CN110989039A

CN110989039A - A thing networking meteorological monitoring device for agricultural

Info

Publication number: CN110989039A
Application number: CN201911165896.8A
Authority: CN
Inventors: 汤剑松; 杨涛
Original assignee: Huangshan Meteorological Bureau
Current assignee: Huangshan Meteorological Bureau
Priority date: 2019-11-25
Filing date: 2019-11-25
Publication date: 2020-04-10

Abstract

The invention belongs to the technical field of dust treatment, and particularly relates to an Internet of things meteorological monitoring device for agriculture, which comprises: a support frame; the mounting plate is connected with the support frame and used for mounting the electronic component; the first light energy acquisition device is positioned at the edge of the mounting plate and is used for acquiring light energy; the second light energy acquisition device is arranged on the lower side of the mounting plate and is used for acquiring light energy; and the storage battery is positioned on the mounting plate, and the first light energy acquisition device and the second light energy acquisition device are electrically connected with the storage battery. The internet of things meteorological monitoring device for agriculture provided by the invention utilizes the first light energy acquisition device and the second light energy acquisition device to provide more sufficient electric energy for the storage battery, and when the outside is rainy or snowy or cloudy, the working time of the electric energy supporting electronic components in the storage battery is longer, so that the agricultural meteorological monitoring effect is better.

Description

A thing networking meteorological monitoring device for agricultural

Technical Field

The invention belongs to the technical field of agriculture, and particularly relates to an Internet of things meteorological monitoring device for agriculture.

Background

At present, agricultural weather monitoring adopts the steps of collecting agricultural environment data, analyzing and processing the data, and displaying corresponding data information.

In the prior art, various data monitoring and processing analysis can be carried out through monitoring facilities in a farmland, but this equipment can need supply power at the during operation, and traditional solar photovoltaic board can not provide more electric quantity and supply each electronic components to carry out work yet.

Therefore, the power supply duration of the existing monitoring equipment for the Internet of things is poor, and the normal operation of the equipment cannot be met.

Disclosure of Invention

The embodiment of the invention aims to provide an Internet of things meteorological monitoring device for agriculture, aiming at solving the following problems: the conventional monitoring equipment for the Internet of things has poor power supply endurance and cannot meet the normal operation of the equipment.

The embodiment of the invention is realized in such a way that the internet of things meteorological monitoring device for agriculture comprises:

a support frame;

the mounting plate is connected with the support frame and used for mounting the electronic component;

the first light energy acquisition device is positioned at the edge of the mounting plate and is used for acquiring light energy;

the second light energy acquisition device is arranged on the lower side of the mounting plate and is used for acquiring light energy; and

and the first light energy acquisition device and the second light energy acquisition device are electrically connected with the storage battery.

The internet of things meteorological monitoring device for agriculture provided by the invention utilizes the first light energy acquisition device and the second light energy acquisition device to provide more sufficient electric energy for the storage battery, and when the outside is rainy or snowy or cloudy, the working time of the electric energy supporting electronic components in the storage battery is longer, so that the agricultural meteorological monitoring effect is better, and the internet of things meteorological monitoring device has wide popularization and application values.

Drawings

Fig. 1 is a schematic structural diagram of an internet of things weather monitoring device for agriculture provided by an embodiment of the invention;

fig. 2 is a schematic structural diagram of a first optical energy obtaining apparatus according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a rotating device according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

Referring to fig. 1, an embodiment of the present invention provides an internet of things weather monitoring device for agriculture, where the device includes:

a support frame 1;

the mounting plate 2 is connected with the support frame 1 and used for mounting electronic components;

the first light energy acquisition device 3 is positioned at the edge of the mounting plate 2 and used for acquiring light energy;

a second light energy obtaining device installed at a lower side of the mounting plate 2 for obtaining light energy; and

and the storage battery 5 is positioned on the mounting plate 2, and the first light energy acquisition device 3 and the second light energy acquisition device are electrically connected with the storage battery 5.

In the embodiment of the invention, the first light energy acquisition device 3 and the second light energy acquisition device are utilized to provide more sufficient electric energy for the storage battery 5, and when the outside is rainy or snowy or cloudy, the working time of the electric energy supporting electronic components in the storage battery 5 is longer, so that the agricultural weather monitoring effect is better, and the method has wide popularization and application values.

