CN204557249U - A kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism - Google Patents
A kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism Download PDFInfo
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- CN204557249U CN204557249U CN201520266709.6U CN201520266709U CN204557249U CN 204557249 U CN204557249 U CN 204557249U CN 201520266709 U CN201520266709 U CN 201520266709U CN 204557249 U CN204557249 U CN 204557249U
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- 229910001220 stainless steel Inorganic materials 0.000 claims description 3
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- 230000007704 transition Effects 0.000 abstract description 5
- 241000264877 Hippospongia communis Species 0.000 description 78
- 238000010586 diagram Methods 0.000 description 7
- 238000012544 monitoring process Methods 0.000 description 7
- 238000012360 testing method Methods 0.000 description 7
- 238000000034 method Methods 0.000 description 4
- 238000011160 research Methods 0.000 description 4
- 238000010276 construction Methods 0.000 description 3
- 238000005516 engineering process Methods 0.000 description 3
- 238000012545 processing Methods 0.000 description 3
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- 241000257303 Hymenoptera Species 0.000 description 1
- 230000004888 barrier function Effects 0.000 description 1
- 229940038481 bee pollen Drugs 0.000 description 1
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Abstract
The utility model discloses a kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism, beehive is primarily of case lid (1), casing (5), frame (6), camera (9) and control panel (3) composition, described frame (6) is installed septum (7) and honeycomb temperature collection circuit plate (8), described honeycomb temperature collection circuit plate (8) is sealed between two septums (7), it welds NTC thermistor sensor, the NTC thermistor of described NTC thermistor sensor embeds bottom septum cell correspondingly.The utility model compared to the advantage of prior art is: this beehive under the environment keeping honeybee ecosystem, can monitor the temperature of each honeycomb on septum, and forms image to outermost layer honeycomb surface.This utility model contributes to the relation understood and study each honeycomb temperature and store between thing, understands the impact of hive gesture transition on temperature adjusting.
Description
Technical field
The utility model relates to a kind of technical field of monitoring each honeycomb temperature and shooting honeycomb surface image on septum under ecosystem environment, particularly relating to a kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism.
Background technology
Beehive is the place that honeybee multiplies and lives.Be provided with some frames in beehive, frame is arranged in parallel.Before new frame design, each frame is equipped with a septum, the tow sides of this septum are densely covered with the hexagonal cell regularly arranged, and these cells are made up of recessed nest and bottom surface.Newly-designed 1 frame is equipped with two septums, sandwiches one block of honeycomb temperature collection circuit plate at the back side of these two septums.Honeybee builds honeycomb on each septum cell, institute's honeycomb of building surface and approximately dark 1 centimetre of septum cell bottom surface distance.Honeycomb is the storeroom of larva, honey and bee pollen.Honeycomb deposit difference then honeycomb temperature is different.Carry out temperature adjusting mechanism in order to study for each honeycomb difference storage thing honeybee on septum, understand the transition of hive gesture and impact thereof, needing monitor each honeycomb temperature and take honeycomb surface image.
There is no the temperature monitoring technique for all honeycomb at present both at home and abroad.Test with 1 frame, place 1 sensor for 1 every 3 honeycomb of frame single-sided honeycomb zone line for external.Concrete grammar is: during winter, honeybee is gathered in the middle of honeycomb, and the central point of adjacent 3 honeycomb, at honeycomb zone line, is placed 1 NTC thermistor by researchist, and measured temperature represents periphery 3 honeycomb temperature.The selected honeycomb region total area is 15cm*15cm, and honeycomb monitoring point number is that 16 row * 16 arrange, and totally 256 monitoring points, represent the temperature of 768 honeycomb.Domesticly at honeycomb gap place, electronic sensor is installed, the rare interference in monitoring point and each honeycomb temperature can not be monitored.In warm season, honeybee distribution is almost throughout whole honeycomb.In cold season and warm season, the distribution of honeybee is change.An one side septum can utilize area to be about 41500 square millimeters, can build more than 3350 honeycomb.Both at home and abroad existing method can not comprehensive monitoring honeycomb temperature, and does not take the overall image of honeycomb surface bee activity, therefore test of doing can not be used for accurately studying honeybee individuality and group's gesture function.
Utility model content
The purpose of this utility model is to overcome the deficiencies in the prior art, provides a kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism, to provide a kind of detection technique that can be used in measuring all honeycomb temperature.
