CN109122405B

CN109122405B - Beehive for bee overwintering

Info

Publication number: CN109122405B
Application number: CN201810903565.9A
Authority: CN
Inventors: 郭定刚
Original assignee: Tongxi Guo's Bee Farm
Current assignee: Yongchun County Product Quality Inspection Institute Fujian fragrance product quality inspection center, national incense burning product quality supervision and Inspection Center (Fujian)
Priority date: 2018-08-09
Filing date: 2018-08-09
Publication date: 2021-09-14
Anticipated expiration: 2038-08-09
Also published as: CN109122405A

Abstract

The invention relates to a bee breeding technology, in particular to a beehive for bee overwintering, wherein a hive cover, an auxiliary cover, a super, a hive and a base are sequentially arranged from the high position of gravitational potential energy to the low position of gravitational potential energy, a partition board is vertically arranged in the super, and a nest board is vertically arranged in the hive; the surface of the base is provided with a groove which is opposite to the box cover, a microorganism fermentation tank is contained in the groove, and the surfaces of two radial side walls of the base are provided with clamping grooves for clamping the nest plates. The substance composition of the bees contains a large amount of protein, when the protein is decomposed by bacteria and fungi, peptide bonds in the protein are broken to release a large amount of heat energy, and meanwhile, the microbial fermentation tank digests excrement in the beehive together, so that the neatness in the beehive is kept, and the more heat energy released by the microbial fermentation tank increases along with the increase of aged and died bees, so that a biological energy heat source is provided for the interior of the beehive. The invention aims to provide a method for improving the heat preservation effect when the number of bees is reduced.

Description

Beehive for bee overwintering

Technical Field

The invention relates to a bee breeding technology, in particular to a beehive for bees to live through the winter.

Background

Usually, after the frost falls, the bees do not like to fly out of the beehive for activity, and are ready to live through the winter. The bees stay in the beehive to be squeezed into a group for heat preservation when the bees live through the winter, the worker bees on the outermost side ceaselessly vibrate the wings to generate heat through movement, meanwhile, the worker bees on the outermost side move towards the interior of the bee group, and the worker bees in the bee group move towards the outer layer to realize 'shift change'. In this overwintering mode, the heat energy in the bee mass is retained to the maximum, and the temperature of the innermost layer can reach 17 ℃.

Although bees have a self-overwintering system and flow, naturally old dead bees account for 20% in the overwintering process, and the bees can shrink into a bee colony after dying, so that the number of worker bees producing heat energy in the bee colony is reduced, the heat preservation effect of the bee colony is affected, and large-scale death is faced when the heat preservation effect of the bee colony is reduced. In order to ensure that bee colonies can normally live through the winter, the technical method of covering the heat preservation quilt is generally adopted in the prior art to provide heat preservation for bees, but the method of covering the heat preservation quilt not only blocks the air holes of the beehive and reduces the air flow exchange in the beehive, thereby causing oxygen deficiency and even suffocation of the bee colonies.

In order to overcome the defects of the prior art, the prior art with the Chinese publication number of CN105210934B discloses a beehive built-in heat-preservation filler, which comprises a filling outer bag with a fully-closed structure, wherein a telescopic metal frame is arranged in the filling outer bag, heat-preservation bags are arranged on two sides of the filling outer bag, heat-preservation materials are filled in the heat-preservation bags, the telescopic metal frame is a cuboid frame consisting of a metal longitudinal long pipe, a metal vertical short pipe and a metal transverse pipe, and the metal transverse pipe adopts a telescopic sleeve pipe structure; the periphery of the telescopic metal frame is connected with the filling outer bag into a whole through a movable binding rope and a connecting ring belt.

Although the temperature in the beehive is constant by filling the heat source, the heat insulation material in the filling bag does not generate heat, only the heat consumption is reduced, and when the number of naturally old and dead bees in the bee colony is increased to reduce the number of bees, the heat insulation effect is gradually reduced. The heat preservation effect of the beehive is reduced.

Disclosure of Invention

In order to solve the above problems, the present invention aims to provide a beehive for bees to hibernate, which improves the heat preservation effect when the number of bees is reduced.

In order to achieve the purpose of the invention, the technical scheme of the invention is as follows: the beehive for the bees to live through the winter is sequentially provided with a hive cover, an auxiliary cover, a super, a hive and a base from the high gravitational potential energy position to the low gravitational potential energy position, a partition board is vertically placed in the super, and a hive plate is vertically placed in the hive; the surface of the base is provided with a groove which is opposite to the box cover, a microbial fermentation tank is contained in the groove, and the microbial fermentation tank contains water, bacteria, fungi and chitinase; the radial two lateral wall surfaces of base are opened with the draw-in groove that is used for block nest board.

