KR20190081666A - Beehive having automatic ventilating device - Google Patents

Abstract

The present invention relates to a beehive container having an automatic ventilation device capable of opening and closing a gateway of the beehive container by using a server. The present invention comprises: a housing which has a predetermined accommodation space, has a gateway cut in one side of the lower part, and has an open upper surface; an upper cover which is installed in the upper surface of the housing to selectively open and close the cut upper surface of the housing; an automatic ventilation device which is able to control the degree of the opening and closing of the gateway to artificially control the growth environment of bees; and a communication unit which is able to drive the automatic ventilation device through a wireless communication. The present invention has effects of: enabling a user to control opening and closing through a server and control the degree of the opening of the gateway depending on an opening and closing angle; preventing primary damage by completely blocking the gateway for predetermined time required for people to visit a site when there is damage from wasps; removing wasps through a secondary action; and reducing burden on the heat insulation activity of honeybees by reducing an opening angle when bees do not enter at night.

Description

BEEHIVE HAVING AUTOMATIC VENTILATING DEVICE WITH AUTOMATIC VENTILATION DEVICE

The present invention relates to a honeycomb structure, and more particularly, to a honeycomb structure that not only allows a temperature and humidity sensor to be easily installed in a honeycomb structure in a consumption mode, but also automatically opens and closes a sensor device The present invention relates to a honeycomb having an automatic ventilation device for controlling the internal environment by preventing overheating so that the device can be opened and the bees can be stably grown.

In order to induce premature spawning of queen bees during the winter season and foster them to be qualified as short-lived enthusiasts within a short period of time according to the fast-growing flowering season, the temperature and humidity inside the hive must be adjusted so that bees can grow stably even in the spring- It keeps the bead temperature at the dynamic temperature by adjusting and maintaining itself according to the growth condition of the bees.

It is known that bees are most active in spawning activity and child care activities when the temperature of the bee is about ± 1 ~ 2 ℃ at 35 ℃.

The bee is the smallest cold-blooded animal in the livestock. The infrared camera observes that the chest is attached to the wall, and then the fever is induced by the flight muscles.

When the interior of the land becomes hot, queen bee stops spawning and worker bees cease all activities. And, by using the wind of the wing, the temperature inside the land is lowered. If the number of bees increases and the inside of the land becomes narrower, the prospect of the proletariat becomes inevitable by the instinct of breeding of the bees.

When the breeding season is narrowed, the symptom of splitting is called the splitting heat, and when the splitting heat is generated, the collection of honey relatively decreases, resulting in loss of the beekeeping farmer.

Therefore, it is very important to detect the splitting heat in advance and adjust the environment through various measures.

For this reason, it is very important to detect the change in the temperature of the swirler, and it is very important to prevent the collection activity from being reduced due to activities to maintain the swirling temperature.

Therefore, by accurately measuring the temperature and humidity inside the honeycomb living bees and controlling and controlling them through artificial measures, it is an important factor in the honey bee to allow the bees to perform spawning activities and mining activities in optimum conditions do.

In addition, when the heat of the main heat is generated by the high temperature in the land, loss of the bees and the loss of the honey that is saved cause a great loss for the beekeeper. Therefore, in actual beekeeping farms, ventilation holes are made by folding corners of cornices to release the heat inside the beehive during the puffy and summer seasons, or a network of propolis nets may be used. The method of folding corners of cornices is to cover them again in the morning and at night, and at night to insulate them, which has the problem that the bee farmers must concentrate their attention and manpower.

It is an object of the present invention to provide a honeycomb having an automatic ventilation device capable of stably growing honeybees and increasing the amount of honey obtained thereby to enable efficient beeing.

In order to achieve the above-mentioned object, the present invention provides a hivetail having an automatic ventilation system, comprising: a housing having a predetermined accommodation space; An upper cover installed on an upper surface of the housing to selectively open and close an opened upper surface of the housing; A temperature and humidity sensor case disposed on an inner side wall of the housing and having a sensor module for sensing the temperature and humidity of the accommodation space, And an automatic opening / closing device for opening / closing the ventilating opening when the temperature measured by the sensor module in the temperature / humidity sensor case exceeds a threshold value set by a user, in accordance with an operation and an instruction by the MCU provided in the sensor module. .

Here, the temperature / humidity sensor case may include a case upper plate hinged to the upper side by a hinge member, a lower case plate fixed to a lower portion of the case, air and moisture in the accommodation space of the housing, And a mesh network for flowing the mesh network.

The sensor module may include a temperature / humidity sensor, the MC, a communication unit, and a power supply unit.

