer (7), b) the honey extractor is fixed securely on top of the tilting stand because of the honey extractor's legs' fixation places (34), that are permanently mounted on frame (2) and incorporate holes for the passing through of the screws (35) that are secured by the safety nuts (36), c) frames (1) and (2) are combined and safely secured with each other at the first atilt position because of the movable stabilization pins (24) that move inside the driving canals (25) and are secured at the first atilt positions' safety holes (20), and because of the upper amortisseurs' fixation places (29) that incorporate holes for the passing through of the screws that are permanently mounted on amortisseurs (15) and (16) and are permanently mounted on frame (2), the safety nuts (30) that secure the screws that are permanently mounted on amortisseurs (15) and (16) and the safety nuts (19) for the amortisseurs' safety screws (18).

Figure (3) presents the metallic tilting stand for honey extractors at the final atilt position where honey drain out velocity via the cannula increases even more and even the last remaining quantities of honey are recovered in the collecting containers. That can be achieved because: a) The tilting stand for honey extractors is securely fixed on the ground, because of the metallic fixation places of the stand (5), that they incorporate a hole through which the fixation screw (6) passes and fixes the stand on the ground with the aid of a safety washer (7), b) the honey extractor is fixed securely on top of the tilting stand because of the honey extractor's legs' fixation places (34), that are permanently mounted on frame (2) and incorporate holes for the passing through of the screws (35) that are secured by the safety nuts (36), c) frames (1 ) and (2) are combined and safely secured with each other at the final atilt position because of the final atilt position's terminal metallic fixation systems ("stops") (10), that are permanently mounted at the anterior side of the support frame (1), and because of the upper amortisseurs' fixation places (29) that incorporate holes for the passing through of the screws that are permanently mounted on amortisseurs (15) and (16) and are permanently mounted on frame (2), the safety nuts (30) that secure the screws that are permanently mounted on amortisseurs (15) and (16) and the safety nuts (19) for the amortisseurs' safety screws (18).

Claims

C L A I M S

1. The metallic tilting stand for honey extractors consists of a motionless support frame (1) that incorporates an axis (12) around of whom rotates a tilting frame (2) on top of which the honey extractor (3) is placed and is characterized by the fact that the honey extractor (3) on top of the tilting frame (2) can move at a sagittal plane (4) and additionally can be safely stabilized both at the horizontal level position and at the atilt (at an angle) position.

2. The metallic tilting stand for honey extractors according to claim 1 is characterized by the fact that the motionless support frame (1) is securely fixed on the ground by the metallic fixation places of the stand (5), that they incorporate a hole through which the fixation screw (6) passes and fixes the stand on the ground with the aid of a safety washer (7).

3. The metallic tilting stand for honey extractors according to claim 1 is characterized by the fact that the honey extractor is fixed securely on top of the tilting frame (2) of the stand at the honey extractor's legs' fixation places (34), that are permanently mounted on frame (2) and incorporate holes for the passing through of the screws (35) that are secured by safety nuts (36).

4. The metallic tilting stand for honey extractors according to claims 1 and 2 is characterized by the fact that the tilting frame (2) is stabilized at the horizontal level position, where it offers a robust support for the honey extractor during the centrifugation function, because of the horizontal position's terminal metallic fixation systems ("stops") (8) that incorporate a hole with thread (9) in which stabilization screws (32) are screwed in and are permanently mounted at the posterior side of the support frame (1), the horizontal position's metallic fixation blades (13) of frame (2) that incorporate a hole with thread in which screws (14) are screwed in and are permanently mounted on the support frame (1), mounted safe stabilization points via movable pin (21), driving and automatic safe stabilization plate via movable pin (22) and terminal safe stabilization hole (23) and upper amortisseurs' fixation places (29) that incorporate holes for the passing through of the amortisseurs' (15) and (16) permanently mounted screws and are permanently mounted on frame (2), safety nuts (30) that secure in place the amortisseurs' (15) and (16) permanently mounted screws and safety nuts (19) for the amortisseurs' safety screws (18).

5. The metallic tilting stand for honey extractors according to claim 1 is characterized by the fact that the tilting frame (2) rotates around axis (12) at a sagittal plane, in between the extreme points of its orbit, thus in between the horizontal position's terminal metallic fixation systems ("stops") (8), that are permanently mounted at the posterior side of the support frame (1), and the final atilt position's terminal metallic fixation systems ("stops") (10), that are permanently mounted at the anterior side of the support frame (1).

6. The metallic tilting stand for honey extractors according to claim 5 is characterized by the fact that the tilting frame (2) rotates around axis (12) with just a slight push, as a result of the resultant force that is generated by the weight of the honey extractor itself in combination with the function of the cylindrical amortisseurs that incorporate internal reciprocating piston for negative acceleration of the movement of the tilting frame - posterior amortisseurs (15) and anterior amortisseurs (16), that incorporate permanently mounted screws that pass through the holes of the permanently mounted on frame (2) upper amortisseurs' fixation places (29) and are secured in place by safety nuts (30) and are also secured in place by the safety amortisseurs' screws (18) that pass through the holes of the permanently mounted on frame (1) lower amortisseurs' fixation places (17) and are secured in place by safety nuts (19).

7. The metallic tilting stand for honey extractors according to claims 1 and 5 is characterized by the fact that across the sagittal orbit of the tilting frame (2) there are at least two (first and final) atilt (at an angle) positions, where the tilting frame (2) is safely stabilized, at the first atilt position by the aid of the movable stabilization pin (24) that move inside the driving canals (25) and are secured at the first atilt positions' safety hole (20) and at the final atilt position by the aid of the final atilt position's terminal metallic fixation systems ("stops") (10), that are permanently mounted at the anterior side of the support frame (1), in combination with the support that is offered at both positions by the cylindrical amortisseurs that incorporate internal reciprocating piston for negative acceleration of the movement of the tilting frame - posterior amortisseurs (15) and anterior amortisseurs (16), and also incorporate permanently mounted screws that pass through the holes of the permanently mounted on frame (2) upper amortisseurs' fixation places (29) and are secured in place by safety nuts (30) and are also secured in place by the safety amortisseurs' screws (18) that pass through the holes of the permanently mounted on frame (1) lower amortisseurs' fixation places (17) and are secured in place by safety nuts (19).