WO2018079902A1

WO2018079902A1 - Automatic honey collecting module and automatic honey collecting device having same

Info

Publication number: WO2018079902A1
Application number: PCT/KR2016/012788
Authority: WO
Inventors: 최영재
Original assignee: 농업회사법인 비즈팜 주식회사
Priority date: 2016-10-28
Filing date: 2016-11-08
Publication date: 2018-05-03
Also published as: KR101932741B1; KR20180046938A

Abstract

The present invention relates to an automatic honey collecting module and an automatic honey collecting device having the same and, more specifically to a method for automatically collecting honey collected in an automatic honey collecting module. To this end, the automatic honey collecting module of the present invention comprises: a lower cover unit; a half-hexagon fixing unit fixed to the lower cover unit in a state in which first half-hexagons are formed; a half-hexagon slide unit slidably coupled with the half-hexagon fixing unit in a state in which second half-hexagons are formed, and coupled to the lower cover unit so as to be capable of sliding between a first position, at which end portions of the first half-hexagons and end portions of the second half-hexagons come into close contact with each other so as to complete a hexagon, and a second position, at which the end portions of the second half-hexagons are spaced from the end portions of the first half-hexagons; and a moving bar for allowing the half-hexagon slide unit to slide between the first position and the second position.

Description

Honey automatic collecting module and honey automatic collecting device having the same

The present invention relates to a honey automatic collecting module and a honey automatic collecting device having the same, and more particularly, to a method for automatically recovering the honey collected in the honey automatic collecting module.

Honey is a product obtained by collecting bees and pollen from flowers using bees. As a part of the sweetening of sweeteners, many countries have abundant sugar production to encourage beekeepers to increase honey production. Such honey is increasingly being consumed as a sweetener.

On the other hand, honey is used as a medicinal and nutritional agent in both East and West, and is also used as an industrial and cosmetic raw material.

Bees are pollen mediators of crops, which can increase the rate of crop loss. As such, beekeepers can be very important and meaningful, so beekeeping is a very encouraging business.

However, there was a problem that a very complex process and effort had to be involved in collecting honey through a conventional beekeeper.

The honeycomb is installed inside the honey to allow honeybees to build houses and collect honey.When the honeybees fill the hexagon-shaped honeycomb with honey, the honeycomb is dismantled, the honeycomb is taken out, the honeycomb is taken out, placed in a high-speed rotor and applied to the honey. It goes through a complicated process of harvesting.

In order to simplify such a complicated procedure, U.S. Patent Application Publication No. 2014-0370781 provides a device that allows the honey contained in the honeycomb to flow down by shifting the honeycomb itself without being collected by centrifugal force.

However, US Patent Publication No. 2014-0370781 is such that each plate forming a honeycomb is connected to a cam that rotates on the top to repeat the displacement and meeting by the rotation of the cam so that it is impossible to separate each plate itself. There was a problem.

That is, the apparatus of US Patent Publication No. 2014-0370781 is not suitable for the environment in which the beehive housing is moved to beekeepers, and there is a limit in that honey be collected in a fixed state without moving the beehive.

Therefore, replacement of parts and cleaning of honeycomb are very difficult and complicated problems still remain.

That is, the apparatus for collecting honey of US Patent Publication No. 2014-0370781 still has many problems because its structure is very complicated.

The problem to be solved by the present invention is to propose a honey automatic harvesting module and a honey automatic harvesting device having the same that can be separated and moved installation and very easy automatic collection of honey.

To this end, the honey automatic collecting module of the present invention is the lower cover unit, the half hexagon fixing unit fixed to the lower cover unit in a state where the first half hexagon is formed, the second half hexagon is formed in the state coupled to the half hexagon fixed unit sliding coupling A first position at which an end of the first half hexagon is in close contact with an end of the second half hexagon, and a second position at which an end of the second half hexagon is spaced apart from an end of the first half hexagon. And a half hexagon slide unit coupled to the lower cover unit so as to be slidable, and a flow bar for sliding the half hexagon slide unit between a first position and a second position.

The housing having the automatic honey collection module according to the present invention has the advantage that can be installed by attaching a plurality of housings side to side because there is no separately protruding portion on the side.

In addition, the honey automatic harvesting module and the housing has the advantage that it is easy to move the housing to other areas and easy to separate cleaning or repair because each part is a removable structure.

