KR20170017505A - Monitoring device and method for beehive having weight measuring part - Google Patents

Abstract

The present invention relates to an apparatus and a method for monitoring a hive having a weight measuring unit and a method of displaying weight information of the hive bulb detected by the weight measuring unit on the display unit and detecting the weight information on the sensing board, Step 1; A second step of transmitting the weight information measured by the sensing board to the middleware embedded using the communication unit of the sensing board; A third step of receiving information transmitted from the communication unit by the receiving unit of the middleware embedded; A fourth step of storing the information in a storage unit of the middleware embedded; , It is possible to increase the amount of honey obtained by accurately monitoring the weight of the honeycomb to accurately grasp the time of harvesting.

Description

TECHNICAL FIELD [0001] The present invention relates to a monitoring apparatus and a method for monitoring a hive having a weight measuring unit,

The present invention relates to a method for monitoring a honeycomb, and more particularly, to a method for monitoring a honeycomb having a weighing part capable of accurately determining the time of harvesting by efficiently monitoring the weight of the honeycomb.

Generally, beekeeping is a method in which a person artificially hits a bee to obtain honey, and the honeycomb used in such beekeeping is provided in a substantially box shape and has a plurality of honeycombs which are insertable into a rectangular beehive which is opened and closed by a lid, .

At the bottom of the front of the hive, there are entrances to access the bees, and the bees are raised. The bees enter and exit through the entrance of the beehive, find flowers in the proper radius of action, It was stored in the honeycomb, and honey was obtained by man-made artificial collection of the honey that bees stored in the honeycomb.

The weight of the honey bee is increased according to the amount of honey stored in the honey bee, and when the weight is over a certain level, honey is stored by artificially collecting the honey stored in the honey bee.

However, in such a conventional honeycomb, there is no separate means for measuring the change in the weight of the honeycomb in real time, so that the honeycomb can not accurately determine the timing of harvesting, have.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances and provides a monitoring method of a honeycomb having a weight measuring unit capable of increasing the amount of honey obtained by accurately monitoring the weight of a honeycomb, have.

According to another aspect of the present invention, there is provided a monitoring apparatus for a hive having a weight measuring unit, comprising: a hive; A weighing unit for placing the honeycomb on the top surface and measuring the weight of the honeycomb; A display unit provided at one side of the weight measuring unit and displaying weight data measured by the weight measuring unit; A plurality of sensing boards for sensing information on the weight data measured by the display unit; A middleware embedded for collecting and storing information sensed by the plurality of sensing boards; A main server for receiving information collected and stored in the embedded middleware at regular intervals to synthesize data; .

Here, the sensing board may include a sensing unit, a CPU for processing information on the weight of the hive detected by the sensing sensor, a communication unit for transmitting the information processed by the CPU to the middleware embedded device, And the like.

The communication unit may be driven by a wireless communication system or a wired communication system.

The power supply unit may supply power to the cigarette lighter by a battery, a constant power source, or a solar cell.

In addition, the middleware embedded may include a receiver for receiving information transmitted from the sensing board, a CPU for processing information received by the receiver, a storage for storing the information processed by the CPU, And a power supply unit for supplying power.

According to another aspect of the present invention, there is provided a method of monitoring a hive having a weight measuring unit, the method including displaying weight information of the hive, measured by the weight measuring unit, on the display unit, The method comprising: A second step of transmitting the weight information sensed by the sensing board to the middleware embedded using the communication unit of the sensing board; A third step of receiving information transmitted from the communication unit by the receiving unit of the middleware embedded; A fourth step of storing the information in a storage unit of the middleware embedded; .

Here, in the second step, the ID information given to each sensing board may be transmitted together with the weight information.

In the fourth step, the weight information may be stored in the storage unit by ID and time assigned to the sensing board.

In addition, the weight information may be transmitted to the main server at a set time and stored.

In addition, when the weight information sensed by the sensing board is equal to or greater than a preset threshold value, a text message can be sent to the beeping cell phone.

As described above, the apparatus and method for monitoring a hive having a weight measuring unit according to the present invention can effectively increase the amount of honey obtained by accurately monitoring the weight of a honeycomb to accurately determine the time of harvesting.

