CN212993929U - Automatic change tea garden and grow development measurement and plant diseases and insect pests detection device that becomes more meticulous - Google Patents

Abstract

The utility model discloses an automatic tea garden refined growth and development measurement and pest detection device, which comprises an insect catching cage, a solar electric plate, a lighting device, a weight sensor, a video acquisition device, a signal storage transmitter and an inserting drill rod, wherein the insect catching cage is fixedly arranged on the inserting drill rod, the weight sensor is arranged at the bottom of the insect catching cage, the lighting device is arranged in the insect catching cage, the solar electric plate is arranged outside the insect catching cage, the lighting device is connected with the solar electric plate through a circuit, the video acquisition device is arranged below the insect catching cage, the signal storage transmitter is connected with the weight sensor and the video acquisition device through signals, the utility model discloses an automatic tea garden refined growth and development measurement and pest detection device, which can measure through video images, finely and remotely observe the growth condition of tea leaves, and simultaneously captures pests through optical drive, the density condition of the pests in the tea garden is detected, the growth of the tea is ensured, and the agricultural production efficiency is improved.

Description

Automatic change tea garden and grow development measurement and plant diseases and insect pests detection device that becomes more meticulous

Technical Field

The utility model relates to a tea garden check out test set field, in particular to it measures and plant diseases and insect pests detection device to change automatic tea garden growth that becomes more meticulous.

Background

The tea garden is widely applied to many areas as a tea planting place, however, the existing tea garden monitoring has the following problems that firstly, the growth condition of the tea garden is complex to manage, and the growth condition of tea trees is difficult to visually display; secondly, often the observation to the plant diseases and insect pests is not accurate enough, often causes certain loss just can discover the plant diseases and insect pests.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a can measure through video image, the long-range growth situation of observing tealeaves that becomes more meticulous is provided, catches the pest through light driving nature simultaneously to detect the density situation of tea garden pest, ensure the growth of tealeaves, the automatic tea garden that has improved the production efficiency of agricultural becomes more meticulous growth development measurement and plant diseases and insect pests detection device, with the above-mentioned multinomial defect that leads to among the solution prior art.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides an automatic change tea garden growth that becomes more meticulous and develop measuring and plant diseases and insect pests detection device, including catching the worm cage, the solar energy electroplax, lighting device, weighing transducer, video acquisition device, signal storage transmitter and insert the borer, the fixed setting of catching the worm cage is on inserting the borer, weighing transducer sets up in the bottom of catching the worm cage, lighting device sets up in catching the worm cage, the solar energy electroplax sets up in the outside of catching the worm cage, lighting device and solar energy electroplax circuit connection, video acquisition device sets up in the below of catching the worm cage, signal storage transmitter and weighing transducer and video acquisition device signal connection.

Preferably, the insect catching cage comprises a cage body, inlets and shielding edges, wherein the cage body is arranged on the inserting drill rods, the inlets are symmetrically arranged on two sides of the cage body, and the shielding edges are arranged on the cage body.

Preferably, the inlet is in a horn shape, the large opening is arranged on the cage body outwards, and the small opening is arranged in the cage body inwards.

Preferably, the inserted drill rod is of a telescopic structure and comprises a fixing rod, a telescopic rod, a drill bit and a fixing bolt, the fixing rod is connected with the insect catching cage, the telescopic rod is embedded into the fixing rod, the fixing rod and the telescopic rod are fixed through the fixing bolt, and the drill bit is fixedly arranged at the lower end of the telescopic rod.

Preferably, the signal storage transmitter is in signal connection with the weight sensor and the video acquisition device, and is configured to: the weight sensor detects the weight of the dead pests and feeds back the weight information to the signal storage transmitter; the video acquisition device acquires video information of a tea garden in a certain area and feeds the video information back to the signal storage transmitter; the weight information and the video information are transmitted to a terminal in signal connection with the information storage transmitter through the signal storage transmitter.

