CN207820048U - A kind of flower diseases and pests detecting system based on Internet of Things - Google Patents

Abstract

The flower diseases and pests detecting system based on Internet of Things that the utility model discloses a kind of, including main support rod, the first shrinking connecting-rod, the second shrinking connecting-rod, the first camera, second camera, solar panels and electric-controlled box, first shrinking connecting-rod and the second shrinking connecting-rod are slidably mounted on the sliding rail of main support rod, and the first camera and second camera are separately mounted on the first shrinking connecting-rod and the second shrinking connecting-rod；The electric-controlled box is fixedly mounted on main support rod, main control unit, power module, solar charging controller, wireless communication module are provided in electric-controlled box, main control unit is separately connected power module, wireless communication module and the first camera and second camera, main control unit acquires the image data of the first camera and second camera in real time, and image data is sent to by remote monitoring terminal by wireless communication module, these analysis of image data flower diseases and pests situations are utilized by remote monitoring terminal.

Description

A kind of flower diseases and pests detecting system based on Internet of Things

Technical field

The utility model belongs to agriculture test engineering device technique field, and in particular to a kind of flower diseases and pests based on Internet of Things Detecting system.

Background technology

It improves with the development of science and technology, the planting equipments such as cultivation box, planting greenhouse gradually increase.Cultivation box majority is answered For the plantation of small-sized vegetable plant, home decoration is can be not only used for, may also reach up the purpose of amusement and child-parent education.Kind The plantation that greenhouse majority is applied to extensive vegetable plant is planted, can be that user creates economic benefit.

The growing plants in planting equipment inevitably can be by pest and disease damage if maintenance is improper.Once being planted in planting equipment Object will bring greater loss by pest and disease damage to user.It is mesh so how effectively to monitor plant pest in planting equipment The technical issues of preceding urgent need to resolve.

Utility model content

The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of flower diseases and pests based on Internet of Things Detecting system.

The utility model is achieved through the following technical solutions：

A kind of flower diseases and pests detecting system based on Internet of Things, including it is main support rod, the first shrinking connecting-rod, second flexible Connecting rod, the first camera, second camera, supporting leg, solar panels and electric-controlled box,

In main support rod upper edge, it is grown to sliding rail is provided with, and the first shrinking connecting-rod includes the first outer sleeve and the first interior bar, One end of first outer sleeve is slidably mounted on the sliding rail of main support rod, and the first interior bar is slidably arranged in the first outer sleeve, the The outer end of one interior bar is installed by the first camera；Second shrinking connecting-rod includes the second outer sleeve and the second interior bar, the second housing One end of cylinder is slidably mounted on the sliding rail of main support rod, and the second interior bar is slidably arranged in the second outer sleeve, the second interior bar Outer end is installed by second camera；In use, the collapsing length of the first shrinking connecting-rod and the second shrinking connecting-rod can be adjusted, so that the One camera and second camera are adjusted to suitable detection range；

The solar panels are arranged on main support rod；

The electric-controlled box is fixedly mounted on main support rod, and main control unit, power module, the sun are provided in electric-controlled box Energy charge controller, wireless communication module, solar panels connect solar charging controller, solar charging controller connection electricity Source module, main control unit are separately connected power module, wireless communication module and the first camera and second camera, master control list The image data of first acquisition in real time the first camera and second camera, and be sent to image data by wireless communication module Remote monitoring terminal utilizes these analysis of image data flower diseases and pests situations by remote monitoring terminal.

In the above-mentioned technical solutions, first shrinking connecting-rod and main support rod are perpendicular.

In the above-mentioned technical solutions, second shrinking connecting-rod and main support rod are perpendicular.

In the above-mentioned technical solutions, main support rod bottom end is provided with three supporting legs.

In the above-mentioned technical solutions, three supporting legs are along main support rod circumference equidistantly distributed.

In the above-mentioned technical solutions, the first shrinking connecting-rod and sliding rail binding end and second shrinking connecting-rod and sliding rail Binding end is respectively arranged with puller bolt, by adjusting puller bolt, realizes the first shrinking connecting-rod and the second shrinking connecting-rod in cunning The adjusting of position on rail, and then realize the adjusting of the first camera and second camera height and position.

In the above-mentioned technical solutions, the top of supporting leg is hinged on by shaft on main support rod, to realize the exhibition of supporting leg Open angular adjustment.

In the above-mentioned technical solutions, first camera is first that the first shrinking connecting-rod is hinged on by first rotating shaft In interior bar.

In the above-mentioned technical solutions, the second camera is second that the second shrinking connecting-rod is hinged on by the second shaft In interior bar.

In the above-mentioned technical solutions, finite place piece is set in sliding rail lower end.