In order to arrange the temperature / humidity sensor case so as to stand upright in the accommodating space, both sides of the upper surface of the temperature / humidity sensor case may be formed with a latch protruding outside the temperature / humidity sensor case and hooked to one side of the housing.

The automatic opening and closing apparatus further includes a pinion gear rotatably installed on one side of the temperature and humidity sensor case, a rack having one end engaged with the case top plate to open and close the case top plate while moving up and down in association with the pinion gear, A gear, and an electric motor for rotationally driving the pinion gear.

The gateway module may further include a gateway embedded for collecting and storing information sensed by the sensor module, and a main server receiving information collected and stored in the gateway embedded at predetermined intervals to synthesize the data.

The gateway embedded may further include a receiver for receiving information transmitted from the sensor module, an MCU for processing the information received by the receiver, a storage unit for storing the information processed by the MCU, And a power supply unit for supplying power to the power supply unit.

As described above, the honeycomb with the automatic ventilator according to the present invention can be manufactured in a consuming manner so that the honeycomb can be installed even when the bee is being kept in the honeycomb, .

In addition, the temperature sensor case installed in the hive reflects the temperature and humidity of the interior space through the mesh network so as not to interfere with the growth of the bees. If the measured temperature exceeds the threshold value of 35 ° C or more, Through the command of the embedded middleware, it commands the automatic opening and closing device to cool down the internal heat of the housing through the opening of the ventilation hole, thereby maintaining the optimum temperature of the bees' growing temperature of 35 ° C, It is possible to make efficient beeing possible by increasing labor efficiency and increasing the amount of honey obtained.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view showing a structure of a hive having an automatic ventilation apparatus according to an embodiment of the present invention,
FIG. 2 is a perspective view showing the structure of a hygrometer sensor case and an automatic opening and closing apparatus of a hive having the automatic ventilation device of FIG. 1,
3 is a schematic view showing a connection relationship between the temperature / humidity sensor case and the automatic opening / closing device of FIG. 2,
Fig. 4 is a plan view showing the overall connection relationship of the hive having the automatic ventilation device of Fig. 1,
5 is a flowchart illustrating an operation sequence of an automatic ventilation apparatus according to an exemplary embodiment of the present invention.

In most beekeeping farms, there is a work to open a part of the artificial cover which is covered on the inside of the housing with the fluid and the summer.

Due to the convection phenomenon, the hot heat inside the housing is discharged to the open part of the openings, and the cool air outside is introduced into the inside through the rumors at the bottom of the housing, thereby greatly reducing the temperature control activity of honey bees, You can give.

However, this approach should be reopened in the morning and evening and at night to keep warm, and this will allow the beekeepers to concentrate their attention and workforce intensively, The present invention has been developed in view of the above-described need.

Hereinafter, a honeycomb with an automatic ventilation apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view showing a structure of a hive having an automatic ventilation apparatus according to an embodiment of the present invention. FIG. 2 is a perspective view of a hi- 3 is a schematic view showing the connection relationship between the temperature and humidity sensor case and the automatic opening and closing device of FIG. 2, and FIG. 4 is a view showing the overall connection relationship of the hive having the automatic ventilation device of FIG. 1 And FIG. 5 is a flowchart illustrating an operation sequence of an automatic ventilation apparatus according to an exemplary embodiment of the present invention.

As shown in these figures, the hive having the automatic ventilation apparatus according to the present invention includes a housing (110) having a certain accommodation space (110) and a rumored door (120) 100); An upper cover 200 installed on an upper surface 130 of the housing 100 to selectively open and close the cut upper surface 130 of the housing 100; A temperature and humidity sensor case 300 having a sensor module 310 disposed on an inner side wall of the housing 100 and capable of sensing the temperature and humidity of the accommodation space 110 and having a vent on the top surface thereof; When the temperature measured by the sensor module 310 in the temperature / humidity sensor case 300 exceeds a threshold value set by the user, the operation and command by the MCU 312 provided in the sensor module 310 And an automatic opening / closing device 400 driven to open and close the ventilating opening.

The housing 100 is a member having a rectangular cross section in which an upper surface 130 is opened and a receiving space 110 is formed therein to accommodate a plurality of honeycomb plates and the temperature / humidity sensor case 300 .

The housing 100 has a rumen 120 formed at a lower portion of the lower surface of the housing 100 so that the housing space 110 communicates with the outside so that the honeybees can collect honey from the outside of the housing space 110 .

The upper cover 200 is formed with an opening so that the upper surface 130 of the housing 100 for inserting the honeycomb forming plate and the temperature and humidity sensor case 300 into the receiving space 110 can be selectively opened and closed. And is detachably attached to the upper surface 130.