In addition, since the honey dive groove has an inclination along the longitudinal direction of the lower cover unit, it is possible to easily collect honey without tilting the honey automatic collecting module.

In addition, the honey extraction module has a slope such that the first half hexagon is lowered from both sides of the half hexagon fixing unit toward the center of the half hexagon fixing unit, and the second half hexagon is half hexagon from both sides of the half hexagon slide unit. Since the inclination is lowered toward the center of the slide unit, the honey can be collected more quickly and smoothly.

In addition, since the honey flowing through the flow path has an opening and closing unit that can be leaked to the outside of the automatic honey collection module, there is an advantage that can be recovered only by easy operation.

In addition, there is an advantage that can be simply harvesting honey simply by pulling the handle.

1 is a perspective view of an automatic honey extraction module according to an embodiment of the present invention.

Figure 2 is an exploded perspective view of the automatic honey extraction module according to an embodiment of the present invention.

FIG. 3 illustrates in detail the penetrating portion and the recessed portion formed on the top of the half hexagon fixing unit, the half hexagon slide unit, and the half hexagon center unit according to an embodiment of the present invention.

4 is a diagram illustrating a case where a handle according to an embodiment of the present invention is located at a first position.

5 illustrates a case in which the handle according to an embodiment of the present invention is located in the second position.

6 is an enlarged perspective view of the opening and closing unit and the honey discharge unit according to an embodiment of the present invention.

Figure 7 is a cross-sectional view of the automatic honey harvesting device is installed honey automatic collecting module according to an embodiment of the present invention.

The foregoing and further aspects of the present invention will become more apparent through the preferred embodiments described with reference to the accompanying drawings. Hereinafter will be described in detail to enable those skilled in the art to easily understand and reproduce through this embodiment of the present invention.

1 is a perspective view of an automatic honey extraction module according to an embodiment of the present invention. Hereinafter, a honey extracting module according to an embodiment of the present invention will be described in detail with reference to FIG. 1, and will be described with reference to FIGS.

According to Figure 1, the honey automatic collecting module (M) is the upper cover unit, the lower cover unit, the first side cover unit, the second side cover unit, half hexagon fixing unit, half hexagon slide unit, half hexagon center unit, fixed bar , A movable bar, a handle and an opening / closing unit. Of course, in addition to the above-described configuration, other components may be included in the honey automatic collecting module proposed in the present invention. The half hexagon unit includes a half hexagon fixed unit, a half hexagon slide unit and a half hexagon central unit.

The lower cover unit 200 constitutes a lower end of the honey automatic collecting module, and is provided with a plurality of half hexagon fixing unit 310 and half hexagon slide unit 320, in particular a half hexagon fixing unit 310 and a half hexagon slide. The units 320 may be arranged in parallel with each other and alternately provided repeatedly. The lower cover unit 200 is provided with a half hexagon center unit 330 in addition to the half hexagon fixing unit 310 and the half hexagon slide unit 320. As described above, the half hexagon unit 300 includes a half hexagon fixing unit, a half hexagon slide unit, and a half hexagon center unit.

The half hexagon fixing unit 310 is coupled to the lower cover unit 200 with a plurality of first half hexagons 316 formed therein.

The half hexagon slide unit 320 is slidably coupled with respect to the half hexagon fixing unit 310 or the half hexagon center unit 330 with a plurality of second half hexagons 326 formed thereon. In more detail, the half hexagon slide unit 320 is slidably coupled in the vertical direction in the honey extraction module, and the first half hexagon 316 and the second half hexagon 326 are in close contact with each other to form a regular hexagon. The lower cover unit 200 is slidably coupled between the first position at which the hexagon is completed and the second half hexagon 316 end is slidable between the second position spaced apart from the end of the first half hexagon 326. In addition, the half hexagon slide unit 320 is slidably coupled in the vertical direction in the honey automatic picking module, the third half hexagon 334 and the second half hexagon 326 ends are in close contact with each other to complete the hexagonal hexagonal The first cover and the second half hexagon 316 end portion is coupled to the lower cover unit 200 to be slidable between the second position spaced apart from the third half hexagon 326 end.

