CN210017476U - Combined special drone production honeycomb - Google Patents
Combined special drone production honeycomb Download PDFInfo
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- CN210017476U CN210017476U CN201920249770.8U CN201920249770U CN210017476U CN 210017476 U CN210017476 U CN 210017476U CN 201920249770 U CN201920249770 U CN 201920249770U CN 210017476 U CN210017476 U CN 210017476U
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Abstract
The utility model relates to a modular special drone production honeycomb. The honeycomb includes the honeycomb module, and the honeycomb module includes basal layer, releasable connection in the first shallow honeycomb layer of basal layer first side and releasable connection in the shallow honeycomb layer of second of basal layer second side. When gathering male bee pupa, only need pull down first shallow honeycomb layer from the basal layer, can pour male bee pupa in the honeycomb of basal layer first side. And detaching the second shallow honeycomb layer from the foundation layer, and pouring the male bee pupae out of the honeycomb on the second side of the foundation layer. The cutting knife is not needed in the whole picking process, so that the drone pupae are fundamentally prevented from being cut, the quality of the drone pupae is ensured, the efficiency of picking the drone pupae is improved, and the labor amount of a beekeeper is reduced. Simultaneously, set up one or polylith in a beehive alone the utility model discloses a special drone of combination formula production honeycomb utilizes the principle of the male bee pupa of mite trend, can avoid other honey production honeycombs to be polluted by the mite in the beehive, can play the effect of treatment bee mite.
Description
Technical Field
The utility model relates to a modular special drone production honeycomb.
Background
Drone pupa of bees is a new bee product developed in recent years, and the market prospect is increasingly good. The current method for producing drone pupae is based on the traditional waxy honeycomb or the plastic honeycomb with cells on both sides, so that the queen bee can lay eggs in the cells on the basis. After the eggs are incubated for a certain period of time, the bees are sealed, and after the sealing reaches the specified days, the drone pupae is harvested.
When the drone pupae are harvested, a cutting knife is used for cutting the spleen opening, and then the drone pupae are poured out from the cut spleen opening. However, when cutting the spleen, a part of drone pupae is always cut, which affects the quality of drone pupae. The operation of cutting the spleen mouth by using the cutting knife is difficult to master, and the production efficiency of the drone pupae can be influenced.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a do not need to cut special drone production honeycomb of combination formula of spleen mouth.
In order to realize the purpose, the utility model discloses a special drone of combination formula production honeycomb adopts following technical scheme:
special drone production honeycomb of combination formula, including the honeycomb module, the honeycomb module includes the shallow nest layer of basal layer, first shallow nest layer and second, and the basal layer is non-hollow out construction, all has the base plate of nest including both sides, the shape and the basal layer adaptation and detachable connection in the first side of basal layer of first shallow nest layer, the shape and the basal layer adaptation and detachable connection of second shallow nest layer in the second side of basal layer, set up on the first shallow nest layer with the first shallow nest that the nest of basal layer first side corresponds, set up on the second shallow nest layer with the second shallow nest that the nest of basal layer second side corresponds, first shallow nest all link up the thickness on corresponding shallow nest layer with the second shallow nest and make first shallow nest layer and second shallow nest layer be hollow out construction.
First shallow honeycomb layer passes through mortise and tenon joint structure releasable connection in the first side of basal layer, and the shallow honeycomb layer of second passes through mortise and tenon joint structure releasable connection in the second side of basal layer.
The honeycomb on the substrate is hexagonal, clamping blocks are arranged in part of the honeycomb on each side of the substrate, the clamping blocks protrude out of the honeycomb, the shapes of the peripheral surfaces of the clamping blocks are matched with those of the honeycomb, the first shallow honeycomb corresponding to the first shallow honeycomb on the first shallow honeycomb layer is used for the clamping blocks on the first side of the substrate to be inserted, and the second shallow honeycomb corresponding to the second shallow honeycomb on the second shallow honeycomb layer is used for the clamping blocks on the second side of the substrate to be inserted.
The honeycomb module is made of food grade plastic.
The honeycomb module is coated with beeswax on the surface.
