CN216490771U - Plant phenological monitoring equipment - Google Patents

Abstract

The utility model provides plant phenology monitoring equipment, including the support column, solar panel, support bar, transparent plate, dwang, miniature servomotor and container body, install the ground stake below the support column, inlay on the ground stake and have barbs, the container body is installed on support column, there are electronic push plates in the container body, install the piston post on the electronic push plate, the bottom is installed with the information memory in the transparent plate, the bottom is installed with the miniature processing chip in the transparent plate, fixed with the support bar on the transparent plate, fixed with solar panel on the support bar, the miniature servomotor is installed on the bottom of transparent plate, the dwang both ends are installed and monitored the camera, compared with prior art, the utility model has the following beneficial effects: this design can make the omnidirectional of monitoring camera monitor the plant and wait to can provide the power for monitoring facilities when the staff does not in time supply through solar energy power generation's principle, make it can not miss the record of some data.

Description

Plant phenological monitoring equipment

Technical Field

The utility model relates to plant climate monitoring equipment, and belongs to the technical field of novel charger plugs.

Background

At present, the near-surface digital camera has become the important tool of vegetation physiological characteristics monitoring such as plant growth rhythm, key phenological period and vegetation coverage, the not enough of supplementary satellite remote sensing monitoring and artificial experience observation that can be fine, to the observation of plant phenological, mainly utilize high resolution digital camera to realize the continuous observation to the vegetation situation, for the manual recording mode, the camera is after installation and debugging are accomplished, but automatic operation, the destruction interference of the environment that cost of labor and artificial observation brought has been reduced disturbs, more importantly it can carry out high frequency, continuous sampling, the omission in key phenological period has been avoided.

At present, there is certain drawback in current plant phenology monitoring facilities when using, for example can not carry out the all-round rotation and monitor the plant phenology, can miss the record of some data when monitoring facilities do not have the supplementary power, and the above-mentioned problem is solved to a plant phenology monitoring facilities of now urgent need.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide plant climate monitoring equipment to solve the problems in the background art, the plant climate monitoring equipment is reasonable in structure, the monitoring camera can monitor the plant climate in an all-around manner through the design, and a power supply can be provided for the monitoring equipment through the principle of solar power generation when a worker does not supplement the power supply in time, so that the worker cannot miss records of some data.

In order to achieve the purpose, the utility model is realized by the following technical scheme: a plant phenological monitoring device comprises a sustainable rotation monitoring mechanism, a support column, barbs and ground piles, wherein the sustainable rotation monitoring mechanism is arranged on the support column, the ground piles are installed below the support column, the barbs are embedded on the ground piles, the sustainable rotation monitoring mechanism comprises a solar panel, a support rod, a rotation monitoring component, a piston column, a transparent plate, a box body, an electric push plate, an information storage device and a micro processing chip, the box body is installed on the support column, the electric push plate is arranged in the box body, the piston column is installed on the electric push plate, the transparent plate is installed on the piston column, the information storage device is installed at the bottom in the transparent plate, the micro processing chip is installed at the bottom in the transparent plate, the rotation monitoring component is arranged in the transparent plate, the support rod is fixed on the transparent plate, and a solar panel is fixed on the supporting rod.

Further, the rotation monitoring subassembly is including monitoring camera, dwang and miniature servo motor, miniature servo motor installs in the transparent plate bottom, miniature servo motor's output is connected with the dwang, the monitoring camera is installed at the dwang both ends.

Furthermore, the bracing piece is provided with four groups, four groups the bracing piece specification is the same, and the symmetry is installed on the transparent plate, solar panel passes through wire connection miniature servo motor, electric putter, miniature processing chip, information storage ware and monitoring camera.

Furthermore, the transparent plate is connected with the supporting rod in a sealing mode, and the transparent plate and the piston column are installed in a sealing mode.

Furthermore, the specification of the electric push plate is matched with that of the box body, the electric push plate is connected with the micro-processing chip through a communication line, the box body is provided with a hole, and the specification of the hole is matched with that of the piston column.

Further, fixed equipment subassembly is constituteed to support column, barb and ground stake, and fixed equipment subassembly is provided with four groups, and four groups of fixed equipment subassembly component structure are the same, and the symmetry is installed below the box.

Further, the monitoring camera is provided with two sets of, two sets of the monitoring camera specification is the same, and the symmetry is installed on the dwang, miniature servo motor passes through the communication line and connects miniature processing chip.