Half hexagon slide unit 320 is coupled to the movable bar 340 to rotate relative to the fixed bar 320 by the handle 400, in the vertical direction in the honey automatic picking module by the rotation of the movable bar 340. Go sliding. The half hexagon fixing unit 310 is fixed between the lower cover unit 200 and the upper cover unit 100 in the honey automatic collecting module.

The first side cover unit 500 and the second side cover unit 600 close the side of the honey automatic collecting module M as a whole while closing the ends of the lower cover unit 200 and the upper cover unit 100.

In other words, the half hexagon fixing unit 200 and the half hexagon slide unit 300 in the honey extraction module (M) is the lower cover unit 100, the upper cover unit 400, the first side cover unit 500 and It is provided in a space formed by the second side cover unit 500.

On the other hand, as will be described later, the lower cover unit 200 is formed with a flow path for the honey is collected, the opening and closing unit 700 is provided with a flow of honey flowing through the flow path to the outside of the honey automatic collecting module (M).

The fixing bar 320 is located inside the space provided by the upper cover unit 100 and is fixedly coupled to the first side cover unit 500 and the second side cover unit 600. The movable bar 340 is also located inside the space provided by the upper cover unit 100 and is coupled to the first side cover unit 500 and the second side cover unit 600. Unlike the fixed bar 320, the movable bar 340 is coupled to the first side cover unit 500 and the second side cover unit 600 in a fixed state, but rotatably at an angle.

The handle 400 includes a first member 402 extending a predetermined length and a plurality of second members 404 extending a predetermined length in a direction perpendicular to the first member 402. Two holes are formed at the lower end of the second member 404, and the movable bar 340 is penetrated through the hole 408 formed at a relatively lower point of the two holes, and a hole 406 to be formed at a relatively high point. The fixing bar 320 penetrates through).

Accordingly, the handle 400 is operated, and the movable bar 340 is moved based on the fixed bar 320, and thus the half hexagon slide unit 320 coupled with the movable bar 340 slides up and down. .

Figure 2 is an exploded perspective view of the automatic honey extraction module according to an embodiment of the present invention. Hereinafter, the separation perspective view of the automatic honey extraction module according to an embodiment of the present invention will be described in detail with reference to FIG. 2.

The upper cover unit 100 is coupled to the upper end of the half hexagon fixing unit 310, half hexagon slide unit 320 and half hexagon central unit 330. The upper cover unit 100 has a hole 102 formed therein so that the second member 404 constituting the handle 400 can be penetrated, and the formed hole 102 has a second member 404 having a hole 102. It is formed relatively larger than the cross-sectional area of the second member 404 to move (rotate) a certain distance within.

The first side cover unit 500 and the second side cover unit 500 are fastened to the lower cover unit 200 while being disposed on the side of the half hexagon slide unit 310. In addition, the first side cover unit 500 and the second side cover unit 600 are fastened to the upper cover unit 100. The honey discharge part 504 is formed in the first side cover unit 500.

The lower cover unit 200 has a gutter groove 204, which may be formed as a 'U' shape of the cross section as a whole. It is preferable that the drip groove 204 has an inclination along the longitudinal direction of the lower cover unit 200, which may allow honey that has fallen into the drip groove 204 to naturally flow toward the honey discharge part 504. To make it work.

Meanwhile, the first fastening part 202 is formed at one end of the lower cover unit 200, and the second fastening part 206 is formed at the other end of the lower cover unit 200. The first fastening part 202 is coupled to the first side cover unit 500, and the second fastening part 206 is coupled to the second side cover unit 600.

The half hexagon slide unit 320 may be coupled to the lower cover unit 200 while the second side cover unit 600 is coupled to the second fastening portion 206, and is located next to the half hexagon slide unit 300. The half hexagon fixing unit 310 is coupled to the lower cover unit 200.

Meanwhile, first-first through portions 312 and first-second through portions 314 are formed at the upper end of the half hexagon fixing unit 310, and second-first yaw at the upper end of the half hexagon slide unit 320. The groove part 322 and the 2-1 through part 324 are formed.

