CN111189495A - Mangrove wetland cold damage monitoring meteorological instrument - Google Patents

Abstract

The invention relates to a mangrove wetland cold damage monitoring meteorological instrument, which belongs to the technical field of detection equipment and comprises a meteorological instrument body, wherein a meteorological rod is arranged at the bottom of the meteorological instrument body, a cavity and a sliding hole are formed in the meteorological rod, a motor, a threaded rod and a threaded ring are arranged in the cavity, a sliding rod sliding in the sliding hole is arranged outside the threaded ring, a first supporting leg is fixedly arranged at the bottom of the meteorological rod, a universal wheel is arranged at the bottom of the first supporting leg, a second supporting leg is arranged at the bottom of the first supporting leg, and the second supporting leg is rotatably connected with the sliding rod through a connecting rod; according to the invention, the rotatable supporting legs are arranged, the universal wheel is arranged in the middle of the supporting legs, when the movement is required, the sliding rod is driven to ascend through the rotation of the motor, and the second supporting leg at the bottom is driven to rotate through the rotation of the connecting rod, so that the universal wheel is positioned at the bottommost part, the movement of the weather instrument is facilitated, the operation is simple, meanwhile, the angle of the photovoltaic panel can be adjusted, the detection method is more practical, the detection precision is high, and the detection effect is good.

Description

Mangrove wetland cold damage monitoring meteorological instrument

Technical Field

The invention relates to the technical field of monitoring equipment, in particular to a mangrove wetland cold damage monitoring meteorological instrument.

Background

The mangrove forest refers to a tidal flat wetland woody biocenosis composed of evergreen shrubs or arbors which grow on the upper part of the intertidal zone of the tropical and subtropical low-energy coast and are soaked by periodic tidal water and take mangrove plants as main bodies. The cold damage mainly refers to an agricultural meteorological disaster which causes yield reduction and even death due to crop physiological dysfunction caused by temperature reduction when the temperature of tropical and subtropical crops is not lower than 0 ℃ during the growth period in winter. And the mangrove wetland is easily affected by cold damage, so that the meteorological detection is needed.

Current weather instrument simple structure can only detect humiture and wind speed pressure, and the wetland area is great, and the concrete environment in different positions is different, and current weather instrument removes inconveniently, and the operation is got up the trouble, and is impractical, needs optimize.

Disclosure of Invention

The invention aims to provide a mangrove wetland cold damage monitoring meteorological instrument to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a mangrove wetland cold damage monitoring meteorological instrument, includes the meteorological instrument body, meteorological instrument body bottom fixed mounting has meteorological pole, the cavity has been seted up in the meteorological pole, cavity top fixed mounting has the motor, the output fixed mounting of motor has the threaded rod, the outside cover of threaded rod is equipped with the screw ring rather than threaded connection, the outside fixed mounting of screw ring has the slide bar, the slide bar is kept away from screw ring one end and is run through meteorological pole and extend to the outside, set up on the meteorological pole with slide bar matched with slide opening, meteorological pole bottom fixed mounting has first landing leg, the universal wheel is installed to first landing leg bottom, the second landing leg rather than rotating the connection is installed to first landing leg bottom, the second landing leg passes through the connecting rod and is connected with the slide bar rotation, install the photovoltaic board on the connecting rod.

As a further technical scheme of the invention: the screw thread ring is kept away from to the slide bar one end and has been seted up first breach, fixed mounting has first pivot in the first breach, a connecting rod pot head is established at first pivot outside and is connected rather than rotating.

As a further technical scheme of the invention: a second gap is formed in the bottom of the first supporting leg, a second rotating shaft is fixedly mounted in the second gap, and a sleeve of the second supporting leg is sleeved outside the second rotating shaft and is rotatably connected with the second rotating shaft.

As a further technical scheme of the invention: the second supporting leg is far away from first supporting leg one end and has been seted up the third breach, fixed mounting has the third pivot in the third breach, the connecting rod is kept away from slide bar pot head and is established at the third pivot outside and rotate rather than being connected.

As a further technical scheme of the invention: the fixed plate is fixedly mounted on the sliding rod and arranged outside the meteorological rod, and the storage battery is fixedly mounted on the fixed plate.

