CN217443566U - Agricultural is with automatic meteorological integrated monitoring equipment - Google Patents

Abstract

The utility model relates to an agricultural automatic meteorological comprehensive monitoring device, which belongs to the technical field of meteorological monitoring special equipment; the solar energy collecting and controlling device comprises a stand column arranged on a fixed base, wherein a protection cabinet, a bidirectional telescopic device, a solar panel and a top bearing plate are sequentially arranged on the stand column, an acquisition control host, a storage battery and a wireless transmission module are arranged in the protection cabinet, the top of the solar panel is provided with a sliding shaft which is connected to a sliding base in a sliding manner, the bottom of the solar panel is provided with a rotating shaft, an upper telescopic end and a lower telescopic end in the bidirectional telescopic device synchronously and reversely stretch along the horizontal plane of the two telescopic devices respectively, the upper telescopic end is rotatably connected with the rotating shaft, the side surface of the lower telescopic end is connected with the lower bearing plate, and the top bearing plate and the lower bearing plate are both used for installing a meteorological sensor and an auxiliary component; this equipment can remote monitoring weather, can protect solar panel simultaneously, has strengthened the reliability, and the structure focus is adjustable, and area is little, and the dismouting is maintained conveniently.

Description

Agricultural is with automatic meteorological integrated monitoring equipment

Technical Field

The utility model belongs to the technical field of meteorological monitoring professional equipment, concretely relates to agricultural is with automatic meteorological comprehensive monitoring equipment.

Background

In the agricultural production management process, technicians need to know information such as air temperature, humidity, illumination intensity, wind speed and direction, rainfall and the like of the agricultural and forestry places so as to provide efficient planning layout, state monitoring and risk early warning for agricultural production, and therefore, the agricultural meteorological monitoring equipment is very important.

As the agricultural meteorological monitoring equipment is usually arranged in the area of agriculture and forestry, the power supply of the agricultural meteorological monitoring equipment is mostly carried out by the solar cell, so the service life of the solar panel is a great factor influencing the reliability of the monitoring equipment; the solar panel in the existing monitoring equipment is usually fixedly installed, in order to obtain the maximum photoelectric conversion efficiency, but meanwhile, if the solar panel is subjected to strong wind and heavy rain, the light receiving surface of the solar panel is directly impacted by rainwater, so that the service life of the solar panel is easily reduced, and the reliability of the whole monitoring equipment is further influenced; simultaneously, on current monitoring facilities, because the focus that the installation of switch board and other instruments leads to is skew for equipment is relatively poor under the condition with only a stand, easily emptys the damage when encountering strong wind, consequently adopts many strut frames fixed often, and occupation of land is big and the installation is comparatively loaded down with trivial details.

SUMMERY OF THE UTILITY MODEL

The utility model solves the problems of no protection to the solar panel and deviation of the gravity center in the traditional agricultural meteorological monitoring equipment; when satisfying remote monitoring meteorological relevant data, have the flexible protect function to solar panel, strengthened the reliability of equipment, equipment area is little, dismouting maintenance convenience.

The utility model discloses a following technical scheme realizes the purpose:

an agricultural automatic meteorological comprehensive monitoring device comprises a stand column arranged on a fixed base, wherein a protection cabinet, a two-way telescopic device, a solar panel and a top bearing plate are sequentially arranged on the stand column from bottom to top; the bidirectional telescopic device comprises an upper telescopic end and a lower telescopic end, wherein the upper telescopic end and the lower telescopic end are synchronously and reversely telescopic along the horizontal plane, the upper telescopic end is rotatably connected with the rotating shaft, the side surface of the lower telescopic end is connected with the lower bearing plate, and the top bearing plate and the lower bearing plate are used for mounting a meteorological sensor and an auxiliary component.

Furthermore, the bidirectional telescopic device comprises an upper base, a lower base, a gear and a driving motor, wherein the upper base and the lower base are installed on the stand column, the upper base and the lower base are respectively provided with a channel, an upper rack and a lower rack are slidably arranged in the channels respectively, the side surface of the lower rack is connected with a lower bearing plate, the gear is rotatably installed on the side surface of the stand column and meshed with the upper rack and the lower rack through grooves formed in the upper base and the lower base, the driving motor is installed on the upper surface of the lower base, an output shaft of the driving motor is connected with a gear shaft, and the driving motor is connected with the acquisition control host.

Specifically, the upper rack, the lower rack, the gear and the lower bearing plate are respectively provided with two racks and are symmetrically arranged along the central axis of the stand column.