The utility model has the beneficial effects that: the plant climate monitoring device comprises a solar panel, a monitoring camera, a rotating rod, a micro servo motor, a piston column, an electric push plate, an information storage and a micro processing chip, wherein the solar panel can supplement standby power for the monitoring device after the power is used up to prevent the monitoring device from missing important data, the micro servo motor can drive the rotating rod to rotate to enable the monitoring camera to rotate 360 degrees to monitor plant climate, the electric push plate can push the piston column to enable the piston column to adjust the angle of the monitoring device in time when the plant grows, the information storage can record the data of the plant climate, the micro processing chip can intelligently adjust the rotating speed of the monitoring camera, the design can enable the monitoring camera to monitor the plant climate in all directions, and the power can be provided for the monitoring device when a worker does not supplement the power in time through the principle of solar power generation, so that it does not miss some of the data recording.

Drawings

Other features, objects and advantages of the utility model will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a plant climate monitoring apparatus according to the present invention;

FIG. 2 is a cross-sectional view of a transparent plate in the vegetation monitoring apparatus according to the present invention;

FIG. 3 is a sectional view of a box of the plant climate monitoring apparatus according to the present invention;

FIG. 4 is an enlarged view of a plant climate monitoring apparatus A according to the present invention;

FIG. 5 is a schematic view of the working principle of the plant climate monitoring apparatus according to the present invention;

in the figure: 1-sustainable rotation monitoring mechanism, 11-solar panel, 12-support rod, 13-rotation monitoring component, 132-monitoring camera, 133-rotation rod, 134-micro servo motor, 14-piston column, 15-box, 16-electric push plate, 17-information memory, 18-micro processing chip, 19-transparent plate, 2-support column, 3-barb and 4-ground pile.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

Referring to fig. 1-5, the present invention provides a technical solution: a plant phenological monitoring device comprises a sustainable rotation monitoring mechanism 1, a support column 2, barbs 3 and ground piles 4, wherein the sustainable rotation monitoring mechanism 1 is arranged on the support column 2, the ground piles 4 are installed below the support column 2, the barbs 3 are embedded on the ground piles 4, the sustainable rotation monitoring mechanism 1 comprises a solar panel 11, a support rod 12, a rotation monitoring component 13, a piston column 14, a box body 15, an electric push plate 16, a transparent plate 19, an information storage 17 and a micro processing chip 18, the box body 15 is installed on the support column 2, the electric push plate 16 is arranged in the box body 15, the piston column 14 is installed on the electric push plate 16, the transparent plate 19 is installed on the piston column 14, the information storage 17 is installed at the bottom in the transparent plate 19, the micro processing chip 18 is installed at the bottom in the transparent plate 19, the rotation monitoring component 13 is arranged in the transparent plate 19, the support rod 12 is fixed on the transparent plate 19, the support rod 12 is fixed with a solar panel 11.

Rotation monitoring subassembly 13 is including monitoring camera 132, dwang 133 and miniature servo motor 134, and miniature servo motor 134 installs in transparent plate 19 bottom, and miniature servo motor 134's output is connected with dwang 133, and monitoring camera 132 is installed at dwang 133 both ends, and this design can make monitoring camera 132 can 360 rotations to carry out omnidirectional monitoring to the plant, prevent that some data of missing do not have the record.

The bracing piece 12 is provided with four groups, four group's bracing pieces 12 specifications are the same, and the symmetry is installed on transparent plate 19, solar panel 11 passes through the wire and connects miniature servo motor 134, electric putter, micro-processing chip 18, information storage 17 and monitoring camera 132, this design can make miniature servo motor 134 in the monitoring facilities, electric putter, micro-processing chip 18, information storage 17 and monitoring camera 132 after the power uses up, the staff does not in time change the power, the monitoring facilities who loses the power does not operate and can miss some information that key nature.

Transparent plate 19 and bracing piece 12 sealing connection, sealing installation between transparent plate 19 and the piston post 14, this design can make during the unable transparent plate 19 that enters into of outside air, make monitoring camera 132 can't receive the pollution, so that more clear monitoring plant phenology, the specification of electronic push pedal 16 and the specification phase-match of box 15, electronic push pedal 16 passes through the communication line and connects micro-processing chip 18, box 15 is seted up porosely, the specification in hole and the specification phase-match of piston post 14, the height angle of transparent plate 19 can be adjusted in this design, can adjust monitoring camera 132's height angle promptly, make its production speed that can follow the plant monitor.