The fixing bar 320 is penetrated through the first-first through part 312 of the half hexagon fixing unit 310, and the movable bar 340 is penetrated through the first-second penetrating part 314. The cross section of the first-first through part 312 is the same as the cross section of the fixing bar 320, and the cross section of the first through second part 314 has an arc shape having a width equal to the diameter of the movable bar 340. Have In detail, the heights of the first through holes 314 are different from each other. That is, the height of the front end portion of the first-second through portion 314 is formed at a point relatively higher than the height of the rear end portion. Therefore, the movable bar 340 that rotates with respect to the fixed bar 320 by the manipulation of the handle 400 moves freely within the first-second through part 314. That is, despite the rotation of the movable bar 340, the half hexagon fixing unit 310 maintains a fixed state on the honey automatic harvesting module.

The fixing bar 320 penetrates the 2-1 recess part 322 of the half hexagon slide unit 320, and the movable bar 340 penetrates the 2-1 penetrating part 324. The cross section of the second-first through portion 324 has a predetermined width and has a straight long hole shape having the same height. Therefore, by operation of the handle 400, the movable bar 340 is rotated based on the fixed bar 320, and thus the half hexagon slide unit 320 is moved downward on the honey automatic picking module. That is, the rotatable movable bar 340 presses the lower end of the 2-1 through portion 324 by rotation, and thus the 2-1 through portion 324 constituting the half hexagon slide unit 320 is lowered. Move.

The half hexagonal center unit 330 forms a 3-1 recessed portion 332 at an upper end thereof, and a second member 404 constituting the handle 400 is introduced into the 3-1 recessed portion 332. Of course, the second member 404 maintains a state in which the fixing bar 320 and the flow bar 340 pass. The lower end of the 3-1 recess portion 332 also has an arc shape in the same manner as the 1-2 penetration portion 314. In detail, the heights of the lower ends of the 3-1 recesses 332 are different from each other. That is, the height of the front end portion of the 3-1 concave portion 332 is formed at a point relatively higher than the height of the rear end portion. Therefore, when the second member 404 is rotated by the manipulation of the handle 400, the second member 404 is free to move in the 3-1 recess 332. That is, despite the rotation of the second member 404, the half hexagon central unit 330 is kept fixed on the honey automatic harvesting module.

The first side cover unit 500 and the second side cover unit 600 are formed with a groove portion in which the fixing bar 320 is fixed and an arc-shaped groove portion in which the movable bar 340 can move in an arc shape. That is, the first side cover unit 500 is formed on the upper end of the first-first groove (not shown) and the first-first groove portion is formed in the arc-shaped 1-2 groove (not shown). An upper end of the second side cover unit 600 is formed with an arc-shaped second second groove part 604 at the lower end of the second first groove part 602 and the second first groove part 602. In addition, the second side cover unit 600 includes a fastening part 610 fastened to the upper cover unit 100 and a fastening part 606 fastened to the lower cover unit 200.

The fixing bar 320 is fixedly fastened to the first-first groove of the first side cover unit 500 and the second-first groove 602 of the second side cover unit 600. The movable bar 340 is coupled to the first-second groove part of the first side cover unit 500 and the second-second groove part 604 of the second side cover unit 600. As described above, the movable bar 340 is rotated based on the fixing bar 320, and for this purpose, the first-second groove of the first side cover unit 500 and the second-second of the second side cover unit 600 are used. The two grooves 604 are formed in an arc shape to induce rotation of the movable bar 340.

FIG. 2 illustrates a 2-1 groove portion formed in the second side cover unit and a 2-2 groove portion formed at the lower end of the 2-1 groove portion, but the first side cover unit also has a 1-1 groove portion having the same shape. A 1-2 groove is formed.

The handle 400 includes a first member 402 extending a predetermined length and a plurality of second members 404 extending a predetermined length in a direction perpendicular to the first member 402. Two holes are formed at the lower end of the second member 404, and the movable bar 340 is penetrated through the second hole 408 formed at a relatively lower point of the two holes, and the second hole 408 is formed at a relatively high point. The fixing bar 320 penetrates through the one hole 406.

In FIG. 2, a pair of half hexagon fixing unit 310 and half hexagon slide unit 320 are shown, but as shown in FIG. 1, the pairs of these half hexagon fixing unit 310 and half hexagon slide unit 320 The lower cover unit 100 is repeatedly provided. In detail, a half hexagon slide unit 320 is disposed on side surfaces of the first side cover unit 500 and the second side cover unit 600, and the half hexagon fixing unit 310 of the half hexagon slide unit 320 is disposed. ) Is placed. In addition, the half hexagon slide unit 320 is disposed on the side of the half hexagon central unit 330.