As a further technical scheme of the invention: and a temperature sensor and a humidity sensor are fixedly mounted on the second supporting leg.

As a further technical scheme of the invention: the photovoltaic panel is rotatably connected with the connecting rod.

As a further technical scheme of the invention: the photovoltaic panel is characterized in that a fixing rod is fixedly mounted on the connecting rod, a fourth rotating shaft is fixedly mounted in the fixing rod, a terminal sleeve of the photovoltaic panel is arranged outside the fourth rotating shaft and is connected with the fourth rotating shaft in a rotating mode, a rotating block connected with the other end in a rotating mode is mounted at the other end of the photovoltaic panel, a bolt connected with the connecting rod in a threaded mode is mounted on the connecting rod, and the bolt penetrates through the connecting rod and is fixedly connected with the rotating.

As a further technical scheme of the invention: a fourth notch is formed in the photovoltaic panel and is arranged outside the rotating block.

Compared with the prior art, the invention has the beneficial effects that: through setting up rotatable landing leg to install the universal wheel in the middle of the landing leg, when needs remove, rotate through the motor and take the slide bar to rise, and rotate the second landing leg of taking the bottom through the connecting rod and rotate, thereby make the universal wheel be in bottommost, be convenient for remove the weather instrument, easy operation can also adjust the angle of photovoltaic board simultaneously, and is more practical, and detection precision is high, and detection effect is good.

Drawings

FIG. 1 is a sectional view of a mangrove wetland cold damage monitoring meteorological instrument;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 3 is an enlarged view of the structure at B in FIG. 1;

FIG. 4 is an enlarged view of the structure at C in FIG. 1;

FIG. 5 is a sectional view of a meteorological rod in the mangrove wetland cold damage monitoring meteorological instrument;

FIG. 6 is another sectional view of a meteorological rod in the mangrove wetland cold damage monitoring meteorological instrument;

FIG. 7 is a schematic structural diagram of a sliding rod in the mangrove wetland cold damage monitoring meteorological instrument;

FIG. 8 is a schematic structural diagram of a connecting rod in the mangrove wetland cold damage monitoring meteorological instrument;

FIG. 9 is a sectional view of a connecting rod in the mangrove wetland cold damage monitoring meteorological instrument.

In the figure: 1-a weather instrument body, 2-a weather rod, 3-a motor, 4-a cavity, 5-a threaded rod, 6-a slide hole, 7-a threaded ring, 8-a slide rod, 9-a connecting rod, 10-a first supporting leg, 11-a second supporting leg, 12-a first notch, 13-a first rotating shaft, 14-a second notch, 15-a second rotating shaft, 16-a universal wheel, 17-a third notch, 18-a third rotating shaft, 19-a fixing plate, 20-a storage battery fixing rod, 21-a temperature sensor, 22-a humidity sensor, 23-a fixing rod, 24-a photovoltaic plate, 25-a bolt, 26-a fourth notch, 27-a rotating block and 28-a fourth rotating shaft.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example 1

The mangrove wetland cold damage monitoring meteorological instrument shown in fig. 1-7 comprises a meteorological instrument body 1, wherein the meteorological instrument body 1 can detect the wind direction, the wind speed, the temperature, the humidity and the atmospheric pressure, and the specific structure and the connection mode are known by those skilled in the art and are not described again; the bottom of the meteorological instrument body 1 is fixedly provided with a meteorological rod 2, a cavity 4 is formed in the meteorological rod 2, the top of the cavity 4 is fixedly provided with a motor 3, the output end of the motor 3 is fixedly provided with a threaded rod 5, a threaded ring 7 in threaded connection with the threaded rod 5 is sleeved outside the threaded rod 5, a sliding rod 8 is fixedly arranged outside the threaded ring 7, one end, far away from the threaded ring 7, of the sliding rod 8 penetrates through the meteorological rod 2 and extends to the outside, a sliding hole 6 matched with the sliding rod 8 is formed in the meteorological rod 2, in particular to refer to fig. 1 and 5, the sliding hole 6 is vertically arranged, the sliding rod 8 can slide vertically, when the motor 3 rotates, the threaded rod 5 is driven to rotate, and the sliding rod 8 and the sliding hole 6 are limited, so that the sliding rod 8 is; 2 bottom fixed mounting of meteorological pole has first landing leg 10, universal wheel 16 is installed to first landing leg 10 bottom, first landing leg 10 bottom is installed and is rotated the second landing leg 11 of being connected rather than, second landing leg 11 rotates through connecting rod 9 and slide bar 8 and is connected, when slide bar 8 ascends, takes second landing leg 11 to rotate through connecting rod 9 and rises, adjusts to the state of figure 5 from the state of figure 1, and universal wheel 16 contacts with ground this moment, realizes meteorological appearance moving as a whole's convenience, for guaranteeing that motor 3 can the steady operation, install photovoltaic board 24 on the connecting rod 9, reduce energy consumption through photovoltaic board 24, it is more energy-conserving, its control mechanism utilize meteorological appearance body 1 in can.