The beneficial effect of adopting above technical scheme is: the utility model discloses automatic tea garden of structure becomes more meticulous growth development measurement and plant diseases and insect pests detection device can measure through video image, and the long-range growth situation of observing tealeaves becomes more meticulous, catches the pest through the light-driving nature simultaneously to detect the density situation of tea garden pest, ensure the growth of tealeaves, improved the production efficiency of agriculture, catch the insect cage and include the cage body, import and hide the edge, the cage body sets up on inserting the borer, and the import symmetry sets up in the both sides of the cage body, hides the edge setting on the cage body, and the insect cage of this structure can effectively catch the pest, hides the edge structure on it simultaneously and can be used for device body sunshade effect that hides rain, the import is tubaeform, and the macrostoma sets up on the cage body outward, and the osculum is to the inside of inserting the cage body, and the import of this structure can effectively prevent that the pest from escaping from the cage body, it is extending structure to insert the borer, Telescopic link, bore bit and fixing bolt, the setting is connected with the insect trap cage to the dead lever, and telescopic link embedding dead lever sets up, and both fix through fixing bolt, and the bore bit is fixed to be set up at the lower extreme of telescopic link, and the borer of inserting of this structure can adjust length according to different topography to be fit for the growth supervision in this regional tea garden, signal storage transmitter and weighing sensor and video acquisition device signal connection, it is formulated: the weight sensor detects the weight of the dead pests and feeds back the weight information to the signal storage transmitter; the video acquisition device acquires video information of a tea garden in a certain area and feeds the video information back to the signal storage transmitter; weight information and video information are transmitted to a terminal in signal connection with the information storage transmitter through the signal storage transmitter, and the program can realize automatic remote supervision of the growth condition of tea leaves and the pest condition in the tea garden.

Drawings

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

FIG. 2 is a schematic view of the structure of the plug pin of FIG. 1;

wherein, 1, catching the insects; 2. a solar panel; 3. an illumination device; 4. a weight sensor; 5. a video capture device; 6. a signal storage transmitter; 7. inserting a drill rod; 8. a cage body; 9. an inlet; 10. covering edges; 11. fixing the rod; 12. a telescopic rod; 13. a drill bit; 14. and (5) fixing the bolt.

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Fig. 1-2 show a specific embodiment of the present invention: an automatic refined growth and development measuring and pest and disease detecting device for a tea garden comprises an insect catching cage 1, a solar electric plate 2, a lighting device 3, a weight sensor 4, a video acquisition device 5, a signal storage emitter 6 and an inserting drill 7, wherein the insect catching cage 1 is fixedly arranged on the inserting drill 7, the weight sensor 4 is arranged at the bottom of the insect catching cage 1, the lighting device 3 is arranged in the insect catching cage 1, the solar electric plate 2 is arranged outside the insect catching cage 1, the lighting device 3 is in circuit connection with the solar electric plate 2, the video acquisition device 5 is arranged below the insect catching cage 1, the signal storage emitter 6 is in signal connection with the weight sensor 4 and the video acquisition device 5, the device can measure through video images, finely and remotely observe the growth condition of tea leaves, and simultaneously captures pests through optical drive, the density condition of the pests in the tea garden is detected, the growth of the tea is ensured, and the agricultural production efficiency is improved.

Catch insect cage 1 including the cage body 8, import 9 with hide along 10, the cage body 8 sets up on inserting borer 7, import 9 symmetry sets up in the both sides of the cage body 8, hides along 10 settings on the cage body 8, and insect cage 1 of this structure can effectively catch the pest, hides on it simultaneously and can be used for the device body to hide rain sunshade along 10 structures, import 9 is tubaeform, and the macrostoma sets up on the cage body 8 outward, and the osculum is internal to stretching into the inside of the cage body 8, and import 9 of this structure can effectively prevent that the pest from escaping from the cage body 8.

