CN211881859U - Intelligent air-suction type insecticidal lamp based on big data platform and based on Internet of things - Google Patents

Abstract

The utility model relates to a insecticidal lamp field specifically discloses an intelligent air-aspiration type insecticidal lamp of thing networking based on big data platform, including the lamp body that is used for attracting the pest, collect the collection box of pest and monitor the monitoring module of insecticidal lamp state, collect the box and install in the bottom of lamp body, the lamp body is including installing in the lamp body luring the worm light source, surrounding in lamp body striking glass all around and installing in the pest suction box of striking glass below, the pest suction hole has been seted up to the side of pest suction box, and installs negative-pressure air fan in the pest suction box, collect the box bottom and install the automatic release mechanism of worm skeleton. The utility model can monitor the working state of the insecticidal lamp constantly, and can know whether the insecticidal lamp is stolen or not; in addition, the utility model discloses an automatic control worm bone release reduces user's work load, also avoids worm bone to pile up simultaneously.

Description

Intelligent air-suction type insecticidal lamp based on big data platform and based on Internet of things

Technical Field

The utility model relates to an insecticidal lamp, concretely relates to intelligent formula insecticidal lamp is inhaled to thing networking based on big data platform.

Background

In agricultural control, pest control is the most important thing, and pest control is usually carried out to pest to insecticidal lamp in the agricultural, utilizes the phototaxis of insect, makes the pest bump glass and is taken into pest collection box, realizes the kill of pest, but pest collection box's capacity is limited, often needs the manual work to collect full pest collection box and clears up.

The environment of farming is special and area is wide, if adopt artificial mode to release the worm's of insecticidal lamp and adopt the operating condition of workman's mode monitoring insecticidal lamp will be a very time-consuming, hard thing to it is very difficult in time to discover the trouble of insecticidal lamp.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that exists, the utility model provides an intelligent formula insecticidal lamp is inhaled to thing networking based on big data platform, its concrete technical scheme as follows:

an Internet of things intelligent air-suction type insecticidal lamp based on a big data platform comprises a lamp body for attracting pests, a collecting box for collecting the pests and a monitoring module for monitoring the state of the insecticidal lamp, wherein the collecting box is installed at the bottom of the lamp body, the lamp body comprises a pest trapping light source installed in the lamp body, impact glass surrounding the periphery of the lamp body and a pest suction box installed below the impact glass, pest suction holes are formed in the side surface of the pest suction box, a negative pressure fan is installed in the pest suction box, and a pest skeleton automatic release mechanism is installed at the bottom of the collecting box; the monitoring module comprises a photosensitive sensor, a rotating speed sensor and a GPS positioning device; the photosensitive sensor is arranged in the lamp body, is close to the insect-attracting light source and is used for monitoring the working state of the insect-attracting light source; the rotating speed sensor is arranged inside the pest suction box and used for monitoring the working state of the negative pressure fan; the GPS positioning device is arranged in the lamp body and used for monitoring the geographical position of the insecticidal lamp; the photosensitive sensor, the rotating speed sensor and the GPS positioning device are respectively connected with the big data platform.

Further, the automatic worm skeleton releasing mechanism comprises a worm skeleton releasing door, an automatic telescopic rod, a photoelectric sensor and a control box, one side of the worm skeleton releasing door is hinged to one side wall of the collecting box, a turning edge is fixedly connected to the hinged edge of the worm skeleton releasing door, and a turning block is fixedly connected to the turning edge; the automatic telescopic rod comprises a fixed rod and a movable rod, one side of the fixed rod is fixedly arranged on a side wall hinged with the wrestle release door, one end of the movable rod is movably connected into the fixed rod, the free end of the movable rod is hinged with a connecting rod, and one end of the connecting rod is hinged with the turnover block; the automatic telescopic rod is connected with the control box, the expansion and contraction of the automatic telescopic rod are controlled through the control box, the photoelectric sensor comprises a receiver and a transmitter, the receiver and the transmitter of the photoelectric sensor are respectively installed on two sides of the collecting box, and the photoelectric sensor is connected with the control box.

Furthermore, waterproof cases are respectively installed on the outer sides of the receiver and the emitter of the photoelectric sensor.

Further, the turnover edge is perpendicular to the worm skeleton release door.

Furthermore, an upper mounting hanging piece and a lower mounting hanging piece are respectively mounted on one side of the lamp body.

Furthermore, a roof eave type waterproof cover is installed at the top of the lamp body.