The first side cover unit 500 is coupled to the first fastening portion 202 of the lower cover unit 200. On the other hand, the lower portion of the first side cover unit 500 is formed through the honey discharge portion 504, the honey discharge portion 504 is in communication with the drip groove 204.

In addition, it is of course possible to further include a sealing member (not shown) between the first side cover unit 500 and the first fastening portion 202 to maintain the airtightness of the fluid.

The gutter groove 204 forming the end of the lower cover unit 200 can be opened and closed by the opening and closing unit 700.

In more detail, the first side cover unit 500 is coupled to the lower cover unit 200, and the honey discharge part 504 can be opened and closed by the opening / closing unit 700.

The opening and closing unit 700 may include a cap unit 710 and an auxiliary unit 720.

The auxiliary unit 720 may be extrapolated to the cap unit 710 and may be made of a material which is not slippery as a material that is easy to grip.

More specifically, the auxiliary unit 720 may be formed of a circular pipe, and is connected to the honey discharge part 504 communicated with the honey dive groove 204 to transfer the flow path of honey in the honey dive groove 204. It can be provided.

As shown in FIG. 3, the half hexagon fixing unit 310 has two through portions formed therein, and the first-first through portion 312 positioned at the upper end thereof is penetrated by the fixing bar 320 and the first positioned at the lower portion thereof. The movable bar 340 penetrates the -2 through portion 314. Of course, as described above, the first-second through part 314 located at the bottom has an arc shape so that the movable bar 340 can be rotated based on the fixed bar 320 without the movement of the half hexagon fixed unit 310. .

The half hexagon slide unit 320 has one recess and one through portion. The fixing bar 320 penetrates the 2-1 recessed part 322 located at the upper end, and the movable bar 340 penetrates the 2-1 penetrating part 324 located at the lower part. Of course, as described above, when the movable bar 340 is rotated based on the fixed bar 320, the 2-1 through part 324 located at the bottom thereof is a straight line so that the half hexagon slide unit 320 can move up and down. It has a shape.

Half hexagonal central unit 330 is formed with one recess. In the 3-1 recess portion 332, the second member 404 of the handle 400 into which the fixing bar 320 and the movable bar 340 are inserted is introduced. The 3-1 recess portion 332 has an arc shape so that the second member 404 of the handle 400 can rotate without the half hexagon center unit 330 moving.

In addition, as described above, the half hexagon fixing unit 310 forms the first half hexagon 316, and the half hexagon slide unit 320 forms the second half hexagon 326 and the half hexagon central unit 330. Forms a third half hexagon 334.

Next, the detailed structure and operation principle of the half hexagon fixing unit 310 and the half hexagon slide unit 320 will be described in detail with reference to the accompanying drawings.

4 illustrates a case where the handle according to an embodiment of the present invention is located in a first position, and FIG. 5 illustrates a case where the handle according to an embodiment of the present invention is located in a second position.

Hereinafter, FIG. 5 will be described first with reference to FIG. 4. As described above, FIG. 4 illustrates a case in which the handle 400 is positioned at the first position, and in particular, illustrates an operation of the half hexagon slide unit 320 according to the manipulation of the handle 400. Referring to FIG. 4, the fixing bar 320 is introduced into the second-first recess 322 of the half hexagon slide unit 320, and the movable bar 340 is the second-1 of the half hexagon slide unit 320. It penetrates through part 324. As described above, the shape of the second-first through part 324 is formed in a straight line type having a constant width.

When the handle 400 is located in the first position, the hexagonal hexagon is formed by the first half hexagon 316 of the half hexagon fixing unit 310 and the second half hexagon 326 of the half hexagon slide unit 320. Is formed.

5 illustrates the case where the handle 400 is located in the second position. As shown in FIG. 5, when the handle 400 is pulled, the movable bar 340 is rotated based on the fixing bar 320. When the movable bar 340 rotates, the second-first through part 324 of the long hole shape through which the movable bar 340 penetrates moves to the lower end. When the second-first through part 324 moves to the lower end, the half hexagon slide unit 320 moves to the lower end. Of course, in order to guide the half hexagon slide unit 320 to move to the lower portion of the fixed bar 320 is introduced into the recess is formed rather than the through portion is formed. Of course, the half hexagon slide unit 320 may have a through-hole formed in the longitudinal direction instead of the 2-1 recess 322.