The principle of the technical scheme is as follows: because nest plate and base lateral wall block and nest plate are located the base top, have the difference in height between nest plate and the base recess, when beginning to have the honeybee dead naturally in the bee colony, the honeybee corpse falls to the microorganism fermentation vat in the recess under the influence of gravity.

Because the microbial fermentation pool contains water, bacteria, fungi and chitinase, substances of the bees contain a large amount of protein which belongs to organic high molecular compounds, when the protein is decomposed by the bacteria and the fungi, peptide bonds in the protein are broken to release a large amount of heat energy, and meanwhile, the microbial fermentation pool digests excrement in the beehive together, so that the cleanness of the inside of the beehive is kept, and the heat energy released by the microbial fermentation pool is more along with the increase of aged and died bees, and a bioenergy heat source is provided for the inside of the beehive.

After adopting this technical scheme, produce following beneficial effect: 1. the nest plate is clamped with the side wall of the base, so that the nest plate is prevented from contacting with the microbial fermentation tank, and the living environment of bees in the nest plate is prevented from being polluted by bacteria and fungi in the microbial fermentation tank.

2. Nest plate and base lateral wall block make to have the difference in height between nest plate and the base recess, ensure when having the honeybee to die in the nest plate, the corpse of honeybee drops to the microorganism fermentation vat under receiving the influence of gravitational potential energy, adopts this technical scheme for the prior art that adopts conveyor transportation honeybee corpse, and this technical scheme simple structure directly can realize through gravitational potential energy, has saved energy resource consumption.

3. The microbial fermentation tank is used for treating the bee bodies and the excrement, the neatness in the beehive is kept, and meanwhile, when the number of swarms is reduced due to the increase of the number of naturally aged dead bees, the microbial fermentation tank provides more heat, so that waste is changed into valuable, the use efficiency of resources is improved, and continuous biological energy is provided for the beehive.

Furthermore, the inner wall surfaces of the super and the nest box are coated with wax, the base comprises an outer layer and an inner layer, a gap is formed between the outer layer and the inner layer, and the groove on the surface of the base is positioned on the surface of the inner layer.

Paraffin that the nest box inner wall was paintd this moment intercepts the heat energy of bee ball external radiation, and the heat exchange in outside and the beehive of beehive has been completely cut off to paraffin, keeps warm in the beehive, has reduced the heat consumption in the beehive, has promoted the heat preservation effect of beehive.

Further, the relative radial lateral wall of inlayer all opens there is the through-hole, and the snap fit has the baffle in the through-hole, is connected with the torsional spring between baffle and the inlayer, and the welding of baffle middle part has the open-close board that extends to the skin. Because the setting of open-close plate, when operating personnel pulled the open-close plate manually, liquid was directly outwards flowed from the through-hole, and on the same principle only needs operating personnel to open the open-close plate when watering to the microbial fermentation pond, lets in the water pipe and irritates water. The operation is simplified, and the heat loss in the beehive caused by the disassembly of the beehive body is avoided.

Furthermore, a tension spring is connected between the bottom of the inner layer and the outer layer, and a pyramid used for contacting the opening plate is welded at the bottom of the outer layer.

When the open-close plate contacts with the pyramid, the open-close plate is supported by the prism to the inner box, and the open-close plate is opened under the action of the continuous supporting force, so that the bee remains and the liquid in the microbial fermentation pool partially flow into the gap between the inner box and the outer box, the liquid level of the microbial fermentation pool is reduced, the insect remains and the partial liquid floating on the surface of the microbial fermentation pool flow into the gap, and the surface of the microbial fermentation pool is cleaned. When the insect remains floating on the surface of the microbial fermentation tank and part of liquid flow into the gap, the weight of the inner box is reduced, the inner box is lifted under the driving of the tension spring, the opening plate is separated from the pyramid, the restoring force generated by the torsion spring drives the baffle to reset, the inner box is changed into a sealed box body again, and the insect remains and the liquid in the microbial fermentation tank stop flowing out.

This technical scheme has avoided because the insect remains that the microbial fermentation vat surface can not be decomposed piles up, causes the unable contact of microbial fermentation vat and the insect corpse that falls newly, and influences the decomposition and the exothermic activity of insect corpse, adopts this technical scheme to strengthen the heating effect in microbial fermentation vat, makes the microbial fermentation vat possess self-cleaning function moreover.

Furthermore, one end of the tension spring is welded with the bottom of the inner layer, and the other end of the tension spring is in contact with the surface of the outer layer.

Operating personnel carries out the beehive clearance when the honeybee overwintering, only need with the beehive lifting, then take off the skin, clear away the paraffin in the clearance can, need not open the beehive, reduced the heat in the beehive and lost, promoted the heat preservation effect of beehive.