In an embodiment of the present invention, referring to fig. 2, the first optical energy obtaining device 3 includes:

the hidden groove 301 is formed in the mounting plate 2;

the folding solar photovoltaic panel 302, wherein the folding solar photovoltaic panel 302 is arranged in the hiding groove 301; and

and the moving plate 303 is connected with one end of the folded solar photovoltaic panel 302, and the moving plate 303 is used for moving the folded solar photovoltaic panel 302 out of the hidden groove 301.

In this embodiment, when the folded solar photovoltaic panel 302 is in a folded state, it can be hidden in the hidden groove 301, and can be stored when not needed to be used or carried, so that no large interference is caused; when the solar energy hidden type solar energy collector is needed to be used, the solar energy hidden type solar energy collector is pulled out from the hidden groove 301 through the moving plate 303, so that solar illumination can be received to obtain electric energy; when more light needs to be obtained, the folded solar photovoltaic panel 302 is flattened, and the receiving area of the light is maximized, so that the power generation effect is better, and the cruising ability of the storage battery 5 is better.

In the embodiment of the invention, referring to fig. 2, the foldable solar photovoltaic panel 302 includes a plurality of small solar photovoltaic panels 3021, the small solar photovoltaic panels 3021 are hinged to each other through hinges 3022, and are used for folding and shrinking the small solar photovoltaic panels 3021, the small solar photovoltaic panels 3021 are hinged to each other through the hinges 3022 in sequence, the hinges 3022 have a certain self-locking capability, and when an external force is applied to the hinges 3022, the hinges 3022 have a friction force so that the small solar photovoltaic panels 3021 cannot rotate; when the folded solar photovoltaic panel 302 needs to be unfolded, the folded solar photovoltaic panel can be manually unfolded; the best storage effect can be obtained by folding the small solar photovoltaic panels 3022 together.

In an embodiment of the invention, a moving groove 304 is formed on the mounting plate on one side of the hidden groove 301, a push rod 305 connected with the moving plate 303 penetrates through the moving groove 304 and extends outwards to push the moving plate 303, so as to facilitate an operator to push the folded solar photovoltaic panel 302 out of the hidden groove 301, the push rod 305 is connected with the moving plate 303, and the push rod 305 penetrates through the moving groove 304 and is arranged outwards, so that the folded solar photovoltaic panel 302 can be moved out of the hidden groove 301 through the push rod 305 when in use; certainly, can receive external force to removing in hiding the groove 301 when folding solar photovoltaic board 302 is using, be provided with the external screw thread in the outside of push rod 305, have nut 306 with external screw thread connection, when the installation, utilize nut 306 and mounting panel 2 to offset, thereby can make the removal of push rod 305 receive the restriction, consequently can guarantee that folding solar photovoltaic board 302 can not take place to remove when using, has guaranteed the stability of using.

In an embodiment of the present invention, referring to fig. 2, the second optical energy obtaining device includes:

the rotating solar photovoltaic panel 4 is rotatably connected with the mounting plate 2; and

the telescopic rod 14, the telescopic rod 14 rotates with mounting panel 2 and rotation solar photovoltaic board 4 respectively and is connected for the illumination receiving angle who rotates solar photovoltaic board 4 is adjusted.

When the rotating solar photovoltaic panel 4 is not used, the rotating solar photovoltaic panel is in a vertical state, and the area for receiving illumination is effective, so that the maximum illumination cannot be ensured; therefore, the telescopic rod 14 is arranged at the position, the rotating angle of the rotating solar photovoltaic panel 4 can be adjusted by utilizing the telescopic rod 14, the adjustment can be carried out according to the actual solar height, so that enough illumination receiving area can be obtained, and the power generation effect is ensured.