In addition, the handle 400 moves by the length of the first-second through part 314 formed in the half hexagon fixing unit 310.

When the half hexagon slide unit 320 moves to the bottom, the hexagonal hexagon is formed by the first half hexagon 316 of the half hexagon fixing unit 310 and the second half hexagon 326 of the half hexagon slide unit 320. It is not formed.

If the first half hexagon 316 and the second half hexagon 326 are not formed, the honey inside the hexagon may flow through the gap formed between the ends of the first half hexagon 316 and the second half hexagon 326. The dripping honey is stored in the drip groove.

The first half hexagon may have an inclination such that its height decreases from both sides of the half hexagon fixing unit 310 toward the center of the half hexagon fixing unit 310. The second half hexagon may have an inclination such that the height thereof is lowered from both sides of the half hexagon slide unit 320 toward the center of the half hexagon slide unit 320. As described above, since the slope is formed in the first half hexagon 316 and the second half hexagon 326, the honey may flow more smoothly downward along the slope in the second position.

The opening and closing unit 700 may include an auxiliary unit 720 coupled to the cap unit 710. The cap unit 710 is a cylindrical member, and a second embossed processing unit 713 protrudes at an end thereof, and the second engraved processing unit becomes smaller in diameter toward the gap unit 710 from the second embossed processing unit 713. 711 may be included. The contact surface 715 forms an end surface of the cap unit 710.

A honey discharge part 504 having a discharge hole 504a is provided under the first side cover unit 500. More specifically, the honey discharge part 504 protrudes from the side surface of the first side cover unit 500 in a circular ring shape from the first intaglio processing part 504b and the first intaglio processing part 504b. And a discharge hole 504a including a first relief processing unit 504c and forming a through hole by the first relief processing unit 504c. The discharge hole 504a may be in communication with the drip groove 204, where the bottom of the discharge hole 504a may be at the same or lower position than the bottom of the drip groove 204.

The outer circumferential surface of the second relief processing unit 713 of the opening and closing unit 700 is inserted into the honey discharge unit 504 while being in close contact with the inner circumferential surface of the discharge hole 504a, so that the inner circumferential surface of the first relief processing unit 504c may be caught. The structure is also preferred.

The second intaglio processing unit 711 may have the same length as the inner circumferential surface of the first relief processing unit 504c. When the opening / closing unit 700 is coupled to the honey discharge part 504, the honey in the honey dive groove 204 may open / close the opening / closing unit 700 because the close contact surface may be in close contact with the circumferential end of the first relief processing part 504c. The leakage to the outside is suppressed until it is removed from the first side cover unit 500.

Figure 7 is a cross-sectional view of the automatic honey harvesting device is installed honey automatic collecting module according to an embodiment of the present invention. Hereinafter, with reference to Figure 7 will be described in detail with respect to the honey automatic harvesting device is installed honey automatic collecting module according to an embodiment of the present invention.

Honey automatic collecting device (A) can be installed a plurality of honey automatic collecting module (M). In other words, a plurality of honey extracting modules can be installed in the housing.

The first side cover unit 500 has a first fixed arm 502, the second side cover unit 600 has a second fixed arm 608, and the first fixed arm 502 and the second. As the fixed arm 608 is fixed to the housing, the honey automatic collecting module is fixed by hanging from the bottom surface of the housing 800.

More specifically, the housing includes an upper case 810, an intermediate case 820, and a lower case 830, and the first support frame 840 is coupled between the upper case 810 and the intermediate case 820. The second support frame 850 may be coupled between the intermediate case 820 and the lower case 830.

Hanging jaws 822 are formed at both sides of the intermediate case 820, respectively, and the first fixed arm 502 of the first side cover unit 500 and the second fixed arm of the second side cover unit 600 ( 608 is fixed to the locking step 822.

The lower case 830 is provided with a foot support 832 protruding downward to be able to contact the bottom surface, the opening portion 836 is formed in a narrow narrow incision in a portion of the lower side of the lower case 830 so that the bees housing It provides a path to enter and exit.