Furthermore, the base is welded all around to have the stabilizer blade, the baffle is the frustum shape, the cross section of nest plate is the rectangle, wax is paraffin. When the temperature in the beehive is lower than 35 ℃, the paraffin starts to release heat and harden, the paraffin continuously releases heat for a long time in the hardening process to supplement the temperature of the beehive, and the paraffin and the microbial fermentation tank in the beehive jointly form a heat source, so that the temperature in the beehive is increased.

Drawings

FIG. 1 is a front half-sectional view of an embodiment of the present invention;

FIG. 2 is a view of the inner layer of FIG. 1 in a connected relationship with a nest plate;

FIG. 3 is a three-dimensional full sectional view of the base of FIG. 1;

fig. 4 is an enlarged view of a portion a in fig. 3.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the box cover 1, the base 2, the inner layer 201, the outer layer 202, the support legs 3, the auxiliary cover 4, the super 5, the nest box 6, the partition plate 7, the nest plate 8, the gap 9, the clamping groove 10, the microbial fermentation tank 11, the baffle plate 12, the torsion spring 13, the opening plate 14, the tension spring 15 and the pyramid 16.

The embodiment is basically as shown in the attached figure 1: bee is beehive for overwintering includes case lid 1 and base 2, and threaded connection has stabilizer blade 3 around the base 2, from last to having connected gradually vice lid 4, super 5 and nest box 6 down between case lid 1 and the base 2. The inner wall surfaces of the super 5 and the nest box 6 are coated with paraffin, a vertically-placed frustum-shaped partition plate 7 is coupled in the super 5, and a vertically-placed rectangular nest plate 8 is clamped in the nest box 6.

As shown in figures 2 and 3: the base 2 includes the inlayer 201 of outer 202 and cuboid shape, is formed with gapped 9 between outer 202 and the inlayer 201, and inlayer 201 upper surface has the recess, and the opening of recess is just to rectangle nest board 8 below, and the draw-in groove 10 that is used for block rectangle nest board 8 is all opened to the left side wall and the right side wall of inlayer 201, and the inside of inlayer 201 is accepted microorganism fermentation vat 11, has water, bacterium, fungi and chitinase in the microorganism fermentation vat 11.

As shown in fig. 4: the left side wall and the right side wall of the inner layer 201 are both provided with through holes, the baffle 12 is clamped in the through holes, the torsion spring 13 is connected between the baffle 12 and the inner layer 201, and the middle part of the baffle 12 is bonded with an opening plate 14 extending to the outer layer 202.

The tension spring 15 is connected between the bottom of the inner layer 201 and the outer layer 202, and the pyramid 16 for contacting the opening plate 14 is welded at the bottom of the outer layer 202.

The specific implementation process is as follows: after entering winter, the bees start to wrap into the bee balls in the nest box 6 for overwintering, at the moment, the bees on the outer layer of the bee balls generate heat through flaring wings, and the temperature of the whole bee balls is kept. When the outside temperature of beehive lasts the decline, the heat energy of bee ball begins to radiate to the external world, and the paraffin that 6 inner walls of hive were paintd this moment intercepts the heat energy of bee ball external radiation, and paraffin has isolated the outside heat exchange in with the beehive of beehive, keeps warm in the beehive, has reduced the heat consumption in the beehive, has promoted the heat preservation effect of beehive.

In the middle period of winter, when bees start to die naturally in the bee colony, the dead bees fall into the microbial fermentation tank 11 under the influence of gravity. Because the constitution of the bees contains a large amount of protein which belongs to organic high molecular compounds, when the protein is decomposed by bacteria and fungi, peptide bonds in the protein are broken to release a large amount of heat energy, and meanwhile, the microbial fermentation tank 11 digests excrement in the beehive together, so that the neatness of the beehive is kept, and meanwhile, as the number of aged bees increases, the more heat energy is released by the microbial fermentation tank 11, and a bioenergy heat source is provided for the interior of the beehive.

When the weight of the inner box bearing the microbial fermentation tank 11 is increased due to the continuous propagation of bacteria and fungi and the gradual accumulation of the bee bodies in the microbial fermentation tank 11, and the tension spring 15 is compressed, when the opening plate 14 is in contact with the pyramid 16, the opening plate 14 is supported by the prism to the inner box, and the opening plate 14 is opened under the continuous supporting force, so that the bee debris and the liquid in the microbial fermentation tank 11 partially flow into the gap 9 between the inner box and the outer box, the liquid level of the microbial fermentation tank 11 is reduced, the insect debris floating on the surface of the microbial fermentation tank 11 and part of the liquid flow into the gap 9, and the surface of the microbial fermentation tank 11 is cleaned. When the insect remains floating on the surface of the microbial fermentation tank 11 and part of the liquid flow into the gap 9, the weight of the inner box is reduced, the inner box is lifted under the driving of the tension spring 15, the opening plate 14 is separated from the pyramid 16, the restoring force generated by the torsion spring 13 drives the baffle plate 12 to reset, the inner box is changed into a sealed box body again, and the insect remains and the liquid in the microbial fermentation tank 11 stop flowing out.