Further, the recess of intercommunication bottom surface is seted up on the surface of keeping away from pole setting one side of base that slides, be equipped with the groove of sliding on the inboard left and right sides surface of recess, the tip of the axle that slides is circular, can follow the groove that slides and rotate when gliding.

Further, the meteorological sensor comprises a wind speed sensor, a wind direction sensor and an air and illumination sensor which are all connected with the acquisition control host.

Preferably, the wind speed sensor and the wind direction sensor are both arranged on the top bearing plate, and the air and illumination sensor is arranged on the lower bearing plate.

Furthermore, the system also comprises a rainfall sensor, and the rainfall sensor is connected with the acquisition control host.

Preferably, a plurality of mounting plates are fixedly connected to the top bearing plate and the lower bearing plate.

Furthermore, the auxiliary component comprises a signal receiving and transmitting antenna and an indicator light, and the signal receiving and transmitting antenna and the indicator light are both arranged on the top bearing plate.

Furthermore, the signal receiving and transmitting antenna is connected with the wireless transmission module and is used for remotely transmitting the meteorological data signals monitored by the acquisition control host.

To sum up, owing to adopted this technical scheme, the beneficial effects of the utility model are as follows:

1. the utility model discloses an automatic meteorological comprehensive monitoring equipment has perfect meteorological information monitoring function, can monitor air humiture, illumination intensity, wind speed wind direction and rainfall to monitor information wireless transmission to the distal end, so that transfer in real time and look over; on the aspect of reliability, the device has low power consumption and stable wireless transmission performance, realizes telescopic protection on the solar panel, can obtain the maximum photoelectric conversion benefit when the solar panel is completely extended out, and can enable the surface of the solar panel to be nearly vertical when the solar panel is completely retracted, so that the rainwater is prevented from being washed away by a large angle.

2. The occupied area of the equipment only relates to one independent upright post and a fixed base, and no redundant external support is needed, so that the equipment is convenient to disassemble and assemble; the formation of this characteristics is because two-way telescoping device is when realizing that solar panel is flexible, and the flexible end of bearing that its opposite direction set up can further install meteorological sensor or counter weight structure additional to make the focus of this equipment fall into in the stand projection all the time, thereby reinforcing the steadiness.

3. The equipment regulates and controls the driving motor according to the meteorological data value monitored by the equipment, and controls the action of the bidirectional telescopic device, so that the solar panel can be automatically collected and released and the gravity center of the equipment can be adjusted according to the current rainfall condition and wind condition, manual control is not needed, and the reliability of the equipment is improved; the driving process is rapid, the energy consumption is low, the state is maintained after the driving is finished, and the driving device does not act under normal meteorological conditions at ordinary times, so that the energy consumption of the whole set of equipment is low on the premise of protection, and the functions are comprehensive.

4. The equipment provides a plurality of mounting positions for mounting meteorological sensors or auxiliary components, a user can flexibly configure according to functional requirements, and the equipment system is simple to operate and reliable in performance.

Drawings

Fig. 1 is a schematic front structural view of the present invention;

fig. 2 is a schematic view of the back structure of the present invention;

FIG. 3 is a schematic structural view of a bi-directional telescopic device;

FIG. 4 is a schematic view of the bi-directional telescopic device;

FIG. 5 is a schematic view of the two-way retractor in a retracted state;

FIG. 6 is a schematic view of an upper connection structure of a solar panel.

The specific meanings represented by the symbols in the drawings are as follows:

the system comprises a vertical column 1, a fixed base 2, a protective cabinet 3, an acquisition control host 31, a storage battery 32, a wireless transmission module 33, a two-way telescopic device 4, an upper rack 41, a lower rack 42, a gear 43, a driving motor 44, an upper base 45, a lower bearing plate 46, a limiting connecting block 47, a solar panel 5, a sliding base 51, a sliding groove 511, a rotating shaft 52, a sliding shaft 53, a top bearing plate 6, a wind speed sensor 61, a wireless receiving and transmitting antenna 62, an indicator light 63, a wind direction sensor 64, a mounting plate 65, an air and light sensor 7 and a rainfall sensor 8.