The utility model is achieved through the following technical solutions:
For studying a beehive for honeycomb full honeycomb temperature adjusting mechanism, comprising case lid 1 and casing 5, also comprising some frames 6, control panel 3, and the honeycomb temperature collection circuit plate 8 be connected with wire with control panel 3 and camera 9; Described frame 6 is arranged in parallel within casing 5, and each frame is provided with two septums 7, and described temperature collection circuit plate 8 is sealed between these two septums 7; Described temperature collection circuit plate 8 is integrated with a large amount of NTC thermistor sensor, and described NTC thermistor sensor is made up of NTC thermistor and external circuit thereof, and described NTC thermistor embeds bottom the cell of septum 7 correspondingly.
Described control panel 3 comprises single chip control unit and signal transmission module.Described temperature collection circuit plate 8 is also integrated with multi-way switch, voltage follower and analog to digital converter.Described single chip control unit exports control signal and controls multi-channel switch switching, and the power input of NTC thermistor is connected with power supply by switching over; NTC thermistor sensor output is connected to the signal input part of analog to digital converter by voltage follower, and the signal output part of described analog to digital converter is connected to single chip control unit signal input part.The output signal of described single chip control unit transfers to outer computer by signal transmission module.
Described signal transmission module is the wire transmission module meeting serial communication protocol, or is wireless transport module.
Described camera 9 is infrared camera.
The quantity of described camera 9 is several, is evenly arranged on the cabinet wall just to septum 7.
Be placed on casing 5 after described control panel 3 is fixing by one piece of fixed head.
Described control panel 3 is enclosed with condensate water-proof paper, avoids condensate water to cause control panel to damage.
Be provided with a separation net 4 between described control panel 3 and casing 5, prevent honeybee from contacting with control panel.
Described separation net 4 is stainless steel wire mesh, and width of mesh is 2mm × 2mm.
The utility model has the following advantages compared to existing technology: the utility model provides a kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism, temperature detection technology and image processing techniques combine by the utility model, can be used in storing for each honeycomb difference on septum the research that thing carries out honeybee temperature adjusting mechanism, understand the impact of hive gesture transition on temperature adjusting, contribute to understanding the transition of hive gesture, untie the Mysterious Veil of the complex organism of honeybee; In addition, because honeycomb temperature collection circuit plate is in the closed environment between two honeycombs, in the space of the honeycomb of bee activity, there is no the interference of sensor and wire, maintain the living environment of the ecosystem of honeybee; Humidity no matter in beehive is much, and the condensate water of generation can not affect the normal work of honeycomb temperature collection circuit plate and control panel, makes test result more accurate, extends the serviceable life of proving installation, decrease maintenance cost.
Accompanying drawing explanation
Fig. 1 is the one-piece construction schematic diagram of beehive;
Fig. 2 is by the one-piece construction schematic diagram of one piece of honeycomb temperature collection circuit plate holder between two septums on frame;
Fig. 3 is research honeycomb full honeycomb temperature adjusting mechanism testing circuit block diagram;
Fig. 4 is 16 row × 16 row NTC thermistor subarray testing circuit schematic diagrams;
Fig. 5 is the position view that infrared camera is arranged on casing;
Fig. 6 is the distribution schematic diagram of infrared camera at casing.
Embodiment
Below embodiment of the present utility model is elaborated.The present embodiment is implemented under premised on technical solutions of the utility model, give detailed embodiment and concrete operating process, but protection domain of the present utility model is not limited to following embodiment.
Embodiment 1
Present embodiments provide a kind of under ecosystem environment for studying the beehive of honeycomb full honeycomb temperature adjusting mechanism, there is structure as shown in figs. 1 to 6, comprise on case lid 1, fixed head 2, control panel 3, separation net 4, casing 5, the some frames 6 be located in casing 5, each frame 6 and embed two septums 7 and one block of honeycomb temperature collection circuit plate 8 and eight cameras 9.
Described septum 7 is of a size of long 415mm × wide 195mm, honeybee builds honeycomb on each septum cell, individual septum 7 often opening frame 6 all has and arranges regularly arranged hexagon honeycomb more than 40 row × 80, institute's honeycomb of building surface and approximately dark 1 centimetre of septum cell bottom surface distance, adult bees is lived inside and outside honeycomb.