FIG. 1 is a perspective view illustrating a structure of a hive having a weight measuring part to be a subject of a monitoring method according to an embodiment of the present invention,
2 is a perspective view showing a structure of a weighing part in which a hive is separated,
3 is a plan view showing a structure of a honeycomb monitoring apparatus having a weight measuring unit according to an embodiment of the present invention,
4 is a plan view showing the structure of the sensing board of FIG. 3,
5 is an operation diagram sequentially illustrating a honeycomb monitoring method having a weight measuring unit according to an embodiment of the present invention.

Hereinafter, a method of monitoring a hive having a weight measuring unit according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view illustrating a structure of a hive having a weight measuring part to be subjected to a monitoring method according to an embodiment of the present invention, FIG. 2 is a perspective view showing a structure of a weight measuring part with a hive, FIG. 4 is a plan view showing the structure of the sensing board of FIG. 3, and FIG. 5 is a plan view showing a honeycomb monitoring apparatus according to an embodiment of the present invention. And a method for monitoring a honeycomb having a weighing part according to an example.

As shown in these drawings, a monitoring apparatus for a hive having a weight measuring unit according to the present invention includes a hive 100; A weighing unit 200 for measuring the weight of the honeycomb 100 mounted on the upper surface of the honeycomb 100; A display unit 300 provided at one side of the weight measuring unit 200 to display weight data measured by the weight measuring unit 200; A plurality of sensing boards 500 for sensing information on the weight data measured by the display unit 300; A middleware embedded 600 for collecting and storing information sensed by the plurality of sensing boards 500; And a main server 700 for receiving the information collected and stored in the middleware embedded system 600 at regular intervals to synthesize the data.

The honeycomb 100 has a structure in which a plurality of honeycombs which are formed in a housing shape and can be inserted into and removed from a rectangular honeycomb which is opened and closed by a lid are arranged in a diaphragm shape.

The weighing unit 200 is a unit for measuring the weight of the honeycomb 100 increasing in accordance with the amount of honey stored in the honeycomb 100. The weighing unit 200 is disposed below each honeycomb 100, (100) in real time.

The display unit 300 displays the measured weight so that the beeper can visually check the weight of the hive bucket 100 measured by the weight measuring unit 200. The display unit 300 displays the weight measured by the weight measuring unit 200, Respectively.

The sensing board 500 is embedded in the inside of the weighing unit 200 or the display unit 300 so that the weighing unit 200 measures the weight information displayed through the display unit 300, As shown in FIG.

The sensing board 510 includes a sensing sensor 510 for sensing weight information, a CPU 500 for processing weight information sensed by the sensing sensor 510, A communication unit 530 for transmitting the data to the embedded device 600 and a power supply unit 540 for supplying power to the CPU 520 side.

The sensing sensor 510 is installed on the surface of the sensing board 500 and receives power from the power supply unit 540 and senses the weight information. The sensor unit 520 receives power from the power supply unit 540, And serves to process information sensed by the sensing sensor 510.

The communication unit 530 transmits information sensed by the sensing sensor 510 to the middleware embedded device 600 by a wireless communication method or a wired communication method.

The power supply unit 540 may supply power to the cigarette oil 520 by a battery, a constant power source, or a solar battery.

The middleware embedded device 600 includes a receiving unit 610 that receives information transmitted from the sensing board 500, a CPU 620 that processes information received by the receiving unit 610, a CPU 620 that processes the information processed by the CPU 620, And a power supply unit 640 for supplying power to the cigarette oil 620. The power supply unit 640 includes a power supply unit 630,

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 power supply unit 640 supplies power to the power supply unit 620. The power supply unit 620 supplies power to the power supply unit 620. The power supply unit 640 supplies power to the power supply unit 620, 540, which may be a battery, a constant power source, or a solar cell.

A method for monitoring a hive having a weight measuring unit having such a configuration includes a first step of sensing weight information measured by the weight measuring unit 100 using a sensing sensor 510, A second step of transmitting weight information to the middleware embedded device 600 using the communication unit 530 of the sensing board 500 and a second step of receiving information transmitted from the communication unit 530 by the receiving unit 610 of the middleware embedded device 600 And a fourth step of storing the weight information in a storage unit 630 of the middleware embedded device 600.