Further, a first gap 12 is formed in one end of the slide bar 8, which is far away from the threaded ring 7, referring to fig. 2, a first rotating shaft 13 is fixedly installed in the first gap 12, one end of the connecting rod 9 is sleeved outside the first rotating shaft 13 and is rotatably connected with the first rotating shaft 13, and when the slide bar 8 ascends, the upper end of the connecting rod 9 is driven to move upwards through the first rotating shaft 13; a second gap 14 is formed at the bottom of the first leg 10, referring to fig. 3, a second rotating shaft 15 is fixedly installed in the second gap 14, one end of the second leg 11 is sleeved outside the second rotating shaft 15 and is rotatably connected with the second rotating shaft, and when the sliding rod 8 is located at the bottom, two ends of the connecting rod 9 are fixed, so that the second leg 11 and the first leg 10 are parallel and fixed to complete supporting work or are buried underground to maintain integral stability; referring to fig. 4, a third gap 17 is formed in one end of the second leg 11, which is far away from the first leg 10, a third rotating shaft 18 is fixedly installed in the third gap 17, one end of the connecting rod 9, which is far away from the sliding rod 8, is sleeved outside the third rotating shaft 18 and is rotatably connected therewith, and when the connecting rod 9 moves upward under the driving of the sliding rod 8, the second leg 11 is pulled to rotate, so that the universal wheel 16 is positioned at the bottommost part for supporting and moving.

Further, fixed mounting has fixed plate 19 on the slide bar 8, fixed plate 19 sets up in meteorological pole 2 outsidely, fixed mounting has battery 20 on the fixed plate 19, carries out the accumulate through setting up fixed plate 19 and installation battery 20 to can stably supply power, and the setting of fixed plate 19 can also be used for placing object article temporarily simultaneously, and is more practical, and first landing leg 10 sets up three at least in this embodiment, and holistic structure just can be more stable like this, and photovoltaic board 24 sets up two at least socially simultaneously, thereby makes whole daytime all can charge when fine day.

Furthermore, a temperature sensor 21 and a humidity sensor 22 are fixedly mounted on the second supporting leg 11, and the temperature sensor 21 and the humidity sensor 22 are arranged to work with a temperature and humidity detection device in the meteorological instrument body 1 in a matching manner, so that the detection is more accurate, and meanwhile, when the bottom of the second supporting leg is buried underground, the conditions of air and underground can be conveniently known, and the monitoring precision is improved.

Example 2

This embodiment further optimizes on the basis of embodiment 1, photovoltaic board 24 rotates with connecting rod 9 and is connected, rotates the photovoltaic board 24 of connecting through the setting, is convenient for adjust its installation angle after removing the meteorological instrument to different places to better utilize solar energy.