Described control panel 3 comprises single chip control unit, described single chip control unit is for be made up of two STM32F103ZE chips and outside oscillatory circuit thereof, and described STM32F103ZE chip is connected to outer computer by the data transmission module that has RS232 serial port protocol; Described control panel 3 outside surface has wrapped up condensate water-proof paper, causes control panel 3 malfunction with the condensate water prevented; The stainless steel wire mesh 4 that width of mesh is 2mm × 2mm is also installed below control panel, in case honeybee contacts with control panel; Be placed on casing 5 after control panel is fixing by piece fixed head of above it 2.。
Described honeycomb temperature collection circuit plate 8 for be sealed in a frame 6 two septums 7 between PCB printed circuit board, described printed circuit board surface scribbles the damp-proof paint of insulation, moisture proof and corrosion proof function, the entirety of a sealing is formed with frame 6 and septum 7, its one-piece construction as shown in Figure 2, comprises honeybee layer 71, honeycomb layer 72, NTC layer 81, PCB moisture barrier 82 and pcb board layer 83; During design, that face of NTC thermistor has been welded for front with honeycomb temperature collection circuit plate, draw the hexagonal mesh corresponding with septum 7 cell, amount to 40 row × 80 to arrange, be decorated with the jack corresponding with NTC thermistor pin in each hexagon, two pins of every NTC thermistor are welded on printed circuit back; Wherein 16 row × 16 arrange totally 256 NTC thermistor is a subarray, and monitoring 40 row × 80 row honeycomb needs 15 subarrays; At the back side of printed circuit board inserting NTC thermistor, the fixed value resistance of the voltage follower that the model being also welded with some microencapsulated is the multi-channel switch of CD4051, model is LM358 and model to be the analog to digital converter of TLC2543 and resistance be 4.7k Ω; Namely described thermistor (temperature) sensor is the bleeder circuit that the fixed value resistance being 4.7k Ω by NTC thermistor and resistance forms, and as shown in Figure 3, its subarray testing circuit schematic diagram as shown in Figure 4 for its testing circuit block diagram.Wherein: every 16 NTC thermistor connect a fixed value resistance, under the control signal control that STM32F103ZE single-chip microcomputer exports, the power input of every 8 NTC thermistor is connected with power supply by 1 multi-channel switch CD4051.The output terminal of every 32 NTC thermistor sensors is connected to a voltage follower LM358, every 5 voltage follower LM358 are connected to 1 TLC2543 analog to digital converter, and the signal output part of described TLC2543 analog to digital converter is connected to STM32F103ZE single-chip microcomputer input end.
In each subarray, STM32F103ZE controls multi-channel switch CD4051, multi-channel switch CD4051 output terminal is connected to the power input of honeycomb temperature collection circuit plate 8 to the NTC thermistor sensor power chosen, the partial pressure value of described NTC thermistor is the outputting analog signal of sensor, this outputting analog signal is after voltage follower LM358 isolates, export to analog to digital converter TLC2543, the analog quantity that NTC thermistor sensor exports is transformed into digital quantity by analog to digital converter TLC2543, and digital quantity signal is transferred to STM32F103ZE chip, STM32F103ZE chip transmits signal to outer computer by the data transmission module with RS232 serial communication protocol again.
When outermost honeycomb and beehive front panel inner distance are 8cm, according to the visual angle of infrared sensor, with eight infrared cameras, all honeycomb images on outermost honeycomb just need can be photographed; In the present embodiment, 8 infrared cameras 9 are evenly arranged on the cabinet wall just to septum 7 in 2 row × 4 row, and camera position as shown in Figure 5,6.
During work, honeycomb temperature collection circuit plate 8 exports each honeycomb temperature digital signal and gives single-chip microcomputer on control panel 3, and temperature value to be transmitted by RS232 serial ports and is stored in the database of computing machine by single-chip microcomputer.The Deliph software simulation utilized on computers goes out honeycomb 40 row × 80 row honeycomb, display interface with Txy (wherein, T represents temperature, x represents columns, y represents line number) form name, in database, with Dxy, (wherein, D represents data, x represents columns, and y represents line number) form name.Display interface Txy temperature value is corresponding with database D xy value.Application survey data and realize on computers each honeycomb different temperatures interval different colours is shown.
8 infrared cameras 9 are just to the shooting of outermost layer honeycomb surface, and obtain 8 picture group image signals, these signals are passed to computing machine, utilize the image processing tool of computing machine to carry out cutting and splicing to these 8 groups of images, obtain whole honeycomb surface image.