The honeycomb module is provided with a plurality of blocks which are mutually detachably connected to form a complete honeycomb.
The honeycomb modules are rectangular, and the detachable connection structures between two adjacent honeycomb modules are arranged on the first shallow honeycomb layer and the second shallow honeycomb layer.
The four sides of the first shallow honeycomb layer and the second shallow honeycomb layer are provided with connecting blocks and connecting grooves, and the shapes of the connecting blocks are matched with the shapes of the connecting grooves so as to be inserted into the corresponding connecting grooves of the adjacent honeycomb modules.
The part of the first shallow honeycomb at the edge in the first shallow honeycomb layer is of an opening structure, the opening is positioned at the edge of the first shallow honeycomb layer, and the first shallow honeycomb with the opening forms the connecting groove in the first shallow honeycomb layer; the part of the second shallow honeycomb at the edge in the second shallow honeycomb layer is of an opening structure, the opening is positioned at the edge of the second shallow honeycomb layer, and the second shallow honeycomb with the opening forms the connecting groove in the second shallow honeycomb layer.
The connecting blocks on the first shallow honeycomb layer correspond to the connecting blocks on the second shallow honeycomb layer in position and can be spliced into a whole in the thickness direction of the honeycomb module.
The utility model has the advantages as follows: the utility model discloses a honeycomb includes the honeycomb module, and the honeycomb module includes basal layer, releasable connection at the first shallow honeycomb layer of basal layer first side and releasable connection in the shallow honeycomb layer of second of basal layer second side. The cells of the first side of the foundation layer are combined with the first shallow cells in the first shallow cell layer to allow queen bees to lay eggs on the first side, and the cells of the second side of the foundation layer are combined with the second shallow cells in the second shallow cell layer to allow queen bees to lay eggs on the second side. When gathering male bee pupa, only need pull down first shallow honeycomb layer from the basal layer, can pour male bee pupa in the honeycomb of basal layer first side. And detaching the second shallow honeycomb layer from the foundation layer, and pouring the male bee pupae out of the honeycomb on the second side of the foundation layer. The cutting knife is not needed in the whole picking process, so that the drone pupae are fundamentally prevented from being cut, the quality of the drone pupae is ensured, the efficiency of picking the drone pupae is improved, and the labor amount of a beekeeper is reduced. Simultaneously, set up one or polylith in a beehive alone the utility model discloses a special drone of combination formula production honeycomb utilizes the principle of the male bee pupa of mite trend, can avoid other honey production honeycombs to be polluted by the mite in the beehive, can play the effect of treatment bee mite.
Further, the utility model discloses a special drone of combination formula production honeycomb is formed by the concatenation of polylith honeycomb module, can be according to the periodicity of drone production, adjusts the quantity of honeycomb module in a flexible way and the mounted position of honeycomb module in the frame.
Drawings
Fig. 1 is a schematic structural view of an embodiment of a combined special drone production honeycomb of the present invention;
FIG. 2 is a schematic diagram of the structure of the base layer of FIG. 1;
FIG. 3 is a schematic structural view of the first shallow honeycomb layer of FIG. 1;
fig. 4 is a schematic structural view of the second shallow honeycomb layer of fig. 1.
Detailed Description
The specific structure of the combined special drone production honeycomb of the utility model is shown in fig. 1 to fig. 4, which comprises a honeycomb frame and a honeycomb. The honeycomb is formed by splicing 9 honeycomb modules 100 which are mutually detachably connected, and the number of the honeycomb modules 100 and the installation positions of the honeycomb modules in the honeycomb frame can be flexibly adjusted according to the number of the male bee pupas to be produced. The honeycomb module 100 is made of food grade plastic and coated with beeswax on its surface to attract bees. In other embodiments, the honeycomb module 100 can also be made of other materials; the surface of the coating can also be coated with other products which can replace beeswax or be directly coated with no beeswax.