The temperature and humidity sensor case 300 is installed inside the housing space 110 so that the latching part 140 hides one side of the housing 100 so that the temperature and humidity inside the housing space 110 can be detected .

When the internal temperature of the temperature / humidity sensor case 300 is equal to or higher than a predetermined value, the ventilating opening is opened to lower the internal temperature by providing an opening formed on the upper side of the temperature / humidity sensor case 300.

The temperature and humidity sensor case 300 includes a case upper plate 320 hinged by a hinge member 321 on one side of the upper case, a lower case plate 340 fixed to the lower side, And a mesh network 330 for flowing air so that the temperature and humidity inside the temperature and humidity sensor case 300 are equal to each other.

A sensor module 310 is formed on the lower case plate 340 and the sensor module 310 is provided with a temperature and humidity sensor 311 and an MCU 312 and a communication unit 313 and a power supply unit 314.

The temperature and humidity sensor 311 is installed on the surface of the sensor module 310 and receives power from the power supply unit 314 to sense temperature and humidity information. The MCoil 312 includes a power supply unit 314, And receives the power from the temperature sensor 311 and processes information sensed by the temperature and humidity sensor 311.

The communication unit 313 transmits the information sensed by the temperature / humidity sensor 311 to the gateway embedded device 600 by a wireless communication method or a wired communication method.

The power supply unit 314 may supply power to the MCU 312 by a battery, a constant power source, or a solar cell.

The humidity sensor case 300 is provided on both sides of the upper surface of the temperature and humidity sensor case 300 so that the temperature and humidity sensor case 300 can be disposed upright in the accommodation space 110. [ (Not shown).

The automatic opening and closing apparatus 400 includes a pinion gear 410 rotatably installed at one side of the inside of the temperature and humidity sensor case 300 and a case upper plate 320 which moves upward and downward along with the pinion gear 410 A rack gear 420 once in contact with the case upper plate 320 to open and close the pinion gear 410 and an electric motor for rotating the pinion gear 410. [

In order to automatically control the opening and closing of the ventilator in the summer using the above-described configuration, the air flow must first be analyzed.

The temperature inside the housing 100 is lower than the temperature of the inside of the housing 100 through the rumored door 120 of the housing 100 as shown in FIG. And passes through the mesh net 330 formed in the case 300 and then escapes through the upper ventilation hole of the temperature and humidity sensor case 300.

In addition, FIG. B shows a case where the cloth cover is covered and fixed on the upper surface of the housing 100 excluding the upper surface of the temperature and humidity sensor case 300. When the cold air flows in the rumored door 120, And is discharged through the ventilation port of the sensor case 300.

In this case, the pinion 410 of the automatic opening / closing apparatus 400 and the rack 420 are driven to open and close the ventilation opening. FIG. C shows a state in which the rack 420 of the automatic opening / The upper plate 320 is opened and the ventilation opening is performed. FIG. D shows a state in which the rack 420 descends after the completion of the ventilation, so that the case upper plate 320 closes the case upper plate 320, It shows closed status.

Meanwhile, the honeycomb with the automatic ventilator according to the present invention includes a gateway embedded 600 for collecting and storing information sensed by the sensor module 310, and a gateway 600 for receiving and storing information collected and stored in the gateway 600 at predetermined intervals And a main server 700 for synthesizing the data.

The gateway embedded device 600 includes a receiving unit 610 for receiving information transmitted from the sensor module 310, a MCU 620 for processing information received by the receiving unit 610, A storage unit 630 for storing the processed information, and a power supply unit 640 for supplying power to the MCM 620 side.

The receiving unit 610 receives information sensed by the sensing sensor 510 by being connected to the communication unit 530 of the sensing board 500 by a wireless communication method or a wire communication method.

The MCU 620 processes the information received by the receiving unit 610 and the power supply unit 640 supplies power to the MCU 620. The power supply unit 640 supplies power to the MCU 620, The power supply unit 540 may be configured as a battery, a constant power source, or a solar cell.

A method of monitoring a hive having an attachment type weight measuring unit having such a configuration will now be described with reference to FIG.

As shown in FIG. 5, the method for monitoring a hive having an attachable weighing unit according to the present invention includes a first step of sensing temperature and humidity information using a temperature and humidity sensor 311, a temperature and humidity sensor 311 A second step of transmitting the temperature and humidity information sensed by the gateway module 600 to the gateway embedded device 600 using the communication unit 313 of the sensor module 310 and a step of transmitting the information transmitted from the communication unit 313 to the gateway embedded device 600 And a fourth step of storing the weight information in a storage unit 630 of the gateway embedded device 600. [0040] FIG.