The sensing sensor 510 measures the weight information displayed on the display unit 200 in real time by the weight measuring unit 100 and the sensed weight information is processed in the CPU 520.

The information processed in the CPU 520 is transmitted to the middleware embedded device 600 through the communication unit 530. It is preferable that the ID information provided to each sensing board 500 is transmitted together with the weight information Do.

The information transmitted from the communication unit 530 is received together with the ID information provided to the sensing board 500 in the receiving unit 610 of the middleware embedded device 600 and the received information is stored in the storage unit 630.

At this time, it is preferable that the weight information is stored in the storage unit 630 according to the ID and time assigned to the sensing board 500. This is because it is possible to grasp the weight information according to the position of the sensing sensors 510, And to inform the beekeeper of the position of the honeycomb 100 which has become the honeycomb stage and the time to be harvested.

The weight information is transmitted to the main server 700 at the set time and is stored. When the information sensed by the sensing sensor 510 is equal to or greater than a predetermined threshold value, a text message is sent to the cell phone of the beekeeper, It is preferable to increase the amount of honey obtained by dewatering according to the weight information of the honeycomb 100.

The monitoring method of a honeycomb having a weight measuring unit according to an embodiment of the present invention having the above-described structure can increase the amount of honey obtained by accurately monitoring the honeycomb weight and accurately detecting the honeycomb timing.

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: Hive 200: Weighing part
300: display unit 500: sensing board
510: detection sensor 520:
530: communication unit 540: power supply unit
600: Middleware embedded 610: Receiver
620: Cipher 630:
640: Power supply unit 700: Main server

Claims (10)

A hive 100;
A weighing unit 200 for measuring the weight of the honeycomb 100 mounted on the upper surface of the honeycomb 100;
A display unit 300 provided at one side of the weight measuring unit 200 to display weight data measured by the weight measuring unit 200;
A plurality of sensing boards 500 for sensing information on the weight data measured by the display unit 300;
A middleware embedded 600 for collecting and storing information sensed by the plurality of sensing boards 500;
A main server 700 for receiving the information collected and stored in the middleware embedded system 600 at regular intervals and synthesizing the data;
Wherein the weighing unit includes a weighing unit. The method according to claim 1,
The sensing board 500 includes a sensing sensor 510 and a CPU 500 for processing information on the weight of the hive 100 detected by the sensing sensor 510, A communication unit 530 for transmitting the information to the embedded middleware 600 and a power supply unit 540 for supplying power to the CPU 520. The apparatus for monitoring a hive according to claim 1, 3. The method of claim 2,
Wherein the communication unit (530) is driven by a wireless communication method or a wired communication method. The method of claim 3,
Wherein the power supply unit (540) supplies power to the capillary (520) by a battery, a constant power source, or a solar cell. The method of claim 3,
The middleware embedded device 600 includes a receiving unit 610 for receiving information transmitted from the sensing board 500, a CPU 620 for processing information received by the receiving unit 610, And a power supply unit (640) for supplying power to the capillary tube (620). The apparatus of claim 1, wherein the capillary tube (620) A monitoring method of a hive having a weight measuring unit according to any one of claims 1 to 5,
A first step of displaying the weight information of the honeycomb 100 measured by the weight measuring unit 200 on the display unit 300 and sensing the weight information on the sensing board 500;
A second step of transmitting the weight information sensed by the sensing board (500) to the middleware embedded (600) using the communication unit (530) of the sensing board (500);
A third step of receiving information transmitted from the communication unit 530 by the receiving unit 610 of the middleware embedded device 600;
Storing the information in a storage unit (630) of the middleware embedded (600);
The method of monitoring a hive having a weighing unit according to claim 1, The method according to claim 6,
Wherein the second step transmits ID information given to each sensing board (500) together with the weight information. 8. The method of claim 7,
And the fourth step stores the weight information in the storage unit 630 according to the ID and time assigned to the sensing board 500. [ 9. The method of claim 8,
Wherein the weight information is transmitted to the main server (700) at a preset time and stored. 8. The method of claim 7,
And a text message is sent to a beeping cell phone when the weight information sensed by the sensing board (500) is equal to or greater than a preset threshold value.

Images