Has the advantages that: the utility model discloses combine the internet of things, be connected with long-range big data platform respectively through photosensitive sensor, speed sensor and GPS positioner, monitor the change of luring worm light source annex optical signal through photosensitive sensor to monitor the operating condition of luring worm light source, monitor negative-pressure air fan's rotational speed change through speed sensor, thereby monitor negative-pressure air fan's operating condition, can discover in time whether the insecticidal lamp breaks down through above-mentioned two kinds of sensors; can in time obtain the positional information of insecticidal lamp through GPS positioner, make things convenient for the insecticidal lamp that maintenance personal searched for the trouble. In addition, the accumulation condition of the carcasses in the collection box can be monitored through the photoelectric sensor, and when the accumulation height of the carcasses exceeds the installation position of the photoelectric sensor, the control box controls the carcasses release door to open and release the carcasses, so that the workload of manpower can be effectively reduced, the carcasses in the collection box can be cleaned in time, and the accumulation of the carcasses is avoided.

Drawings

FIG. 1 is a schematic view of an exemplary embodiment of the present invention;

fig. 2 is a schematic front view of the collection cassette.

Reference numerals: 1-a waterproof cover; 2-a lamp body; 3-impact glass; 4-pest suction box; 5, automatically telescoping a rod; 6-skeleton release gate; 7-a collection box; 8-mounting a hanging piece at the lower part; 9-insect attracting light source; 10-mounting a hanging piece; 11-a side wall; 12-pest suction holes; 13-a fixation rod; 14-a moving bar; 15-a connecting rod; 16-flanging; 17-turning over the block; 18-a photosensor; 19-a waterproof shell; and 20-controlling the box.

Detailed Description

In the following, the technical solutions in the embodiments of the present invention are described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by the skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, an internet of things intelligent air-suction type insecticidal lamp based on a big data platform comprises a lamp body 2 for attracting pests, a collecting box 7 for collecting pests and a monitoring module for monitoring the state of the insecticidal lamp, wherein the collecting box 7 is installed at the bottom of the lamp body 2, the lamp body 2 comprises a waterproof cover 1, a pest inducing light source 9, an impact glass 3 and a pest suction box 4, the waterproof cover 1 is installed at the top of the lamp body 2 in an eave type for preventing the whole insecticidal lamp from being water, the pest inducing light source 9 is installed at the bottom of the waterproof cover 1 and is positioned in the lamp body 2 for attracting pests, the top of the impact glass 3 is fixedly connected with the bottom of the waterproof cover 1, the impact glass 3 surrounds the periphery of the lamp body 2, the pests are attracted by the pest inducing light source 9 and then hit the impact glass 3 to be stunned, the top of the pest suction box 4 is fixedly connected with the top of, the pest suction box 4 is internally provided with a negative pressure fan, a plurality of pest suction holes 12 are formed in the side wall 11 of the pest suction box 4, negative pressure is formed at the pest suction holes 12 through the negative pressure fan, and when dizzy pests fall, the negative pressure is sucked into the pest suction box 4 to collect the pests.

The top of the collecting box 7 is fixedly connected with the pest sucking box 4, the bottom of the collecting box is provided with a wrestle releasing mechanism, as shown in fig. 2, the wrestle releasing mechanism comprises a wrestle releasing door 6, an automatic telescopic rod 5, a photoelectric sensor 18 and a control box 20, one side of the wrestle releasing door 6 is hinged with one side wall 11 of the collecting box 7, a turnover edge 16 vertical to the wrestle releasing door 6 is fixedly connected to the hinged edge of the wrestle releasing door 6, and a turnover block 17 is fixedly connected to the edge of the turnover edge 16; the automatic telescopic rod 5 comprises a fixed rod 13 and a movable rod 14, one side of the fixed rod 13 is fixedly arranged on a side wall 11 hinged with the wrestle release door 6, one end of the movable rod 14 is movably connected in the fixed rod 13, the free end of the movable rod 14 is hinged with a connecting rod 15, and one end of the connecting rod 15 is hinged with a turnover block 17; the automatic telescopic link 5 is connected with control box 20 in the insecticidal lamp, through the flexible of control box 20 control automatic telescopic link 5, photoelectric sensor 18 includes receiver and transmitter, photoelectric sensor 18's receiver and transmitter are installed respectively in the both sides of collecting box 7 to install respectively in photoelectric sensor 18's the receiver and the outside of transmitter and be used for waterproof shell 19, photoelectric sensor 18 is connected with control box 20. In a normal working state, the part between the worm skeleton release door 6 and the collection box 7 is in a closed state, the receiver of the photoelectric sensor 18 receives an optical signal sent by the transmitter at all times, and when the worm skeleton in the collection box 7 is accumulated to a certain degree, the worm skeleton blocks the optical signal sent by the photoelectric sensor 18, so that the control box 20 controls the automatic telescopic rod 5 to act, the worm skeleton release door 6 is opened to release the worm skeleton, and the worm skeleton release door 6 is reset after a certain time.