In the embodiment of the present invention, the form of the telescopic rod 14 is various, and may be an electric telescopic rod, which is electrically connected to the battery 5, or other forms of manually operated telescopic structures, which is the prior art and will not be described herein again; the two ends of the telescopic rod 14 are hinged with the mounting plate 2 and the rotating solar photovoltaic panel 4 through the supporting seats, so that when the length of the telescopic rod 14 is shortened or lengthened, the telescopic rod 14 can rotate angularly, and the angle of the rotating solar photovoltaic panel 4 can be changed; the embodiment of the invention also has an optimal scheme that: an illumination sensor is arranged on the surface of the rotating solar photovoltaic panel 4, and the telescopic rod 14 is controlled to stretch in real time according to the solar angle, so that the effect of 'day by day' can be realized.

In an embodiment of the present invention, referring to fig. 3, the mounting plate 2 is connected to the supporting frame 1 through a rotating device 6, and the rotating device 6 includes:

one end of the vertical rotating shaft 601 is fixedly connected with the mounting plate 2, and the other end of the vertical rotating shaft 601 is connected with the support frame 1 after rotating;

a driven gear 602, coaxially and fixedly connected to the vertical rotating shaft 601, for driving the vertical rotating shaft 601 to rotate;

a driving gear 603 engaged with the driven gear 602 for driving the driven gear 602 to rotate;

the driving shaft 604 is fixedly connected with the driving gear 603 and is used for driving the driving gear 603 to rotate; and

and a motor 605 connected to the driving shaft 604 for driving the driving shaft 604 to rotate.

Can install various electronic components on mounting panel 2, generally there are temperature sensor, humidity transducer, rainfall monitoring sensor, various electronic components such as wind speed sensor, need rotate according to the place demand when using, consequently this department utilizes motor 605 to drive shaft 604 and rotates, drive shaft 604 drives driven gear 602 through driving gear 603 and rotates, driven gear 602 can drive vertical axis of rotation 601 and rotate, thereby vertical axis of rotation 601 drives mounting panel 2 and rotates the rotation that realizes various electronic components.

In this embodiment, various electronic components such as temperature sensor, humidity transducer, rainfall monitoring sensor, wind speed sensor all need be supplied power by battery 5 when using, and it all is connected through the controller, and the controller is for the safety purpose, and the optimum is laid inside support frame 1, can prevent the erodeing of rainwater, can acquire various data through controller control, and send this data back to the control room through networking function, can realize intelligent control from this, analyze various data.

In one embodiment of the present invention, the device further comprises a height adjusting device connected with the supporting frame 1, wherein the height adjusting device is used for adjusting the height of the supporting frame 1, and the height adjusting device can be used for adjusting the height of the whole device, so that the device is convenient to use on different terrains.

In an embodiment of the present invention, referring to fig. 1, the height adjusting device includes:

the first threaded rod 7 is connected with the support frame 1 in a rotating mode;

the first threaded rod 7 is sleeved with the outer part of the second threaded rod 7, and a threaded sleeve 8 is in threaded connection with the first threaded rod 7;

the supporting legs 9 are hinged with the supporting frame 1 and used for supporting the supporting frame 1; and

and the rotating rod 10 is rotatably connected with the threaded sleeve 8 and the support frame 1 and is used for adjusting the support angle of the support leg 9.

When the height of the whole device needs to be adjusted, the first threaded rod 7 is rotated, the threaded sleeve 8 matched with the first threaded rod 7 moves upwards or downwards, when the threaded sleeve 8 moves, the threaded sleeve 8 drives the supporting leg 9 to rotate around the top of the supporting frame 1 as a circle center through the rotating rod 10, and after the supporting angle of the supporting leg 9 is changed, the supporting leg 9 can drive the height of the supporting frame 1 to be changed; in the embodiment, at least three support legs 9 are needed for keeping stability, and the tops of the support legs 9 are hinged with the top of the support frame 1 through hinges; because the triangle has stability and saves cost, the three supporting legs 9 are selected most reasonably and are uniformly arranged around the supporting frame 1;

in the embodiment of the invention, two ends of the rotating rod 10 are respectively hinged with the supporting leg 9 and the threaded sleeve 8 through the supporting seat, and the inclination angle of the rotating rod 10 can be changed for supporting and limiting the supporting leg 9, so that the supporting leg 9 can stably work; in addition, the top of first threaded rod 7 is connected with support frame 1 is rotated, and its connected mode has: a bearing is embedded at the bottom of the support frame 1, and the top of the first threaded rod 7 is welded or fixedly connected with the inner ring of the bearing in other modes, so that the rotation of the first threaded rod 7 can be realized.