Detailed Description

To make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the attached drawings in the embodiments of the present invention are combined to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are part of the embodiments of the present invention, rather than all embodiments. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1

As shown in fig. 1, 2 and 6, an agricultural automatic meteorological comprehensive monitoring device comprises a vertical column 1 installed on a fixed base 2, wherein the vertical column 1 is sequentially provided with a protection cabinet 3, a bidirectional telescopic device 4, a solar panel 5 and a top bearing plate 6 from bottom to top, an acquisition control host 31, a storage battery 32 and a wireless transmission module 33 are placed in the protection cabinet 3, the top of the solar panel 5 is provided with a sliding shaft 53, the sliding shaft 53 is slidably connected with a sliding base 51 installed on the vertical column 1, and the bottom of the solar panel 5 is provided with a rotating shaft 52; the two-way telescoping device 4 comprises an upper telescopic end and a lower telescopic end, the upper telescopic end and the lower telescopic end respectively extend synchronously and reversely along the horizontal plane, the upper telescopic end is rotatably connected with the rotating shaft 52, the side surface of the lower telescopic end is connected with the lower bearing plate 46, and the top bearing plate 6 and the lower bearing plate 46 are used for mounting a meteorological sensor and auxiliary components.

In the equipment, the electric quantity generated by the photoelectric conversion function of the solar panel 5 is used for supplying all electric devices for use, and the redundant generated electric quantity is stored in the storage battery 32 so as to be normally used in rainy days; main parts in the equipment are arranged in the protection cabinet to obtain a good working environment, and after the meteorological sensor obtains meteorological data information of an equipment installation place, the acquisition control host 31 collects and summarizes all information, and real-time remote transmission is carried out through the wireless transmission module 33, so that the purpose of monitoring the weather is achieved.

Bidirectional scalability device 4 has two flexible ends in front portion and rear portion, wherein the flexible end in front portion highly is higher than the flexible end in rear portion, so that both do not interfere with each other, when the flexible end in front portion is flexible along place horizontal plane, the bottom of solar panel 5 who is connected with it can produce the displacement, because solar panel 5's top is inside through sliding shaft 53 sliding connection in the base 51 that slides, its removal restriction is vertical direction, when solar panel 5's bottom displacement, corresponding inclination that just can change solar panel 5, sliding shaft 53 self-adaptation slides from top to bottom in the base 51 that slides simultaneously.

In this embodiment, as shown in fig. 4, when the connecting end of the upper rack 41 and the lower portion of the solar panel 5 extends to the outermost side, the inclination angle of the solar panel 5 in this state is 45 degrees, which is convenient for receiving illumination; as shown in fig. 5, when the upper rack 41 is retracted to the innermost side, the inclination angle of the solar panel 5 is approximately vertical in this state, so that the direct washing of the surface by rainwater can be avoided to the greatest extent, thereby reducing the influence on the solar panel 5 in rainy and snowy weather, further improving the service life of the solar panel 5, and enhancing the reliability of the whole equipment.

Through laying this equipment in the place that needs carry out meteorological monitoring, just can realize the required meteorological information data of remote monitoring agricultural production, equipment reliability is high, can need not the normal work of maintenance for a long time.

Example 2

On the basis of embodiment 1, this embodiment further describes the bidirectional telescopic device 4, as shown in fig. 3 and 4, the bidirectional telescopic device 4 includes an upper base 45, a lower base, a gear 43 and a driving motor 44, the upper base 45 and the lower base are installed on the upright post 1, both the upper base 45 and the lower base are provided with a channel, an upper rack 41 and a lower rack 42 are respectively slidably arranged in the channel, a lower bearing plate 46 is connected to a side surface of the lower rack 42, the gear 3 is rotatably installed on a side surface of the upright post 1, and is engaged with the upper rack 41 and the lower rack 42 through slots formed in the upper base 45 and the lower base, the driving motor 44 is installed on an upper surface of the lower base, an output shaft of the driving motor 44 is connected with a wheel shaft of the gear 43, and the driving motor 44 is connected with the acquisition control host 31.

Specifically, there are two upper racks 41, two lower racks 42, two gears 43, and two lower bearing plates 46, all of which are symmetrically disposed along the central axis of the column 1.

The upper rack 41 slides in the channel of the upper base 45 through a sliding support structure, which can be realized by using sliding grooves on the side walls of the channel matching with the protrusions on the two side surfaces of the upper rack 41, and similarly, the same sliding support structure is also provided on the lower rack 42 and the connected lower bearing plate 46.