The temperature and humidity sensor 311 senses temperature and humidity information in real time, and the sensed information is processed in the MCU 312.

The information processed in the MCU 312 is transmitted to the gateway embedded device 600 through the communication unit 313. At this time, the identification number information assigned to each of the sensor modules 310 is transmitted together with the temperature and humidity information It is preferable to transmit.

The information transmitted from the communication unit 313 is received together with the identification number assigned to the sensor module 310 by the receiving unit 610 of the gateway embedded device 600 and the received information is stored in the storage unit 630.

When the temperature and humidity information detected by the sensor module 310 is equal to or greater than a threshold value set in the MCU 620, the temperature and humidity information is transmitted to the main server 700 at the set time, The main server 700 transmits the alarm message to the beeping cell phone or transmits the alarm message through the app installed in the cell phone of the beekeeper, So that the temperature and humidity inside the hive can be optimally maintained, thereby increasing the amount of honey obtained.

The honeycomb having the automatic ventilator according to one embodiment of the present invention having the above-described structure can be installed in the front of the rumor provided in the honeycomb, and can be applied to the existing honeycomb .

In addition, according to the temperature and humidity of the inside of the hive, the opening amount of the rumor is automatically opened and closed to optimize the temperature and humidity inside the hive, thereby increasing the amount of honey obtained.

In addition, the honeycomb structure can be installed even in a state where honey bees are being kept in a honeycomb, so that the temperature and humidity sensor can be easily provided in the honeycomb.

In addition, the honeycomb sensor case installed in the hive can prevent the bees from interfering with the growth of the honey bees can be stably grown, thereby increasing the amount of honey obtained, so that efficient beeing can be made.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: housing 110: accommodation space
120: rumor 130: upper surface
140: latching part 200: upper cover
300: Temperature and humidity sensor case 310: Sensor module
311: Temperature and humidity sensor 312:
313: communication unit 314: power supply unit
320: Case top plate 330: Mesh net
340: Lower case plate 400: Automatic opening / closing device
410: Pinion 420: Rack

Claims (7)

A housing (100) having a predetermined accommodation space (110), a rumored door (120) cut at a lower side thereof and an upper surface (130) being opened;
An upper cover 200 installed on an upper surface 130 of the housing 100 to selectively open and close the cut upper surface 130 of the housing 100;
A temperature and humidity sensor case 300 having a sensor module 310 disposed on an inner side wall of the housing 100 and capable of sensing the temperature and humidity of the accommodation space 110 and having a vent on the top surface thereof;
When the temperature measured by the sensor module 310 in the temperature / humidity sensor case 300 exceeds a threshold value set by the user, the operation and command by the MCU 312 provided in the sensor module 310 And an automatic opening / closing device (400) that is driven to open and close the ventilating opening.
The method according to claim 1,
The temperature and humidity sensor case 300 includes a case upper plate 320 hinged by a hinge member 321 at one side of the upper side, a lower case plate 340 fixed to the lower side, And a mesh network (330) for flowing air such that the temperature and humidity inside the temperature and humidity sensor case (300) are equal to each other.
3. The method of claim 2,
A sensor module 310 is formed on the lower case plate 340 and the sensor module 310 is provided with a temperature and humidity sensor 311, the MC oil 312, a communication unit 313, and a power supply unit 314 A hive having an automatic ventilation device.
The method according to claim 1,
The sensor case 300 protrudes to the outside of the temperature and humidity sensor case 300 on both sides of the upper surface of the temperature and humidity sensor case 300 so that the temperature and humidity sensor case 300 can be disposed upright in the accommodation space 110, And a latching part (140) for latching on one side of the hinge.
The method according to claim 1,
The automatic opening and closing apparatus 400 includes a pinion gear 410 rotatably mounted on one side of the temperature and humidity sensor case 300 and a case upper plate 320 which moves up and down in association with the pinion gear 410, A rack gear 420 whose one end is in contact with the case upper plate 320 to open and close the pinion gear 410; and an electric motor for rotating the pinion gear 410.
The method according to claim 1,
A gateway embedded 600 for collecting and storing information sensed by the sensor module 310 and a main server 700 for receiving information collected and stored in the gateway embedded system 600 at a predetermined interval to synthesize data Wherein the hob is provided with an automatic ventilation device.
The method according to claim 6,
The gateway embedded device 600 includes a receiving unit 610 for receiving the information transmitted from the sensor module 310, a MCU 620 for processing the information received by the receiving unit 610, , And a power supply unit (640) for supplying power to the MC fluid (620). The automatic ventilating apparatus according to claim 1,

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