The outermost layer honeycomb surface image obtained according to the same time and honeycomb temperature value and each honeycomb Temperature Distribution value, mathematical tool is utilized to carry out analyzing and processing, realize the relation of estimation honeycomb regional area or Zone Full temperature and honeybee number, infer the deposit of honeycomb, understand the impact of hive gesture transition on temperature adjusting, to the full honeycomb temperature adjusting mechanism of research honeycomb etc., there is very strong Research Significance.
Embodiment 2
The another kind of the present embodiment is used under ecosystem environment for studying the beehive of honeycomb full honeycomb temperature adjusting mechanism, wherein, described signal transmission module is the wireless transport module of model DTK2617A-ZigBee that DTK company produces, by this module, temperature signal is passed to outer computer, other structures are with embodiment 1.
Claims (9)
1. one kind for studying the beehive of honeycomb full honeycomb temperature adjusting mechanism, comprise case lid (1) and casing (5), it is characterized in that, also comprise some frames (6), control panel (3), and the honeycomb temperature collection circuit plate (8) be connected with wire with control panel (3) and camera (9); Described frame (6) is arranged in parallel within casing (5), and each frame is provided with two septums (7), and described temperature collection circuit plate (8) is sealed between these two septums (7); Described temperature collection circuit plate (8) is integrated with a large amount of NTC thermistor sensor, described NTC thermistor sensor is made up of NTC thermistor and external circuit thereof, and described NTC thermistor embeds bottom the cell of septum (7) correspondingly.
2. a kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism according to claim 1, it is characterized in that, described control panel (3) comprises single chip control unit and signal transmission module, and described temperature collection circuit plate (8) is also integrated with multi-channel switch, voltage follower and analog to digital converter; Described single chip control unit exports control signal and controls multi-channel switch switching, and the power input of described NTC thermistor is connected with power supply by switching over; NTC thermistor sensor output is connected to the signal input part of analog to digital converter by voltage follower, the signal output part of described analog to digital converter is connected to single-chip microcomputer signal input part, and described single-chip microcomputer output signal transfers to outer computer by signal transmission module.
3. a kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism according to claim 2, it is characterized in that, described signal transmission module is the wire transmission module meeting serial communication protocol, or is wireless transport module.
4. a kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism according to claim 1, it is characterized in that, described camera (9) is infrared camera.
5. a kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism according to claim 1, is characterized in that, the quantity of described camera (9) is several, is evenly arranged on the cabinet wall just to septum (7).
6. a kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism according to claim 1, is characterized in that, is placed on casing (5) after described control panel (3) is fixing by one piece of fixed head.
7. a kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism according to claim 1, it is characterized in that, (3) are enclosed with condensate water-proof paper to described control panel.
8. a kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism according to claim 1, is characterized in that, be provided with a separation net (4) between described control panel (3) and casing (5).
9. a kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism according to claim 8, it is characterized in that, described separation net (4) is stainless steel wire mesh, and width of mesh is 2mm × 2mm.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201520266709.6U CN204557249U (en) | 2015-04-28 | 2015-04-28 | A kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism |
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| CN201520266709.6U CN204557249U (en) | 2015-04-28 | 2015-04-28 | A kind of beehive for studying honeycomb full honeycomb temperature adjusting mechanism |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104793666A (en) * | 2015-04-28 | 2015-07-22 | 安徽农业大学 | Beehive used for researching honeycomb all-cell temperature regulation mechanism |
| CN110521635A (en) * | 2019-10-14 | 2019-12-03 | 北京理工大学 | A kind of experiment beehive observed for honeybee physiological activity and group behavior |
-
2015
- 2015-04-28 CN CN201520266709.6U patent/CN204557249U/en not_active Expired - Fee Related
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104793666A (en) * | 2015-04-28 | 2015-07-22 | 安徽农业大学 | Beehive used for researching honeycomb all-cell temperature regulation mechanism |
| CN104793666B (en) * | 2015-04-28 | 2017-06-23 | 安徽农业大学 | A kind of beehive for studying the full honeycomb temperature adjusting mechanism of honeycomb |
| CN110521635A (en) * | 2019-10-14 | 2019-12-03 | 北京理工大学 | A kind of experiment beehive observed for honeybee physiological activity and group behavior |
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Granted publication date: 20150812 Termination date: 20160428 |