Support column 2, fixed equipment subassembly is constituteed to barb 3 and ground stake 4, fixed equipment subassembly is provided with four groups, four groups of fixed equipment subassembly component structure are the same, and the symmetry is installed below box 15, this design can be stable fix monitoring facilities, make it can not collapse, cause the equipment to damage, monitoring camera 132 is provided with two sets ofly, two sets of monitoring camera 132 specifications are the same, and the symmetry is installed on dwang 133, miniature servo motor 134 passes through communication line and connects micro-processing chip 18, this design can make monitoring facilities intelligent control monitoring camera 132's slew velocity, make the data of its record truer reliable.

As an embodiment of the present invention: when a worker needs to monitor the plant climate, the ground pile 4 is driven into the ground, the barb 3 can prevent the monitoring equipment from collapsing, the micro servo motor 134 is controlled to operate through a program input by the micro control chip, the micro servo motor 134 rotates to drive the rotating rod 133 to rotate, then the two groups of monitoring cameras 132 rotate to monitor the plant climate for 360 degrees, monitored data can be transmitted to the micro processing chip 18, the micro processing chip 18 transmits the data to the information storage 17, when the micro processing chip 18 finds that the data changes, such as the plant grows up, grows up other branches and leaves and the like, and the monitoring cameras 132 are shielded or the angle is not good, the micro processing chip 18 sends an instruction to the electric push plate 16 and the rotating motor to adjust the monitoring cameras 132 to the optimal angle, and the electric push plate 16 can enable the transparent plate 19 to rise or fall, thereby raising or lowering the monitoring camera 132 by an angle;

when the power supply of the equipment is used up, the staff does not replace and supply the power supply to the parts of the monitoring equipment which need to use electricity, and the electric quantity stored by the solar panel 11 can be supplied to the monitoring equipment, so that the monitoring equipment cannot miss some important data.

While there have been shown and described what are at present considered to be the basic principles and essential features of the utility model and advantages thereof, it will be apparent to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides a plant phenology monitoring facilities, includes sustainable rotation monitoring mechanism, support column, barb and ground stake, its characterized in that: a sustainable rotation monitoring mechanism is arranged on the supporting column, a ground pile is arranged below the supporting column, and barbs are inlaid on the ground pile;

sustainable rotation monitoring mechanism includes solar panel, bracing piece, rotation monitoring subassembly, piston post, box, electronic push pedal, transparent plate, information storage ware and micro-processing chip, the box is installed on the support column, be provided with electronic push pedal in the box, install the piston post above the electronic push pedal, install the transparent plate above the piston post, information storage ware is installed to the bottom in the transparent plate, micro-processing chip is installed to the bottom in the transparent plate, be provided with the rotation monitoring subassembly in the transparent plate, be fixed with the bracing piece above the transparent plate, be fixed with solar panel above the bracing piece.

2. A plant climate monitoring apparatus according to claim 1, wherein: the rotation monitoring assembly comprises a monitoring camera, a rotating rod and a miniature servo motor, the miniature servo motor is installed at the bottom of the transparent plate, the output end of the miniature servo motor is connected with the rotating rod, and the monitoring camera is installed at the two ends of the rotating rod.

3. A plant climate monitoring apparatus according to claim 1, wherein: the bracing piece is provided with four groups, four groups the bracing piece specification is the same, and the symmetry is installed on the transparent plate, solar panel passes through wire connection miniature servo motor, electric putter, micro-processing chip, information storage ware and monitoring camera.

4. A plant climate monitoring apparatus according to claim 1, wherein: the transparent plate is connected with the support rod in a sealing mode, and the transparent plate and the piston column are installed in a sealing mode.

5. A plant climate monitoring apparatus according to claim 1, wherein: the specification of the electric push plate is matched with that of the box body, the electric push plate is connected with the micro-processing chip through a communication line, the box body is provided with a hole, and the specification of the hole is matched with that of the piston column.

6. A plant climate monitoring apparatus according to claim 1, wherein: fixed equipment subassembly is constituteed to support column, barb and ground stake, and fixed equipment subassembly is provided with four groups, and four groups of fixed equipment subassembly component structure are the same, and the symmetry is installed below the box.

7. A plant climate monitoring apparatus according to claim 2, wherein: the monitoring cameras are provided with two groups, the specifications of the monitoring cameras are the same, the monitoring cameras are symmetrically installed on the rotating rod, and the micro servo motor is connected with the micro processing chip through a communication line.

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