CN215721913U - Large-field environment monitoring system for standardized planting of bletilla striata - Google Patents

Abstract

The utility model relates to the technical field of bletilla striata planting, in particular to a field environment monitoring system for standardized planting of bletilla striata, which comprises a bottom plate, wherein the bottom of the bottom plate is provided with a plurality of connecting rods which are distributed in an annular manner, the bottom of one connecting rod is provided with a soil temperature and humidity sensor, the center position of the top of the bottom plate is provided with a telescopic rod, the top of the bottom plate and the left side of the telescopic rod are provided with symmetrically distributed supporting rods, the tops of the two supporting rods are fixedly connected through a fixing plate, the top of the fixing plate is provided with a solar cell panel, the top of the bottom plate and the right side of the telescopic rod are provided with an information feedback assembly, the top of the telescopic rod is provided with a top plate, and the top of the top plate is provided with a wind direction sensor and a wind speed sensor. So as to promote the healthy growth of the bletilla striata.

Description

Large-field environment monitoring system for standardized planting of bletilla striata

Technical Field

The utility model relates to the technical field of bletilla striata planting, in particular to a field environment monitoring system for standardized planting of bletilla striata.

Background

Bletilla striata is irregular oblate, grey white or yellowish white on the surface, has a plurality of circles of concentric links and brown punctate fibrous root marks, is hard and hard, is not easy to break, has white-like cross section, is cutin-like, light in smell, bitter in taste, sticky when being chewed, and is commonly used for symptoms such as hemoptysis, hematemesis, traumatic hemorrhage, pyogenic infection of sores and ulcers, chapped skin and the like;

bletilla is at the standardization planting in-process, and the staff can't observe the composition that lacks in the tuber of hyacinth bletilla growing environment with the naked eye to can't in time plant the required growing environment of in-process to the tuber of hyacinth bletilla and adjust, and at tuber of hyacinth bletilla growth in-process, can't carry out the early warning to natural disasters, lead to the tuber of hyacinth bletilla to receive the impact of natural disasters and influence output easily, in view of this, we provide a tuber of hyacinth bletilla standardization planting's land for growing field environment monitoring system.

SUMMERY OF THE UTILITY MODEL

In order to make up for the defects, the utility model provides a field environment monitoring system for standardized planting of bletilla striata.

The technical scheme of the utility model is as follows:

the utility model provides a land for growing field crops environmental monitoring system that tuber of hyacinth bletilla standardization was planted, includes the bottom plate, the bottom of bottom plate is equipped with a plurality of connecting rods that are cyclic annular distribution, one of them the bottom of connecting rod is equipped with soil temperature and humidity sensor, the central point at bottom plate top puts and is equipped with the telescopic link, the bottom plate top just is located the left side of telescopic link is equipped with the bracing piece of symmetric distribution, two fixed plate fixed connection is passed through at the top of bracing piece, the top of fixed plate is equipped with solar cell panel, the bottom plate top just is located the right side of telescopic link is equipped with the information feedback subassembly, the top of telescopic link is equipped with the roof, the top of roof is equipped with wind direction sensor and air velocity transducer.

As an optimal technical scheme, the information feedback assembly comprises a protective shell, a single chip microcomputer is arranged inside the protective shell, an cover plate is hinged to the right side of the protective shell, and a display screen is embedded in the right side of the cover plate.

Preferably, the solar cell panel is inclined, and the top of the solar cell panel is fixedly connected with the fixing plate through a bearing rod.

As a preferable technical scheme, storage batteries are symmetrically distributed above the bottom plate and at positions corresponding to the lower parts of the fixing plates.

According to the preferable technical scheme, the middle positions of the three connecting rods are fixedly connected through a connecting plate, an electric cylinder is arranged at the center of the top of the connecting plate, a hollowed-out bin is arranged below the connecting plate and in a position corresponding to the electric cylinder, a baffle is arranged at the top of the hollowed-out bin, the baffle is fixedly connected with the hollowed-out bin through bolts, and the soil temperature and humidity sensor is located inside the hollowed-out bin.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the growth environment of the bletilla striata is monitored through the wind direction sensor, the wind speed sensor and the soil temperature and humidity sensor, so that the temperature and humidity of the soil can be adjusted to a certain extent in time according to the growth requirement of the bletilla striata, the healthy growth of the bletilla striata can be promoted, the stability of the telescopic rod can be increased through the triangular plate, the utilization rate of solar energy can be improved conveniently through the matching use of the solar cell panel and the storage battery, and the energy conservation is realized.

Drawings

FIG. 1 is one of the overall structural diagrams of embodiment 1 of the present invention;

FIG. 2 is a second schematic structural diagram of embodiment 1 of the present invention;

FIG. 3 is a partial sectional view of the protective shell of example 1 of the present invention;

FIG. 4 is a schematic view of the overall structure of embodiment 2 of the present invention;

fig. 5 is a schematic view of the overall structure of the hollow cabin of embodiment 2 of the present invention after being cut.