On the other hand, the second support frame 850 is formed with a second cutout 852, a portion of the side wall is cut. In order to collect the honey provided in the automatic honey collection module, it is not necessary to separate the entire housing to reveal the honey automatic collection module.

When only the upper case 810 is lifted and separated to operate the handle 400, the honey falls into the honey dipper 204 at the second position and collects in the honey dive groove 204 as described above. In order to recover the honey, the opening and closing unit 700 exposed to the second cutout 852 may be removed.

In other words, the opening and closing unit 700 may be exposed to the second cutout 852, and the honey extracting module M may be provided using the opening and closing unit 700 exposed through the second cutout 852. Honey can be easily collected.

In addition, as shown in Figure 7, the housing 800 having the automatic honey collection module (M) has the advantage that can be installed by attaching a plurality of housings 800 side to side because there is no separately protruding portion on the side.

In addition, as shown in the honey automatic harvesting module (M) and the housing 800 has a strength that is easy to move the housing 800 to other areas and easy to separate and wash or repair because each part is a removable structure. .

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. .

Honey honey collection module according to the present invention has the advantage that it is possible to simply collect the honey simply by pulling the handle.

Claims

Lower cover unit;

A half hexagon fixing unit fixed to the lower cover unit in a state where a first half hexagon is formed;

The first position and the second half hexagon of the second half hexagon are slidably coupled to the half hexagon fixing unit in a state where a second half hexagon is formed, and the end of the first half hexagon and the end of the second half hexagon are in close contact with each other. A half hexagon slide unit coupled to the lower cover unit such that an end thereof is slidable between a second position spaced apart from an end of the first half hexagon; And

The honey extract module, characterized in that it comprises a flow bar for sliding the half hexagon slide unit between the first position and the second position.
The method of claim 1,

The half hexagon fixing unit,

1-1 through the upper portion;

An arc-shaped first-second through part is formed at the lower end of the first-first through part,

The half hexagon slide unit,

2-1 recessed portion at the top;

Honey extraction module, characterized in that for forming a straight through-hole 2-1 through the lower portion of the 2-1 groove portion.
The method of claim 2,

A fixing bar penetrating the first-first through part and the second-first recess;

Honey collecting module, characterized in that it comprises a flow bar penetrating the 1-2 through part and the 1-2 through part.
The method of claim 3, wherein

An upper cover unit coupled to an upper end of the half hexagon fixing unit and the half hexagon slide unit;

A first side cover unit coupled to one side of the upper cover unit and one side of the lower cover unit; And

Honey extraction module comprising a second side cover unit coupled to the other side of the upper cover unit and the other side of the lower cover unit.
The method of claim 4, wherein

A first-first groove in which the fixing bar is fixedly fastened to an upper end of the first side cover unit; And

An arc-shaped first-second groove is formed to allow the flow bar to rotate based on the fixed bar.

A second-first groove in which the fixing bar is fixedly fastened to an upper end of the second side cover unit; And

Honey extraction module, characterized in that the arc-shaped 2-2 groove portion is formed to enable the rotation of the flow bar to rotate relative to the fixed bar.
The method of claim 5,

A first member having a predetermined length;

A handle extending from the first member in a vertical direction and including a second member having a first hole through which the fixing bar passes and a second hole through which the flow bar passes through the lower end of the first hole; Honey automatic harvesting module, characterized in that.
The method of claim 4, wherein the lower cover unit comprises a 'U' shaped drip groove for receiving honey,

Honey honeycomb module, characterized in that the honey dipper groove is formed to be inclined in the longitudinal direction.
The method of claim 7, wherein

The first side cover unit is a honey honey collection module, characterized in that it comprises a honey discharge portion in communication with the honey dish groove.
The method of claim 8,

Automatic honey collection module, characterized in that it comprises an opening and closing unit for opening and closing the honey discharge unit.
The method of claim 6,

3-1 concave portion is formed in which the second member of the handle is drawn, and the honey self-harvesting module, characterized in that it comprises a half hexagon central unit fixed to the lower cover unit in the state formed with the third half hexagon.
The method of claim 4, wherein

And a housing provided with the honey automatic collecting module, wherein the fixing arm protruding from the first side cover unit and the second side cover unit is fixed to the housing, and the honey automatic collecting module is spaced apart from the bottom surface of the housing. Honey automatic picking device set in the state.