In order to facilitate the implementation of the synchronous and reverse telescopic actions of the upper rack 41 and the lower rack 42, a gear 43 is disposed between the upper rack 41 and the lower rack 42, so as to simply implement the required function, and at the same time, the gear serves as the power output of the driving motor 44, so that the bidirectional telescopic device 4 obtains driving control; the whole structure of the bidirectional driving device 4 is symmetrically arranged along the central axis of the upright post 1, the number of corresponding movable parts is two, the stable and smooth operation of the structural function can be ensured, and the end parts rotationally connected with the rotating shafts 52 at the bottoms of the two upper racks 41 and the solar panel 5 are more stable.

A limiting connecting block 47 is connected between the two lower racks 42 together, so that the structural strength of the lower racks 42 and the two lower bearing plates 46 connected with the lower racks 42 is improved, the lower racks 42 are guaranteed to be limited when retracting, and the driving motor 44 or structural damage caused by the excessive retracting degree of the whole device is avoided.

The upper rack 41 and the lower rack 42 are also structurally provided with limiting protrusions for preventing the upper rack 41 and the lower rack 42 from being too long in extension state, so that the upper rack 41 and the lower rack 42 can be prevented from falling from the upper base and the lower base due to the too long extension state, and the upper part of the solar panel 5 can be prevented from falling from the sliding base 51.

Through the setting of the acquisition control host 31, the operation of the driving motor 44 is controlled according to the existing meteorological information condition, thereby realizing that the equipment automatically executes the telescopic action of the bidirectional telescopic device 4 according to the change of the meteorological condition without manual operation.

The upper rack 41, the lower rack 42 and the gear 43 in the bidirectional telescopic device 4 can be made of stainless steel, so that functional parts of the device can normally run in rainy and snowy weather, and the device has strong corrosion resistance.

Example 3

On the basis of embodiment 1, on the premise that the sliding base 51 in the present apparatus satisfies the function of moving the sliding shaft up and down and rotating, as shown in fig. 4 and 6, a groove communicating with the bottom surface is formed on the surface of the sliding base 51 on the side away from the column 1, sliding grooves 511 are formed on the left and right surfaces of the inner side of the groove, and the end of the sliding shaft 53 is circular and can rotate while sliding along the sliding grooves 511.

The sliding shaft 53 at the top of the solar panel 5 can conveniently slide into the sliding groove 511 from the opening at the lower part of the groove at the bottom surface of the sliding base 51, so that the sliding groove 511 can be moved up and down, and meanwhile, the groove enables the solar panel 5 to be in the inclined rotating process without generating the conflict of the structure position with the sliding base 51, and the folding and unfolding of the solar panel 5 are not affected.

Example 4

On the basis of the above embodiments, as shown in fig. 1 and fig. 2, a plurality of mounting plates 65 are further fixedly connected to the top loading plate 6 and the lower loading plate 46; the mounting plate 65 provides a standard uniform and stable mounting platform for the meteorological sensor and auxiliary components, and is flexible and convenient to mount.

The embodiment also provides that the meteorological sensor comprises a wind speed sensor 61, a wind direction sensor 64 and an air and illumination sensor 7 which are all connected with the acquisition control host 31.

The wind speed sensor 61 adopts a wind cup type sensor, the wind direction sensor 64 adopts a blade type sensor, and the air and illumination sensor 7 is in a shutter box shape; each meteorological sensor monitors the wind speed, wind direction angle, air temperature, air humidity and illumination intensity of the installation place of the equipment in sequence.

The preferred mounting locations are: the wind speed sensor 61 and the wind direction sensor 64 are both mounted on the top bearing plate 6, and the air and light sensor 7 is mounted on the lower bearing plate 46.

The embodiment further provides that the equipment further comprises a rainfall sensor 8, the rainfall sensor 8 is barrel-shaped, is made of stainless steel and is placed on the ground beside the fixed base 2, and the rainfall sensor 8 is connected with the acquisition control host 31; the rainfall sensor 8 monitors the rainfall of the installation site of the equipment, and due to the characteristics of detection and treatment of rainwater, the rainfall sensor is more suitable for being arranged on the ground, and meanwhile, the hidden danger that other sensors are influenced due to accumulation of rainwater is avoided.

Example 5

On the basis of the above embodiments, as shown in fig. 1, the auxiliary component includes a signal transceiving antenna 62 and an indicator light 63, and both the signal transceiving antenna 62 and the indicator light 63 are installed on the top bearing plate 6; the signal transceiver antenna 62 is connected to the wireless transmission module 33, and remotely transmits the meteorological data signals monitored by the acquisition control host 31.