In the figure:

a base plate 1; a connecting rod 11; a support rod 12; a fixing plate 121; a storage battery 13;

a telescopic rod 2; a fixing lever 21; a travel bar 22; a fastening bolt 23;

an information feedback component 3; a protective shell 31; a cover plate 32; a display screen 33; a single chip microcomputer 34;

a solar cell panel 4; a bearing bar 41;

a top plate 5; a wind direction sensor 51; a wind speed sensor 52;

a soil temperature and humidity sensor 6;

a set square 7;

a connecting plate 8; an electric cylinder 81; a hollow-out bin 82; a baffle 821.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Example 1

Referring to fig. 1-3, the present embodiment provides a technical solution:

the utility model provides a land for growing field crops environmental monitoring system that tuber of hyacinth bletilla standardization was planted, comprising a base plate 1, the bottom of bottom plate 1 is equipped with a plurality of connecting rods 11 that are cyclic annular distribution, the bottom of one of them connecting rod 11 is equipped with soil temperature and humidity sensor 6, the central point at 1 top of bottom plate puts and is equipped with telescopic link 2, the left side that 1 top of bottom plate just is located telescopic link 2 is equipped with symmetric distribution's bracing piece 12, fixed plate 121 fixed connection is passed through at the top of two bracing pieces 12, the right side of fixed plate 121 and telescopic link 2's outer wall fixed connection, the top of fixed plate 121 is equipped with solar cell panel 4, 1 top of bottom plate just is located telescopic link 2's right side and is equipped with information feedback subassembly 3, the top of telescopic link 2 is equipped with roof 5, the top of roof 5 is equipped with wind direction sensor 51 and wind speed sensor 52.

It should be added that the telescopic rod 2 comprises a fixed rod 21 and a movable rod 22 movably inserted into the fixed rod 21, a fastening bolt 23 is connected to the outer wall of the fixed rod 21 near the upper end in a threaded manner, and the end of the fastening bolt 23 penetrates through the outer wall of the fixed rod 21 and contacts with the outer wall of the movable rod 22.

It is worth noting that, the outer wall of dead lever 21 and the outer wall that is close to the lower extreme and carriage release lever 22 and the position that is close to the upper end all are equipped with the set-square 7 that is cyclic annular distribution, the set-square 7 of the outer wall of dead lever 21 and the set-square 7 symmetric distribution of the outer wall of carriage release lever 22, the lower extreme of the set-square 7 of the outer wall of dead lever 21 all with bottom plate 1 fixed connection, the upper end of the set-square 7 of the outer wall of carriage release lever 22 all with roof 5 fixed connection, can avoid the upper and lower both ends of telescopic link 2 to produce the position skew through addding set-square 7 and be convenient for improve the stability that telescopic link 2 is fixed, in addition, can increase the fixed area with roof 5 through set-square 7, thereby be convenient for improving the fastness fixed to roof 5.

As the preferred of this embodiment, information feedback subassembly 3 includes protecting crust 31, and the inside of protecting crust 31 is equipped with singlechip 34, and the right side of protecting crust 31 articulates there is apron 32, and the right side of apron 32 is inlayed and is equipped with display screen 33, through placing singlechip 34 in the inside of protecting crust 31, is convenient for protect singlechip 34, through the articulated cooperation of apron 32 with protecting crust 31, is convenient for overhaul singlechip 34 and display screen 33.

It should be noted that the solar cell panel 4 is inclined, and the top of the solar cell panel 4 is fixedly connected to the fixing plate 121 through the bearing rod 41, so as to support the solar cell panel 4.

In addition, the top of bottom plate 1 and with the fixed plate 121 below corresponding position be equipped with the battery 13 of symmetric distribution, one of them battery 13 is as stand-by power supply, and can dismantle with bottom plate 1, is convenient for carry out the electric quantity to it and supplements, avoids long-time overcast and rainy weather to lead to the device outage and unable normal use.

In addition, soil temperature and humidity sensor 6, wind direction sensor 51, wind speed sensor 52, display screen 33 and battery 13 are respectively through wire and singlechip 34 electric connection, solar cell panel 4 passes through wire and two battery 13 electric connection, also through wire electric connection between display screen 33 and the battery 13, make soil temperature and humidity sensor 6, wind direction sensor 51 and wind speed sensor 52 will detect data transfer to singlechip 34, then show data to the staff through display screen 33, solar cell panel 4 turns into the electric energy with solar energy, then carry to the inside storage of battery 13 through the wire, then utilize battery 13 to supply power to singlechip 34 and display screen 33.