In the embodiment of the invention, the height adjusting device also comprises a stabilizing device positioned at the bottom end of the supporting leg 9 and used for stably placing the supporting frame 1, and the device is applied to the agricultural field, so that the use occasion is generally on uneven farmland lands, and the stabilizing device is required to be arranged at the bottom of the supporting leg 9, so that the whole device is more stable in use.

In an embodiment of the present invention, the stabilizing device includes:

the stabilizing plate 11 is connected with the supporting legs 9;

the second threaded rod 12 is in threaded connection with the stabilizing plate 11; and

and the bottom plate 13 is fixedly connected with the bottom end of the second threaded rod 12 and is used for contacting the ground to support the support frame 1.

When the device is used, the second threaded rod 12 is rotated, the second threaded rod 12 is matched with the stabilizing plate 11 and can move up and down along the stabilizing plate 11, so that the bottom plate 13 in direct contact with the ground changes the height, the device is suitable for different terrains, and the whole device is more stable.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. An internet of things weather monitoring device for agriculture, the device comprising:

a support frame;

2. The internet of things weather monitoring device for agriculture of claim 1, wherein the first light energy obtaining device comprises:

the hidden groove is formed in the mounting plate;

the folding solar photovoltaic panel is arranged in the hiding groove; and

and the movable plate is connected with one end of the folding solar photovoltaic panel and is used for moving the folding solar photovoltaic panel out of the hidden groove.

3. The Internet of things weather monitoring device for agriculture of claim 2, wherein the folding solar photovoltaic panels comprise a plurality of small solar photovoltaic panels, and the small solar photovoltaic panels are hinged through hinges and used for folding and shrinking the small solar photovoltaic panels.

4. The Internet of things meteorological monitoring device for agriculture of claim 2, wherein a moving groove is formed in the mounting plate on one side of the hidden groove, and a push rod connected with the moving plate penetrates through the moving groove and extends outwards to push the moving plate.

5. The internet of things weather monitoring device for agriculture of claim 1, wherein the second light energy obtaining device comprises:

the rotating solar photovoltaic panel is rotatably connected with the mounting plate; and

the telescopic link, the telescopic link rotates with the mounting panel and rotates the solar photovoltaic board respectively and is connected for the illumination receiving angle who rotates the solar photovoltaic board is adjusted.

6. The internet of things meteorological monitoring device for agriculture of claim 1, wherein the mounting plate and the support frame are connected through a rotating device, and the rotating device comprises:

one end of the vertical rotating shaft is fixedly connected with the mounting plate, and the other end of the vertical rotating shaft is connected with the support frame after rotating;

the driven gear is coaxially and fixedly connected with the vertical rotating shaft and is used for driving the vertical rotating shaft to rotate;

the driving gear is meshed with the driven gear and is used for driving the driven gear to rotate;

the driving shaft is fixedly connected with the driving gear and is used for driving the driving gear to rotate; and

and the motor is connected with the driving shaft and is used for driving the driving shaft to rotate.

7. The internet of things meteorological monitoring device for agriculture of claim 1, further comprising a height adjustment device connected with the support frame, the height adjustment device being configured to adjust a height of the support frame.

8. The internet of things weather monitoring device for agriculture of claim 7, wherein the height adjustment device comprises:

the first threaded rod is rotatably connected with the support frame;

the first threaded rod is sleeved with the second threaded rod, and a threaded sleeve is in threaded connection with the first threaded rod;

the supporting legs are hinged with the supporting frame and used for supporting the supporting frame; and

and the rotating rod is rotatably connected with the threaded sleeve and the support frame and used for adjusting the support angle of the support leg.

9. The internet of things meteorological monitoring device for agriculture of claim 7 or 8, wherein the height adjustment device further comprises a stabilizing device located at a bottom end of the support leg for stable placement of the support frame.

10. The internet of things weather monitoring device for agriculture of claim 9, wherein the stabilizing device comprises:

the stabilizing plate is connected with the supporting legs;

the second threaded rod is in threaded connection with the stabilizing plate; and

the bottom plate, bottom plate and second threaded rod bottom fixed connection for contact with ground and support the support frame.