The honeycomb module 100 includes a foundation layer 1, a first shallow cell layer 2, and a second shallow cell layer 3. The base layer 1 is a non-hollow structure and comprises a substrate with cells 11 on both sides. The shape of first shallow honeycomb layer 2 and the adaptation of foundation layer 1 and through mortise and tenon structure install in the first side of foundation layer 1, the shape of second shallow honeycomb layer 3 and the adaptation of foundation layer 1 and through mortise and tenon structure install in the second side of foundation layer 1. The first shallow honeycomb layer 2 is provided with first shallow honeycombs 21 corresponding to the honeycombs 11 on the first side of the foundation layer 1, and the second shallow honeycombs 3 are provided with second shallow honeycombs 31 corresponding to the honeycombs 11 on the second side of the foundation layer 1. The first shallow honeycomb 21 and the second shallow honeycomb 31 both penetrate the thickness of the corresponding shallow honeycomb layer to make the first shallow honeycomb layer 2 and the second shallow honeycomb layer 3 be hollow structures.
The cells 11 on the base layer 1 are hexagonal in shape, mimicking a natural honeycomb. The part of the honeycomb 11 on each side of the substrate is provided with a fixture block 12, the fixture block 12 protrudes out of the honeycomb 11, and the shape of the outer peripheral surface of the fixture block is matched with that of the honeycomb 11. The first shallow honeycomb layer 2 has the corresponding first shallow honeycomb 21 for the insertion of the fixture block 12 on the first side of the substrate, and the second shallow honeycomb layer 3 has the corresponding second shallow honeycomb 31 for the insertion of the fixture block 12 on the second side of the substrate. By adopting the structure form, the existing first shallow honeycomb 21 and the second shallow honeycomb 31 are reasonably utilized as the slots, and the slots do not need to be additionally arranged on the first shallow honeycomb layer 2 and the second shallow honeycomb layer 3. In other embodiments, fixture blocks can be further disposed on the first shallow honeycomb layer 2 and the second shallow honeycomb layer 3 to use the honeycomb 11 on the foundation layer 1 as slots; the shapes of the fixture blocks 12 and the slots can be flexibly changed, so long as the mortise and tenon structures can be formed between the first shallow honeycomb layer 2 and the foundation layer 1 and between the second shallow honeycomb layer 3 and the foundation layer 1.
The connection between the honeycomb modules 100 is as follows: the part of the first shallow cell 21 at the edge of the first shallow cell layer 2 is an open structure, and the opening is located at the edge of the first shallow cell layer 2, and the first shallow cell 21 having the opening forms the connection groove 22 in the first shallow cell layer 2. The part of the second shallow cell 31 at the edge of the second shallow cell layer 3 is an open structure, and the opening is located at the edge of the second shallow cell layer 3, and the second shallow cell 31 with the opening forms a connection groove 32 in the second shallow cell layer 3. Meanwhile, hexagonal connecting blocks 23 are arranged on the four sides of the first shallow honeycomb layer 2, and hexagonal connecting blocks 33 are arranged on the four sides of the second shallow honeycomb layer 3. First shallow honeycomb layer 2 releasable connection in two adjacent honeycomb modules 100 is on first shallow honeycomb layer 2, and shallow honeycomb layer 3 releasable connection of second is on shallow honeycomb layer 3 of second, has realized two adjacent honeycomb modules 100's concatenation promptly.
In order to facilitate the splicing of two adjacent honeycomb modules 100, the connecting blocks 23 on the first shallow honeycomb layer 2 correspond to the connecting blocks 33 on the second shallow honeycomb layer 3 in position, and can be spliced into a whole in the thickness direction of the honeycomb modules 100, so that the splicing of two adjacent second shallow honeycomb layers 3 can be completed while the two adjacent first shallow honeycomb layers 2 are spliced. Of course, in other embodiments, the positions of the connecting blocks 23 on the first shallow honeycomb layer 2 and the connecting blocks 33 on the second shallow honeycomb layer 3 may be staggered, and it is only necessary to splice the corresponding connecting blocks and connecting grooves respectively.
In other embodiments, the connecting block and the connecting groove can be in any other shapes as long as the connecting block and the connecting groove can be detachably connected; the connection block may also be arranged on the base layer 1.