This technical scheme has avoided because the insect remains that the microbial fermentation pond 11 surface can not be decomposed piles up, causes microbial fermentation pond 11 and the insect corpse that falls newly can't contact, and influences the decomposition and the heat release activity of insect corpse, adopts this technical scheme to strengthen microbial fermentation pond 11's the effect of heating, makes microbial fermentation pond 11 possess self-cleaning function moreover.

Along with the continuous decomposition of the microbial fermentation tank 11 on the bee corpses, the temperature in the beehive is higher and higher, when the temperature in the beehive is higher than 35 ℃, paraffin begins to soften (is not melted), and the paraffin performs an endothermic reaction in the softening process, so that the temperature in the beehive is reduced. Because the paraffin is softened, the supporting force of the paraffin at the bottommost part on the paraffin at the top part is reduced, the paraffin at the bottom part is gradually separated from the contact with the box wall, at the moment, the paraffin is diffused towards the periphery and continuously absorbs heat, and the softened paraffin is gradually diffused into the gap 9 between the inner layer 201 and the outer layer 202. At this moment, the area of the coincidence of the paraffin and the box wall is reduced, the heat preservation effect of the beehive is worsened, the heat exchange between the outside and the inside of the beehive is accelerated, the temperature of the beehive is reduced, and when the paraffin is softened, the heat is absorbed in the beehive, so that the temperature in the beehive is reduced.

When the temperature in the beehive is lower than 35 ℃, the paraffin starts to release heat and harden, the paraffin continuously releases heat for a long time in the hardening process to supplement the temperature of the beehive, and the paraffin in the beehive and the microbial fermentation tank 11 jointly form a heat source, so that the temperature in the beehive is increased. Because the density of the paraffin is only 0.9g/cm3, the paraffin flowing into the gap 9 between the inner layer 201 and the outer layer 202 floats on the liquid level, after the paraffin flowing into the gap 9 between the inner layer 201 and the outer layer 202 is hardened, the paraffin floats on the liquid level because the density of the paraffin is less than that of the mixed solution, the liquid flowing into the gap 9 between the inner layer 201 and the outer layer 202 and the bee remains are wrapped by the hardened paraffin, an operator cleans the beehive when bees live through the winter, only needs to lift the beehive, then takes off the outer layer 202, and cleans the paraffin in the gap 9 without opening the beehive, so that the heat loss in the beehive is reduced, and the heat preservation effect of the beehive is improved.

The above description is only an example of the present invention, and the common general knowledge of the technical solutions or characteristics known in the solutions is not described herein too much. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several variations and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. The utility model provides a honeybee is beehive for overwintering which characterized in that: a box cover, an auxiliary cover, a super, a nest box and a base are sequentially arranged from the high gravitational potential energy position to the low gravitational potential energy position, a partition board is vertically placed in the super, and a nest board is vertically placed in the nest box; the surface of the base is provided with a groove which is opposite to the box cover, a microbial fermentation tank is contained in the groove, and the microbial fermentation tank contains water, bacteria, fungi and chitinase; the radial two lateral wall surfaces of base are opened with the draw-in groove that is used for block nest board.

2. The bee overwintering hive of claim 1, wherein: the inner wall surfaces of the super and the nest box are coated with wax, the base comprises an outer layer and an inner layer, a gap is formed between the outer layer and the inner layer, and the groove on the surface of the base is positioned on the surface of the inner layer.

3. The bee overwintering hive according to claim 2, characterized in that: the relative radial lateral wall of inlayer all opens there is the through-hole, and the joint has the baffle in the through-hole, is connected with the torsional spring between baffle and the inlayer, and the welding of baffle middle part has the open-close board that extends to skin.

4. The bee overwintering hive according to claim 3, wherein: the bottom of the inner layer and the outer layer are connected with a tension spring, and the bottom of the outer layer is welded with a pyramid which is used for contacting the opening plate.

5. The bee overwintering hive according to claim 4, wherein: one end of the tension spring is welded with the bottom of the inner layer, and the other end of the tension spring is in contact with the surface of the outer layer.

6. The bee overwintering hive according to claim 5, wherein: the base is welded all around to have the stabilizer blade, the baffle is the frustum shape, the cross section of nest plate is the rectangle, wax is paraffin.