The pilot lamp 63 is convenient for personnel to find the installation site of this equipment under the bad condition of open-air light, and the signal transceiver antenna 62 installation back, is convenient for promote the long-range wireless signal transmission ability of this equipment, and the antenna of wireless transmission module 33 can select built-in or adopt external signal transceiver antenna 62's mode to go on as required usually to realize this equipment and gather the function of monitoring back far-end transmission to meteorological information data, make this equipment use as automatic meteorological comprehensive monitoring equipment for the agricultural.

Claims (10)

1. The utility model provides an agricultural is with automatic meteorological comprehensive monitoring equipment, is including installing stand (1) on unable adjustment base (2), its characterized in that: the solar energy collecting and transmitting system is characterized in that a protective cabinet (3), a two-way telescopic device (4), a solar panel (5) and a top bearing plate (6) are sequentially installed on the upright post (1) from bottom to top, a collecting and controlling host (31), a storage battery (32) and a wireless transmission module (33) are placed in the protective cabinet (3), a sliding shaft (53) is arranged at the top of the solar panel (5), the sliding shaft (53) is slidably connected to a sliding base (51) installed on the upright post (1), and a rotating shaft (52) is arranged at the bottom of the solar panel (5); two-way telescoping device (4) are including the flexible end in upper portion and the flexible end in lower part, the flexible end in upper portion and the flexible end in lower part are synchronous and reverse flexible along the place horizontal plane respectively, and the flexible end in upper portion is connected with pivot (52) are rotatable, and lower part loading board (46) is connected to the side of the flexible end in lower part, top loading board (6) and lower part loading board (46) all are used for installing meteorological sensor and auxiliary component.

2. The agricultural automatic integrated weather monitoring device as claimed in claim 1, wherein: the bidirectional telescopic device (4) comprises an upper base (45), a lower base, a gear (43) and a driving motor (44), the upper base (45) and the lower base are arranged on the upright post (1), the upper base (45) and the lower base are both provided with channels, an upper rack (41) and a lower rack (42) are respectively arranged in the channels in a sliding way, the side surface of the lower rack (42) is connected with a lower bearing plate (46), the gear (43) is rotatably arranged on the side surface of the upright post (1), is meshed with the upper rack (41) and the lower rack (42) through slots arranged on the upper base (45) and the lower base, the driving motor (44) is installed on the upper surface of the lower base, an output shaft of the driving motor (44) is connected with a wheel shaft of the gear (43), and the driving motor (44) is connected with the acquisition control host (31).

3. An agricultural automatic integrated meteorological monitoring apparatus according to claim 2, wherein: go up rack (41), lower rack (42), gear (43) and lower part loading board (46) respectively have two, all set up along the axis symmetry of stand (1).

4. The agricultural automatic integrated weather monitoring device as claimed in claim 1, wherein: the utility model discloses a slide base, including base (51), slip axle (53), stand (1) and slip shaft, the recess of intercommunication bottom surface is seted up on the surface of keeping away from stand (1) one side of base (51) that slides, be equipped with on the inboard left and right sides surface of recess and slide groove (511), the tip of slip axle (53) is circular, can follow and slide groove (511) and rotate simultaneously.

5. The agricultural automatic integrated weather monitoring device as claimed in claim 1, wherein: the meteorological sensor comprises a wind speed sensor (61), a wind direction sensor (64) and an air and illumination sensor (7) which are all connected with the acquisition control host (31).

6. The agricultural automatic integrated weather monitoring device as claimed in claim 5, wherein: the wind speed sensor (61) and the wind direction sensor (64) are both arranged on the top bearing plate (6), and the air and illumination sensor (7) is arranged on the lower bearing plate (46).

7. The agricultural automatic integrated weather monitoring device as claimed in claim 1, wherein: the rain sensor (8) is connected with the acquisition control host (31).

8. The agricultural automatic integrated weather monitoring device as claimed in claim 1, wherein: and a plurality of mounting plates (65) are fixedly connected to the top bearing plate (6) and the lower bearing plate (46).

9. The agricultural automatic integrated weather monitoring device as claimed in claim 1, wherein: the auxiliary component comprises a signal receiving and transmitting antenna (62) and an indicator light (63), and the signal receiving and transmitting antenna (62) and the indicator light (63) are both arranged on the top bearing plate (6).

10. The agricultural automatic integrated weather monitoring device as claimed in claim 9, wherein: the signal receiving and transmitting antenna (62) is connected with the wireless transmission module (33) and is used for remotely transmitting the meteorological data signals monitored by the acquisition control host (31).

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