Furthermore, a fixing rod 23 is fixedly installed on the connecting rod 9, a fourth rotating shaft 28 is fixedly installed in the fixing rod 23, one end of the photovoltaic panel 24 is sleeved outside the fourth rotating shaft 28 and is rotatably connected with the fourth rotating shaft, that is, the photovoltaic panel 24 can rotate around the fourth rotating shaft, the other end is provided with a rotating block 27 which is rotatably connected with the photovoltaic panel, the connecting rod 9 is provided with a bolt 25 in threaded connection with the connecting rod, the bolt 25 penetrates through the connecting rod 9 and is fixedly connected with a rotating block 27, the rotating block 27 is arranged inside the photovoltaic panel 24, when the bolt 25 is rotated, the upper end of the photovoltaic panel 24 is far away from the connecting rod 9, thereby realizing the adjustment of the illumination angle, and in order to avoid interference, the photovoltaic panel 24 is provided with a fourth gap 26, the fourth gap 26 is arranged outside the rotating block 27, and the photovoltaic panel 24 is arranged on the upper portion of the connecting rod 9, so that the photovoltaic panel cannot normally work when being buried underground for use.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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 (9)

1. The utility model provides a mangrove wetland cold damage monitoring weather appearance, includes weather appearance body (1), weather appearance body (1) bottom fixed mounting has meteorological pole (2), its characterized in that: seted up cavity (4) in meteorological pole (2), cavity (4) top fixed mounting has motor (3), the output fixed mounting of motor (3) has threaded rod (5), the outside cover of threaded rod (5) is equipped with screw ring (7) rather than threaded connection, screw ring (7) outside fixed mounting has slide bar (8), screw ring (7) one end is kept away from in slide bar (8) runs through meteorological pole (2) and extends to the outside, set up on meteorological pole (2) with slide bar (8) matched with slide opening (6), meteorological pole (2) bottom fixed mounting has first landing leg (10), universal wheel (16) are installed to first landing leg (10) bottom, install second landing leg (11) rather than the rotation connection bottom first landing leg (10), second landing leg (11) are connected with slide bar (8) rotation through connecting rod (9), and a photovoltaic panel (24) is arranged on the connecting rod (9).

2. The mangrove wetland cold damage monitoring meteorological instrument of claim 1, characterized in that: slide bar (8) are kept away from screw ring (7) one end and have been seted up first breach (12), fixed mounting has first pivot (13) in first breach (12), a pot head of connecting rod (9) is established in first pivot (13) outside and is connected rather than rotating.

3. The mangrove wetland cold damage monitoring meteorological instrument of claim 1 or 2, characterized in that: second breach (14) have been seted up to first landing leg (10) bottom, fixed mounting has second pivot (15) in second breach (14), a pot head of second landing leg (11) is established in second pivot (15) outside and is connected rather than rotating.

4. The mangrove wetland cold damage monitoring meteorological instrument of claim 3, characterized in that: second landing leg (11) are kept away from first landing leg (10) one end and have been seted up third breach (17), fixed mounting has third pivot (18) in third breach (17), slide bar (8) pot head is kept away from in connecting rod (9) is established in third pivot (18) outside and is connected rather than rotating.

5. The mangrove wetland cold damage monitoring meteorological instrument of claim 3, characterized in that: fixed mounting has fixed plate (19) on slide bar (8), fixed plate (19) set up in meteorological pole (2) outside, fixed mounting has battery (20) on fixed plate (19).

6. The mangrove wetland cold damage monitoring meteorological instrument of claim 3, characterized in that: and a temperature sensor (21) and a humidity sensor (22) are fixedly mounted on the second supporting leg (11).

7. The mangrove wetland cold damage monitoring meteorological instrument of claim 3, characterized in that: the photovoltaic panel (24) is rotatably connected with the connecting rod (9).

8. The mangrove wetland cold damage monitoring meteorological instrument of claim 7, characterized in that: fixed mounting has dead lever (23) on connecting rod (9), fixed mounting has fourth pivot (28) in dead lever (23), photovoltaic board (24) pot head is established in fourth pivot (28) outside and is rotated rather than being connected, and the other end is installed and is rotated turning block (27) of being connected rather than, install bolt (25) rather than threaded connection on connecting rod (9), bolt (25) through connection pole (9) and turning block (27) fixed connection.

9. The mangrove wetland cold damage monitoring meteorological instrument of claim 8, characterized in that: a fourth notch (26) is formed in the photovoltaic panel (24), and the fourth notch (26) is arranged outside the rotating block (27).

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