In the specific use process, the soil temperature and humidity sensor 6 is buried under the ground and contacts with the soil, so that the lower end of the connecting rod 11 contacts with the ground, the height of the telescopic rod 2 is adjusted according to actual requirements, the fastening bolt 23 is loosened, the screw end of the fastening bolt 23 is separated from the outer wall of the movable rod 22, then the height position of the movable rod 22 in the fixed rod 21 is manually adjusted, so that the height of the top plate 5 is adjusted, the bolt 23 is screwed after the height adjustment is finished, so that the height position of the top plate 5 is adjusted, then the wind direction and the wind speed are detected by using the wind direction sensor 51 and the wind speed sensor 52, the soil temperature and humidity sensor 6 detects the temperature and humidity of the soil, detected data are summarized and displayed to workers through the display screen 33, and the workers can timely correct the growth environment of the bletilla striata according to the fed back data information, so that the bletilla striata can grow healthily.

Example 2

Referring to fig. 4-5, the present embodiment provides the following technical solutions on the basis of embodiment 1: the middle positions of the three connecting rods 11 are fixedly connected through a connecting plate 8, an electric cylinder 81 is arranged at the top center position of the connecting plate 8, a hollowed-out bin 82 is arranged below the connecting plate 8 and in a position corresponding to the electric cylinder 81, a baffle 821 is arranged at the top of the hollowed-out bin 82, the baffle 821 and the hollowed-out bin 82 are fixedly connected through bolts, and the soil temperature and humidity sensor 6 is located inside the hollowed-out bin 82.

Further, fretwork storehouse 82 is the circular cone shape, and the tip of electric jar 81 piston rod passes the outer wall of connecting plate 8 and with baffle 821 fixed connection, and the junction of three connecting rod 11 and connecting plate 8 is the triangle-shaped to the stability of connecting rod 11 has been increased.

In the concrete use, the bolt that is used for fixing between baffle 821 and the fretwork storehouse 82 is dismantled, then place soil temperature and humidity sensor 6 in the inside of fretwork storehouse 82, then fix baffle 821 and fretwork storehouse 82 through the bolt, then the piston rod through electric cylinder 81 promotes baffle 821 and moves down, make parts such as baffle 821 fretwork storehouse 82 move down in step, make inside fretwork storehouse 82 gets into soil gradually, partial soil gets into inside and the soil temperature and humidity sensor 6 of fretwork storehouse 82 and contacts, after the use, can split baffle 821 and fretwork storehouse 82, be convenient for overhaul soil temperature and humidity sensor 6 when clearing up the inside of fretwork storehouse 82.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a field environment monitoring system that tuber of hyacinth bletilla standardization was planted, includes bottom plate (1), the bottom of bottom plate (1) is equipped with a plurality of connecting rods (11) that are cyclic annular and distribute, its characterized in that: one of them the bottom of connecting rod (11) is equipped with soil temperature and humidity sensor (6), the central point at bottom plate (1) top puts and is equipped with telescopic link (2), bottom plate (1) top just is located the left side of telescopic link (2) is equipped with symmetric distribution's bracing piece (12), two fixed plate (121) fixed connection is passed through at the top of bracing piece (12), the top of fixed plate (121) is equipped with solar cell panel (4), bottom plate (1) top just is located the right side of telescopic link (2) is equipped with information feedback subassembly (3), the top of telescopic link (2) is equipped with roof (5), the top of roof (5) is equipped with wind direction sensor (51) and wind speed sensor (52).

2. The bletilla normalized planting field environment monitoring system of claim 1, wherein: information feedback subassembly (3) are including protecting crust (31), the inside of protecting crust (31) is equipped with singlechip (34), the right side of protecting crust (31) articulates there is apron (32), the right side of apron (32) is inlayed and is equipped with display screen (33).

3. The bletilla normalized planting field environment monitoring system of claim 1, wherein: the solar cell panel (4) is inclined, and the top of the solar cell panel (4) is fixedly connected with the fixing plate (121) through the bearing rod (41).

4. The bletilla normalized planting field environment monitoring system of claim 1, wherein: and storage batteries (13) which are symmetrically distributed are arranged above the bottom plate (1) and at positions corresponding to the lower parts of the fixing plates (121).

5. The bletilla normalized planting field environment monitoring system of claim 1, wherein: it is three the intermediate position of connecting rod (11) passes through connecting plate (8) fixed connection, the top central point of connecting plate (8) puts and is equipped with electric jar (81), the below of connecting plate (8) and the position corresponding with electric jar (81) are equipped with fretwork storehouse (82), the top in fretwork storehouse (82) is equipped with baffle (821), pass through bolt fixed connection between baffle (821) and fretwork storehouse (82), soil temperature and humidity sensor (6) are located the inside in fretwork storehouse (82).

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