Combine the drill rod 7 that fig. 2 shows to be extending structure, including dead lever 11, telescopic link 12, bore bit 13 and fixing bolt 14, dead lever 11 is connected with insect-catching cage 1 and is set up, and telescopic link 12 imbeds dead lever 11 and sets up, and both fix through fixing bolt 14, and the fixed lower extreme that sets up at telescopic link 12 of bore bit 13, the drill rod 7 of inserting of this structure can adjust length according to different topography to be fit for the growth supervision in this regional tea garden.

The signal storage emitter 6 is in signal connection with the weight sensor 4 and the video acquisition device 5, and is configured to: the weight sensor 4 detects the weight of the dead pests on the weight sensor and feeds weight information back to the signal storage transmitter 6; the video acquisition device 5 acquires video information of a tea garden in a certain area and feeds the video information back to the signal storage transmitter 6; weight information and video information are transmitted to a terminal in signal connection with the information storage transmitter through the signal storage transmitter 6, and the program can realize automatic remote supervision of the growth condition of tea leaves and the pest condition in the tea garden.

The model of the weight sensor 4 is PTS 124-133G; the model of the video acquisition device 5 is LY-HPCCD 3; the signal storage transmitter 6 is of the type GIM-9011B 1.

It should be further explained that the implementation principle of the automatic tea garden fine growth and development measurement and pest and disease detection device of the utility model is that the weight sensor 4 detects the weight of the dead pests falling on the weight sensor and feeds back the weight information to the signal storage transmitter 6; the video acquisition device 5 acquires video information of a tea garden in a certain area and feeds the video information back to the signal storage transmitter 6; weight information and video information are transmitted to a terminal in signal connection with the information storage transmitter through the signal storage transmitter 6, and workers judge the density condition of pests in the tea garden according to the weight information of the pests and judge the growth condition of tea leaves through image information at the same position of the tea garden.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and improvements can be made without departing from the inventive concept, and all of them belong to the protection scope of the present invention.

Claims (5)

1. The utility model provides an automatic change tea garden growth that becomes more meticulous and develop measuring and plant diseases and insect pests detection device, a serial communication port, including catching the worm cage, the solar energy electroplax, lighting device, weighing sensor, video acquisition device, signal storage transmitter and insert the borer, the fixed setting of catching the worm cage is on inserting the borer, weighing sensor sets up in the bottom of catching the worm cage, lighting device sets up in catching the worm cage, the solar energy electroplax sets up in the outside of catching the worm cage, lighting device and solar energy electroplax circuit connection, video acquisition device sets up in the below of catching the worm cage, signal storage transmitter and weighing sensor and video acquisition device signal connection.

2. The automatic tea garden fine growth and development measuring and pest and disease detecting device of claim 1, wherein the insect catching cage comprises a cage body, an inlet and a shielding edge, the cage body is arranged on the inserting drill rod, the inlet is symmetrically arranged on two sides of the cage body, and the shielding edge is arranged on the cage body.

3. The automatic tea garden fine growth and development measuring and pest and disease detecting device according to claim 2, wherein the inlet is horn-shaped, the large opening is arranged on the cage body outwards, and the small opening is arranged inwards to extend into the cage body.

4. The automatic tea garden fine growth and development measuring and pest and disease detecting device of claim 1, wherein the inserting drill rod is of a telescopic structure and comprises a fixing rod, a telescopic rod, a drill bit and a fixing bolt, the fixing rod is connected with the insect catching cage, the telescopic rod is embedded into the fixing rod, the fixing rod and the fixing rod are fixed through the fixing bolt, and the drill bit is fixedly arranged at the lower end of the telescopic rod.

5. The automated tea garden fine growth and development measurement and pest and disease detection device of claim 1, wherein the signal storage transmitter is in signal connection with a weight sensor and a video capture device, and is configured to: the weight sensor detects the weight of the dead pests and feeds back the weight information to the signal storage transmitter; the video acquisition device acquires video information of a tea garden in a certain area and feeds the video information back to the signal storage transmitter; the weight information and the video information are transmitted to a terminal in signal connection with the information storage transmitter through the signal storage transmitter.

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