Claims (10)
1. Special drone of combination formula produces honeycomb, its characterized in that: including the honeycomb module, the honeycomb module includes the shallow nest layer of basal layer, first shallow nest layer and second, and the basal layer is non-hollow out construction, all has the base plate of nest including both sides, shape and basal layer adaptation and detachable connection in the first side of basal layer on first shallow nest layer, the shape and basal layer adaptation and detachable connection on the second side of basal layer on the shallow nest layer of second, set up on the first shallow nest layer with the first shallow nest that the nest of basal layer first side corresponds, set up on the shallow nest layer of second with the shallow nest that the nest of basal layer second side corresponds, first shallow nest all link up the thickness on corresponding shallow nest layer with the shallow nest of second and make first shallow nest layer and second nest layer be hollow out construction.
2. The modular dedicated drone producing comb of claim 1, wherein: first shallow honeycomb layer passes through mortise and tenon joint structure releasable connection in the first side of basal layer, and the shallow honeycomb layer of second passes through mortise and tenon joint structure releasable connection in the second side of basal layer.
3. The modular dedicated drone producing comb of claim 2, wherein: the honeycomb on the substrate is hexagonal, clamping blocks are arranged in part of the honeycomb on each side of the substrate, the clamping blocks protrude out of the honeycomb, the shapes of the peripheral surfaces of the clamping blocks are matched with those of the honeycomb, the first shallow honeycomb corresponding to the first shallow honeycomb on the first shallow honeycomb layer is used for the clamping blocks on the first side of the substrate to be inserted, and the second shallow honeycomb corresponding to the second shallow honeycomb on the second shallow honeycomb layer is used for the clamping blocks on the second side of the substrate to be inserted.
4. The modular dedicated drone producing comb of claim 1, wherein: the honeycomb module is made of food grade plastic.
5. The modular dedicated drone producing comb of claim 1, wherein: the honeycomb module is coated with beeswax on the surface.
6. The combined specialized drone producing honeycomb according to any one of claims 1 to 5, characterized in that: the honeycomb module is provided with a plurality of blocks which are mutually detachably connected to form a complete honeycomb.
7. The modular dedicated drone producing comb of claim 6, wherein: the honeycomb modules are rectangular, and the detachable connection structures between two adjacent honeycomb modules are arranged on the first shallow honeycomb layer and the second shallow honeycomb layer.
8. The modular dedicated drone producing comb of claim 7, wherein: the four sides of the first shallow honeycomb layer and the second shallow honeycomb layer are provided with connecting blocks and connecting grooves, and the shapes of the connecting blocks are matched with the shapes of the connecting grooves so as to be inserted into the corresponding connecting grooves of the adjacent honeycomb modules.
9. The modular dedicated drone producing comb of claim 8, wherein: the part of the first shallow honeycomb at the edge in the first shallow honeycomb layer is of an opening structure, the opening is positioned at the edge of the first shallow honeycomb layer, and the first shallow honeycomb with the opening forms the connecting groove in the first shallow honeycomb layer; the part of the second shallow honeycomb at the edge in the second shallow honeycomb layer is of an opening structure, the opening is positioned at the edge of the second shallow honeycomb layer, and the second shallow honeycomb with the opening forms the connecting groove in the second shallow honeycomb layer.
10. The modular dedicated drone producing comb of claim 8, wherein: the connecting blocks on the first shallow honeycomb layer correspond to the connecting blocks on the second shallow honeycomb layer in position and can be spliced into a whole in the thickness direction of the honeycomb module.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920249770.8U CN210017476U (en) | 2019-02-28 | 2019-02-28 | Combined special drone production honeycomb |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920249770.8U CN210017476U (en) | 2019-02-28 | 2019-02-28 | Combined special drone production honeycomb |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN210017476U true CN210017476U (en) | 2020-02-07 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201920249770.8U Active CN210017476U (en) | 2019-02-28 | 2019-02-28 | Combined special drone production honeycomb |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN210017476U (en) |
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2019
- 2019-02-28 CN CN201920249770.8U patent/CN210017476U/en active Active
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