As shown in fig. 1, an upper mounting hanger 10 and a lower mounting hanger 8 are further mounted on the outer side of the lamp body 2, respectively, so that the insecticidal lamp can be mounted through the upper mounting hanger 10 and the lower mounting hanger 8.

The detection module (not shown in the figure) comprises a photosensitive sensor, a rotating speed sensor and a GPS (global positioning system) positioning device, the photosensitive sensor is arranged at the bottom of the waterproof cover 1 and is positioned in the lamp body 2, the photosensitive sensor is close to the insect trapping light source 9 and is also connected with the remote big data processing platform, the photosensitive sensor converts optical signals into electric signals by using a photosensitive element and transmits the electric signals to the remote big data processing platform, and the working state of the insect trapping light source 9 can be effectively monitored, so that a user can know whether the insect trapping light source 9 fails in time; the rotating speed sensor is arranged inside the pest suction box 4 and is connected with the remote big data processing platform, and the working state of the negative pressure fan is monitored through the rotating speed sensor, so that a user can know whether the negative pressure fan breaks down or not in time; GPS positioner installs in lamp body 2 to GPS positioner is connected with long-range big data processing platform for the geographical position of monitoring insecticidal lamp can make the user know the geographical position of the insecticidal lamp that produces the trouble, and can know whether stolen by insecticidal lamp.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an intelligent formula insecticidal lamp is inhaled to thing networking based on big data platform which characterized in that: the pest control device comprises a lamp body (2) for attracting pests, a collecting box (7) for collecting the pests and a monitoring module for monitoring the state of a pest killing lamp, wherein the collecting box (7) is installed at the bottom of the lamp body (2), the lamp body (2) comprises a pest attracting light source (9) installed in the lamp body (2), impact glass (3) surrounding the periphery of the lamp body (2) and a pest suction box (4) installed below the impact glass (3), pest suction holes (12) are formed in the side surface of the pest suction box (4), a negative pressure fan is installed in the pest suction box (4), and an automatic pest damage releasing mechanism is installed at the bottom of the collecting box (7); the monitoring module comprises a photosensitive sensor, a rotating speed sensor and a GPS positioning device; the photosensitive sensor is arranged in the lamp body (2), is close to the insect attracting light source (9) and is used for monitoring the working state of the insect attracting light source (9); the rotating speed sensor is arranged inside the pest suction box (4) and used for monitoring the working state of the negative pressure fan; the GPS positioning device is arranged in the lamp body (2) and is used for monitoring the geographical position of the insecticidal lamp; the photosensitive sensor, the rotating speed sensor and the GPS positioning device are respectively connected with the big data platform.

2. The intelligent air-aspiration type insecticidal lamp based on the Internet of things of the big data platform as claimed in claim 1, characterized in that: the automatic worm skeleton releasing mechanism comprises a worm skeleton releasing door (6), an automatic telescopic rod (5), a photoelectric sensor (18) and a control box (20), one side of the worm skeleton releasing door (6) is hinged with one side wall (11) of the collecting box (7), a turning edge (16) is fixedly connected to the hinged edge of the worm skeleton releasing door (6), and a turning block (17) is fixedly connected to the turning edge (16); the automatic telescopic rod (5) comprises a fixed rod (13) and a movable rod (14), one side of the fixed rod (13) is fixedly arranged on a side wall (11) hinged with the wrestle release door (6), one end of the movable rod (14) is movably connected into the fixed rod (13), the free end of the movable rod (14) is hinged with a connecting rod (15), and one end of the connecting rod (15) is hinged with a turnover block (17); the automatic telescopic rod (5) is connected with the control box (20), the telescopic of the automatic telescopic rod (5) is controlled through the control box (20), the photoelectric sensor (18) comprises a receiver and a transmitter, the receiver and the transmitter of the photoelectric sensor (18) are respectively installed on two sides of the collecting box (7), and the photoelectric sensor (18) is connected with the control box (20).

3. The intelligent air-aspiration type insecticidal lamp based on the Internet of things of the big data platform as claimed in claim 2, characterized in that: the turning edge (16) is vertical to the worm skeleton release door (6).

4. The intelligent air-aspiration type insecticidal lamp based on the Internet of things of the big data platform as claimed in claim 2, characterized in that: waterproof shells (19) are respectively arranged on the outer sides of the receiver and the emitter of the photoelectric sensor (18).

5. The intelligent air-aspiration type insecticidal lamp based on the Internet of things of the big data platform as claimed in claim 1, characterized in that: an upper mounting hanger (10) and a lower mounting hanger (8) are respectively mounted on one side of the lamp body (2).

6. The intelligent air-aspiration type insecticidal lamp based on the Internet of things of the big data platform as claimed in claim 1, characterized in that: and an eave type waterproof cover (1) is installed at the top of the lamp body (2).

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