It the advantages of the utility model and has the beneficial effect that：

1, the utility model slides the first shrinking connecting-rod of setting and the second shrinking connecting-rod, the first flexible company on main support rod Bar and the second shrinking connecting-rod outer end are respectively arranged with the first camera and second camera, in the first shrinking connecting-rod and sliding rail knot That closes end and the second shrinking connecting-rod is respectively arranged with puller bolt with sliding rail binding end, by adjusting puller bolt, realizes the The adjusting of one shrinking connecting-rod and the second shrinking connecting-rod position on sliding rail, and then realize the first camera and second camera height The adjusting of position.

2, the top of supporting leg is hinged on by shaft on main support rod, to realize that the expanded angle of supporting leg is adjusted.

3, the first shrinking connecting-rod and the second shrinking connecting-rod are extension type link mechanism, can adjust the first shrinking connecting-rod With the collapsing length of the second shrinking connecting-rod so that the first camera and second camera are adjusted to suitable detection range.

4, the first camera and second camera are hinged on connecting rod, to realize that the first camera and second is taken the photograph As the arbitrary adjusting of brilliance degree.

5, the utility model has function of solar charging.

6, main control unit acquires the image data of the first camera and second camera in real time, and passes through wireless communication module Image data is sent to remote monitoring terminal, these analysis of image data flower diseases and pests feelings are utilized by remote monitoring terminal Condition.

Description of the drawings

Fig. 1 is the structural schematic diagram of the flower diseases and pests detecting system of the utility model embodiment one.

Fig. 2 is the A of the flower diseases and pests detecting system of the utility model embodiment one to cut-away view.

Fig. 3 is the structural schematic diagram of the flower diseases and pests detecting system of the utility model embodiment two.

Fig. 4 is the structural schematic diagram of the flower diseases and pests detecting system of the utility model embodiment three.

Wherein：

1：Main support rod, 2：First shrinking connecting-rod, 3：Second shrinking connecting-rod, 4：First camera, 5：Second camera, 6： Supporting leg, 7：Electric-controlled box, 8：Locating part, 9：Solar panels, 1-1：Sliding rail, 2-1：First outer sleeve, 2-2：First interior bar, 3-1：The Two outer sleeves, 3-2：Second interior bar.

It for those of ordinary skill in the art, without creative efforts, can be according to above attached Figure obtains other relevant drawings.

Specific implementation mode

In order to make those skilled in the art more fully understand the utility model, with reference to specific embodiment into one Step illustrates the technical solution of the utility model.

Embodiment one

Referring to attached drawing 1, a kind of flower diseases and pests detecting system based on Internet of Things, including the flexible company of main support rod 1, first Bar 2, the second shrinking connecting-rod 3, the first camera 4, second camera 5, supporting leg 6 and electric-controlled box 7,

In main support rod upper edge, it is grown to being provided with sliding rail 1-1, and the first shrinking connecting-rod 2 includes the first outer sleeve 2-1 and the One interior bar 2-2, one end of the first outer sleeve 2-1 are slidably mounted on the sliding rail 1-1 of main support rod, and the first interior bar 2-2 slidings are set It sets in the first outer sleeve 2-1, the first camera 4 is installed in the outer end of the first interior bar 2-2；The structure of second shrinking connecting-rod 3 It is identical as the first shrinking connecting-rod 2 comprising to slide one end of the second outer sleeve 3-1 and the second interior bar 3-2, the second outer sleeve 3-1 On the sliding rail 1-1 of main support rod, the second interior bar 3-2 is slidably arranged in the second outer sleeve 3-1, the second interior bar 3-2's Outer end is installed by second camera 5；In use, the collapsing length of the first shrinking connecting-rod 2 and the second shrinking connecting-rod 3 can be adjusted, with The first camera 4 and second camera 5 is set to be adjusted to suitable detection range.

Referring to attached drawing 2, in the first shrinking connecting-rod and sliding rail binding end and the second shrinking connecting-rod and sliding rail binding end It is respectively arranged with puller bolt, by adjusting puller bolt, realizes the first shrinking connecting-rod 2 and the second shrinking connecting-rod 3 in sliding rail 1-1 The adjusting of upper position, and then realize the adjusting of the first camera 4 and 5 height and position of second camera；It is arranged in the lower ends sliding rail 1-1 Finite place piece 8, prevents connecting rod from falling off from sliding rail；Main support rod bottom end is provided with three supporting legs, three supporting legs are along main support Bar circumference equidistantly distributed.

First camera 4 is hinged on the first interior bar 2-2 by first rotating shaft, and the second camera 5 is It is hinged on the second interior bar 3-2 by the second shaft, to realize the arbitrary of the first camera 4 and 5 angle of second camera It adjusts.In use, 3 supporting legs are inserted into soil, main support rod 1 is fixed vertically, then adjusts the first shrinking connecting-rod 2 and second The height and position of shrinking connecting-rod 3, and the first camera 4 and 5 angle of second camera are adjusted, make the first camera 4 towards flower Grass blade upper surface makes second camera 5 towards flowers blade lower surface, to realize without dead angle pest and disease damage image monitoring.

The electric-controlled box 7 is fixedly mounted on main support rod 1, be provided in electric-controlled box 7 main control unit, power module, Wireless communication module, main control unit are separately connected power module, wireless communication module and the first camera 4 and second camera 5, main control unit acquires the image data of the first camera 4 and second camera 5 in real time, and by wireless communication module by image Data transmission utilizes these analysis of image data flower diseases and pests situations to remote monitoring terminal, by remote monitoring terminal.

Embodiment two

Referring to attached drawing 3, the top of supporting leg is hinged on by shaft on main support rod, to realize the expanded angle tune of supporting leg Section.

Embodiment three

Referring to attached drawing 4, on the basis of embodiment one, solar panels are additionally provided on main support rod 1, in electric-controlled box 7 It is additionally provided with solar charging controller, solar panels connect solar charging controller, solar charging controller connection electricity Source module realizes function of solar charging.

Illustrative description has been done to the utility model above, it should explanation, in the core for not departing from the utility model In the case of the heart, it is any it is simple deformation, modification or other skilled in the art can not spend creative work etc. The scope of protection of the utility model is each fallen with replacing.

Claims (10)

1. a kind of flower diseases and pests detecting system based on Internet of Things, it is characterised in that：Including main support rod, the first flexible company Bar, the second shrinking connecting-rod, the first camera, second camera, supporting leg, solar panels and electric-controlled box,

In main support rod upper edge, it is grown to being provided with sliding rail, and the first shrinking connecting-rod includes the first outer sleeve and the first interior bar, and first One end of outer sleeve is slidably mounted on the sliding rail of main support rod, and the first interior bar is slidably arranged in the first outer sleeve, in first The outer end of bar is installed by the first camera；Second shrinking connecting-rod includes the second outer sleeve and the second interior bar, the second outer sleeve One end is slidably mounted on the sliding rail of main support rod, and the second interior bar is slidably arranged in the second outer sleeve, the outer end of the second interior bar Second camera is installed；

The solar panels are arranged on main support rod；

The electric-controlled box is fixedly mounted on main support rod, and main control unit, power module, solar charging are provided in electric-controlled box Electric controller, wireless communication module, solar panels connect solar charging controller, and solar charging controller connects power supply mould Block, main control unit are separately connected power module, wireless communication module and the first camera and second camera, and main control unit is real When acquire the image data of the first camera and second camera, and image data is sent to remotely by wireless communication module Monitor terminal.

2. a kind of flower diseases and pests detecting system based on Internet of Things according to claim 1, it is characterised in that：Described One shrinking connecting-rod and main support rod are perpendicular.

3. a kind of flower diseases and pests detecting system based on Internet of Things according to claim 1, it is characterised in that：Described Two shrinking connecting-rods and main support rod are perpendicular.

4. a kind of flower diseases and pests detecting system based on Internet of Things according to claim 1, it is characterised in that：In main branch Strut bottom end is provided with three supporting legs.

5. a kind of flower diseases and pests detecting system based on Internet of Things according to claim 4, it is characterised in that：Three branch Leg is along main support rod circumference equidistantly distributed.

6. a kind of flower diseases and pests detecting system based on Internet of Things according to claim 1, it is characterised in that：First Shrinking connecting-rod is respectively arranged with puller bolt with sliding rail binding end and the second shrinking connecting-rod with sliding rail binding end, passes through tune Puller bolt is saved, realizes the adjusting of the first shrinking connecting-rod and the second shrinking connecting-rod position on sliding rail.

7. a kind of flower diseases and pests detecting system based on Internet of Things according to claim 1, it is characterised in that：Supporting leg Top is hinged on by shaft on main support rod.

8. a kind of flower diseases and pests detecting system based on Internet of Things according to claim 1, it is characterised in that：Described One camera is hinged in the first interior bar of the first shrinking connecting-rod by first rotating shaft.

9. a kind of flower diseases and pests detecting system based on Internet of Things according to claim 1, it is characterised in that：Described Two cameras are hinged in the second interior bar of the second shrinking connecting-rod by the second shaft.

10. a kind of flower diseases and pests detecting system based on Internet of Things according to claim 1, it is characterised in that：In cunning Finite place piece is arranged in rail lower end.